mibs/MIBS/arris/APEX-MIB

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2023-12-05 12:25:34 +01:00
APEX-MIB DEFINITIONS ::= BEGIN
IMPORTS
MODULE-IDENTITY,
IpAddress,
TimeTicks,
OBJECT-TYPE,
NOTIFICATION-TYPE,
Counter32,
Unsigned32,
Integer32
FROM SNMPv2-SMI
DisplayString FROM SNMPv2-TC
giproducts FROM BCS-IDENT-MIB
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3,
trapChangedValueDisplayString,
trapChangedValueOID,
trapChangedValueIpAddress,
trapChangedValueInteger
FROM BCS-TRAPS-MIB;
-- ------------------------------------------------------------------------------
apex MODULE-IDENTITY
LAST-UPDATED "201410220000Z"
ORGANIZATION "ARRIS Enterprises, Inc."
CONTACT-INFO "The Technical Assistance Center (TAC) provides assistance 24 hours a day, 7 days a week.
To open a case, use one of these contact methods:
Customers in North America should call the TAC at : 1-888-944-HELP (1-888-944-4357)
Customers outside North America should call the TAC at: 1-215-323-2345
For Spanish language support, call the TAC at : 1-215-323-2346
Contact the TAC by e-mail at : Tac.Helpdesk@arrisi.com"
DESCRIPTION "The MIB module for the APEX."
REVISION "201410220000Z"
DESCRIPTION
"Version 2.10:
Nov 18, 2014
- Updated description of apexAlarmQamModuleRemovalFault
Oct 22, 2014
- Added fileSet4 to apexQrmDownloadFileSet.
Oct 17, 2014
- Added apexGbeStatInTsCurPacketDropCount to apexGbeStatusInputTsEntry
in apexGbeStatusInputTsTable.
- Changed apexGbeStatInTsPacketDropCount to apexGbeStatInTsTotPacketDropCount.
Oct 13, 2014
- Added apexMcSimConfig
- Added apexOutputProgramMcSimAccessCriteriaString.
Sep 26, 2014
- Added apexGbeStatInTsPacketDropCount to apexGbeStatusInputTsEntry
in apexGbeStatusInputTsTable.
- Added apexEnableGbeInputStreamPacketDrop to apexConfigAlarms.
- Added apexAlarmGbeInputStreamPacketDrop to apexAlarms.
- Added apexGbeStatInTsPacketDropError to apexGbeStatusInputTsErrorEntry
in apexGbeStatusInputTsErrorTable.
- Added apexGbeStatusInputTsDropCounter.
- Added trapGbeInputStreamPacketDrop.
- Added apexGbeConfigInputDataTsMaxRate to apexGbeConfigInputDataTsEntry
in apexGbeConfigInputDataTsTable.
Sep 24, 2014
- Updated the version
- Added new Alarm configuration parameter apexEnableQamModuleRemovalFault
in apexConfAlarmEnable.
- Added new Fault Alarm apexAlarmQamModuleRemovalFault in apexAlarms.
- Added new Fault Trigger apexChassisRedundancyFailOverQamModuleRemoval
in apexChassisRedundancyConfigGeneral.
- Added new Trap trapQamModuleRemovalFault in apexTraps.
Sep 18, 2014
- Updated the version.
- Added new status parameter apexOutputProgramCurrentCSN to the
apexOutputProgramTable.
- Added apexOutputTsConfAutoSDTEnable.
"
REVISION "201408040000Z"
DESCRIPTION
"Version 2.9:
July 30, 2014
- Updated the version.
- Updated valid range of apexEcmEmmFirstPid to (2..7591)
"
REVISION "201406270000Z"
DESCRIPTION
"Version 2.8:
June 27, 2014
- Updated the description of apexSimulcryptExternalEisSetting,
apexOutputTsConfEncryptionType.
June 27, 2014
- Updated the description of apexOutputTsConfSimulcryptMode.
Jun 17, 2014
- Changed the name of apexOutputProgramRdsSimAC to
apexOutputProgramMcSimAccessCriteria.
- Changed the name of to apexOutputProgramSimAcStatus
apexOutputProgramMcSimAccessCriteriaStatus
Jun 05, 2014
- Updated the description of apexOutputTsConfOperatingMode.
Jun 04, 2014
- Added two new status values for apexRdsConnectionStatus.
Jun 02,2014
- Added apexPsPowerFaultFilter
May 28, 2014
- Updated valid range of apexEcmEmmFirstPid to (2..7590)
May 21, 2014
- Renamed apexChassisRedundancyMCSimEntitlementMismatchStatus
to apexChassisRedundancyMCSimEntitlementStatus
- Renamed apexChassisRedundancyAppliedEncAlgorithmMismatchStatus
to apexChassisRedundancyAppliedEncAlgorithmStatus
May 14, 2014
- Added apexChassisRedundancyMCSimEntitlementMismatchStatus,
apexChassisRedundancyAppliedEncAlgorithmMismatchStatus.
May 12, 2014
- Added the following MIB objects.
apexEncryptionConfApplyChange
apexEncryptionConfInvalidApplyText
May 8,2014
- Added (fixed/missing MediaCipher Simulcrypt mib objects)
Mar 13, 2014
- Added apexSimulcryptEcmgStatusTable.
March 07, 2014
- Added apexUls for support of MediaCipher Simulcrypt
Oct 22, 2013
- Added the following objects
apexOutputProgramRdsSimAC
apexOutputProgramSimAcStatus
apexRdsDeviceId
- Updated the following MIB objects
apexEncryptionConfAlgorithm - Added new Algorithms for Sierra Mode
apexEncryptionStatAlgorithm - Added new Algorithms for Sierra Mode
- Updated the description for the following object
apexOutputTsConfOperatingMode
"
REVISION "201301250000Z"
DESCRIPTION
"Version 2.7:
Jan 25, 2013
- Updated the description for the following object
apexPsiCcErrorDetectionEnabled - changed the default value to enable
Jan 04, 2013
- Updated the description for the following objects
apexPsiCcErrorDetectionTimeout
apexPsiCcErrorDetectionEnabled
December 28, 2012
- Added the following objects under the group apexPsiConfigGeneral
apexPsiCcErrorDetectionTimeout
apexPsiCcErrorDetectionEnabled
"
REVISION "201208270000Z"
DESCRIPTION
"Version 2.6:
August 27, 2012
- Added apexEventLossOfInputAncillaryPid and trapLossOfInputAncillaryPidEvent
August 21, 2012
- Moved the SNMP community string change MIB parameters to private mib
July 20, 2012
- Added trap trapSnmpCommunityStringChanged and the apex event
apexEventSnmpCommunityStringChanged
Changed the OID (and moved) the trap trapEasMessageNotReceived
and the apex event apexEventEasMessageNotReceived.
July 17, 2012
- Added the below MIB objects to detect and notify the
loss of input ancillary PID.
apexPidMapInputAncillaryPidDetection,
apexPidMapInputAncillaryPidDetectionTimeout,
apexAlarmLossOfInputAncillaryPid,
apexEnableLossOfInputAncillaryPid,
trapLossOfInputAncillaryPid
- Added the apexOutputAncillaryPid to report the
average bitrate of each ancillary PID
July 12, 2012
- Added apexEventEasMessageNotReceived and updated the description of
trapEasMessageNotReceived
July 04, 2012
- Updated the description of apexPidMapConfigApplyChange parameter
- Renamed apexPidMapConfigApplyChange as apexBulkPidMapInvalidApplyText
and moved under apexPidMapStatus
June 21, 2012
- Added the below new objects to support autonegotiation
configuration.
apexOampNetworkDuplexMode, apexOampNetworkSpeed,
apexDataIpNetworkDuplexMode, apexDataIpNetworkSpeed
- Added the below new objects to get the current autonegotiation
enable/disbale status.
apexOampCurrentAutoNegotiateState,
apexDataIpCurrentAutoNegotiateState
- Removed the text 'disabled is not supported' from the
description for the following objects as disabling of
autonogotiation is supported.
apexOampAutoNegotiate, apexDataIpAutoNegotiate
- Added the following new objects to support EAS message not
received event.
apexEasMessageReceiveTimeoutDuration,
apexEasMessageReceiveTimeoutEventEnable,
apexEasLastReceivedMessageStatusTable,
trapEasMessageNotReceived
- Modified apexDtaGeneralConfigCatEmmPidInterface to support
GIGE input.
- Added apexManualRoutingServiceStatus to support maping
of error status for the services in apexManualRouteTable.
- Added apexBulkPidMapApplyTable,apexBulkPidMapTable and
apexPidMapConfigGeneral to support ancillary PID routing for
all QAM's.
"
REVISION "201102150000Z"
DESCRIPTION
"Version 2.5:
February 15, 2011
- Updated the description for apexDtaConfigApplyChange
- Corrected the range of values for apexQamRfPortChannelInfoChanA.
January 27, 2011
- Updated the description for apexDtaGeneralConfigInvalidApplyText.
January 10, 2011
- Added apexChassisRedundancyRedundantApexSecIp,
apexChassisRedundancyRedundantHBEnable,
apexChassisRedundancyCurrHBIntfIPStatus
December 20, 2010
- apexQamConfigApplyTable does not set apply change for apexQamChannelConfigTable
- Added channel apply table apexQamChannelConfigApplyTable
- Added status MIB variables for 4x4 apexQamModuleStatBoardTemperature,
apexQamModuleStatBoardTemperatureFault, apexQamModuleStat5VdcSupplym,
apexQamModuleStat5VdcFault, apexQamModuleStat3dot3VdcSupply,
apexQamModuleStat3dot3VdcFault, apexQamModuleStatCommError,
apexQamModuleStatCodeInitError
- Added QAM versions MIB variable apexQamQrmRevFpga2
- Added QAM version status MIB variable apexQamQrmRevStatFpga2
- Added QAM file revision information MIB variables apexQrmFileRevFpga2
and apexQrmFileRevDateTime
- Added EM support MIB tables apexQamRfPortChannelInfoTable and
apexQamChannelIdTable
- Added 4x4 error codes dc5VoltError,dc3-3VoltError,commLost,codeVersions,
codeDownload,codeDownloadError
- Number of RF ports increased to 12 for apexQamConfigApplyRfPortNum
- Number of RF ports increased to 12 for apexQamRfPortStatRfPortNum
- Number of RF ports increased to 12 for apexQamRfPortMuteStatusRfPortNum
- Number of File Revisisons increased to 3 for apexQrmFileRevFileSetNum
- Number of RF ports increased to 12 for apexRpcRfPortNum
- Number of RF ports increased to 12 for apexEasServerNum
- Added qam4x4Channel for apexQamModuleStatInstalled
- Added any4x4 for apexQamRfRedundStatusMismatch MIB parameter
- Added fileSet3 for apexQrmDownloadFileSet MIB parameter
December 10, 2010
- Updated RF Port and OTS numbers mapping in the description for apexDtaConfigApplyChange.
December 6, 2010
- Changed the range of apexDtaConfigApplyIndex and apexDtaRfPortConfigIndex
from '1 to 6' to '1 to 12' to support 4x4 QAM also.
December 3, 2010
- Added apexOutputTsStatusServicesMuxed new OutputStream stats field
November 23, 2010
- Added new pid-remapping mode 'unrestricted'
November 18, 2010
- Added new configuration parameter apexProgramBasedPmtOffset
- Added new pid remapping mode remapProgramBased2
November 11, 2010
- Obsoleted apexEventChassisRedunPrimaryForceFailover,
apexEventChassisRedunSecondaryForceFailover.
- Added apexChassisRedundancyGigEMismatchStatus, apexChassisRedundancyQamMismatchStatus,
apexChassisRedundancyFirmwareMismatchStatus.
- Added apexChassisRedundancyGigE12LinkStatus, apexChassisRedundancyGigE34LinkStatus.
"
REVISION "201008170000Z"
DESCRIPTION
"Version 2.3:
August 17, 2010
- Added new values for apexRtspConfMhaSbeApsLevel.
July 23, 2010
- Added apexChassisRedundancyPrimaryStandbyOverride which
will force the primary apex to go active
"
REVISION "201006300000Z"
DESCRIPTION
"Version 2.2:
June 30, 2010
- Renamed apexManRteGbeInRedConfigStatMapTable to apexManRteGbeInRedStatusMapTable,
and moved the table to apexManualRoutingStatus Group.
June 29, 2010
- Added apexManRteGbeInRedConfigStatMapTable to provide the mapping
between apexManRteGbeInRedTable and apexInputTsStatTable.
- Corrected parent node for apexManRteGbeInRedApplyEntry to
apexManRteGbeInRedApplyTable.
June 25, 2010
- Obsoleted apexEasApplyChange, apexEasPhysInType,
apexEasPhysInPort, apexEasRcvUdpPort, apexEasMulticastIpAddress,
apexEasSourceIpAddress.
- Added apexEasServerTable containing apexEasServerNum,
apexEasServerPhysInType, apexEasServerPhysInPort, apexEasServerRcvUdpPort,
apexEasServerMulticastIpAddress, apexEasServerSourceIpAddress.
- Added apexEasServerApplyTable which includes
apexEasServerApplyChange.
June 24, 2010
- Added enumeration to apexQamRfPortStatCodeInitError.
June 22, 2010
- Changed range of apexQamRfPortStatNumChannelsActive to 0..8.
- Changed descriptions of apexQamModuleStatTemperature,
apexQamModuleStatPowerFault, apexQamQrmRevFpga,
apexQamRfPortStatTemperature, and apexQamQrmRevBootLoaderFw.
- Moved apexRpcRfPortTable and apexRpcRfChannelTable to the
apexRpcConfig group and renumbered apexRpcAvgBandwidthEnable,
and apexRpcApplyChange in apexRpcConfigGeneral.
June 16, 2010
- Added apexRpcDeviceName, apexRpcDeviceType, apexRpcControlInterface,
apexRpcNumShellSessions, apexRpcRfPortTable, apexRpcRfChannelTable,
apexRpcAvgBandwidthEnable, apexRpcApplyChange.
June 14, 2010
- Added apexOutputTsStatusScgsProvisioned.
June 10, 2010
- Moved apexRdsEventTable to apexRdsStatus group from
apexManualRoutingStatus group.
June 04, 2010
- Removed apexDtaEventTable.
- Renamed apexIppvEventTable to apexRdsEventTable and renamed
all the members from apexIPPVEvent*** to apexRdsEvent***.
- Added apexRdsEventPrkmWkemAvailable and apexRdsEventCcmAvailable
members in the table apexRdsEventTable.
June 03, 2010
- Modified the scalar apexOutputProgramDtaServiceEncryptionMode
to apexOutputProgramDtaEncryptionMode.
- Updated the description of apexRdsSetDefault.
May 28, 2010
- Added the following MIB variables
apexDtaEventTable, apexOutputProgramDtaServiceEncryptionMode
apexOutputProgramDtaServiceEncryptionMode.
May 27, 2010
- Added apexChassisRedundancyEventTable.
May 25, 2010
- Added apexOutputTsStatusMessageGenerationNum.
May 18, 2010
- Changed apexPidMapIndex and apexPidMapApplyIndex size.
May 10, 2010
- Added the static routing configuration table apexFastEnetRoutingTable.
May 5, 2010
- Added Follow DTCP support variables, apexSesContConfFollowDtcp and
apexUdpMapFollowDtcp.
April 13, 2010
- Updated the resource descriptions for MIB variables after review.
April 7, 2010
- Changed description of apexDepiSessionConfigUdpPort to reflect
new range.
March 25, 2010
- Added the following configuration parameters:
apexIppvEventTable, apexOutputProgramProgramType,
apexRdsConfigRds2Enable, apexRdsConfigServerUrl,
apexRdsStatusServerIp, apexRdsStatusServerPort,
apexRdsStatusServerRootDirPath, and apexRdsStatusValidation.
March 10, 2010
- Changed the apexDepiSessionConfigUdpPort field possible range.
March 8, 2010
- Added apexDepiSessionStatusSessionID new Depi Session Status field.
"
REVISION "201003050000Z"
DESCRIPTION
"Version 2.1:
March 5, 2010
- Changed comment in apexSesContConfRedundType description field.
February 19, 2010
- Change range for MHA and RTSP Manager ports.
"
REVISION "201001190000Z"
DESCRIPTION
"Version 2.0:
January 19, 2010
- Added comments in apexPsipStatusInputMessageType description field.
- Added comments in apexPsipStatusOutputMessageType description field.
January 13, 2010
- Added apexRtspConfMhaSbe, apexRtspConfMhaSbeEncryptionMode,
apexRtspConfMhaSbeCciLevel, apexRtspConfMhaSbeApsLevel,
apexRtspConfMhaSbeCitSetting, apexRtspConfMhaSbeApplyChange,
apexRtspConfMhaGeneral, and apexRtspConfMhaUdpMapEnable.
- Added 'Not supported' to apexDepiControlConfigType.
December 28, 2009
- Added apexGbeIpFragmentedPkts and apexGbeTotalIpFragmentedPkts.
December 22, 2009
- Changed SYNTAX of apexPsipConfigApplyChange and
apexPsipConfigTimeApplyChange to ApplyDataToDeviceTYPE.
December 18, 2009
- Changed apexPsipApplyChange to apexPsipConfigApplyChange
in descriptions for apexPsipConfigGeneral entries.
- Changed apexPsipApplyTimeChange to
apexPsipConfigTimeApplyChange in descriptions for
apexPsipConfigTime entries.
- Changed SDM file annotation to config.ini for
apexGbeConfInputUnicastTimeout,
apexGbeConfInputMulticastTimeout, and
apexGbeConfLossOfInputTsType.
December 17, 2009
- Deleted duplicate header comment and removed extraneous line
termination characters.
December 14, 2009
- Added SDM Commit annotations and additional text to the descriptions
of apexMcEmmInsertionMode, apexMcEmmInsertionPid1Enable,
apexMcEmmInsertionPid1, apexMcEmmInsertionPid2Enable, and
apexMcEmmInsertionPid2.
December 3, 2009
- Removed 'Not supported' from apexOutputTsConfPsipEnable
description.
November 17, 2009
- Added apexGbeStatusInterfaceRedundFaultCondition.
November 12, 2009
- Added zero as valid integer and updated description for
apexGbeStatusInterfaceRedundActiveIf.
November 6, 2009
- Corrected index in apexGbeStatusInterfaceRedundEntry.
November 5, 2009
- Changed description for apexGbeConfIfRedundForceFailover.
November 4, 2009
- Added apexGbeStatusInterfaceRedund and apexGbeConfigInterfaceRedundancy.
- Corrected range on apexChassisRedundancyUdpPort
November 2, 2009
- Added trapGigeToHostCommFault
October 30, 2009
- Added apexQamRfPortStatCodeInitError, apexQamQrmRevisionStatusTable,
apexQrmDownloadConfigTable, apexQrmDownloadSupported, apexQrmDownloadRequired,
apexQrmDownloadFileSet, and apexQrmFileRevisionTable.
October 29, 2009
- Made apexSesContConfRedundThreshold obsolete.
October 29, 2009
- Added apexPsipStatusServiceTable.
- Added apexPsipStatusOutputTable.
- Added apexPsipStatusInputTable.
October 29, 2009
- Added apexAlarmGigeToHostCommFault
October 26, 2009
- Added apexGbeConfInRedundManualRouteRedundType and
apexSesContConfRedundType.
October 19, 2009
- Merged 2.3.x MIB (version 1.9).
- Brought in version 1.9 Revision Description.
October 7, 2009
- Added apexRtspStatQamMptsModeTable.
October 2, 2009
- Added apexRtspConfMhaTable.
September 30, 2009
- Added apexPsip group.
September 17, 2009
- Added apexGbeRxDocsisFrames, apexGbeRxMpegDocsisFrames,
and apexGbeTotalRxDocsisFrames.
September 9, 2009
- Added apexGbeConfInputUnicastTimeout,
apexGbeConfInputMulticastTimeout,
and apexGbeConfLossOfInputTsType.
June 2, 2009
- Merged 2.1.1E MIB (version 1.7).
- Brought in version 1.7 Revision Description.
"
REVISION "200910160000Z"
DESCRIPTION
"Version 1.10:
October 16, 2009
- Added apexSysConfigMcEmmInsertion.
"
REVISION "200909140000Z"
DESCRIPTION
"Version 1.9:
October 8, 2009
- Added enumeration for Watchdog Reboot Reason.
September 14, 2009
- Corrected @Commit annotation in Chassis redundancy and DTA
CAT configuration params.
September 07, 2009
- Added apexChassisRedundancyGeneralConfigSyncStatusText.
August 31, 2009
- Changed enumeration values of
apexChassisRedundancyMulticastRedundancyMode.
August 26, 2009
- Added apexQamRfPortMuteStatusTable.
August 19, 2009
- Removed DTA Network pid params from apexQamRfConfigTable,
DTA Enable from apexQamChannelConfigTable,
and apexQamStatusInvalidApplyText.
- Added apexDtaConfigApplyTable, apexDtaRfPortConfigTable and
apexDtaOtsConfigTable.
August 17, 2009
- Added apexChassisRedundancyUdpPort,
apexChassisRedundancyRedundantApexIp,
apexChassisRedundancyFailOverEnet2LinkLoss,
apexChassisRedundancyStatusInvalidApplyText,
apexEventChassisRedunPrimaryForceFailover,
apexEventChassisRedunSecondaryForceFailover,
apexEventChassisRedunFirmwareVersionMismatch, and
apexEventChassisRedunQAMVersionMismatch.
August 13, 2009
- Added apexDtaGeneralConfigInvalidApplyText, apexQamStatusInvalidApplyText
to know DTA CAT, NET and EMM pid number validation status from host.
August 06, 2009
- Removed apexEventChassisRedundancySecondaryFailOver.
- Added apexAlarmChassisRedundancySecondaryFailover and
apexEnableChassisRedundancySecondaryFailover.
August 5, 2009
- DTA NET and CAT/EMM pid ranges and default values are changed.
August 3, 2009
- Added apexDtaConfigApplyChange parameter.
- Added/Merged Chassis level DTA parameters, RF Port level DTA
parameters and DTA enable status for each OTS/QAM Channel.
July 31, 2009
- Added apexChassisRedundancyConfigApplyChange and
apexChassisRedundancyConfigEnable.
June 26, 2009
- Removed apexChassisRedundancyFailOverHwFault.
June 25, 2009
- Added Suspend and Config Sync states to primary and
secondary apex status params.
June 9, 2009
- Added apexOampLinkActive and apexDataIpLinkActive.
May 27, 2009
- Added Chassis Redundancy groups apexChassisRedundancyConfig
and apexChassisRedundancyStatus.
- Added Chassis Redundancy alarms, events, and traps.
"
REVISION "200906090000Z"
DESCRIPTION
"Version 1.8:
June 9, 2009
- Added apexOampLinkActive and apexDataIpLinkActive.
"
REVISION "200904200000Z"
DESCRIPTION
"Version 1.7:
Based on 2.1.0 and it does not contain MIB changes from
MIB version 1.5 and 1.6.
[Apex 2.2 release and Apex 2.1.4 release.]
April 20, 2009
- Removed @Config(config=yes, reboot=no)
@Commit(param=apexDepiControlConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
from table objects and put into apexDepiControlConfigTable.
- Did the same for apexDepiSessionConfigTable.
April 08, 2009
- Put back apexDepiSessionStatusInSequenceDiscards back in.
April 02, 2009
- Removed apexDepiSessionStatusInSequenceDiscards
- Changed enums of Control and Session status
March 19, 2009
- Updated the DEPI Statistics and status related MIBs.
- Removed Mcmts from the DEPI related MIB groups
- Renamed mcmtsDocsis operating mode to Depi
- Renamed apexMcmtsDepiControlConfigDynamic to
apexDepiControlConfigType
- Added the DtiSyncLoss Trap
February 9, 2009
- Added M-CMTS support group apexDepiControl.
- Added mcmtsDocsis to apexOutputTsConfOperatingMode
"
REVISION "200904080000Z"
DESCRIPTION
"Version 1.6:
[Note: Version 1.6 was for APEX Release 2.1.5. Changes in this
version are also in Version 1.5. This description is
added to the merged Version 2.0 for completeness.]
April 8, 2009
- Added apexUdpMapMulticastTable, apexUdpMapMulticastApplyTable,
apexUdpMapStatusGeneral, apexUdpMapMulticastInvalidApplyText.
"
REVISION "200904140000Z"
DESCRIPTION
"Version 1.5:
April 14, 2009
- Added apexUdpMapStatusGeneral, apexUdpMapMulticastInvalidApplyText.
April 13, 2009
- Added apexUdpMapMulticastTable, apexUdpMapMulticastApplyTable.
March 31, 2009
- Added dvb-csa-simulcrypt to list for Encryption algorithm
March 24, 2009
- Added apexGbeInputDataTsSmoothingPeriod, apexGbeInputDataTsBufferDepth
apexGbeConfigInputDataTsApplyText, apexGbeConfigInputDataTsTable,
apexGbeConfigInputDataTsApplyTable.
"
REVISION "200903230000Z"
DESCRIPTION
"Version 1.4:
March 24, 2009
- Added remapProgramBased to apexOutputTsConfPidRemappingMode.
March 23, 2009
- Added 3, 5, and 7 to range of apexQamRfConfigNumChannelsEnabled.
March 20, 2009
- Added apexEcmEmmFirstPid, apexEcmEmmNumberPids,
apexSimulcryptExternalEisSetting, apexSimulcryptEmEnable
- Changed range of apexUdpMapNumberProgs.
February 12, 2009
- Added apexSimulcryptEmEnable.
February 6, 2009
- Added apexGbeSfp.
January 8, 2009
- Added apexOutputTsConfApplyTable and
apexOutputTsStatusInvalidApplyText.
- Fixed header comment group numbers for apexOutputTsConfig.
"
REVISION "200903100000Z"
DESCRIPTION
"Version 1.3:
March 10, 2009
- Added apexGbeNominalBufferLevel.
- Made apexGbeJitterAbsorption obsolete.
February 18, 2009
- Added RF Redundancy and REM alarm codes to apexHwEventAlarmCode
description.
February 5, 2009
- Added 'warning' severity to apexAlarmRemFault description.
January 21, 2009
- Changed apexQamRfConfigRfLevelAttenuation range and
description.
- Changed apexQamChanStatActive description to reflect
QAM RF Redundancy.
December 5, 2008
- Added apexQamRfRedundStatusInvalidApplyText and
apexQamRfRedundConfigRemDirectIpOctet1.
- Changed apexQamRfRedundConfigRemIpAddr to
apexQamRfRedundConfigRemCommonIpAddr.
November 25, 2008
- Added apexOutputTsStatusServicesInError.
October 31, 2008
- Added apexDpmVersion.
October 27, 2008
- Changed apexQamRfRedundConfigApplyChange Syntax to ApplyDataToDeviceTYPE.
October 16, 2008
- Added apexQamRfRedundancyConfig.
- Added apexQamRfRedundancyStatus.
- Added apexOampInputTsAssignedCount to apexOampStatusGeneral.
- Added apexDataIpInputTsAssignedCount, apexDataIpAddrInUse,
apexDataIpSubnetMaskInUse, and apexDataIpInUseReason to
apexDataIpStatusGeneral.
- Added apexAlarmQamRfRedundFailOver, apexAlarmQamRfRedundMismatch,
apexAlarmRemCommFault, apexAlarmRemFault, apexEnableQamRfRedundFailOver,
apexEnableQamRfRedundMismatch, apexEnableRemCommFault, apexEnableRemFault,
trapQamRfRedundFailOver, trapQamRfRedundMismatch, trapRemCommFault,
trapRemFault.
"
REVISION "200807240000Z"
DESCRIPTION
"Version 1.2:
July 24, 2008
- Added apexEncryptionEmmGoodDeliveryTimeMs, apexEncryptionEmmMaxDeliveryTimeMs
apexEncryptionEmmMinDeliveryTimeMs, and apexEncryptionMcDiagTable
to apexEncryptionCwgStatus section.
July 15, 2008
- Added range to syntax of apexSntpUtcOffset.
July 09, 2008
- Added 'annexC-Asia-Pacific' enumeration to
apexQamConfigTransmissionMode.
- Added enumerations to apexQamRfPortStatError and changed
the description.
- Added apexEncryptionCwgStatus variables for debug of cwg manager
processing in the field.
June 26, 2008
- Increased range of apexPsiStatusIndex from 768 to 784.
June 25, 2008
- Added apexQrmDownload group.
- Added apexOutputProgramSourceId and apexOutputProgramProviderId.
- Changed descriptions of apexManualRouteInputType,
apexManualRouteSourceId, apexManualRouteProviderId,
apexManRtePassThroughInputType, and apexPidMapInputType.
- Added enumerations to apexRtspStatControllerDiscovery
and apexRtspStatControllerConnection.
June 23, 2008
- Added to apexAcpStatusTable: apexAcpUnitAttribute.
June 20, 2008
- Added to apexAcpStatusTable: apexAcpEvenCsn and apexAcpOddCsn.
June 6, 2008
- Added apexFastEnetInsertRateTable, apexFastEnetStatusPacketsTable,
and apexFastEnetInsertPacketsTable.
June 3, 2008
- Added udpMapping enumeration to apexInputTsStatRoutingType.
- Added encryption status to apexOutputProgramTable:
apexOutputProgramError, apexOutputProgramEncryptionMode,
apexOutputProgramEncryptionStatus, apexOutputProgramEcmServiceId,
apexOutputProgramCciLevel, apexOutputProgramApsLevel,
apexOutputProgramCitSetting, apexOutputProgramNumberTiers, and
apexOutputProgramTierData.
June 2, 2008
- Added apexManualRouteRmdClear.
May 12, 2008
- Added apexEncryption group and apexOutputTsConfEncryptionType.
May 8, 2008
- Added apexRds group.
- Added apexAlarmRdsCommFault and trapRdsCommFault.
April 4, 2008
- Added apexUdpPortMapping group.
- Added udpMapping enumeration to apexOutputTsConfOperatingMode.
"
REVISION "200807080000Z"
DESCRIPTION
"Version 1.1:
July 8, 2008
- Added enumerations to apexQamRfPortStatError and changed
the description.
July 1, 2008
Changes to support ITU-T J.83 Annex A and C QAM:
- Added 'annexC-Asia-Pacific' enumeration to
apexQamStatusTransmissionMode.
- Changed descriptions of: apexQamRfConfigNumChannelsEnabled,
apexQamRfConfigSymbolRate, apexQamRfConfigEiaFrequencyPlan,
apexQamRfConfigEiaChanNumChannelA, apexQamRfConfigRfCenterFreqChannelA,
apexQamRfConfigRfChanSpacing, apexQamRfConfigInterleaverDepth1,
and apexQamRfConfigInterleaverDepth2.
"
REVISION "200802181400Z"
DESCRIPTION
"Version 1.0:
February 18, 2008
- Initial Revision."
::= {giproducts 31}
-- ------------------------------------------------------------------------------
-- REUSABLE TYPE DEFINITIONS
--
NetworkDuplexModeTYPE ::= INTEGER
{
halfDuplex (1),
fullDuplex (2)
}
NetworkSpeedTYPE ::= INTEGER
{
speed10Mbps (1),
speed100Mbps (2)
}
EnableDisableTYPE ::= INTEGER
{
disabled (1),
enabled (2)
}
ActiveTYPE ::= INTEGER
{
notApplicable (0),
notActive (1),
active (2)
}
ApplyDataToDeviceTYPE ::= INTEGER
{
applyNotInProgress (1),
apply (2),
applyNotInProgressValidData (3),
applyNotInProgressInvalidData (4)
}
ResetStatisticsTYPE ::= INTEGER
{
resetNotInProgress (1),
reset (2)
}
ClearAlarmTYPE ::= INTEGER
{
clearAlarmNotInProgress (1),
clearAlarm (2)
}
RateComparisonTYPE ::= INTEGER
{
dataRate (1),
transportStreamRate (2)
}
InputTsStateTYPE ::= INTEGER
{
closed (0),
openedInUse (1),
openedBackup (2),
openedTransToBackup (3),
openedTransToInUse (4)
}
EthernetInterfaceTYPE ::= INTEGER
{
enet1 (1),
enet2 (2)
}
InputInterfaceTYPE ::= INTEGER
{
enet1 (1),
enet2 (2),
gige1 (3),
gige2 (4),
gige3 (5),
gige4 (6)
}
ClearCountersTYPE ::= INTEGER
{
clearNotInProgress (1),
clear (2)
}
--
-- APEX MIB STRUCTURE
--
-- The following duplicates the structure and entries in the APEX MIB.
-- Object identifiers for groups are defined here.
--
apexSys OBJECT IDENTIFIER ::= {apex 1}
apexSysConfig OBJECT IDENTIFIER ::= {apexSys 1}
apexSysConfigGeneral OBJECT IDENTIFIER ::= {apexSysConfig 1}
-- apexSaveConfig {apexSysConfigGeneral 1}
-- apexProductName {apexSysConfigGeneral 2}
-- apexBootMethod {apexSysConfigGeneral 3}
-- apexAutoRebootEnable {apexSysConfigGeneral 4}
apexSysConfigMcEmmInsertion OBJECT IDENTIFIER ::= {apexSysConfig 2}
-- apexMcEmmInsertionMode {apexSysConfigMcEmmInsertion 1}
-- apexMcEmmInsertionPid1Enable {apexSysConfigMcEmmInsertion 2}
-- apexMcEmmInsertionPid1 {apexSysConfigMcEmmInsertion 3}
-- apexMcEmmInsertionPid2Enable {apexSysConfigMcEmmInsertion 4}
-- apexMcEmmInsertionPid2 {apexSysConfigMcEmmInsertion 5}
-- apexMcEmmInsertionApplyChange {apexSysConfigMcEmmInsertion 6}
apexSysStatus OBJECT IDENTIFIER ::= {apexSys 2}
apexSysStatusGeneral OBJECT IDENTIFIER ::= {apexSysStatus 1}
-- apexBootReason {apexSysStatusGeneral 1}
-- apexMaxServiceMappings {apexSysStatsgGeneral 2}
apexSysStatusVersions OBJECT IDENTIFIER ::= {apexSysStatus 2}
-- apexHostProcessorBootCodeVersion {apexSysStatusVersions 1}
-- apexMuxFpgaVersion {apexSysStatusVersions 2}
-- apexMuxFpgaEncryption {apexSysStatusVersions 3}
-- apexMainBoardVersion {apexSysStatusVersions 4}
-- apexHostApplicationDate {apexSysStatusVersions 5}
-- apexProductType {apexSysStatusVersions 6}
-- apexMainBoardType {apexSysStatusVersions 7}
-- apexGlueFpgaVersion {apexSysStatusVersions 8}
-- apexGlueCpldVersion {apexSysStatusVersions 9}
-- apexDtiFpgaVersion {apexSysStatusVersions 10}
-- apexMpc2FpgaVersion {apexSysStatusVersions 11}
-- apexDpmVersion {apexSysStatusVersions 12}
apexTime OBJECT IDENTIFIER ::= {apex 2}
apexTimeConfig OBJECT IDENTIFIER ::= {apexTime 1}
apexTimeConfigGeneral OBJECT IDENTIFIER ::= {apexTimeConfig 1}
-- apexTimeSource {apexTimeConfigGeneral 1}
-- apexSntpUtcOffset {apexTimeConfigGeneral 2}
-- apexSntpServerSpecified {apexTimeConfigGeneral 3}
-- apexSntpServerIpAddr {apexTimeConfigGeneral 4}
-- apexUserSuppliedTime {apexTimeConfigGeneral 5}
apexTimeStatus OBJECT IDENTIFIER ::= {apexTime 2}
apexTimeStatusGeneral OBJECT IDENTIFIER ::= {apexTimeStatus 1}
-- apexSystemTime {apexTimeStatusGeneral 1}
-- apexOperationalTime {apexTimeStatusGeneral 2}
apexTemperature OBJECT IDENTIFIER ::= {apex 3}
apexTemperatureConfig OBJECT IDENTIFIER ::= {apexTemperature 1}
apexTemperatureConfigGeneral OBJECT IDENTIFIER ::= {apexTemperatureConfig 1}
apexTemperatureStatus OBJECT IDENTIFIER ::= {apexTemperature 2}
apexTemperatureStatusGeneral OBJECT IDENTIFIER ::= {apexTemperatureStatus 1}
apexMainBoardTemperature OBJECT IDENTIFIER ::= {apexTemperatureStatus 2}
-- apexMainBoardTempFrontIntake {apexMainBoardTemperature 1}
-- apexMainBoardTempMuxFpga {apexMainBoardTemperature 2}
-- apexMainBoardTempAcpModule {apexMainBoardTemperature 3}
-- apexMainBoardTempHostProcessor {apexMainBoardTemperature 4}
apexMainBoardTemperatureFault OBJECT IDENTIFIER ::= {apexTemperatureStatus 3}
-- apexMainBoardTempFrontIntakeFault {apexMainBoardTemperatureFault 1}
-- apexMainBoardTempMuxFpgaFault {apexMainBoardTemperatureFault 2}
-- apexMainBoardTempAcpModuleFault {apexMainBoardTemperatureFault 3}
-- apexMainBoardTempHostProcessorFault {apexMainBoardTemperatureFault 4}
apexPowerSupply OBJECT IDENTIFIER ::= {apex 4}
apexPsConfig OBJECT IDENTIFIER ::= {apexPowerSupply 1}
apexPsConfigGeneral OBJECT IDENTIFIER ::= {apexPsConfig 1}
-- apexPsPowerFaultFilter {apexPsConfigGeneral 1}
apexPsStatus OBJECT IDENTIFIER ::= {apexPowerSupply 2}
apexPsStatusGeneral OBJECT IDENTIFIER ::= {apexPsStatus 1}
-- apexPsStatusTable {apexPsStatus 2}
-- apexPsStatusEntry {apexPsStatusTable 1}
-- apexPsStatusPsNum {apexPsStatusEntry 1}
-- apexPsStatusInstalled {apexPsStatusEntry 2}
-- apexPsStatusOutputVoltage {apexPsStatusEntry 3}
-- apexPsStatusOutputCurrent {apexPsStatusEntry 4}
-- apexPsStatusFanSpeed {apexPsStatusEntry 5}
-- apexPsStatusFanStatus {apexPsStatusEntry 6}
-- apexPsStatusTemperatureStatus {apexPsStatusEntry 7}
-- apexPsStatusInputPowerStatus {apexPsStatusEntry 8}
-- apexPsStatusOutputPowerStatus {apexPsStatusEntry 9}
-- apexPsStatusErrorStatus {apexPsStatusEntry 10}
-- apexPsStatusFaultCondition {apexPsStatusEntry 11}
-- apexPsStatusDiagnosticData1 {apexPsStatusEntry 12}
-- apexPsStatusDiagnosticData2 {apexPsStatusEntry 13}
-- apexPsStatusCommError {apexPsStatusEntry 14}
-- apexPsStatusVersionsTable {apexPsStatus 3}
-- apexPsStatusVersionsEntry {apexPsStatusVersionsTable 1}
-- apexPsStatusVersionsPsNum {apexPsStatusVersionsEntry 1}
-- apexPsStatusVersionsModel {apexPsStatusVersionsEntry 3}
-- apexPsStatusVersionsSerialNumber {apexPsStatusVersionsEntry 4}
apexAsi OBJECT IDENTIFIER ::= {apex 5}
apexAsiConfig OBJECT IDENTIFIER ::= {apexAsi 1}
apexAsiMonitorPortConfig OBJECT IDENTIFIER ::= {apexAsiConfig 2}
-- apexAsiMonitorPortOutputTsNum {apexAsiMonitorPortConfig 1}
-- apexAsiMonitorPortEncryption {apexAsiMonitorPortConfig 3}
apexFastEnet OBJECT IDENTIFIER ::= {apex 6}
apexFastEnetConfig OBJECT IDENTIFIER ::= {apexFastEnet 1}
apexFastEnetConfigGeneral OBJECT IDENTIFIER ::= {apexFastEnetConfig 1}
-- apexFastEnetDefaultGateway {apexFastEnetConfigGeneral 1}
-- apexFastEnetInsertRateTable {apexFastEnetConfigGeneral 2}
-- apexFastEnetInsertRateEntry {apexFastEnetInsertRateTable 1}
-- apexFastEnetInsertRateOutputTsNum {apexFastEnetInsertRateEntry 1}
-- apexFastEnetInsertRate {apexFastEnetInsertRateEntry 2}
-- apexFastEnetRoutingApplyChange {apexFastEnetConfigGeneral 3}
-- apexFastEnetRoutingTable {apexFastEnetConfig 2}
-- apexFastEnetRoutingEntry {apexFastEnetRoutingTable 1}
-- apexFastEnetRoutingIndex {apexFastEnetRoutingEntry 1}
-- apexFastEnetRoutingDestinIp {apexFastEnetRoutingEntry 2}
-- apexFastEnetRoutingGatewayIp {apexFastEnetRoutingEntry 3}
-- apexFastEnetRoutingSubnetMask {apexFastEnetRoutingEntry 4}
apexFastEnetStatus OBJECT IDENTIFIER ::= {apexFastEnet 2}
apexFastEnetStatusGeneral OBJECT IDENTIFIER ::= {apexFastEnetStatus 1}
-- apexFastEnetMaxInputUdpPorts {apexFastEnetStatusGeneral 1}
-- apexFastEnetStatusPacketsTable {apexFastEnetStatus 2}
-- apexFastEnetStatusPacketsEntry {apexFastEnetStatusPacketsTable 1}
-- apexFastEnetPacketsPortNum {apexFastEnetStatusPacketsEntry 1}
-- apexFastEnetPacketsNumPkts {apexFastEnetStatusPacketsEntry 2}
-- apexFastEnetPacketsTotPkts {apexFastEnetStatusPacketsEntry 3}
-- apexFastEnetPacketsNumDiscarded {apexFastEnetStatusPacketsEntry 4}
-- apexFastEnetPacketsTotDiscarded {apexFastEnetStatusPacketsEntry 5}
-- apexFastEnetInsertPacketsTable {apexFastEnetStatus 3}
-- apexFastEnetInsertPacketsEntry {apexFastEnetInsertPacketsTable 1}
-- apexFastEnetInsPacketsOutputTsNum {apexFastEnetInsertPacketsEntry 1}
-- apexFastEnetInsPacketsNumPkts {apexFastEnetInsertPacketsEntry 2}
-- apexFastEnetInsPacketsTotPkts {apexFastEnetInsertPacketsEntry 3}
-- apexFastEnetInsPacketsNumDiscarded {apexFastEnetInsertPacketsEntry 4}
-- apexFastEnetInsPacketsTotDiscarded {apexFastEnetInsertPacketsEntry 5}
apexOamp OBJECT IDENTIFIER ::= {apexFastEnet 3}
apexOampConfig OBJECT IDENTIFIER ::= {apexOamp 1}
apexOampConfigGeneral OBJECT IDENTIFIER ::= {apexOampConfig 1}
-- apexOampIpAddr {apexOampConfigGeneral 1}
-- apexOampSubnetMask {apexOampConfigGeneral 2}
-- apexOampAutoNegotiate {apexOampConfigGeneral 3}
-- apexOampNetworkDuplexMode {apexOampConfigGeneral 4}
-- apexOampNetworkSpeed {apexOampConfigGeneral 5}
apexOampStatus OBJECT IDENTIFIER ::= {apexOamp 2}
apexOampStatusGeneral OBJECT IDENTIFIER ::= {apexOampStatus 1}
-- apexOampMacAddr {apexOampStatusGeneral 1}
-- apexOampSpeed {apexOampStatusGeneral 2}
-- apexOampDuplexMode {apexOampStatusGeneral 3}
-- apexOampInputTsAssignedCount {apexOampStatusGeneral 4}
-- apexOampLinkActive {apexOampStatusGeneral 5}
-- apexOampCurrentAutoNegotiateState {apexOampStatusGeneral 6}
apexDataIp OBJECT IDENTIFIER ::= {apexFastEnet 4}
apexDataIpConfig OBJECT IDENTIFIER ::= {apexDataIp 1}
apexDataIpConfigGeneral OBJECT IDENTIFIER ::= {apexDataIpConfig 1}
-- apexDataIpAddr {apexDataIpConfigGeneral 1}
-- apexDataIpSubnetMask {apexDataIpConfigGeneral 2}
-- apexDataIpAutoNegotiate {apexDataIpConfigGeneral 3}
-- apexDataIpNetworkDuplexMode {apexDataIpConfigGeneral 4}
-- apexDataIpNetworkSpeed {apexDataIpConfigGeneral 5}
apexDataIpStatus OBJECT IDENTIFIER ::= {apexDataIp 2}
apexDataIpStatusGeneral OBJECT IDENTIFIER ::= {apexDataIpStatus 1}
-- apexDataIpMacAddr {apexDataIpStatusGeneral 1}
-- apexDataIpSpeed {apexDataIpStatusGeneral 2}
-- apexDataIpDuplexMode {apexDataIpStatusGeneral 3}
-- apexDataIpInputTsAssignedCount {apexDataIpStatusGeneral 4}
-- apexDataIpAddrInUse {apexDataIpStatusGeneral 5}
-- apexDataIpSubnetMaskInUse {apexDataIpStatusGeneral 6}
-- apexDataIpInUseReason {apexDataIpStatusGeneral 7}
-- apexDataIpLinkActive {apexDataIpStatusGeneral 8}
-- apexDataIpCurrentAutoNegotiateState {apexDataIpStatusGeneral 9}
apexGbe OBJECT IDENTIFIER ::= {apex 7}
apexGbeConfig OBJECT IDENTIFIER ::= {apexGbe 1}
apexGbeConfigGeneral OBJECT IDENTIFIER ::= {apexGbeConfig 1}
-- apexGbeDefaultGateway1 {apexGbeConfigGeneral 1}
-- apexGbeDefaultGateway2 {apexGbeConfigGeneral 2}
-- apexGbeJitterAbsorption [obsolete] {apexGbeConfigGeneral 3}
-- apexGbeGarpPeriodicity {apexGbeConfigGeneral 4}
-- apexGbeConfigTableApplyChange {apexGbeConfigGeneral 5}
-- apexGbeNominalBufferLevel {apexGbeConfigGeneral 6}
-- apexGbeInputDataTsSmoothingPeriod {apexGbeConfigGeneral 7}
-- apexGbeInputDataTsBufferDepth {apexGbeConfigGeneral 8}
-- apexGbeConfigInputDataTsApplyText {apexGbeConfigGeneral 9}
-- apexGbeConfInputUnicastTimeout {apexGbeConfigGeneral 10}
-- apexGbeConfInputMulticastTimeout {apexGbeConfigGeneral 11}
-- apexGbeConfLossOfInputTsType {apexGbeConfigGeneral 12}
-- apexGbeConfigTable {apexGbeConfig 2}
-- apexGbeConfigEntry {apexGbeConfigTable 1}
-- apexGbeConfigInterfaceNum {apexGbeConfigEntry 1}
-- apexGbeConfigEnable {apexGbeConfigEntry 2}
-- apexGbeConfigIpAddr {apexGbeConfigEntry 3}
-- apexGbeConfigIpSubnetMask {apexGbeConfigEntry 4}
-- apexGbeConfigAutoNegotiate {apexGbeConfigEntry 5}
-- apexGbeConfigFrameBufferTable {apexGbeConfig 3}
-- apexGbeConfigFrameBufferEntry {apexGbeConfigFrameBufferTable 1}
-- apexGbeConfigFrameBufferProcessorNum {apexGbeConfigFrameBufferEntry 1}
-- apexGbeConfigFrameBufferMaxInDataRate {apexGbeConfigFrameBufferEntry 2}
-- apexGbeConfigFrameBufferAlarmThreshold {apexGbeConfigFrameBufferEntry 3}
apexGbeConfigInputRedundancy OBJECT IDENTIFIER ::= {apexGbeConfig 4}
apexGbeConfigInputRedundancyGeneral OBJECT IDENTIFIER ::= {apexGbeConfigInputRedundancy 1}
-- apexGbeConfInRedundMonitorPeriod {apexGbeConfigInputRedundancyGeneral 1}
-- apexGbeConfInRedundSwitchTime {apexGbeConfigInputRedundancyGeneral 2}
-- apexGbeConfInRedundAutoSwitchBack {apexGbeConfigInputRedundancyGeneral 3}
-- apexGbeConfInRedundForceToSecondary {apexGbeConfigInputRedundancyGeneral 4}
-- apexGbeConfInRedundForceToPrimary {apexGbeConfigInputRedundancyGeneral 5}
-- apexGbeConfInRedundManualRouteRedundType {apexGbeConfigInputRedundancyGeneral 6}
-- apexGbeConfigInputDataTsTable {apexGbeConfig 5}
-- apexGbeConfigInputDataTsEntry {apexGbeConfigInputDataTsTable 1}
-- apexGbeConfigInputDataTsIndex {apexGbeConfigInputDataTsEntry 1}
-- apexGbeConfigInputDataTsEnable {apexGbeConfigInputDataTsEntry 2}
-- apexGbeConfigInputDataTsInterface {apexGbeConfigInputDataTsEntry 3}
-- apexGbeConfigInputDataTsUdp {apexGbeConfigInputDataTsEntry 4}
-- apexGbeConfigInputDataTsMulticastIp {apexGbeConfigInputDataTsEntry 5}
-- apexGbeConfigInputDataTsSourceIp {apexGbeConfigInputDataTsEntry 6}
-- apexGbeConfigInputDataTsMaxRate {apexGbeConfigInputDataTsEntry 7}
-- apexGbeConfigInputDataTsApplyTable {apexGbeConfig 6}
-- apexGbeConfigInputDataTsApplyEntry {apexGbeConfigInputDataTsApplyTable 1}
-- apexGbeConfigInputDataTsApplyIndex {apexGbeConfigInputDataTsApplyEntry 1}
-- apexGbeConfigInputDataTsApplyChange {apexGbeConfigInputDataTsApplyEntry 2}
apexGbeConfigInterfaceRedundancy OBJECT IDENTIFIER ::= {apexGbeConfig 7}
apexGbeConfigInterfaceRedundancyGeneral OBJECT IDENTIFIER ::= {apexGbeConfigInterfaceRedundancy 1}
-- apexGbeConfIfRedundAutoSwitchBackEnable {apexGbeConfigInterfaceRedundancyGeneral 1}
-- apexGbeConfIfRedundAutoSwitchBackPeriod {apexGbeConfigInterfaceRedundancyGeneral 2}
-- apexGbeConfigInterfaceRedundancyTable {apexGbeConfigInterfaceRedundancy 2}
-- apexGbeConfigInterfaceRedundancyEntry {apexGbeConfigInterfaceRedundancyTable 1}
-- apexGbeConfIfRedundIndex {apexGbeConfigInterfaceRedundancyEntry 1}
-- apexGbeConfIfRedundEnable {apexGbeConfigInterfaceRedundancyEntry 2}
-- apexGbeConfIfRedundForceFailover {apexGbeConfigInterfaceRedundancyEntry 3}
-- apexGbeConfIfRedundSuspendFailover {apexGbeConfigInterfaceRedundancyEntry 4}
-- apexGbeConfigInterfaceRedundancyApplyTable {apexGbeConfigInterfaceRedundancy 3}
-- apexGbeConfigInterfaceRedundancyApplyEntry {apexGbeConfigInterfaceRedundancyApplyTable 1}
-- apexGbeConfIfRedundApplyIndex {apexGbeConfigInterfaceRedundancyApplyEntry 1}
-- apexGbeConfIfRedundApplyChange {apexGbeConfigInterfaceRedundancyApplyEntry 2}
apexGbeStatus OBJECT IDENTIFIER ::= {apexGbe 2}
apexGbeStatusGeneral OBJECT IDENTIFIER ::= {apexGbeStatus 1}
-- apexGbeBootCodeVersion {apexGbeStatusGeneral 1}
-- apexGbeApplicationCodeVersion {apexGbeStatusGeneral 2}
-- apexGbeMaxInputTs {apexGbeStatusGeneral 3}
-- apexGbeRoutedPacketUpdateInterval {apexGbeStatusGeneral 4}
-- apexGbeStatusTable {apexGbeStatus 2}
-- apexGbeStatusEntry {apexGbeStatusTable 1}
-- apexGbeStatusGbeInterfaceNum {apexGbeStatusEntry 1}
-- apexGbeStatusMacAddr {apexGbeStatusEntry 2}
-- apexGbeStatusLinkActive {apexGbeStatusEntry 3}
-- apexGbeStatusIgmpVersion {apexGbeStatusEntry 4}
-- apexGbeStatusLossOfPhysicalInput {apexGbeStatusEntry 5}
-- apexGbeInputTsAssignedTable {apexGbeStatus 3}
-- apexGbeInputTsAssignedEntry {apexGbeInputTsAssignedTable 1}
-- apexGbeInputTsAssignedGbeInterfaceNum {apexGbeInputTsAssignedEntry 1}
-- apexGbeInputTsAssignedCount {apexGbeInputTsAssignedEntry 2}
-- apexGbeOpenInputUdpPortTable {apexGbeStatus 4}
-- apexGbeOpenInputUdpPortEntry {apexGbeOpenInputUdpPortTable 1}
-- apexGbeOpenInputUdpPortGbeInterfaceNum {apexGbeOpenInputUdpPortEntry 1}
-- apexGbeOpenInputUdpPortCount {apexGbeOpenInputUdpPortEntry 2}
-- apexGbeStatusRoutedPacketTable {apexGbeStatus 5}
-- apexGbeStatusRoutedPacketEntry {apexGbeStatusRoutedPacketTable 1}
-- apexGbeStatusRoutedPacketOutputTsNum {apexGbeStatusRoutedPacketEntry 1}
-- apexGbeStatusTotRoutedPackets {apexGbeStatusRoutedPacketEntry 2}
-- apexGbeStatusNumRoutedPackets {apexGbeStatusRoutedPacketEntry 3}
apexGbeStatusFrameCounter OBJECT IDENTIFIER ::= {apexGbeStatus 6}
apexGbeStatusFrameCounterGeneral OBJECT IDENTIFIER ::= {apexGbeStatusFrameCounter 1}
-- apexGbeStatusFrameCounterTableResetAll {apexGbeStatusFrameCounterGeneral 1}
-- apexGbeFrameCounterUpdateInterval {apexGbeStatusFrameCounterGeneral 2}
-- apexGbeStatusFrameCounterTable {apexGbeStatusFrameCounter 2}
-- apexGbeStatusFrameCounterEntry {apexGbeStatusFrameCounterTable 1}
-- apexGbeFrameCounterGbeInterfaceNum {apexGbeStatusFrameCounterEntry 1}
-- apexGbeFrameCounterReset {apexGbeStatusFrameCounterEntry 2}
-- apexGbeTotalRxSinglecastFrames {apexGbeStatusFrameCounterEntry 3}
-- apexGbeTotalRxMulticastFrames {apexGbeStatusFrameCounterEntry 4}
-- apexGbeTotalRxBroadcastFrames {apexGbeStatusFrameCounterEntry 5}
-- apexGbeTotalRxErrorFrames {apexGbeStatusFrameCounterEntry 6}
-- apexGbeTotalRxFrames {apexGbeStatusFrameCounterEntry 7}
-- apexGbeRxSinglecastFrames {apexGbeStatusFrameCounterEntry 8}
-- apexGbeRxMulticastFrames {apexGbeStatusFrameCounterEntry 9}
-- apexGbeRxBroadcastFrames {apexGbeStatusFrameCounterEntry 10}
-- apexGbeRxErrorFrames {apexGbeStatusFrameCounterEntry 11}
-- apexGbeRxFrames {apexGbeStatusFrameCounterEntry 12}
-- apexGbeTotalTxGoodFrames {apexGbeStatusFrameCounterEntry 13}
-- apexGbeTotalTxErrorFrames {apexGbeStatusFrameCounterEntry 14}
-- apexGbeTxGoodFrames {apexGbeStatusFrameCounterEntry 15}
-- apexGbeTxErrorFrames {apexGbeStatusFrameCounterEntry 16}
-- apexGbeRxDocsisFrames {apexGbeStatusFrameCounterEntry 17}
-- apexGbeRxMpegDocsisFrames {apexGbeStatusFrameCounterEntry 18}
-- apexGbeTotalRxDocsisFrames {apexGbeStatusFrameCounterEntry 19}
-- apexGbeIpFragmentedPkts {apexGbeStatusFrameCounterEntry 20}
-- apexGbeTotalIpFragmentedPkts {apexGbeStatusFrameCounterEntry 21}
apexGbeFrameBufferStats OBJECT IDENTIFIER ::= {apexGbeStatus 7}
apexGbeFrameBufferStatsGeneral OBJECT IDENTIFIER ::= {apexGbeFrameBufferStats 1}
-- apexGbeFrameBufferStatsTable {apexGbeFrameBufferStats 2}
-- apexGbeFrameBufferStatsEntry {apexGbeFrameBufferStatsTable 1}
-- apexGbeFrameBufferProcessorNum {apexGbeFrameBufferStatsEntry 1}
-- apexGbeFrameBufferResetLevelLimit {apexGbeFrameBufferStatsEntry 2}
-- apexGbeFrameBufferCurrMsLevel {apexGbeFrameBufferStatsEntry 3}
-- apexGbeFrameBufferCurrPercentFull {apexGbeFrameBufferStatsEntry 4}
-- apexGbeFrameBufferUnderflowLevel {apexGbeFrameBufferStatsEntry 5}
-- apexGbeFrameBufferOverflowLevel {apexGbeFrameBufferStatsEntry 6}
-- apexGbeFrameBufferAlarmStatus {apexGbeFrameBufferStatsEntry 7}
-- apexGbeFrameBufferHourlyTable {apexGbeFrameBufferStats 3}
-- apexGbeFrameBufferHourlyEntry {apexGbeFrameBufferHourlyTable 1}
-- apexGbeFrameBufferHourlyProcessorNum {apexGbeFrameBufferHourlyEntry 1}
-- apexGbeFrameBufferHourlyIndex {apexGbeFrameBufferHourlyEntry 2}
-- apexGbeFrameBufferHourlyInInterface {apexGbeFrameBufferHourlyEntry 3}
-- apexGbeFrameBufferHourlyInUdp {apexGbeFrameBufferHourlyEntry 4}
-- apexGbeFrameBufferHourlyInMulticastIp {apexGbeFrameBufferHourlyEntry 5}
-- apexGbeFrameBufferHourlyInSourceIp {apexGbeFrameBufferHourlyEntry 6}
-- apexGbeFrameBufferHourlyMaxMsLevel {apexGbeFrameBufferHourlyEntry 7}
-- apexGbeFrameBufferHourlyMaxPercentFull {apexGbeFrameBufferHourlyEntry 8}
-- apexGbeFrameBufferHourlyGpsTime {apexGbeFrameBufferHourlyEntry 9}
-- apexGbeFrameBufferHourlyOverflows {apexGbeFrameBufferHourlyEntry 10}
-- apexGbeFrameBufferHourlyResets {apexGbeFrameBufferHourlyEntry 11}
apexGbeStatusInputTransportStream OBJECT IDENTIFIER ::= {apexGbeStatus 8}
apexGbeStatusInputTsGeneral OBJECT IDENTIFIER ::= {apexGbeStatusInputTransportStream 1}
-- apexGbeStatusInputTsUpdateInterval {apexGbeStatusInputTsGeneral 1}
-- apexGbeStatusInputTsTable {apexGbeStatusInputTransportStream 2}
-- apexGbeStatusInputTsEntry {apexGbeStatusInputTsTable 1}
-- apexGbeStatInTsInputTsNum {apexGbeStatusInputTsEntry 1}
-- apexGbeStatInTsSamplingPeriod {apexGbeStatusInputTsEntry 2}
-- apexGbeStatInTsPriCurDataCount {apexGbeStatusInputTsEntry 3}
-- apexGbeStatInTsPriAvgDataCount {apexGbeStatusInputTsEntry 4}
-- apexGbeStatInTsPriMinDataCount {apexGbeStatusInputTsEntry 5}
-- apexGbeStatInTsPriPeakDataCount {apexGbeStatusInputTsEntry 6}
-- apexGbeStatInTsPriCurStreamCount {apexGbeStatusInputTsEntry 7}
-- apexGbeStatInTsPriAvgStreamCount {apexGbeStatusInputTsEntry 8}
-- apexGbeStatInTsPriMinStreamCount {apexGbeStatusInputTsEntry 9}
-- apexGbeStatInTsPriPeakStreamCount {apexGbeStatusInputTsEntry 10}
-- apexGbeStatInTsSecCurDataCount {apexGbeStatusInputTsEntry 11}
-- apexGbeStatInTsSecAvgDataCount {apexGbeStatusInputTsEntry 12}
-- apexGbeStatInTsSecMinDataCount {apexGbeStatusInputTsEntry 13}
-- apexGbeStatInTsSecPeakDataCount {apexGbeStatusInputTsEntry 14}
-- apexGbeStatInTsSecCurStreamCount {apexGbeStatusInputTsEntry 15}
-- apexGbeStatInTsSecAvgStreamCount {apexGbeStatusInputTsEntry 16}
-- apexGbeStatInTsSecMinStreamCount {apexGbeStatusInputTsEntry 17}
-- apexGbeStatInTsSecPeakStreamCount {apexGbeStatusInputTsEntry 18}
-- apexGbeStatInTsTotPacketDropCount {apexGbeStatusInputTsEntry 19}
-- apexGbeStatInTsCurPacketDropCount {apexGbeStatusInputTsEntry 20}
-- apexGbeStatusInputTsErrorTable {apexGbeStatusInputTransportStream 3}
-- apexGbeStatusInputTsErrorEntry {apexGbeStatusInputTsErrorTable 1}
-- apexGbeStatInTsErrorInputTsNum {apexGbeStatusInputTsErrorEntry 1}
-- apexGbeStatInTsPriErrorSummary {apexGbeStatusInputTsErrorEntry 2}
-- apexGbeStatInTsPriLowBitRateError {apexGbeStatusInputTsErrorEntry 3}
-- apexGbeStatInTsPriHighBitRateError {apexGbeStatusInputTsErrorEntry 4}
-- apexGbeStatInTsMptsRedundPriError {apexGbeStatusInputTsErrorEntry 5}
-- apexGbeStatInTsMptsRedundFailError {apexGbeStatusInputTsErrorEntry 6}
-- apexGbeStatInTsSecErrorSummary {apexGbeStatusInputTsErrorEntry 7}
-- apexGbeStatInTsSecLowBitRateError {apexGbeStatusInputTsErrorEntry 8}
-- apexGbeStatInTsSecHighBitRateError {apexGbeStatusInputTsErrorEntry 9}
-- apexGbeStatInTsPriLossInputError {apexGbeStatusInputTsErrorEntry 10}
-- apexGbeStatInTsSecLossInputError {apexGbeStatusInputTsErrorEntry 11}
-- apexGbeStatInTsPacketDropError {apexGbeStatusInputTsErrorEntry 12}
apexGbeStatusInterfaceRedund OBJECT IDENTIFIER ::= {apexGbeStatus 9}
-- apexGbeStatusInterfaceRedundTable {apexGbeStatusInterfaceRedund 1}
-- apexGbeStatusInterfaceRedundEntry {apexGbeStatusInterfaceRedundTable 1}
-- apexGbeStatusInterfaceRedundIndex {apexGbeStatusInterfaceRedundEntry 1}
-- apexGbeStatusInterfaceRedundActiveIf {apexGbeStatusInterfaceRedundEntry 2}
-- apexGbeStatusInterfaceRedundInvalidApplyText {apexGbeStatusInterfaceRedundEntry 3}
-- apexGbeStatusInterfaceRedundFaultCondition {apexGbeStatusInterfaceRedundEntry 4}
apexGbeStatusInputTsDropCounter OBJECT IDENTIFIER ::= {apexGbeStatus 10}
apexGbeStatusInputTsDropCounterGeneral OBJECT IDENTIFIER ::= {apexGbeStatusInputTsDropCounter 1}
-- apexGbeStatusInputTsDropCounterClearAll {apexGbeStatusInputTsDropCounterGeneral 1}
apexGbeSfp OBJECT IDENTIFIER ::= {apexGbe 3}
apexGbeSfpConfig OBJECT IDENTIFIER ::= {apexGbeSfp 1}
apexGbeSfpConfigGeneral OBJECT IDENTIFIER ::= {apexGbeSfpConfig 1}
-- apexGbeSfpUpdateStatus {apexGbeSfpConfigGeneral 1}
apexGbeSfpStatus OBJECT IDENTIFIER ::= {apexGbeSfp 2}
apexGbeSfpStatusGeneral OBJECT IDENTIFIER ::= {apexGbeSfpStatus 1}
-- apexGbeSfpStatusTable {apexGbeSfpStatus 2}
-- apexGbeSfpStatusEntry {apexGbeSfpStatusTable 1}
-- apexGbeSfpStatusGbeIfNum {apexGbeSfpStatusEntry 1}
-- apexGbeSfpStatusVendorId {apexGbeSfpStatusEntry 2}
-- apexGbeSfpStatusDiagInfo {apexGbeSfpStatusEntry 3}
apexQam OBJECT IDENTIFIER ::= {apex 8}
apexQamConfig OBJECT IDENTIFIER ::= {apexQam 1}
apexQamConfigGeneral OBJECT IDENTIFIER ::= {apexQamConfig 1}
-- apexQamConfigTransmissionMode {apexQamConfigGeneral 1}
apexQamModuleUpgrade OBJECT IDENTIFIER ::= {apexQamConfig 2}
-- apexQamModuleUpgradeSlot {apexQamModuleUpgrade 1}
-- apexQamModuleUpgradeCode {apexQamModuleUpgrade 2}
-- apexQamModuleUpgradeApplyChange {apexQamModuleUpgrade 3}
-- apexQamConfigApplyTable {apexQamConfig 3}
-- apexQamConfigApplyEntry {apexQamConfigApplyTable 1}
-- apexQamConfigApplyRfPortNum {apexQamConfigApplyEntry 1}
-- apexQamConfigApplyChange {apexQamConfigApplyEntry 2}
-- apexQamRfConfigTable {apexQamConfig 4}
-- apexQamRfConfigEntry {apexQamRfConfigTable 1}
-- apexQamRfConfigRfPortNum {apexQamRfConfigEntry 1}
-- apexQamRfConfigNumChannelsEnabled {apexQamRfConfigEntry 2}
-- apexQamRfConfigModulationMode {apexQamRfConfigEntry 3}
-- apexQamRfConfigSymbolRate {apexQamRfConfigEntry 4}
-- apexQamRfConfigSpectrumInvert {apexQamRfConfigEntry 5}
-- apexQamRfConfigTuningMode {apexQamRfConfigEntry 6}
-- apexQamRfConfigEiaFrequencyPlan {apexQamRfConfigEntry 7}
-- apexQamRfConfigEiaChanNumChannelA {apexQamRfConfigEntry 8}
-- apexQamRfConfigRfCenterFreqChannelA {apexQamRfConfigEntry 9}
-- apexQamRfConfigRfChanSpacing {apexQamRfConfigEntry 10}
-- apexQamRfConfigRfLevelAttenuation {apexQamRfConfigEntry 11}
-- apexQamRfConfigRfLevelLowThreshold {apexQamRfConfigEntry 12}
-- apexQamRfConfigRfLevelHighThreshold {apexQamRfConfigEntry 13}
-- apexQamRfConfigMute {apexQamRfConfigEntry 14}
-- apexQamRfConfigInterleaverDepth1 {apexQamRfConfigEntry 15}
-- apexQamRfConfigInterleaverDepth2 {apexQamRfConfigEntry 16}
-- apexQamChannelConfigTable {apexQamConfig 5}
-- apexQamChannelConfigEntry {apexQamChannelConfigTable 1}
-- apexQamChanConfigChannelNum {apexQamChannelConfigEntry 1}
-- apexQamChanConfigInterleaverSelect {apexQamChannelConfigEntry 2}
-- apexQamChanConfigTestMode {apexQamChannelConfigEntry 3}
apexQamRfRedundancyConfig OBJECT IDENTIFIER ::= {apexQamConfig 6}
apexQamRfRedundancyConfigGeneral OBJECT IDENTIFIER ::= {apexQamRfRedundancyConfig 1}
-- apexQamRfRedundConfigApplyChange {apexQamRfRedundancyConfigGeneral 1}
-- apexQamRfRedundConfigEnable {apexQamRfRedundancyConfigGeneral 2}
-- apexQamRfRedundConfigRemConnection {apexQamRfRedundancyConfigGeneral 3}
-- apexQamRfRedundConfigApexId {apexQamRfRedundancyConfigGeneral 4}
-- apexQamRfRedundConfigRemCommonIpAddr {apexQamRfRedundancyConfigGeneral 5}
-- apexQamRfRedundConfigAutoSwitchBack {apexQamRfRedundancyConfigGeneral 6}
-- apexQamRfRedundConfigSuspendFailover {apexQamRfRedundancyConfigGeneral 7}
-- apexQamRfRedundConfigForceSwitch {apexQamRfRedundancyConfigGeneral 8}
-- apexQamRfRedundConfigRemDirectIpOctet1 {apexQamRfRedundancyConfigGeneral 9}
-- apexQamChannelConfigApplyTable {apexQamConfig 7}
-- apexQamChannelConfigApplyEntry {apexQamChannelConfigApplyTable 1}
-- apexQamChannelConfigApplyChannelNum {apexQamChannelConfigApplyEntry 1}
-- apexQamChannelConfigApplyChange {apexQamChannelConfigApplyEntry 2}
apexQamStatus OBJECT IDENTIFIER ::= {apexQam 2}
apexQamStatusGeneral OBJECT IDENTIFIER ::= {apexQamStatus 1}
-- apexQamStatusTransmissionMode {apexQamStatusGeneral 1}
-- apexQamModuleInstalledCount {apexQamStatusGeneral 2}
-- apexFanModuleInstalledCount {apexQamStatusGeneral 3}
-- apexQamChannelsActiveCount {apexQamStatusGeneral 4}
-- apexQamModuleStatusTable {apexQamStatus 2}
-- apexQamModuleStatusEntry {apexQamModuleStatusTable 1}
-- apexQamModuleStatQamModuleNum {apexQamModuleStatusEntry 1}
-- apexQamModuleStatInstalled {apexQamModuleStatusEntry 2}
-- apexQamModuleStatFanSpeed {apexQamModuleStatusEntry 3}
-- apexQamModuleStatFanFault {apexQamModuleStatusEntry 4}
-- apexQamModuleStatTemperature {apexQamModuleStatusEntry 5}
-- apexQamModuleStatTemperatureFault {apexQamModuleStatusEntry 6}
-- apexQamModuleStatError {apexQamModuleStatusEntry 7}
-- apexQamModuleStatFaultCondition {apexQamModuleStatusEntry 8}
-- apexQamModuleStatFaultSumm {apexQamModuleStatusEntry 9}
-- apexQamModuleStatPowerFault {apexQamModuleStatusEntry 10}
-- apexQamModuleStatBoardTemperature {apexQamModuleStatusEntry 11}
-- apexQamModuleStatBoardTemperatureFault {apexQamModuleStatusEntry 12}
-- apexQamModuleStat5VdcSupply {apexQamModuleStatusEntry 13}
-- apexQamModuleStat5VdcFault {apexQamModuleStatusEntry 14}
-- apexQamModuleStat3dot3VdcSupply {apexQamModuleStatusEntry 15}
-- apexQamModuleStat3dot3VdcFault {apexQamModuleStatusEntry 16}
-- apexQamModuleStatCommError {apexQamModuleStatusEntry 17}
-- apexQamModuleStatCodeInitError {apexQamModuleStatusEntry 18}
-- apexQamModuleSerialNumTable {apexQamStatus 3}
-- apexQamModuleSerialNumEntry {apexQamModuleSerialNumTable 1}
-- apexQamModuleSerialNumQamModuleNum {apexQamModuleSerialNumEntry 1}
-- apexQamModuleSerialNumber {apexQamModuleSerialNumEntry 2}
-- apexQamQrmRevisionTable {apexQamStatus 4}
-- apexQamQrmRevisionEntry {apexQamQrmRevisionTable 1}
-- apexQamQrmRevRfPortNum {apexQamQrmRevisionEntry 1}
-- apexQamQrmRevBoardId {apexQamQrmRevisionEntry 2}
-- apexQamQrmRevAppFw {apexQamQrmRevisionEntry 3}
-- apexQamQrmRevBootLoaderFw {apexQamQrmRevisionEntry 4}
-- apexQamQrmRevFpga {apexQamQrmRevisionEntry 5}
-- apexQamQrmRevHw {apexQamQrmRevisionEntry 6}
-- apexQamQrmRevSerialNumber {apexQamQrmRevisionEntry 7}
-- apexQamQrmRevFpga2 {apexQamQrmRevisionEntry 8}
-- apexQamRfPortStatusTable {apexQamStatus 5}
-- apexQamRfPortStatusEntry {apexQamRfPortStatusTable 1}
-- apexQamRfPortStatRfPortNum {apexQamRfPortStatusEntry 1}
-- apexQamRfPortStatInfoRate {apexQamRfPortStatusEntry 2}
-- apexQamRfPortStatNumChannelsActive {apexQamRfPortStatusEntry 3}
-- apexQamRfPortStatOutputLevel {apexQamRfPortStatusEntry 4}
-- apexQamRfPortStatOutputLevelFault {apexQamRfPortStatusEntry 5}
-- apexQamRfPortStatTemperature {apexQamRfPortStatusEntry 6}
-- apexQamRfPortStatTemperatureFault {apexQamRfPortStatusEntry 7}
-- apexQamRfPortStat5VdcSupply {apexQamRfPortStatusEntry 8}
-- apexQamRfPortStat5VdcFault {apexQamRfPortStatusEntry 9}
-- apexQamRfPortStat3dot3VdcSupply {apexQamRfPortStatusEntry 10}
-- apexQamRfPortStat3dot3VdcFault {apexQamRfPortStatusEntry 11}
-- apexQamRfPortStatFreqPllLock {apexQamRfPortStatusEntry 12}
-- apexQamRfPortStatRefClockPresent {apexQamRfPortStatusEntry 13}
-- apexQamRfPortStatRefClockLock {apexQamRfPortStatusEntry 14}
-- apexQamRfPortStatDataClockPresent {apexQamRfPortStatusEntry 15}
-- apexQamRfPortStatDataSyncFault {apexQamRfPortStatusEntry 16}
-- apexQamRfPortStatCommError {apexQamRfPortStatusEntry 17}
-- apexQamRfPortStatError {apexQamRfPortStatusEntry 18}
-- apexQamRfPortStatFaultCondition {apexQamRfPortStatusEntry 19}
-- apexQamRfPortStatChanFaultSumm {apexQamRfPortStatusEntry 20}
-- apexQamRfPortStatCodeInitError {apexQamRfPortStatusEntry 21}
-- apexQamChannelStatusTable {apexQamStatus 6}
-- apexQamChannelStatusEntry {apexQamChannelStatusTable 1}
-- apexQamChanStatChannelNum {apexQamChannelStatusEntry 1}
-- apexQamChanStatActive {apexQamChannelStatusEntry 2}
-- apexQamChanStatRfFreq {apexQamChannelStatusEntry 3}
-- apexQamChanStatEiaChanNum {apexQamChannelStatusEntry 4}
-- apexQamChanStatDataPresent {apexQamChannelStatusEntry 5}
-- apexQamChanStatError {apexQamChannelStatusEntry 6}
-- apexQamChanStatFaultCondition {apexQamChannelStatusEntry 7}
apexQamRfRedundancyStatus OBJECT IDENTIFIER ::= {apexQamStatus 7}
apexQamRfRedundancyStatusGeneral OBJECT IDENTIFIER ::= {apexQamRfRedundancyStatus 1}
-- apexQamRfRedundStatusBackupPort {apexQamRfRedundancyStatusGeneral 1}
-- apexQamRfRedundStatusFailedPort {apexQamRfRedundancyStatusGeneral 2}
-- apexQamRfRedundStatusMismatch {apexQamRfRedundancyStatusGeneral 3}
-- apexQamRfRedundStatusUdpPort {apexQamRfRedundancyStatusGeneral 4}
-- apexQamRfRedundStatusRemConnection {apexQamRfRedundancyStatusGeneral 5}
-- apexQamRfRedundStatusRemError {apexQamRfRedundancyStatusGeneral 6}
-- apexQamRfRedundStatusRemSwitch {apexQamRfRedundancyStatusGeneral 7}
-- apexQamRfRedundStatusInvalidApplyText {apexQamRfRedundancyStatusGeneral 8}
-- apexQamRfPortMuteStatusTable OBJECT IDENTIFIER ::= {apexQamStatus 8}
-- apexQamRfPortMuteStatusEntry OBJECT IDENTIFIER ::= {apexQamRfPortMuteStatusTable 1}
-- apexQamRfPortMuteStatusRfPortNum {apexQamRfPortMuteStatusEntry 1}
-- apexQamRfPortMuteStatus {apexQamRfPortMuteStatusEntry 2}
-- apexQamQrmRevisionStatusTable {apexQamStatus 9}
-- apexQamQrmRevisionStatusEntry {apexQamQrmRevisionTable 1}
-- apexQamQrmRevStatQrmNum {apexQamQrmRevisionStatusEntry 1}
-- apexQamQrmRevStatBoardId {apexQamQrmRevisionStatusEntry 2}
-- apexQamQrmRevStatAppFw {apexQamQrmRevisionStatusEntry 3}
-- apexQamQrmRevStatBootLoaderFw {apexQamQrmRevisionStatusEntry 4}
-- apexQamQrmRevStatFpga {apexQamQrmRevisionStatusEntry 5}
-- apexQamQrmRevStatHw {apexQamQrmRevisionStatusEntry 6}
-- apexQamQrmRevStatQrmSupported {apexQamQrmRevisionStatusEntry 7}
-- apexQamQrmRevStatFpga2 {apexQamQrmRevisionStatusEntry 8}
-- apexQamRfPortChannelInfoTable {apexQamStatus 10}
-- apexQamRfPortChannelInfoEntry {apexQamRfPortChannelInfoTable 1}
-- apexQamRfPortChannelInfoRfPortNum {apexQamRfPortChannelInfoEntry 1}
-- apexQamRfPortChannelInfoChanA {apexQamRfPortChannelInfoEntry 2}
-- apexQamRfPortChannelInfoChanCount {apexQamRfPortChannelInfoEntry 3}
-- apexQamChannelIdTable {apexQamStatus 11}
-- apexQamChannelIdEntry {apexQamChannelIdTable 1}
-- apexQamChannelIdChannelNum {apexQamChannelIdEntry 1}
-- apexQamChannelIdSlotNum {apexQamChannelIdEntry 2}
-- apexQamChannelIdRfPortNum {apexQamChannelIdEntry 3}
-- apexQamChannelIdModuleRfPortNum {apexQamChannelIdEntry 4}
-- apexQamChannelIdChannelLetter {apexQamChannelIdEntry 5}
-- apexQamChannelIdChannelDescription {apexQamChannelIdEntry 6}
apexQrmDownload OBJECT IDENTIFIER ::= {apexQam 3}
apexQrmDownloadConfig OBJECT IDENTIFIER ::= {apexQrmDownload 1}
apexQrmDownloadConfigGeneral OBJECT IDENTIFIER ::= {apexQrmDownloadConfig 1}
-- apexQrmDownloadConfigTable {apexQrmDownloadConfig 2}
-- apexQrmDownloadConfigEntry {apexQrmDownloadConfigTable 1}
-- apexQrmDownloadConfigQrmNum {apexQrmDownloadConfigEntry 1}
-- apexQrmDownloadConfigRequest {apexQrmDownloadConfigEntry 2}
apexQrmDownloadStatus OBJECT IDENTIFIER ::= {apexQrmDownload 2}
apexQrmDownloadStatusGeneral OBJECT IDENTIFIER ::= {apexQrmDownloadStatus 1}
-- apexQrmDownloadStatusTable {apexQrmDownloadStatus 2}
-- apexQrmDownloadStatusEntry {apexQrmDownloadStatusTable 1}
-- apexQrmDownloadStatusRfPortNum {apexQrmDownloadStatusEntry 1}
-- apexQrmDownloadStatusDescription {apexQrmDownloadStatusEntry 2}
-- apexQrmDownloadProgress {apexQrmDownloadStatusEntry 3}
-- apexQrmDownloadSupported {apexQrmDownloadStatusEntry 4}
-- apexQrmDownloadRequired {apexQrmDownloadStatusEntry 5}
-- apexQrmDownloadFileSet {apexQrmDownloadStatusEntry 6}
-- apexQrmFileRevisionTable {apexQrmDownloadStatus 3}
-- apexQrmFileRevisionEntry {apexQrmFileRevisionTable 1}
-- apexQrmFileRevFileSetNum {apexQrmFileRevisionEntry 1}
-- apexQrmFileRevFirmware {apexQrmFileRevisionEntry 2}
-- apexQrmFileRevCalibration {apexQrmFileRevisionEntry 3}
-- apexQrmFileRevFpga {apexQrmFileRevisionEntry 4}
-- apexQrmFileRevFpga2 {apexQrmFileRevisionEntry 5}
-- apexQrmFileRevDateTime {apexQrmFileRevisionEntry 6}
apexSessionControl OBJECT IDENTIFIER ::= {apex 9}
apexSessionControlConfig OBJECT IDENTIFIER ::= {apexSessionControl 1}
apexSessionControlConfigGeneral OBJECT IDENTIFIER ::= {apexSessionControlConfig 1}
-- apexSesContConfProtocol {apexSessionControlConfigGeneral 1}
-- apexSesContConfTableApplyChange {apexSessionControlConfigGeneral 2}
-- apexSesContConfRateCompareType {apexSessionControlConfigGeneral 3}
-- apexSesContConfRedundThreshold [obsolete] {apexSessionControlConfigGeneral 4}
-- apexSesContConfInputPreEncryptCheck {apexSessionControlConfigGeneral 5}
-- apexSesContConfRedundType {apexSessionControlConfigGeneral 6}
-- apexSesContConfFollowDtcp {apexSessionControlConfigGeneral 7}
-- apexSesContConfTable {apexSessionControlConfig 2}
-- apexSesContConfEntry {apexSesContConfTable 1}
-- apexSesContConfOutputTsNum {apexSesContConfEntry 1}
-- apexSesContConfGbePrimaryInterface {apexSesContConfEntry 2}
-- apexSesContConfGbeSecondaryInterface {apexSesContConfEntry 3}
apexSessionControlStatus OBJECT IDENTIFIER ::= {apexSessionControl 2}
apexSessionControlStatusGeneral OBJECT IDENTIFIER ::= {apexSessionControlStatus 1}
-- apexSesContStatProtocol {apexSessionControlStatusGeneral 1}
apexRpc OBJECT IDENTIFIER ::= {apexSessionControl 3}
apexRpcConfig OBJECT IDENTIFIER ::= {apexRpc 1}
apexRpcConfigGeneral OBJECT IDENTIFIER ::= {apexRpcConfig 1}
-- apexRpcDataCarouselProgram {apexRpcConfigGeneral 1}
-- apexRpcReportAllSessions {apexRpcConfigGeneral 2}
-- apexRpcDeviceName {apexRpcConfigGeneral 3}
-- apexRpcDeviceType {apexRpcConfigGeneral 4}
-- apexRpcControlInterface {apexRpcConfigGeneral 5}
-- apexRpcNumShellSessions {apexRpcConfigGeneral 6}
-- apexRpcAvgBandwidthEnable {apexRpcConfigGeneral 7}
-- apexRpcApplyChange {apexRpcConfigGeneral 8}
-- apexRpcRfPortTable {apexRpcConfig 2}
-- apexRpcRfPortEntry {apexRpcRfPortTable 1}
-- apexRpcRfPortNum {apexRpcRfPortEntry 1}
-- apexRpcRfPortName {apexRpcRfPortEntry 2}
-- apexRpcRfPortServiceGroup {apexRpcRfPortEntry 3}
-- apexRpcRfChannelTable {apexRpcConfig 3}
-- apexRpcRfChannelEntry {apexRpcRfChannelTable 1}
-- apexRpcRfChannelNum {apexRpcRfChannelEntry 1}
-- apexRpcRfChannelName {apexRpcRfChannelEntry 2}
apexRpcStatus OBJECT IDENTIFIER ::= {apexRpc 2}
apexRpcStatusGeneral OBJECT IDENTIFIER ::= {apexRpcStatus 1}
-- apexRpcSessionStatTable {apexRpcStatus 2}
-- apexRpcSessionStatEntry {apexRpcSessionStatTable 1}
-- apexRpcSessionStatIndex {apexRpcSessionStatEntry 1}
-- apexRpcSessionStatInputTsIndex {apexRpcSessionStatEntry 2}
-- apexRpcSessionStatInputProgramNum {apexRpcSessionStatEntry 3}
-- apexRpcSessionStatSourceIpAddr3 {apexRpcSessionStatEntry 4}
-- apexRpcSessionStatOutputQamChannel {apexRpcSessionStatEntry 5}
-- apexRpcSessionStatOutputProgramNum {apexRpcSessionStatEntry 6}
-- apexRpcSessionStatProgramBandwidth {apexRpcSessionStatEntry 7}
-- apexRpcSessionStatSessionType {apexRpcSessionStatEntry 8}
-- apexRpcSessionStatSessionIdWord1 {apexRpcSessionStatEntry 9}
-- apexRpcSessionStatSessionIdWord2 {apexRpcSessionStatEntry 10}
-- apexRpcSessionStatSessionIdWord3 {apexRpcSessionStatEntry 11}
-- apexRpcSessionStatManagerIpAddr {apexRpcSessionStatEntry 12}
-- apexRpcQamStatTable {apexRpcStatus 3}
-- apexRpcQamStatEntry {apexRpcQamStatTable 1}
-- apexRpcQamStatQamChannelNum {apexRpcQamStatEntry 1}
-- apexRpcQamStatNumSdvSessions {apexRpcQamStatEntry 2}
-- apexRpcQamStatNumVodBcSessions {apexRpcQamStatEntry 3}
-- apexRpcQamStatSdvGroupBandwidth {apexRpcQamStatEntry 4}
apexRtsp OBJECT IDENTIFIER ::= {apexSessionControl 4}
apexRtspConfig OBJECT IDENTIFIER ::= {apexRtsp 1}
apexRtspConfigGeneral OBJECT IDENTIFIER ::= {apexRtspConfig 1}
-- apexRtspReportGbeInterfaces {apexRtspConfigGeneral 1}
-- apexRtspConfControllerApplyTable {apexRtspConfig 2}
-- apexRtspConfControllerApplyEntry {apexRtspConfControllerApplyTable 1}
-- apexRtspConfControllerApplyNum {apexRtspConfControllerApplyEntry 1}
-- apexRtspConfControllerApplyChange {apexRtspConfControllerApplyEntry 2}
-- apexRtspConfControllerTable {apexRtspConfig 3}
-- apexRtspConfControllerEntry {apexRtspConfControllerTable 1}
-- apexRtspConfControllerNum {apexRtspConfControllerEntry 1}
-- apexRtspConfControllerIp {apexRtspConfControllerEntry 2}
-- apexRtspConfControllerPort {apexRtspConfControllerEntry 3}
-- apexRtspConfControllerHoldTime {apexRtspConfControllerEntry 4}
-- apexRtspConfControllerBandwidthDelta {apexRtspConfControllerEntry 5}
-- apexRtspConfControlNamesTable {apexRtspConfig 4}
-- apexRtspConfControlNamesEntry {apexRtspConfControlNamesTable 1}
-- apexRtspConfControlNamesNum {apexRtspConfControlNamesEntry 1}
-- apexRtspConfControlNamesStreamingZone {apexRtspConfControlNamesEntry 5}
-- apexRtspConfControlNamesDeviceName {apexRtspConfControlNamesEntry 6}
-- apexRtspConfQamChannelApplyTable {apexRtspConfig 5}
-- apexRtspConfQamChannelApplyEntry {apexRtspConfQamChannelApplyTable 1}
-- apexRtspConfQamChannelApplyNum {apexRtspConfQamChannelApplyEntry 1}
-- apexRtspConfQamChannelApplyChange {apexRtspConfQamChannelApplyEntry 2}
-- apexRtspConfQamChannelTable {apexRtspConfig 6}
-- apexRtspConfQamChannelEntry {apexRtspConfQamChannelTable 1}
-- apexRtspConfQamChannelNum {apexRtspConfQamChannelEntry 1}
-- apexRtspConfQamChannelGroupName {apexRtspConfQamChannelEntry 2}
-- apexRtspConfGbeEdgeGroupTable {apexRtspConfig 7}
-- apexRtspConfGbeEdgeGroupEntry {apexRtspConfGbeEdgeGroupTable 1}
-- apexRtspConfGbeEdgeGroupNum {apexRtspConfGbeEdgeGroupEntry 1}
-- apexRtspConfGbeEdgeGroupName {apexRtspConfGbeEdgeGroupEntry 2}
-- apexRtspConfMhaTable {apexRtspConfig 8}
-- apexRtspConfMhaEntry {apexRtspConfMhaTable 1}
-- apexRtspConfMhaNum {apexRtspConfMhaEntry 1}
-- apexRtspConfMhaAddressDomain {apexRtspConfMhaEntry 2}
-- apexRtspConfMhaPort {apexRtspConfMhaEntry 3}
apexRtspConfMhaGeneral OBJECT IDENTIFIER ::= {apexRtspConfig 9}
-- apexRtspConfMhaUdpMapEnable {apexRtspConfMhaGeneral 1}
apexRtspConfMhaSbe OBJECT IDENTIFIER ::= {apexRtspConfig 10}
-- apexRtspConfMhaSbeEncryptionMode {apexRtspConfMhaSbe 1}
-- apexRtspConfMhaSbeCciLevel {apexRtspConfMhaSbe 2}
-- apexRtspConfMhaSbeApsLevel {apexRtspConfMhaSbe 3}
-- apexRtspConfMhaSbeCitSetting {apexRtspConfMhaSbe 4}
-- apexRtspConfMhaSbeApplyChange {apexRtspConfMhaSbe 5}
apexRtspStatus OBJECT IDENTIFIER ::= {apexRtsp 2}
apexRtspStatusGeneral OBJECT IDENTIFIER ::= {apexRtspStatus 1}
-- apexRtspSessionStatTable {apexRtspStatus 2}
-- apexRtspSessionStatEntry {apexRtspSessionStatTable 1}
-- apexRtspSessionStatIndex {apexRtspSessionStatEntry 1}
-- apexRtspSessionStatInputTsIndex {apexRtspSessionStatEntry 2}
-- apexRtspSessionStatInputProgramNum {apexRtspSessionStatEntry 3}
-- apexRtspSessionStatOutputQamChannel {apexRtspSessionStatEntry 4}
-- apexRtspSessionStatOutputProgramNum {apexRtspSessionStatEntry 5}
-- apexRtspSessionStatProgramBandwidth {apexRtspSessionStatEntry 6}
-- apexRtspSessionStatManagerIpAddr {apexRtspSessionStatEntry 7}
-- apexRtspSessionIdTable {apexRtspStatus 3}
-- apexRtspSessionIdEntry {apexRtspSessionIdTable 1}
-- apexRtspSessionIdIndex {apexRtspSessionIdEntry 1}
-- apexRtspSessionId {apexRtspSessionIdEntry 2}
-- apexRtspQamStatTable {apexRtspStatus 4}
-- apexRtspQamStatEntry {apexRtspQamStatTable 1}
-- apexRtspQamStatQamChannelNum {apexRtspQamStatEntry 1}
-- apexRtspQamStatNumSessions {apexRtspQamStatEntry 2}
-- apexRtspQamStatAllocatedBandwidth {apexRtspQamStatEntry 3}
-- apexRtspStatControllerTable {apexRtspStatus 5}
-- apexRtspStatControllerEntry {apexRtspStatControllerTable 1}
-- apexRtspStatControllerNum {apexRtspStatControllerEntry 1}
-- apexRtspStatControllerDiscovery {apexRtspStatControllerEntry 2}
-- apexRtspStatControllerConnection {apexRtspStatControllerEntry 3}
-- apexRtspStatControllerCommFault {apexRtspStatControllerEntry 4}
-- apexRtspStatQamChannelTable {apexRtspStatus 6}
-- apexRtspStatQamChannelEntry {apexRtspStatQamChannelTable 1}
-- apexRtspStatQamChannelNum {apexRtspStatQamChannelEntry 1}
-- apexRtspStatQamChannelName {apexRtspStatQamChannelEntry 2}
-- apexRtspStatQamMptsModeTable {apexRtspStatus 7}
-- apexRtspStatQamMptsModeEntry {apexRtspStatQamMptsModeTable 1}
-- apexRtspStatQamMptsModeQamChannelNum {apexRtspStatQamMptsModeEntry 1}
-- apexRtspStatQamMptsModeQamChannelMode {apexRtspStatQamMptsModeEntry 2}
apexManualRouting OBJECT IDENTIFIER ::= {apex 10}
apexManualRoutingConfig OBJECT IDENTIFIER ::= {apexManualRouting 1}
apexManualRoutingConfigGeneral OBJECT IDENTIFIER ::= {apexManualRoutingConfig 1}
-- apexManualRouteRmdClear {apexManualRoutingConfigGeneral 1}
-- apexManualRouteApplyTable {apexManualRoutingConfig 2}
-- apexManualRouteApplyEntry {apexManualRouteApplyTable 1}
-- apexManualRouteApplyIndex {apexManualRouteApplyEntry 1}
-- apexManualRouteApplyChange {apexManualRouteApplyEntry 2}
-- apexManualRouteTable {apexManualRoutingConfig 3}
-- apexManualRouteEntry {apexManualRouteTable 1}
-- apexManualRouteIndex {apexManualRouteEntry 1}
-- apexManualRouteEnable {apexManualRouteEntry 2}
-- apexManualRouteInputType {apexManualRouteEntry 3}
-- apexManualRouteInputInterface {apexManualRouteEntry 4}
-- apexManualRouteInputUdp {apexManualRouteEntry 5}
-- apexManualRouteInputMulticastIp {apexManualRouteEntry 6}
-- apexManualRouteInputSourceIp {apexManualRouteEntry 7}
-- apexManualRouteInputProgNum {apexManualRouteEntry 8}
-- apexManualRouteInputPreEncryptCheck {apexManualRouteEntry 9}
-- apexManualRouteOutputTsNum {apexManualRouteEntry 10}
-- apexManualRouteOutputProgNum {apexManualRouteEntry 11}
-- apexManualRouteOutputEncryptMode {apexManualRouteEntry 12}
-- apexManualRouteOutputCopyProtectSource {apexManualRouteEntry 13}
-- apexManualRouteSourceId {apexManualRouteEntry 14}
-- apexManualRouteProviderId {apexManualRouteEntry 15}
-- apexManRtePassThroughApplyTable {apexManualRoutingConfig 4}
-- apexManRtePassThroughApplyEntry {apexManRtePassThroughApplyTable 1}
-- apexManRtePassThroughApplyOutputTsNum {apexManRtePassThroughApplyEntry 1}
-- apexManRtePassThroughApplyChange {apexManRtePassThroughApplyEntry 2}
-- apexManRtePassThroughTable {apexManualRoutingConfig 5}
-- apexManRtePassThroughEntry {apexManRtePassThroughTable 1}
-- apexManRtePassThroughOutputTsNum {apexManRtePassThroughEntry 1}
-- apexManRtePassThroughEnable {apexManRtePassThroughEntry 2}
-- apexManRtePassThroughInputType {apexManRtePassThroughEntry 3}
-- apexManRtePassThroughInputInterface {apexManRtePassThroughEntry 4}
-- apexManRtePassThroughInputUdp {apexManRtePassThroughEntry 5}
-- apexManRtePassThroughInputMulticastIp {apexManRtePassThroughEntry 6}
-- apexManRtePassThroughInputSourceIp {apexManRtePassThroughEntry 7}
apexManualRouteGbeInputRedundConfig OBJECT IDENTIFIER ::= {apexManualRoutingConfig 6}
apexManRteGbeInRedConfigGeneral OBJECT IDENTIFIER ::= {apexManualRouteGbeInputRedundConfig 1}
-- apexManRteGbeInRedApplyTable {apexManualRouteGbeInputRedundConfig 2}
-- apexManRteGbeInRedApplyEntry {apexManRteGbeInRedApplyTable 1}
-- apexManRteGbeInRedApplyIndex {apexManRteGbeInRedApplyEntry 1}
-- apexManRteGbeInRedApplyChange {apexManRteGbeInRedApplyEntry 1}
-- apexManRteGbeInRedTable {apexManualRouteGbeInputRedundConfig 3}
-- apexManRteGbeInRedEntry {apexManRteGbeInRedTable 1}
-- apexManRteGbeInRedIndex {apexManRteGbeInRedEntry 1}
-- apexManRteGbeInRedPriInterface {apexManRteGbeInRedEntry 2}
-- apexManRteGbeInRedPriUdp {apexManRteGbeInRedEntry 3}
-- apexManRteGbeInRedPriMulticastIp {apexManRteGbeInRedEntry 4}
-- apexManRteGbeInRedPriSourceIp {apexManRteGbeInRedEntry 5}
-- apexManRteGbeInRedPriLowAlarmBitRate {apexManRteGbeInRedEntry 6}
-- apexManRteGbeInRedPriHighAlarmBitRate {apexManRteGbeInRedEntry 7}
-- apexManRteGbeInRedRateCompareType {apexManRteGbeInRedEntry 8}
-- apexManRteGbeInRedEnable {apexManRteGbeInRedEntry 9}
-- apexManRteGbeInRedThreshold {apexManRteGbeInRedEntry 10}
-- apexManRteGbeInRedSuspend {apexManRteGbeInRedEntry 11}
-- apexManRteGbeInRedSecInterface {apexManRteGbeInRedEntry 12}
-- apexManRteGbeInRedSecUdp {apexManRteGbeInRedEntry 13}
-- apexManRteGbeInRedSecMulticastIp {apexManRteGbeInRedEntry 14}
-- apexManRteGbeInRedSecSourceIp {apexManRteGbeInRedEntry 15}
-- apexManRteGbeInRedSecLowAlarmBitRate {apexManRteGbeInRedEntry 16}
-- apexManRteGbeInRedSecHighAlarmBitRate {apexManRteGbeInRedEntry 17}
-- apexManRteGbeInRedSecRedundMcJoin {apexManRteGbeInRedEntry 18}
-- apexManRteGbeInRedForceSwitchTable {apexManualRouteGbeInputRedundConfig 4}
-- apexManRteGbeInRedForceSwitchEntry {apexManRteGbeInRedForceSwitchTable 1}
-- apexManRteGbeInRedForceSwitchIndex {apexManRteGbeInRedForceSwitchEntry 1}
-- apexManRteGbeInRedForceSwitch {apexManRteGbeInRedForceSwitchEntry 2}
apexManualRoutingStatus OBJECT IDENTIFIER ::= {apexManualRouting 2}
apexManualRoutingStatusGeneral OBJECT IDENTIFIER ::= {apexManualRoutingStatus 1}
-- apexManualRouteInvalidApplyText {apexManualRoutingStatusGeneral 1}
-- apexManRtePassThroughInvalidApplyText {apexManualRoutingStatusGeneral 2}
-- apexManRteGbeInRedInvalidApplyText {apexManualRoutingStatusGeneral 3}
apexManualRouteGbeInputRedundStatus OBJECT IDENTIFIER ::= {apexManualRoutingStatus 2}
apexManRteGbeInRedStatusGeneral OBJECT IDENTIFIER ::= {apexManualRouteGbeInputRedundStatus 1}
-- apexManRteGbeInRedStatusMapTable {apexManualRouteGbeInputRedundStatus 2}
-- apexManRteGbeInRedStatusMapEntry {apexManRteGbeInRedStatusMapTable 1}
-- apexManRteGbeInRedStatusMapIndex {apexManRteGbeInRedStatusMapEntry 1}
-- apexManRteGbeInRedStatusMapInputTsStatRow {apexManRteGbeInRedStatusMapEntry 2}
apexManualRoutingServiceStatus OBJECT IDENTIFIER ::= {apexManualRoutingStatus 3}
apexManualRoutingServiceStatusGeneral OBJECT IDENTIFIER ::= {apexManualRoutingServiceStatus 1}
-- apexManualRoutingServiceStatusTable {apexManualRoutingServiceStatus 2}
-- apexManualRoutingServiceStatusEntry {apexManualRoutingServiceStatusTable 1}
-- apexManualRoutingServiceStatusIndex {apexManualRoutingServiceStatusEntry 1}
-- apexManualRoutingServiceErrorStatus {apexManualRoutingServiceStatusEntry 2}
apexAncillaryPidMapping OBJECT IDENTIFIER ::= {apex 11}
apexPidMapConfig OBJECT IDENTIFIER ::= {apexAncillaryPidMapping 1}
-- apexPidMapTable {apexPidMapConfig 1}
-- apexPidMapEntry {apexPidMapTable 1}
-- apexPidMapIndex {apexPidMapEntry 1}
-- apexPidMapEnable {apexPidMapEntry 2}
-- apexPidMapInputType {apexPidMapEntry 3}
-- apexPidMapInputInterface {apexPidMapEntry 4}
-- apexPidMapInputUdp {apexPidMapEntry 5}
-- apexPidMapInputMulticastIp {apexPidMapEntry 6}
-- apexPidMapInputSourceIp {apexPidMapEntry 7}
-- apexPidMapInputPid {apexPidMapEntry 8}
-- apexPidMapOutputTsNum {apexPidMapEntry 9}
-- apexPidMapOutputPid {apexPidMapEntry 10}
-- apexPidMapApplyTable {apexPidMapConfig 2}
-- apexPidMapApplyEntry {apexPidMapApplyTable 1}
-- apexPidMapApplyIndex {apexPidMapApplyEntry 1}
-- apexPidMapApplyChange {apexPidMapApplyEntry 2}
-- apexBulkPidMapTable {apexPidMapConfig 3}
-- apexBulkPidMapEntry {apexBulkPidMapTable 1}
-- apexBulkPidMapIndex {apexBulkPidMapEntry 1}
-- apexBulkPidMapEnable {apexBulkPidMapEntry 2}
-- apexBulkPidMapInputType {apexBulkPidMapEntry 3}
-- apexBulkPidMapInputInterface {apexBulkPidMapEntry 4}
-- apexBulkPidMapInputUdp {apexBulkPidMapEntry 5}
-- apexBulkPidMapInputMulticastIp {apexBulkPidMapEntry 6}
-- apexBulkPidMapInputSourceIp {apexBulkPidMapEntry 7}
-- apexBulkPidMapInputPid {apexBulkPidMapEntry 8}
-- apexBulkPidMapOutputTsNum01to32 {apexBulkPidMapEntry 9}
-- apexBulkPidMapOutputTsNum33to48 {apexBulkPidMapEntry 10}
-- apexBulkPidMapOutputPid {apexBulkPidMapEntry 11}
-- apexBulkPidMapApplyTable {apexPidMapConfig 4}
-- apexBulkPidMapApplyEntry {apexBulkPidMapApplyTable 1}
-- apexBulkPidMapApplyIndex {apexBulkPidMapApplyEntry 1}
-- apexBulkPidMapApplyChange {apexBulkPidMapApplyEntry 2}
apexPidMapConfigGeneral OBJECT IDENTIFIER ::= {apexPidMapConfig 5}
-- apexPidMapConfigApplyChange {apexPidMapConfigGeneral 1}
-- apexPidMapConfigBulkPidEnable {apexPidMapConfigGeneral 2}
apexPidMapInputAncillaryPidDetection OBJECT IDENTIFIER ::= {apexPidMapConfig 6}
-- apexPidMapInputAncillaryPidDetectionTimeout {apexPidMapInputAncillaryPidDetection 1}
apexPidMapStatus OBJECT IDENTIFIER ::= {apexAncillaryPidMapping 2}
apexPidMapStatusGeneral OBJECT IDENTIFIER ::= {apexPidMapStatus 1}
-- apexPidMapMaxPidMappings {apexPidMapStatusGeneral 1}
-- apexPidMapInvalidApplyText {apexPidMapStatusGeneral 3}
apexBulkPidMapStatusGeneral OBJECT IDENTIFIER ::= {apexPidMapStatus 2}
-- apexBulkPidMapInvalidApplyText {apexBulkPidMapStatusGeneral 1}
apexInsertion OBJECT IDENTIFIER ::= {apex 12}
apexInsertionConfig OBJECT IDENTIFIER ::= {apexInsertion 1}
apexInsertionConfigGeneral OBJECT IDENTIFIER ::= {apexInsertionConfig 1}
-- apexInsertionMode {apexInsertionConfigGeneral 1}
apexInsertionStatus OBJECT IDENTIFIER ::= {apexInsertion 2}
apexInsertionStatusGeneral OBJECT IDENTIFIER ::= {apexInsertionStatus 1}
-- apexInsertPacketStatisticsTable {apexInsertionStatus 2}
-- apexInsertPacketStatisticsEntry {apexInsertPacketStatisticsTable 1}
-- apexInsertPacketStatOutputTsNum {apexInsertPacketStatisticsEntry 1}
-- apexInsertPacketStatTotPkts {apexInsertPacketStatisticsEntry 2}
-- apexInsertPacketStatNumPkts {apexInsertPacketStatisticsEntry 3}
apexInputTransport OBJECT IDENTIFIER ::= {apex 13}
apexInputTsConfig OBJECT IDENTIFIER ::= {apexInputTransport 1}
apexInputTsConfigGeneral OBJECT IDENTIFIER ::= {apexInputTsConfig 1}
apexInputTsStatus OBJECT IDENTIFIER ::= {apexInputTransport 2}
apexInputTsStatusGeneral OBJECT IDENTIFIER ::= {apexInputTsStatus 1}
-- apexInputTsStatTable {apexInputTsStatus 2}
-- apexInputTsStatEntry {apexInputTsStatusTable 1}
-- apexInputTsStatIndex {apexInputTsStatEntry 1}
-- apexInputTsStatStreamInUse {apexInputTsStatEntry 2}
-- apexInputTsStatInputType {apexInputTsStatEntry 3}
-- apexInputTsStatRoutingType {apexInputTsStatEntry 4}
-- apexInputTsStatPriState {apexInputTsStatEntry 5}
-- apexInputTsStatPriInputInterface {apexInputTsStatEntry 6}
-- apexInputTsStatPriInputUdp {apexInputTsStatEntry 7}
-- apexInputTsStatPriInputMulticastIp {apexInputTsStatEntry 8}
-- apexInputTsStatPriInputSourceIp {apexInputTsStatEntry 9}
-- apexInputTsStatSecState {apexInputTsStatEntry 10}
-- apexInputTsStatSecInputInterface {apexInputTsStatEntry 11}
-- apexInputTsStatSecInputUdp {apexInputTsStatEntry 12}
-- apexInputTsStatSecInputMulticastIp {apexInputTsStatEntry 13}
-- apexInputTsStatSecInputSourceIp {apexInputTsStatEntry 14}
-- apexInputTsStatRateCompareType {apexInputTsStatEntry 15}
apexOutputTransport OBJECT IDENTIFIER ::= {apex 14}
apexOutputTsConfig OBJECT IDENTIFIER ::= {apexOutputTransport 1}
apexOutputTsConfigGeneral OBJECT IDENTIFIER ::= {apexOutputTsConfig 1}
apexOutputTsUtilizationMonitoring OBJECT IDENTIFIER ::= {apexOutputTsConfig 4}
apexOutputTsUtilizationMonitorGeneral OBJECT IDENTIFIER ::= {apexOutputTsUtilizationMonitoring 1}
-- apexOutputTsUtilMonAlarmThreshold {apexOutputTsUtilizationMonitorGeneral 1}
-- apexOutputTsUtilMonSetAlarmDelay {apexOutputTsUtilizationMonitorGeneral 2}
-- apexOutputTsUtilMonClearAlarmDelay {apexOutputTsUtilizationMonitorGeneral 3}
-- apexOutputTsUtilizationMonitorTable {apexOutputTsUtilizationMonitoring 2}
-- apexOutputTsUtilizationMonitorEntry {apexOutputTsUtilizationMonitorTable 1}
-- apexOutputTsUtilMonOutputTsNum {apexOutputTsUtilizationMonitorEntry 1}
-- apexOutputTsUtilMonResetTotDropPacket {apexOutputTsUtilizationMonitorEntry 2}
-- apexOutputTsConfApplyTable {apexOutputTsConfig 5}
-- apexOutputTsConfApplyEntry {apexOutputTsConfApplyTable 1}
-- apexOutputTsConfApplyIndex {apexOutputTsConfApplyEntry 1}
-- apexOutputTsConfApplyChange {apexOutputTsConfApplyEntry 2}
-- apexOutputTsConfigTable {apexOutputTsConfig 6}
-- apexOutputTsConfigEntry {apexOutputTsConfigTable 1}
-- apexOutputTsConfOutputTsNum {apexOutputTsConfigEntry 1}
-- apexOutputTsConfPidRemappingMode {apexOutputTsConfigEntry 2}
-- apexOutputTsConfOperatingMode {apexOutputTsConfigEntry 3}
-- apexOutputTsConfOutPatTsId {apexOutputTsConfigEntry 4}
-- apexOutputTsConfPsipEnable {apexOutputTsConfigEntry 5}
-- apexOutputTsConfEncryptionType {apexOutputTsConfigEntry 6}
-- apexOutputTsConfSimulcryptMode {apexOutputTsConfigEntry 7}
-- apexOutputTsConfPcrLess {apexOutputTsConfigEntry 8}
-- apexOutputTsConfAutoSDTEnable {apexOutputTsConfigEntry 9}
apexOutputTsStatus OBJECT IDENTIFIER ::= {apexOutputTransport 2}
apexOutputTsStatusGeneral OBJECT IDENTIFIER ::= {apexOutputTsStatus 1}
apexOutputTsUtilization OBJECT IDENTIFIER ::= {apexOutputTsStatus 2}
apexOutputTsUtilizationGeneral OBJECT IDENTIFIER ::= {apexOutputTsUtilization 1}
-- apexOutputTsUtilizationSamplePeriod {apexOutputTsUtilizationGeneral 1}
-- apexOutputTsUtilizationTable {apexOutputTsUtilization 2}
-- apexOutputTsUtilizationEntry {apexOutputTsUtilizationTable 1}
-- apexOutputTsUtilizOutpuTsNum {apexOutputTsUtilizationEntry 1}
-- apexOutputTsUtilizDataFlag {apexOutputTsUtilizationEntry 2}
-- apexOutputTsUtilizNumSamples {apexOutputTsUtilizationEntry 3}
-- apexOutputTsUtilizThreshold {apexOutputTsUtilizationEntry 4}
-- apexOutputTsUtilizTime {apexOutputTsUtilizationEntry 5}
-- apexOutputTsUtilizCurPercent {apexOutputTsUtilizationEntry 6}
-- apexOutputTsUtilizAvgPercent {apexOutputTsUtilizationEntry 7}
-- apexOutputTsUtilizMinPercent {apexOutputTsUtilizationEntry 8}
-- apexOutputTsUtilizPeakPercent {apexOutputTsUtilizationEntry 9}
-- apexOutputTsUtilizCurRate {apexOutputTsUtilizationEntry 10}
-- apexOutputTsUtilizAvgRate {apexOutputTsUtilizationEntry 11}
-- apexOutputTsUtilizMinRate {apexOutputTsUtilizationEntry 12}
-- apexOutputTsUtilizPeakRate {apexOutputTsUtilizationEntry 13}
-- apexOutputTsUtilizOverflow {apexOutputTsUtilizationEntry 14}
-- apexOutputTsUtilizCurDropPackets {apexOutputTsUtilizationEntry 15}
-- apexOutputTsUtilizPeakDropPackets {apexOutputTsUtilizationEntry 16}
-- apexOutputTsUtilizRollingDropPackets {apexOutputTsUtilizationEntry 17}
-- apexOutputTsUtilizTotalDropPackets {apexOutputTsUtilizationEntry 18}
-- apexOutputTsUtilizThresholdAlarm {apexOutputTsUtilizationEntry 19}
-- apexOutputTsUtilizOverflowAlarm {apexOutputTsUtilizationEntry 20}
-- apexOutputTsStatusTable {apexOutputTsStatus 3}
-- apexOutputTsStatusEntry {apexOutputTsStatusTable 1}
-- apexOutputTsStatusOutputTsNum {apexOutputTsStatusEntry 1}
-- apexOutputTsStatusProgramsPerTs {apexOutputTsStatusEntry 2}
-- apexOutputTsStatusServicesMapped {apexOutputTsStatusEntry 3}
-- apexOutputTsStatusAncillaryPidsMapped {apexOutputTsStatusEntry 4}
-- apexOutputTsStatusInputStreamsMapped {apexOutputTsStatusEntry 5}
-- apexOutputTsStatusFault {apexOutputTsStatusEntry 6}
-- apexOutputTsStatusServicesInError {apexOutputTsStatusEntry 7}
-- apexOutputTsStatusDepiSessionsMapped {apexOutputTsStatusEntry 8}
-- apexOutputTsStatusMessageGenerationNum {apexOutputTsStatusEntry 9}
-- apexOutputTsStatusScgsProvisioned {apexOutputTsStatusEntry 10}
-- apexOutputTsStatusServicesMuxed {apexOutputTsStatusEntry 11}
apexPsi OBJECT IDENTIFIER ::= {apex 15}
apexPsiConfig OBJECT IDENTIFIER ::= {apexPsi 1}
apexPsiConfigGeneral OBJECT IDENTIFIER ::= {apexPsiConfig 1}
-- apexPsiDetectionEnabled {apexPsiConfigGeneral 1}
-- apexPsiDetectionTimeout {apexPsiConfigGeneral 2}
-- apexPsiRangeStart {apexPsiConfigGeneral 3}
-- apexPsiRangeStop {apexPsiConfigGeneral 4}
-- apexPatVersionIncrement {apexPsiConfigGeneral 5}
-- apexPmtVersionIncrement {apexPsiConfigGeneral 6}
-- apexEcmEmmFirstPid {apexPsiConfigGeneral 7}
-- apexEcmEmmNumberPids {apexPsiConfigGeneral 8}
-- apexProgramBasedPmtOffset {apexPsiConfigGeneral 9}
-- apexPsiCcErrorDetectionTimeout {apexPsiConfigGeneral 10}
-- apexPsiCcErrorDetectionEnabled {apexPsiConfigGeneral 11}
apexPsiStatus OBJECT IDENTIFIER ::= {apexPsi 2}
apexPsiStatusGeneral OBJECT IDENTIFIER ::= {apexPsiStatus 1}
-- apexPsiStatusTable {apexPsiStatus 2}
-- apexPsiStatusEntry {apexPsiStatusTable 1}
-- apexPsiStatusTableType {apexPsiStatusEntry 1}
-- apexPsiStatusIndex {apexPsiStatusEntry 2}
-- apexPsiStatusPid {apexPsiStatusEntry 3}
-- apexPsiStatusMessageType {apexPsiStatusEntry 4}
-- apexPsiStatusProgramNumber {apexPsiStatusEntry 5}
-- apexPsiStatusSegment {apexPsiStatusEntry 6}
-- apexPsiStatusPart {apexPsiStatusEntry 7}
-- apexPsiStatusBody {apexPsiStatusEntry 8}
-- apexPsiStatusGpsTime {apexPsiStatusEntry 9}
apexOutputProgram OBJECT IDENTIFIER ::= {apex 16}
apexOutputProgramConfig OBJECT IDENTIFIER ::= {apexOutputProgram 1}
apexOutputProgramConfigGeneral OBJECT IDENTIFIER ::= {apexOutputProgramConfig 1}
apexOutputProgramStatus OBJECT IDENTIFIER ::= {apexOutputProgram 2}
apexOutputProgramStatusGeneral OBJECT IDENTIFIER ::= {apexOutputProgramStatus 1}
-- apexOutputProgramTable {apexOutputProgramStatus 2}
-- apexOutputProgramEntry {apexOutputProgramTable 1}
-- apexOutputProgramIndex {apexOutputProgramEntry 1}
-- apexOutputProgramInputTsIndex {apexOutputProgramEntry 2}
-- apexOutputProgramInputProgNum {apexOutputProgramEntry 3}
-- apexOutputProgramOutputProgNum {apexOutputProgramEntry 4}
-- apexOutputProgramRoutingStatus {apexOutputProgramEntry 5}
-- apexOutputProgramInputPreEncrypted {apexOutputProgramEntry 6}
-- apexOutputProgramOutputTsNum {apexOutputProgramEntry 7}
-- apexOutputProgramError {apexOutputProgramEntry 8}
-- apexOutputProgramEncryptionMode {apexOutputProgramEntry 9}
-- apexOutputProgramEncryptionStatus {apexOutputProgramEntry 10}
-- apexOutputProgramEcmServiceId {apexOutputProgramEntry 11}
-- apexOutputProgramCciLevel {apexOutputProgramEntry 12}
-- apexOutputProgramApsLevel {apexOutputProgramEntry 13}
-- apexOutputProgramCitSetting {apexOutputProgramEntry 14}
-- apexOutputProgramNumberTiers {apexOutputProgramEntry 15}
-- apexOutputProgramTierData {apexOutputProgramEntry 16}
-- apexOutputProgramSourceId {apexOutputProgramEntry 17}
-- apexOutputProgramProviderId {apexOutputProgramEntry 18}
-- apexOutputProgramProgramType {apexOutputProgramEntry 19}
-- apexOutputProgramDtaEncryptionMode {apexOutputProgramEntry 20}
-- apexOutputProgramMcSimAccessCriteria {apexOutputProgramEntry 21}
-- apexOutputProgramMcSimAccessCriteriaStatus {apexOutputProgramEntry 22}
-- apexOutputProgramCurrentCSN {apexOutputProgramEntry 23}
-- apexOutputProgramMcSimAccessCriteriaString {apexOutputProgramEntry 24}
apexAcp OBJECT IDENTIFIER ::= {apex 17}
apexAcpConfig OBJECT IDENTIFIER ::= {apexAcp 1}
apexAcpConfigGeneral OBJECT IDENTIFIER ::= {apexAcpConfig 1}
apexAcpStatus OBJECT IDENTIFIER ::= {apexAcp 2}
apexAcpStatusGeneral OBJECT IDENTIFIER ::= {apexAcpStatus 1}
-- apexAcpStatusTable {apexAcpStatus 2}
-- apexAcpStatusEntry {apexAcpStatusTable 1}
-- apexAcpStatusIndex {apexAcpStatusEntry 1}
-- apexAcpUnitAddress {apexAcpStatusEntry 2}
-- apexAcpHealthByte {apexAcpStatusEntry 3}
-- apexAcpEvenCsn {apexAcpStatusEntry 4}
-- apexAcpOddCsn {apexAcpStatusEntry 5}
-- apexAcpUnitAttribute {apexAcpStatusEntry 6}
apexUdpPortMapping OBJECT IDENTIFIER ::= {apex 18}
apexUdpMapConfig OBJECT IDENTIFIER ::= {apexUdpPortMapping 1}
apexUdpMapConfigGeneral OBJECT IDENTIFIER ::= {apexUdpMapConfig 1}
-- apexUdpMapPreEncryptCheck {apexUdpMapConfigGeneral 1}
-- apexUdpMapModeBits {apexUdpMapConfigGeneral 2}
-- apexUdpMapTsOffset {apexUdpMapConfigGeneral 3}
-- apexUdpMapFollowDtcp {apexUdpMapConfigGeneral 4}
-- apexUdpMapApplyTable {apexUdpMapConfig 2}
-- apexUdpMapApplyEntry {apexUdpMapApplyTable 1}
-- apexUdpMapApplyOutputTsNum {apexUdpMapApplyEntry 1}
-- apexUdpMapApplyChange {apexUdpMapApplyEntry 2}
-- apexUdpMapTable {apexUdpMapConfig 3}
-- apexUdpMapEntry {apexUdpMapTable 1}
-- apexUdpMapOutputTsNum {apexUdpMapEntry 1}
-- apexUdpMapInputInterface {apexUdpMapEntry 2}
-- apexUdpMapStartProgNum {apexUdpMapEntry 3}
-- apexUdpMapNumberProgs {apexUdpMapEntry 4}
-- apexUdpMapMulticastTable {apexUdpMapConfig 4}
-- apexUdpMapMulticastEntry {apexUdpMapMulticastTable 1}
-- apexUdpMapMulticastIndex {apexUdpMapMulticastEntry 1}
-- apexUdpMapMulticastEnable {apexUdpMapMulticastEntry 2}
-- apexUdpMapMulticastInterface {apexUdpMapMulticastEntry 3}
-- apexUdpMapMulticastUdp {apexUdpMapMulticastEntry 4}
-- apexUdpMapMulticastMcastIp {apexUdpMapMulticastEntry 5}
-- apexUdpMapMulticastSourceIp {apexUdpMapMulticastEntry 6}
-- apexUdpMapMulticastApplyTable {apexUdpMapConfig 5}
-- apexUdpMapMulticastApplyEntry {apexUdpMapMulticastApplyTable 1}
-- apexUdpMapMulticastApplyIndex {apexUdpMapMulticastApplyEntry 1}
-- apexUdpMapMulticastApplyChange {apexUdpMapMulticastApplyEntry 2}
apexUdpMapStatus OBJECT IDENTIFIER ::= {apexUdpPortMapping 2}
apexUdpMapStatusGeneral OBJECT IDENTIFIER ::= {apexUdpMapStatus 1}
-- apexUdpMapMulticastInvalidApplyText {apexUdpMapStatusGeneral 1}
-- apexUdpMapStatusTable {apexUdpMapStatus 2}
-- apexUdpMapStatusEntry {apexUdpMapStatusTable 1}
-- apexUdpMapStatusOutputTsNum {apexUdpMapStatusEntry 1}
-- apexUdpMapInvalidApplyText {apexUdpMapStatusEntry 2}
apexRds OBJECT IDENTIFIER ::= {apex 19}
apexRdsConfig OBJECT IDENTIFIER ::= {apexRds 1}
apexRdsConfigGeneral OBJECT IDENTIFIER ::= {apexRdsConfig 1}
-- apexRdsIpAddr {apexRdsConfigGeneral 1}
-- apexRdsTcpPort {apexRdsConfigGeneral 2}
-- apexRdsProgramEpochDuration {apexRdsConfigGeneral 3}
-- apexRdsCetPollInterval {apexRdsConfigGeneral 4}
-- apexRdsCetRefresh {apexRdsConfigGeneral 5}
-- apexRdsRmdPollInterval {apexRdsConfigGeneral 6}
-- apexRdsRmdRefresh {apexRdsConfigGeneral 7}
-- apexRdsPollRandomization {apexRdsConfigGeneral 8}
-- apexRdsSetDefault {apexRdsConfigGeneral 9}
-- apexRdsErrorCountReset {apexRdsConfigGeneral 10}
-- apexRdsConfigApplyChange {apexRdsConfigGeneral 11}
-- apexRdsConfigRds2Enable {apexRdsConfigGeneral 12}
-- apexRdsConfigServerUrl {apexRdsConfigGeneral 13}
-- apexRdsInitialEcmRetryInterval {apexRdsConfigGeneral 14}
-- apexRdsDeviceId {apexRdsConfigGeneral 15}
apexRdsStatus OBJECT IDENTIFIER ::= {apexRds 2}
apexRdsStatusGeneral OBJECT IDENTIFIER ::= {apexRdsStatus 1}
-- apexRdsConnectionStatus {apexRdsStatusGeneral 1}
-- apexRdsCurrentCsn {apexRdsStatusGeneral 2}
-- apexRdsCetNextPollTime {apexRdsStatusGeneral 3}
-- apexRdsRmdNextPollTime {apexRdsStatusGeneral 4}
-- apexRdsEmmStatusTableSize {apexRdsStatusGeneral 5}
-- apexRdsProgramMessagesReceived {apexRdsStatusGeneral 6}
-- apexRdsProgramMessagesFailed {apexRdsStatusGeneral 7}
-- apexRdsCommErrorCount {apexRdsStatusGeneral 8}
-- apexRdsCommStatus {apexRdsStatusGeneral 9}
-- apexRdsFlashWriteCount {apexRdsStatusGeneral 10}
-- apexRdsMcast16 {apexRdsStatusGeneral 11}
-- apexRdsStatusServerIp {apexRdsStatusGeneral 12}
-- apexRdsStatusServerPort {apexRdsStatusGeneral 13}
-- apexRdsStatusServerRootDirPath {apexRdsStatusGeneral 14}
-- apexRdsStatusValidation {apexRdsStatusGeneral 15}
-- apexRdsEmmStatusTable {apexRdsStatus 2}
-- apexRdsEmmStatusEntry {apexRdsEmmStatusTable 1}
-- apexRdsEmmStatusIndex {apexRdsEmmStatusEntry 1}
-- apexRdsEmmStatusCsn {apexRdsEmmStatusEntry 2}
-- apexRdsEmmStatusState {apexRdsEmmStatusEntry 3}
-- apexRdsEmmStatusGpsTime {apexRdsEmmStatusEntry 4}
-- apexRdsEmmStatusServerError {apexRdsEmmStatusEntry 5}
-- apexRdsEmmStatusUnitAddress {apexRdsEmmStatusEntry 6}
-- apexRdsSourceLookupTable {apexRdsStatus 3}
-- apexRdsSourceLookupEntry {apexRdsSourceLookupTable 1}
-- apexRdsSourceLookupIndex {apexRdsSourceLookupEntry 1}
-- apexRdsSourceLookupDescription {apexRdsSourceLookupEntry 2}
-- apexRdsSourceLookupSourceId {apexRdsSourceLookupEntry 3}
-- apexRdsSourceLookupProviderId {apexRdsSourceLookupEntry 4}
-- apexRdsEventTable {apexRdsStatus 4}
-- apexRdsEventEntry {apexRdsEventTable 1}
-- apexRdsEventProgramIndex {apexRdsEventEntry 1}
-- apexRdsEventEventIndex {apexRdsEventEntry 2}
-- apexRdsEventEpochNumber {apexRdsEventEntry 3}
-- apexRdsEventEpochStart {apexRdsEventEntry 4}
-- apexRdsEventEpochEnd {apexRdsEventEntry 5}
-- apexRdsEventInterstitialDuration {apexRdsEventEntry 6}
-- apexRdsEventPreviewDuration {apexRdsEventEntry 7}
-- apexRdsEventPurchaseDuration {apexRdsEventEntry 8}
-- apexRdsEventNumberTiers {apexRdsEventEntry 9}
-- apexRdsEventTierData {apexRdsEventEntry 10}
-- apexRdsEventProgramCost {apexRdsEventEntry 11}
-- apexRdsEventRatingRegion {apexRdsEventEntry 12}
-- apexRdsEventRatingData {apexRdsEventEntry 13}
-- apexRdsEventRatingText {apexRdsEventEntry 14
-- apexRdsEventControlByte {apexRdsEventEntry 15}
-- apexRdsEventPrkmWkemAvailable {apexRdsEventEntry 16}
-- apexRdsEventCcmAvailable {apexRdsEventEntry 17}
apexEncryption OBJECT IDENTIFIER ::= {apex 20}
apexEncryptionConfig OBJECT IDENTIFIER ::= {apexEncryption 1}
apexEncryptionConfigGeneral OBJECT IDENTIFIER ::= {apexEncryptionConfig 1}
-- apexEncryptionConfAlgorithm {apexEncryptionConfigGeneral 1}
-- apexSimulcryptExternalEisSetting {apexEncryptionConfigGeneral 2}
-- apexSimulcryptEmEnable {apexEncryptionConfigGeneral 3}
-- apexEncryptionConfApplyChange {apexEncryptionConfigGeneral 4}
-- apexEncryptionConfInvalidApplyText {apexEncryptionConfigGeneral 5}
apexCteConfig OBJECT IDENTIFIER ::= {apexEncryptionConfig 2}
-- apexCteEncryptionMode {apexCteConfig 1}
-- apexCteCciLevel {apexCteConfig 2}
-- apexCteApsLevel {apexCteConfig 3}
-- apexCteCitEnable {apexCteConfig 4}
-- apexCteCommonTier {apexCteConfig 5}
-- apexCteApplyChange {apexCteConfig 6}
apexEncryptionStatus OBJECT IDENTIFIER ::= {apexEncryption 2}
apexEncryptionStatusGeneral OBJECT IDENTIFIER ::= {apexEncryptionStatus 1}
-- apexEncryptionStatAlgorithm {apexEncryptionStatusGeneral 1}
apexEncryptionCwgStatus OBJECT IDENTIFIER ::= {apexEncryptionStatusGeneral 2}
-- apexEncryptionCwgPerSecond {apexEncryptionCwgStatus 1}
-- apexEncryptionMux1CollisionCount {apexEncryptionCwgStatus 2}
-- apexEncryptionMux2CollisionCount {apexEncryptionCwgStatus 3}
-- apexEncryptionMux1RolloverCount {apexEncryptionCwgStatus 4}
-- apexEncryptionMux2RolloverCount {apexEncryptionCwgStatus 5}
-- apexEncryptionEmmRequestsSent {apexEncryptionCwgStatus 6}
-- apexEncryptionEmmGoodRepliesRecvd {apexEncryptionCwgStatus 7}
-- apexEncryptionEmmBadRepliesRecvd {apexEncryptionCwgStatus 8}
-- apexEncryptionEmmGoodDeliveryTimeMs {apexEncryptionCwgStatus 9}
-- apexEncryptionEmmMaxDeliveryTimeMs {apexEncryptionCwgStatus 10}
-- apexEncryptionEmmMinDeliveryTimeMs {apexEncryptionCwgStatus 11}
-- apexEncryptionMcDiagTable {apexEncryptionCwgStatus 12}
-- apexEncryptionMcDiagEntry {apexEncryptionMcDiagTable 1}
-- apexEncryptionMcDiagDeviceIndex {apexEncryptionMcDiagEntry 1}
-- apexEncryptionCwCountsPerSecond {apexEncryptionMcDiagEntry 2}
apexEas OBJECT IDENTIFIER ::= {apex 21}
apexEasConfig OBJECT IDENTIFIER ::= {apexEas 1}
apexEasConfigGeneral OBJECT IDENTIFIER ::= {apexEasConfig 1}
-- apexEasApplyChange [obsolete] {apexEasConfigGeneral 1}
-- apexEasPhysInType [obsolete] {apexEasConfigGeneral 2}
-- apexEasPhysInPort [obsolete] {apexEasConfigGeneral 3}
-- apexEasRcvUdpPort [obsolete] {apexEasConfigGeneral 4}
-- apexEasMulticastIpAddress [obsolete] {apexEasConfigGeneral 5}
-- apexEasSourceIpAddress [obsolete] {apexEasConfigGeneral 6}
-- apexEasMessageReceiveTimeoutDuration {apexEasConfigGeneral 7}
-- apexEasMessageReceiveTimeoutEventEnable {apexEasConfigGeneral 8}
-- apexEasOutputTable {apexEasConfig 2}
-- apexEasOutputEntry {apexEasOutputTable 1}
-- apexEasOutputStreamNum {apexEasOutputEntry 1}
-- apexEasOutputEnable {apexEasOutputEntry 2}
-- apexEasServerApplyTable {apexEasConfig 3}
-- apexEasServerApplyEntry {apexEasServerApplyTable 1}
-- apexEasServerApplyNum {apexEasServerApplyEntry 1}
-- apexEasServerApplyChange {apexEasServerApplyEntry 2}
-- apexEasServerTable {apexEasConfig 4}
-- apexEasServerEntry {apexEasServerTable 1}
-- apexEasServerNum {apexEasServerEntry 1}
-- apexEasServerPhysInType {apexEasServerEntry 2}
-- apexEasServerPhysInPort {apexEasServerEntry 3}
-- apexEasServerRcvUdpPort {apexEasServerEntry 4}
-- apexEasServerMulticastIpAddress {apexEasServerEntry 5}
-- apexEasServerSourceIpAddress {apexEasServerEntry 6}
apexEasStatus OBJECT IDENTIFIER ::= {apexEas 2}
apexEasStatusGeneral OBJECT IDENTIFIER ::= {apexEasStatus 1}
-- apexEasNumRcvMsgs {apexEasStatusGeneral 1}
-- apexEasNumInvalRcvMsgs {apexEasStatusGeneral 2}
-- apexEasLastReceivedMessageStatusTable {apexEasStatus 2}
-- apexEasLastReceivedMessageStatusEntry {apexEasLastReceivedMessageStatusTable 1}
-- apexEasLastReceivedMessageServerNum {apexEasLastReceivedMessageStatusEntry 1}
-- apexEasLastReceivedMessageTime {apexEasLastReceivedMessageStatusEntry 2}
apexChassisRedundancy OBJECT IDENTIFIER ::= {apex 22}
apexChassisRedundancyConfig OBJECT IDENTIFIER ::= {apexChassisRedundancy 1}
apexChassisRedundancyConfigGeneral OBJECT IDENTIFIER ::= {apexChassisRedundancyConfig 1}
-- apexChassisRedundancyConfigEnable {apexChassisRedundancyConfigGeneral 1}
-- apexChassisRedundancyMode {apexChassisRedundancyConfigGeneral 2}
-- apexChassisRedundancyMulticastRedundancyMode {apexChassisRedundancyConfigGeneral 3}
-- apexChassisRedundancyUdpPort {apexChassisRedundancyConfigGeneral 4}
-- apexChassisRedundancyRedundantApexIp {apexChassisRedundancyConfigGeneral 5}
-- apexChassisRedundancySuspend {apexChassisRedundancyConfigGeneral 6}
-- apexChassisRedundancyForceFailOver {apexChassisRedundancyConfigGeneral 7}
-- apexChassisRedundancyFailOverGigE12LinkLoss {apexChassisRedundancyConfigGeneral 8}
-- apexChassisRedundancyFailOverGigE34LinkLoss {apexChassisRedundancyConfigGeneral 9}
-- apexChassisRedundancyFailOverEnet1LinkLoss {apexChassisRedundancyConfigGeneral 10}
-- apexChassisRedundancyFailOverEnet2LinkLoss {apexChassisRedundancyConfigGeneral 11}
-- apexChassisRedundancyFailOverTemperatureFault {apexChassisRedundancyConfigGeneral 12}
-- apexChassisRedundancyFailOverQamModuleFault {apexChassisRedundancyConfigGeneral 13}
-- apexChassisRedundancyFailOverQamRfPortFault {apexChassisRedundancyConfigGeneral 14}
-- apexChassisRedundancyFailOverQamChannelFault {apexChassisRedundancyConfigGeneral 15}
-- apexChassisRedundancyConfigApplyChange {apexChassisRedundancyConfigGeneral 16}
-- apexChassisRedundancyPrimaryStandbyOverride {apexChassisRedundancyConfigGeneral 17}
-- apexChassisRedundancyRedundantApexSecIp {apexChassisRedundancyConfigGeneral 18}
-- apexChassisRedundancyRedundantHBEnable {apexChassisRedundancyConfigGeneral 19}
-- apexChassisRedundancyFailOverQamModuleRemoval {apexChassisRedundancyConfigGeneral 20}
apexChassisRedundancyStatus OBJECT IDENTIFIER ::= {apexChassisRedundancy 2}
apexChassisRedundancyStatusGeneral OBJECT IDENTIFIER ::= {apexChassisRedundancyStatus 1}
-- apexChassisRedundancyPrimaryApexStatus {apexChassisRedundancyStatusGeneral 1}
-- apexChassisRedundancySecondaryApexStatus {apexChassisRedundancyStatusGeneral 2}
-- apexChassisRedundancyState {apexChassisRedundancyStatusGeneral 3}
-- apexChassisRedundancyCommunicationStatus {apexChassisRedundancyStatusGeneral 4}
-- apexChassisRedundancyConfigurationStatus {apexChassisRedundancyStatusGeneral 5}
-- apexChassisRedundancyStatusInvalidApplyText {apexChassisRedundancyStatusGeneral 6}
-- apexChassisRedundancyGeneralConfigSyncStatusText {apexChassisRedundancyStatusGeneral 7}
-- apexChassisRedundancyGigEMismatchStatus {apexChassisRedundancyStatusGeneral 8}
-- apexChassisRedundancyQamMismatchStatus {apexChassisRedundancyStatusGeneral 9}
-- apexChassisRedundancyFirmwareMismatchStatus {apexChassisRedundancyStatusGeneral 10}
-- apexChassisRedundancyGigE12LinkStatus {apexChassisRedundancyStatusGeneral 11}
-- apexChassisRedundancyGigE34LinkStatus {apexChassisRedundancyStatusGeneral 12}
-- apexChassisRedundancyCurrHBIntfIPStatus {apexChassisRedundancyStatusGeneral 13}
-- apexChassisRedundancyAppliedEncAlgorithmStatus {apexChassisRedundancyStatusGeneral 14}
-- apexChassisRedundancyMCSimEntitlementStatus {apexChassisRedundancyStatusGeneral 15}
apexDta OBJECT IDENTIFIER ::= {apex 23}
apexDtaConfig OBJECT IDENTIFIER ::= {apexDta 1}
apexDtaGeneralConfig OBJECT IDENTIFIER ::= {apexDtaConfig 1}
-- apexDtaGeneralConfigCatSourceType {apexDtaGeneralConfig 1}
-- apexDtaGeneralConfigCatEmmPidMulticastIP {apexDtaGeneralConfig 2}
-- apexDtaGeneralConfigCatEmmPidSourceIP {apexDtaGeneralConfig 3}
-- apexDtaGeneralConfigCatEmmPidUdpPort {apexDtaGeneralConfig 4}
-- apexDtaGeneralConfigCatEmmPidInterface {apexDtaGeneralConfig 5}
-- apexDtaGeneralConfigEmmPidNum {apexDtaGeneralConfig 6}
-- apexDtaGeneralConfigApplyChange {apexDtaGeneralConfig 7}
-- apexDtaGeneralConfigInvalidApplyText {apexDtaGeneralConfig 8}
-- apexDtaConfigApplyTable {apexDtaConfig 2}
-- apexDtaConfigApplyEntry {apexDtaConfigApplyTable 1}
-- apexDtaConfigApplyIndex {apexDtaConfigApplyEntry 1}
-- apexDtaConfigApplyChange {apexDtaConfigApplyEntry 2}
-- apexDtaRfPortConfigTable {apexDtaConfig 3}
-- apexDtaRfPortConfigEntry {apexDtaRfPortConfigTable 1}
-- apexDtaRfPortConfigIndex {apexDtaRfPortConfigEntry 1}
-- apexDtaRfPortConfigNetPidMulticastIP {apexDtaRfPortConfigEntry 2}
-- apexDtaRfPortConfigNetPidSourceIP {apexDtaRfPortConfigEntry 3}
-- apexDtaRfPortConfigNetPidUdpPort {apexDtaRfPortConfigEntry 4}
-- apexDtaRfPortConfigNetPidInterface {apexDtaRfPortConfigEntry 5}
-- apexDtaRfPortConfigNetPidNum {apexDtaRfPortConfigEntry 6}
-- apexDtaOtsConfigTable {apexDtaConfig 4}
-- apexDtaOtsConfigEntry {apexDtaOtsConfigTable 1}
-- apexDtaOtsConfigIndex {apexDtaOtsConfigEntry 1}
-- apexDtaOtsConfigEnable {apexDtaOtsConfigEntry 2}
apexDepi OBJECT IDENTIFIER ::= {apex 24}
apexDepiConfig OBJECT IDENTIFIER ::= {apexDepi 1}
apexDepiConfigGeneral OBJECT IDENTIFIER ::= {apexDepiConfig 1}
-- apexDepiConfigHostname {apexDepiConfigGeneral 1}
apexDepiStatus OBJECT IDENTIFIER ::= {apexDepi 2}
apexDepiStatusGeneral OBJECT IDENTIFIER ::= {apexDepiStatus 1}
-- apexDepiStatusGeneralDtiPort1LinkActive {apexDepiStatusGeneral 1}
-- apexDepiStatusGeneralDtiPort2LinkActive {apexDepiStatusGeneral 2}
-- apexDepiStatusGeneralDtiClientStatusMode {apexDepiStatusGeneral 3}
-- apexDepiStatusGeneralDtiClientPhaseError {apexDepiStatusGeneral 4}
-- apexDepiStatusGeneralDtiCurrentTimestamp {apexDepiStatusGeneral 5}
-- apexDepiStatusGeneralDtiPort1CableAdvanceValue {apexDepiStatusGeneral 6}
-- apexDepiStatusGeneralDtiPort2CableAdvanceValue {apexDepiStatusGeneral 7}
apexDepiControl OBJECT IDENTIFIER ::= {apexDepi 3}
apexDepiControlConfig OBJECT IDENTIFIER ::= {apexDepiControl 1}
apexDepiControlConfigGeneral OBJECT IDENTIFIER ::= {apexDepiControlConfig 1}
-- apexDepiControlConfigGeneralKeepaliveTimeout {apexDepiControlConfigGeneral 1}
-- apexDepiControlConfigApplyTable {apexDepiControlConfig 2}
-- apexDepiControlConfigApplyEntry {apexDepiControlConfigApplyTable 1}
-- apexDepiControlConfigApplyIndex {apexDepiControlConfigApplyEntry 1}
-- apexDepiControlConfigApplyChange {apexDepiControlConfigApplyEntry 2}
-- apexDepiControlConfigTable {apexDepiControlConfig 3}
-- apexDepiControlConfigEntry {apexDepiControlConfigTable 1}
-- apexDepiControlConfigIndex {apexDepiControlConfigEntry 1}
-- apexDepiControlConfigEnable {apexDepiControlConfigEntry 2}
-- apexDepiControlConfigInterfaceNumber {apexDepiControlConfigEntry 3}
-- apexDepiControlConfigSrcIpAddr {apexDepiControlConfigEntry 4}
-- apexDepiControlConfigOverUdp {apexDepiControlConfigEntry 5}
-- apexDepiControlConfigType {apexDepiControlConfigEntry 6}
apexDepiControlStatus OBJECT IDENTIFIER ::= {apexDepiControl 2}
apexDepiControlStatusGeneral OBJECT IDENTIFIER ::= {apexDepiControlStatus 1}
-- apexDepiControlStatusGeneralTotalConnections {apexDepiControlStatusGeneral 1}
-- apexDepiControlStatusGeneralCurrentConnections {apexDepiControlStatusGeneral 2}
-- apexDepiControlStatusGeneralRejectedConnections {apexDepiControlStatusGeneral 3}
-- apexDepiControlStatusGeneralUnknownConnectionMessages {apexDepiControlStatusGeneral 4}
-- apexDepiControlStatusGeneralUnknownSessionMessages {apexDepiControlStatusGeneral 5}
-- apexDepiControlStatusGeneralInvalidApplyText {apexDepiControlStatusGeneral 6}
-- apexDepiControlStatusTable {apexDepiControlStatus 2}
-- apexDepiControlStatusEntry {apexDepiControlStatusTable 1}
-- apexDepiControlStatusIndex {apexDepiControlStatusEntry 1}
-- apexDepiControlStatusLocalUdp {apexDepiControlStatusEntry 2}
-- apexDepiControlStatusRemoteUdp {apexDepiControlStatusEntry 3}
-- apexDepiControlStatusConnectionStatus {apexDepiControlStatusEntry 4}
-- apexDepiControlStatusUnknownCtl {apexDepiControlStatusEntry 5}
-- apexDepiControlStatusMalformedCtl {apexDepiControlStatusEntry 6}
-- apexDepiControlStatusUnknownAvp {apexDepiControlStatusEntry 7}
-- apexDepiControlStatusMalformedAvp {apexDepiControlStatusEntry 8}
-- apexDepiControlStatusInvalidVendorId {apexDepiControlStatusEntry 9}
-- apexDepiControlStatusHbitSet {apexDepiControlStatusEntry 10}
-- apexDepiControlStatusTotalSessions {apexDepiControlStatusEntry 11}
-- apexDepiControlStatusCurrentSessions {apexDepiControlStatusEntry 12}
-- apexDepiControlStatusRejectedSessions {apexDepiControlStatusEntry 13}
apexDepiSession OBJECT IDENTIFIER ::= {apexDepi 4}
apexDepiSessionConfig OBJECT IDENTIFIER ::= {apexDepiSession 1}
-- apexDepiSessionConfigApplyTable {apexDepiSessionConfig 1}
-- apexDepiSessionConfigApplyEntry {apexDepiSessionConfigApplyTable 1}
-- apexDepiSessionConfigApplyOutputTsNum {apexDepiSessionConfigApplyEntry 1}
-- apexDepiSessionConfigApplyChange {apexDepiSessionConfigApplyEntry 2}
-- apexDepiSessionConfigTable {apexDepiSessionConfig 2}
-- apexDepiSessionConfigEntry {apexDepiSessionConfigApplyTable 1}
-- apexDepiSessionConfigOutputTsNum {apexDepiSessionConfigApplyEntry 1}
-- apexDepiSessionConfigEnable {apexDepiSessionConfigApplyEntry 2}
-- apexDepiSessionConfigControlId {apexDepiSessionConfigApplyEntry 3}
-- apexDepiSessionConfigDocsisTsid {apexDepiSessionConfigApplyEntry 4}
-- apexDepiSessionConfigUdpPort {apexDepiSessionConfigApplyEntry 5}
-- apexDepiSessionConfigSyncCorrection {apexDepiSessionConfigApplyEntry 6}
apexDepiSessionStatus OBJECT IDENTIFIER ::= {apexDepiSession 2}
apexDepiSessionStatusGeneral OBJECT IDENTIFIER ::= {apexDepiSessionStatus 1}
-- apexDepiSessionStatusGeneralInvalidApplyText {apexDepiSessionStatusGeneral 1}
-- apexDepiSessionStatusTable {apexDepiSessionStatus 2}
-- apexDepiSessionStatusEntry {apexDepiSessionStatusTable 1}
-- apexDepiSessionStatusIndex {apexDepiSessionStatusEntry 1}
-- apexDepiSessionStatusControlId {apexDepiSessionStatusEntry 2}
-- apexDepiSessionStatusOutputQAMChannel {apexDepiSessionStatusEntry 3}
-- apexDepiSessionStatusLocalUdp {apexDepiSessionStatusEntry 4}
-- apexDepiSessionStatusRemoteUdp {apexDepiSessionStatusEntry 5}
-- apexDepiSessionStatusStatus {apexDepiSessionStatusEntry 6}
-- apexDepiSessionStatusPerHopBehavior {apexDepiSessionStatusEntry 7}
-- apexDepiSessionStatusUnknownCtl {apexDepiSessionStatusEntry 8}
-- apexDepiSessionStatusMalformedCtl {apexDepiSessionStatusEntry 9}
-- apexDepiSessionStatusUnknownAvp {apexDepiSessionStatusEntry 10}
-- apexDepiSessionStatusMalformedAvp {apexDepiSessionStatusEntry 11}
-- apexDepiSessionStatusInvalidVendorId {apexDepiSessionStatusEntry 12}
-- apexDepiSessionStatusHbitSet {apexDepiSessionStatusEntry 13}
-- apexDepiSessionStatusInSLIMsgs {apexDepiSessionStatusEntry 14}
-- apexDepiSessionStatusOutSLIMsgs {apexDepiSessionStatusEntry 15}
-- apexDepiSessionStatusIngressDlmMsgs {apexDepiSessionStatusEntry 16}
-- apexDepiSessionStatusEgressDlmMsgs {apexDepiSessionStatusEntry 17}
-- apexDepiSessionStatusLatencyStart {apexDepiSessionStatusEntry 18}
-- apexDepiSessionStatusLatencyEnd {apexDepiSessionStatusEntry 19}
-- apexDepiSessionStatusInDataPackets {apexDepiSessionStatusEntry 20}
-- apexDepiSessionStatusInSequenceDiscards {apexDepiSessionStatusEntry 21}
-- apexDepiSessionStatusInDataPacketDiscards {apexDepiSessionStatusEntry 22}
-- apexDepiSessionStatusSessionID {apexDepiSessionStatusEntry 23}
apexPsip OBJECT IDENTIFIER ::= {apex 25}
apexPsipConfig OBJECT IDENTIFIER ::= {apexPsip 1}
apexPsipConfigGeneral OBJECT IDENTIFIER ::= {apexPsipConfig 1}
-- apexPsipConfigApplyChange {apexPsipConfigGeneral 1}
-- apexPsipConfigMgtMsgInsertionPeriod {apexPsipConfigGeneral 2}
-- apexPsipConfigSttMsgInsertionPeriod {apexPsipConfigGeneral 3}
-- apexPsipConfigCvctMsgInsertionPeriod {apexPsipConfigGeneral 4}
-- apexPsipConfigRrtMsgInsertionPeriod {apexPsipConfigGeneral 5}
-- apexPsipConfigEit0InsertionPeriod {apexPsipConfigGeneral 6}
-- apexPsipConfigEit1InsertionPeriod {apexPsipConfigGeneral 7}
-- apexPsipConfigEit2InsertionPeriod {apexPsipConfigGeneral 8}
-- apexPsipConfigEit3InsertionPeriod {apexPsipConfigGeneral 9}
apexPsipConfigTime OBJECT IDENTIFIER ::= {apexPsipConfig 2}
-- apexPsipConfigTimeApplyChange {apexPsipConfigTime 1}
-- apexPsipConfigTimeDsMonthIn {apexPsipConfigTime 2}
-- apexPsipConfigTimeDsDayIn {apexPsipConfigTime 3}
-- apexPsipConfigTimeDsHourIn {apexPsipConfigTime 4}
-- apexPsipConfigTimeDsMonthOut {apexPsipConfigTime 5}
-- apexPsipConfigTimeDsDayOut {apexPsipConfigTime 6}
-- apexPsipConfigTimeDsHourOut {apexPsipConfigTime 7}
apexPsipStatus OBJECT IDENTIFIER ::= {apexPsip 2}
apexPsipStatusGeneral OBJECT IDENTIFIER ::= {apexPsipStatus 1}
-- apexPsipStatusInputTable {apexPsipStatus 2}
-- apexPsipStatusInputEntry {apexPsipStatusInputTable 1}
-- apexPsipStatusInputIndex {apexPsipStatusInputEntry 1}
-- apexPsipStatusInputPid {apexPsipStatusInputEntry 2}
-- apexPsipStatusInputMessageType {apexPsipStatusInputEntry 3}
-- apexPsipStatusInputSourceId {apexPsipStatusInputEntry 4}
-- apexPsipStatusInputSegment {apexPsipStatusInputEntry 5}
-- apexPsipStatusInputPart {apexPsipStatusInputEntry 6}
-- apexPsipStatusInputBody {apexPsipStatusInputEntry 7}
-- apexPsipStatusInputGpsTime {apexPsipStatusInputEntry 8}
-- apexPsipStatusInputInfo {apexPsipStatusInputEntry 9}
-- apexPsipStatusOutputTable {apexPsipStatus 3}
-- apexPsipStatusOutputEntry {apexPsipStatusOutputTable 1}
-- apexPsipStatusOutputIndex {apexPsipStatusOutputEntry 1}
-- apexPsipStatusOutputPid {apexPsipStatusOutputEntry 2}
-- apexPsipStatusOutputMessageType {apexPsipStatusOutputEntry 3}
-- apexPsipStatusOutputSourceId {apexPsipStatusOutputEntry 4}
-- apexPsipStatusOutputSegment {apexPsipStatusOutputEntry 5}
-- apexPsipStatusOutputPart {apexPsipStatusOutputEntry 6}
-- apexPsipStatusOutputBody {apexPsipStatusOutputEntry 7}
-- apexPsipStatusOutputGpsTime {apexPsipStatusOutputEntry 8}
-- apexPsipStatusServiceTable {apexPsipStatus 4}
-- apexPsipStatusServiceEntry {apexPsipStatusServiceTable 1}
-- apexPsipStatusServiceIndex {apexPsipStatusServiceEntry 1}
-- apexPsipStatusServiceNum {apexPsipStatusServiceEntry 2}
-- apexPsipStatusServiceOutputTs {apexPsipStatusServiceEntry 3}
-- apexPsipStatusServiceState {apexPsipStatusServiceEntry 4}
-- apexPsipStatusServiceSourceId {apexPsipStatusServiceEntry 5}
apexPreencryption OBJECT IDENTIFIER ::= {apex 26}
apexPreencryptionConfig OBJECT IDENTIFIER ::= {apexPreencryption 1}
apexPreencryptionConfigGeneral OBJECT IDENTIFIER ::= {apexPreencryptionConfig 1}
-- apexSupportPreencryptedSimulcrypt {apexPreencryptionConfigGeneral 1}
apexOutputAncillaryPid OBJECT IDENTIFIER ::= {apex 27}
apexOutputAncillaryPidConfig OBJECT IDENTIFIER ::= {apexOutputAncillaryPid 1}
apexOutputAncillaryPidConfigGeneral OBJECT IDENTIFIER ::= {apexOutputAncillaryPidConfig 1}
apexOutputAncillaryPidStatus OBJECT IDENTIFIER ::= {apexOutputAncillaryPid 2}
apexOutputAncillaryPidStatusGeneral OBJECT IDENTIFIER ::= {apexOutputAncillaryPidStatus 1}
-- apexOutputAncillaryPidBitrateSamplePeriod {apexOutputAncillaryPidStatusGeneral 1}
-- apexOutputAncillaryPidStatusTable {apexOutputAncillaryPidStatus 2}
-- apexOutputAncillaryPidStatusEntry {apexOutputAncillaryPidStatusTable 1}
-- apexOutputAncillaryPidIndex {apexOutputAncillaryPidStatusEntry 1}
-- apexOutputAncillaryPidInputTsNum {apexOutputAncillaryPidStatusEntry 2}
-- apexOutputAncillaryPidInputPid {apexOutputAncillaryPidStatusEntry 3}
-- apexOutputAncillaryPidOutputTsNum {apexOutputAncillaryPidStatusEntry 4}
-- apexOutputAncillaryPidOutputPid {apexOutputAncillaryPidStatusEntry 5}
-- apexOutputAncillaryPidRoutingStatus {apexOutputAncillaryPidStatusEntry 6}
-- apexOutputAncillaryPidAverageBitrate {apexOutputAncillaryPidStatusEntry 7}
apexUls OBJECT IDENTIFIER ::= {apex 28}
apexUlsConfig OBJECT IDENTIFIER ::= {apexUls 1}
apexUlsConfigGeneral OBJECT IDENTIFIER ::= {apexUlsConfig 1}
-- apexUlsConfigGenerateRequest {apexUlsConfigGeneral 1}
-- apexUlsConfigValidateResponse {apexUlsConfigGeneral 2}
-- apexUlsConfigCommitNewFeatures {apexUlsConfigGeneral 3}
apexUlsConfigMcSimFeatures OBJECT IDENTIFIER ::= {apexUlsConfig 2}
-- apexUlsConfigMcSimChannelsRequest {apexUlsConfigMcSimFeatures 1}
apexUlsStatus OBJECT IDENTIFIER ::= {apexUls 2}
apexUlsStatusGeneral OBJECT IDENTIFIER ::= {apexUlsStatus 1}
-- apexUlsStatusGenerateRequestText {apexUlsStatusGeneral 1}
-- apexUlsStatusValidateResponseText {apexUlsStatusGeneral 2}
-- apexUlsStatusCommitNewFeaturesText {apexUlsStatusGeneral 3}
apexUlsStatusMcSimFeatures OBJECT IDENTIFIER ::= {apexUlsStatus 2}
-- apexUlsStatusMcSimChannelsCurrent {apexUlsStatusMcSimFeatures 1}
-- apexUlsStatusMcSimChannelsInUse {apexUlsStatusMcSimFeatures 2}
-- apexUlsStatusMcSimChannelsMax {apexUlsStatusMcSimFeatures 3}
apexSimulcryptEcmgInfo OBJECT IDENTIFIER ::= {apex 29}
apexSimulcryptEcmgStatus OBJECT IDENTIFIER ::= {apexSimulcryptEcmgInfo 1}
-- apexSimulcryptEcmgStatusTable {apexSimulcryptEcmgStatus 1}
-- apexSimulcryptEcmgStatusEntry {apexSimulcryptEcmgStatusTable 1}
-- apexSimulcryptEcmgProgramIndex {apexSimulcryptEcmgStatusEntry 1}
-- apexOutputProgramCAS1EcmgChannel {apexSimulcryptEcmgStatusEntry 2}
-- apexOutputProgramCAS1EcmgStream {apexSimulcryptEcmgStatusEntry 3}
-- apexOutputProgramCAS2EcmgChannel {apexSimulcryptEcmgStatusEntry 4}
-- apexOutputProgramCAS2EcmgStream {apexSimulcryptEcmgStatusEntry 5}
-- apexOutputProgramCAS3EcmgChannel {apexSimulcryptEcmgStatusEntry 6}
-- apexOutputProgramCAS3EcmgStream {apexSimulcryptEcmgStatusEntry 7}
-- apexOutputProgramCAS4EcmgChannel {apexSimulcryptEcmgStatusEntry 8}
-- apexOutputProgramCAS4EcmgStream {apexSimulcryptEcmgStatusEntry 9}
-- apexOutputProgramCAS5EcmgChannel {apexSimulcryptEcmgStatusEntry 10}
-- apexOutputProgramCAS5EcmgStream {apexSimulcryptEcmgStatusEntry 11}
-- apexOutputProgramCAS6EcmgChannel {apexSimulcryptEcmgStatusEntry 12}
-- apexOutputProgramCAS6EcmgStream {apexSimulcryptEcmgStatusEntry 13}
-- apexOutputProgramCAS7EcmgChannel {apexSimulcryptEcmgStatusEntry 14}
-- apexOutputProgramCAS7EcmgStream {apexSimulcryptEcmgStatusEntry 15}
-- apexOutputProgramCAS8EcmgChannel {apexSimulcryptEcmgStatusEntry 16}
-- apexOutputProgramCAS8EcmgStream {apexSimulcryptEcmgStatusEntry 17}
apexMcSim OBJECT IDENTIFIER ::= {apex 30}
apexMcSimConfig OBJECT IDENTIFIER ::= {apexMcSim 1}
apexMcSimConfigGeneral OBJECT IDENTIFIER ::= {apexMcSimConfig 1}
-- apexMcSimEnableDacId {apexMcSimConfigGeneral 1}
-- apexMcSimDacId {apexMcSimConfigGeneral 2}
-- apexMcSimConfigApplyChange {apexMcSimConfigGeneral 3}
-- apexMcSimConfigInvalidApplyText {apexMcSimConfigGeneral 4}
apexAlarms OBJECT IDENTIFIER ::= {apex 100}
-- apexAlarmHardwareFault {apexAlarms 8000}
-- apexAlarmInvalidInitData {apexAlarms 8001}
-- apexAlarmTemperatureFault {apexAlarms 8002}
-- apexAlarmFanFault {apexAlarms 8003}
-- apexAlarmPowerFault {apexAlarms 8004}
--
-- apexAlarmGbeLossOfPhysicalInput {apexAlarms 8020}
-- apexAlarmGbeBufferFullness {apexAlarms 8021}
-- apexAlarmGbeInputStreamLowBitRate {apexAlarms 8022}
-- apexAlarmGbeInputStreamHighBitRate {apexAlarms 8023}
-- apexAlarmGbeMptsRedundPrimaryThreshold {apexAlarms 8024}
-- apexAlarmGbeMptsRedundFailOver {apexAlarms 8025}
-- apexAlarmServiceInError {apexAlarms 8026}
-- apexAlarmGbeLossOfInputStream {apexAlarms 8027}
-- apexAlarmGigeToHostCommFault {apexAlarms 8028}
-- apexAlarmGbeInterfaceRedundFailOver {apexAlarms 8029}
-- apexAlarmLossOfInputAncillaryPid {apexAlarms 8030}
-- apexAlarmGbeInputStreamPacketDrop {apexAlarms 8031}
--
-- apexAlarmOutputUtilizationFault {apexAlarms 8040}
-- apexAlarmOutputOverflow {apexAlarms 8041}
-- apexAlarmQamModuleFault {apexAlarms 8042}
-- apexAlarmQamRfPortFault {apexAlarms 8043}
-- apexAlarmQamChannelFault {apexAlarms 8044}
-- apexAlarmQamRfRedundFailOver {apexAlarms 8045}
-- apexAlarmQamRfRedundMismatch {apexAlarms 8046}
-- apexAlarmQamModuleRemovalFault {apexAlarms 8047}
--
-- apexAlarmRtspControllerCommFault {apexAlarms 8050}
--
-- apexAlarmRdsCommFault {apexAlarms 8060}
--
-- apexAlarmRemCommFault {apexAlarms 8070}
-- apexAlarmRemFault {apexAlarms 8071}
-- apexAlarmDepiControlConnectionFault {apexAlarms 8080}
-- apexAlarmDepiSessionSetupFault {apexAlarms 8081}
-- apexAlarmDtiSyncLossFault {apexAlarms 8082}
--
-- apexAlarmChassisRedundancyPrimaryFailover {apexAlarms 8090}
-- apexAlarmChassisRedundancySecondaryFailover {apexAlarms 8091}
-- apexAlarmChassisRedundancyAvailabilityFault {apexAlarms 8092}
-- apexAlarmChassisRedundancyLinkFault {apexAlarms 8093}
-- apexAlarmChassisRedundancyConfigurationFault {apexAlarms 8094}
--
apexEvents OBJECT IDENTIFIER ::= {apex 101}
-- apexEventEmUserLoginFailed {apexEvents 8100}
-- apexEventQamModuleUpgraded {apexEvents 8101}
-- apexEventSnmpCommunityStringChanged {apexEvents 8102}
-- apexEventEasMessageNotReceived {apexEvents 8103}
-- apexEventLossOfInputAncillaryPid {apexEvents 8104}
-- apexEventChassisRedunPrimaryForceFailover [obsolete] {apexEvents 8110}
-- apexEventChassisRedunSecondaryForceFailover [obsolete] {apexEvents 8111}
-- apexEventChassisRedunFirmwareVersionMismatch {apexEvents 8112}
-- apexEventChassisRedunQAMVersionMismatch {apexEvents 8113}
--
apexConfigAlarms OBJECT IDENTIFIER ::= {apex 102}
apexConfAlarmEnable OBJECT IDENTIFIER ::= {apexConfigAlarms 1}
-- apexEnableInvalidInitData {apexConfAlarmEnable 8001}
-- apexEnableGbeLossOfPhysicalInput {apexConfAlarmEnable 8020}
-- apexEnableGbeBufferFullness {apexConfAlarmEnable 8021}
-- apexEnableGbeInputStreamLowBitRate {apexConfAlarmEnable 8022}
-- apexEnableGbeInputStreamHighBitRate {apexConfAlarmEnable 8023}
-- apexEnableGbeMptsRedundPrimaryThreshold {apexConfAlarmEnable 8024}
-- apexEnableGbeMptsRedundFailOver {apexConfAlarmEnable 8025}
-- apexEnableServiceInError {apexConfAlarmEnable 8026}
-- apexEnableGbeLossOfInputTsFault {apexConfAlarmEnable 8027}
-- apexEnableGbeInterfaceRedundFailOver {apexConfAlarmEnable 8029}
-- apexEnableLossOfInputAncillaryPid {apexConfAlarmEnable 8030}
-- apexEnableGbeInputStreamPacketDrop {apexConfAlarmEnable 8031}
-- apexEnableOutputUtilizationFault {apexConfAlarmEnable 8040}
-- apexEnableOutputOverflow {apexConfAlarmEnable 8041}
-- apexEnableQamModuleFault {apexConfAlarmEnable 8042}
-- apexEnableQamRfPortFault {apexConfAlarmEnable 8043}
-- apexEnableQamChannelFault {apexConfAlarmEnable 8044}
-- apexEnableQamRfRedundFailOver {apexConfAlarmEnable 8045}
-- apexEnableQamRfRedundMismatch {apexConfAlarmEnable 8046}
-- apexEnableQamModuleRemovalFault {apexConfAlarmEnable 8047}
-- apexEnableRtspControllerCommFault {apexConfAlarmEnable 8050}
-- apexEnableRdsCommAlarmFault {apexConfAlarmEnable 8060}
-- apexEnableRemCommFault {apexConfAlarmEnable 8070}
-- apexEnableRemFault {apexConfAlarmEnable 8071}
-- apexEnableDepiControlConnectionFault {apexConfAlarmEnable 8080}
-- apexEnableDepiSessionSetupFault {apexConfAlarmEnable 8081}
-- apexEnableDtiSyncLossFault {apexConfAlarmEnable 8082}
--
-- apexEnableChassisRedundancyPrimaryFailover {apexConfAlarmEnable 8090}
-- apexEnableChassisRedundancySecondaryFailover {apexConfAlarmEnable 8091}
-- apexEnableChassisRedundancyAvailabilityFault {apexConfAlarmEnable 8092}
-- apexEnableChassisRedundancyLinkFault {apexConfAlarmEnable 8093}
-- apexEnableChassisRedundancyConfigurationFault {apexConfAlarmEnable 8094}
--
apexConfAlarmClear OBJECT IDENTIFIER ::= {apexConfigAlarms 2}
-- apexClearInvalidInitData {apexConfAlarmClear 8001}
apexLogs OBJECT IDENTIFIER ::= {apex 200}
-- apexHwEventTable {apexLogs 1}
-- apexHwEventEntry {apexHwEventTable 1}
-- apexHwEventIndex {apexHwEventEntry 1}
-- apexHwEventTimeLogged {apexHwEventEntry 2}
-- apexHwEventAlarmCode {apexHwEventEntry 3}
-- apexHwEventAlarmSeverity {apexHwEventEntry 4}
-- apexHwEventData {apexHwEventEntry 5}
-- apexHwEventDescription {apexHwEventEntry 6}
-- apexInvalidInitDataTable {apexLogs 2}
-- apexInvalidInitDataEntry {apexInvalidInitDataTable 1}
-- apexInvalidInitDataIndex {apexInvalidInitDataEntry 1}
-- apexInvalidInitDataTimeLogged {apexInvalidInitDataEntry 2}
-- apexInvalidInitDataDescription {apexInvalidInitDataEntry 3}
-- apexOutputTsEventTable {apexLogs 3}
-- apexOutputTsEventEntry {apexOutputTsEventTable 1}
-- apexOutputTsEventIndex {apexOutputTsEventEntry 1}
-- apexOutputTsEventTimeLogged {apexOutputTsEventEntry 2}
-- apexOutputTsEventAlarmCode {apexOutputTsEventEntry 3}
-- apexOutputTsEventAlarmSeverity {apexOutputTsEventEntry 4}
-- apexOutputTsEventOutputTsNum {apexOutputTsEventEntry 5}
-- apexOutputTsEventCurRate {apexOutputTsEventEntry 6}
-- apexOutputTsEventAvgRate {apexOutputTsEventEntry 7}
-- apexOutputTsEventMinRate {apexOutputTsEventEntry 8}
-- apexOutputTsEventPeakRate {apexOutputTsEventEntry 9}
-- apexOutputTsEventCurDropPackets {apexOutputTsEventEntry 10}
-- apexOutputTsEventPeakDropPackets {apexOutputTsEventEntry 11}
-- apexOutputTsEventRollingDropPackets {apexOutputTsEventEntry 12}
-- apexOutputTsEventTotalDropPackets {apexOutputTsEventEntry 13}
-- apexOutputTsEventDescription {apexOutputTsEventEntry 14}
-- apexGbeInputTsEventTable {apexLogs 4}
-- apexGbeInputTsEventEntry {apexGbeInputTsEventTable 1}
-- apexGbeInputTsEventIndex {apexGbeInputTsEventEntry 1}
-- apexGbeInputTsEventTimeLogged {apexGbeInputTsEventEntry 2}
-- apexGbeInputTsEventAlarmCode {apexGbeInputTsEventEntry 3}
-- apexGbeInputTsEventAlarmSeverity {apexGbeInputTsEventEntry 4}
-- apexGbeInputTsEventRedundantConfig {apexGbeInputTsEventEntry 5}
-- apexGbeInputTsEventGbeInterface {apexGbeInputTsEventEntry 6}
-- apexGbeInputTsEventUdpPort {apexGbeInputTsEventEntry 7}
-- apexGbeInputTsEventMulticastIp {apexGbeInputTsEventEntry 8}
-- apexGbeInputTsEventSourceIp {apexGbeInputTsEventEntry 9}
-- apexGbeInputTsEventInputTsState {apexGbeInputTsEventEntry 10}
-- apexGbeInputTsEventRateCompareType {apexGbeInputTsEventEntry 11}
-- apexGbeInputTsEventSamplingPeriod {apexGbeInputTsEventEntry 12}
-- apexGbeInputTsEventPriCurStreamCount {apexGbeInputTsEventEntry 13}
-- apexGbeInputTsEventPriCurDataCount {apexGbeInputTsEventEntry 14}
-- apexGbeInputTsEventSecCurStreamCount {apexGbeInputTsEventEntry 15}
-- apexGbeInputTsEventSecCurDataCount {apexGbeInputTsEventEntry 16}
-- apexGbeInputTsEventDescription {apexGbeInputTsEventEntry 17}
-- apexRtspEventTable {apexLogs 5}
-- apexRtspEventEntry {apexRtspEventTable 1}
-- apexRtspEventIndex {apexRtspEventEntry 1}
-- apexRtspEventTimeLogged {apexRtspEventEntry 2}
-- apexRtspEventControllerIp {apexRtspEventEntry 3}
-- apexRtspEventSessionCount {apexRtspEventEntry 4}
-- apexRtspEventSourceDescription {apexRtspEventEntry 5}
-- apexRtspEventDescription {apexRtspEventEntry 6}
-- apexMappingErrorTable {apexLogs 6}
-- apexMappingErrorEntry {apexMappingErrorTable 1}
-- apexMappingErrorIndex {apexMappingErrorEntry 1}
-- apexMappingErrorTimeLogged {apexMappingErrorEntry 2}
-- apexMappingErrorCode {apexMappingErrorEntry 3}
-- apexMappingErrorMappingType {apexMappingErrorEntry 4}
-- apexMappingErrorInputType {apexMappingErrorEntry 5}
-- apexMappingErrorInputInterface {apexMappingErrorEntry 6}
-- apexMappingErrorUdpPort {apexMappingErrorEntry 7}
-- apexMappingErrorMulticastIp {apexMappingErrorEntry 8}
-- apexMappingErrorSourceIp {apexMappingErrorEntry 9}
-- apexMappingErrorInputProgramPid {apexMappingErrorEntry 10}
-- apexMappingErrorOutputProgramPid {apexMappingErrorEntry 11}
-- apexMappingErrorOutputOpMode {apexMappingErrorEntry 12}
-- apexMappingErrorOutputTsNum {apexMappingErrorEntry 13}
-- apexMappingErrorSecInputInterface {apexMappingErrorEntry 14}
-- apexMappingErrorSecUdpPort {apexMappingErrorEntry 15}
-- apexMappingErrorSecMulticastIp {apexMappingErrorEntry 16}
-- apexMappingErrorSecSourceIp {apexMappingErrorEntry 17}
-- apexChassisRedundancyEventTable {apexLogs 7}
-- apexChassisRedundancyEventEntry {apexChassisRedundancyEventTable 1}
-- apexChassisRedundancyEventIndex {apexChassisRedundancyEventEntry 1}
-- apexChassisRedundancyEventTimeLogged {apexChassisRedundancyEventEntry 2}
-- apexChassisRedundancyEventDescription {apexChassisRedundancyEventEntry 3}
apexTraps OBJECT IDENTIFIER ::= {apex 0}
-- not used for APEX {apexTraps 1}
-- not used for APEX {apexTraps 2}
-- trapConfigurationChangeInteger {apexTraps 3}
-- trapConfigurationChangeDisplayString {apexTraps 4}
-- trapConfigurationChangeOID {apexTraps 5}
-- trapConfigurationChangeIpAddress {apexTraps 6}
-- trapConditionNotInList {apexTraps 20}
-- trapConditionAlreadyInList {apexTraps 21}
-- trapConditionListFull {apexTraps 22}
-- trapInvalidCaseInSwitch {apexTraps 23}
-- trapCannotCreateSemaphore {apexTraps 24}
-- trapCannotOpenSocket {apexTraps 25}
-- trapUnknownMessageReceived {apexTraps 26}
-- trapInvalidMessageReceived {apexTraps 27}
--
-- trapHardwareFault {apexTraps 8000}
-- trapInvalidInitData {apexTraps 8001}
-- trapTemperatureFault {apexTraps 8002}
-- trapFanFault {apexTraps 8003}
-- trapPowerFault {apexTraps 8004}
-- trapGbeLossOfPhysicalInput {apexTraps 8020}
-- trapGbeBufferFullness {apexTraps 8021}
-- trapGbeInputStreamLowBitRate {apexTraps 8022}
-- trapGbeInputStreamHighBitRate {apexTraps 8023}
-- trapGbeMptsRedundPrimaryThreshold {apexTraps 8024}
-- trapGbeMptsRedundFailOver {apexTraps 8025}
-- trapServiceInError {apexTraps 8026}
-- trapGbeLossOfInputStream {apexTraps 8027}
-- trapGigeToHostCommFault {apexTraps 8028}
-- trapGbeInterfaceRedundFailOver {apexTraps 8029}
-- trapLossOfInputAncillaryPid {apexTraps 8030}
-- trapGbeInputStreamPacketDrop {apexTraps 8031}
-- trapOutputUtilizationFault {apexTraps 8040}
-- trapOutputOverflow {apexTraps 8041}
-- trapQamModuleFault {apexTraps 8042}
-- trapQamRfPortFault {apexTraps 8043}
-- trapQamChannelFault {apexTraps 8044}
-- trapQamRfRedundFailOver {apexTraps 8045}
-- trapQamRfRedundMismatch {apexTraps 8046}
-- trapQamModuleRemovalFault {apexTraps 8047}
-- trapRtspControllerCommFault {apexTraps 8050}
-- trapRdsCommFault {apexTraps 8060}
-- trapRemCommFault {apexTraps 8070}
-- trapRemFault {apexTraps 8071}
-- trapDepiControlConnectionFault {apexTraps 8080}
-- trapDepiSessionSetupFault {apexTraps 8081}
-- trapDtiSyncLossFault {apexTraps 8082}
--
-- trapChassisRedundancyPrimaryFailover {apexTraps 8090}
-- trapChassisRedundancySecondaryFailover {apexTraps 8091}
-- trapChassisRedundancyAvailabilityFault {apexTraps 8092}
-- trapChassisRedundancyLinkFault {apexTraps 8093}
-- trapChassisRedundancyConfigurationFault {apexTraps 8094}
--
-- trapEmUserLoginFailed {apexTraps 8100}
-- trapQamModuleUpgraded {apexTraps 8101}
-- trapSnmpCommunityStringChanged {apexTraps 8102}
-- trapEasMessageNotReceived {apexTraps 8103}
-- trapLossOfInputAncillaryPidEvent {apexTraps 8104}
-- trapChassisRedundancyPrimaryForceFailover {apexTraps 8110}
-- trapChassisRedundancySecondaryForceFailover {apexTraps 8111}
-- trapChassisRedundancyFirmwareVersionMismatch {apexTraps 8112}
-- trapChassisRedundancyQAMVersionMismatch {apexTraps 8113}
apexDebug OBJECT IDENTIFIER ::= {apex 5000}
-- ------------------------------------------------------------------------------
--
-- APEX MIB
--
-- ------------------------------------------------------------------------------
-- ------------------------------------------------------------------------------
--
-- apexSys
--
-- apexSysConfig
--
-- apexSysConfigGeneral
--
apexSaveConfig OBJECT-TYPE
SYNTAX INTEGER
{
saveNotInProgress (1),
startSaveToFlash (2),
savingConfigToFlash (3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Writing this object will commit the current
configuration to Flash. While a read returns the
value savingConfigToFlash, the flash is being saved;
the save may not have been initiated by an SNMP set.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" dbc_fmt="1"></DbHint>
::= { apexSysConfigGeneral 1 }
apexProductName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the Product Name of the APEX loaded at initialization from
the config.ini file. Specific configurations of the APEX have
specific purposes and are identified by their product name.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2, default=yes)
@File(config.ini, type='ini')
"
::= { apexSysConfigGeneral 2 }
apexBootMethod OBJECT-TYPE
SYNTAX INTEGER
{
noDhcpOrBootp (1),
bootpOnly (3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to set the boot method for the APEX.
Selection of noDhcpOrBootp means the APEX will not use DHCP or BOOTP
- this will result in about a 10 second savings in boot time.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexSysConfigGeneral 3 }
apexAutoRebootEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Setting to 'enabled' allows the APEX to automatically reboot when
specific APEX hardware errors occur. Setting this to Enabled will
cause the APEX to automatically reboot upon specific HW faults, such
as a GigE processor crash, or upon a Host processor watchdog event.
When disabled, HW faults and watchdog events will not cause an automatic
reboot. This is useful when it is necessary to debug the event (to allow
time to gather status prior to manually rebooting).
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexSysConfigGeneral 4 }
-- ------------------------------------------------------------------------------
--
-- apexSysConfigMcEmmInsertion
--
apexMcEmmInsertionMode OBJECT-TYPE
SYNTAX INTEGER
{
outOfBand(1),
fullInBand(2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Specify the mode in which MediaCipher EMMs are inserted, out of band
or full in band.
Once written, the change to this parameter will only take immediate
effect after apexMcEmmInsertionApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexMcEmmInsertionApplyChange , value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexSysConfigMcEmmInsertion 1 }
apexMcEmmInsertionPid1Enable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enable/disable first EMM PID to include in the CAT for MediaCipher Full In Band mode.
Default value is enabled.
Once written, the change to this parameter will only take immediate
effect after apexMcEmmInsertionApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexMcEmmInsertionApplyChange , value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexSysConfigMcEmmInsertion 2 }
apexMcEmmInsertionPid1 OBJECT-TYPE
SYNTAX Unsigned32(7168..8190)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"First EMM PID to include in the CAT for MediaCipher Full In Band mode.
Allowed values: from 0x1C00 to 0x1FFE.
Default value is 0x1C02.
Once written, the change to this parameter will only take immediate
effect after apexMcEmmInsertionApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexMcEmmInsertionApplyChange , value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexSysConfigMcEmmInsertion 3 }
apexMcEmmInsertionPid2Enable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enable/disable first EMM PID to include in the CAT for MediaCipher Full In Band mode.
Default value is disabled.
Once written, the change to this parameter will only take immediate
effect after apexMcEmmInsertionApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexMcEmmInsertionApplyChange , value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexSysConfigMcEmmInsertion 4 }
apexMcEmmInsertionPid2 OBJECT-TYPE
SYNTAX Unsigned32(7168..8190)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Second EMM PID to include in the CAT for MediaCipher Full In Band mode.
Allowed values: from 0x1C00 to 0x1FFE.
Default value is 0x1C03.
Once written, the change to this parameter will only take immediate
effect after apexMcEmmInsertionApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexMcEmmInsertionApplyChange , value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexSysConfigMcEmmInsertion 5 }
apexMcEmmInsertionApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the MediaCipher EMM Insertion group.
This parameter MUST be set to 'apply' in order for any of the data
in the MC EMM Insertion group to take effect in the device. This
parameter MUST be set LAST after all other data in the MC Emm Insertion
group has been configured.
@Config(config=no, reboot=no)
"
::= { apexSysConfigMcEmmInsertion 6 }
-- ------------------------------------------------------------------------------
--
-- apexSysStatus
--
-- apexSysStatusGeneral
--
apexBootReason OBJECT-TYPE
SYNTAX INTEGER
{
powerCycle (0),
operatorReboot (1),
hwFault (2),
wdFault (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates reason for APEX boot:
'powerCycle' - Power-up or power cycled.
'operatorReboot' - Operator commanded reboot (refer to manual).
'hwFault' - Automatic reboot occurred as per apexAutoRebootEnable.
'wdFault' - Automatic Watchdog reboot as per apexAutoRebootEnable.
"
::= { apexSysStatusGeneral 1 }
apexMaxServiceMappings OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Maximum number of service mappings supported by the APEX.
"
::= { apexSysStatusGeneral 2 }
-- ------------------------------------------------------------------------------
--
-- apexSysStatusVersions
--
apexHostProcessorBootCodeVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Host Processor Boot Code Version."
::= { apexSysStatusVersions 1 }
apexMuxFpgaVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX MUX FPGA Version."
::= { apexSysStatusVersions 2 }
apexMuxFpgaEncryption OBJECT-TYPE
SYNTAX INTEGER
{
noEncryption (0),
des (1),
csa (2),
aes (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX MUX FPGA Encryption type currently loaded."
::= { apexSysStatusVersions 3 }
apexMainBoardVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Main Board Version. This is the revision of the
apexMainBoardType."
::= { apexSysStatusVersions 4 }
apexHostApplicationDate OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Host Processor Application Creation Date."
::= { apexSysStatusVersions 5 }
apexProductType OBJECT-TYPE
SYNTAX INTEGER
{
invalid (0),
apex1000 (1)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Product Type. The corresponding product name
text setting can be found in identUnitModel."
::= { apexSysStatusVersions 6 }
apexMainBoardType OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Main Board Type. The revision is found in apexMainBoardVersion."
::= { apexSysStatusVersions 7 }
apexGlueFpgaVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Glue FPGA Version."
::= { apexSysStatusVersions 8 }
apexGlueCpldVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Glue CPLD Version."
::= { apexSysStatusVersions 9 }
apexDtiFpgaVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX DTI FPGA Version."
::= { apexSysStatusVersions 10 }
apexMpc2FpgaVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX MPC2 FPGA Version."
::= { apexSysStatusVersions 11 }
apexDpmVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX DPM Version."
::= { apexSysStatusVersions 12 }
-- ------------------------------------------------------------------------------
--
-- apexTime
--
-- apexTimeConfig
--
-- apexTimeConfigGeneral
--
apexTimeSource OBJECT-TYPE
SYNTAX INTEGER
{
sntp (1),
internal (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The source for system time.
The time source can be configured to come from
an SNTP time source, or be generated internally.
When configured as internal:
- The APEX will internally keep time starting at GPS time 0.
A user can set the time to a valid GPS time in this mode.
- The system time and UTC offset in internal mode are
not updated and therefore are not valid.
When configured to receive time via SNTP the
SntpServerSpecified object and SntpServiceIP objects
can be used to optionally define the SNTP server.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexTimeConfigGeneral 1 }
apexSntpUtcOffset OBJECT-TYPE
SYNTAX Integer32(0..1000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The value of this object is the Universal Time
Coordinated (UTC) offset from GPS time. Subtract
this from GPS time to convert from GPS to UTC.
Units are seconds.
When time source is SNTP, this object can be set
to specify the UTC offset that the APEX will use
in calculating GPS time.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexTimeConfigGeneral 2 }
apexSntpServerSpecified OBJECT-TYPE
SYNTAX INTEGER
{
notSpecified (1),
specified (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When the TimeSource is SNTP, this object specifies whether
the APEX will only accept time for a single SNTP server or
from any server that broadcasts time.
When notSpecified, the APEX will accept time from any SNTP
server.
When specified, the APEX will poll for time from the address
of the SNTP server specified by the SntpServerIP address object.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexTimeConfigGeneral 3 }
apexSntpServerIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This contains the IP address of the specified SNTP server.
If apexTimeSource is SNTP and apexSntpServerSpecified
is set to specified, then the apex will poll for time from
this IP address.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexTimeConfigGeneral 4 }
apexUserSuppliedTime OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The value of this object is the GPS Time the APEX is given
via user entry. The time is reported in GPS seconds.
This time is ONLY used when the APEX is set to Internal time mode.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexTimeConfigGeneral 5 }
-- ------------------------------------------------------------------------------
--
-- apexTimeStatus
--
-- apexTimeStatusGeneral
--
apexSystemTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The value of this object is the current System Time of the APEX.
The system time is reported in GPS seconds. To determine the
APEXs system time in UTC the apexSntpUtcOffset object must also
be read and used in the calculation."
::= { apexTimeStatusGeneral 1 }
apexOperationalTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Operational Time is the time in seconds since the APEX completed
the boot sequence. It is the time that the APEX has been operational."
::= { apexTimeStatusGeneral 8 }
-- ------------------------------------------------------------------------------
--
-- apexTemperature
--
-- apexTemperatureConfig
--
-- apexTemperatureConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexTemperatureStatus
--
-- apexTemperatureStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexMainBoardTemperature
--
apexMainBoardTempFrontIntake OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Ambient temperature at the intake vent at the front of the unit.
Measured in whole number degrees Celsius."
::= { apexMainBoardTemperature 1 }
apexMainBoardTempMuxFpga OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Ambient temperature at the MUX FPGAs.
Measured in whole number degrees Celsius."
::= { apexMainBoardTemperature 2 }
apexMainBoardTempAcpModule OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Ambient temperature at the ACP Module location. This reading
is valid for all models whether an ACP Module is standard on
the model.
Measured in whole number degrees Celsius."
::= { apexMainBoardTemperature 3 }
apexMainBoardTempHostProcessor OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Ambient temperature at the Host Processor.
Measured in whole number degrees Celsius."
::= { apexMainBoardTemperature 4 }
-- ------------------------------------------------------------------------------
--
-- apexMainBoardTemperatureFault
--
apexMainBoardTempFrontIntakeFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
overTemp (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Fault status of ambient temperature at the intake vent at
the front of the unit."
::= { apexMainBoardTemperatureFault 1 }
apexMainBoardTempMuxFpgaFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
overTemp (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Fault status of ambient temperature at the MUX FPGAs."
::= { apexMainBoardTemperatureFault 2 }
apexMainBoardTempAcpModuleFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
overTemp (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Fault status of ambient temperature at the ACP Module location."
::= { apexMainBoardTemperatureFault 3 }
apexMainBoardTempHostProcessorFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
overTemp (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Fault status of ambient temperature at the Host Processor."
::= { apexMainBoardTemperatureFault 4 }
-- ------------------------------------------------------------------------------
--
-- apexPowerSupply
--
-- apexPsConfig
--
-- apexPsConfigGeneral
--
apexPsPowerFaultFilter OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexPsPowerFaultFilter.
When set to 'enabled', the device ignore the power fault alarm
for two consecutive positive samples of an AC power interruption.
When set to 'disabled' the alarm(apexAlarmPowerFault) will operate as described.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexPsStatus
--
-- apexPsStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexPsStatusTable
--
apexPsStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPsStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of status parameters for the two Power Supplies."
::= { apexPsStatus 2 }
apexPsStatusEntry OBJECT-TYPE
SYNTAX ApexPsStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Power Supply Status Table Entry."
INDEX { apexPsStatusPsNum }
::= { apexPsStatusTable 1 }
ApexPsStatusEntry ::= SEQUENCE
{
apexPsStatusPsNum Integer32,
apexPsStatusInstalled INTEGER,
apexPsStatusOutputVoltage Integer32,
apexPsStatusOutputCurrent Integer32,
apexPsStatusFanSpeed Unsigned32,
apexPsStatusFanStatus INTEGER,
apexPsStatusTemperatureStatus INTEGER,
apexPsStatusInputPowerStatus INTEGER,
apexPsStatusOutputPowerStatus INTEGER,
apexPsStatusErrorStatus INTEGER,
apexPsStatusFaultCondition INTEGER,
apexPsStatusDiagnosticData1 Integer32,
apexPsStatusDiagnosticData2 Integer32,
apexPsStatusCommError INTEGER
}
apexPsStatusPsNum OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"PS Number."
::= { apexPsStatusEntry 1 }
apexPsStatusInstalled OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notInstalled (1),
installedAcInput (2),
installedDcInput (3),
fanModuleInstalled (4),
unsupported (5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates installed status of the PS."
::= { apexPsStatusEntry 2 }
apexPsStatusOutputVoltage OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"PS measured output voltage in milli-Volts."
::= { apexPsStatusEntry 3 }
apexPsStatusOutputCurrent OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"PS measured output current in milli-Amps."
::= { apexPsStatusEntry 4 }
apexPsStatusFanSpeed OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The fan speed in RPM an installed Power Supply or Fan Module.
Zero if not installed."
::= { apexPsStatusEntry 5 }
apexPsStatusFanStatus OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"PS Fan Status."
::= { apexPsStatusEntry 6 }
apexPsStatusTemperatureStatus OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether the power supply is in protection mode due to
an over temperature condition. The PS is shut down while in
'overTemp' and will recover when the temperature returns to normal
operating range. A power cycle is not required for recovery.
Note that Output Power Status will be 'error' when Temperature
status is 'overTemp'."
::= { apexPsStatusEntry 7 }
apexPsStatusInputPowerStatus OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether AC Input is within specification. Note that Output
Power Status will be 'error' when Input Power status is 'error'"
::= { apexPsStatusEntry 8 }
apexPsStatusOutputPowerStatus OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether the +12V and +3.3V output power are within
specification. If the output power error occurs with an Input
Power error, apply input power to recover. If the output power
error occurs with an Over Temperature error, a power cycle is not
required for recovery. Otherwise, a power cycle is required for
recovery. If the problem persists after the power cycle, the PS
must be replaced for recovery."
::= { apexPsStatusEntry 9 }
apexPsStatusErrorStatus OBJECT-TYPE
SYNTAX INTEGER
{
ok (1),
psNotInstalled (2),
psUnsupported (3),
inputPower (4),
fanFault (5),
overTemp (6),
outputPower (7),
commLost (8)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Summary of errors reported on a power supply basis.
The reported error will be the most severe."
::= { apexPsStatusEntry 10 }
apexPsStatusFaultCondition OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of the power supply errors."
::= { apexPsStatusEntry 11 }
apexPsStatusDiagnosticData1 OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Diagnostic data word 1 (HP) - Contents for Arris
diagnostic purposes."
::= { apexPsStatusEntry 12 }
apexPsStatusDiagnosticData2 OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Diagnostic data word 2 (PS) - Contents for Arris
diagnostic purposes."
::= { apexPsStatusEntry 13 }
apexPsStatusCommError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Communication with the Power Supply has failed and status cannot be
determined. Only applies when valid PS installed."
::= { apexPsStatusEntry 14 }
-- ------------------------------------------------------------------------------
--
-- apexPsStatusVersionsTable
--
apexPsStatusVersionsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPsStatusVersionsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of version status parameters for the two Power Supplies."
::= { apexPsStatus 3 }
apexPsStatusVersionsEntry OBJECT-TYPE
SYNTAX ApexPsStatusVersionsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Power Supply Version Status Table Entry."
INDEX { apexPsStatusVersionsPsNum }
::= { apexPsStatusVersionsTable 1 }
ApexPsStatusVersionsEntry ::= SEQUENCE
{
apexPsStatusVersionsPsNum Integer32,
apexPsStatusVersionsModel DisplayString,
apexPsStatusVersionsSerialNumber DisplayString
}
apexPsStatusVersionsPsNum OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"PS Number."
::= { apexPsStatusVersionsEntry 1 }
apexPsStatusVersionsModel OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..17))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"PS Model."
::= { apexPsStatusVersionsEntry 2 }
apexPsStatusVersionsSerialNumber OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"PS serial number."
::= { apexPsStatusVersionsEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexAsi
--
-- apexAsiConfig
--
-- apexAsiMonitorPortConfig
--
apexAsiMonitorPortOutputTsNum OBJECT-TYPE
SYNTAX Integer32(0..48)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The number of the output transport stream to route to the
ASI Monitor Port. Zero indicates that no stream is to be
routed to the ASI Monitor port.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexAsiMonitorPortConfig 1 }
apexAsiMonitorPortEncryption OBJECT-TYPE
SYNTAX INTEGER
{
preEncryption (1),
postEncryption (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Selects pre or post encryption for the ASI monitor port.
This parameter is only applicable to APEXs with encryption
capability.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexAsiMonitorPortConfig 2 }
-- ------------------------------------------------------------------------------
--
-- apexFastEnet
--
-- apexFastEnetConfig
--
-- apexFastEnetConfigGeneral
--
apexFastEnetDefaultGateway OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the default gateway for the Fast Ethernet
interfaces.
This should be zero or a valid Class A, B, or C IP address.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexFastEnetConfigGeneral 1 }
apexFastEnetRoutingApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the Fast Ethernet Static Routing Table.
This parameter MUST be set to 'apply' in order for any of the data
in the apexFastEnetRoutingTable to take effect. This parameter
MUST be set LAST after all other data in the apexFastEnetRoutingTable
has been configured.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexFastEnetConfigGeneral 3 }
-- ------------------------------------------------------------------------------
--
-- apexFastEnetRoutingTable
--
apexFastEnetRoutingTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexFastEnetRoutingEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table is the configuration Static Routing table for the
Fast Ethernet Interface.
@Commit(param=apexFastEnetRoutingApplyChange, value=2)
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexFastEnetConfig 2 }
apexFastEnetRoutingEntry OBJECT-TYPE
SYNTAX ApexFastEnetRoutingEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Fast Ethernet Interface Configuration Static Routing Table Entry."
INDEX { apexFastEnetRoutingIndex }
::= { apexFastEnetRoutingTable 1 }
ApexFastEnetRoutingEntry ::= SEQUENCE
{
apexFastEnetRoutingIndex Integer32,
apexFastEnetRoutingDestinIp IpAddress,
apexFastEnetRoutingGatewayIp IpAddress,
apexFastEnetRoutingSubnetMask IpAddress
}
apexFastEnetRoutingIndex OBJECT-TYPE
SYNTAX Integer32(1..16)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Routing table entry.
Currently limited to 16."
::= { apexFastEnetRoutingEntry 1 }
apexFastEnetRoutingDestinIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Fast Ethernet Routing Destination IP address.
Once written, the change to this parameter will only take immediate
effect after apexFastEnetRoutingApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power cycles,
the change must be saved via the apexSaveConfig parameter.
"
::= { apexFastEnetRoutingEntry 2 }
apexFastEnetRoutingGatewayIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Fast Ethernet Routing Gateway IP address.
Once written, the change to this parameter will only take immediate
effect after apexFastEnetRoutingApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power cycles,
the change must be saved via the apexSaveConfig parameter.
"
::= { apexFastEnetRoutingEntry 3 }
apexFastEnetRoutingSubnetMask OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Fast Ethernet Routing Subnet Mask.
Once written, the change to this parameter will only take immediate
effect after apexFastEnetRoutingApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power cycles,
the change must be saved via the apexSaveConfig parameter.
"
::= { apexFastEnetRoutingEntry 4 }
-- ------------------------------------------------------------------------------
--
-- apexFastEnetInsertRateTable
--
apexFastEnetInsertRateTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexFastEnetInsertRateEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of configuration parameters for Output Transport
Rate of Fast Ethernet MPEG data Insertion."
::= { apexFastEnetConfigGeneral 2 }
apexFastEnetInsertRateEntry OBJECT-TYPE
SYNTAX ApexFastEnetInsertRateEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Rate of Fast Ethernet MPEG Insertion Configuration Table Entry."
INDEX { apexFastEnetInsertRateOutputTsNum }
::= { apexFastEnetInsertRateTable 1 }
ApexFastEnetInsertRateEntry ::= SEQUENCE
{
apexFastEnetInsertRateOutputTsNum Integer32,
apexFastEnetInsertRate Integer32
}
apexFastEnetInsertRateOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexFastEnetInsertRateEntry 1 }
apexFastEnetInsertRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Insertion Rate for the transport stream for Fast Ethernet MPEG
data. Maximum MPEG data rate to insert data received via Fast
Ethernet interfaces.
Range is 0 Kbps to 2500 Kbps for each transport stream.
Total for all transport streams must not exceed 10000 Kbps.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Range(min=0, max=2500)
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexFastEnetInsertRateEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexFastEnetStatus
--
-- apexFastEnetStatusGeneral
--
apexFastEnetMaxInputUdpPorts OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Maximum number of Fast Ethernet input UDP ports that can be opened on
this APEX."
::= { apexFastEnetStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexFastEnetStatusPacketsTable
--
apexFastEnetStatusPacketsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexFastEnetStatusPacketsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Fast Ethernet Insert Packet Statistics for each
Fast Ethernet interface.
Indexed by FE interface port number."
::= { apexFastEnetStatus 2 }
apexFastEnetStatusPacketsEntry OBJECT-TYPE
SYNTAX ApexFastEnetStatusPacketsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the FE Insert Packets table."
INDEX { apexFastEnetPacketsPortNum }
::= { apexFastEnetStatusPacketsTable 1 }
ApexFastEnetStatusPacketsEntry ::= SEQUENCE
{
apexFastEnetPacketsPortNum Integer32,
apexFastEnetPacketsNumPkts Unsigned32,
apexFastEnetPacketsTotPkts Unsigned32,
apexFastEnetPacketsNumDiscarded Unsigned32,
apexFastEnetPacketsTotDiscarded Unsigned32
}
apexFastEnetPacketsPortNum OBJECT-TYPE
SYNTAX Integer32 (1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Fast Ethernet interface port Number."
::= { apexFastEnetStatusPacketsEntry 1 }
apexFastEnetPacketsNumPkts OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of MPEG packets inserted during the last monitoring
period (currently 5 seconds) on this FE interface port."
::= { apexFastEnetStatusPacketsEntry 2 }
apexFastEnetPacketsTotPkts OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of MPEG packets inserted on this FE interface port."
::= { apexFastEnetStatusPacketsEntry 3 }
apexFastEnetPacketsNumDiscarded OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of MPEG packets discarded during the last monitoring
period (currently 5 seconds) on this FE interface port.
This may be due to a buffer overflow or incorrect
configuration of the FE output stream insertion rate."
::= { apexFastEnetStatusPacketsEntry 4 }
apexFastEnetPacketsTotDiscarded OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of FE MPEG packets discarded on this Output
Transport Stream. Discarded packets on an FE interface port
are those packets discarded due to an overflow condition."
::= { apexFastEnetStatusPacketsEntry 5 }
-- ------------------------------------------------------------------------------
--
-- apexFastEnetInsertPacketsTable
--
apexFastEnetInsertPacketsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexFastEnetInsertPacketsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Output Transport Stream FE Insert Packet Statistics.
Indexed by Output Transport Stream number."
::= { apexFastEnetStatus 3 }
apexFastEnetInsertPacketsEntry OBJECT-TYPE
SYNTAX ApexFastEnetInsertPacketsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the Output Transport Stream FE Insert Packets table."
INDEX { apexFastEnetInsPacketsOutputTsNum }
::= { apexFastEnetInsertPacketsTable 1 }
ApexFastEnetInsertPacketsEntry ::= SEQUENCE
{
apexFastEnetInsPacketsOutputTsNum Integer32,
apexFastEnetInsPacketsNumPkts Unsigned32,
apexFastEnetInsPacketsTotPkts Unsigned32,
apexFastEnetInsPacketsNumDiscarded Unsigned32,
apexFastEnetInsPacketsTotDiscarded Unsigned32
}
apexFastEnetInsPacketsOutputTsNum OBJECT-TYPE
SYNTAX Integer32 (1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexFastEnetInsertPacketsEntry 1 }
apexFastEnetInsPacketsNumPkts OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of MPEG packets inserted during the last monitoring
period (currently 5 seconds) on this Output Transport
Stream."
::= { apexFastEnetInsertPacketsEntry 2 }
apexFastEnetInsPacketsTotPkts OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of MPEG packets inserted on this Output
Transport Stream."
::= { apexFastEnetInsertPacketsEntry 3 }
apexFastEnetInsPacketsNumDiscarded OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of MPEG packets discarded during the last monitoring
period (currently 5 seconds) on this Output Transport
Stream. This may be due to a buffer overflow or incorrect
configuration of the FE output stream insertion rate."
::= { apexFastEnetInsertPacketsEntry 4 }
apexFastEnetInsPacketsTotDiscarded OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of FE MPEG packets discarded on this Output
Transport Stream. Discarded packets on an output stream
are those packets discarded due to an overflow condition."
::= { apexFastEnetInsertPacketsEntry 5 }
-- ------------------------------------------------------------------------------
--
-- apexOamp
--
-- apexOampConfig
--
-- apexOampConfigGeneral
--
apexOampIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the OAMP IP (Enet1) interface of the APEX.
This IP address is set via a BootP when connected
to a Bootp server. When not connected to a BootP server, the IP
address may directly be changed by setting this parameter.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" dbc_fmt="1"></DbHint>
::= { apexOampConfigGeneral 1 }
apexOampSubnetMask OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is subnet mask of the OAMP IP (Enet1) interface of the APEX.
The subnet mask is normally via a BootP when connected
to a BootP server. When not connected to a Bootp Server, the
Subnet Mask may directly be changed by setting this parameter.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" dbc_fmt="1"></DbHint>
::= { apexOampConfigGeneral 2 }
apexOampAutoNegotiate OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"OAMP IP (Enet1) Ethernet Auto-Negotiation setting.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" dbc_fmt="1"></DbHint>
::= { apexOampConfigGeneral 3 }
apexOampNetworkDuplexMode OBJECT-TYPE
SYNTAX NetworkDuplexModeTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"OAMP (Enet1) Ethernet Network Duplex Mode. Enet1 is set to the
configured mode, only if 'apexOampAutoNegotiate' is disabled.
Default value is full duplex mode.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" dbc_fmt="1"></DbHint>
::= { apexOampConfigGeneral 4 }
apexOampNetworkSpeed OBJECT-TYPE
SYNTAX NetworkSpeedTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"OAMP (Enet1) Ethernet Network Speed. Enet1 is set to the
configured speed, only if 'apexOampAutoNegotiate' is disabled.
Default value is 100 Mbps.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" dbc_fmt="1"></DbHint>
::= { apexOampConfigGeneral 5 }
-- ------------------------------------------------------------------------------
--
-- apexOampStatus
--
-- apexOampStatusGeneral
--
apexOampMacAddr OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..17))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the MAC address of the APEX OAMP IP (Enet1) Interface.
It is set at the factory and cannot be changed.
The string length is 17 characters in the format
'hh:hh:hh:hh:hh:hh' where 'hh' is a hexadecimal number."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" dbc_fmt="1"></DbHint>
::= { apexOampStatusGeneral 1 }
apexOampSpeed OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
interfaceSpeed10Mbps (1),
interfaceSpeed100Mbps (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"OAMP IP (Enet1) Ethernet speed (10Mbps or 100Mbps). This is determined by the results of the
auto-negotiation process. If auto-negotiation fails, the default speed is 100Mbps."
::= { apexOampStatusGeneral 2 }
apexOampDuplexMode OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
halfDuplex (1),
fullDuplex (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"OAMP IP (Enet1) Ethernet Duplex Mode (full or half) This is determined by the results of the
auto-negotiation process. If auto-negotiation fails, the default mode is Full."
::= { apexOampStatusGeneral 3 }
apexOampInputTsAssignedCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of input transport streams assigned to the OAMP IP interface (Enet1)."
::= { apexOampStatusGeneral 4 }
apexOampLinkActive OBJECT-TYPE
SYNTAX ActiveTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This indicates if the OAMP (ENET1) link is active."
::= { apexOampStatusGeneral 5 }
apexOampCurrentAutoNegotiateState OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current auto-negotiation status on OAMP network
"
::= { apexOampStatusGeneral 6 }
-- ------------------------------------------------------------------------------
--
-- apexDataIp
--
-- apexDataIpConfig
--
-- apexDataIpConfigGeneral
--
apexDataIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the Data IP (Enet2) interface of this APEX.
The data IP address may directly be changed by setting this parameter.
The Data IP address must be configured such that the Data IP interface
and the OAMP interface are on different networks.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDataIpConfigGeneral 1 }
apexDataIpSubnetMask OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is subnet mask of the Data IP (Enet2) interface of this APEX.
The data IP Subnet Mask may directly be changed by setting this parameter.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDataIpConfigGeneral 2 }
apexDataIpAutoNegotiate OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Data IP (Enet2) Ethernet Auto-Negotiation setting.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDataIpConfigGeneral 3 }
apexDataIpNetworkDuplexMode OBJECT-TYPE
SYNTAX NetworkDuplexModeTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"DATA IP (Enet2) Ethernet Network Duplex Mode. Enet2 is set to the
configured mode, only if 'apexDataIpAutoNegotiate'is disabled.
Default value is full duplex mode.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDataIpConfigGeneral 4 }
apexDataIpNetworkSpeed OBJECT-TYPE
SYNTAX NetworkSpeedTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"DATA IP (Enet2) Ethernet Network Speed. Enet2 is set to the
configured speed, only if 'apexDataIpAutoNegotiate'is disabled.
Default value is 100 Mbps.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDataIpConfigGeneral 5 }
-- ------------------------------------------------------------------------------
--
-- apexDataIpStatus
--
-- apexDataIpStatusGeneral
--
apexDataIpMacAddr OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..17))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the MAC address of the APEX Data IP (Enet2) Interface.
It is set at the factory and cannot be changed.
The string length is 17 characters in the format
'hh:hh:hh:hh:hh:hh' where 'hh' is a hexadecimal number."
::= { apexDataIpStatusGeneral 1 }
apexDataIpSpeed OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
interfaceSpeed10Mbps (1),
interfaceSpeed100Mbps (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Data IP (Enet2) Ethernet speed (10Mbps or 100Mbps). This is determined
by the results of the auto-negotiation process. If auto-negotiation
fails, the default speed is 100Mbps. This status item is only valid
when the Data IP port is enabled and properly configured."
::= { apexDataIpStatusGeneral 2 }
apexDataIpDuplexMode OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
halfDuplex (1),
fullDuplex (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Data IP (Enet2) Ethernet Duplex Mode (full or half) This is determined
by the results of the auto-negotiation process. If auto-negotiation
fails, the default mode is Full. This status item is only valid when
the Data IP port is enabled and properly configured."
::= { apexDataIpStatusGeneral 3 }
apexDataIpInputTsAssignedCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of input transport streams assigned to the Data IP interface."
::= { apexDataIpStatusGeneral 4 }
apexDataIpAddrInUse OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates the IP Address currently being used by the Data IP port (Enet2).
This parameter will be either apexDataIpAddr or an APEX selected IP address.
Refer to apexDataIpInUseReason for more information."
::= { apexDataIpStatusGeneral 5 }
apexDataIpSubnetMaskInUse OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates the Subnet Mask currently being used by the Data IP port (Enet2).
This parameter will be either apexDataIpSubnetMask or an APEX selected mask.
Refer to apexDataIpInUseReason for more information."
::= { apexDataIpStatusGeneral 6 }
apexDataIpInUseReason OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
userConfig (1),
directRemConnection (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Reason for apexDataIpAddrInUse and apexDataIpSubnetMaskInUse Data IP
(Enet2) parameters.
'notApplicable' - Enet2 not configured by user or for REM
connection.
'userConfig' - APEX is not overriding user configured
parameters.
'directRemConnection' - The DATA IP port (Enet2) is in use for QAM RF
Redundancy so the APEX has overridden the user
configured parameters.
"
::= { apexDataIpStatusGeneral 7 }
apexDataIpLinkActive OBJECT-TYPE
SYNTAX ActiveTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This indicates if the DataIP (ENET2) link is active."
::= { apexDataIpStatusGeneral 8 }
apexDataIpCurrentAutoNegotiateState OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current auto-negotiation status on DATA IP network
"
::= { apexDataIpStatusGeneral 9 }
-- ------------------------------------------------------------------------------
--
-- apexGbe
--
-- apexGbeConfig
--
-- apexGbeConfigGeneral
--
apexGbeDefaultGateway1 OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the default gateway for Gigabit Ethernet
interfaces 1 and 2.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 1 }
apexGbeDefaultGateway2 OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the default gateway for Gigabit Ethernet
interfaces 3 and 4.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 2 }
apexGbeJitterAbsorption OBJECT-TYPE
SYNTAX Integer32(0..200)
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
Jitter Absorption setting in range of 0 to 200 milliseconds
in increments of 5 ms. A change to this parameter will cause the
Gigabit Ethernet processor to reset all of its internal Ethernet
frame buffers. This will result in a momentary loss of data causing
a minor glitch on all output streams.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Range(step=5)
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 3 }
apexGbeGarpPeriodicity OBJECT-TYPE
SYNTAX Integer32(20..300)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Gratuitous ARP period in range of 20 to 300 seconds.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 4 }
apexGbeConfigTableApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the Gigabit Ethernet Configuration Table. This parameter
MUST be set to 'apply' in order for any of the data in the
apexGbeConfigTable to take effect. This parameter
MUST be set LAST after all other data in the apexGbeConfigTable
has been configured.
@Config(config=no, reboot=no)
"
::= { apexGbeConfigGeneral 5 }
apexGbeNominalBufferLevel OBJECT-TYPE
SYNTAX Integer32(50..475)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Gigabit Ethernet Nominal Buffer Level. Range of 50 to 475 milliseconds
in increments of 5 ms. A change to this parameter will cause the
Gigabit Ethernet processor to reset all of its internal Ethernet
frame buffers. This will result in a momentary loss of data causing
a minor glitch on all output streams.
The buffer level is the normal standard starting level for an input
stream buffer. It is highly recommended that this level not be changed
from its default setting. The buffer level needs to be set at an
appropriate amount to allow for network jitter, clock skew between the
APEX and input source, and for maximum time between PCRs (100ms). In
addition, the level must not be set too high as the buffer needs to be
able to grow as packets are received and PCR processing is applied. This
buffer level is the initial level the APEX will attempt to maintain at
all times.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 6 }
apexGbeInputDataTsSmoothingPeriod OBJECT-TYPE
SYNTAX Integer32(250..650)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Data stream smoothing period. Amount of time in milliseconds
over which the GigE will smooth out input streams that do not contain
PCRs. This allows the GigE to play out the input streams with
the packets equally spaced out over this period. This helps to reduce
network jitter and bursts of data to the output.
The smoothing period is used in conjunction with the data stream
buffer depth to perform this smoothing algorithm. The smoothing
period must be equal to or less than the data stream buffer depth.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexGbeConfigGeneral 7 }
apexGbeInputDataTsBufferDepth OBJECT-TYPE
SYNTAX Integer32(250..650)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"GBE Input Data stream buffer depth. Amount of time in milliseconds
that the GigE will buffer input streams that do not contain
PCRs. This allows the GigE to buffer these streams to remove network
jitter and then play them out with the packets equally spaced out.
The buffer depth must be equal to or greater than the data stream
smoothing period.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexGbeConfigGeneral 8 }
apexGbeConfigInputDataTsApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexGbeConfigInputDataTsApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data. This
entry contains the description for the most recent apply
of a related entry that was invalid.
"
::= { apexGbeConfigGeneral 9 }
apexGbeConfInputUnicastTimeout OBJECT-TYPE
SYNTAX Integer32(600..6000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Loss of input stream timeout value (in milliseconds) for unicast inputs.
This determines the amount of time a unicast input stream is missing
before the APEX will declare the input stream lost.
Loss of input is used for determining all SDV failover conditions.
It is also used for Manual Routing failover conditions when using
hot/warm transport stream redundancy.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Range(step=200)
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 10 }
apexGbeConfInputMulticastTimeout OBJECT-TYPE
SYNTAX Integer32(600..6000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Loss of input stream timeout value (in milliseconds) for multicast inputs.
This determines the amount of time a unicast input stream is missing before
the APEX will declare the input stream lost.
Loss of input is used for determining all SDV failover conditions.
It is also used for Manual Routing failover conditions when using
hot/warm transport stream redundancy.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Range(step=200)
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 11 }
apexGbeConfLossOfInputTsType OBJECT-TYPE
SYNTAX RateComparisonTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Loss of input stream type. Determines if detection of loss of an input
stream is based on data rate or stream rate. Data rate includes only
non-null MPEG packets (such as video and audio packets). Stream rate
includes all packets, including null packets. The loss of an input stream
uses the timeout value for the specific input (unicast or multicast) and
the input type. If no packets are received within the specified timeout
value, taking into account the loss of input type checking, then the input
stream is determined to be missing.
Data rate should be used for detecting loss of input when the input stream
is normally null filled. When a user requires notification of a loss of
input stream when there is no content streamed, data rate should be selected.
Stream rate should be used for detecting loss of input stream when the user
requires to be notified when there is no input stream at all being received.
Loss of input is used for determining all SDV failover conditions.
It is also used for Manual Routing failover conditions when using
hot/warm transport stream redundancy.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfigGeneral 12 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigTable
--
apexGbeConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of configuration parameters for the
Gigabit Ethernet Interfaces.
Once written, the change to this table will only take immediate
effect after apexGbeConfigTableApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexGbeConfigTableApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfig 2 }
apexGbeConfigEntry OBJECT-TYPE
SYNTAX ApexGbeConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Configuration Table Entry."
INDEX { apexGbeConfigInterfaceNum }
::= { apexGbeConfigTable 1 }
ApexGbeConfigEntry ::= SEQUENCE
{
apexGbeConfigInterfaceNum Integer32,
apexGbeConfigEnable EnableDisableTYPE,
apexGbeConfigIpAddr IpAddress,
apexGbeConfigIpSubnetMask IpAddress,
apexGbeConfigAutoNegotiate EnableDisableTYPE
}
apexGbeConfigInterfaceNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Number."
::= { apexGbeConfigEntry 1 }
apexGbeConfigEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter enables the Gigabit Ethernet Interface.
"
::= { apexGbeConfigEntry 2 }
apexGbeConfigIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of this Gigabit Ethernet interface.
It is recommended that each Gigabit Ethernet interface be
on a different subnet. Each must be given a unique IP address.
0.0.0.0 indicates the interface is not in use.
"
::= { apexGbeConfigEntry 3 }
apexGbeConfigIpSubnetMask OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is subnet mask of this Gigabit Ethernet interface.
"
::= { apexGbeConfigEntry 4 }
apexGbeConfigAutoNegotiate OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Auto negotiation enabled or disabled.
"
::= { apexGbeConfigEntry 5 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigFrameBufferTable
--
apexGbeConfigFrameBufferTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeConfigFrameBufferEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of configuration parameters related to
Gigabit Ethernet Frame Buffer statistics gathering.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexGbeConfig 3 }
apexGbeConfigFrameBufferEntry OBJECT-TYPE
SYNTAX ApexGbeConfigFrameBufferEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Frame Buffer Configuration Table Entry."
INDEX { apexGbeConfigFrameBufferProcessorNum }
::= { apexGbeConfigFrameBufferTable 1 }
ApexGbeConfigFrameBufferEntry ::= SEQUENCE
{
apexGbeConfigFrameBufferProcessorNum Integer32,
apexGbeConfigFrameBufferMaxInDataRate Unsigned32,
apexGbeConfigFrameBufferAlarmThreshold Integer32
}
apexGbeConfigFrameBufferProcessorNum OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Processor Number.
Proc 1 = GBE Interfaces 1 and 2
Proc 2 = GBE Interfaces 3 and 4
"
::= { apexGbeConfigFrameBufferEntry 1 }
apexGbeConfigFrameBufferMaxInDataRate OBJECT-TYPE
SYNTAX Unsigned32(1000000..2000000000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Maximum Gigabit Ethernet MPEG input data rate in bps. This is the total amount
of MPEG data expected to be received by Gigabit Ethernet frame interfaces on the
processor.
This data rate is used to determine the frame buffer reset limit. The expected
data rate should always be set equal to or greater than the actual input data rate.
The value of apexGbeJitterAbsorption can limit the valid range of this data rate.
It is highly recommended that the user consult with Arris prior to changing
the expected data rate.
"
::= { apexGbeConfigFrameBufferEntry 2 }
apexGbeConfigFrameBufferAlarmThreshold OBJECT-TYPE
SYNTAX Integer32(1..100)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"User defined threshold representing a percentage of frame buffer depth.
The frame buffer level is monitored by the APEX and the maximum level is
based on the actual input data rate. The threshold percentage is used
to determine when to issue a Gigabit Ethernet Frame Buffer Fullness
alarm (apexAlarmGbeBufferFullness).
"
::= { apexGbeConfigFrameBufferEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigInputRedundancy
--
-- apexGbeConfigInputRedundancyGeneral
--
apexGbeConfInRedundMonitorPeriod OBJECT-TYPE
SYNTAX Integer32(1..30)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the time in seconds over which Redundant Gigabit Ethernet
Input Transport Stream Pairs will be monitored. Range is 1 to 30 seconds.
Primary to Secondary Fail Over - The monitored data rate of the Primary
must be below the Secondary by apexManRteGbeInRedThreshold (for
Manual Routing) percent for apexGbeConfInRedundMonitorPeriod before fail
over to Secondary will occur. Fail over to Secondary will not occur if
fail over is suspended for the Primary.
Secondary to Primary Switch Back - The monitored data rate of the
Primary must have returned above apexManRteGbeInRedThreshold (for
Manual Routing) percent below the Secondary for apexGbeConfInRedundMonitorPeriod
before switch back to Primary will occur. Switch back to Primary will
not occur if fail over is suspended for the Secondary. Once the Primary
is restored, switch back to Primary will be delayed by
apexGbeConfInRedundSwitchTime when apexGbeConfInRedundAutoSwitchBack is
'enabled'. Note that if apexGbeConfInRedundAutoSwitchBack is 'disabled'
switch back will not occur.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInputRedundancyGeneral 1 }
apexGbeConfInRedundSwitchTime OBJECT-TYPE
SYNTAX Integer32(0..3600)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the time in seconds to wait before switching back to the
Primary of a Redundant Gigabit Ethernet Input TS pair after the Primary
is healthy. Range is 0 to 3600. This time is in addition to
apexGbeConfInRedundMonitorPeriod. Switch back to Primary will
not occur if fail over is suspended for the Secondary.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInputRedundancyGeneral 2 }
apexGbeConfInRedundAutoSwitchBack OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the enable/disable of automatic switch back from Secondary to
Primary for Gigabit Ethernet redundancy. When 'enabled', switch back
to the Primary will automatically occur when the Primary is restored.
When 'disabled', the user must force back to the Primary using
apexGbeConfInRedundForceToPrimary or apexManRteGbeInRedForceSwitch.
This parameter applies to all configured redundant pairs.
Auto switch back to the primary will not occur if the user forced a
failover to the secondary. Auto switch back only occurs after a
non-forced failover event.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInputRedundancyGeneral 3 }
apexGbeConfInRedundForceToSecondary OBJECT-TYPE
SYNTAX INTEGER
{
switchNotInProgress (1),
forceSwitch (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Gigabit Ethernet Redundant Pair force switch any
pair that is currently on the Primary to the Secondary.
This will have no effect if the corresponding row setting of
apexManRteGbeInRedEnable is 'disabled'.
This will only have an effect when the Primary is the In-Use
Input TS of a Redundant Pair (apexInputTsStatPriState or
apexInputTsStatSecState is 'openedInUse').
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexGbeConfigInputRedundancyGeneral 4 }
apexGbeConfInRedundForceToPrimary OBJECT-TYPE
SYNTAX INTEGER
{
switchNotInProgress (1),
forceSwitch (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Gigabit Ethernet Redundant Pair force switch any
pair that is currently on the Secondary to the Primary.
This will have no effect if the corresponding row setting of
apexManRteGbeInRedEnable is 'disabled'.
This will only have an effect when the Secondary is the In-Use
Input TS of a Redundant Pair (apexInputTsStatPriState or
apexInputTsStatSecState is 'openedInUse').
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexGbeConfigInputRedundancyGeneral 5 }
apexGbeConfInRedundManualRouteRedundType OBJECT-TYPE
SYNTAX INTEGER
{
hotWarm (1),
hotHot (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The redundancy type for output streams in Manual Routing operating
mode.
- hotWarm indicates only 1 input stream, primary or secondary, is
open at any one time. For multicast streams, primary will be joined initially.
The secondary is joined after a failover (the primary will be dropped prior
to joining the secondary). When falling back to the primary, the secondary is
dropped (closed), then the primary is joined (opened).
- hotHot indicates both the primary and secondary streams are opened at the
same time. For multicast streams, both streams are joined immediately.
Changes to the redundancy type cannot be made while there are active routes.
All routes must be deleted prior to changing the redundancy type.
Once written, a save must be performed via the apexSaveConfig
parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInputRedundancyGeneral 6 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigInputDataTsTable
--
apexGbeConfigInputDataTsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeConfigInputDataTsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for GBE input data stream identification. Each entry in
this table identifies a Gigabit Ethernet input stream that is a data
stream only. Data streams are streams without PCR. These streams require
special processing to avoid overflowing the output. There are
128 rows in this table.
Once written, the change to this table will only take immediate
effect after apexGbeConfigInputDataTsApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexGbeConfigInputDataTsApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexGbeConfig 5 }
apexGbeConfigInputDataTsEntry OBJECT-TYPE
SYNTAX ApexGbeConfigInputDataTsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"GBE Input Data Stream Table Entry."
INDEX { apexGbeConfigInputDataTsIndex }
::= { apexGbeConfigInputDataTsTable 1 }
ApexGbeConfigInputDataTsEntry ::= SEQUENCE
{
apexGbeConfigInputDataTsIndex Integer32,
apexGbeConfigInputDataTsEnable EnableDisableTYPE,
apexGbeConfigInputDataTsInterface Integer32,
apexGbeConfigInputDataTsUdp Integer32,
apexGbeConfigInputDataTsMulticastIp IpAddress,
apexGbeConfigInputDataTsSourceIp IpAddress,
apexGbeConfigInputDataTsMaxRate Integer32
}
apexGbeConfigInputDataTsIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of GBE Input Data Stream Table."
::= { apexGbeConfigInputDataTsEntry 1 }
apexGbeConfigInputDataTsEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates whether this GBE Input Data Stream entry is enabled or disabled.
"
::= { apexGbeConfigInputDataTsEntry 2 }
apexGbeConfigInputDataTsInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of the input interface (Port number).
Range:
'0' = Not Applicable
GBE = 1-4
"
::= { apexGbeConfigInputDataTsEntry 3 }
apexGbeConfigInputDataTsUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"GBE Input UDP Port.
Range: 0-65535
"
::= { apexGbeConfigInputDataTsEntry 4 }
apexGbeConfigInputDataTsMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Multicast receive IP address.
An IP address of 0.0.0.0 indicates singlecast only.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexGbeConfigInputDataTsEntry 5 }
apexGbeConfigInputDataTsSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the source device. This field is only
used when a multicast IP address is also specified.
"
::= { apexGbeConfigInputDataTsEntry 6 }
apexGbeConfigInputDataTsMaxRate OBJECT-TYPE
SYNTAX Integer32(0..54000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The maximum data rate in Kbps for the data stream.
A value of zero (0) is the default and the data stream
is not rate limited.
The maximum data rate limit may not exceed 54 Mbps.
"
::= { apexGbeConfigInputDataTsEntry 7 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigInputDataTsApplyTable
--
apexGbeConfigInputDataTsApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeConfigInputDataTsApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the GBE Input Data Stream Table.
A row in this table corresponds to the same row index in the
GBE Input Data Stream table (apexGbeConfigInputDataTsTable).
"
::= { apexGbeConfig 6 }
apexGbeConfigInputDataTsApplyEntry OBJECT-TYPE
SYNTAX ApexGbeConfigInputDataTsApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"GBE Input Data Stream Apply Table Entry."
INDEX { apexGbeConfigInputDataTsApplyIndex }
::= { apexGbeConfigInputDataTsApplyTable 1 }
ApexGbeConfigInputDataTsApplyEntry ::= SEQUENCE
{
apexGbeConfigInputDataTsApplyIndex Integer32,
apexGbeConfigInputDataTsApplyChange ApplyDataToDeviceTYPE
}
apexGbeConfigInputDataTsApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the GBE Input Data Stream Apply Table."
::= { apexGbeConfigInputDataTsApplyEntry 1 }
apexGbeConfigInputDataTsApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the GBE Input Data Stream Table.
A row in this table corresponds to the same row index in the
GBE Input Data Stream table.
This parameter MUST be set to 'apply' in order for any of the data
in the table rows to take effect in the APEX. This parameter MUST
be set LAST after all other data in the table row has been configured.
@Config(config=no, reboot=no)
"
::= { apexGbeConfigInputDataTsApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigInterfaceRedundancy
--
-- apexGbeConfigInterfaceRedundancyGeneral
--
apexGbeConfIfRedundAutoSwitchBackEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enables the ability for the secondary interface to switch back when
link is re-detected on the primary interface. Auto switch back to the
primary interface will not occur if the user forced a failover to the
secondary. Auto switch back only occurs after a non-forced failover.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInterfaceRedundancyGeneral 1 }
apexGbeConfIfRedundAutoSwitchBackPeriod OBJECT-TYPE
SYNTAX Integer32(1..30)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Timer for determining that the primary interface is OK for auto-
switchback. The primary interface must have link for the configured
amount of time. Valid time is 1-30 seconds.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInterfaceRedundancyGeneral 2 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigInterfaceRedundancyTable
--
apexGbeConfigInterfaceRedundancyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeConfigInterfaceRedundancyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of configuration parameters for GbE Interface
Redundancy."
::= { apexGbeConfigInterfaceRedundancy 2 }
apexGbeConfigInterfaceRedundancyEntry OBJECT-TYPE
SYNTAX ApexGbeConfigInterfaceRedundancyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"GbE Interface Redundancy Configuration Table Entry."
INDEX { apexGbeConfIfRedundIndex }
::= { apexGbeConfigInterfaceRedundancyTable 1 }
ApexGbeConfigInterfaceRedundancyEntry ::= SEQUENCE
{
apexGbeConfIfRedundIndex Integer32,
apexGbeConfIfRedundEnable EnableDisableTYPE,
apexGbeConfIfRedundForceFailover INTEGER,
apexGbeConfIfRedundSuspendFailover EnableDisableTYPE
}
apexGbeConfIfRedundIndex OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"GbE Interface Pair number.
Value of 1 is GbE1 and GbE2 pair.
Value of 2 is GbE3 and GbE4 pair."
::= { apexGbeConfigInterfaceRedundancyEntry 1 }
apexGbeConfIfRedundEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enables GbE Interface Redundancy for ports pair. Failover is
based on link status. If the primary GbE fails, the secondary
GbE will become active and will start receiving content.
There is no data rate comparison, as only one interface in the
redundancy pair is active. The secondary GbE cannot be in use prior
to enabling redundancy. TS redundancy may not be used at
the same time as interface redundancy. Interface redundancy is not
applicable when chassis redundancy is enabled.
Once written, the change to this table will only take immediate
effect after apexGbeConfIfRedundApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexGbeConfIfRedundApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInterfaceRedundancyEntry 2 }
apexGbeConfIfRedundForceFailover OBJECT-TYPE
SYNTAX INTEGER
{
failoverNotInProgress (1),
failover (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When set to failover(2), this results in the APEX switching to
the interface that is currently not in use. If the primary GbE is
in use and this is set to failover(2) mappings will be then
routed to the secondary GbE. If the secondary GbE is in use and
this is set to failover(2) mappings will then be routed back to
the primary GbE.
Once written, the change to this table will take immediate
@Config(config=no, reboot=no)
"
::= { apexGbeConfigInterfaceRedundancyEntry 3 }
apexGbeConfIfRedundSuspendFailover OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enables and disables suspending of Interface failover. Prevents failovers
to or from backup. Force failover (apexGbeConfIfRedundForceFailover)
overrides this setting.
Once written, the change to this table will only take immediate
effect after apexGbeConfIfRedundApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexGbeConfIfRedundApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexGbeConfigInterfaceRedundancyEntry 4 }
-- ------------------------------------------------------------------------------
--
-- apexGbeConfigInterfaceRedundancyApplyTable
--
apexGbeConfigInterfaceRedundancyApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeConfigInterfaceRedundancyApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the GBE Interface Redundancy Configuration Table.
A row in this table corresponds to the same row index in the
GBE Config Interface Redundancy table (apexGbeConfigInterfaceRedundancyTable).
"
::= { apexGbeConfigInterfaceRedundancy 3 }
apexGbeConfigInterfaceRedundancyApplyEntry OBJECT-TYPE
SYNTAX ApexGbeConfigInterfaceRedundancyApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"GBE Config Interface Redundancy Table Entry."
INDEX { apexGbeConfIfRedundApplyIndex }
::= { apexGbeConfigInterfaceRedundancyApplyTable 1 }
ApexGbeConfigInterfaceRedundancyApplyEntry ::= SEQUENCE
{
apexGbeConfIfRedundApplyIndex Integer32,
apexGbeConfIfRedundApplyChange ApplyDataToDeviceTYPE
}
apexGbeConfIfRedundApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the GBE Config Interface Redundancy Table."
::= { apexGbeConfigInterfaceRedundancyApplyEntry 1 }
apexGbeConfIfRedundApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the GBE Config Interface Redundancy Table.
A row in this table corresponds to the same row index in the
GBE Config Interface Redundancy table.
This parameter MUST be set to 'apply' in order for any of the data
in the GBE Input Data Stream Table row to take effect in the APEX. This
parameter MUST be set LAST after all other data in the GBE Input Data Stream
Table row has been configured.
@Config(config=no, reboot=no)
"
::= { apexGbeConfigInterfaceRedundancyApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatus
--
-- apexGbeStatusGeneral
--
apexGbeBootCodeVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Gigabit Ethernet Processor Boot Code Version."
::= { apexGbeStatusGeneral 1 }
apexGbeApplicationCodeVersion OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"APEX Gigabit Ethernet Processor Application Code Version."
::= { apexGbeStatusGeneral 2 }
apexGbeMaxInputTs OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Maximum number of Gigabit Ethernet input transport streams
that can be opened on this APEX. This is the maximum across
all installed GigE interfaces. One GigE interface can use
all Input TS."
::= { apexGbeStatusGeneral 3 }
apexGbeRoutedPacketUpdateInterval OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in seconds between Gigabit Ethernet Routed Packet
Count updates. The count during this time is defined as one sample.
This time applies to packet counts contained in
apexGbeStatusRoutedPacketTable.
To compute rate from packet count for the last update interval:
Rate(bps) = (Packet_Count * 188 bytes/packet * 8 bits/byte) / Update_Interval
This value is set by the APEX at startup and is constant.
"
::= { apexGbeStatusGeneral 4 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusTable
--
apexGbeStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of status parameters for the
Gigabit Ethernet Interface."
::= { apexGbeStatus 2 }
apexGbeStatusEntry OBJECT-TYPE
SYNTAX ApexGbeStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Status Table Entry."
INDEX { apexGbeStatusGbeInterfaceNum }
::= { apexGbeStatusTable 1 }
ApexGbeStatusEntry ::= SEQUENCE
{
apexGbeStatusGbeInterfaceNum Integer32,
apexGbeStatusMacAddr DisplayString,
apexGbeStatusLinkActive ActiveTYPE,
apexGbeStatusIgmpVersion INTEGER,
apexGbeStatusLossOfPhysicalInput INTEGER
}
apexGbeStatusGbeInterfaceNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Number."
::= { apexGbeStatusEntry 1 }
apexGbeStatusMacAddr OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..17))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the MAC address of the Gigabit Ethernet Interface.
It is set at the factory and cannot be changed.
The string length is 17 characters in the format
'hh:hh:hh:hh:hh:hh' where 'hh' is a hexadecimal number."
::= { apexGbeStatusEntry 2 }
apexGbeStatusLinkActive OBJECT-TYPE
SYNTAX ActiveTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This indicates if the Gigabit Ethernet optical link is active."
::= { apexGbeStatusEntry 3 }
apexGbeStatusIgmpVersion OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
igmpV1 (1),
igmpV2 (2),
igmpV3 (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This indicates the IGMP Version being used on this interface."
::= { apexGbeStatusEntry 4 }
apexGbeStatusLossOfPhysicalInput OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current severity of apexAlarmGbeLossOfPhysicalInput
for this interface.
"
::= { apexGbeStatusEntry 5 }
-- ------------------------------------------------------------------------------
--
-- apexGbeInputTsAssignedTable
--
apexGbeInputTsAssignedTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeInputTsAssignedEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Input TS Assigned data."
::= { apexGbeStatus 3 }
apexGbeInputTsAssignedEntry OBJECT-TYPE
SYNTAX ApexGbeInputTsAssignedEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Input TS Assigned Table Entry."
INDEX { apexGbeInputTsAssignedGbeInterfaceNum }
::= { apexGbeInputTsAssignedTable 1 }
ApexGbeInputTsAssignedEntry ::= SEQUENCE
{
apexGbeInputTsAssignedGbeInterfaceNum Integer32,
apexGbeInputTsAssignedCount Counter32
}
apexGbeInputTsAssignedGbeInterfaceNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Gigabit Ethernet Input TS Assigned Table.
Represents the Gigabit Ethernet interface number."
::= { apexGbeInputTsAssignedEntry 1 }
apexGbeInputTsAssignedCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of input transport streams assigned to the GigE interface."
::= { apexGbeInputTsAssignedEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexGbeOpenInputUdpPortTable
--
apexGbeOpenInputUdpPortTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeOpenInputUdpPortEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Input Open UDP Port data."
::= { apexGbeStatus 4 }
apexGbeOpenInputUdpPortEntry OBJECT-TYPE
SYNTAX ApexGbeOpenInputUdpPortEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Input Open UDP Port Table Entry."
INDEX { apexGbeOpenInputUdpPortGbeInterfaceNum }
::= { apexGbeOpenInputUdpPortTable 1 }
ApexGbeOpenInputUdpPortEntry ::= SEQUENCE
{
apexGbeOpenInputUdpPortGbeInterfaceNum Integer32,
apexGbeOpenInputUdpPortCount Counter32
}
apexGbeOpenInputUdpPortGbeInterfaceNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Gigabit Ethernet Input Open UDP Port Table.
Represents the Gigabit Ethernet interface number."
::= { apexGbeOpenInputUdpPortEntry 1 }
apexGbeOpenInputUdpPortCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of open Input UDP Ports on the GigE interface."
::= { apexGbeOpenInputUdpPortEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusRoutedPacketTable
--
apexGbeStatusRoutedPacketTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeStatusRoutedPacketEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table contains Gigabit Ethernet MPEG packet counts for
each Output Transport Stream of this APEX.
Update interval is apexGbeRoutedPacketUpdateInterval."
::= { apexGbeStatus 5 }
apexGbeStatusRoutedPacketEntry OBJECT-TYPE
SYNTAX ApexGbeStatusRoutedPacketEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Status Routed Packet
Table Entry."
INDEX { apexGbeStatusRoutedPacketOutputTsNum }
::= { apexGbeStatusRoutedPacketTable 1 }
ApexGbeStatusRoutedPacketEntry ::= SEQUENCE
{
apexGbeStatusRoutedPacketOutputTsNum Integer32,
apexGbeStatusTotRoutedPackets Counter32,
apexGbeStatusNumRoutedPackets Counter32
}
apexGbeStatusRoutedPacketOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Gigabit Ethernet Routed Packet
Status Table. Represents Output Transport Stream
number."
::= { apexGbeStatusRoutedPacketEntry 1 }
apexGbeStatusTotRoutedPackets OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of Gigabit Ethernet MPEG packets routed to this
Output Transport Stream."
::= { apexGbeStatusRoutedPacketEntry 2 }
apexGbeStatusNumRoutedPackets OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of Gigabit Ethernet MPEG packets routed to this Output
Transport Stream during the last monitoring period
(apexGbeRoutedPacketUpdateInterval)."
::= { apexGbeStatusRoutedPacketEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusFrameCounter
--
-- apexGbeStatusFrameCounterGeneral
--
apexGbeStatusFrameCounterTableResetAll OBJECT-TYPE
SYNTAX ResetStatisticsTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Reset Ethernet Frame Counter Totals for all GigE interfaces:
- apexGbeTotalRxSinglecastFrames
- apexGbeTotalRxMulticastFrames
- apexGbeTotalRxBroadcastFrames
- apexGbeTotalRxErrorFrames
- apexGbeTotalRxFrames
- apexGbeTotalTxGoodFrames
- apexGbeTotalTxErrorFrames
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexGbeStatusFrameCounterGeneral 1 }
apexGbeFrameCounterUpdateInterval OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in seconds between Gigabit Ethernet Frame Counter
updates. The count during this time is defined as one sample.
This time applies to packet counts contained in
apexGbeStatusFrameCounterTable.
To compute rate from frame count for the last update interval:
Rate(bps) = (Frame_Count * 7 packets/frame 188 bytes/packet * 8 bits/byte)
/ Update_Interval
This value is set by the APEX at startup and is constant.
"
::= { apexGbeStatusFrameCounterGeneral 2 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusFrameCounterTable
--
apexGbeStatusFrameCounterTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeStatusFrameCounterEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Frame Counter Statistics."
::= { apexGbeStatusFrameCounter 2 }
apexGbeStatusFrameCounterEntry OBJECT-TYPE
SYNTAX ApexGbeStatusFrameCounterEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Frame Counter Table Entry."
INDEX { apexGbeFrameCounterGbeInterfaceNum }
::= { apexGbeStatusFrameCounterTable 1 }
ApexGbeStatusFrameCounterEntry ::= SEQUENCE
{
apexGbeFrameCounterGbeInterfaceNum Integer32,
apexGbeFrameCounterReset ResetStatisticsTYPE,
apexGbeTotalRxSinglecastFrames Counter32,
apexGbeTotalRxMulticastFrames Counter32,
apexGbeTotalRxBroadcastFrames Counter32,
apexGbeTotalRxErrorFrames Counter32,
apexGbeTotalRxFrames Counter32,
apexGbeRxSinglecastFrames Counter32,
apexGbeRxMulticastFrames Counter32,
apexGbeRxBroadcastFrames Counter32,
apexGbeRxErrorFrames Counter32,
apexGbeRxFrames Counter32,
apexGbeTotalTxGoodFrames Counter32,
apexGbeTotalTxErrorFrames Counter32,
apexGbeTxGoodFrames Counter32,
apexGbeTxErrorFrames Counter32,
apexGbeRxDocsisFrames Counter32,
apexGbeRxMpegDocsisFrames Counter32,
apexGbeTotalRxDocsisFrames Counter32,
apexGbeIpFragmentedPkts Counter32,
apexGbeTotalIpFragmentedPkts Counter32
}
apexGbeFrameCounterGbeInterfaceNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Gigabit Ethernet Frame Counter Table.
Represents the Gigabit Ethernet interface number."
::= { apexGbeStatusFrameCounterEntry 1 }
apexGbeFrameCounterReset OBJECT-TYPE
SYNTAX ResetStatisticsTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Reset Ethernet Frame Counter Statistics totals for a single GigE interface:
- apexGbeTotalRxSinglecastFrames
- apexGbeTotalRxMulticastFrames
- apexGbeTotalRxBroadcastFrames
- apexGbeTotalRxErrorFrames
- apexGbeTotalRxFrames
- apexGbeTotalTxGoodFrames
- apexGbeTotalTxErrorFrames
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexGbeStatusFrameCounterEntry 2 }
apexGbeTotalRxSinglecastFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of singlecast Ethernet frames received since last reset.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 3 }
apexGbeTotalRxMulticastFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of multicast Ethernet frames received since last reset.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 4 }
apexGbeTotalRxBroadcastFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of broadcast Ethernet frames received since last reset.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 5 }
apexGbeTotalRxErrorFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of bad Ethernet frames received since last reset.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 6 }
apexGbeTotalRxFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of Ethernet frames received since last reset.
This is the sum of apexGbeTotalRxSinglecastFrames, apexGbeTotalRxMulticastFrames,
apexGbeTotalRxBroadcastFrames, and apexGbeTotalRxErrorFrames.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 7 }
apexGbeRxSinglecastFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of singlecast Ethernet frames received during last
status checking interval.
Status checking interval is apexGbeFrameCounterUpdateInterval."
::= { apexGbeStatusFrameCounterEntry 8 }
apexGbeRxMulticastFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of multicast Ethernet frames received during
last status checking interval.
Status checking interval is apexGbeFrameCounterUpdateInterval."
::= { apexGbeStatusFrameCounterEntry 9 }
apexGbeRxBroadcastFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of broadcast Ethernet frames received during last status
checking interval.
Status checking interval is apexGbeFrameCounterUpdateInterval."
::= { apexGbeStatusFrameCounterEntry 10 }
apexGbeRxErrorFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of bad Ethernet frames received during
last status checking interval.
Status checking interval is apexGbeFrameCounterUpdateInterval."
::= { apexGbeStatusFrameCounterEntry 11 }
apexGbeRxFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of Ethernet frames received during last
status checking interval.
This is the sum of apexGbeRxSinglecastFrames, apexGbeRxMulticastFrames,
apexGbeRxBroadcastFrames, and apexGbeRxErrorFrames.
Status checking interval is five seconds."
::= { apexGbeStatusFrameCounterEntry 12 }
apexGbeTotalTxGoodFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of good Ethernet frames (singlecast, multicast, and broadcast)
transmitted since last reset.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 13 }
apexGbeTotalTxErrorFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of bad Ethernet frames transmitted since last reset.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 14 }
apexGbeTxGoodFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of good Ethernet frames (singlecast, multicast, and broadcast)
transmitted during last status checking interval.
Status checking interval is five seconds."
::= { apexGbeStatusFrameCounterEntry 15 }
apexGbeTxErrorFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of bad Ethernet frames transmitted during last
status checking interval.
Status checking interval is five seconds."
::= { apexGbeStatusFrameCounterEntry 16 }
apexGbeRxDocsisFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of good Ethernet frames containing DOCSIS (singlecast, multicast, and broadcast)
received during last status checking interval.
Status checking interval is five seconds."
::= { apexGbeStatusFrameCounterEntry 17 }
apexGbeTotalRxDocsisFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of good Ethernet frames containing DOCSIS(singlecast, multicast, and broadcast)
received since last reset.
Reset using apexGbeStatusFrameCounterTableResetAll or apexGbeFrameCounterReset."
::= { apexGbeStatusFrameCounterEntry 18 }
apexGbeRxMpegDocsisFrames OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of MPEG packets generated from DOCSIS data (singlecast, multicast, and broadcast)
received during last status checking interval.
Status checking interval is five seconds."
::= { apexGbeStatusFrameCounterEntry 19 }
apexGbeIpFragmentedPkts OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of IP fragmented packets received during last status checking interval.
Status checking interval is five seconds."
::= { apexGbeStatusFrameCounterEntry 20 }
apexGbeTotalIpFragmentedPkts OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of IP fragmented packets received during last status checking interval.
Status checking interval is five seconds."
::= { apexGbeStatusFrameCounterEntry 21 }
-- ------------------------------------------------------------------------------
--
-- apexGbeFrameBufferStats
--
-- apexGbeFrameBufferStatsGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexGbeFrameBufferStatsTable
--
apexGbeFrameBufferStatsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeFrameBufferStatsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Frame Buffer Statistics for each GBE processor."
::= { apexGbeFrameBufferStats 2 }
apexGbeFrameBufferStatsEntry OBJECT-TYPE
SYNTAX ApexGbeFrameBufferStatsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Frame Buffer Statistics Table Entry."
INDEX { apexGbeFrameBufferProcessorNum }
::= { apexGbeFrameBufferStatsTable 1 }
ApexGbeFrameBufferStatsEntry ::= SEQUENCE
{
apexGbeFrameBufferProcessorNum Integer32,
apexGbeFrameBufferResetLevelLimit Integer32,
apexGbeFrameBufferCurrMsLevel Integer32,
apexGbeFrameBufferCurrPercentFull Integer32,
apexGbeFrameBufferUnderflowLevel Integer32,
apexGbeFrameBufferOverflowLevel Integer32,
apexGbeFrameBufferAlarmStatus INTEGER
}
apexGbeFrameBufferProcessorNum OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of the Gigabit Ethernet Buffer Statistics Table.
Gigabit Ethernet Processor Number.
Proc 1 = GBE Interfaces 1 and 2
Proc 2 = GBE Interfaces 3 and 4
"
::= { apexGbeFrameBufferStatsEntry 1 }
apexGbeFrameBufferResetLevelLimit OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The point at which the GigE frame buffer will be reset, in milliseconds.
This value is equal to (maximum buffer depth - 5). The maximum buffer
depth is calculated based on the expected input data rate
(apexGbeConfigFrameBufferMaxInDataRate)."
::= { apexGbeFrameBufferStatsEntry 2 }
apexGbeFrameBufferCurrMsLevel OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current highest Gigabit Ethernet Frame Buffer level in milliseconds."
::= { apexGbeFrameBufferStatsEntry 3 }
apexGbeFrameBufferCurrPercentFull OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current highest Gigabit Ethernet Frame Buffer fullness as a percentage of
the buffer depth available for a given aggregate rate. This percentage is
calculated using the current buffer level (apexGbeFrameBufferCurrMsLevel) and
the actual input data rate."
::= { apexGbeFrameBufferStatsEntry 4 }
apexGbeFrameBufferUnderflowLevel OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The point at which the GigE frame buffer will underflow, in milliseconds.
This value is calculated based on the sum of the number of received frames per second
for all interfaces."
::= { apexGbeFrameBufferStatsEntry 5 }
apexGbeFrameBufferOverflowLevel OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The point at which the GigE frame buffer will overflow, in milliseconds.
This value is calculated based on the sum of the number of received frames per second
for all interfaces."
::= { apexGbeFrameBufferStatsEntry 6 }
apexGbeFrameBufferAlarmStatus OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current highest severity of apexAlarmGbeBufferFullness for the
GBE Processor.
"
::= { apexGbeFrameBufferStatsEntry 7 }
-- ------------------------------------------------------------------------------
--
-- apexGbeFrameBufferHourlyTable
--
apexGbeFrameBufferHourlyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeFrameBufferHourlyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Frame Buffer Statistics. There can be up
to 24 entries in the table for each GBE Processor. Each entry represents
one hour. The newest entry is placed at the beginning of the table and,
if necessary, the oldest entry is pushed off the end of the table. The
table will not be full until 24 hours have passed."
::= { apexGbeFrameBufferStats 3 }
apexGbeFrameBufferHourlyEntry OBJECT-TYPE
SYNTAX ApexGbeFrameBufferHourlyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Frame Buffer Table Entry."
INDEX { apexGbeFrameBufferHourlyProcessorNum, apexGbeFrameBufferHourlyIndex }
::= { apexGbeFrameBufferHourlyTable 1 }
ApexGbeFrameBufferHourlyEntry ::= SEQUENCE
{
apexGbeFrameBufferHourlyProcessorNum Integer32,
apexGbeFrameBufferHourlyIndex Integer32,
apexGbeFrameBufferHourlyInInterface Integer32,
apexGbeFrameBufferHourlyInUdp Integer32,
apexGbeFrameBufferHourlyInMulticastIp IpAddress,
apexGbeFrameBufferHourlyInSourceIp IpAddress,
apexGbeFrameBufferHourlyMaxMsLevel Integer32,
apexGbeFrameBufferHourlyMaxPercentFull Integer32,
apexGbeFrameBufferHourlyGpsTime Integer32,
apexGbeFrameBufferHourlyOverflows Integer32,
apexGbeFrameBufferHourlyResets Integer32
}
apexGbeFrameBufferHourlyProcessorNum OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"First index of the Gigabit Ethernet Buffer Status Table.
Gigabit Ethernet Processor Number.
Proc 1 = GBE Interfaces 1 and 2
Proc 2 = GBE Interfaces 3 and 4
"
::= { apexGbeFrameBufferHourlyEntry 1 }
apexGbeFrameBufferHourlyIndex OBJECT-TYPE
SYNTAX Integer32(1..24)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Second index of the Gigabit Ethernet Buffer Status Table.
Each index represents one hour. There can be up to 24 entries in the table.
The most recent entry is always at the beginning of the table."
::= { apexGbeFrameBufferHourlyEntry 2 }
apexGbeFrameBufferHourlyInInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of the input interface for the Gigabit Ethernet
interface that experienced the highest buffer level for the hour.
"
::= { apexGbeFrameBufferHourlyEntry 3 }
apexGbeFrameBufferHourlyInUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input UDP Port for the Gigabit Ethernet
interface that experienced the highest buffer level for the hour.
"
::= { apexGbeFrameBufferHourlyEntry 4 }
apexGbeFrameBufferHourlyInMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input Multicast IP address for the Gigabit Ethernet
interface that experienced the highest buffer level for the hour.
"
::= { apexGbeFrameBufferHourlyEntry 5 }
apexGbeFrameBufferHourlyInSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input IGMP v3 Source IP for the Gigabit Ethernet
interface that experienced the highest buffer level for the hour.
"
::= { apexGbeFrameBufferHourlyEntry 6 }
apexGbeFrameBufferHourlyMaxMsLevel OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The maximum Gigabit Ethernet frame buffer level (in milliseconds)
recorded for the hour."
::= { apexGbeFrameBufferHourlyEntry 7 }
apexGbeFrameBufferHourlyMaxPercentFull OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The maximum Gigabit Ethernet frame buffer level percentage recorded
for the hour."
::= { apexGbeFrameBufferHourlyEntry 8 }
apexGbeFrameBufferHourlyGpsTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The GPS time when the maximum Gigabit Ethernet frame buffer level
was reached."
::= { apexGbeFrameBufferHourlyEntry 9 }
apexGbeFrameBufferHourlyOverflows OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of overflows recorded on Gigabit Ethernet interface
for the hour."
::= { apexGbeFrameBufferHourlyEntry 10 }
apexGbeFrameBufferHourlyResets OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of resets reported by the GigE processor during the hour."
::= { apexGbeFrameBufferHourlyEntry 11 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusInputTransportStream
--
-- apexGbeStatusInputTsGeneral
--
apexGbeStatusInputTsUpdateInterval OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in seconds between Gigabit Ethernet Input Transport Stream Packet
Count updates. The count during this time is defined as one sample.
This time applies to packet counts contained in
apexGbeStatusInputTsTable.
To compute rate from packet count for the last update interval:
Rate(bps) = (Packet_Count * 188 bytes/packet * 8 bits/byte) / Update_Interval
This value is set by the APEX at startup and is constant.
"
::= { apexGbeStatusInputTsGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusInputTsTable
--
apexGbeStatusInputTsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeStatusInputTsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Input Transport Stream status.
A row in this table corresponds to the same index row in
apexInputTsStatTable and apexGbeStatusInputTsErrorTable.
Packet Counts are updated every apexGbeStatusInputTsUpdateInterval.
The count during a apexGbeStatusInputTsUpdateInterval is a sample.
The samples are accumulated into a set of rolling statistics that cover
a maximum of a 15 minute sampling time period. The sampling period is
the amount of time over which the data in the corresponding row has been
collected. When the sampling period reaches 15 minutes, old data is
removed from the accumulated statistics and new data is rolled in. In
this way, the average, minimum, and peak rates for the sampling period
are maintained.
"
::= { apexGbeStatusInputTransportStream 2 }
apexGbeStatusInputTsEntry OBJECT-TYPE
SYNTAX ApexGbeStatusInputTsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Transport Stream Status Table Entry."
INDEX { apexGbeStatInTsInputTsNum }
::= { apexGbeStatusInputTsTable 1 }
ApexGbeStatusInputTsEntry ::= SEQUENCE
{
apexGbeStatInTsInputTsNum Integer32,
apexGbeStatInTsSamplingPeriod Integer32,
apexGbeStatInTsPriCurDataCount Counter32,
apexGbeStatInTsPriAvgDataCount Counter32,
apexGbeStatInTsPriMinDataCount Counter32,
apexGbeStatInTsPriPeakDataCount Counter32,
apexGbeStatInTsPriCurStreamCount Counter32,
apexGbeStatInTsPriAvgStreamCount Counter32,
apexGbeStatInTsPriMinStreamCount Counter32,
apexGbeStatInTsPriPeakStreamCount Counter32,
apexGbeStatInTsSecCurDataCount Counter32,
apexGbeStatInTsSecAvgDataCount Counter32,
apexGbeStatInTsSecMinDataCount Counter32,
apexGbeStatInTsSecPeakDataCount Counter32,
apexGbeStatInTsSecCurStreamCount Counter32,
apexGbeStatInTsSecAvgStreamCount Counter32,
apexGbeStatInTsSecMinStreamCount Counter32,
apexGbeStatInTsSecPeakStreamCount Counter32,
apexGbeStatInTsTotPacketDropCount Counter32,
apexGbeStatInTsCurPacketDropCount Counter32
}
apexGbeStatInTsInputTsNum OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Gigabit Ethernet Input Transport Stream Status table index.
A row in this table corresponds to the same index row in
apexInputTsStatTable and apexGbeStatusInputTsErrorTable.
"
::= { apexGbeStatusInputTsEntry 1 }
apexGbeStatInTsSamplingPeriod OBJECT-TYPE
SYNTAX Integer32(0..900)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The total time, in seconds, over which the packet counts statistics
in this row have been collected.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 2 }
apexGbeStatInTsPriCurDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Data Packet Count of the most recent sample for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 3 }
apexGbeStatInTsPriAvgDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Average Data Packet Count per sample during
apexGbeStatInTsSamplingPeriod for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 4 }
apexGbeStatInTsPriMinDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Minimum Data Packet Count sample during
apexGbeStatInTsSamplingPeriod for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 5 }
apexGbeStatInTsPriPeakDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Peak Data Packet Count sample during
apexGbeStatInTsSamplingPeriod for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 6 }
apexGbeStatInTsPriCurStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Transport Stream Packet Count of the most recent sample for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 7 }
apexGbeStatInTsPriAvgStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Average Transport Stream Packet Count per sample during
apexGbeStatInTsSamplingPeriod for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 8 }
apexGbeStatInTsPriMinStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Minimum Transport Stream Packet Count sample during
apexGbeStatInTsSamplingPeriod for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 9 }
apexGbeStatInTsPriPeakStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Peak Transport Stream Packet Count sample during
apexGbeStatInTsSamplingPeriod for the primary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 10 }
apexGbeStatInTsSecCurDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Data Packet Count of the most recent sample for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 11 }
apexGbeStatInTsSecAvgDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Average Data Packet Count per sample during
apexGbeStatInTsSamplingPeriod for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 12 }
apexGbeStatInTsSecMinDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Minimum Data Packet Count sample during
apexGbeStatInTsSamplingPeriod for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 13 }
apexGbeStatInTsSecPeakDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Peak Data Packet Count sample during
apexGbeStatInTsSamplingPeriod for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 14 }
apexGbeStatInTsSecCurStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Transport Stream Packet Count of the most recent sample for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 15 }
apexGbeStatInTsSecAvgStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Average Transport Stream Packet Count per sample during
apexGbeStatInTsSamplingPeriod for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 16 }
apexGbeStatInTsSecMinStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Minimum Transport Stream Packet Count sample during
apexGbeStatInTsSamplingPeriod for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 17 }
apexGbeStatInTsSecPeakStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Peak Transport Stream Packet Count sample during
apexGbeStatInTsSamplingPeriod for the secondary.
Refer to the description of apexGbeStatusInputTsTable for an
explanation of packet counting. Refer to the description of
apexGbeStatusInputTsUpdateInterval for an explanation of update
interval and computing rates.
"
::= { apexGbeStatusInputTsEntry 18 }
apexGbeStatInTsTotPacketDropCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The total number of dropped packets for the Input Transport Stream.
Clear using apexGbeStatusInputTsDropCounterClearAll.
"
::= { apexGbeStatusInputTsEntry 19 }
apexGbeStatInTsCurPacketDropCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of packets dropped for the Input Transport Stream in
the last five (5) seconds.
"
::= { apexGbeStatusInputTsEntry 20 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusInputTsErrorTable
--
apexGbeStatusInputTsErrorTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeStatusInputTsErrorEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Input Transport Stream Error status.
A row in this table corresponds to the same index row in
apexInputTsStatTable and apexGbeStatusInputTsTable.
"
::= { apexGbeStatusInputTransportStream 3 }
apexGbeStatusInputTsErrorEntry OBJECT-TYPE
SYNTAX ApexGbeStatusInputTsErrorEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Transport Stream Status Table Entry."
INDEX { apexGbeStatInTsErrorInputTsNum }
::= { apexGbeStatusInputTsErrorTable 1 }
ApexGbeStatusInputTsErrorEntry ::= SEQUENCE
{
apexGbeStatInTsErrorInputTsNum Integer32,
apexGbeStatInTsPriErrorSummary INTEGER,
apexGbeStatInTsPriLowBitRateError INTEGER,
apexGbeStatInTsPriHighBitRateError INTEGER,
apexGbeStatInTsMptsRedundPriError INTEGER,
apexGbeStatInTsMptsRedundFailError INTEGER,
apexGbeStatInTsSecErrorSummary INTEGER,
apexGbeStatInTsSecLowBitRateError INTEGER,
apexGbeStatInTsSecHighBitRateError INTEGER,
apexGbeStatInTsPriLossInputError INTEGER,
apexGbeStatInTsSecLossInputError INTEGER,
apexGbeStatInTsPacketDropError INTEGER
}
apexGbeStatInTsErrorInputTsNum OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Gigabit Ethernet Input Transport Stream Error Status table index.
A row in this table corresponds to the same index row in
apexInputTsStatTable and apexGbeStatusInputTsTable.
"
::= { apexGbeStatusInputTsErrorEntry 1 }
apexGbeStatInTsPriErrorSummary OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current highest error of the following errors for the primary
input transport stream:
apexGbeStatInTsPriLowBitRateError
apexGbeStatInTsPriHighBitRateError
apexGbeStatInTsMptsRedundPriError
apexGbeStatInTsMptsRedundFailError
apexGbeStatInTsPriLossInputError
apexGbeStatInTsPriPacketDropError
"
::= { apexGbeStatusInputTsErrorEntry 2 }
apexGbeStatInTsPriLowBitRateError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current low bit rate state for the primary input stream.
Ok indicates no errors or not checking low bit rate. Error indicates
primary input stream is below the low bit rate specified.
"
::= { apexGbeStatusInputTsErrorEntry 3 }
apexGbeStatInTsPriHighBitRateError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current high bit rate state for the primary input stream.
Ok indicates no errors or not checking high bit rate. Error indicates
primary input stream is above the high bit rate specified.
"
::= { apexGbeStatusInputTsErrorEntry 4 }
apexGbeStatInTsMptsRedundPriError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current redundant threshold state for the primary input stream.
Ok indicates no errors or input stream is not part of a redundant pair.
Error indicates primary input stream is below the threshold level specified.
"
::= { apexGbeStatusInputTsErrorEntry 5 }
apexGbeStatInTsMptsRedundFailError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current fail over state for a redundancy pair.
Ok indicates no errors or input stream is not part of a redundant pair.
Error indicates primary input stream is no longer in use and the APEX
has fallen over to use the secondary input stream.
"
::= { apexGbeStatusInputTsErrorEntry 6 }
apexGbeStatInTsSecErrorSummary OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current highest error state of the following for the secondary
input transport stream:
apexGbeStatInTsSecLowBitRateError
apexGbeStatInTsSecHighBitRateError
apexGbeStatInTsSecLossInputError
"
::= { apexGbeStatusInputTsErrorEntry 7 }
apexGbeStatInTsSecLowBitRateError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current low bit rate state for the secondary input stream.
Ok indicates no errors or not checking low bit rate. Error indicates
secondary input stream is below the low bit rate specified.
"
::= { apexGbeStatusInputTsErrorEntry 8 }
apexGbeStatInTsSecHighBitRateError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current high bit rate state for the secondary input stream.
Ok indicates no errors or not checking high bit rate. Error indicates
secondary input stream is above the high bit rate specified.
"
::= { apexGbeStatusInputTsErrorEntry 9 }
apexGbeStatInTsPriLossInputError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current loss of input stream state for the primary input stream.
Ok indicates no errors or not checking for loss of input stream.
Error indicates primary input stream is missing.
"
::= { apexGbeStatusInputTsErrorEntry 10 }
apexGbeStatInTsSecLossInputError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current loss of input stream state for the secondary input stream.
Ok indicates no errors or not checking for loss of input stream.
Error indicates secondary input stream is missing.
"
::= { apexGbeStatusInputTsErrorEntry 11 }
apexGbeStatInTsPacketDropError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current packet drop state for the active input stream.
Ok indicates no errors or not checking for packet drops.
Error indicates there are packet drops on the active input stream.
"
::= { apexGbeStatusInputTsErrorEntry 12 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusInterfaceRedund
--
-- apexGbeStatusInterfaceRedundTable
--
apexGbeStatusInterfaceRedundTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeStatusInterfaceRedundEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of status parameters for GbE Interface
Redundancy."
::= { apexGbeStatusInterfaceRedund 1 }
apexGbeStatusInterfaceRedundEntry OBJECT-TYPE
SYNTAX ApexGbeStatusInterfaceRedundEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"GbE Interface Redundancy Status Table Entry."
INDEX { apexGbeStatusInterfaceRedundIndex }
::= { apexGbeStatusInterfaceRedundTable 1 }
ApexGbeStatusInterfaceRedundEntry ::= SEQUENCE
{
apexGbeStatusInterfaceRedundIndex Integer32,
apexGbeStatusInterfaceRedundActiveIf Integer32,
apexGbeStatusInterfaceRedundInvalidApplyText DisplayString,
apexGbeStatusInterfaceRedundFaultCondition INTEGER
}
apexGbeStatusInterfaceRedundIndex OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"GbE Interface Pair number. Value of 1 is GbE1 and GbE2 pair.
Value of 2 is GbE3 and GbE4 pair."
::= { apexGbeStatusInterfaceRedundEntry 1 }
apexGbeStatusInterfaceRedundActiveIf OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current active interface for the redundant pair. This is only
applicable if GbE Interface Redundancy is enabled for the pair. If
GbE Interface Redundancy is not enabled it will be set to zero.
"
::= { apexGbeStatusInterfaceRedundEntry 2 }
apexGbeStatusInterfaceRedundInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexGbeConfIfRedundApplyChange is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply of an
entry that was invalid."
::= { apexGbeStatusInterfaceRedundEntry 3 }
apexGbeStatusInterfaceRedundFaultCondition OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of the GbE Interface pair.
Reflects apexAlarmGbeInterfaceRedundFailOver for this redundant pair.
"
::= { apexGbeStatusInterfaceRedundEntry 4 }
-- ------------------------------------------------------------------------------
--
-- apexGbeStatusInputTsDropCounter
--
-- apexGbeStatusInputTsDropCounterGeneral
--
apexGbeStatusInputTsDropCounterClearAll OBJECT-TYPE
SYNTAX ClearCountersTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Clear dropped packet counts for all Input Streams:
- apexGbeStatInTsTotPacketDropCount
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexGbeStatusInputTsDropCounterGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexGbeSfp
--
-- apexGbeSfpConfig
--
-- apexGbeSfpConfigGeneral
--
apexGbeSfpUpdateStatus OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
updateNotInProgress (1),
update (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When set to 'update' the APEX will update the apexGbeSfpStatusTable
by performing an one-time read of SFP memory.
APEX sets back to 'updateNotInProgress' when complete.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexGbeSfpConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexGbeSfpStatus
--
-- apexGbeSfpStatusTable
--
apexGbeSfpStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeSfpStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of SFP status parameters.
Indexed by Gigabit Ethernet Interface Number.
"
::= { apexGbeSfpStatus 2 }
apexGbeSfpStatusEntry OBJECT-TYPE
SYNTAX ApexGbeSfpStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"SFP status table entry."
INDEX { apexGbeSfpStatusGbeIfNum }
::= { apexGbeSfpStatusTable 1 }
ApexGbeSfpStatusEntry ::= SEQUENCE
{
apexGbeSfpStatusGbeIfNum Integer32,
apexGbeSfpStatusVendorId DisplayString,
apexGbeSfpStatusDiagInfo DisplayString
}
apexGbeSfpStatusGbeIfNum OBJECT-TYPE
SYNTAX Integer32 (1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Number."
::= { apexGbeSfpStatusEntry 1 }
apexGbeSfpStatusVendorId OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"ASCII format of bytes 0-127 from SFP-MSA ID Memory Map address A0h.
Zero-length indicates that no SFP module is installed.
"
::= { apexGbeSfpStatusEntry 2 }
apexGbeSfpStatusDiagInfo OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"ASCII format of bytes 96-127 from SFP Diagnostic Memory address A2h.
Zero-length indicates that diagnostic information is not available.
"
::= { apexGbeSfpStatusEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexQam
--
-- apexQamConfig
--
-- apexQamConfigGeneral
--
apexQamConfigTransmissionMode OBJECT-TYPE
SYNTAX INTEGER
{
annexB-ATSC-DCII (1),
annexA-DVB (2),
annexC-Asia-Pacific (3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the QAM Transmission Mode as defined in:
Series J: Transmission of Television, Sound Programme
and other Multimedia Signals, ITU-T J.83.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexQamModuleUpgrade
--
apexQamModuleUpgradeSlot OBJECT-TYPE
SYNTAX Integer32(0..3)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the QAM slot number of the QAM Module that is being upgraded
from a 2x4 channel module to a 2x8 channel module.
Zero indicates no slot selected.
Once written, the change to this table will only take immediate
effect after apexQamModuleUpgradeApplyChange is set to 'apply'.
@Config(config=no, reboot=no)
@Commit(param=apexQamModuleUpgradeApplyChange, value=2)
"
::= { apexQamModuleUpgrade 1 }
apexQamModuleUpgradeCode OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..48))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the encrypted upgrade code for the QAM Module that is
being upgraded from a 2x4 channel module to a 2x8 channel module.
The Upgrade Code is specific to a QAM Module and can only be used
for the QAM Module with the serial number for which the Upgrade
Code was created.
Once written, the change to this parameter will only take immediate
effect after the corresponding apexQamModuleUpgradeApplyChange
is set to 'apply'.
This parameter is cleared by the APEX after the apply is complete.
@Config(config=no, reboot=no)
@Commit(param=apexQamModuleUpgradeApplyChange, value=2)
"
::= { apexQamModuleUpgrade 2 }
apexQamModuleUpgradeApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the Apply for QAM Module Upgrade Slot and Code.
This parameter MUST be set to 'apply' in order for
apexQamModuleUpgradeSlot and apexQamModuleUpgradeCode to
take effect. This parameter MUST be set LAST after
apexQamModuleUpgradeSlot and apexQamModuleUpgradeCode has
been configured.
The APEX will set this to applyNotInProgressInvalidData if
the Upgrade Code is incorrect and the QAM Module is not
upgraded.
@Config(config=no, reboot=no)
"
::= { apexQamModuleUpgrade 3 }
-- ------------------------------------------------------------------------------
--
-- apexQamConfigApplyTable
--
apexQamConfigApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for apexQamRfConfigTable.
"
::= { apexQamConfig 3 }
apexQamConfigApplyEntry OBJECT-TYPE
SYNTAX ApexQamConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Configuration Apply Table Entry."
INDEX { apexQamConfigApplyRfPortNum }
::= { apexQamConfigApplyTable 1 }
ApexQamConfigApplyEntry ::= SEQUENCE
{
apexQamConfigApplyRfPortNum Integer32,
apexQamConfigApplyChange ApplyDataToDeviceTYPE
}
apexQamConfigApplyRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM RF Port number.
Port 1,2,7,8 is Slot 1
Port 3,4,9,10 is Slot 2
Port 5,6,11,12 is Slot 3"
::= { apexQamConfigApplyEntry 1 }
apexQamConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for a row of data in apexQamRfConfigTable.
A row in this table corresponds to the same row index in the
apexQamRfConfigTable.
This parameter MUST be set to 'apply' in order for any of the data
in the rows to take effect in the APEX. This parameter MUST be set
LAST after all other data in the configuration table rows has been
configured.
@Config(config=no, reboot=no)
"
::= { apexQamConfigApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexQamRfConfigTable
--
apexQamRfConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamRfConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of configuration items configurable on a QAM RF Port basis.
There can be up to 12 RF Ports on an APEX1000 depending on how the 3
QAM slots are populated. There can be 2 or 4 RF Ports in each QAM slot.
The 2 RF Ports in a 2x8(2x4) QAM module (1,2) in a QAM slot are mapped
to table rows as follows:
Slot Rows (RF port)
1 1,2
2 3,4
3 5,6
If a QAM Module in a slot only has 2 RF ports, the first three rows
in this table for that slot are to be used. For example, if there
is a 2x4 or 2x8 module in slot 3, port 5 and 6 are to be used for
configuring the RF Ports of the module.
The 4 RF Ports in a 4x4 QAM module (1,2,7,8) in a QAM slot are mapped
to table rows as follows:
Slot Rows (RF port)
1 1,2,7,8
2 3,4,9,10
3 5,6,11,12
All entries/rows in this table are used for the 4x4 QAM Module with
any exceptions noted in the descriptions for the table entries.
All entries in this table have the same ranges for the 4x4 QAM Module
with any exceptions noted in the descriptions for the table entries.
Refer to the description of apexQamChannelConfigTable for information
on QAM Channel to RF Port mapping.
Tables apexQamRfPortChannelInfoTable and apexQamChannelIdTable can be
used to assist in referencing between QAM slots, RF Ports, and QAM
Channels (Output Transport Streams) for the installed modules.
Once written, the change to this table will only take immediate
effect after apexQamConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamConfig 4 }
apexQamRfConfigEntry OBJECT-TYPE
SYNTAX ApexQamRfConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM RF Port Configuration Table Entry."
INDEX { apexQamRfConfigRfPortNum }
::= { apexQamRfConfigTable 1 }
ApexQamRfConfigEntry ::= SEQUENCE
{
apexQamRfConfigRfPortNum Integer32,
apexQamRfConfigNumChannelsEnabled Integer32,
apexQamRfConfigModulationMode INTEGER,
apexQamRfConfigSymbolRate Integer32,
apexQamRfConfigSpectrumInvert INTEGER,
apexQamRfConfigTuningMode INTEGER,
apexQamRfConfigEiaFrequencyPlan INTEGER,
apexQamRfConfigEiaChanNumChannelA Integer32,
apexQamRfConfigRfCenterFreqChannelA Integer32,
apexQamRfConfigRfChanSpacing Integer32,
apexQamRfConfigRfLevelAttenuation Integer32,
apexQamRfConfigRfLevelLowThreshold Integer32,
apexQamRfConfigRfLevelHighThreshold Integer32,
apexQamRfConfigMute INTEGER,
apexQamRfConfigInterleaverDepth1 INTEGER,
apexQamRfConfigInterleaverDepth2 INTEGER
}
apexQamRfConfigRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM RF Port number."
::= { apexQamRfConfigEntry 1 }
apexQamRfConfigNumChannelsEnabled OBJECT-TYPE
SYNTAX Integer32(0..8)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The number of QAM Channels enabled on the RF Port.
APEX will not allow enabling of more channels than the installed
QAM Module will support. Note that when this parameter is
changed and applied there will be an interruption in service on
all active channels on this RF Port.
When QAM Transmission Mode is 'annexA-DVB', enabled channels is
also limited by the Channel Spacing such that the total bandwidth
of the RF must not exceed 48 MHz.
"
::= { apexQamRfConfigEntry 2 }
apexQamRfConfigModulationMode OBJECT-TYPE
SYNTAX INTEGER
{
qam64 (1),
qam256 (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The QAM Modulation mode for the QAM RF Port. This is the QAM
Modulation mode of all QAM Channels enabled on the RF Port.
For 4x4 QAM Modules: This parameter applies on an RF pair basis,
1-2 and 7-8. APEX1000 will use only odd table indices. Even index
of pair will be ignored and set to value for odd index of pair.
"
::= { apexQamRfConfigEntry 3 }
apexQamRfConfigSymbolRate OBJECT-TYPE
SYNTAX Integer32(800000..6980000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Symbol Rate Setting of the QAM Channels enabled on the RF Port.
It is in symbols per second (sps).
When QAM Transmission Mode is 'annexA-DVB' the range is 800,000 sps to
6,980,000 sps in 1000 sps steps.
When QAM Transmission Mode is 'annexC-Asia-Pacific' the range is
800,000 sps to 5,310,000 sps in 1000 sps steps.
The APEX will correct values not on a 1000 sps boundary so the user or
management system does not need to enforce the step size.
When QAM Transmission Mode is 'annexB-ATSC-DCII' this parameter is
not configurable and is set by the APEX based on QAM Modulation Mode.
For 4x4 QAM Modules: This parameter applies on an RF pair basis,
1-2 and 7-8. APEX1000 will use only odd table indices. Even index
of pair will be ignored and set to value for odd index of pair.
@Range(step=1000)
"
::= { apexQamRfConfigEntry 4 }
apexQamRfConfigSpectrumInvert OBJECT-TYPE
SYNTAX INTEGER
{
normal (1),
invert (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Spectrum Inversion Setting of the QAM Channels enabled
on the RF Port.
"
::= { apexQamRfConfigEntry 5 }
apexQamRfConfigTuningMode OBJECT-TYPE
SYNTAX INTEGER
{
frequency (1),
channel (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The tuning mode of the QAM Channels enabled on the RF Port.
'frequency' - The APEX tunes based on frequency as configured in
RF Center Frequency for QAM Channel A and channel
spacing as configured in RF Channel Spacing to
determine the frequency of the B - H channels.
'channel' - The APEX tunes based on channel as configured in
Channel Number for QAM Channel A using the selected
Frequency Plan. The APEX will set the B - H channels
to the next sequential channels. Applies only when
QAM Transmission Mode is 'annexB-ATSC-DCII'.
"
::= { apexQamRfConfigEntry 6 }
apexQamRfConfigEiaFrequencyPlan OBJECT-TYPE
SYNTAX INTEGER
{
std (1),
hrc (2),
irc (3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the frequency plan to use for tuning of the QAM Channels
enabled on the RF Port. Frequency plans are as per CEA Standard:
Cable Television Channel Identification Plan (CEA-542-B).
This parameter is valid only when QAM Transmission Mode is
'annexB-ATSC-DCII'.
'std' - Standard (STD) North American frequency plan.
'hrc' - Harmonic Related Carrier (HRC) frequency plan.
'irc' - Incremental Related Carrier (IRC) frequency plan.
"
::= { apexQamRfConfigEntry 7 }
apexQamRfConfigEiaChanNumChannelA OBJECT-TYPE
SYNTAX Integer32(0..158)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Channel Number for QAM Channel A. Range is 0 to 158, with valid
channels being 1 to 158 and 0 indicating 'not applicable'.
This parameter is valid only when QAM Transmission Mode is
'annexB-ATSC-DCII'.
This parameter is configurable only when Tuning Mode is 'channel'.
When Tuning Mode is 'channel', this is the Channel Number used to
determine the output frequency of QAM Channel A using the selected
Frequency Plan.
When Tuning Mode is 'frequency', this value is determined by the
APEX using the selected Frequency Plan. If there is no channel
number for the frequency, the value is set to zero.
This parameter is not configurable for Transmission Modes of
'annexA-DVB' or 'annexC-Asia-Pacific' and the value is set to zero
by the APEX.
Channel 1 is not defined in CEA Standard: Cable Television Channel
Identification Plan (CEA-542-B) for the Standard (STD) North American
frequency plan. Channel 1 cannot be selected when
apexQamRfConfigEiaFrequencyPlan is 'std'.
Channel 2 as defined in defined in CEA Standard: Cable Television
Channel Identification Plan (CEA-542-B) for the Harmonic Related
Carrier (HRC) frequency plan is below the APEX 57 MHz minimum
frequency. Channel 2 cannot be selected when
apexQamRfConfigEiaFrequencyPlan is 'hrc'.
For 4x4 QAM Modules: Channels with frequencies below 69 MHz may not
be available. This limitation is dependent upon the HW version
installed and number of channels enabled.
"
::= { apexQamRfConfigEntry 8 }
apexQamRfConfigRfCenterFreqChannelA OBJECT-TYPE
SYNTAX Integer32(57000000..999000000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The RF Center Frequency for QAM Channel A.
When QAM Transmission Mode is 'annexA-DVB' the range is 85,000,000 Hz
to 999,000,000 Hz in 250,000 Hz steps.
For 2x4/2x8 QAM Modules: When QAM Transmission Mode is 'annexB-ATSC-DCII'
or 'annexC-Asia-Pacific' the range is 57,000,000 Hz to 999,000,000 Hz in
250,000 Hz steps.
For 4x4 QAM Modules: When QAM Transmission Mode is 'annexB-ATSC-DCII'
or 'annexC-Asia-Pacific' the range may be limited to 69,000,000 Hz
to 999,000,000 Hz in 250,000 Hz steps. This limitation is dependent
upon the HW version installed and number of channels enabled.
The APEX will correct values not on a 250 kHz boundary so the user or
management system does not need to enforce the step size.
This parameter is configurable ONLY when Tuning Mode is 'frequency'.
When Tuning Mode is 'channel', the value is set by the APEX using the
selected Frequency Plan.
@Range(step=250000)
"
::= { apexQamRfConfigEntry 9 }
apexQamRfConfigRfChanSpacing OBJECT-TYPE
SYNTAX Integer32(1000000..8000000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Channel spacing for the QAM Channels enabled on the RF Port.
This value must be in Hz in the range 1,000,000 Hz to 8,000,000 Hz
in 500,000 Hz steps.
The APEX will correct values not on a 500,000 Hz boundary so the
user or management system does not need to enforce the step size.
For 2x4/2x8 QAM Modules: When Transmission Mode is 'annexA-DVB'
this value is configurable. Note that number of channels enabled
can be affected by changing channel spacing. The total bandwidth of
the RF must not exceed 48 MHz.
For 2x4/2x8 QAM Modules: When Transmission Mode is 'annexB-ATSC-DCII'
or 'annexC-Asia-Pacific' this value is fixed and is set by the APEX.
For 4x4 QAM Modules: This value is fixed and is set by the APEX.
@Range(step=500000)
"
::= { apexQamRfConfigEntry 10 }
apexQamRfConfigRfLevelAttenuation OBJECT-TYPE
SYNTAX Integer32(-300..800)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The RF level attenuation setting of each enabled channel on the
RF Port.
Range is -300 to 800 representing -3 to 8 dB attenuation in
0.01 dB steps. (See 'Note' below.)
Positive values are the amount below the nominal RF output level
for the number of channels enabled on the RF Port. Negative
values are the amount above the nominal.
Number Nominal dBmV dBmV
Channels dBmV W/-300 W/800
1 60 63 52
2 56 59 48
4 52 55 44
6 50 53 42
8 49 52 41
Note: Early APEX only supported attenuation. Gain was added
later, hence the negative attenuation values for this
parameter. For clarity, the APEX Element Manager display
indicates 'RF Level Adjust', with a user selectable
range of -8.00 to +3.00 dB, rather than 'Attenuation'.
The APEX EM then sets this MIB parameter appropriately.
"
::= { apexQamRfConfigEntry 11 }
apexQamRfConfigRfLevelLowThreshold OBJECT-TYPE
SYNTAX Integer32(0..100)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The threshold delta relative to the configured RF level that will
indicate an RF Low condition. The measured output must drop this
amount for RF Low condition.
Range is 0 to 100 representing 0 to 10 dB in 0.1 dB steps.
"
::= { apexQamRfConfigEntry 12 }
apexQamRfConfigRfLevelHighThreshold OBJECT-TYPE
SYNTAX Integer32(0..100)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The threshold delta relative to the configured RF level that will
indicate an RF High condition. The measured output must rise this
amount for RF High condition.
Range is 0 to 100 representing 0 to 10 dB in 0.1 dB steps.
"
::= { apexQamRfConfigEntry 13 }
apexQamRfConfigMute OBJECT-TYPE
SYNTAX INTEGER
{
unmute (1),
mute (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Mute the RF Port. This will mute all QAM channels enabled on the
RF Port.
"
::= { apexQamRfConfigEntry 14 }
apexQamRfConfigInterleaverDepth1 OBJECT-TYPE
SYNTAX INTEGER
{
i64-j2 (1),
i32-j4 (2),
i16-j8 (3),
i8-j16 (4),
i128-j1 (5),
i128-j2 (6),
i128-j3 (7),
i128-j4 (8),
i128-j5 (9),
i128-j6 (10),
i128-j7 (11),
i128-j8 (12) ,
i12-j17 (13)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The first of two Interleaver settings that can be assigned to the
QAM Channels of this RF Port.
Configurable only for Transmission Mode 'annexB-ATSC-DCII'.
Values 1 to 12 used only for Transmission Mode 'annexB-ATSC-DCII'.
Value 13 (i12-j17) used only for Transmission Modes 'annexA-DVB'
and 'annexC-Asia-Pacific' and is set by the APEX.
"
::= { apexQamRfConfigEntry 15 }
apexQamRfConfigInterleaverDepth2 OBJECT-TYPE
SYNTAX INTEGER
{
i64-j2 (1),
i32-j4 (2),
i16-j8 (3),
i8-j16 (4),
i128-j1 (5),
i128-j2 (6),
i128-j3 (7),
i128-j4 (8),
i128-j5 (9),
i128-j6 (10),
i128-j7 (11),
i128-j8 (12) ,
i12-j17 (13)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The second of two Interleaver settings that can be assigned to the
QAM Channels of this RF Port.
Configurable only for Transmission Mode 'annexB-ATSC-DCII'.
Values 1 to 12 used only for Transmission Mode 'annexB-ATSC-DCII'.
Value 13 (i12-j17) used only for Transmission Modes 'annexA-DVB'
and 'annexC-Asia-Pacific' and is set by the APEX.
"
::= { apexQamRfConfigEntry 16 }
-- ------------------------------------------------------------------------------
--
-- apexQamChannelConfigTable
--
apexQamChannelConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamChannelConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of configuration items configurable on a QAM Channel basis.
There are 48 Output Transport Streams (OTS) on an APEX1000. There can
be up to 48 QAM Channels on an APEX1000 depending on how the 3 QAM slots
are populated. There is a one-to-one mapping between QAM Channels and
Output Transport Streams.
QAM Channel (OTS) ranges are mapped to QAM slots as follows:
Slot Channels
1 1..15
2 15..32
3 33..48
There can be either 4 or 8 QAM channels (OTS) on each RF Port. The slot
and RF Port to QAM Channel (OTS) mappings for each QAM Module type are
shown below.
For a 2x4 or 2x8 QAM Module, QAM Channels (OTS) are mapped to
RF Ports in a QAM Slot and table rows as follows:
QAM Channel
RF Port and OTS
Slot/Port Table Row Table Rows
1/1 1 1..8
1/2 2 9..16
2/1 5 17..24
2/2 6 25..32
3/1 9 33..40
3/2 10 41..48
If a 2x4 QAM Module is in a slot, only the first four rows in this
table for the slot/port are to be used. For example, if there is
a 2x4 module in slot 3, rows 8..12 are to be used for configuring
the QAM Channels of RF Port 1 on the module.
For a 4x4 QAM Module, QAM Channels (OTS) are mapped to RF Ports in
a QAM Slot and table rows as follows:
QAM Channel
RF Port and OTS
Slot/Port Table Row Table Rows
1/1 1 1..4
1/2 2 5..8
1/3 7 9..12
1/4 8 13..16
2/1 3 17..20
2/2 4 21..24
2/3 9 25..28
2/4 10 29..32
3/1 5 33..36
3/2 6 37..40
3/3 11 41..44
3/4 12 45..48
Note that the QAM Channels on an RF Port are designated with the
letters 'A'..'H' on the APEX Element Manager.
Refer to the description of apexQamChannelConfigTable for information
on QAM Channel to RF Port mapping.
Tables apexQamRfPortChannelInfoTable and apexQamChannelIdTable can be
used to assist in referencing between QAM slots, RF Ports, and QAM
Channels (Output Transport Streams) for the installed modules.
Once written, the change to this table will only take immediate
effect after apexQamConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamChannelConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamConfig 5 }
apexQamChannelConfigEntry OBJECT-TYPE
SYNTAX ApexQamChannelConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Channel Configuration Table Entry."
INDEX { apexQamChanConfigChannelNum }
::= { apexQamChannelConfigTable 1 }
ApexQamChannelConfigEntry ::= SEQUENCE
{
apexQamChanConfigChannelNum Integer32,
apexQamChanConfigInterleaverSelect INTEGER,
apexQamChanConfigTestMode INTEGER
}
apexQamChanConfigChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM RF Port number."
::= { apexQamChannelConfigEntry 1 }
apexQamChanConfigInterleaverSelect OBJECT-TYPE
SYNTAX INTEGER
{
interleaverDepth1 (1),
interleaverDepth2 (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The interleaver selection for this Channel.
Will use either apexQamRfConfigInterleaverDepth1
or apexQamRfConfigInterleaverDepth2.
"
::= { apexQamChannelConfigEntry 2 }
apexQamChanConfigTestMode OBJECT-TYPE
SYNTAX INTEGER
{
off (0),
cwtest (2),
prbs23m (3),
prbs23 (5),
mpegNull (6),
suppress (9),
prbs60 (10),
prbs63 (11),
prbs65 (12),
prbs68 (13),
prbs71 (14),
prbs73 (15),
prbs79 (16),
prbs81 (17)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Test mode setting for the QAM Channel.
Setting to other than 'off' will cause a service interruption.
"
::= { apexQamChannelConfigEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexQamRfRedundancyConfig
--
-- apexQamRfRedundancyConfigGeneral
--
apexQamRfRedundConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for QAM RF Redundancy Configuration parameters.
This parameter MUST be set to 'apply' in order for the data
to take effect.
This parameter MUST be set LAST after all QAM RF Redundancy
parameters affected by this parameter have been configured.
@Config(config=no, reboot=no)
"
::= { apexQamRfRedundancyConfigGeneral 1 }
apexQamRfRedundConfigEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enables RF redundancy mode, allowing the APEX to failover to backup
RF port and communicate with the REM1000. Allows for failover/
switching without requiring a REM1000 connection.
Cannot be 'enabled' if the backup port (RF Port 6)
is not present (there is no QAM Module in QAM slot 3).
Cannot be 'enabled' if there are any mappings to any QAM Channel
on the backup port. RF Port 6, QAM Channels 6A to 6H
(Output Transport Streams 41 to 48).
Once written, the change to this parameter will only take immediate
effect after apexQamRfRedundConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamRfRedundConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamRfRedundancyConfigGeneral 2 }
apexQamRfRedundConfigRemConnection OBJECT-TYPE
SYNTAX INTEGER
{
none (0),
direct (1),
common (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures how the APEX is connected to the REM1000.
'none' - Not connecting to REM1000.
'direct' - Connected to REM1000 dedicated IP interface through
APEX Data IP (Enet2). Broadcast connection is always
used in this case. Cannot be set to 'direct' if the
QAM RF Redundancy UDP Port is in use on the Data IP Port
(Enet2). QAM RF Redundancy UDP Port value is found in
apexQamRfRedundStatusUdpPort.
'common' - Connected to REM1000 OAM&P interface through APEX OAM&P IP
(Enet 1). Requires user to configure REM1000 IP address
in apexQamRfRedundConfigRemCommonIpAddr. Cannot be set to
'common' if the QAM RF Redundancy UDP Port is in use on the
OAM&P IP (Enet 1). QAM RF Redundancy UDP Port value is
found in apexQamRfRedundStatusUdpPort.
Once written, the change to this parameter will only take immediate
effect after apexQamRfRedundConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamRfRedundConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamRfRedundancyConfigGeneral 3 }
apexQamRfRedundConfigApexId OBJECT-TYPE
SYNTAX Integer32(1..2)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Identifies which set of RF inputs on the REM1000 are associated
with this APEX.
Once written, the change to this parameter will only take immediate
effect after apexQamRfRedundConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamRfRedundConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamRfRedundancyConfigGeneral 4 }
apexQamRfRedundConfigRemCommonIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Target REM1000 IP address. Must be singlecast address.
Only used when apexQamRfRedundConfigRemConnection is set to 'common'.
Once written, the change to this parameter will only take immediate
effect after apexQamRfRedundConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamRfRedundConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamRfRedundancyConfigGeneral 5 }
apexQamRfRedundConfigAutoSwitchBack OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the enable/disable of automatic switch back to the previous
RF port from backup for QAM RF redundancy. When 'enabled',
switch back to the previous RF port will automatically occur when
the RF port comes back online. When 'disabled', the user must force
back to the previous RF port using apexQamRfRedundConfigForceSwitch.
Once written, the change to this parameter will only take immediate
effect after apexQamRfRedundConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamRfRedundConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')"
::= { apexQamRfRedundancyConfigGeneral 6 }
apexQamRfRedundConfigSuspendFailover OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enables and disables suspending of RF failover. Prevents failovers
to or from backup. Force failover (apexQamRfRedundConfigForceSwitch)
overrides this setting.
Once written, the change to this parameter will only take immediate
effect after apexQamRfRedundConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamRfRedundConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamRfRedundancyConfigGeneral 7 }
apexQamRfRedundConfigForceSwitch OBJECT-TYPE
SYNTAX INTEGER
{
switchNotInProgress (0),
forceFrom1 (1),
forceFrom2 (2),
forceFrom3 (3),
forceFrom4 (4),
forceFrom5 (5),
forceFromBackup (6)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Force a switch of an RF Port to or from the backup.
Selects which RF Port to switch from. Overrides Suspend Failover
(apexQamRfRedundConfigSuspendFailover).
Parameter is ignored when:
- apexQamRfRedundConfigEnable is 'disabled'.
- backup is active and other than 'forceFromBackup' is selected.
- backup is not active and 'forceFromBackup' is selected.
'forceFromBackup' will force back to the failed primary indicated
in apexQamRfRedundStatusFailedPort.
APEX sets back to 'switchNotInProgress' when complete.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexQamRfRedundancyConfigGeneral 8 }
apexQamRfRedundConfigRemDirectIpOctet1 OBJECT-TYPE
SYNTAX Integer32(1..126)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Target REM1000 IP address first octet.
Only used when apexQamRfRedundConfigRemConnection is set to 'direct'.
The remainder of the IP address will be filled in by the APEX.
The IP address used will be reflected in apexDataIpAddrInUse.
Once written, the change to this parameter will only take immediate
effect after apexQamRfRedundConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexQamRfRedundConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexQamRfRedundancyConfigGeneral 9 }
-- ------------------------------------------------------------------------------
--
-- apexQamChannelConfigApplyTable
--
apexQamChannelConfigApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamChannelConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for apexQamChannelConfigTable.
"
::= { apexQamConfig 7 }
apexQamChannelConfigApplyEntry OBJECT-TYPE
SYNTAX ApexQamChannelConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Channel Configuration Apply Table Entry."
INDEX { apexQamChannelConfigApplyChannelNum }
::= { apexQamChannelConfigApplyTable 1 }
ApexQamChannelConfigApplyEntry ::= SEQUENCE
{
apexQamChannelConfigApplyChannelNum Integer32,
apexQamChannelConfigApplyChange ApplyDataToDeviceTYPE
}
apexQamChannelConfigApplyChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM Channel number."
::= { apexQamChannelConfigApplyEntry 1 }
apexQamChannelConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for a row of data in apexQamChannelConfigTable.
A row in this table corresponds to the same row index in the
apexQamChannelConfigTable.
This parameter MUST be set to 'apply' in order for any of the data
in the rows to take effect in the APEX. This parameter MUST be set
LAST after all other data in the configuration table rows has been
configured.
@Config(config=no, reboot=no)
"
::= { apexQamChannelConfigApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexQamStatus
--
-- apexQamStatusGeneral
--
apexQamStatusTransmissionMode OBJECT-TYPE
SYNTAX INTEGER
{
annexB-ATSC-DCII (1),
annexA-DVB (2),
annexC-Asia-Pacific (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the QAM Transmission Mode that is currently in use.
QAM Transmission Mode is defined in:
Series J: Transmission of Television, Sound Programme
and other Multimedia Signals, ITU-T J.83.
"
::= { apexQamStatusGeneral 1 }
apexQamModuleInstalledCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of hot swappable QAM Modules currently installed."
::= { apexQamStatusGeneral 2 }
apexFanModuleInstalledCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of Fan-Only Modules currently installed in QAM
Module slots."
::= { apexQamStatusGeneral 3 }
apexQamChannelsActiveCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of QAM Channels that are present (QAM Module installed)
and enabled for use."
::= { apexQamStatusGeneral 4 }
-- ------------------------------------------------------------------------------
--
-- apexQamModuleStatusTable
--
apexQamModuleStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamModuleStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Module Status.
Refer to the descriptions of apexQamRfConfigTable and
apexQamChannelConfigTable for information on QAM slot,
RF Port mapping, and QAM Channel mapping.
Tables apexQamRfPortChannelInfoTable and apexQamChannelIdTable can be
used to assist in referencing between QAM slots, RF Ports, and QAM
Channels (Output Transport Streams) for the installed modules.
"
::= { apexQamStatus 2 }
apexQamModuleStatusEntry OBJECT-TYPE
SYNTAX ApexQamModuleStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Module Status Table Entry."
INDEX { apexQamModuleStatQamModuleNum }
::= { apexQamModuleStatusTable 1 }
ApexQamModuleStatusEntry ::= SEQUENCE
{
apexQamModuleStatQamModuleNum Integer32,
apexQamModuleStatInstalled INTEGER,
apexQamModuleStatFanSpeed Unsigned32,
apexQamModuleStatFanFault INTEGER,
apexQamModuleStatTemperature Integer32,
apexQamModuleStatTemperatureFault INTEGER,
apexQamModuleStatError INTEGER,
apexQamModuleStatFaultCondition INTEGER,
apexQamModuleStatFaultSumm INTEGER,
apexQamModuleStatPowerFault INTEGER,
apexQamModuleStatBoardTemperature Integer32,
apexQamModuleStatBoardTemperatureFault INTEGER,
apexQamModuleStat5VdcSupply Integer32,
apexQamModuleStat5VdcFault INTEGER,
apexQamModuleStat3dot3VdcSupply Integer32,
apexQamModuleStat3dot3VdcFault INTEGER,
apexQamModuleStatCommError INTEGER,
apexQamModuleStatCodeInitError INTEGER
}
apexQamModuleStatQamModuleNum OBJECT-TYPE
SYNTAX Integer32(1..3)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Module slot number. "
::= { apexQamModuleStatusEntry 1 }
apexQamModuleStatInstalled OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notInstalled (1),
qam2x4Channel (2),
qam2x8Channel (3),
fanModule (4),
unsupported (5),
removed (6),
qamDiscovery (7),
qam4x4Channel (8)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates if a module is installed and what type.
notApplicable - When APEX does not boot properly.
notInstalled - No QAM or Fan Module detected in slot. Reported
in apexAlarmQamModuleFault.
qam2x4Channel - A 2x4 Channel QAM Module installed.
qam2x8Channel - A 2x8 Channel QAM Module installed.
fanModule - A Fan Module installed.
unsupported - Unknown module installed. Reported in
apexAlarmQamModuleFault.
removed - A QAM Module removed when there are active QAM
channels. Reported in apexAlarmQamModuleFault.
qamDiscovery - A QAM Module is present and type is being determined.
qam4x4Channel - A 4x4 Channel QAM Module is installed.
"
::= { apexQamModuleStatusEntry 2 }
apexQamModuleStatFanSpeed OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The fan speed in RPM for installed QAM or Fan Module.
Zero if not installed.
"
::= { apexQamModuleStatusEntry 3 }
apexQamModuleStatFanFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Fan Fault.
This fault is reported in apexAlarmFanFault
not apexAlarmQamModuleFault.
"
::= { apexQamModuleStatusEntry 4 }
apexQamModuleStatTemperature OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Temperature at sensor near the fan of the QAM Module or
Fan Module in degrees Celsius.
"
::= { apexQamModuleStatusEntry 5 }
apexQamModuleStatTemperatureFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
overTemp (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Temperature fault.
This fault is reported in apexAlarmTemperatureFault
not apexAlarmQamModuleFault.
"
::= { apexQamModuleStatusEntry 6 }
apexQamModuleStatError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
removed (2),
unsupported (3),
notInstalled (4),
powerFault (5),
offline (6),
dc5VoltError (7),
dc3-3VoltError (8),
commLost (9),
codeVersions (10),
codeDownload (11),
codeDownloadError (12)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Summary of errors reported on an QAM Module basis.
These errors are reported in apexAlarmQamModuleFault.
ok - No errors.
removed - Reflects apexQamModuleStatInstalled.
unsupported - Reflects apexQamModuleStatInstalled.
notInstalled - Reflects apexQamModuleStatInstalled.
powerFault - Reflects apexQamModuleStatPowerFault.
offline - Indicates the QAM Module and the RF Ports on it are
being brought to operational mode after module is
inserted or the module has recovered from a power
fault.
dc5VoltError - 5 Vdc error, see also apexQamModuleStat5VdcSupply
and apexQamModuleStat5VdcFault.
dc3-3VoltError - 3.3 Vdc error, see also
apexQamModuleStat3dot3VdcSupply and
apexQamModuleStat3dot3VdcFault.
commLost - Communication Lost, see also
apexQamModuleStatCommError.
codeVersions - Incorrect Code Versions on module, see also
apexQamModuleStatCodeInitError,
apexQamQrmRevisionTable, and
apexQamQrmRevisionStatusTable.
codeDownload - Code Download In Progress, see also
apexQrmDownloadStatusTable.
codeDownloadError - Code Download Error, see also
apexQrmDownloadStatusTable.
"
::= { apexQamModuleStatusEntry 7 }
apexQamModuleStatFaultCondition OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of the QAM Module errors.
Reflects apexAlarmQamModuleFault for this QAM Module.
"
::= { apexQamModuleStatusEntry 8 }
apexQamModuleStatFaultSumm OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Roll-up of QAM RF Port and QAM Channel fault conditions
for this QAM Module.
"
::= { apexQamModuleStatusEntry 9 }
apexQamModuleStatPowerFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
lowVoltageMainboard (2),
lowVoltageQamModule (3),
overCurrent (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Power fault.
notApplicable - No module installed.
ok - Power good.
lowVoltageMainboard - Low voltage detected on Mainboard side of
connector.
lowVoltageQamModule - Low voltage detected on QAM Module side of
connector.
overCurrent - Over current detected on QAM Module.
This fault is reported in apexAlarmQamModuleFault.
"
::= { apexQamModuleStatusEntry 10 }
apexQamModuleStatBoardTemperature OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Temperature of the 4x4 QAM module board ('plate' temp) in degrees Celsius.
Used only for 4x4 QAM Modules.
"
::= { apexQamModuleStatusEntry 11 }
apexQamModuleStatBoardTemperatureFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
overTemp (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Board temperature fault of the 4x4 QAM module board ('plate' temp).
Used only for 4x4 QAM Modules.
This fault is reported in apexAlarmTemperatureFault
not apexAlarmQamModuleFault.
"
::= { apexQamModuleStatusEntry 12 }
apexQamModuleStat5VdcSupply OBJECT-TYPE
SYNTAX Integer32(0..1000)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Measured level of the +5 VDC supply input of the 4x4 QAM module board.
Used only for 4x4 QAM Modules.
Range is 0 to 1000 representing 0 to 10 Volts in 0.01 Volt steps.
"
::= { apexQamModuleStatusEntry 13 }
apexQamModuleStat5VdcFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
low (2),
high (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The +5 VDC supply fault of the 4x4 QAM module board.
Used only for 4x4 QAM Modules.
Indicates there is a problem with the direct 5 VDC supply or any internal
module supply derived from the 5 VDC supply.
Indicates voltage problem that can impair module function.
"
::= { apexQamModuleStatusEntry 14 }
apexQamModuleStat3dot3VdcSupply OBJECT-TYPE
SYNTAX Integer32(0..1000)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Measured level of the +3.3 VDC supply input of the 4x4 QAM module board.
Used only for 4x4 QAM Modules.
Range is 0 to 1000 representing 0 to 10 Volts in 0.01 Volt steps.
"
::= { apexQamModuleStatusEntry 15 }
apexQamModuleStat3dot3VdcFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
low (2),
high (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The +3.3 VDC supply fault of the 4x4 QAM module board.
Used only for 4x4 QAM Modules.
Indicates there is a problem with the direct 3.3 VDC supply or any internal
module supply derived from the 3.3 VDC supply.
Indicates voltage problem that can impair module function.
"
::= { apexQamModuleStatusEntry 16 }
apexQamModuleStatCommError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
inComm (1),
commLost (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Communication with the 4x4 QAM Module has failed.
Used only for 4x4 QAM Modules.
"
::= { apexQamModuleStatusEntry 17 }
apexQamModuleStatCodeInitError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Code initialization error of the 4x4 QAM Module.
Used only for 4x4 QAM Modules.
Indicates a code, firmware, or FPGA startup issue.
The module failed to load the FW/FPGA files to the devices or valid
FW/FPGA files could not be found in the module.
Code download is required to restore the module.
"
::= { apexQamModuleStatusEntry 18 }
-- ------------------------------------------------------------------------------
--
-- apexQamModuleSerialNumTable
--
apexQamModuleSerialNumTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamModuleSerialNumEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Module Serial Numbers.
"
::= { apexQamStatus 3 }
apexQamModuleSerialNumEntry OBJECT-TYPE
SYNTAX ApexQamModuleSerialNumEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Module Serial Number Table Entry."
INDEX { apexQamModuleSerialNumQamModuleNum }
::= { apexQamModuleSerialNumTable 1 }
ApexQamModuleSerialNumEntry ::= SEQUENCE
{
apexQamModuleSerialNumQamModuleNum Integer32,
apexQamModuleSerialNumber DisplayString
}
apexQamModuleSerialNumQamModuleNum OBJECT-TYPE
SYNTAX Integer32(1..3)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Module slot number."
::= { apexQamModuleSerialNumEntry 1 }
apexQamModuleSerialNumber OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..20))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The serial number of an installed QAM Module.
Zero if not installed."
::= { apexQamModuleSerialNumEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexQamQrmRevisionTable
--
apexQamQrmRevisionTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamQrmRevisionEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Module hardware and software revisions.
There are 2 QRM modules on each 2x4/2x8 QAM Module.
QRMs in QAM Module slots are mapped to table rows as follows:
Slot/QRM Table Row
1/1 1
1/2 2
2/1 3
2/2 4
3/1 5
3/2 6
4x4 QAM Modules do not use QRM boards. There is only one
board. These will be found in the odd indexed rows of this
table. The even indexed rows of the table are not used for
4x4 QAM Modules. 4x4 QAM Modules in QAM Module slots are
mapped to table rows as follows:
Slot Table Row
1 1
2 3
3 5
"
::= { apexQamStatus 4 }
apexQamQrmRevisionEntry OBJECT-TYPE
SYNTAX ApexQamQrmRevisionEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Module Revision Table Entry."
INDEX { apexQamQrmRevRfPortNum }
::= { apexQamQrmRevisionTable 1 }
ApexQamQrmRevisionEntry ::= SEQUENCE
{
apexQamQrmRevRfPortNum Integer32,
apexQamQrmRevBoardId DisplayString,
apexQamQrmRevAppFw DisplayString,
apexQamQrmRevBootLoaderFw DisplayString,
apexQamQrmRevFpga DisplayString,
apexQamQrmRevHw DisplayString,
apexQamQrmRevSerialNumber DisplayString,
apexQamQrmRevFpga2 DisplayString
}
apexQamQrmRevRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..6)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Module Revision Table index."
::= { apexQamQrmRevisionEntry 1 }
apexQamQrmRevBoardId OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Model ID of the 4x4 QAM Module or the 2x4/2x8 QAM Module's QRM board.
Hex XXYY."
::= { apexQamQrmRevisionEntry 2 }
apexQamQrmRevAppFw OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Application firmware version of the 4x4 QAM Module or the 2x4/2x8 QAM
Module's QRM board.
Hex XXYY where XX is major version and YY is minor version.
'FFFF' indicates no valid application code is present."
::= { apexQamQrmRevisionEntry 3 }
apexQamQrmRevBootLoaderFw OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Boot loader firmware version of the 4x4 QAM Module or the 2x4/2x8 QAM
Module's QRM board.
Hex XXYY where XX is major version and YY is minor version."
::= { apexQamQrmRevisionEntry 4 }
apexQamQrmRevFpga OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"FPGA version of the 2x4/2x8 QAM Module's QRM board or
FPGA1 version of the 4x4 QAM Module.
Hex XXYY where XX is major version and YY is minor version."
::= { apexQamQrmRevisionEntry 5 }
apexQamQrmRevHw OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Hardware version of the 4x4 QAM Module or the 2x4/2x8 QAM Module's QRM
board.
Hex XXYY where XX is major version and YY is minor version."
::= { apexQamQrmRevisionEntry 6 }
apexQamQrmRevSerialNumber OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..20))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The serial number of the 2x4/2x8 QAM Module's QRM board.
Used only for 2x4/2x8 QAM Modules.
Zero if not installed."
::= { apexQamQrmRevisionEntry 7 }
apexQamQrmRevFpga2 OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"FPGA2 version of the 4x4 QAM Module.
Used only for 4x4 QAM Modules.
Hex XXYY where XX is major version and YY is minor version.
"
::= { apexQamQrmRevisionEntry 8 }
-- ------------------------------------------------------------------------------
--
-- apexQamRfPortStatusTable
--
apexQamRfPortStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamRfPortStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM RF Port Status.
Refer to the descriptions of apexQamRfConfigTable and
apexQamChannelConfigTable for information on QAM slot,
RF Port mapping, and QAM Channel mapping.
Tables apexQamRfPortChannelInfoTable and apexQamChannelIdTable can be
used to assist in referencing between QAM slots, RF Ports, and QAM
Channels (Output Transport Streams) for the installed modules.
"
::= { apexQamStatus 5 }
apexQamRfPortStatusEntry OBJECT-TYPE
SYNTAX ApexQamRfPortStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM RF Port Status Table Entry."
INDEX { apexQamRfPortStatRfPortNum }
::= { apexQamRfPortStatusTable 1 }
ApexQamRfPortStatusEntry ::= SEQUENCE
{
apexQamRfPortStatRfPortNum Integer32,
apexQamRfPortStatInfoRate Unsigned32,
apexQamRfPortStatNumChannelsActive Integer32,
apexQamRfPortStatOutputLevel Integer32,
apexQamRfPortStatOutputLevelFault INTEGER,
apexQamRfPortStatTemperature Integer32,
apexQamRfPortStatTemperatureFault INTEGER,
apexQamRfPortStat5VdcSupply Integer32,
apexQamRfPortStat5VdcFault INTEGER,
apexQamRfPortStat3dot3VdcSupply Integer32,
apexQamRfPortStat3dot3VdcFault INTEGER,
apexQamRfPortStatFreqPllLock INTEGER,
apexQamRfPortStatRefClockPresent INTEGER,
apexQamRfPortStatRefClockLock INTEGER,
apexQamRfPortStatDataClockPresent INTEGER,
apexQamRfPortStatDataSyncFault INTEGER,
apexQamRfPortStatCommError INTEGER,
apexQamRfPortStatError INTEGER,
apexQamRfPortStatFaultCondition INTEGER,
apexQamRfPortStatChanFaultSumm INTEGER,
apexQamRfPortStatCodeInitError INTEGER
}
apexQamRfPortStatRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RF Port number."
::= { apexQamRfPortStatusEntry 1 }
apexQamRfPortStatInfoRate OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The information rate of the QAM channels on this RF Port
in bits per second."
::= { apexQamRfPortStatusEntry 2 }
apexQamRfPortStatNumChannelsActive OBJECT-TYPE
SYNTAX Integer32(0..8)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of QAM Channels that are present (QAM Module installed)
and enabled for use on this RF Port."
::= { apexQamRfPortStatusEntry 3 }
apexQamRfPortStatOutputLevel OBJECT-TYPE
SYNTAX Integer32(0..8000)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Measured per channel RF Output Level.
Range is 0 to 8000 representing 0 to 80 dBmV in 0.01 dBmV steps."
::= { apexQamRfPortStatusEntry 4 }
apexQamRfPortStatOutputLevelFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
low (2),
high (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"RF Output Level fault. Indicates if the user configured
apexQamRfConfigRfLevelLowThreshold or
apexQamRfConfigRfLevelHighThreshold has been reached."
::= { apexQamRfPortStatusEntry 5 }
apexQamRfPortStatTemperature OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Temperature of the 2x4/2x8 QAM Module's QRM board ('plate' temp)
in degrees Celsius.
Used only for 2x4/2x8 QAM Modules.
"
::= { apexQamRfPortStatusEntry 6 }
apexQamRfPortStatTemperatureFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
overTemp (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Temperature fault of the 2x4/2x8 QAM Module's QRM board ('plate' temp).
Used only for 2x4/2x8 QAM Modules.
This fault is reported in apexAlarmTemperatureFault
not apexAlarmQamRfPortFault."
::= { apexQamRfPortStatusEntry 7 }
apexQamRfPortStat5VdcSupply OBJECT-TYPE
SYNTAX Integer32(0..1000)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Measured level of the +5 VDC supply input of the 2x4/2x8 QAM Module's
QRM board.
Used only for 2x4/2x8 QAM Modules.
Range is 0 to 1000 representing 0 to 10 Volts in 0.01 Volt steps."
::= { apexQamRfPortStatusEntry 8 }
apexQamRfPortStat5VdcFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
low (2),
high (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The +5 VDC supply fault of the 2x4/2x8 QAM Module's QRM board.
Used only for 2x4/2x8 QAM Modules.
Indicates voltage problem that can impair QRM function."
::= { apexQamRfPortStatusEntry 9 }
apexQamRfPortStat3dot3VdcSupply OBJECT-TYPE
SYNTAX Integer32(0..1000)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Measured level of the +3.3 VDC supply input of the 2x4/2x8 QAM Module's QRM board.
Used only for 2x4/2x8 QAM Modules.
Range is 0 to 1000 representing 0 to 10 Volts in 0.01 Volt steps."
::= { apexQamRfPortStatusEntry 10 }
apexQamRfPortStat3dot3VdcFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
low (2),
high (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The +3.3 VDC supply fault of the 2x4/2x8 QAM Module's QRM board.
Used only for 2x4/2x8 QAM Modules.
Indicates voltage problem that can impair QRM function."
::= { apexQamRfPortStatusEntry 11 }
apexQamRfPortStatFreqPllLock OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
locked (1),
notLocked (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Frequency tuning PLL lock status."
::= { apexQamRfPortStatusEntry 12 }
apexQamRfPortStatRefClockPresent OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
present (1),
notPresent (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"External reference clock present indication."
::= { apexQamRfPortStatusEntry 13 }
apexQamRfPortStatRefClockLock OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
locked (1),
notLocked (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Board not phase-locked to the External reference clock.
"
::= { apexQamRfPortStatusEntry 14 }
apexQamRfPortStatDataClockPresent OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
present (1),
notPresent (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Data clock present indication."
::= { apexQamRfPortStatusEntry 15 }
apexQamRfPortStatDataSyncFault OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
inSync (1),
syncLost (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"One or more of the QAM Channel data interfaces is not synchronized."
::= { apexQamRfPortStatusEntry 16 }
apexQamRfPortStatCommError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
inComm (1),
commLost (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Communication with the 2x4/2x8 QAM Module's QRM board has failed.
"
::= { apexQamRfPortStatusEntry 17 }
apexQamRfPortStatError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
outputRfLevel (2),
dc5VoltError (3),
dc3-3VoltError (4),
freqPllNotLocked (5),
extClkNotPresent (6),
extClkNotLocked (7),
dataClkNotPresent (8),
dataSyncLost (9),
commLost (10),
unsupportedQrm (11),
configFailed (12),
codeVersions (13),
codeDownload (14),
codeDownloadError (15)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Error status on an RF Port basis.
These errors are reported in apexAlarmQamRfPortFault.
'major' for:
'outputRfLevel', 'dc5VoltError', 'dc3-3VoltError'.
'critical' for:
'freqPllNotLocked', 'extClkNotPresent', 'extClkNotLocked',
'dataClkNotPresent', 'dataSyncLost', 'commLost', 'codeVersions',
'codeDownload', 'codeDownloadError', 'unsupportedQrm', or
'configFailed'.
outputRfLevel - RF Output Level error, see also
apexQamRfPortStatOutputLevel and
apexQamRfPortStatOutputLevelFault.
dc5VoltError - 5 Vdc error, see also apexQamRfPortStat5VdcSupply
and apexQamRfPortStat5VdcFault.
dc3-3VoltError - 3.3 Vdc error, see also
apexQamRfPortStat3dot3VdcSupply and
apexQamRfPortStat3dot3VdcFault.
freqPllNotLocked - Frequency PLL not locked, see also
apexQamRfPortStatFreqPllLock.
extClkNotPresent - External Reference Clock Not Present, see also
apexQamRfPortStatRefClockPresent.
extClkNotLocked - Not Locked to External Reference Clock, see also
apexQamRfPortStatRefClockLock.
dataClkNotPresent - Data Clock Not Present, see also
apexQamRfPortStatDataClockPresent.
dataSyncLost - Data Synchronization Lost, see also
apexQamRfPortStatDataSyncFault.
commLost - Communication Lost, see also
apexQamRfPortStatCommError.
unsupportedQrm - QRM Revision Not Supported, see also
apexQamQrmRevisionTable and
apexQamQrmRevisionStatusTable.
configFailed - RF Port Configuration Failed.
codeVersions - Incorrect Code Versions on QRM, see also
apexQamRfPortStatCodeInitError,
apexQamQrmRevisionTable, and
apexQamQrmRevisionStatusTable.
codeDownload - Code Download In Progress, see also
apexQrmDownloadStatusTable.
codeDownloadError - Code Download Error, see also
apexQrmDownloadStatusTable.
"
::= { apexQamRfPortStatusEntry 18 }
apexQamRfPortStatFaultCondition OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of the RF Port errors.
Reflects apexAlarmQamRfPortFault for this RF Port.
"
::= { apexQamRfPortStatusEntry 19 }
apexQamRfPortStatChanFaultSumm OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Roll-up of Channel fault conditions for this RF Port."
::= { apexQamRfPortStatusEntry 20 }
apexQamRfPortStatCodeInitError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
fpgaInitError (2),
calDataError (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Code initialization error of the 2x4/2x8 QAM Module's QRM board.
Indicates a code, firmware, or FPGA startup issue.
'fpgaInitError' - FPGA not loaded. Caused by incompatible code
images or corrupted FPGA image on the QRM.
'calDataError' - Working copy of calibration data was corrupted
and needs to be restored by code download process.
Caused by interruption of previous code download
process.
"
::= { apexQamRfPortStatusEntry 21 }
-- ------------------------------------------------------------------------------
--
-- apexQamChannelStatusTable
--
apexQamChannelStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamChannelStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Channel Status.
Refer to the descriptions of apexQamRfConfigTable and
apexQamChannelConfigTable for information on QAM slot,
RF Port mapping, and QAM Channel mapping.
Tables apexQamRfPortChannelInfoTable and apexQamChannelIdTable can be
used to assist in referencing between QAM slots, RF Ports, and QAM
Channels (Output Transport Streams) for the installed modules.
"
::= { apexQamStatus 6 }
apexQamChannelStatusEntry OBJECT-TYPE
SYNTAX ApexQamChannelStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Channel Status Table Entry."
INDEX { apexQamChanStatChannelNum }
::= { apexQamChannelStatusTable 1 }
ApexQamChannelStatusEntry ::= SEQUENCE
{
apexQamChanStatChannelNum Integer32,
apexQamChanStatActive ActiveTYPE,
apexQamChanStatRfFreq Integer32,
apexQamChanStatEiaChanNum Integer32,
apexQamChanStatDataPresent INTEGER,
apexQamChanStatError INTEGER,
apexQamChanStatFaultCondition INTEGER
}
apexQamChanStatChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Channel number."
::= { apexQamChannelStatusEntry 1 }
apexQamChanStatActive OBJECT-TYPE
SYNTAX ActiveTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"'active' indicates that mappings can be made to the channel.
This means that either:
1) The channel is present (apexQamModuleStatInstalled
'qam2x4Channel' or 'qam2x8Channel') and enabled for use
(apexQamRfConfigNumChannelsEnabled);
2) Or, the channel is on the backup RF port when QAM RF Redundancy
is enabled (apexQamRfRedundConfigEnable).
"
::= { apexQamChannelStatusEntry 2 }
apexQamChanStatRfFreq OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The center frequency for the QAM Channel in Hz."
::= { apexQamChannelStatusEntry 3 }
apexQamChanStatEiaChanNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The EIA Channel number for the QAM Channel.
Will be zero if there is no EIA Channel number
corresponding to the frequency in use."
::= { apexQamChannelStatusEntry 4 }
apexQamChanStatDataPresent OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
data (1),
noData (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indication of MPEG data activity on the interface for this QAM channel.
This includes MPEG null packets."
::= { apexQamChannelStatusEntry 5 }
apexQamChanStatError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
noData (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Summary of errors reported on a QAM channel.
This is enumerated and the reported error will be the
most severe.
"
::= { apexQamChannelStatusEntry 6 }
apexQamChanStatFaultCondition OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of the QAM channel errors.
Reflects apexAlarmQamChannelFault for this QAM Channel.
"
::= { apexQamChannelStatusEntry 7 }
-- ------------------------------------------------------------------------------
--
-- apexQamRfRedundancyStatus
--
-- apexQamRfRedundancyStatusGeneral
--
apexQamRfRedundStatusBackupPort OBJECT-TYPE
SYNTAX INTEGER
{
disabled (0),
standby (1),
active (2),
failed (3),
removed (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"State of configured backup port.
'disabled' - QAM RF Redundancy is disabled.
'standby' - QAM RF Redundancy is enabled but backup is inactive.
No failure has occurred.
'active' - Failover has occurred and backup is active.
Refer to apexQamRfRedundStatusFailedPort for port being
backed up.
'failed' - Backup port has failed. APEX cannot provide RF
redundancy.
'removed' - QAM Module with Backup port has been removed.
APEX cannot provide RF redundancy.
"
::= { apexQamRfRedundancyStatusGeneral 1 }
apexQamRfRedundStatusFailedPort OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates which port (1 to 5) has failed over to the backup port.
Zero indicates backup port is not active.
"
::= { apexQamRfRedundancyStatusGeneral 2 }
apexQamRfRedundStatusMismatch OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
noMismatch (1),
backup2x4 (2),
primary2x4 (3),
any4x4 (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether there is a potential for channels being lost
when failing to the backup or when switching back to a primary due
to a mixture of 2x4 and 2x8 QAM Modules. Indicates whether RF
redundancy is unavailable due to a 4x4 QAM Module installed.
A 2x4 QAM Module is capable of supporting a maximum of 4 channels
per RF port. A 2x8 QAM Module is capable of supporting a maximum
of 8 channels per RF port. The number of channels enabled
(apexQamRfConfigNumChannelsEnabled) is not considered.
'notApplicable' - QAM RF Redundancy is disabled.
'noMismatch' - Indicates no channels would be lost because there is
no mismatch.
'backup2x4' - Indicates a loss of channels could occur on failover
to the backup because the backup RF Port is in a 2x4
module and at least one primary RF Port is in a 2x8
module.
'primary2x4' - Indicates a loss of channels could occur on switch-
back from the backup to the primary because the
backup RF Port is in a 2x8 module and the primary RF
Port is in a 2x4 module. This would occur if the
failed 2x8 primary is replaced with a 2x4.
'any4x4' - Indicates a 4x4 QAM Module is installed in any slot
and RF Redundancy is not available. Failover and/or
switchback are suspended until the 4x4 is replaced.
"
::= { apexQamRfRedundancyStatusGeneral 3 }
apexQamRfRedundStatusUdpPort OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"UDP Port that is used for QAM RF Redundancy communication between
the APEX and REM.
When apexQamRfRedundConfigRemConnection is:
'direct' - APEX sends/receives broadcast on this UDP Port.
'common' - APEX sends/receives singlecast on this UDP Port.
"
::= { apexQamRfRedundancyStatusGeneral 4 }
apexQamRfRedundStatusRemConnection OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notConnected (1),
connected (2),
connectionLost (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"State of communication with REM.
'notApplicable' - QAM RF Redundancy is not enabled and/or the
connection to the REM is not enabled.
'notConnected' - Initial condition. APEX has not sent a
switch_port() message yet.
'connected' - received ack() message from REM for current
switch_port() message.
'connectionLost' - REM has not replied to last 3 heartbeat
switch_port() messages.
"
::= { apexQamRfRedundancyStatusGeneral 5 }
apexQamRfRedundStatusRemError OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of REM1000 taken from error_code field in REM1000 ack()
response (defined in REM1000 Message Stream Protocol).
Valid only when apexQamRfRedundConfigRemConnection is other than 'none'.
Values as defined in REM1000 MSP:
0x00 - No Errors. No problems switching, parsing switch_port()
message, or with HW.
0x01 - Invalid apex_id value in prior switch_port() message.
0x02 - Invalid msg_type value in prior switch_port() message.
0x03 - Invalid port value in prior switch_port() message.
0x04 - Error switching after receiving valid switch_port() message.
0x05 - Minor HW error. REM can still switch.
0x81 - Apex_id Conflict. Switch_port() messages with the same apex_id
have been received from multiple APEXs. Switch reset to pass-
through configuration.
0x85 - Major HW error. REM failure. Switch reset to pass-through
configuration.
"
::= { apexQamRfRedundancyStatusGeneral 6 }
apexQamRfRedundStatusRemSwitch OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of the REM1000 switches indicated through ack() response
from REM1000 (e.g. pass-through or switching port 'x').
Valid only when apexQamRfRedundConfigRemConnection is other than
'none'.
Zero indicates REM is in passing inputs 1 to 5 straight through to
outputs 1 to 5.
Values of 1 to 5 indicate REM backup input port is switched to
output port 1 to 5 and other ports are passed through.
"
::= { apexQamRfRedundancyStatusGeneral 7 }
apexQamRfRedundStatusInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexQamRfRedundConfigApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data. This
entry contains the description for the most recent apply
of a related entry that was invalid.
"
::= { apexQamRfRedundancyStatusGeneral 8 }
-- ------------------------------------------------------------------------------
--
-- apexQamRfPortMuteStatusTable
--
apexQamRfPortMuteStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamRfPortMuteStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM RF Port Mute Status.
"
::= { apexQamStatus 8 }
apexQamRfPortMuteStatusEntry OBJECT-TYPE
SYNTAX ApexQamRfPortMuteStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM RF Port Mute Status Table Entry."
INDEX { apexQamRfPortMuteStatusRfPortNum }
::= { apexQamRfPortMuteStatusTable 1 }
ApexQamRfPortMuteStatusEntry ::= SEQUENCE
{
apexQamRfPortMuteStatusRfPortNum Integer32,
apexQamRfPortMuteStatus INTEGER
}
apexQamRfPortMuteStatusRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RF Port number."
::= { apexQamRfPortMuteStatusEntry 1 }
apexQamRfPortMuteStatus OBJECT-TYPE
SYNTAX INTEGER
{
unmuted (1),
muted (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether the QAM channels on the RF port are muted or unmuted.
"
::= { apexQamRfPortMuteStatusEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexQamQrmRevisionStatusTable
--
apexQamQrmRevisionStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamQrmRevisionStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of status of QRM hardware and software revisions.
Indications of whether they are supported, current, etc..
There are 2 QRM modules on each 2x4/2x8 QAM Module.
QRMs in QAM Module slots are mapped to table rows as follows:
Slot/QRM Table Row
1/1 1
1/2 2
2/1 3
2/2 4
3/1 5
3/2 6
4x4 QAM Modules do not use QRM boards. There is only one
board. These will be found in the odd indexed rows of this
table. The even indexed rows of the table are not used for
4x4 QAM Modules. 4x4 QAM Modules in QAM Module slots are
mapped to table rows as follows:
Slot Table Row
1 1
2 3
3 5
"
::= { apexQamStatus 9 }
apexQamQrmRevisionStatusEntry OBJECT-TYPE
SYNTAX ApexQamQrmRevisionStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QRM Revision Status Table Entry"
INDEX { apexQamQrmRevStatQrmNum }
::= { apexQamQrmRevisionStatusTable 1 }
ApexQamQrmRevisionStatusEntry ::= SEQUENCE
{
apexQamQrmRevStatQrmNum Integer32,
apexQamQrmRevStatBoardId INTEGER,
apexQamQrmRevStatAppFw INTEGER,
apexQamQrmRevStatBootLoaderFw INTEGER,
apexQamQrmRevStatFpga INTEGER,
apexQamQrmRevStatHw INTEGER,
apexQamQrmRevStatQrmSupported INTEGER,
apexQamQrmRevStatFpga2 INTEGER
}
apexQamQrmRevStatQrmNum OBJECT-TYPE
SYNTAX Integer32(1..6)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QRM Revision Status Table index."
::= { apexQamQrmRevisionStatusEntry 1 }
apexQamQrmRevStatBoardId OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
supported (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of the Model ID of the 4x4 QAM Module or the
2x4/2x8 QAM Module's QRM board.
Refer to apexQamQrmRevisionTable for the revisions
of each QRM.
"
::= { apexQamQrmRevisionStatusEntry 2 }
apexQamQrmRevStatAppFw OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
belowRelease (2),
atRelease (3),
aboveRelease (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of Application firmware version of the 4x4
QAM Module or the 2x4/2x8 QAM Module's QRM board.
Refer to apexQamQrmRevisionTable for the revisions
of each 4x4 QAM Module or the 2x4/2x8 QAM Module's
QRM board.
Refer to apexQrmFileRevisionTable for the revisions
of files in the APEX release resident on the device.
"
::= { apexQamQrmRevisionStatusEntry 3 }
apexQamQrmRevStatBootLoaderFw OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
supported (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of Boot loader firmware version of the 4x4
QAM Module or the 2x4/2x8 QAM Module's QRM board.
Refer to apexQamQrmRevisionTable for the revisions
of each 4x4 QAM Module or the 2x4/2x8 QAM Module's
QRM board.
"
::= { apexQamQrmRevisionStatusEntry 4 }
apexQamQrmRevStatFpga OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
belowRelease (2),
atRelease (3),
aboveRelease (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of FPGA version of the 2x4/2x8 QAM Module's
QRM board or FPGA1 version of the 4x4 QAM Module.
Refer to apexQamQrmRevisionTable for the revisions
of each 4x4 QAM Module or the 2x4/2x8 QAM Module's
QRM board.
Refer to apexQrmFileRevisionTable for the revisions
of files in the APEX release resident on the device.
"
::= { apexQamQrmRevisionStatusEntry 5 }
apexQamQrmRevStatHw OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
supported (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of Hardware version of the 4x4 QAM Module or
the 2x4/2x8 QAM Module's QRM board.
Refer to apexQamQrmRevisionTable for the revisions
of each 4x4 QAM Module or the 2x4/2x8 QAM Module's
QRM board.
"
::= { apexQamQrmRevisionStatusEntry 6 }
apexQamQrmRevStatQrmSupported OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
supported (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates if the 4x4 QAM Module or the 2x4/2x8 QAM Module's QRM
board is supported. Summary of above status.
If any 4x4 QAM Module or the 2x4/2x8 QAM Module's QRM board
revision status is 'notSupported' this parameter will indicate
'notSupported' and apexQamRfPortStatError will report
'unsupportedQrm'.
"
::= { apexQamQrmRevisionStatusEntry 7 }
apexQamQrmRevStatFpga2 OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
belowRelease (2),
atRelease (3),
aboveRelease (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of FPGA2 version of the 4x4 QAM Module.
Refer to apexQamQrmRevisionTable for the revisions
of each 4x4 QAM Module.
Refer to apexQrmFileRevisionTable for the revisions
of files in the APEX release resident on the device.
"
::= { apexQamQrmRevisionStatusEntry 8 }
-- ------------------------------------------------------------------------------
--
-- apexQamRfPortChannelInfoTable
--
apexQamRfPortChannelInfoTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamRfPortChannelInfoEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Channel information for each QAM RF Port.
Refer to the descriptions of apexQamRfConfigTable and
apexQamChannelConfigTable for information on QAM slot,
RF Port mapping, and QAM Channel mapping.
Tables apexQamRfPortChannelInfoTable and apexQamChannelIdTable can be
used to assist in referencing between QAM slots, RF Ports, and QAM
Channels (Output Transport Streams) for the installed modules.
"
::= { apexQamStatus 10 }
apexQamRfPortChannelInfoEntry OBJECT-TYPE
SYNTAX ApexQamRfPortChannelInfoEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM RF Port Channel Information Table Entry."
INDEX { apexQamRfPortChannelInfoRfPortNum }
::= { apexQamRfPortChannelInfoTable 1 }
ApexQamRfPortChannelInfoEntry ::= SEQUENCE
{
apexQamRfPortChannelInfoRfPortNum Integer32,
apexQamRfPortChannelInfoChanA Integer32,
apexQamRfPortChannelInfoChanCount Integer32
}
apexQamRfPortChannelInfoRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RF Port number."
::= { apexQamRfPortChannelInfoEntry 1 }
apexQamRfPortChannelInfoChanA OBJECT-TYPE
SYNTAX Integer32(0|1|5|9|13|17|21|25|29|33|37|41|45)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM Channel number (Output Transport number) of QAM Channel
'A' on this RF port.
This may be used to access data in tables indexed by QAM Number
or Output Transport Stream. Used in combination with
apexQamRfPortChannelInfoChanCount, data for all QAM Channels
on this RF Port may be accessed.
'0' - Indicates RF Port is not present.
"
::= { apexQamRfPortChannelInfoEntry 2 }
apexQamRfPortChannelInfoChanCount OBJECT-TYPE
SYNTAX Integer32(0 | 4 | 8)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of QAM Channels on the RF port.
'0' - Indicates RF Port is not present.
'4' - RF Port has 4 QAM Channels, 'A'-'D'.
'8' - RF Port has 8 QAM Channels, 'A'-'H'.
"
::= { apexQamRfPortChannelInfoEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexQamChannelIdTable
--
apexQamChannelIdTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQamChannelIdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Channel Identification data. Identifies
the physical location of the QAM Channel (Output Transport
Stream) in the APEX chassis.
Refer to the descriptions of apexQamRfConfigTable and
apexQamChannelConfigTable for information on QAM slot,
RF Port mapping, and QAM Channel mapping.
Tables apexQamRfPortChannelInfoTable and apexQamChannelIdTable can be
used to assist in referencing between QAM slots, RF Ports, and QAM
Channels (Output Transport Streams) for the installed modules.
"
::= { apexQamStatus 11 }
apexQamChannelIdEntry OBJECT-TYPE
SYNTAX ApexQamChannelIdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Channel Identification Table Entry."
INDEX { apexQamChannelIdChannelNum }
::= { apexQamChannelIdTable 1 }
ApexQamChannelIdEntry ::= SEQUENCE
{
apexQamChannelIdChannelNum Integer32,
apexQamChannelIdSlotNum Integer32,
apexQamChannelIdRfPortNum Integer32,
apexQamChannelIdModuleRfPortNum Integer32,
apexQamChannelIdChannelLetter DisplayString,
apexQamChannelIdChannelDescription DisplayString
}
apexQamChannelIdChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Channel number (Output Transport number)."
::= { apexQamChannelIdEntry 1 }
apexQamChannelIdSlotNum OBJECT-TYPE
SYNTAX Integer32(1..3)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM Slot number of the channel.
"
::= { apexQamChannelIdEntry 2 }
apexQamChannelIdRfPortNum OBJECT-TYPE
SYNTAX Integer32(0..12)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"RF Port number of the channel.
This may be used to access data in tables indexed by RF Port
Number.
'0' - Indicates QAM Channel is not present.
"
::= { apexQamChannelIdEntry 3 }
apexQamChannelIdModuleRfPortNum OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Module RF Port number of the channel.
Corresponds to RF Port numbering on the back of
physical QAM Module.
'0' - Indicates QAM Channel is not present.
"
::= { apexQamChannelIdEntry 4 }
apexQamChannelIdChannelLetter OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..1))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The letter symbol ('A'..'H') for the channel.
String will be empty if QAM Channel not present.
"
::= { apexQamChannelIdEntry 5 }
apexQamChannelIdChannelDescription OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..11))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text description for the QAM Channel (Output Transport Stream).
Format is as follows where brackets and bracketed descriptions are
replaced by a number/letter as appropriate:
[QAM Channel / TS Num]:Slot[QAM Slot Num]-[Module Rf Port Num][Channel Letter]
Examples:
TS 9, in QAM Slot 1, on RF Port 2: '09:Slot1-2A'
TS 17, in QAM Slot 2, on RF Port 1: '17:Slot2-1A'
TS 48, in QAM Slot 3, on RF Port 2: '48:Slot3-2H'
TS 48, in QAM Slot 3, on RF Port 4: '48:Slot3-4D'
This may be used for display purposes on a management system.
String will be empty or contain '[QAM Channel / TS Num]:Inactive' if
apexQamChanStatActive is not set to 'active', i.e. if QAM Channel is
not present and/or not enabled.
"
::= { apexQamChannelIdEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexQrmDownload
--
-- apexQrmDownloadConfig
--
-- apexQrmDownloadConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexQrmDownloadConfigTable
--
apexQrmDownloadConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQrmDownloadConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Module Code Download Configuration.
There are 2 QRM modules on each 2x4/2x8 QAM Module.
QRMs in QAM Module slots are mapped to table rows as follows:
Slot/QRM Table Row
1/1 1
1/2 2
2/1 3
2/2 4
3/1 5
3/2 6
4x4 QAM Modules do not use QRM boards. There is only one
board. These will be found in the odd indexed rows of this
table. The even indexed rows of the table are not used for
4x4 QAM Modules. 4x4 QAM Modules in QAM Module slots are
mapped to table rows as follows:
Slot Table Row
1 1
2 3
3 5
"
::= { apexQrmDownloadConfig 2 }
apexQrmDownloadConfigEntry OBJECT-TYPE
SYNTAX ApexQrmDownloadConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Code Download Configuration Table Entry."
INDEX { apexQrmDownloadConfigQrmNum }
::= { apexQrmDownloadConfigTable 1 }
ApexQrmDownloadConfigEntry ::= SEQUENCE
{
apexQrmDownloadConfigQrmNum Integer32,
apexQrmDownloadConfigRequest INTEGER
}
apexQrmDownloadConfigQrmNum OBJECT-TYPE
SYNTAX Integer32(1..6)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Code Download Configuration Table index."
::= { apexQrmDownloadConfigEntry 1 }
apexQrmDownloadConfigRequest OBJECT-TYPE
SYNTAX INTEGER
{
requestNotInProgress (0),
requestDownload (1)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"User initiated manual 4x4 QAM Module or 2x4/2x8 QAM Module QRM board
Code Download request.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexQrmDownloadConfigEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexQrmDownloadStatus
--
-- apexQrmDownloadStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexQrmDownloadStatusTable
--
apexQrmDownloadStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQrmDownloadStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of QAM Module Code Download Status.
Refer to apexQrmDownloadConfigTable description
for table indexing information.
"
::= { apexQrmDownloadStatus 2 }
apexQrmDownloadStatusEntry OBJECT-TYPE
SYNTAX ApexQrmDownloadStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QRM Code Download Status Table Entry."
INDEX { apexQrmDownloadStatusRfPortNum }
::= { apexQrmDownloadStatusTable 1 }
ApexQrmDownloadStatusEntry ::= SEQUENCE
{
apexQrmDownloadStatusRfPortNum Integer32,
apexQrmDownloadStatusDescription DisplayString,
apexQrmDownloadProgress Integer32,
apexQrmDownloadSupported INTEGER,
apexQrmDownloadRequired INTEGER,
apexQrmDownloadFileSet INTEGER
}
apexQrmDownloadStatusRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..6)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM Code Download Status Table index."
::= { apexQrmDownloadStatusEntry 1 }
apexQrmDownloadStatusDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text description of the current state of 4x4 QAM Module or
2x4/2x8 QAM Module QRM board Code Download.
"
::= { apexQrmDownloadStatusEntry 2 }
apexQrmDownloadProgress OBJECT-TYPE
SYNTAX Integer32(-1..100)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Completion percentage of Code Download. '-1' indicates failure."
::= { apexQrmDownloadStatusEntry 3 }
apexQrmDownloadSupported OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notSupported (1),
supported (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates if the module HW and SW will support Code Download.
'notSupported' if the module is unsupported or the code download might
downgrade the code resident on the module.
Refer to apexQamQrmRevisionTable, apexQamQrmRevisionStatusTable,
and apexQrmDownloadFileSet for additional status.
The user cannot initiate a manual download (apexQrmDownloadConfigRequest)
when download 'notSupported'.
"
::= { apexQrmDownloadStatusEntry 4 }
apexQrmDownloadRequired OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notRequired (1),
required (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates if the module requires Code Download. Code download
is needed if the versions are not up to date with the resident
APEX FW Release.
Refer to apexQamQrmRevisionTable, apexQamQrmRevisionStatusTable,
and apexQrmDownloadFileSet for additional status.
The user can initiate a manual download (apexQrmDownloadConfigRequest)
when download 'notRequired'.
"
::= { apexQrmDownloadStatusEntry 5 }
apexQrmDownloadFileSet OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
fileSet1 (1),
fileSet2 (2),
fileSet3 (3),
fileSet4 (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates which file set will be used for this module.
"
::= { apexQrmDownloadStatusEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexQrmFileRevisionTable
--
apexQrmFileRevisionTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexQrmFileRevisionEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of revisions of QAM Module files released with the
resident APEX FW Release.
Refer to identSoftwareVersion in BCS-IDENT-MIB for
the release number.
"
::= { apexQrmDownloadStatus 3 }
apexQrmFileRevisionEntry OBJECT-TYPE
SYNTAX ApexQrmFileRevisionEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QRM File Revision Table Entry."
INDEX { apexQrmFileRevFileSetNum }
::= { apexQrmFileRevisionTable 1 }
ApexQrmFileRevisionEntry ::= SEQUENCE
{
apexQrmFileRevFileSetNum Integer32,
apexQrmFileRevFirmware DisplayString,
apexQrmFileRevCalibration DisplayString,
apexQrmFileRevFpga DisplayString,
apexQrmFileRevFpga2 DisplayString,
apexQrmFileRevDateTime DisplayString
}
apexQrmFileRevFileSetNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"QAM file set number."
::= { apexQrmFileRevisionEntry 1 }
apexQrmFileRevFirmware OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Revision of the Application firmware file of the 2x4/2x8 QAM Module's QRM board or
revision of the Application firmware portion of the 4x4 QAM Module Code File.
Hex XXYY where XX is major version and YY is minor version.
"
::= { apexQrmFileRevisionEntry 2 }
apexQrmFileRevCalibration OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Revision of the Calibration data file of the 2x4/2x8 QAM Module's QRM board.
Used only for 2x4/2x8 QAM Module QRM board file sets.
Hex XXYY where XX is major version and YY is minor version.
"
::= { apexQrmFileRevisionEntry 3 }
apexQrmFileRevFpga OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Revision of FPGA firmware file of the 2x4/2x8 QAM Module's QRM board or
revision of the FPGA1 firmware portion of the 4x4 QAM Module Code File.
Hex XXYY where XX is major version and YY is minor version.
"
::= { apexQrmFileRevisionEntry 4 }
apexQrmFileRevFpga2 OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..12))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Revision of FPGA2 firmware portion of the 4x4 QAM Module Code File.
Used only for 4x4 QAM Module file sets.
Hex XXYY where XX is major version and YY is minor version.
"
::= { apexQrmFileRevisionEntry 5 }
apexQrmFileRevDateTime OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..16))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Date and time the 4x4 QAM Module code file was created.
Used only for 4x4 QAM Module file sets.
Format: 'MM/DD/YYYY HH:MM' Where HH is a 24 hour clock.
"
::= { apexQrmFileRevisionEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexSessionControl
--
-- apexSessionControlConfig
--
-- apexSessionControlConfigGeneral
--
apexSesContConfProtocol OBJECT-TYPE
SYNTAX INTEGER
{
none (0),
rpc (1),
rtsp (2),
mha-ermi (3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The communication protocol for output streams in Session Control operating
mode. This determines the type of protocol the APEX will use to communicate
with an Edge Resource Manager/Switch Digital Video Manager. This parameter
cannot be changed when there are any active Session Control mappings. All
Session Control mappings must be removed prior to changing this protocol.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexSessionControlConfigGeneral 1 }
apexSesContConfTableApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the apexSesContConfTable. This parameter
MUST be set to 'apply' in order for any of the data in the
apexSesContConfTable to take effect. This parameter
MUST be set LAST after all other data in the apexSesContConfTable
has been configured.
@Config(config=no, reboot=no)
"
::= { apexSessionControlConfigGeneral 2 }
apexSesContConfRateCompareType OBJECT-TYPE
SYNTAX RateComparisonTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the rate to use for comparing input streams. It is
either Information rate or Stream rate. This applies to monitoring
for Bit Rate alarming and monitoring of Redundant Pairs.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexSessionControlConfigGeneral 3 }
apexSesContConfRedundThreshold OBJECT-TYPE
SYNTAX Integer32(0..100)
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
Session Control Redundancy Threshold.
This is the percent used to determine Fail Over from Primary
to Secondary, and Switch Back from Secondary to Primary. If
a value of zero is specified, Fail Over or Switch Back will
not occur. Range is 0 to 100%.
Primary Fail Over to Secondary:
FailOver = (PrimaryRate) < (Threshold * SecondaryRate)
The Primary must remain below the threshold for
apexGbeConfInRedundMonitorPeriod.
Secondary Switch Back to Primary:
SwitchBack = (PrimaryRate) >= (Threshold * SecondaryRate)
The Primary must remain at or above the threshold for
apexGbeConfInRedundMonitorPeriod seconds. The APEX will delay
Switch Back an additional apexGbeConfInRedundSwitchTime
seconds. Switch Back will not occur when
apexGbeConfInRedundAutoSwitchBack is 'disabled'.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexSessionControlConfigGeneral 4 }
apexSesContConfInputPreEncryptCheck OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Session Control Pre-Encryption Checking.
Indicates if the APEX is to check if the input service is pre-encrypted or
clear. Pre-encrypted is determined by examining the input PMT for a CA ECM
descriptor (any CA ECM descriptor). If pre-encrypted, setting this flag will
cause the APEX to pass through ECM PID for this service. For input services
that have a GI CA ECM descriptor, the APEX will also pass through the PIT
message (extract and re-insert the PIT). The output PMT for pre-encrypted
services will contain a CA ECM descriptor (referencing the ECM
PID). When PID Remapping is enabled, pre-encryption for a service is
only valid when the input ECM PID is on a different PID than the
associated PMT PID. If this flag is set to pre-encryption and the
input service is not pre-encrypted, then the setting of this flag has
no affect on the output service.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexSessionControlConfigGeneral 5 }
apexSesContConfRedundType OBJECT-TYPE
SYNTAX INTEGER
{
hotWarm (1),
hotHot (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The redundancy type for output streams in Session Control operating
mode.
- hotWarm indicates only 1 input stream, primary or secondary, is
open at any one time. For multicast streams, primary will be joined initially.
The secondary is joined after a failover (the primary will be dropped prior
to joining the secondary).
- hotHot indicates both the primary and secondary streams are opened at the
same time. For multicast streams, both streams are joined immediately.
Changes to the redundancy type cannot be made while there are active routes or
sessions. All routes and sessions must be deleted prior to changing the
redundancy type.
Once written, a save must be performed via the apexSaveConfig
parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexSessionControlConfigGeneral 6 }
apexSesContConfFollowDtcp OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Determines how the copy protection settings (CCI, APS, and CIT) within
the PRK will be set. All outputs in Session Control (SDV) mode will use
this setting for following input DTCP.
Disabled - Use ERM Configuration settings if encryption blob provided.
Use CTE settings when in CTE encryption mode and no ERM
encryption blob provided.
Enabled - Follow input DTCP
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexSessionControlConfigGeneral 7 }
-- ------------------------------------------------------------------------------
--
-- apexSesContConfTable
--
apexSesContConfTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexSesContConfEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of Session Control configuration parameters for
each output transport stream. This table defines the primary
and secondary Gigabit Ethernet interfaces for each output stream
in Session Control operating mode. The primary and secondary
interfaces cannot be changed for an output stream when there are
active Session Control mappings. All Session Control mappings on
an output stream must be removed prior to changing the primary or
secondary interface settings.
Once written, the change to this table will only take immediate
effect after apexSesContConfTableApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexSesContConfTableApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexSessionControlConfig 2 }
apexSesContConfEntry OBJECT-TYPE
SYNTAX ApexSesContConfEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Session Control Configuration Table Entry."
INDEX { apexSesContConfOutputTsNum }
::= { apexSesContConfTable 1 }
ApexSesContConfEntry ::= SEQUENCE
{
apexSesContConfOutputTsNum Integer32,
apexSesContConfGbePrimaryInterface Integer32,
apexSesContConfGbeSecondaryInterface Integer32
}
apexSesContConfOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output transport stream number (index)."
::= { apexSesContConfEntry 1 }
apexSesContConfGbePrimaryInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The primary Gbe interface for Session Control. Zero indicates not available.
This parameter cannot be changed for any output stream if there is at
least 1 active session control mapping.
Not configurable for RTSP.
"
::= { apexSesContConfEntry 2 }
apexSesContConfGbeSecondaryInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The secondary Gbe interface for RPC SDV. Zero indicates not available.
This parameter cannot be changed for any output stream if there is at
least 1 active session control mapping.
Secondary selection is restricted based on Primary as follows:
- Primary 1 or 2: Secondary must be 1 or 2
- Primary 3 or 4: Secondary must be 3 or 4
Not configurable for RTSP.
"
::= { apexSesContConfEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexSessionControlStatus
--
-- apexSessionControlStatusGeneral
--
apexSesContStatProtocol OBJECT-TYPE
SYNTAX INTEGER
{
none (0),
rpc (1),
rtsp (2),
mha-ermi (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The communication protocol in use for output streams in Session Control
operating mode.
"
::= { apexSessionControlStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexRpc
--
-- apexRpcConfig
--
-- apexRpcConfigGeneral
--
apexRpcDataCarouselProgram OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates which Input Program Number to use for the Data
Carousel. The data carousel in SDV mode (RPC or RTSP) is on a fixed
PMT PID along with a fixed component PID. In order to maintain
these PID values, the APEX will check for a specific input service
number defined by this parameter. This service mapping is assumed
to be the Data Carousel mapping. The APEX will maintain the PMT PID
value along with the component PID value. To facilitate this mapping,
the Data Carousel input/output program number is configurable.
- Data Carousel Service Number Default: 0xF38F (62351)
The PMT PID and component PID will be determined by the APEX by
analyzing the PAT and PMT based on the program number configured. A
program number of zero (0) indicates that there is no data carousel.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfigGeneral 1 }
apexRpcReportAllSessions OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Session reporting mode. Indicates what sessions will be reported
when the APEX is requested to report sessions to a manager.
When 'enabled', the APEX will report all sessions.
When 'disabled', the APEX will report only the sessions for the requesting
manager.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfigGeneral 2 }
apexRpcDeviceName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The device name of this APEX. This variable is only used to
generate an XML configuration file via the EM.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfigGeneral 3 }
apexRpcDeviceType OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The device type string reported in XML configuration file. This
variable is only used to generate an XML configuration file via the
EM.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfigGeneral 4 }
apexRpcControlInterface OBJECT-TYPE
SYNTAX EthernetInterfaceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Enet interface that will be used to set the IP address attribute
in the generated XML file. This variable is only used to generate
an XML configuration file via the EM.
Once written, the change to this parameter will only take immediate
effect after apexRpcApplyChange is changed to 'apply'.
In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRpcApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfigGeneral 5 }
apexRpcNumShellSessions OBJECT-TYPE
SYNTAX Integer32(1..32)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The number of shell sessions to be created on each channel marked
for session control mode. This variable is only used to generate an
XML configuration file via the EM.
Once written, the change to this parameter will only take immediate
effect after apexRpcApplyChange is changed to 'apply'.
In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRpcApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfigGeneral 6 }
apexRpcAvgBandwidthEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When enabled the APEX populates the sessionRate in the QuerySessionInfo Response
message with groupRate divided by the number of sessionIds in the group. The
value reported makes no distinction between bound and unbound sessions.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfigGeneral 7 }
apexRpcApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for RPC Settings. This applies to apexRpcControlInterface,
apexRpcNumShellSessions, apexRpcRfPortServiceGroup.
@Config(config=no, reboot=no)
"
::= { apexRpcConfigGeneral 8 }
-- ------------------------------------------------------------------------------
--
-- apexRpcRfPortTable
--
apexRpcRfPortTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRpcRfPortEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Configuration data for RPC Session RF Ports. This variable
is only used to generate an XML configuration file via the EM.
"
::= { apexRpcConfig 2 }
apexRpcRfPortEntry OBJECT-TYPE
SYNTAX ApexRpcRfPortEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RPC RF Port Configuration Table Entry."
INDEX { apexRpcRfPortNum }
::= { apexRpcRfPortTable 1 }
ApexRpcRfPortEntry ::= SEQUENCE
{
apexRpcRfPortNum Integer32,
apexRpcRfPortName DisplayString,
apexRpcRfPortServiceGroup Unsigned32
}
apexRpcRfPortNum OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RF Port number."
::= { apexRpcRfPortEntry 1 }
apexRpcRfPortName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The RF Port name.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcRfPortEntry 2 }
apexRpcRfPortServiceGroup OBJECT-TYPE
SYNTAX Unsigned32(1..4294967295)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The RF Port service group.
Once written, the change to this parameter will only take immediate
effect after apexRpcApplyChange is changed to 'apply'.
In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRpcApplyChange , value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcRfPortEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexRpcRfChannelTable
--
apexRpcRfChannelTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRpcRfChannelEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Configuration data for RPC Session RF Channels. This variable
is only used to generate an XML configuration file via the EM.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRpcConfig 3 }
apexRpcRfChannelEntry OBJECT-TYPE
SYNTAX ApexRpcRfChannelEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RPC RF Channel Configuration Table Entry."
INDEX { apexRpcRfChannelNum }
::= { apexRpcRfChannelTable 1 }
ApexRpcRfChannelEntry ::= SEQUENCE
{
apexRpcRfChannelNum Integer32,
apexRpcRfChannelName DisplayString
}
apexRpcRfChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RF Channel number."
::= { apexRpcRfChannelEntry 1 }
apexRpcRfChannelName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The name of this RF Channel.
"
::= { apexRpcRfChannelEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRpcStatus
--
-- apexRpcStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexRpcSessionStatTable
--
apexRpcSessionStatTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRpcSessionStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RPC Switched Digital Video Session status. This table
contains 1 row up to the maximum number of service mappings supported.
"
::= { apexRpcStatus 2 }
apexRpcSessionStatEntry OBJECT-TYPE
SYNTAX ApexRpcSessionStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RPC Switched Digital Video Session Status Table Entry."
INDEX { apexRpcSessionStatIndex }
::= { apexRpcSessionStatTable 1 }
ApexRpcSessionStatEntry ::= SEQUENCE
{
apexRpcSessionStatIndex Integer32,
apexRpcSessionStatInputTsIndex Integer32,
apexRpcSessionStatInputProgramNum Integer32,
apexRpcSessionStatSourceIpAddr3 IpAddress,
apexRpcSessionStatOutputQamChannel Integer32,
apexRpcSessionStatOutputProgramNum Integer32,
apexRpcSessionStatProgramBandwidth Integer32,
apexRpcSessionStatSessionType INTEGER,
apexRpcSessionStatSessionIdWord1 Unsigned32,
apexRpcSessionStatSessionIdWord2 Unsigned32,
apexRpcSessionStatSessionIdWord3 Unsigned32,
apexRpcSessionStatManagerIpAddr IpAddress
}
apexRpcSessionStatIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RPC Switched Digital Video Session Status table index.
"
::= { apexRpcSessionStatEntry 1 }
apexRpcSessionStatInputTsIndex OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the apexInputTsStatTable."
::= { apexRpcSessionStatEntry 2 }
apexRpcSessionStatInputProgramNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Gigabit Ethernet Input Program Number. A value of
zero (0) indicates that the input is an SPTS and the first
program listed in the input PAT will be mapped by the APEX.
"
::= { apexRpcSessionStatEntry 3 }
apexRpcSessionStatSourceIpAddr3 OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Gigabit Ethernet IGMP v3 Source IP Address 3.
This IP address is currently unsupported by the APEX.
"
::= { apexRpcSessionStatEntry 4 }
apexRpcSessionStatOutputQamChannel OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Output QAM Channel.
"
::= { apexRpcSessionStatEntry 5 }
apexRpcSessionStatOutputProgramNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Output Program Number (1 - 65535).
"
::= { apexRpcSessionStatEntry 6 }
apexRpcSessionStatProgramBandwidth OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Expected Program Bandwidth (bps). This is the bandwidth
of the program as defined in the service mapping. A value of
0 indicates that the program BW is unknown.
"
::= { apexRpcSessionStatEntry 7 }
apexRpcSessionStatSessionType OBJECT-TYPE
SYNTAX INTEGER
{
noSession (0),
sdv (1),
vodOrBroadcast (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Type of session (SDV binding or VOD/Broadcast session).
1 = Switched Digital Video (SDV)
2 = VOD or Broadcast
"
::= { apexRpcSessionStatEntry 8 }
apexRpcSessionStatSessionIdWord1 OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Session ID Word 1.
Session IDs are 10 byte character arrays. Session IDs are
be stored as 3 4-byte words (3 ulongs) in this MIB. First
2 Bytes are always 0, next 10 contain the session ID.
Session ID is broken up as follows:
Word 1: 00:01 = 0x0000 (unused)
Word 1: 02:03 = 1st 2 bytes of session ID (1st 2 bytes of MAC address)
Word 2: 00:03 = Next 4 bytes (these 4 plus 1st 2 are the MAC address of manager)
Word 3: 00:03 = Last 4 bytes (unique number assigned by manager)
"
::= { apexRpcSessionStatEntry 9 }
apexRpcSessionStatSessionIdWord2 OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Session ID Word 2.
Session IDs are 10 byte character arrays. Session IDs are
be stored as 3 4-byte words (3 Unsigned32) in this MIB. First
2 Bytes are always 0, next 10 contain the session ID.
Session ID is broken up as follows:
Word 1: 00:01 = 0x0000 (unused)
Word 1: 02:03 = 1st bytes of session ID (1st 2 bytes of MAC address)
Word 2: 00:03 = Next 4 bytes (these 4 plus 1st 2 are the MAC address of manager)
Word 3: 00:03 = Last 4 bytes (unique number assigned by manager)
"
::= { apexRpcSessionStatEntry 10 }
apexRpcSessionStatSessionIdWord3 OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Session ID Word 3.
Session IDs are 10 byte character arrays. Session IDs are
be stored as 3 4-byte words (3 Unsigned32) in this MIB. First
2 Bytes are always 0, next 10 contain the session ID.
Session ID is broken up as follows:
Word 1: 00:01 = 0x0000 (unused)
Word 1: 02:03 = 1st bytes of session ID (1st 2 bytes of MAC address)
Word 2: 00:03 = Next 4 bytes (these 4 plus 1st 2 are the MAC address of manager)
Word 3: 00:03 = Last 4 bytes (unique number assigned by manager)
"
::= { apexRpcSessionStatEntry 11 }
apexRpcSessionStatManagerIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The IP address of the RPC SDV, VOD, or Broadcast manager sending session
commands.
"
::= { apexRpcSessionStatEntry 12 }
-- ------------------------------------------------------------------------------
--
-- apexRpcQamStatTable
--
apexRpcQamStatTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRpcQamStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RPC Switched Digital Video QAM status. This table
is indexed by output stream number and 48 rows.
"
::= { apexRpcStatus 3 }
apexRpcQamStatEntry OBJECT-TYPE
SYNTAX ApexRpcQamStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RPC Switched Digital Video QAM Status Table Entry."
INDEX { apexRpcQamStatQamChannelNum }
::= { apexRpcQamStatTable 1 }
ApexRpcQamStatEntry ::= SEQUENCE
{
apexRpcQamStatQamChannelNum Integer32,
apexRpcQamStatNumSdvSessions Integer32,
apexRpcQamStatNumVodBcSessions Integer32,
apexRpcQamStatSdvGroupBandwidth Unsigned32
}
apexRpcQamStatQamChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RPC Switched Digital Video QAM Status table index.
"
::= { apexRpcQamStatEntry 1 }
apexRpcQamStatNumSdvSessions OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Number of reserved SDV sessions on this QAM Channel. This is the
number of SDV sessions that have been reserved by the manager. Each
SDV session requires that a manager reserve a QAM. This is the count
of SDV sessions reserved (not the actual number of active SDV sessions).
"
::= { apexRpcQamStatEntry 2 }
apexRpcQamStatNumVodBcSessions OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Number of VOD/Broadcast sessions on this QAM Channel. This
is the number of VOD/Broadcast sessions active on a QAM Channel. Since
VOD and Broadcast sessions are not required to be reserved for an
output, this is the count of active VOD and Broadcast sessions on
a specific QAM.
"
::= { apexRpcQamStatEntry 3 }
apexRpcQamStatSdvGroupBandwidth OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Group BW for SDV sessions (not used for VOD/Broadcast sessions).
This is the total amount of BW allocated for all SDV sessions on a channel.
The total SDV BW for a channel is defined by the session manager. The manager
reserves this BW for future SDV sessions. This is not the BW of current
active SDV sessions, but the total BW reserved by the manager for SDV sessions.
"
::= { apexRpcQamStatEntry 4 }
-- ------------------------------------------------------------------------------
--
-- apexRtsp
--
-- apexRtspConfig
--
-- apexRtspConfigGeneral
--
apexRtspReportGbeInterfaces OBJECT-TYPE
SYNTAX INTEGER
{
none (0),
reportGbe1and2 (1),
reportGbe3and4 (2),
pairedPortAssignment (3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This selects which pair of GBE interfaces are to be reported to the
RTSP controller (ERM) via VREP. The pairedPortAssignment selection allows
for both pairs of GBE interfaces to be reported to the ERM. This allows
for all 4 GBE interfaces to be used by the ERM for session mappings. This
effectively splits the APEX into 2x24 QAM devices where the first GBE
interface pair (1&2) are assigned to the first 24 output QAM streams
(output TS 1 - 24) and the second GBE pair (3&4) are assigned to the second
24 output QAM streams (output TS 25-48). Selecting reportGbe1and2 or
reportGbe3and4 limits the ERM to 2 GBE interfaces only.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfControllerApplyTable
--
apexRtspConfControllerApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspConfControllerApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for apexRtspConfControllerTable.
A row of this table corresponds to a row in apexRtspConfControllerTable.
"
::= { apexRtspConfig 2 }
apexRtspConfControllerApplyEntry OBJECT-TYPE
SYNTAX ApexRtspConfControllerApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Controller Configuration Apply Table Entry."
INDEX { apexRtspConfControllerApplyNum }
::= { apexRtspConfControllerApplyTable 1 }
ApexRtspConfControllerApplyEntry ::= SEQUENCE
{
apexRtspConfControllerApplyNum Integer32,
apexRtspConfControllerApplyChange ApplyDataToDeviceTYPE
}
apexRtspConfControllerApplyNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RTSP Session Controller number."
::= { apexRtspConfControllerApplyEntry 1 }
apexRtspConfControllerApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for a row of data in apexRtspConfControllerTable and
apexRtspConfControlNamesTable.
A row in this table corresponds to the same row index in the
apexRtspConfControllerTable and apexRtspConfControlNamesTable.
This parameter MUST be set to 'apply' in order for any of the data
in the rows to take effect in the APEX. This parameter MUST be set
LAST after all other data in the configuration table rows has been
configured.
@Config(config=no, reboot=no)
"
::= { apexRtspConfControllerApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfControllerTable
--
apexRtspConfControllerTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspConfControllerEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RTSP configuration items configurable on a Controller basis.
Once written, the change to this table will only take immediate
effect after apexRtspConfControllerApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfControllerApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfig 3 }
apexRtspConfControllerEntry OBJECT-TYPE
SYNTAX ApexRtspConfControllerEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Controller Configuration Table Entry."
INDEX { apexRtspConfControllerNum }
::= { apexRtspConfControllerTable 1 }
ApexRtspConfControllerEntry ::= SEQUENCE
{
apexRtspConfControllerNum Integer32,
apexRtspConfControllerIp IpAddress,
apexRtspConfControllerPort Integer32,
apexRtspConfControllerHoldTime Integer32,
apexRtspConfControllerBandwidthDelta Integer32
}
apexRtspConfControllerNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Controller Number.
APEX currently supports only one controller.
"
::= { apexRtspConfControllerEntry 1 }
apexRtspConfControllerIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The IP Address of the RTSP session controller.
"
::= { apexRtspConfControllerEntry 2 }
apexRtspConfControllerPort OBJECT-TYPE
SYNTAX Integer32(1024..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Port for the RTSP session controller.
"
::= { apexRtspConfControllerEntry 3 }
apexRtspConfControllerHoldTime OBJECT-TYPE
SYNTAX Integer32(0 | 9..300)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The session hold time in seconds. If the APEX does not receive a
keep session alive message from the controller in this time the
APEX will close the session.
The APEX will transmit keep session alive messages at one-third
of this time.
Zero indicates that the APEX should not send keep session alive
messages.
"
::= { apexRtspConfControllerEntry 4 }
apexRtspConfControllerBandwidthDelta OBJECT-TYPE
SYNTAX Integer32(0 | 50..100000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Bandwidth Delta, in kilobits per second (kbps), for sending an
Update Message.
Whenever a QAM Channel's output utilization changes by more than the
bandwidth delta, the APEX will send a update message providing the
current BW being utilized.
Zero indicates that the APEX should not send update messages based on
bandwidth changes.
"
::= { apexRtspConfControllerEntry 5 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfControlNamesTable
--
apexRtspConfControlNamesTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspConfControlNamesEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RTSP configuration items configurable on a Controller basis.
Contains the control names. This table is a row-for-row index match
to the apexRtspConfControllerTable.
Once written, the change to this table will only take immediate
effect after apexRtspConfControllerApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfControllerApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfig 4 }
apexRtspConfControlNamesEntry OBJECT-TYPE
SYNTAX ApexRtspConfControlNamesEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Controller Names Configuration Table Entry."
INDEX { apexRtspConfControlNamesNum }
::= { apexRtspConfControlNamesTable 1 }
ApexRtspConfControlNamesEntry ::= SEQUENCE
{
apexRtspConfControlNamesNum Integer32,
apexRtspConfControlNamesStreamingZone DisplayString,
apexRtspConfControlNamesDeviceName DisplayString
}
apexRtspConfControlNamesNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Controller Number.
APEX currently supports only one controller.
"
::= { apexRtspConfControlNamesEntry 1 }
apexRtspConfControlNamesStreamingZone OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..128))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The streaming zone that the APEX is a member of.
"
::= { apexRtspConfControlNamesEntry 2 }
apexRtspConfControlNamesDeviceName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..128))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The device name of this APEX.
"
::= { apexRtspConfControlNamesEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfQamChannelApplyTable
--
apexRtspConfQamChannelApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspConfQamChannelApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for apexRtspConfQamChannelTable.
A row of this table corresponds to a row in apexRtspConfQamChannelTable.
"
::= { apexRtspConfig 5 }
apexRtspConfQamChannelApplyEntry OBJECT-TYPE
SYNTAX ApexRtspConfQamChannelApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP QAM Configuration Apply Table Entry."
INDEX { apexRtspConfQamChannelApplyNum }
::= { apexRtspConfQamChannelApplyTable 1 }
ApexRtspConfQamChannelApplyEntry ::= SEQUENCE
{
apexRtspConfQamChannelApplyNum Integer32,
apexRtspConfQamChannelApplyChange ApplyDataToDeviceTYPE
}
apexRtspConfQamChannelApplyNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM Channel number."
::= { apexRtspConfQamChannelApplyEntry 1 }
apexRtspConfQamChannelApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for a row of data in apexRtspConfQamChannelTable.
A row in this table corresponds to the same row index in the
apexRtspConfQamChannelTable.
This parameter MUST be set to 'apply' in order for any of the data
in the rows to take effect in the APEX. This parameter MUST be set
LAST after all other data in the configuration table rows has been
configured.
@Config(config=no, reboot=no)
"
::= { apexRtspConfQamChannelApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfQamChannelTable
--
apexRtspConfQamChannelTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspConfQamChannelEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Configuration data for RTSP Session QAM Channels.
Once written, the change to this table will only take immediate
effect after apexRtspConfQamChannelApplyChange to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfQamChannelApplyChange , value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfig 6 }
apexRtspConfQamChannelEntry OBJECT-TYPE
SYNTAX ApexRtspConfQamChannelEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP QAM Configuration Table Entry."
INDEX { apexRtspConfQamChannelNum }
::= { apexRtspConfQamChannelTable 1 }
ApexRtspConfQamChannelEntry ::= SEQUENCE
{
apexRtspConfQamChannelNum Integer32,
apexRtspConfQamChannelGroupName DisplayString
}
apexRtspConfQamChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM Channel number."
::= { apexRtspConfQamChannelEntry 1 }
apexRtspConfQamChannelGroupName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..128))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The QAM Group Name that this QAM Channel is a member of.
"
::= { apexRtspConfQamChannelEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfGbeEdgeGroupTable
--
apexRtspConfGbeEdgeGroupTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspConfGbeEdgeGroupEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Configuration data for RTSP Session GigE Interfaces.
Once written, the change to this table will take immediate
effect. In order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfig 7 }
apexRtspConfGbeEdgeGroupEntry OBJECT-TYPE
SYNTAX ApexRtspConfGbeEdgeGroupEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP GigE Edge Group Configuration Table Entry."
INDEX { apexRtspConfGbeEdgeGroupNum }
::= { apexRtspConfGbeEdgeGroupTable 1 }
ApexRtspConfGbeEdgeGroupEntry ::= SEQUENCE
{
apexRtspConfGbeEdgeGroupNum Integer32,
apexRtspConfGbeEdgeGroupName DisplayString
}
apexRtspConfGbeEdgeGroupNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The GigE Edge Group Interface number."
::= { apexRtspConfGbeEdgeGroupEntry 1 }
apexRtspConfGbeEdgeGroupName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..128))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Name of this GigE Interface.
"
::= { apexRtspConfGbeEdgeGroupEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfMhaTable
--
apexRtspConfMhaTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspConfMhaEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of MHA RTSP configuration items configurable on a Controller basis.
Once written, the change to this table will only take immediate
effect after apexRtspConfControllerApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfControllerApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfig 8 }
apexRtspConfMhaEntry OBJECT-TYPE
SYNTAX ApexRtspConfMhaEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"MHA RTSP Configuration Table Entry."
INDEX { apexRtspConfMhaNum }
::= { apexRtspConfMhaTable 1 }
ApexRtspConfMhaEntry ::= SEQUENCE
{
apexRtspConfMhaNum Integer32,
apexRtspConfMhaAddressDomain Integer32,
apexRtspConfMhaPort Integer32
}
apexRtspConfMhaNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The MHA Controller Number.
APEX currently supports only one controller.
"
::= { apexRtspConfMhaEntry 1 }
apexRtspConfMhaAddressDomain OBJECT-TYPE
SYNTAX Integer32(0..255)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Address Domain of the sender used in ERRP. Address Domain of the
ERM and APEX must match in order to establish an ERRP connection.
Zero is used as the global address domain, which is interpreted to
mean that any advertised address can be reached from any address
domain.
"
::= { apexRtspConfMhaEntry 2 }
apexRtspConfMhaPort OBJECT-TYPE
SYNTAX Integer32(1024..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Port for the MHA session controller.
"
::= { apexRtspConfMhaEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfMhaGeneral
--
apexRtspConfMhaUdpMapEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates if the UDP Map is populated in the Update message
sent by the APEX to the ERM when in MHA mode.
When 'enabled', the APEX will report UDP ports available.
When 'disabled', the APEX will include the UDP Map field but will
not populate it with data.
Once written, the change to this table will only take immediate
effect after apexRtspConfControllerApplyChange is set to 'apply'.
In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfControllerApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfMhaGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexRtspConfMhaSbe
--
apexRtspConfMhaSbeEncryptionMode OBJECT-TYPE
SYNTAX INTEGER
{
full (1),
fwk (2),
fpk (3)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to set the Session based Encryption Mode.
It applies to all session based encryption sessions.
- 'full' - The APEX will use Full encryption.
- 'fwk' - The APEX will use Fixed Working Key (FWK) encryption.
- 'fpk' - The APEX will use Fixed Program Key (FPK) encryption. The APEX
will not attempt to get EMMs.
Once written, the change to this parameter will only take immediate
effect after apexRtspConfMhaSbeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfMhaSbeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= { apexRtspConfMhaSbe 1 }
apexRtspConfMhaSbeCciLevel OBJECT-TYPE
SYNTAX INTEGER
{
notDefined (1),
copyFreely (2),
copyOnce (3),
copyNever (4),
noMoreCopies (5)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Copy Control Information (CCI) Level setting for session based PRK messages
if CCI is not defined in the XML encryption blob.
- notDefined - CCI is not defined, settop box applications can
configure CCI
- copyFreely - program can be copied
- copyOnce - program can be copied once
- copyNever - program can never be copied
- noMoreCopies -
Once written, the change to this parameter will only take immediate
effect after apexRtspConfMhaSbeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfMhaSbeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= {apexRtspConfMhaSbe 2}
apexRtspConfMhaSbeApsLevel OBJECT-TYPE
SYNTAX INTEGER
{
notDefined (1),
off (2),
splitBurstOff (3),
splitBurst2Line (4),
splitBurst4Line (5)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Analog Protection System (APS) Level setting for session based PRK
messages if APS is not defined in the XML encryption blob.
Defines what copy protection encoding will be applied to the analog
composite output by the settop box.
- notDefined - analog protection is not defined, settop box
applications can configure APS
- off - no analog protection
- splitBurstOff - AGC on, split burst off
- splitBurst2Line - AGC on, 2 line split burst on
- splitBurst4Line - AGC on, 4 line split burst on
Once written, the change to this parameter will only take immediate
effect after apexRtspConfMhaSbeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfMhaSbeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= {apexRtspConfMhaSbe 3}
apexRtspConfMhaSbeCitSetting OBJECT-TYPE
SYNTAX INTEGER
{
disabled (1),
enabled (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Copy protection Constraint Image Trigger setting. This is only
applicable when the session is being encrypted and the CIT setting
was not contained in the XML encryption blob.
Once written, the change to this parameter will only take immediate
effect after apexRtspConfMhaSbeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexRtspConfMhaSbeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(sdv.ini, type='ini')
"
::= {apexRtspConfMhaSbe 4}
apexRtspConfMhaSbeApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the MHA session based encryption settings.
This parameter MUST be set to 'apply' in order for any of the data
in MHA SBE to take effect in the APEX. This parameter MUST be set
LAST after all other data in the MHA SBE has been configured.
@Config(config=no, reboot=no)
"
::= {apexRtspConfMhaSbe 5}
-- ------------------------------------------------------------------------------
--
-- apexRtspStatus
--
-- apexRtspStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexRtspSessionStatTable
--
apexRtspSessionStatTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspSessionStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RTSP Session status. This table
contains 768 rows.
"
::= { apexRtspStatus 2 }
apexRtspSessionStatEntry OBJECT-TYPE
SYNTAX ApexRtspSessionStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Session Status Table Entry."
INDEX { apexRtspSessionStatIndex }
::= { apexRtspSessionStatTable 1 }
ApexRtspSessionStatEntry ::= SEQUENCE
{
apexRtspSessionStatIndex Integer32,
apexRtspSessionStatInputTsIndex Integer32,
apexRtspSessionStatInputProgramNum Integer32,
apexRtspSessionStatOutputQamChannel Integer32,
apexRtspSessionStatOutputProgramNum Integer32,
apexRtspSessionStatProgramBandwidth Integer32,
apexRtspSessionStatManagerIpAddr IpAddress
}
apexRtspSessionStatIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RTSP Session Status table index.
"
::= { apexRtspSessionStatEntry 1 }
apexRtspSessionStatInputTsIndex OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the apexInputTsStatTable."
::= { apexRtspSessionStatEntry 2 }
apexRtspSessionStatInputProgramNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Gigabit Ethernet Input Program Number. A value of
zero (0) indicates that the input is an SPTS and the first
program listed in the input PAT will be mapped by the APEX.
"
::= { apexRtspSessionStatEntry 3 }
apexRtspSessionStatOutputQamChannel OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Output QAM Channel.
"
::= { apexRtspSessionStatEntry 4 }
apexRtspSessionStatOutputProgramNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Output Program Number.
"
::= { apexRtspSessionStatEntry 5 }
apexRtspSessionStatProgramBandwidth OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Expected Program Bandwidth (bps). This is the bandwidth
of the program as defined in the service mapping. A value of
0 indicates that the program BW is unknown.
"
::= { apexRtspSessionStatEntry 6 }
apexRtspSessionStatManagerIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The IP address of the manager sending session commands.
"
::= { apexRtspSessionStatEntry 7 }
-- ------------------------------------------------------------------------------
--
-- apexRtspSessionIdTable
--
apexRtspSessionIdTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspSessionIdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RTSP Session Ids. This table
contains 768 rows and is a row-for-row
index match to apexRtspSessionStatTable.
"
::= { apexRtspStatus 3 }
apexRtspSessionIdEntry OBJECT-TYPE
SYNTAX ApexRtspSessionIdEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Session ID Table Entry."
INDEX { apexRtspSessionIdIndex }
::= { apexRtspSessionIdTable 1 }
ApexRtspSessionIdEntry ::= SEQUENCE
{
apexRtspSessionIdIndex Integer32,
apexRtspSessionId DisplayString
}
apexRtspSessionIdIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RTSP Session ID table index.
This is a row-for-row match to the
RTSP Session Status table index.
"
::= { apexRtspSessionIdEntry 1 }
apexRtspSessionId OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Session ID.
"
::= { apexRtspSessionIdEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRtspQamStatTable
--
apexRtspQamStatTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspQamStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RTSP Session QAM status. This table
is indexed by QAM channel number and contains 48 rows.
"
::= { apexRtspStatus 4 }
apexRtspQamStatEntry OBJECT-TYPE
SYNTAX ApexRtspQamStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Session QAM status Table Entry."
INDEX { apexRtspQamStatQamChannelNum }
::= { apexRtspQamStatTable 1 }
ApexRtspQamStatEntry ::= SEQUENCE
{
apexRtspQamStatQamChannelNum Integer32,
apexRtspQamStatNumSessions Integer32,
apexRtspQamStatAllocatedBandwidth Unsigned32
}
apexRtspQamStatQamChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The RTSP Session Control Video QAM Status table index.
"
::= { apexRtspQamStatEntry 1 }
apexRtspQamStatNumSessions OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Number of active sessions on this QAM Channel.
"
::= { apexRtspQamStatEntry 2 }
apexRtspQamStatAllocatedBandwidth OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the total amount of BW allocated for all sessions on a channel.
"
::= { apexRtspQamStatEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexRtspStatControllerTable
--
apexRtspStatControllerTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspStatControllerEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RTSP status items configurable on a Controller basis.
"
::= { apexRtspStatus 5 }
apexRtspStatControllerEntry OBJECT-TYPE
SYNTAX ApexRtspStatControllerEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Controller Status Table Entry."
INDEX { apexRtspStatControllerNum }
::= { apexRtspStatControllerTable 1 }
ApexRtspStatControllerEntry ::= SEQUENCE
{
apexRtspStatControllerNum Integer32,
apexRtspStatControllerDiscovery INTEGER,
apexRtspStatControllerConnection INTEGER,
apexRtspStatControllerCommFault INTEGER
}
apexRtspStatControllerNum OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Controller Number.
APEX currently supports only one controller.
"
::= { apexRtspStatControllerEntry 1 }
apexRtspStatControllerDiscovery OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notDiscovered (1),
discovered (2),
discoveredConnectionLost (3),
discoveredAnotB (4),
discoveredBnotA (5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of Controller to APEX discovery.
"
::= { apexRtspStatControllerEntry 2 }
apexRtspStatControllerConnection OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notConnected (1),
connected (2),
connectedPort554 (3),
connectedPort2048 (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of the connection between the APEX and the Controller.
'notConnected' causes apexAlarmRtspControllerCommFault.
"
::= { apexRtspStatControllerEntry 3 }
apexRtspStatControllerCommFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of apexRtspStatControllerConnection.
This is the apexAlarmRtspControllerCommFault level for this controller.
"
::= { apexRtspStatControllerEntry 4 }
-- ------------------------------------------------------------------------------
--
-- apexRtspStatQamChannelTable
--
apexRtspStatQamChannelTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspStatQamChannelEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Status data for RTSP Session QAM Channels.
"
::= { apexRtspStatus 6 }
apexRtspStatQamChannelEntry OBJECT-TYPE
SYNTAX ApexRtspStatQamChannelEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP QAM Configuration Table Entry."
INDEX { apexRtspStatQamChannelNum }
::= { apexRtspStatQamChannelTable 1 }
ApexRtspStatQamChannelEntry ::= SEQUENCE
{
apexRtspStatQamChannelNum Integer32,
apexRtspStatQamChannelName DisplayString
}
apexRtspStatQamChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM Channel number."
::= { apexRtspStatQamChannelEntry 1 }
apexRtspStatQamChannelName OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..128))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Name of this QAM Channel.
"
::= { apexRtspStatQamChannelEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRtspStatQamMptsModeTable
--
apexRtspStatQamMptsModeTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspStatQamMptsModeEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of MPTS Mode Status data for RTSP Session QAM Channels.
"
::= { apexRtspStatus 7 }
apexRtspStatQamMptsModeEntry OBJECT-TYPE
SYNTAX ApexRtspStatQamMptsModeEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP QAM MPTS Mode Configuration Table Entry."
INDEX { apexRtspStatQamMptsModeQamChannelNum }
::= { apexRtspStatQamMptsModeTable 1 }
ApexRtspStatQamMptsModeEntry ::= SEQUENCE
{
apexRtspStatQamMptsModeQamChannelNum Integer32,
apexRtspStatQamMptsModeQamChannelMode INTEGER
}
apexRtspStatQamMptsModeQamChannelNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM Channel number."
::= { apexRtspStatQamMptsModeEntry 1 }
apexRtspStatQamMptsModeQamChannelMode OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
passthrough (1),
multiplexing (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The MPTS mode of this QAM Channel. The first session
established on the QAM channel defines the
MPTS mode. Each new session must have the same
mode as long as one session is still active.
"
::= { apexRtspStatQamMptsModeEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexManualRouting
--
-- apexManualRoutingConfig
--
-- apexManualRoutingConfigGeneral
--
apexManualRouteRmdClear OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
" Clear all RMD information from DRAM and flash.
Note that apexManualRouteEnable must be set to disabled for
all rows before RMD information will be cleared by this
parameter.
If RMD information was cleared, the APEX will set
this parameter to applyNotInProgressValidData. If RMD
information was not cleared, the APEX will set this parameter
to applyNotInProgressInvalidData.
Once written, the change to this parameter will take effect immediately.
@Config(config=no, reboot=no)
"
::= { apexManualRoutingConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexManualRouteApplyTable
--
apexManualRouteApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManualRouteApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for Manual Route Table.
A row in this table corresponds to the same row index in the
Manual Route table.
"
::= { apexManualRoutingConfig 2 }
apexManualRouteApplyEntry OBJECT-TYPE
SYNTAX ApexManualRouteApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual Route Apply Table Entry."
INDEX { apexManualRouteApplyIndex }
::= { apexManualRouteApplyTable 1 }
ApexManualRouteApplyEntry ::= SEQUENCE
{
apexManualRouteApplyIndex Integer32,
apexManualRouteApplyChange ApplyDataToDeviceTYPE
}
apexManualRouteApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Manual Route Apply Table."
::= { apexManualRouteApplyEntry 1 }
apexManualRouteApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the Manual Route Table.
A row in this table corresponds to the same row index in the
Manual Route table.
This parameter MUST be set to 'apply' in order for any of the data
in the Manual Route Table row to take effect in the APEX. This
parameter MUST be set LAST after all other data in the Manual Route
Table row has been configured.
@Config(config=no, reboot=no)
"
::= { apexManualRouteApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexManualRouteTable
--
apexManualRouteTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManualRouteEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for Manual Routes.
Once written, the change to a row this table will only take
immediate effect after the appropriate apexManualRouteApplyChange
is set to 'apply'. In order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexManualRouteApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexManualRoutingConfig 3 }
apexManualRouteEntry OBJECT-TYPE
SYNTAX ApexManualRouteEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual Route Table Entry."
INDEX { apexManualRouteIndex }
::= { apexManualRouteTable 1 }
ApexManualRouteEntry ::= SEQUENCE
{
apexManualRouteIndex Integer32,
apexManualRouteEnable EnableDisableTYPE,
apexManualRouteInputType INTEGER,
apexManualRouteInputInterface Integer32,
apexManualRouteInputUdp Integer32,
apexManualRouteInputMulticastIp IpAddress,
apexManualRouteInputSourceIp IpAddress,
apexManualRouteInputProgNum Integer32,
apexManualRouteInputPreEncryptCheck EnableDisableTYPE,
apexManualRouteOutputTsNum Integer32,
apexManualRouteOutputProgNum Integer32,
apexManualRouteOutputEncryptMode INTEGER,
apexManualRouteOutputCopyProtectSource INTEGER,
apexManualRouteSourceId Integer32,
apexManualRouteProviderId Integer32
}
apexManualRouteIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Manual Route Table."
::= { apexManualRouteEntry 1 }
apexManualRouteEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates that this Manual Route is enabled or disabled.
"
::= { apexManualRouteEntry 2 }
apexManualRouteInputType OBJECT-TYPE
SYNTAX INTEGER
{
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Type of input from which to obtain data.
"
::= { apexManualRouteEntry 3 }
apexManualRouteInputInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of the input interface, of type configured by Input Type,
from which to obtain data.
Range:
'0' = Not Applicable
GBE = 1-4
FastEnet = 1-2
"
::= { apexManualRouteEntry 4 }
apexManualRouteInputUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input UDP Port from which to obtain data.
Range:
GBE = 0-65535
FastEnet = 1024-65535
"
::= { apexManualRouteEntry 5 }
apexManualRouteInputMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Multicast IP address from which to obtain data.
An IP address of 0.0.0.0 indicates table entry not in use.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexManualRouteEntry 6 }
apexManualRouteInputSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input IGMP v3 Source IP from which to obtain data.
If the router supports IGMP v3 the GBE will only receive data from
this source IP. If Source IP is not specified or the router does not
support IGMP v3 the GBE will receive data from any source device.
Source IP address must be a valid singlecast address.
"
::= { apexManualRouteEntry 7 }
apexManualRouteInputProgNum OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input MPEG Program Number to multiplex. A value of 0 can be used as
a wild card. This will cause the APEX to map the first program listed in
the input PAT to the specified output (regardless of input program number).
Input program number zero should only be used when mapping Single Program
Transport Streams (SPTS).
"
::= { apexManualRouteEntry 8 }
apexManualRouteInputPreEncryptCheck OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Manual Routing Pre-Encryption Checking.
Indicates if the APEX is to check if the input service is pre-encrypted or
clear. Pre-encrypted is determined by examining the input PMT for a CA ECM
descriptor (any CA ECM descriptor). If pre-encrypted, setting this flag will
cause the APEX to pass through ECM PID for this service. For input services
that have a GI CA ECM descriptor, the APEX will also pass through the PIT
message (extract and re-insert the PIT). The output PMT for pre-encrypted
services will contain a CA ECM descriptor (referencing the ECM
PID). When PID Remapping is enabled, pre-encryption for a service is
only valid when the input ECM PID is on a different PID than the
associated PMT PID. If this flag is set to pre-encryption and the
input service is not pre-encrypted, then the setting of this flag has
no affect on the output service.
"
::= { apexManualRouteEntry 9 }
apexManualRouteOutputTsNum OBJECT-TYPE
SYNTAX Integer32(0..48)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Output Transport Stream Number of the output on which to place data.
Zero = NotApplicable and is only valid if the apexManualRouteTable
entry is not being used.
"
::= { apexManualRouteEntry 10 }
apexManualRouteOutputProgNum OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Output Program number to use for the program.
Zero = NotApplicable and is only valid if the apexManualRouteTable
entry is not being used.
"
::= { apexManualRouteEntry 11 }
apexManualRouteOutputEncryptMode OBJECT-TYPE
SYNTAX INTEGER
{
clear (1)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Encryption Mode.
Not supported.
"
::= { apexManualRouteEntry 12 }
apexManualRouteOutputCopyProtectSource OBJECT-TYPE
SYNTAX INTEGER
{
followInputDtcp (1),
configuredSource (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Copy Protection Source.
Not supported.
"
::= { apexManualRouteEntry 13 }
apexManualRouteSourceId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Broadcast Encryption Source ID.
Only applies to programs if the input type is Gbe and the
output encryption mode is Broadcast Encryption.
(apexOutputTsConfEncryptionType set to 'broadcastEncryption')
"
::= { apexManualRouteEntry 14 }
apexManualRouteProviderId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Broadcast Encryption Provider ID.
Only applies to programs if the input type is Gbe and the
output encryption mode is Broadcast Encryption.
(apexOutputTsConfEncryptionType set to 'broadcastEncryption')
"
::= { apexManualRouteEntry 15 }
-- ------------------------------------------------------------------------------
--
-- apexManRtePassThroughApplyTable
--
apexManRtePassThroughApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManRtePassThroughApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for Manual Route Pass Through Table.
A row in this table corresponds to the same row index in the
Manual Route Pass Through table.
"
::= { apexManualRoutingConfig 4 }
apexManRtePassThroughApplyEntry OBJECT-TYPE
SYNTAX ApexManRtePassThroughApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual Route Apply Table Entry."
INDEX { apexManRtePassThroughApplyOutputTsNum }
::= { apexManRtePassThroughApplyTable 1 }
ApexManRtePassThroughApplyEntry ::= SEQUENCE
{
apexManRtePassThroughApplyOutputTsNum Integer32,
apexManRtePassThroughApplyChange ApplyDataToDeviceTYPE
}
apexManRtePassThroughApplyOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Manual Route Pass Through Apply Table."
::= { apexManRtePassThroughApplyEntry 1 }
apexManRtePassThroughApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the Manual Route Pass Through Table.
A row in this table corresponds to the same row index in the
Manual Route Pass Through table.
This parameter MUST be set to 'apply' in order for any of the
data in the Manual Route Pass Through Table row to take effect
in the APEX. This parameter MUST be set LAST after all other
data in the Manual Route Pass Through Table row has been configured.
@Config(config=no, reboot=no)
"
::= { apexManRtePassThroughApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexManRtePassThroughTable
--
apexManRtePassThroughTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManRtePassThroughEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for Manual Route Pass Through. This table is used to
pass through an entire input stream to an output stream.
Once written, the change to a row this table will only take
immediate effect after the appropriate apexManRtePassThroughApplyChange
is set to 'apply'. In order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexManRtePassThroughApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexManualRoutingConfig 5 }
apexManRtePassThroughEntry OBJECT-TYPE
SYNTAX ApexManRtePassThroughEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual Route Pass Through Table Entry."
INDEX { apexManRtePassThroughOutputTsNum }
::= { apexManRtePassThroughTable 1 }
ApexManRtePassThroughEntry ::= SEQUENCE
{
apexManRtePassThroughOutputTsNum Integer32,
apexManRtePassThroughEnable EnableDisableTYPE,
apexManRtePassThroughInputType INTEGER,
apexManRtePassThroughInputInterface Integer32,
apexManRtePassThroughInputUdp Integer32,
apexManRtePassThroughInputMulticastIp IpAddress,
apexManRtePassThroughInputSourceIp IpAddress
}
apexManRtePassThroughOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Manual Route Pass Through Table."
::= { apexManRtePassThroughEntry 1 }
apexManRtePassThroughEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates that this Manual Route Pass Through is enabled or disabled.
An input stream can only be passed through to an output stream when
there are no active service or PID mappings to the output stream.
"
::= { apexManRtePassThroughEntry 2 }
apexManRtePassThroughInputType OBJECT-TYPE
SYNTAX INTEGER
{
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Type of input from which to obtain data.
"
::= { apexManRtePassThroughEntry 3 }
apexManRtePassThroughInputInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of the input interface, of type configured by Input Type,
from which to obtain data.
Range:
'0' = Not Applicable
GBE = 1-4
FastEnet = 1-2
"
::= { apexManRtePassThroughEntry 4 }
apexManRtePassThroughInputUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input UDP Port from which to obtain data.
Range:
GBE = 0-65535
FastEnet = 1024-65535
"
::= { apexManRtePassThroughEntry 5 }
apexManRtePassThroughInputMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Multicast IP address from which to obtain data.
An IP address of 0.0.0.0 indicates table entry not in use.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexManRtePassThroughEntry 6 }
apexManRtePassThroughInputSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input IGMP v3 Source IP address from which to obtain data.
If the router supports IGMP v3 the GBE will only receive data from
this source IP. If Source IP is not specified or the router does not
support IGMP v3 the GBE will receive data from any source device.
Source IP address must be a valid singlecast address.
"
::= { apexManRtePassThroughEntry 7 }
-- ------------------------------------------------------------------------------
--
-- apexManualRouteGbeInputRedundConfig
--
-- apexManRteGbeInRedConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexManRteGbeInRedApplyTable
--
apexManRteGbeInRedApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManRteGbeInRedApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for Manual Route Table.
A row in this table corresponds to the same row index in the
Manual Route table.
"
::= { apexManualRouteGbeInputRedundConfig 2 }
apexManRteGbeInRedApplyEntry OBJECT-TYPE
SYNTAX ApexManRteGbeInRedApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual Routing Gbe Input Ts Configuration Apply Table Entry."
INDEX { apexManRteGbeInRedApplyIndex }
::= { apexManRteGbeInRedApplyTable 1 }
ApexManRteGbeInRedApplyEntry ::= SEQUENCE
{
apexManRteGbeInRedApplyIndex Integer32,
apexManRteGbeInRedApplyChange ApplyDataToDeviceTYPE
}
apexManRteGbeInRedApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Manual Routing Gbe Input Ts Configuration
Apply Table."
::= { apexManRteGbeInRedApplyEntry 1 }
apexManRteGbeInRedApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the Manual Routing Gbe Input Ts
Configuration Table.
A row in this table corresponds to the same row index in the
Manual Routing Gbe Input Ts Configuration table.
This parameter MUST be set to 'apply' in order for any of the data
in the Manual Routing Gbe Input Ts Configuration Table row to take
effect in the APEX. This parameter MUST be set LAST after all other
data in the Manual Routing Gbe Input Ts Configuration Table row has
been configured.
@Config(config=no, reboot=no)
"
::= { apexManRteGbeInRedApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexManRteGbeInRedTable
--
apexManRteGbeInRedTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManRteGbeInRedEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table is the Manual Routing Gigabit Ethernet Input Transport
Stream Configuration Table. This table contains 768 rows.
For Force Switching a Redundancy pair for an Input TS configured
in this table, refer to the same row index in
apexManRteGbeInRedForceSwitchTable.
Once written, the change to this table will only take immediate
effect after apexManRteGbeInRedApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexManRteGbeInRedApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(gige_red.ini, type='ini')
"
::= { apexManualRouteGbeInputRedundConfig 3 }
apexManRteGbeInRedEntry OBJECT-TYPE
SYNTAX ApexManRteGbeInRedEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual Routing Gigabit Ethernet Input Transport Stream Configuration
Table Entry."
INDEX { apexManRteGbeInRedIndex }
::= { apexManRteGbeInRedTable 1 }
ApexManRteGbeInRedEntry ::= SEQUENCE
{
apexManRteGbeInRedIndex Integer32,
apexManRteGbeInRedPriInterface Integer32,
apexManRteGbeInRedPriUdp Integer32,
apexManRteGbeInRedPriMulticastIp IpAddress,
apexManRteGbeInRedPriSourceIp IpAddress,
apexManRteGbeInRedPriLowAlarmBitRate Integer32,
apexManRteGbeInRedPriHighAlarmBitRate Integer32,
apexManRteGbeInRedRateCompareType RateComparisonTYPE,
apexManRteGbeInRedEnable EnableDisableTYPE,
apexManRteGbeInRedThreshold Integer32,
apexManRteGbeInRedSuspend INTEGER,
apexManRteGbeInRedSecInterface Integer32,
apexManRteGbeInRedSecUdp Integer32,
apexManRteGbeInRedSecMulticastIp IpAddress,
apexManRteGbeInRedSecSourceIp IpAddress,
apexManRteGbeInRedSecLowAlarmBitRate Integer32,
apexManRteGbeInRedSecHighAlarmBitRate Integer32,
apexManRteGbeInRedSecRedundMcJoin INTEGER
}
apexManRteGbeInRedIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Manual Routing Gbe Input Ts Configuration table index.
"
::= { apexManRteGbeInRedEntry 1 }
apexManRteGbeInRedPriInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The primary Gigabit Ethernet Interface.
Zero indicates this row of the table is not in use.
"
::= { apexManRteGbeInRedEntry 2 }
apexManRteGbeInRedPriUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The primary Gigabit Ethernet Input UDP Port.
"
::= { apexManRteGbeInRedEntry 3 }
apexManRteGbeInRedPriMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The primary Multicast receive IP address.
An IP address of 0.0.0.0 indicates table entry not in use.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexManRteGbeInRedEntry 4 }
apexManRteGbeInRedPriSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the source device for the primary interface.
If the router supports IGMP v3 the GBE will only receive data from
this source IP. If Source IP is not specified or the router does not
support IGMP v3 the GBE will receive data from any source device.
Source IP address must be a valid singlecast address.
"
::= { apexManRteGbeInRedEntry 5 }
apexManRteGbeInRedPriLowAlarmBitRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the bit rate, in bits per second, below which the
APEX will issue the apexAlarmGbeInputStreamLowBitRate alarm
for the primary interface.
The APEX will compare either the current Information rate or Stream
rate as configured in apexManRteGbeInRedRateCompareType.
Setting to zero disables the bit rate alarming.
The APEX updates the bit rate statistics every five seconds.
"
::= { apexManRteGbeInRedEntry 6 }
apexManRteGbeInRedPriHighAlarmBitRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the bit rate, in bits per second, above which the
APEX will issue the apexAlarmGbeInputStreamHighBitRate alarm
for the primary interface.
The APEX will compare either the current Information rate or Stream
rate as configured in apexManRteGbeInRedRateCompareType.
Setting to zero disables the bit rate alarming.
The APEX updates the bit rate statistics every five seconds.
Not supported.
"
::= { apexManRteGbeInRedEntry 7 }
apexManRteGbeInRedRateCompareType OBJECT-TYPE
SYNTAX RateComparisonTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the rate to use for comparing input streams. It is
either Information rate or Stream rate. This applies to monitoring
for Bit Rate alarming and monitoring of Redundant Pairs.
"
::= { apexManRteGbeInRedEntry 8 }
apexManRteGbeInRedEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This entry is used to enable Redundancy.
"
::= { apexManRteGbeInRedEntry 9 }
apexManRteGbeInRedThreshold OBJECT-TYPE
SYNTAX Integer32(0..100)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Manual Routing Gigabit Ethernet Redundancy Threshold.
This is the percent used to determine Fail Over from Primary
to Secondary, and Switch Back from Secondary to Primary. If
a value of zero is specified, Fail Over or Switch Back will
not occur. Range is 0 to 100%.
Primary Fail Over to Secondary:
FailOver = (PrimaryRate) < (Threshold * SecondaryRate)
The Primary must remain below the threshold for
apexGbeConfInRedundMonitorPeriod. Fail Over will not occur when
apexManRteGbeInRedSuspend is set to 'suspended'.
Secondary Switch Back to Primary:
SwitchBack = (PrimaryRate) >= (Threshold * SecondaryRate)
The Primary must remain at or above the threshold for
apexGbeConfInRedundMonitorPeriod seconds. The APEX will delay
Switch Back an additional apexGbeConfInRedundSwitchTime
seconds. Switch Back will not occur when
apexManRteGbeInRedSuspend is set to 'suspended' or
apexGbeConfInRedundAutoSwitchBack is 'disabled'.
"
::= { apexManRteGbeInRedEntry 10 }
apexManRteGbeInRedSuspend OBJECT-TYPE
SYNTAX INTEGER
{
notSuspended (1),
suspended (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This suspends Redundant Pair switching when set to 'suspended'.
This has no effect when redundancy is disabled.
Forced switching of Redundant Pairs is not prevented when this is
set to 'suspended'.
"
::= { apexManRteGbeInRedEntry 11 }
apexManRteGbeInRedSecInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The secondary Gigabit Ethernet Interface for redundancy.
Zero is invalid when redundancy is enabled.
"
::= { apexManRteGbeInRedEntry 12 }
apexManRteGbeInRedSecUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The secondary Gigabit Ethernet Input UDP Port for redundancy.
"
::= { apexManRteGbeInRedEntry 13 }
apexManRteGbeInRedSecMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The secondary Multicast receive IP address for redundancy.
An IP address of 0.0.0.0 indicates singlecast only.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexManRteGbeInRedEntry 14 }
apexManRteGbeInRedSecSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the source device for the secondary interface.
If the router supports IGMP v3 the GBE will only receive data from
this source IP. If Source IP is not specified or the router does not
support IGMP v3 the GBE will receive data from any source device.
Source IP address must be a valid singlecast address.
"
::= { apexManRteGbeInRedEntry 15 }
apexManRteGbeInRedSecLowAlarmBitRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the bit rate, in bits per second, below which the
APEX will issue the apexAlarmGbeInputStreamLowBitRate alarm
for the secondary interface.
The APEX will compare either the current Information rate or Stream
rate as configured in apexManRteGbeInRedRateCompareType.
Setting to zero disables the bit rate alarming.
The APEX updates the bit rate statistics every five seconds.
"
::= { apexManRteGbeInRedEntry 16 }
apexManRteGbeInRedSecHighAlarmBitRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the bit rate, in bits per second, above which the
APEX will issue the apexAlarmGbeInputStreamHighBitRate alarm
for the secondary interface.
The APEX will compare either the current Information rate or Stream
rate as configured in apexManRteGbeInRedRateCompareType.
Setting to zero disables the bit rate alarming.
The APEX updates the bit rate statistics every five seconds.
Not supported.
"
::= { apexManRteGbeInRedEntry 17 }
apexManRteGbeInRedSecRedundMcJoin OBJECT-TYPE
SYNTAX INTEGER
{
noJoinOnOpen (1),
joinOnOpen (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is not currently supported and is reserved for future use.
"
::= { apexManRteGbeInRedEntry 18 }
-- ------------------------------------------------------------------------------
--
-- apexManRteGbeInRedForceSwitchTable
--
apexManRteGbeInRedForceSwitchTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManRteGbeInRedForceSwitchEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table is the Manual Routing Gigabit Ethernet Input Transport
Stream Redundancy Configuration Table. This table contains 768 rows.
A row in this table corresponds to the same index in the
apexManRteGbeInRedTable.
"
::= { apexManualRouteGbeInputRedundConfig 4 }
apexManRteGbeInRedForceSwitchEntry OBJECT-TYPE
SYNTAX ApexManRteGbeInRedForceSwitchEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Stream Redundancy Configuration Table Entry."
INDEX { apexManRteGbeInRedForceSwitchIndex }
::= { apexManRteGbeInRedForceSwitchTable 1 }
ApexManRteGbeInRedForceSwitchEntry ::= SEQUENCE
{
apexManRteGbeInRedForceSwitchIndex Integer32,
apexManRteGbeInRedForceSwitch INTEGER
}
apexManRteGbeInRedForceSwitchIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Manual Routing Gbe Input Ts Redundancy Configuration table index.
A row in this table corresponds to the same index in the
apexManRteGbeInRedTable."
::= { apexManRteGbeInRedForceSwitchEntry 1 }
apexManRteGbeInRedForceSwitch OBJECT-TYPE
SYNTAX INTEGER
{
switchNotInProgress (1),
forceSwitch (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Gigabit Ethernet Redundant Pair force switch.
This will have no effect if the corresponding row setting of
apexManRteGbeInRedEnable is 'disabled'.
The corresponding row setting apexManRteGbeInRedSuspend is
ignored when 'forceSwitch' is set. The switch will occur even if
apexManRteGbeInRedSuspend is 'suspended'.
When forced to the Secondary of the pair, the APEX will stay on the
Secondary until the user forces back to the Primary. The APEX will
not automatically switch back to the Primary when the Primary is
restored above the failover threshold.
The APEX will not allow a force to the Primary unless the Primary
is above the failover threshold.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexManRteGbeInRedForceSwitchEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexManualRoutingStatus
--
-- apexManualRoutingStatusGeneral
--
apexManualRouteInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexManualRouteApplyChange is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply of a
table entry that was invalid."
::= { apexManualRoutingStatusGeneral 1 }
apexManRtePassThroughInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexManRtePassThroughApplyChange is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply of a
table entry that was invalid."
::= { apexManualRoutingStatusGeneral 2 }
apexManRteGbeInRedInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexManRteGbeInRedTableApplyChange is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply of a
table entry that was invalid."
::= { apexManualRoutingStatusGeneral 3 }
-- ------------------------------------------------------------------------------
--
-- apexManualRouteGbeInputRedundStatus
--
-- apexManRteGbeInRedStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexManRteGbeInRedStatusMapTable
--
apexManRteGbeInRedStatusMapTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManRteGbeInRedStatusMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table provides the mapping between the indexes in
Manual Routing Gigabit Ethernet Input Transport Stream Redundancy Configuration
and Input TS Status. This table contains 768 rows.
The index in this table corresponds to the same index in the apexManRteGbeInRedTable.
"
::= { apexManualRouteGbeInputRedundStatus 2 }
apexManRteGbeInRedStatusMapEntry OBJECT-TYPE
SYNTAX ApexManRteGbeInRedStatusMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Stream Redundancy Configuration and
Status Mapping Table Entry."
INDEX { apexManRteGbeInRedStatusMapIndex }
::= { apexManRteGbeInRedStatusMapTable 1 }
ApexManRteGbeInRedStatusMapEntry ::= SEQUENCE
{
apexManRteGbeInRedStatusMapIndex Integer32,
apexManRteGbeInRedStatusMapInputTsStatRow Integer32
}
apexManRteGbeInRedStatusMapIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Manual Routing Gbe Input Ts Redundancy Configuration and
status mapping table index.
A index in this table corresponds to the same index in the
apexManRteGbeInRedTable."
::= { apexManRteGbeInRedStatusMapEntry 1 }
apexManRteGbeInRedStatusMapInputTsStatRow OBJECT-TYPE
SYNTAX Integer32(0..784)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Manual Routing Gbe Input TS Status index.
This provides the mapping between the entries in apexManRteGbeInRedTable
and apexInputTsStatTable.
The range of the index is 0 - 784, where 0 indicates no direct association
between configuration and status and the 1-784 is the actual Input Stream
status row (relative 1).
@Config(config=no, reboot=no)
"
::= { apexManRteGbeInRedStatusMapEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexManualRoutingServiceStatus
--
-- apexManualRoutingServiceStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexManualRoutingServiceStatusTable
--
apexManualRoutingServiceStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexManualRoutingServiceStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table provides the error status for manual routed service routing.
For each routing in manual routing table, the corresponding entry in
this table gives the service error status.
"
::= { apexManualRoutingServiceStatus 2 }
apexManualRoutingServiceStatusEntry OBJECT-TYPE
SYNTAX ApexManualRoutingServiceStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual routing service status table entry."
INDEX { apexManualRoutingServiceStatusIndex }
::= { apexManualRoutingServiceStatusTable 1 }
ApexManualRoutingServiceStatusEntry ::= SEQUENCE
{
apexManualRoutingServiceStatusIndex Integer32,
apexManualRoutingServiceErrorStatus INTEGER
}
apexManualRoutingServiceStatusIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Manual Routing Service Status Index.
This index in this table corresponds to the same index in the
apexManualRouteTable."
::= { apexManualRoutingServiceStatusEntry 1 }
apexManualRoutingServiceErrorStatus OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Program service error for the service routed in manual routing table.
The entry in this table corresponds to the same index entry in the
apexManualRouteTable.
"
::= { apexManualRoutingServiceStatusEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexAncillaryPidMapping
--
-- apexPidMapConfig
--
-- ------------------------------------------------------------------------------
--
-- apexPidMapTable
--
apexPidMapTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPidMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for Ancillary Pid Mapping. There are
480 rows in this table (APEX supports up to 480 ancillary PID mappings).
Once written, the change to this table will only take immediate
effect after apexPidMapApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexPidMapApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexPidMapConfig 1 }
apexPidMapEntry OBJECT-TYPE
SYNTAX ApexPidMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Pid Mapping Table Entry."
INDEX { apexPidMapIndex }
::= { apexPidMapTable 1 }
ApexPidMapEntry ::= SEQUENCE
{
apexPidMapIndex Integer32,
apexPidMapEnable EnableDisableTYPE,
apexPidMapInputType INTEGER,
apexPidMapInputInterface Integer32,
apexPidMapInputUdp Integer32,
apexPidMapInputMulticastIp IpAddress,
apexPidMapInputSourceIp IpAddress,
apexPidMapInputPid Integer32,
apexPidMapOutputTsNum Integer32,
apexPidMapOutputPid Integer32
}
apexPidMapIndex OBJECT-TYPE
SYNTAX Integer32(1..480)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of Pid Mapping Table."
::= { apexPidMapEntry 1 }
apexPidMapEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates whether this PID Mapping is enabled or disabled.
"
::= { apexPidMapEntry 2 }
apexPidMapInputType OBJECT-TYPE
SYNTAX INTEGER
{
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Type of input from which to obtain data.
"
::= { apexPidMapEntry 3 }
apexPidMapInputInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of the input, of type configured by Input Type,
from which to obtain data.
Range:
'0' = Not Applicable
GBE = 1-4
FastEnet = 1-2
"
::= { apexPidMapEntry 4 }
apexPidMapInputUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input UDP Port from which to obtain data.
Range:
GBE = 0-65535
FastEnet = 1024-65535
"
::= { apexPidMapEntry 5 }
apexPidMapInputMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Multicast receive IP address on which to receive data.
An IP address of 0.0.0.0 indicates singlecast only.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexPidMapEntry 6 }
apexPidMapInputSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the source device.
If the router supports IGMP v3 the GBE will only receive data from
this source IP. If Source IP is not specified or the router does not
support IGMP v3 the GBE will receive data from any source device.
Source IP address must be a valid singlecast address.
"
::= { apexPidMapEntry 7 }
apexPidMapInputPid OBJECT-TYPE
SYNTAX Integer32(0..8191)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input MPEG PID to multiplex. When PID Remapping for an output is
enabled, the input PID value and output PID value can be different. When
PID Remapping for an output is disabled, the input and output PIDs must
be the same. Input PID 0 (PAT PID) cannot be mapped by the user.
"
::= { apexPidMapEntry 8 }
apexPidMapOutputTsNum OBJECT-TYPE
SYNTAX Integer32(0..48)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Output Transport Stream Number of the output on which to place data.
Zero is only valid if the apexPidMapTable entry is not being used.
"
::= { apexPidMapEntry 9 }
apexPidMapOutputPid OBJECT-TYPE
SYNTAX Integer32(0..8191)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Output PID to use for the data. This output PID value must match the input
PID value when PID Remapping for the output stream is disabled.
Zero is only valid if the apexPidMapTable entry is not being used.
"
::= { apexPidMapEntry 10 }
-- ------------------------------------------------------------------------------
--
-- apexPidMapApplyTable
--
apexPidMapApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPidMapApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for PID Map Table.
A row in this table corresponds to the same row index in the
PID Map table.
"
::= { apexPidMapConfig 2 }
apexPidMapApplyEntry OBJECT-TYPE
SYNTAX ApexPidMapApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"PID Map Apply Table Entry."
INDEX { apexPidMapApplyIndex }
::= { apexPidMapApplyTable 1 }
ApexPidMapApplyEntry ::= SEQUENCE
{
apexPidMapApplyIndex Integer32,
apexPidMapApplyChange ApplyDataToDeviceTYPE
}
apexPidMapApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..480)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the PID Map Apply Table."
::= { apexPidMapApplyEntry 1 }
apexPidMapApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the PID Map Table.
A row in this table corresponds to the same row index in the
PID Map table.
This parameter MUST be set to 'apply' in order for any of the data
in the PID Map Table row to take effect in the APEX. This
parameter MUST be set LAST after all other data in the PID Map
Table row has been configured.
@Config(config=no, reboot=no)
"
::= { apexPidMapApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexBulkPidMapTable
--
apexBulkPidMapTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexBulkPidMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for Ancillary Bulk Pid Mapping. Apex supports 480
ancillary PID map routings. There are 480 rows in this table which
allows user to configure upto 480*48 PID configurations, but only
480 ancillary PID mappings will be routed on apex.
Once written, the change to this table will only take immediate
effect after apexBulkPidMapApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexBulkPidMapApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexPidMapConfig 3 }
apexBulkPidMapEntry OBJECT-TYPE
SYNTAX ApexBulkPidMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Bulk Pid Mapping Table Entry."
INDEX { apexBulkPidMapIndex }
::= { apexBulkPidMapTable 1 }
ApexBulkPidMapEntry ::= SEQUENCE
{
apexBulkPidMapIndex Integer32,
apexBulkPidMapEnable EnableDisableTYPE,
apexBulkPidMapInputType INTEGER,
apexBulkPidMapInputInterface Integer32,
apexBulkPidMapInputUdp Integer32,
apexBulkPidMapInputMulticastIp IpAddress,
apexBulkPidMapInputSourceIp IpAddress,
apexBulkPidMapInputPid Integer32,
apexBulkPidMapOutputTsNum01to32 Unsigned32,
apexBulkPidMapOutputTsNum33to48 Unsigned32,
apexBulkPidMapOutputPid Integer32
}
apexBulkPidMapIndex OBJECT-TYPE
SYNTAX Integer32(1..480)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of Bulk Pid Mapping Table. This index maps with apexBulkPidMapApplyIndex
Also, defines this table row size
"
::= { apexBulkPidMapEntry 1 }
apexBulkPidMapEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates whether this Bulk PID Mapping entry is enabled or disabled.
"
::= { apexBulkPidMapEntry 2 }
apexBulkPidMapInputType OBJECT-TYPE
SYNTAX INTEGER
{
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Type. Indicates if mapping is from gigabit ethernet or fast ethernet
"
::= { apexBulkPidMapEntry 3 }
apexBulkPidMapInputInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of the input, of type configured by Input Type,
from which to obtain data.
Range:
'0' = Not Applicable
GBE = 1-4
FastEnet = 1-2
"
::= { apexBulkPidMapEntry 4 }
apexBulkPidMapInputUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input UDP Port from which to obtain data.
Range:
GBE = 0-65535
FastEnet = 1024-65535
"
::= { apexBulkPidMapEntry 5 }
apexBulkPidMapInputMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Multicast receive IP address on which to receive data.
An IP address of 0.0.0.0 indicates singlecast only.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexBulkPidMapEntry 6 }
apexBulkPidMapInputSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the source device.
If the router supports IGMP v3 the GBE will only receive data from
this source IP. If Source IP is not specified or the router does not
support IGMP v3 the GBE will receive data from any source device.
Source IP address must be a valid singlecast address.
"
::= { apexBulkPidMapEntry 7 }
apexBulkPidMapInputPid OBJECT-TYPE
SYNTAX Integer32(0..8191)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input MPEG PID to multiplex. When PID Remapping for an output is
enabled, the input PID value and output PID value can be different. When
PID Remapping for an output is disabled, the input and output PIDs must
be the same. Input PID 0 (PAT PID) cannot be mapped by the user.
Zero is only valid if the apexBulkPidMapTable entry is not being used.
"
::= { apexBulkPidMapEntry 8 }
apexBulkPidMapOutputTsNum01to32 OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Bitfield for inserting PID streams into OTS 1 through 32 where:
bit 0(lsb) = OTS 1, bit 31(msb) = OTS 32. If the bit for the OTS
is set, then the current PID is inserted into the output.
"
::= { apexBulkPidMapEntry 9 }
apexBulkPidMapOutputTsNum33to48 OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Bitfield for inserting PID streams into OTS 33 through 48 where:
bit 0(lsb) = OTS 33, bit 15 = OTS 48. If the bit for the OTS
is set, then the current PID is inserted into the output.
Other bits are reserved.
"
::= { apexBulkPidMapEntry 10 }
apexBulkPidMapOutputPid OBJECT-TYPE
SYNTAX Integer32(0..8191)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Output PID to use for the data. This output PID value must match the input
PID value when PID Remapping for the output stream is disabled.
Zero is only valid if the apexBulkPidMapTable entry is not being used.
"
::= { apexBulkPidMapEntry 11 }
-- ------------------------------------------------------------------------------
--
-- apexBulkPidMapApplyTable
--
apexBulkPidMapApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexBulkPidMapApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for Bulk PID Map Table
(apexBulkPidMapTable).
A row in this table corresponds to the same row index in the
Bulk PID Map table.
"
::= { apexPidMapConfig 4}
apexBulkPidMapApplyEntry OBJECT-TYPE
SYNTAX ApexBulkPidMapApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Bulk PID Map Apply Table Entry."
INDEX { apexBulkPidMapApplyIndex }
::= { apexBulkPidMapApplyTable 1 }
ApexBulkPidMapApplyEntry ::= SEQUENCE
{
apexBulkPidMapApplyIndex Integer32,
apexBulkPidMapApplyChange ApplyDataToDeviceTYPE
}
apexBulkPidMapApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..480)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the bulk PID map Apply Table.
A row in this table corresponds to the same row index in the
entry in bulk PID map table."
::= { apexBulkPidMapApplyEntry 1 }
apexBulkPidMapApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the Bulk PID Map Table.
A row in this table corresponds to the same row index in the
Bulk PID Map table.
This paramter MUST be set to 'apply' in order for any of the data
in apexBulkPidMapTable row to take effect in the APEX. If
apexBulkPidMapTable is valid, host sets apexBulkPidMapApplyChange to
applyNotInProgressValidData. Otherwise, host sets apexPidMapApplyChange
to applyNotInProgressInvalidData. Also updates the parameter
apexBulkPidMapInvalidApplyText with text description of what is
wrong with changing apexBulkPidMapTable.
"
::= { apexBulkPidMapApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexPidMapConfigGeneral
--
apexPidMapConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This paramter MUST be set to 'apply' in order for any of the
data in apexPidMapConfigBulkPidEnable to effect. If enabled, host
deletes the pid mappings created based on apexPidMapTable and creates
based on apexBulkPidMapTable. If disabled, host deletes the pid mappings
created based on apexBulkPidMapTable and creates based on apexPidMapTable
Host after creating pid mapping, sets apexPidMapApplyChange with
applyNotInProgressValidData when the entry is successfully created.
Host sets the apply change to applyNotInProgressInvalidData when any error
occurs when PID mapping entry is created or when the apexPidMapConfigBulkPidEnable
is set with unknown value.
@Config(config=no, reboot=no)
"
::= { apexPidMapConfigGeneral 1 }
apexPidMapConfigBulkPidEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When enabled, this parameter indicates the host to route ancillary PIDs based
on apexBulkPidMapTable. When disabled, this parameter indicates the host to
route ancillary PIDs based on apexPidMapTable.
Once written, a change to apexPidMapConfigBulkPidEnable, will
only take effect after the appropriate apexPidMapConfigApplyChange
is set to 'apply'. In order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPidMapConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPidMapConfigGeneral 2 }
-- ------------------------------------------------------------------------------
--
-- apexPidMapInputAncillaryPidDetection
--
apexPidMapInputAncillaryPidDetectionTimeout OBJECT-TYPE
SYNTAX Unsigned32(1..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The loss of input ancillary PID detection timeout value in minutes.
The APEX will monitor for the configured number of minutes to check
whether atleast one TS packet for an input ancillay PID is received.
If no packet is received the APEX will raise the alarm
'apexAlarmLossOfInputAncillaryPid' and sends event
'apexEventLossOfInputAncillaryPid'. Each ancillary PID previously
received will be checked to determine that it is still being received
based on this setting.
Default value is 1 minute.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPidMapInputAncillaryPidDetection 1 }
-- ------------------------------------------------------------------------------
--
-- apexPidMapStatus
--
-- apexPidMapStatusGeneral
--
apexPidMapMaxPidMappings OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Maximum number of Ancillary PID mappings supported."
::= { apexPidMapStatusGeneral 1 }
apexPidMapInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexPidMapApplyChange is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply of a
table entry that was invalid."
::= { apexPidMapStatusGeneral 3 }
-- ------------------------------------------------------------------------------
--
-- apexBulkPidMapStatusGeneral
--
apexBulkPidMapInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexBulkPidMapApplyChange is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply of a
table entry that was invalid.
"
::= { apexBulkPidMapStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexInsertion
--
-- apexInsertionConfig
--
-- apexInsertionConfigGeneral
--
apexInsertionMode OBJECT-TYPE
SYNTAX INTEGER
{
efficient (1),
singleSection (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to set the insertion mode for the APEX.
The APEX may be configured to insert messages as efficiently as
possible (efficient) or restrict insertion to a single section
starting per packet (singleSection).
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexInsertionConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexInsertionStatus
--
-- apexInsertionStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexInsertPacketStatisticsTable
--
apexInsertPacketStatisticsTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexInsertPacketStatisticsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Output Transport Stream Insert Packet Statistics.
Indexed by Output Transport Stream number."
::= { apexInsertionStatus 2 }
apexInsertPacketStatisticsEntry OBJECT-TYPE
SYNTAX ApexInsertPacketStatisticsEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the Output Transport Stream Insert Packet Statistics table."
INDEX { apexInsertPacketStatOutputTsNum }
::= { apexInsertPacketStatisticsTable 1 }
ApexInsertPacketStatisticsEntry ::= SEQUENCE
{
apexInsertPacketStatOutputTsNum Integer32,
apexInsertPacketStatTotPkts Integer32,
apexInsertPacketStatNumPkts Integer32
}
apexInsertPacketStatOutputTsNum OBJECT-TYPE
SYNTAX Integer32 (1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexInsertPacketStatisticsEntry 1 }
apexInsertPacketStatTotPkts OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of packets inserted."
::= { apexInsertPacketStatisticsEntry 2 }
apexInsertPacketStatNumPkts OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of packets inserted during the last monitoring
period (currently 5 seconds)."
::= { apexInsertPacketStatisticsEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexInputTransport
--
-- apexInputTsConfig
--
-- apexInputTsConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexInputTsStatus
--
-- apexInputTsStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexInputTsStatTable
--
apexInputTsStatTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexInputTsStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Input Transport Stream Status data. For each input stream
in use, an entry in this row will be utilized. This table will indicate
the input stream in use by type, interface, UDP, multicast IP, and Source
IP address. This table will also indicate if the input stream is a Primary
or Secondary input stream.
Table of 768 GigE entries plus 16 Host entries (784 total input
entries). List of GigE and Host Ethernet input streams currently
in use. Each row contains an entry for Primary and Secondary
information along with the 1 currently in use.
"
::= { apexInputTsStatus 2 }
apexInputTsStatEntry OBJECT-TYPE
SYNTAX ApexInputTsStatEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Input Transport Stream Status Table Entry."
INDEX { apexInputTsStatIndex }
::= { apexInputTsStatTable 1 }
ApexInputTsStatEntry ::= SEQUENCE
{
apexInputTsStatIndex Integer32,
apexInputTsStatStreamInUse INTEGER,
apexInputTsStatInputType INTEGER,
apexInputTsStatRoutingType INTEGER,
apexInputTsStatPriState InputTsStateTYPE,
apexInputTsStatPriInputInterface Integer32,
apexInputTsStatPriInputUdp Integer32,
apexInputTsStatPriInputMulticastIp IpAddress,
apexInputTsStatPriInputSourceIp IpAddress,
apexInputTsStatSecState InputTsStateTYPE,
apexInputTsStatSecInputInterface Integer32,
apexInputTsStatSecInputUdp Integer32,
apexInputTsStatSecInputMulticastIp IpAddress,
apexInputTsStatSecInputSourceIp IpAddress,
apexInputTsStatRateCompareType RateComparisonTYPE
}
apexInputTsStatIndex OBJECT-TYPE
SYNTAX Integer32(1..784)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of Input Transport Stream Status Table."
::= { apexInputTsStatEntry 1 }
apexInputTsStatStreamInUse OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
primary (1),
secondary (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether the primary or secondary is in use. Zero
indicates this row is not in use.
"
::= { apexInputTsStatEntry 2 }
apexInputTsStatInputType OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input Type of both primary and secondary inputs.
"
::= { apexInputTsStatEntry 3 }
apexInputTsStatRoutingType OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
session (1),
manual (2),
udpMapping (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Routing Type of both primary and secondary inputs.
'session' - applies to SDV session routes (RPC, RTSP).
'manual' - applies to all manual routes (Manual Routing, PID
Mapping, and stream pass through).
'udpMapping - applies to UDP Port Mapping routes.
"
::= { apexInputTsStatEntry 4 }
apexInputTsStatPriState OBJECT-TYPE
SYNTAX InputTsStateTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current state of the primary Gigabit Ethernet Input TS configured
in apexManRteGbeInRedTable. States are:
closed (0) - Input TS is closed or table row is not in use.
openedInUse (1) - Input TS is opened and in use.
openedBackup (2) - Input TS is opened as backup only.
openedTransToBackup (3) - Input TS is opened, transitioning to backup state.
openedTransToInUse (4) - Input TS is opened, transitioning to in use state.
The states of 'openedBackup', 'openedTransToBackup', and 'openedTransToBackup'
apply only to Redundant Pairs. The state of
'openedBackup' applies to the Input TS of the pair that is not currently in
use. The state of 'openedTransToBackup' applies to the Input TS of the pair
that is currently in use but is transitioning to be the backup, as when a Fail
Over or Switch Back is occurring. The state of 'openedTransToInUse' applies
to the Input TS of the pair that is currently the backup use but is
transitioning to be the in use, as when a Fail Over or Switch Back is
occurring.
"
::= { apexInputTsStatEntry 5 }
apexInputTsStatPriInputInterface OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of the primary input interface of type Input Type.
"
::= { apexInputTsStatEntry 6 }
apexInputTsStatPriInputUdp OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input UDP Port for primary input.
"
::= { apexInputTsStatEntry 7 }
apexInputTsStatPriInputMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Multicast receive IP address for primary input.
"
::= { apexInputTsStatEntry 8 }
apexInputTsStatPriInputSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the IGMP v3 Source IP address of the source device for the primary input.
"
::= { apexInputTsStatEntry 9 }
apexInputTsStatSecState OBJECT-TYPE
SYNTAX InputTsStateTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current state of the secondary Gigabit Ethernet Input TS configured
in apexManRteGbeInRedTable. States are:
closed (0) - Input TS is closed or table row is not in use.
openedInUse (1) - Input TS is opened and in use.
openedBackup (2) - Input TS is opened as backup only.
openedTransToBackup (3) - Input TS is opened, transitioning to backup state.
openedTransToInUse (4) - Input TS is opened, transitioning to in use state.
The states of 'openedBackup', 'openedTransToBackup', and 'openedTransToBackup'
apply only to Redundant Pairs. The state of
'openedBackup' applies to the Input TS of the pair that is not currently in
use. The state of 'openedTransToBackup' applies to the Input TS of the pair
that is currently in use but is transitioning to be the backup, as when a Fail
Over or Switch Back is occurring. The state of 'openedTransToInUse' applies
to the Input TS of the pair that is currently the backup use but is
transitioning to be the in use, as when a Fail Over or Switch Back is
occurring.
"
::= { apexInputTsStatEntry 10 }
apexInputTsStatSecInputInterface OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of the secondary input interface of type Input Type.
"
::= { apexInputTsStatEntry 11 }
apexInputTsStatSecInputUdp OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input UDP Port for secondary input.
"
::= { apexInputTsStatEntry 12 }
apexInputTsStatSecInputMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Multicast receive IP address for secondary input.
"
::= { apexInputTsStatEntry 13 }
apexInputTsStatSecInputSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the IGMP v3 Source IP address of the source device for the secondary input.
"
::= { apexInputTsStatEntry 14 }
apexInputTsStatRateCompareType OBJECT-TYPE
SYNTAX RateComparisonTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the rate in use for comparing input streams. It is
either Information rate or Stream rate. This applies to monitoring
for Bit Rate alarming and monitoring of Redundant Pairs.
"
::= { apexInputTsStatEntry 15 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTransport
--
-- apexOutputTsConfig
--
-- apexOutputTsConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexOutputTsUtilizationMonitoring
--
-- apexOutputTsUtilizationMonitorGeneral
--
apexOutputTsUtilMonAlarmThreshold OBJECT-TYPE
SYNTAX Integer32 (0..100)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The threshold, in percent, used to produce the
apexAlarmOutputUtilizationFault alarm 'minor' while
monitoring Output Transport Stream Bandwidth Utilization.
An alarm of 'minor' will occur when this threshold is met
or exceeded for apexOutputTsUtilMonSetAlarmDelay. The alarm
will clear after remaining below this threshold for
apexOutputTsUtilMonClearAlarmDelay.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexOutputTsUtilizationMonitorGeneral 1 }
apexOutputTsUtilMonSetAlarmDelay OBJECT-TYPE
SYNTAX Integer32 (0..900)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the time in seconds that the Output Transport Stream
must be at or exceeding apexOutputTsUtilMonAlarmThreshold before
setting the apexAlarmOutputUtilizationFault alarm.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexOutputTsUtilizationMonitorGeneral 2 }
apexOutputTsUtilMonClearAlarmDelay OBJECT-TYPE
SYNTAX Integer32 (0..900)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the time in seconds that the Output Transport Stream
must be below apexOutputTsUtilMonAlarmThreshold before
clearing the apexAlarmOutputUtilizationFault alarm.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexOutputTsUtilizationMonitorGeneral 3 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsUtilizationMonitorTable
--
apexOutputTsUtilizationMonitorTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputTsUtilizationMonitorEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of configuration parameters for Rate Monitoring
of the Output Transport Stream Bandwidth Utilization. Utilization
information is accessed via apexOutputTsUtilizationTable."
::= { apexOutputTsUtilizationMonitoring 2 }
apexOutputTsUtilizationMonitorEntry OBJECT-TYPE
SYNTAX ApexOutputTsUtilizationMonitorEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Rate Monitoring Configuration Table Entry."
INDEX { apexOutputTsUtilMonOutputTsNum }
::= { apexOutputTsUtilizationMonitorTable 1 }
ApexOutputTsUtilizationMonitorEntry ::= SEQUENCE
{
apexOutputTsUtilMonOutputTsNum Integer32,
apexOutputTsUtilMonResetTotDropPacket ResetStatisticsTYPE
}
apexOutputTsUtilMonOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexOutputTsUtilizationMonitorEntry 1 }
apexOutputTsUtilMonResetTotDropPacket OBJECT-TYPE
SYNTAX ResetStatisticsTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Output Ts Reset total dropped packets.
Setting to 'reset' resets same apexOutputTsUtilizTotalDropPackets
index row in apexOutputTsUtilizationTable.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexOutputTsUtilizationMonitorEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsConfApplyTable
--
apexOutputTsConfApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputTsConfApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for Output Ts Config Table.
This apply is only used for apexOutputTsConfOperatingMode,
apexOutputTsConfEncryptionType, and apexOutputTsConfSimulcryptMode."
::= { apexOutputTsConfig 5 }
apexOutputTsConfApplyEntry OBJECT-TYPE
SYNTAX ApexOutputTsConfApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Apply Table Entry."
INDEX { apexOutputTsConfApplyIndex }
::= { apexOutputTsConfApplyTable 1 }
ApexOutputTsConfApplyEntry ::= SEQUENCE
{
apexOutputTsConfApplyIndex Integer32,
apexOutputTsConfApplyChange ApplyDataToDeviceTYPE
}
apexOutputTsConfApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of Output Transport Stream Apply Table."
::= { apexOutputTsConfApplyEntry 1 }
apexOutputTsConfApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The apply for Output Ts Config Table. This apply is only used for
apexOutputTsConfOperatingMode, apexOutputTsConfEncryptionType,
and apexOutputTsConfSimulcryptMode.
A row in this table corresponds to the same row index in the
Output Ts Config table.
This parameter MUST be set to 'apply' in order for the items listed
above to take effect in the APEX. This parameter MUST be set LAST
after the relevant data in the Output Ts Config row has been configured.
@Config(config=no, reboot=no)
"
::= { apexOutputTsConfApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsConfigTable
--
apexOutputTsConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputTsConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of configuration parameters for Output Transport
Streams.
Once written, a change to apexOutputTsConfEncryptionType,
apexOutputTsConfOperatingMode, or apexOutputTsConfSimulcryptMode will
only take immediate effect after the appropriate apexOutputTsConfApplyChange
is set to 'apply'. All other changes to this table will take immediate effect.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexOutputTsConfig 6 }
apexOutputTsConfigEntry OBJECT-TYPE
SYNTAX ApexOutputTsConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Configuration Table Entry."
INDEX { apexOutputTsConfOutputTsNum }
::= { apexOutputTsConfigTable 1 }
ApexOutputTsConfigEntry ::= SEQUENCE
{
apexOutputTsConfOutputTsNum Integer32,
apexOutputTsConfPidRemappingMode INTEGER,
apexOutputTsConfOperatingMode INTEGER,
apexOutputTsConfOutPatTsId Integer32,
apexOutputTsConfPsipEnable EnableDisableTYPE,
apexOutputTsConfEncryptionType INTEGER,
apexOutputTsConfSimulcryptMode INTEGER,
apexOutputTsConfPcrLess EnableDisableTYPE,
apexOutputTsConfAutoSDTEnable EnableDisableTYPE
}
apexOutputTsConfOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexOutputTsConfigEntry 1 }
apexOutputTsConfPidRemappingMode OBJECT-TYPE
SYNTAX INTEGER
{
disabled (1),
remapWithoutReuse (2),
remapProgramBased (3),
remapProgramBased2 (4),
unrestricted (5)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The PID Remapping mode setting.
When 'disabled', the output PIDs for all services and ancillary PIDs
are the same as the input PID values. This scheme can only be used
when either mapping an entire MPTS to a QAM output or when SPTS are
mapped and the user has already ensured that all of the PIDs across
all inputs mapped to the same output stream are unique.
When 'remapWithoutReuse', the APEX will determine the output PIDs
from a predetermined range of PIDs for services and ancillary PIDs.
The APEX will use a scheme to limit the reuse of service PIDs for each
service mapping. This scheme MUST be used for outputs in Session Control
mode and in normally in UDP Port Mapping mode (exception noted below).
When receiving SPTS inputs, in order to ensure there are no PID conflicts,
this scheme should be selected.
When 'remapProgramBased', the APEX will determine the output PIDs
from a predetermined range of PIDs for services and ancillary PIDs.
The APEX uses a scheme to select the PMT PID based on the program
number. The PMT PID is calculated as follows:
(Program Number + 1) * 16.
The component PIDs are sequential after the PMT PID. This scheme only
allows for a total of 15 component PIDs per program. Output program
numbers are also limited (1-256). This scheme is intended to be used
when in UDP Port Mapping mode at specific sites.
When 'unrestricted', the APEX will allocate output PIDs as long as they are
needed using the whole available PIDs range, unlike other pid-remapping modes where
PID values are internally pre-allocated for different uses (PMT, components, ECM, ...).
This scheme is only recommended for cases when the user need a special pre-assigned
EMM pid that can't be configured in the other pid-remapping modes.
PID Remapping mode changes can only occur when the output is not in use
(no service, PID, or stream mapping active to the output).
"
::= { apexOutputTsConfigEntry 2 }
apexOutputTsConfOperatingMode OBJECT-TYPE
SYNTAX INTEGER
{
notInUse (0),
sessionControl (1),
manualRouting (2),
udpMapping (3),
depi (4)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to set the operating mode of the output.
Operating mode changes can only occur when the output is not in use
(no service, PID, or stream mapping active to the output).
Session Control
- User must select either RTSP or RPC to communicate with external
resource manager. All service mappings on output are controlled
by the external manager.
- Only valid when Encryption Type is set to CTE or None
- If 'apexEncryptionConfAlgorithm' is set to dvb-csa-simulcrypt, then
it is valid only when Simulcrypt Mode is set to None.
- PID Remapping mode should be Enabled (Without Reuse)
Manual Routing
- User manually maps each service
- Encryption Type can be any valid setting (none, CTE, or Broadcast)
- Simulcrypt Mode must be None or External EIS
UDP Port Mapping
- Standard UDP Port Mapping for use with VOD servers. Uses specific
algorithm based on UDP Port to determine output program mappings.
- Encryption Type must be None or CTE (broadcast not supported)
- Simulcrypt Mode must be None or External EIS
Operating mode changes can only occur when the output is not in use
(no service, PID, or stream mapping active to the output).
@Commit(param=apexOutputTsConfApplyChange, value=2)
"
::= { apexOutputTsConfigEntry 3 }
apexOutputTsConfOutPatTsId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Output Transport Stream ID to use for the output PAT in this Output
Transport Stream. Changes to the output PAT TS ID can be made at any
time and will cause the output PAT to automatically be updated to
reflect the new TS ID setting.
"
::= { apexOutputTsConfigEntry 4 }
apexOutputTsConfPsipEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates that PSIP is enabled for the Output
Transport Stream.
"
::= { apexOutputTsConfigEntry 5 }
apexOutputTsConfEncryptionType OBJECT-TYPE
SYNTAX INTEGER
{
noEncryption (0),
cte (1),
broadcastEncryption (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to set the encryption type of the output.
'noEncryption'
- All services are output in the clear
'cte'
- Services on output use Common Tier Encryption. CTE parameters
determine encryption mode, copy protection, and tiers. All services
in CTE mode use the exact same configuration settings.
- Valid for all operating modes
- Simulcrypt Mode must be set to None if the Encryption Algorithm
is set to 'dvb-csa-simulcrypt'.
'broadcastEncryption'
- Services on output use Broadcast Encryption. Requires connection to
RDS (DAC) to get EMMs and Rights Meta Data (tiers, encryption mode, and
copy protection settings) for each individual service.
- Only valid when Operating Mode is Manual Routing.
- Simulcrypt Mode must be set to None if the Encryption Algorithm
is set to 'dvb-csa-simulcrypt'.
@Commit(param=apexOutputTsConfApplyChange, value=2)
"
::= { apexOutputTsConfigEntry 6 }
apexOutputTsConfSimulcryptMode OBJECT-TYPE
SYNTAX INTEGER
{
none (0),
externalEIS (1),
internalEIS (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to set the Simulcrypt mode of the output. The actual
behavior is disable/enable (none/externalEIS). It can be set to externalEIS
if:
- The Encryption Algorithm is set to 'dvb-csa-simulcrypt' and the Operating
Mode is set to 'ManualRouting' or 'udpMapping'.
- The Encryption Algorithm is set to 'mc-scte-52-simulcrypt' or
'mc-csa-simulcrypt' and the Operating Mode is set to 'ManualRouting',
'udpMapping' or 'SessionControl'.
It only can be none if there are no SCGs provisioned on that output TS.
'none'
- Used for normal Mediacypher only encryption (CTE or Broadcast Encryption).
'externalEIS'
- When Encryption Algorithm is set to 'dvb-csa-simulcrypt', it is
used to indicate an external EIS can control the encryption of all
services on the output.
- When Encryption Algorithm is set to 'mc-scte-52-simulcrypt' or
'mc-csa-simulcrypt', it is used to indicate that APEX will act as
the EIS to control encryption of all services on the output.
- Only valid when:
- Encryption Algorithm is set to 'dvb-csa-simulcrypt' and
Operating Mode is set to 'ManualRouting' or 'udpMapping'
- Encryption Algorithm is set to 'mc-scte-52-simulcrypt' or
'mc-csa-simulcrypt' and the Operating Mode is set to
'ManualRouting', 'udpMapping' or 'SessionControl'.
'internalEIS'
- Not supported at this time and is invalid to select.
@Commit(param=apexOutputTsConfApplyChange, value=2)
"
::= { apexOutputTsConfigEntry 7 }
apexOutputTsConfPcrLess OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates that PCR-less is enabled for the Output
Transport Stream.
"
::= { apexOutputTsConfigEntry 8 }
apexOutputTsConfAutoSDTEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter enables/disables the Auto SDT mapping feature for the Output
Transport Stream.
"
::= { apexOutputTsConfigEntry 9 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsStatus
--
-- apexOutputTsStatusGeneral
--
apexOutputTsStatusInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexOutputTsConfApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data. This
entry contains the description for the most recent apply
of a related entry that was invalid.
"
::= { apexOutputTsStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsUtilization
--
-- apexOutputTsUtilizationGeneral
--
apexOutputTsUtilizationSamplePeriod OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Sample Period for Output Transport Stream Bandwidth Utilization
Rate Monitoring.
This parameter indicates the length of time in milliseconds the
stream is monitored during a single sample.
This can be used with apexOutputTsUtilizNumSamples to
determine the amount of time or percent of time the stream was
monitored during a fifteen minute sampling interval."
::= { apexOutputTsUtilizationGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsUtilizationTable
--
apexOutputTsUtilizationTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputTsUtilizationEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This is a table of status parameters containing bandwidth
utilization for Output Transport Streams. The sampling
interval is up to fifteen minutes. There is a rolling
average as well as last sample, peak, and minimum information.
There is overflow information and dropped packet counts.
This table is indexed by Output Transport Stream Number."
::= { apexOutputTsUtilization 2 }
apexOutputTsUtilizationEntry OBJECT-TYPE
SYNTAX ApexOutputTsUtilizationEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Bandwidth Utilization Table Entry."
INDEX { apexOutputTsUtilizOutpuTsNum }
::= { apexOutputTsUtilizationTable 1 }
ApexOutputTsUtilizationEntry ::= SEQUENCE
{
apexOutputTsUtilizOutpuTsNum Integer32,
apexOutputTsUtilizDataFlag INTEGER,
apexOutputTsUtilizNumSamples Unsigned32,
apexOutputTsUtilizThreshold INTEGER,
apexOutputTsUtilizTime Unsigned32,
apexOutputTsUtilizCurPercent Integer32,
apexOutputTsUtilizAvgPercent Integer32,
apexOutputTsUtilizMinPercent Integer32,
apexOutputTsUtilizPeakPercent Integer32,
apexOutputTsUtilizCurRate Unsigned32,
apexOutputTsUtilizAvgRate Unsigned32,
apexOutputTsUtilizMinRate Unsigned32,
apexOutputTsUtilizPeakRate Unsigned32,
apexOutputTsUtilizOverflow INTEGER,
apexOutputTsUtilizCurDropPackets Unsigned32,
apexOutputTsUtilizPeakDropPackets Unsigned32,
apexOutputTsUtilizRollingDropPackets Unsigned32,
apexOutputTsUtilizTotalDropPackets Unsigned32,
apexOutputTsUtilizThresholdAlarm INTEGER,
apexOutputTsUtilizOverflowAlarm INTEGER
}
apexOutputTsUtilizOutpuTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexOutputTsUtilizationEntry 1 }
apexOutputTsUtilizDataFlag OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
samplingComplete (1),
samplingIncomplete (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Flag to indicate whether the Output Transport Stream was monitored
a full fifteen minute sampling interval and a complete set of samples
was obtained.
'samplingComplete' - indicates sampling complete with good samples.
'samplingIncomplete' - indicates incomplete sampling due to APEX
startup or OTS rate changed during the period."
::= { apexOutputTsUtilizationEntry 2 }
apexOutputTsUtilizNumSamples OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of samples included in the data.
This can be used with apexOutputTsUtilizationSamplePeriod
to determine the amount of time or percent of time the
stream was monitored during the sampling interval."
::= { apexOutputTsUtilizationEntry 3 }
apexOutputTsUtilizThreshold OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
noError (1),
alarmThresholdReached (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether there is a utilization error has occurred.
The error occurs when Output Utilization Alarm Threshold has
been reached for Output Utilization Set Alarm Delay seconds
and will clear after the output is below the Output Utilization
Alarm Threshold for Output Utilization Clear Alarm Delay. This
field is also cleared when the QAM output is disabled."
::= { apexOutputTsUtilizationEntry 4 }
apexOutputTsUtilizTime OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this table row was saved.
When GPS time is not available to the apex (apexSystemTime=0) a clock
maintained inside the APEX will be used. This clock starts at GPS time
zero when the apex is booted. The APEX will use real GPS time if and
when GPS time becomes available to the APEX."
::= { apexOutputTsUtilizationEntry 5 }
apexOutputTsUtilizCurPercent OBJECT-TYPE
SYNTAX Integer32 (0..100)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Percent utilization of most recently taken sample."
::= { apexOutputTsUtilizationEntry 6 }
apexOutputTsUtilizAvgPercent OBJECT-TYPE
SYNTAX Integer32 (0..100)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Average percent utilization over the rolling sampling interval."
::= { apexOutputTsUtilizationEntry 7 }
apexOutputTsUtilizMinPercent OBJECT-TYPE
SYNTAX Integer32 (0..100)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Minimum percent utilization for a sample during the rolling
sampling interval."
::= { apexOutputTsUtilizationEntry 8 }
apexOutputTsUtilizPeakPercent OBJECT-TYPE
SYNTAX Integer32 (0..100)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Peak percent utilization for a sample during the rolling
sampling interval."
::= { apexOutputTsUtilizationEntry 9 }
apexOutputTsUtilizCurRate OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Utilization of most recently taken sample
in bits per second (bps)."
::= { apexOutputTsUtilizationEntry 10 }
apexOutputTsUtilizAvgRate OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Average utilization for the rolling sampling interval
in bits per second (bps)."
::= { apexOutputTsUtilizationEntry 11 }
apexOutputTsUtilizMinRate OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Minimum utilization for a sample during this
sampling interval in bits per second (bps)."
::= { apexOutputTsUtilizationEntry 12 }
apexOutputTsUtilizPeakRate OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Peak utilization for a sample during the rolling
sampling interval in bits per second (bps)."
::= { apexOutputTsUtilizationEntry 13 }
apexOutputTsUtilizOverflow OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
noError (1),
overflow (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether an overflow error has occurred.
This field will clear if the output has no overflows.
This field is also cleared when the QAM output is
disabled."
::= { apexOutputTsUtilizationEntry 14 }
apexOutputTsUtilizCurDropPackets OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"MPEG packets dropped during the most recently
taken sample."
::= { apexOutputTsUtilizationEntry 15 }
apexOutputTsUtilizPeakDropPackets OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Peak MPEG packets dropped for a sample during the
rolling sampling interval."
::= { apexOutputTsUtilizationEntry 16 }
apexOutputTsUtilizRollingDropPackets OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total MPEG packets dropped during the rolling sampling interval."
::= { apexOutputTsUtilizationEntry 17 }
apexOutputTsUtilizTotalDropPackets OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total MPEG packets dropped on the QAM Output. Can be
reset using apexOutputTsUtilMonResetTotDropPacket."
::= { apexOutputTsUtilizationEntry 18 }
apexOutputTsUtilizThresholdAlarm OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of apexOutputTsUtilizThreshold. This is
the apexAlarmOutputUtilizationFault level for this output."
::= { apexOutputTsUtilizationEntry 19 }
apexOutputTsUtilizOverflowAlarm OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current fault condition of apexOutputTsUtilizOverflow. This is
the apexAlarmOutputOverflow level for this output."
::= { apexOutputTsUtilizationEntry 20 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsStatusTable
--
apexOutputTsStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputTsStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Output Transport Status.
Indexed by Output Transport Stream number."
::= { apexOutputTsStatus 5 }
apexOutputTsStatusEntry OBJECT-TYPE
SYNTAX ApexOutputTsStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the Output Transport Stream Status table."
INDEX { apexOutputTsStatusOutputTsNum }
::= { apexOutputTsStatusTable 1 }
ApexOutputTsStatusEntry ::= SEQUENCE
{
apexOutputTsStatusOutputTsNum Integer32,
apexOutputTsStatusProgramsPerTs Integer32,
apexOutputTsStatusServicesMapped Integer32,
apexOutputTsStatusAncillaryPidsMapped Integer32,
apexOutputTsStatusInputStreamsMapped Integer32,
apexOutputTsStatusFault INTEGER,
apexOutputTsStatusServicesInError Integer32,
apexOutputTsStatusDepiSessionsMapped Integer32,
apexOutputTsStatusMessageGenerationNum Integer32,
apexOutputTsStatusScgsProvisioned Integer32,
apexOutputTsStatusServicesMuxed Integer32
}
apexOutputTsStatusOutputTsNum OBJECT-TYPE
SYNTAX Integer32 (1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexOutputTsStatusEntry 1 }
apexOutputTsStatusProgramsPerTs OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of Output Programs supported on this Output Transport Stream.
"
::= { apexOutputTsStatusEntry 2 }
apexOutputTsStatusServicesMapped OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of services currently mapped to the output."
::= { apexOutputTsStatusEntry 3 }
apexOutputTsStatusAncillaryPidsMapped OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of ancillary PIDs currently mapped to the output."
::= { apexOutputTsStatusEntry 4 }
apexOutputTsStatusInputStreamsMapped OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of input streams currently mapped to the output."
::= { apexOutputTsStatusEntry 5 }
apexOutputTsStatusFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Highest current fault condition associated with this Output
Transport Stream. The following Alarms are included:
- apexAlarmOutputOverflow
- apexAlarmOutputUtilizationFault
- apexAlarmQamModuleFault
- apexAlarmQamRfPortFault
- apexAlarmQamChannelFault
"
::= { apexOutputTsStatusEntry 6 }
apexOutputTsStatusServicesInError OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of services in error mapped to the output stream."
::= { apexOutputTsStatusEntry 7 }
apexOutputTsStatusDepiSessionsMapped OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of DEPI sessions currently mapped to the output."
::= { apexOutputTsStatusEntry 8 }
apexOutputTsStatusMessageGenerationNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages generated (DVB tables) currently in the output."
::= { apexOutputTsStatusEntry 9 }
apexOutputTsStatusScgsProvisioned OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of SCGs provisioned currently in the output."
::= { apexOutputTsStatusEntry 10 }
apexOutputTsStatusServicesMuxed OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of services successfully multiplexed."
::= { apexOutputTsStatusEntry 11 }
-- ------------------------------------------------------------------------------
--
-- apexPsi
--
-- apexPsiConfig
--
-- apexPsiConfigGeneral
--
apexPsiDetectionEnabled OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The loss of input PSI detection enabled or disabled setting. When enabled,
the APEX will check for missing input PSI (PATs and PMTs) based on the PSI
detection timeout value. When an input PSI message is determined to be
missing, the APEX will assume the input service or services are no longer
being streamed and unmap the service(s). This checking only occurs after
an initial PSI message has been extracted.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 1 }
apexPsiDetectionTimeout OBJECT-TYPE
SYNTAX Integer32(1..21600)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The loss of input PSI detection timeout value. When PSI detection is enabled,
this is the number of seconds the APEX will use to determine if an input PSI
message is missing. Each PSI message previously extracted will be checked to
determine that it is still being received based on this setting.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 2 }
apexPsiRangeStart OBJECT-TYPE
SYNTAX Integer32(0..15)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Minimum PSI version number. Used to limit the APEX to use a specific range
of PSI numbers. Set this to 0 to allow the APEX to use the full range of
PSI version numbers (requires apexPsiRangeStop to be set to 31).
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 3 }
apexPsiRangeStop OBJECT-TYPE
SYNTAX Integer32(1..31)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Maximum PSI version number. Used to limit the APEX to use a specific range
of PSI numbers. Set this to 31 to allow the APEX to use the full range of
PSI version numbers (requires apexPsiRangeStart to be set to 0).
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 4 }
apexPatVersionIncrement OBJECT-TYPE
SYNTAX Integer32(1..15)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Increment of PAT version upon reboot. Used to force the APEX to use a different
PAT version number upon rebooting.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 5 }
apexPmtVersionIncrement OBJECT-TYPE
SYNTAX Integer32(1..15)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Increment of PMT version upon reboot. Used to force the APEX to use a different
PMT version number upon rebooting.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 6 }
apexEcmEmmFirstPid OBJECT-TYPE
SYNTAX Integer32(2..7591)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"First ECM-EMM PID when PID Remapping is disabled on an output stream.
This PID along with the apexEcmEmmNumberPids defines a range of PIDs that
the APEX will use for all ECMs and EMMs. These configuration settings allow
a user to select a range that other service and ancillary PIDs will not
use. This allows the APEX to use PIDs for ECMs and EMMs without having PID
collisions. PID collisions will cause the APEX to select another ECM or EMM
PID causing momentary glitches of the output video and audio.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 7 }
apexEcmEmmNumberPids OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of ECM-EMM PIDs to use when PID Remapping is disabled on an output stream.
Refer to the apexEcmEmmFirstPid parameter for a complete description.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 8 }
apexProgramBasedPmtOffset OBJECT-TYPE
SYNTAX Integer32(1 | 2)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Program Based PID Remapping PMT PID offset. Determines the first
PMT PID to use when Program Based algorithm selected. PMT PID
is calculated as:
(Program Number + Offset) * 16
Program Numbers can range from 1 - 255, allowing for PMTs to start
at 0x0020 or 0x0030 up to 0x1000 and 0x1010.
Changes to offset will NOT require a reboot, but if there are
any service mappings already in use on an output in
Program Based mode, then the change will NOT take effect and the
user will have to remove all mappings on outputs in Program
Based mode.
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 9 }
apexPsiCcErrorDetectionTimeout OBJECT-TYPE
SYNTAX Integer32(1..60)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Time in seconds to wait for PSI extraction after a CC error is detected.
This is applicable if the object apexPsiCcErrorDetectionEnabled is set to
enabled only.
Default value is 2 seconds.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 10 }
apexPsiCcErrorDetectionEnabled OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enable/disable field to start/stop PSI extraction when a Continuity Counter
error is detected.
The PSI extraction is stopped for the time duration configured in the object
apexPsiCcErrorDetectionTimeout.
Default value is enabled.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsiConfigGeneral 11 }
-- ------------------------------------------------------------------------------
--
-- apexPsiStatus
--
-- apexPsiStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexPsiStatusTable
--
apexPsiStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPsiStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The following table contains a list of messages that are either being extracted
from the input side or being inserted to the output side of the apex. On the
input side all extracted messages that are being used by the APEX are displayed.
On the output side, only PATs, PMTs, and CATs are displayed. These messages
were either given to the apex when it is in external mode or created by the apex
when it is in internal mode."
::= { apexPsiStatus 2 }
apexPsiStatusEntry OBJECT-TYPE
SYNTAX ApexPsiStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"PSI Table Entry."
INDEX { apexPsiStatusTableType, apexPsiStatusIndex, apexPsiStatusPid, apexPsiStatusMessageType,
apexPsiStatusProgramNumber, apexPsiStatusSegment, apexPsiStatusPart }
::= { apexPsiStatusTable 1 }
ApexPsiStatusEntry ::= SEQUENCE
{
apexPsiStatusTableType INTEGER,
apexPsiStatusIndex Integer32,
apexPsiStatusPid Integer32,
apexPsiStatusMessageType Integer32,
apexPsiStatusProgramNumber Integer32,
apexPsiStatusSegment Integer32,
apexPsiStatusPart Integer32,
apexPsiStatusBody DisplayString,
apexPsiStatusGpsTime Integer32
}
apexPsiStatusTableType OBJECT-TYPE
SYNTAX INTEGER
{
inputPsiTable (1),
outputPsiTable (2)
}
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates whether this message is extracted from an input or
being inserted on an output."
::= { apexPsiStatusEntry 1 }
apexPsiStatusIndex OBJECT-TYPE
SYNTAX Integer32(1..784)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the input index or output number for which this message applies.
For input, this is the index into the apexInputTsStatTable (1..784).
For output, this is the Output Transport Stream number (1..48). "
::= { apexPsiStatusEntry 2 }
apexPsiStatusPid OBJECT-TYPE
SYNTAX Integer32(0..8191)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the PID that this message is contained in."
::= { apexPsiStatusEntry 3 }
apexPsiStatusMessageType OBJECT-TYPE
SYNTAX Integer32(0..255)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the MPEG message type of this message."
::= { apexPsiStatusEntry 4 }
apexPsiStatusProgramNumber OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the Program Number which this message is part of. When a
message is not specifically related to a program, this value is 0."
::= { apexPsiStatusEntry 5 }
apexPsiStatusSegment OBJECT-TYPE
SYNTAX Integer32(0..256)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the segment number of this message. Useful for PAT messages.
Otherwise this is 0."
::= { apexPsiStatusEntry 6 }
apexPsiStatusPart OBJECT-TYPE
SYNTAX Integer32(1..16)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Since a message can be 1024 bytes long the message may divided into parts.
Each part of the message is indexed using this index."
::= { apexPsiStatusEntry 7 }
apexPsiStatusBody OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Raw ASCII hex of the PSI message."
::= { apexPsiStatusEntry 8 }
apexPsiStatusGpsTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The GPS time when the PSI was added to the table."
::= { apexPsiStatusEntry 9 }
-- ------------------------------------------------------------------------------
--
-- apexOutputProgram
--
-- apexOutputProgramConfig
--
-- apexOutputProgramConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexOutputProgramStatus
--
-- apexOutputProgramStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexOutputProgramTable
--
apexOutputProgramTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputProgramEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table shows the input program to output program
mapping status."
::= { apexOutputProgramStatus 2 }
apexOutputProgramEntry OBJECT-TYPE
SYNTAX ApexOutputProgramEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Program Table Entry."
INDEX { apexOutputProgramIndex }
::= { apexOutputProgramTable 1 }
ApexOutputProgramEntry ::= SEQUENCE
{
apexOutputProgramIndex Integer32,
apexOutputProgramInputTsIndex Integer32,
apexOutputProgramInputProgNum Integer32,
apexOutputProgramOutputProgNum Integer32,
apexOutputProgramRoutingStatus DisplayString,
apexOutputProgramInputPreEncrypted INTEGER,
apexOutputProgramOutputTsNum Integer32,
apexOutputProgramError INTEGER,
apexOutputProgramEncryptionMode INTEGER,
apexOutputProgramEncryptionStatus DisplayString,
apexOutputProgramEcmServiceId Integer32,
apexOutputProgramCciLevel INTEGER,
apexOutputProgramApsLevel INTEGER,
apexOutputProgramCitSetting INTEGER,
apexOutputProgramNumberTiers Integer32,
apexOutputProgramTierData DisplayString,
apexOutputProgramSourceId Integer32,
apexOutputProgramProviderId Integer32,
apexOutputProgramProgramType INTEGER,
apexOutputProgramDtaEncryptionMode INTEGER,
apexOutputProgramMcSimAccessCriteria Integer32,
apexOutputProgramMcSimAccessCriteriaStatus INTEGER,
apexOutputProgramCurrentCSN Integer32,
apexOutputProgramMcSimAccessCriteriaString DisplayString
}
apexOutputProgramIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Program Table Index. "
::= { apexOutputProgramEntry 1 }
apexOutputProgramInputTsIndex OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the apexInputTsStatTable."
::= { apexOutputProgramEntry 2 }
apexOutputProgramInputProgNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input MPEG Program Number."
::= { apexOutputProgramEntry 3 }
apexOutputProgramOutputProgNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Output MPEG Program Number."
::= { apexOutputProgramEntry 4 }
apexOutputProgramRoutingStatus OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Program Routing Status."
::= { apexOutputProgramEntry 5 }
apexOutputProgramInputPreEncrypted OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
clear (1),
preEncrypted (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether the program was pre-encrypted.
Pre-encryption status is determined by the presence or
absence of a CA ECM descriptor within the input PMT."
::= { apexOutputProgramEntry 6 }
apexOutputProgramOutputTsNum OBJECT-TYPE
SYNTAX Integer32(0..48)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Output Transport Stream Number."
::= { apexOutputProgramEntry 7 }
apexOutputProgramError OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates if the program is in error."
::= { apexOutputProgramEntry 8 }
apexOutputProgramEncryptionMode OBJECT-TYPE
SYNTAX INTEGER
{
none (0),
full (1),
fwk (2),
fpk (3),
clear (4),
unencrypted (5),
preEncrypted (6),
unencryptedWithCci (7)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Currently configured encryption mode for the program.
none - indicates the program is not being encrypted for
CTE or Broadcast encryption.
unencrypted - Applies to Broadcast services only. Unencrypted
services are treated the same as clear services (no encryption).
preEncrypted - Applies to Broadcast services only. Input
program pre-encryption checking is applied. Output program is
not encrypted by the APEX, regardless if input encrypted or not.
unencryptedWithCci - True unencrypted mode where packets are not
scrambled, but ECMs are inserted and ECM CA reference is added
to output PMT (PRK contains Copy Protection information)."
::= { apexOutputProgramEntry 9 }
apexOutputProgramEncryptionStatus OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Program Encryption Status."
::= { apexOutputProgramEntry 10 }
apexOutputProgramEcmServiceId OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The ECM service ID used when this program is encrypted. This
is the service ID used in all ECM messages for this program."
::= { apexOutputProgramEntry 11 }
apexOutputProgramCciLevel OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notDefined (1),
copyFreely (2),
copyOnce (3),
copyNever (4),
noMoreCopies (5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Copy protection CCI Level. This is only applicable when the
program is being encrypted."
::= { apexOutputProgramEntry 12 }
apexOutputProgramApsLevel OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
notDefined (1),
off (2),
splitBurstOff (3),
splitBurst2Line (4),
splitBurst4Line (5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Copy protection Analog Protection Services Level. This is only
applicable when the program is being encrypted."
::= { apexOutputProgramEntry 13 }
apexOutputProgramCitSetting OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
disabled (1),
enabled (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Copy protection Constraint Image Trigger setting. This is only
applicable when the program is being encrypted."
::= { apexOutputProgramEntry 14 }
apexOutputProgramNumberTiers OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of program tiers. This is only applicable when the
program is being encrypted."
::= { apexOutputProgramEntry 15 }
apexOutputProgramTierData OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Program Tier Data. Tier information is in
hexadecimal format. Up to 7 tiers of information are
provided for each program. Tier information for each
program consists of 8 bytes of information.
First 4 bytes are the program tier value in hexadecimal.
Next 4 bytes are the tier type in hexadecimal format.
This is only applicable when the program is being encrypted."
::= { apexOutputProgramEntry 16 }
apexOutputProgramSourceId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Broadcast Encryption Source ID.
Only applies to programs when the input type is Gbe and the
output encryption mode is Broadcast Encryption.
(apexOutputTsConfEncryptionType set to 'broadcastEncryption')
"
::= { apexOutputProgramEntry 17 }
apexOutputProgramProviderId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Broadcast Encryption Provider ID.
Only applies to programs when the input type is Gbe and the
output encryption mode is Broadcast Encryption.
(apexOutputTsConfEncryptionType set to 'broadcastEncryption')
"
::= { apexOutputProgramEntry 18 }
apexOutputProgramProgramType OBJECT-TYPE
SYNTAX INTEGER
{
programsDerived (1),
programInfoProvided (2),
programEcmProvided (3),
programInfoAndEcmProvided (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates how programs are to be built by the encryptor.
1 - programsDerived (default) - programs are derived where the encryptor
builds the programs internally for the specified service.
The program related ECM messages and program name/info messages are
derived from the service RMD data and internal schedules.
This program type is typically used for subscription services.
2 - programInfoProvided - the encryptor should build the programs based
on the program information provided by the controller via the
<programInfo> element of the ServiceProgramReply payload.
The service RMD data is still used to generate the program related
ECM messages.
3 - programEcmProvided - the encryptor should use pre-built ECM program
messages as provided by the controller via the <programEcm> element
of the ServiceProgramReply payload. For this program type, the
controller provides the schedules; however, the encryptor must default
much of the program info message since not detailed program information
is provided. DTA content protection encryption makes use of the
'programEcmProvided' program type since the ECM messages cannot be
derived by the encryptor.
4 - programInfoAndEcmProvided - the encryptor should build the programs
based on both the program information and pre-built ECM messages
provided by the controller via the <programInfo> and <programEcm>
elements of the ServiceProgramReply payload.
"
::= { apexOutputProgramEntry 19 }
apexOutputProgramDtaEncryptionMode OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
dtaWithCcm (1),
dtaWithoutCcm (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter identifies whether a service in Full Encryption is
in Modified Privacy Mode (DTA) and whether the DTA service has CCM
messages.
This parameter is applicable only when apexOutputProgramEncryptionMode
is 'full'. In other encryption modes this value is ignored.
notApplicable - Non DTA Service and/or No DTA CA descriptor found
dtaWithCcm - DTA, Full Encryption, Modified Privacy Mode, CCM present
dtaWithoutCcm - DTA, Full Encryption, Modified Privacy Mode, CCM absent.
"
::= { apexOutputProgramEntry 20 }
apexOutputProgramMcSimAccessCriteria OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"MC SimulCrypt Access Criteria.
This is only applicable when 'apexEncryptionConfAlgorithm' is set to
either mc-scte-52-simulcrypt or mc-csa-simulcrypt.
"
::= { apexOutputProgramEntry 21 }
apexOutputProgramMcSimAccessCriteriaStatus OBJECT-TYPE
SYNTAX INTEGER
{
notRequired (0),
retrievedAC (1),
waitingForAC (2),
invalidAC (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"SimulCrypt Access Criteria Status.
This is only applicable when 'apexEncryptionConfAlgorithm' is set to
either mc-scte-52-simulcrypt or mc-csa-simulcrypt.
"
::= { apexOutputProgramEntry 22 }
apexOutputProgramCurrentCSN OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Category Sequence Number.
This is Category Sequence Number which is used for encrypt the current service.
The valid range is 0 to 255 and -1 is for NOT Applicable.
This is not applicable for broadcast unencrypted, pre-encrypted , CTE clear services
and for the services which MC encryption type is NONE.
"
::= { apexOutputProgramEntry 23 }
apexOutputProgramMcSimAccessCriteriaString OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Access Criteria used in the ECMG CW Provision Request
when MC SimulCrypt is enabled.
An empty string means the Access Criteria (AC)
is not being used.
"
::= { apexOutputProgramEntry 24 }
-- ------------------------------------------------------------------------------
--
-- apexAcp
--
-- apexAcpConfig
--
-- apexAcpConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexAcpStatus
--
-- apexAcpStatusGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexAcpStatusTable
--
apexAcpStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexAcpStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table shows the status of the Control Word Generating ACPs."
::= { apexAcpStatus 2 }
apexAcpStatusEntry OBJECT-TYPE
SYNTAX ApexAcpStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Program Table Entry."
INDEX { apexAcpStatusIndex }
::= { apexAcpStatusTable 1 }
ApexAcpStatusEntry ::= SEQUENCE
{
apexAcpStatusIndex Integer32,
apexAcpUnitAddress DisplayString,
apexAcpHealthByte Integer32,
apexAcpEvenCsn Integer32,
apexAcpOddCsn Integer32,
apexAcpUnitAttribute Integer32
}
apexAcpStatusIndex OBJECT-TYPE
SYNTAX Integer32(1..6)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Acp Status Index. Index for one of six control word generating ACPs."
::= { apexAcpStatusEntry 1 }
apexAcpUnitAddress OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..11))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The unit address of the ACP in ASCII Hex. The Unit address is a 5 byte value."
::= { apexAcpStatusEntry 2 }
apexAcpHealthByte OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The health byte of the ACP. Indicates whether the ACP has intact fuses. The
health should read 255 (hex 0xFF) for all APEX ACPs. Otherwise, the ACP will
not properly function."
::= { apexAcpStatusEntry 3 }
apexAcpEvenCsn OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Even Category Sequence Number of the ACP.
Should match the even CSN assigned by DAC,
if not may indicate a communications problem."
::= { apexAcpStatusEntry 4 }
apexAcpOddCsn OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Odd Category Sequence Number of the ACP.
Should match the odd CSN assigned by DAC,
if not may indicate a communications problem."
::= { apexAcpStatusEntry 5 }
apexAcpUnitAttribute OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Unit attribute byte is made available to verify that the MC2.1 was
properly unit created during factory production."
::= { apexAcpStatusEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexUdpPortMapping
--
-- apexUdpMapConfig
--
-- apexUdpMapConfigGeneral
--
apexUdpMapPreEncryptCheck OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"UDP Mapping pre-encryption checking.
Indicates if the APEX is to check if input services are pre-encrypted or
clear. Pre-encrypted is determined by examining the input PMT for a CA ECM
descriptor (any CA ECM descriptor). If pre-encrypted, setting this flag will
cause the APEX to pass through ECM PID for the service. For input services
that have a GI CA ECM descriptor, the APEX will also pass through the PIT
message (extract and re-insert the PIT). The output PMT for pre-encrypted
services will contain a CA ECM descriptor (referencing the ECM
PID). When PID Remapping is enabled, pre-encryption for a service is
only valid when the input ECM PID is on a different PID than the
associated PMT PID. If this flag is set to pre-encryption and the
input service is not pre-encrypted, then the setting of this flag has
no affect on the output service.
Once written, the change to this parameter will take immediate
effect and all mappings will be removed. Mappings will not be
re-added until apexUdpMapApplyChange is set to 'apply' for
all transport streams. In order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexUdpMapConfigGeneral 1 }
apexUdpMapModeBits OBJECT-TYPE
SYNTAX Integer32 (0..3)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Value that will be placed in the two MSBs of each the calculated UDP
port number (bits 14 and 15).
Once written, the change to this parameter will take immediate
effect and all mappings will be removed. Mappings will not be
re-added until apexUdpMapApplyChange is set to 'apply' for
all transport streams. In order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexUdpMapConfigGeneral 2 }
apexUdpMapTsOffset OBJECT-TYPE
SYNTAX Integer32 (0..1)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Used as part of the Standardized UDP Port calculation. Transport Stream
index can be relative 0 or relative 1.
Once written, the change to this parameter will take immediate
effect and all mappings will be removed. Mappings will not be
re-added until apexUdpMapApplyChange is set to 'apply' for
all transport streams. In order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexUdpMapConfigGeneral 3 }
apexUdpMapFollowDtcp OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Determines how the copy protection settings (CCI, APS, and CIT) within
the PRK will be set. All outputs in UDP Port Mapping mode will use
this setting for following input DTCP.
Disabled - Use CTE configured settings if output in CTE encryption mode
Enabled - Follow input DTCP
Once written, the change to this parameter will take immediate effect.
However, in order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexUdpMapConfigGeneral 4 }
-- ------------------------------------------------------------------------------
--
-- apexUdpMapApplyTable
--
apexUdpMapApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexUdpMapApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for UDP Map Table.
A row in this table corresponds to the same row index in the
UDP Map table.
"
::= { apexUdpMapConfig 2 }
apexUdpMapApplyEntry OBJECT-TYPE
SYNTAX ApexUdpMapApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"UDP Map Apply Table Entry."
INDEX { apexUdpMapApplyOutputTsNum }
::= { apexUdpMapApplyTable 1 }
ApexUdpMapApplyEntry ::= SEQUENCE
{
apexUdpMapApplyOutputTsNum Integer32,
apexUdpMapApplyChange ApplyDataToDeviceTYPE
}
apexUdpMapApplyOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Udp Map Apply Table."
::= { apexUdpMapApplyEntry 1 }
apexUdpMapApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the Udp Map Table.
A row in this table corresponds to the same row index in the
Udp Map table.
This parameter MUST be set to 'apply' in order for any of the data
in the Udp Map Table row to take effect in the APEX. This
parameter MUST be set LAST after all other data in the Udp Map
Table row has been configured.
@Config(config=no, reboot=no)
"
::= { apexUdpMapApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexUdpMapTable
--
apexUdpMapTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexUdpMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for Udp Mapping. There are
48 rows in this table. Each row corresponds to one
QAM channel.
Once written, the change to this table will only take immediate
effect after apexUdpMapApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexUdpMapApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexUdpMapConfig 3 }
apexUdpMapEntry OBJECT-TYPE
SYNTAX ApexUdpMapEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Udp Mapping Table Entry."
INDEX { apexUdpMapOutputTsNum }
::= { apexUdpMapTable 1 }
ApexUdpMapEntry ::= SEQUENCE
{
apexUdpMapOutputTsNum Integer32,
apexUdpMapInputInterface Integer32,
apexUdpMapStartProgNum Integer32,
apexUdpMapNumberProgs Integer32
}
apexUdpMapOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of Udp Mapping Table.
"
::= { apexUdpMapEntry 1 }
apexUdpMapInputInterface OBJECT-TYPE
SYNTAX Integer32(1..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input GBE port.
Range:
'1 - 4' = GBE port number
"
::= { apexUdpMapEntry 2 }
apexUdpMapStartProgNum OBJECT-TYPE
SYNTAX Integer32(1..255)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates the first program number in a sequential range of programs
that are to be routed to the same output transport stream.
"
::= { apexUdpMapEntry 3 }
apexUdpMapNumberProgs OBJECT-TYPE
SYNTAX Integer32(0..200)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates the number of programs that are to be mapped to the output
transport stream. One UDP port is opened for each program mapped to
the output transport stream.
"
::= { apexUdpMapEntry 4 }
-- ------------------------------------------------------------------------------
--
-- apexUdpMapMulticastTable
--
apexUdpMapMulticastTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexUdpMapMulticastEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for UDP Map Multicast. Each entry in
this table identifies a Gigabit Ethernet input stream that is
used for multicast UDP Port Mapping.
Once written, the change to this table will only take immediate
effect after apexUdpMapMulticastApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexUdpMapMulticastApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(bcmr.ini, type='ini')
"
::= { apexUdpMapConfig 4 }
apexUdpMapMulticastEntry OBJECT-TYPE
SYNTAX ApexUdpMapMulticastEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"UDP Map Multicast Table Entry."
INDEX { apexUdpMapMulticastIndex }
::= { apexUdpMapMulticastTable 1 }
ApexUdpMapMulticastEntry ::= SEQUENCE
{
apexUdpMapMulticastIndex Integer32,
apexUdpMapMulticastEnable EnableDisableTYPE,
apexUdpMapMulticastInterface Integer32,
apexUdpMapMulticastUdp Integer32,
apexUdpMapMulticastMcastIp IpAddress,
apexUdpMapMulticastSourceIp IpAddress
}
apexUdpMapMulticastIndex OBJECT-TYPE
SYNTAX Integer32(1..256)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of UDP Map Multicast Stream Table."
::= { apexUdpMapMulticastEntry 1 }
apexUdpMapMulticastEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates whether this UDP Map Multicast entry is enabled or disabled.
"
::= { apexUdpMapMulticastEntry 2 }
apexUdpMapMulticastInterface OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of the input interface (Port number).
Range:
'0' = Not Applicable
GBE = 1-4
"
::= { apexUdpMapMulticastEntry 3 }
apexUdpMapMulticastUdp OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"GBE Input UDP Port.
Range: 0-65535
"
::= { apexUdpMapMulticastEntry 4 }
apexUdpMapMulticastMcastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Multicast receive IP address.
An IP address of 0.0.0.0 indicates singlecast only.
Multicast IP addresses 224.0.0.0 to 224.0.0.255 are reserved.
"
::= { apexUdpMapMulticastEntry 5 }
apexUdpMapMulticastSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is the IP address of the source device. This field is only
used when a multicast IP address is also specified.
"
::= { apexUdpMapMulticastEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexUdpMapMulticastApplyTable
--
apexUdpMapMulticastApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexUdpMapMulticastApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the UDP Map Multicast Table.
A row in this table corresponds to the same row index in the
UDP Map Multicast Table (apexUdpMapMulticastTable).
"
::= { apexUdpMapConfig 5 }
apexUdpMapMulticastApplyEntry OBJECT-TYPE
SYNTAX ApexUdpMapMulticastApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"UDP Map Multicast Apply Table Entry."
INDEX { apexUdpMapMulticastApplyIndex }
::= { apexUdpMapMulticastApplyTable 1 }
ApexUdpMapMulticastApplyEntry ::= SEQUENCE
{
apexUdpMapMulticastApplyIndex Integer32,
apexUdpMapMulticastApplyChange ApplyDataToDeviceTYPE
}
apexUdpMapMulticastApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..256)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the UDP Map Multicast Table."
::= { apexUdpMapMulticastApplyEntry 1 }
apexUdpMapMulticastApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for the row of data in the UDP Map Multicast Table.
A row in this table corresponds to the same row index in the
UDP Map Multicast Table.
This parameter MUST be set to 'apply' in order for any of the data
in the UDP Map Multicast Table row to take effect in the APEX. This
parameter MUST be set LAST after all other data in the UDP Map Multicast
Table row has been configured.
@Config(config=no, reboot=no)
"
::= { apexUdpMapMulticastApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexUdpMapStatus
--
-- apexUdpMapStatusGeneral
--
apexUdpMapMulticastInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexUdpMapMulticastApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data. This
entry contains the description for the most recent apply
of a related entry that was invalid.
"
::= { apexUdpMapStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexUdpMapStatusTable
--
apexUdpMapStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexUdpMapStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of status data for Udp Mapping. There are
48 rows in this table. Each row corresponds to one
QAM channel.
"
::= { apexUdpMapStatus 2 }
apexUdpMapStatusEntry OBJECT-TYPE
SYNTAX ApexUdpMapStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Udp Mapping Status Table Entry."
INDEX { apexUdpMapStatusOutputTsNum }
::= { apexUdpMapStatusTable 1 }
ApexUdpMapStatusEntry ::= SEQUENCE
{
apexUdpMapStatusOutputTsNum Integer32,
apexUdpMapInvalidApplyText DisplayString
}
apexUdpMapStatusOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of Udp Mapping Status Table."
::= { apexUdpMapStatusEntry 1 }
apexUdpMapInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexUdpMapApplyChange is set to applyNotInProgressInvalidData,
this entry may contain a text description of what was wrong with the data.
"
::= { apexUdpMapStatusEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexRds
--
-- apexRdsConfig
--
-- apexRdsConfigGeneral
--
apexRdsIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Rights Data Server IP address. Class A, B, or C IP address of the RDS.
Changing this parameter will cause the APEX to perform an EMM rollover
sequence.
This parameter is not changed by apexRdsSetDefault.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 1 }
apexRdsTcpPort OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Rights Data Server TCP port.
Changing this parameter will cause the APEX to perform an EMM rollover
sequence.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 2 }
apexRdsProgramEpochDuration OBJECT-TYPE
SYNTAX Integer32(60..1440)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Program Epoch Duration in minutes. Changes are not
applied until the end of the current epoch.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 3 }
apexRdsCetPollInterval OBJECT-TYPE
SYNTAX Integer32(15..1440)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Interval that the APEX will use to poll for CSN/State information.
After receiving the CSN/State information, the APEX will determine if it
needs to retrieve new EMMs.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 4 }
apexRdsCetRefresh OBJECT-TYPE
SYNTAX INTEGER
{
refreshNotInProgress (1),
refresh (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Setting to 'refresh' forces the APEX to retrieve new
EMMs (APEX performs an EMM rollover sequence).
Once written, the change to this parameter will take effect immediately.
@Config(config=no, reboot=no)
"
::= { apexRdsConfigGeneral 5 }
apexRdsRmdPollInterval OBJECT-TYPE
SYNTAX Integer32(15..1440)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Interval that the APEX will use to poll for RMD information.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 6 }
apexRdsRmdRefresh OBJECT-TYPE
SYNTAX INTEGER
{
refreshNotInProgress (1),
refresh (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Setting to 'refresh' forces the APEX to retrieve new
RMD data from RDS server.
Once written, the change to this parameter will take effect immediately.
@Config(config=no, reboot=no)
"
::= { apexRdsConfigGeneral 7 }
apexRdsPollRandomization OBJECT-TYPE
SYNTAX Integer32(0..10)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"RDS Polling Randomization Time. Maximum time in minutes to delay
polling at startup in order to avoid having many APEXs polling the
RDS simultaneously. The actual delay time will be
randomly calculated by the APEX and will be no greater than this value.
A value of zero means no delay and the APEX will poll immediately at
startup.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 8 }
apexRdsSetDefault OBJECT-TYPE
SYNTAX INTEGER
{
notSettingToDefault (1),
setToDefault (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter sets apexRdsCetPollInterval, apexRdsPollRandomization,
apexRdsTcpPort, apexRdsRmdPollInterval, apexRdsProgramEpochDuration
and apexRdsInitialEcmRetryInterval to default values.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'..
@Config(config=no, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
"
::= { apexRdsConfigGeneral 9 }
apexRdsErrorCountReset OBJECT-TYPE
SYNTAX ResetStatisticsTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Resets RDS Communication error counts.
Once written, the change to this parameter will take effect immediately.
@Config(config=no, reboot=no)
"
::= { apexRdsConfigGeneral 10 }
apexRdsConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for RDS configuration items. This parameter
MUST be set to 'apply' in order for any of the following to
take effect:
apexRdsIpAddr
apexRdsTcpPort
apexRdsPollRandomization
apexRdsCetPollInterval
apexRdsRmdPollInterval
apexRdsProgramEpochDuration
apexRdsConfigRds2Enable
apexRdsConfigServerUrl
This parameter MUST be set LAST after all associated parameters
has been configured.
@Config(config=no, reboot=no)
"
::= { apexRdsConfigGeneral 11 }
apexRdsConfigRds2Enable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Indicates whether RDS-2 Interface is enabled or disabled.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 12 }
apexRdsConfigServerUrl OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..254))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Rights Data Server Uniform Resource Locator (RDS-2 Server URL).
This is introduced to support RDS 2 Interface since APEX 2.5 release.
The syntax of this parameter shall be:
[http://]<RDS-2 Server IP>[:<TCP Port>]/<Server Root Directory Path>
Note:
1. The 'http://' protocol part is default and optional,
2. 'RDS-2 Server IP' is Class A, B, or C IP address,
3. 'TCP Port' is optional, if not present, default to 80,
4. 'Server Root Directory Path' is not optional
e.g.
http://192.168.30.107:1020/rds/controller
192.168.30.107:1020/rds/controller
192.168.30.107/rds/controller (default port is 80)
The apex host will validate this parameter upon applying change,
and set the following three status parameter accordingly:
- apexRdsStatusServerIp
- apexRdsStatusServerPort
- apexRdsStatusServerRootDirPath
- apexRdsStatusValidation
This parameter is not changed by apexRdsSetDefault.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 13 }
apexRdsInitialEcmRetryInterval OBJECT-TYPE
SYNTAX Integer32(5..30)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to configure RDS2 server ECM retry time.
This value defines when the next retry will be performed by the host.
Units are seconds.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 14 }
apexRdsDeviceId OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..40))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to configure Device ID.
This value will be used by APEX1000 to fetch the Access Criteria,
using RDS1 interface when 'apexEncryptionConfAlgorithm' is set to
either mc-scte-52-simulcrypt or mc-csa-simulcrypt.
Once written, the change to this parameter will only take immediate
effect after apexRdsConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexRdsConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexRdsConfigGeneral 15 }
-- ------------------------------------------------------------------------------
--
-- apexRdsStatus
--
-- apexRdsStatusGeneral
--
apexRdsConnectionStatus OBJECT-TYPE
SYNTAX INTEGER
{
notConnectedInHoldoff (1),
notConnectedNoRdsIpAddress (2),
csnAquisitionSuccessful (3),
emmAquisitionSuccessful (4),
serviceListAquisitionSuccessful (5),
rmdAquisitionSuccessful (6),
csnAquisitionFailed (7),
emmAquisitionFailed (8),
serviceListAquisitionFailed (9),
rmdAquisitionFailed (10),
acAquisitionSuccessful (11),
acAquisitionFailed (12)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Rights Data Server connection status."
::= { apexRdsStatusGeneral 1 }
apexRdsCurrentCsn OBJECT-TYPE
SYNTAX Integer32(0..255)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the current CSN that the APEX is
using for encrypting all programs.
"
::= { apexRdsStatusGeneral 2 }
apexRdsCetNextPollTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in seconds until the next CET polling period."
::= { apexRdsStatusGeneral 3 }
apexRdsRmdNextPollTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in seconds until the next RMD polling period."
::= { apexRdsStatusGeneral 4 }
apexRdsEmmStatusTableSize OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"EMM Status Table Size. This is the maximum number of rows in the EMM Status
Table and is the limit on apexRdsEmmStatusIndex.
"
::= { apexRdsStatusGeneral 5 }
apexRdsProgramMessagesReceived OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of successful ServiceEncrypt messages received in the last 15 minutes."
::= { apexRdsStatusGeneral 6 }
apexRdsProgramMessagesFailed OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of failed ServiceEncrypt messages received in the last 15 minutes."
::= { apexRdsStatusGeneral 7 }
apexRdsCommErrorCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Count of total server communication errors.
This parameter is set to 0 when the APEX boots up."
::= { apexRdsStatusGeneral 8 }
apexRdsCommStatus OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
ok (1),
error (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Status of communication with RDS."
::= { apexRdsStatusGeneral 9 }
apexRdsFlashWriteCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Running count of the number of flash memory erasures/writes."
::= { apexRdsStatusGeneral 10 }
apexRdsMcast16 OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Multicast-16 bit address used for build PRK messages. The
multicast-16 bit address is from the EMMs received."
::= { apexRdsStatusGeneral 11 }
apexRdsStatusServerIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Effective Rights Data Server IP address. Derived from RDS Server URL.
This is set to 0.0.0.0 when validation on RDS Server URL fails.
See apexRdsConfigServerUrl.
"
::= { apexRdsStatusGeneral 12 }
apexRdsStatusServerPort OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Effective Rights Data Server TCP port. Derived from RDS Server URL.
This is set to 0 when validation on RDS Server URL fails.
See apexRdsConfigServerUrl.
"
::= { apexRdsStatusGeneral 13 }
apexRdsStatusServerRootDirPath OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..254))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Effective Rights Data Server Root Directory Path. Derived from RDS
Server URL. This is set to Null String when validation on RDS Server
URL fails.
See apexRdsConfigServerUrl.
"
::= { apexRdsStatusGeneral 14 }
apexRdsStatusValidation OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
urlValid (1),
missingIpOrPath (2),
emptyRootPath (3),
invalidTcpPort (4),
invalidIpClass (5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether the current RDS Server URL parameter is valid.
urlValid (1) - RDS-2 URL is valid,
missingIpOrPath (2) - RDS-2 IP or Root Path is missing,
emptyRootPath (3) - RDS-2 Root Path cannot be empty,
invalidTcpPort (4) - RDS-2 TCP Port ranges from 1~65535, default to 80,
invalidIpClass (5) - RDS-2 IP shall be class A/B/C.
See apexRdsConfigServerUrl.
"
::= { apexRdsStatusGeneral 15 }
-- ------------------------------------------------------------------------------
--
-- apexRdsEmmStatusTable
--
apexRdsEmmStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRdsEmmStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
" Table of the most recent RDS responses."
::= { apexRdsStatus 2 }
apexRdsEmmStatusEntry OBJECT-TYPE
SYNTAX ApexRdsEmmStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RDS EMM Status Table Entry."
INDEX { apexRdsEmmStatusIndex }
::= { apexRdsEmmStatusTable 1 }
ApexRdsEmmStatusEntry ::= SEQUENCE
{
apexRdsEmmStatusIndex Integer32,
apexRdsEmmStatusCsn Integer32,
apexRdsEmmStatusState INTEGER,
apexRdsEmmStatusGpsTime Integer32,
apexRdsEmmStatusServerError Unsigned32,
apexRdsEmmStatusUnitAddress DisplayString
}
apexRdsEmmStatusIndex OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index of EMM Status Table.
Size of table can be found in apexRdsEmmStatusTableSize."
::= { apexRdsEmmStatusEntry 1 }
apexRdsEmmStatusCsn OBJECT-TYPE
SYNTAX Integer32(0..255)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Category Sequence Number (CSN). "
::= { apexRdsEmmStatusEntry 2 }
apexRdsEmmStatusState OBJECT-TYPE
SYNTAX INTEGER
{
transitionComplete (1),
transitionStart (2),
startOfNewEpoch (3)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Category Epoch Transition (CET) State."
::= { apexRdsEmmStatusEntry 3 }
apexRdsEmmStatusGpsTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the time in GPS seconds that this row was written."
::= { apexRdsEmmStatusEntry 4 }
apexRdsEmmStatusServerError OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the error code reported to the APEX by
the RDS. Zero indicates no error."
::= { apexRdsEmmStatusEntry 5 }
apexRdsEmmStatusUnitAddress OBJECT-TYPE
SYNTAX DisplayString (SIZE (20))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the ACP address of the ACP associated
with the error reported in apexRdsEmmStatusServerError.
If no address is contained in this entry, the error
applies to all ACPs or to the entire APEX.
The address is made up of decimal digits formatted as
###-#####-#####-###.
"
::= { apexRdsEmmStatusEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexRdsSourceLookupTable
--
apexRdsSourceLookupTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRdsSourceLookupEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table provides a list of Source IDs and Provider IDs along
with an associated string. This table of information is provided by the
RDS to make it easier for a user to figure out the Source
ID and Provider ID for a particular service.
"
::= {apexRdsStatus 3 }
apexRdsSourceLookupEntry OBJECT-TYPE
SYNTAX ApexRdsSourceLookupEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Source Lookup Table Entry."
INDEX { apexRdsSourceLookupIndex }
::= { apexRdsSourceLookupTable 1 }
ApexRdsSourceLookupEntry ::= SEQUENCE
{
apexRdsSourceLookupIndex Integer32,
apexRdsSourceLookupDescription DisplayString,
apexRdsSourceLookupSourceId Integer32,
apexRdsSourceLookupProviderId Integer32
}
apexRdsSourceLookupIndex OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Source Lookup Table Index."
::= { apexRdsSourceLookupEntry 1 }
apexRdsSourceLookupDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text Description of the service provided by the Rights Data Server."
::= { apexRdsSourceLookupEntry 2 }
apexRdsSourceLookupSourceId OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Source Id of the service."
::= { apexRdsSourceLookupEntry 3 }
apexRdsSourceLookupProviderId OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Provider Id of the service."
::= { apexRdsSourceLookupEntry 4 }
-- ------------------------------------------------------------------------------
--
-- apexRdsEventTable
--
apexRdsEventTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRdsEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Rds2 Events.
The first index (apexRdsEventProgramIndex) matches to the same
row index in the apexManualRouteTable.
"
::= { apexRdsStatus 4 }
apexRdsEventEntry OBJECT-TYPE
SYNTAX ApexRdsEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Rds2 Events Table Entry."
INDEX { apexRdsEventProgramIndex, apexRdsEventEventIndex }
::= { apexRdsEventTable 1 }
ApexRdsEventEntry ::= SEQUENCE
{
apexRdsEventProgramIndex Integer32,
apexRdsEventEventIndex Integer32,
apexRdsEventEpochNumber Integer32,
apexRdsEventEpochStart Integer32,
apexRdsEventEpochEnd Integer32,
apexRdsEventInterstitialDuration Integer32,
apexRdsEventPreviewDuration Integer32,
apexRdsEventPurchaseDuration Integer32,
apexRdsEventNumberTiers Integer32,
apexRdsEventTierData DisplayString,
apexRdsEventProgramCost Integer32,
apexRdsEventRatingRegion Integer32,
apexRdsEventRatingData DisplayString,
apexRdsEventRatingText DisplayString,
apexRdsEventControlByte DisplayString,
apexRdsEventPrkmWkemAvailable INTEGER,
apexRdsEventCcmAvailable INTEGER
}
apexRdsEventProgramIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"apexRdsEventProgramIndex is the last 10 bits of
apexOutputProgramEcmServiceId from apexOutputProgramTable."
::= { apexRdsEventEntry 1 }
apexRdsEventEventIndex OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Rds Event Index."
::= { apexRdsEventEntry 2 }
apexRdsEventEpochNumber OBJECT-TYPE
SYNTAX Integer32(0..255)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Uniquely identifies a program epoch for the specified service."
::= { apexRdsEventEntry 3 }
apexRdsEventEpochStart OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Start time in GPS seconds of the returned program epoch
for the specified service.
"
::= { apexRdsEventEntry 4 }
apexRdsEventEpochEnd OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"End time in GPS seconds of the returned program epoch."
::= { apexRdsEventEntry 5 }
apexRdsEventInterstitialDuration OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The interstitial duration provides the time duration
in seconds between the start of the program epoch and
the start of the actual program or event.
"
::= { apexRdsEventEntry 6 }
apexRdsEventPreviewDuration OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The preview window provides the time duration in seconds
between the start of the program epoch and the start of
the pay portion of the program.
"
::= { apexRdsEventEntry 7 }
apexRdsEventPurchaseDuration OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The purchase window provides the time duration in seconds
between the start of the program epoch that IPPV purchases
are allowed.
"
::= { apexRdsEventEntry 8 }
apexRdsEventNumberTiers OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"A program can be associated with at most 7 tiers."
::= { apexRdsEventEntry 9 }
apexRdsEventTierData OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Program Tier Data in Hexadecimal format (28 bytes).
Up to 7 tiers of information are provided for each program.
Tier information for each program consists of 4 bytes.
First 3 bytes are the Tier Value, next 1 bytes are the Tier Type.
"
::= { apexRdsEventEntry 10 }
apexRdsEventProgramCost OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Represents the cost, in program units, of the program epoch."
::= { apexRdsEventEntry 11 }
apexRdsEventRatingRegion OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Identifies the Program Rating Region. The US region attribute is 0."
::= { apexRdsEventEntry 12 }
apexRdsEventRatingData OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Program Rating Data in Hexadecimal format (3 bytes).
Contains 6 rating dimensions where each rating dimension is a 4-bit
integer that represents a different rating control for the region.
A US region defines 4 rating dimensions: MPAA rating, violence content
rating, language content rating and sexual content rating.
"
::= { apexRdsEventEntry 13 }
apexRdsEventRatingText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Program Rating optionally contains a Rating Text."
::= { apexRdsEventEntry 14 }
apexRdsEventControlByte OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The program control byte used in the PRKM (1 Hexadecimal byte)."
::= { apexRdsEventEntry 15 }
apexRdsEventPrkmWkemAvailable OBJECT-TYPE
SYNTAX INTEGER
{
available (1),
notAvailable (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The flag indicates that PRKM, WKEM (odd and even) is available
for the associated epoch."
::= { apexRdsEventEntry 16}
apexRdsEventCcmAvailable OBJECT-TYPE
SYNTAX INTEGER
{
available (1),
notAvailable (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The flag indicates that CCM (odd and even) is available
for the associated epoch."
::= { apexRdsEventEntry 17}
-- ------------------------------------------------------------------------------
--
-- apexEncryption
--
-- apexEncryptionConfig
--
-- apexEncryptionConfigGeneral
--
apexEncryptionConfAlgorithm OBJECT-TYPE
SYNTAX INTEGER
{
des-dcii (1),
des-scte-52 (2),
dvb-csa (3),
dvb-csa-simulcrypt (4),
mc-scte-52-simulcrypt (5),
mc-csa-simulcrypt (6)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configured encryption algorithm. This value determines which
MUX FPGA image will be loaded. dvb-csa-simulcrypt must be selected
to allow for configuration of Simulcrypt. Operator need to procure
the license to select mc-scte-52-simulcrypt or mc-csa-simulcrypt.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=yes)
@Commit(param=apexEncryptionConfApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEncryptionConfigGeneral 1 }
apexSimulcryptExternalEisSetting OBJECT-TYPE
SYNTAX INTEGER
{
clear (0),
encrypt (1)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Default simulcrypt External EIS encryption setting. This determines if
services are sent out in the clear or are encrypted when Simulcrypt
mode is set to External EIS and the services have not yet been provisioned.
This allows a user to have services scrambled but unviewable prior to
services being provisioned (to prevent services from being viewable). This
parameter is only applicable for output streams that are in Simulcrypt External
EIS mode.
When this setting is changed, it only affects new service mappings. Services
that are already mapped will not be modified.
Not used when the APEX1000 is in MC-SCTE52-SimulCrypt or MC-CSA SimulCrypt mode.
Once written, a save must be performed via the apexSaveConfig
parameter and the APEX must be rebooted for the change to take effect.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEncryptionConfigGeneral 2 }
apexSimulcryptEmEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Simulcrypt EM Enable.
If set to 'enabled' the EM will display the Simulcrypt specific
screens. User will be allowed to view Simulcrypt status and perform
configuration changes via the EM. This parameter only enables and
disables the ability to use the EM Simulcrypt screens. It does not
enable or disable Simulcrypt as there is a specific Simulcrypt mode
per output stream.
Once written, the change to this parameter will only take immediate
effect. In order for the change to persist through subsequent reboots
or power cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEncryptionConfigGeneral 3 }
apexEncryptionConfApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for apexEncryptionConfAlgorithm. This parameter
MUST be set to 'apply' in order for apexEncryptionConfAlgorithm to
take effect:
This parameter MUST be set LAST after apexEncryptionConfAlgorithm parameter
has been configured.
@Config(config=no, reboot=no)
"
::= { apexEncryptionConfigGeneral 4 }
apexEncryptionConfInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexEncryptionConfApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data.
"
::= { apexEncryptionConfigGeneral 5 }
-- ------------------------------------------------------------------------------
--
-- apexCteConfig
--
apexCteEncryptionMode OBJECT-TYPE
SYNTAX INTEGER
{
full (1),
fwk (2),
fpk (3),
clear (4)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is used to set the Encryption Mode. It applies
to all services on all QAMs in CTE mode.
- 'full' - The APEX will use Full encryption. The APEX will only be able to
encrypt programs in Full encryption mode if the APEX is able to
communicate with an RDS.
- 'fwk' - The APEX will use Fixed Working Key (FWK) encryption.
- 'fpk' - The APEX will use Fixed Program Key (FPK) encryption. The APEX
will not attempt to get EMMs.
- 'clear' - The APEX performs no encryption of output programs.
If the APEX is unable to encrypt programs in the configured mode, then those
programs will not be mapped.
Once written, the change to this parameter will only take immediate
effect after apexCteApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexCteApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexCteConfig 1 }
apexCteCciLevel OBJECT-TYPE
SYNTAX INTEGER
{
notDefined (1),
copyFreely (2),
copyOnce (3),
copyNever (4),
noMoreCopies (5)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Copy Control Information (CCI) Level setting for PRK messages.
- notDefined - CCI is not defined, settop box applications can
configure CCI
- copyFreely - program can be copied
- copyOnce - program can be copied once
- copyNever - program can never be copied
- noMoreCopies -
Once written, the change to this parameter will only take immediate
effect after apexCteApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexCteApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexCteConfig 2 }
apexCteApsLevel OBJECT-TYPE
SYNTAX INTEGER
{
notDefined (1),
off (2),
splitBurstOff (3),
splitBurst2Line (4),
splitBurst4Line (5)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Analog Protection System (APS)
Level setting for PRK messages. Defines what copy protection encoding
will be applied to the analog composite output by the settop box.
- notDefined - analog protection is not defined, settop box
applications can configure APS
- off - no analog protection
- splitBurstOff - AGC on, split burst off
- splitBurst2Line - AGC on, 2 line split burst on
- splitBurst4Line - AGC on, 4 line split burst on
The APEX will set Tier Type based on apexCteApsLevel.
The APEX will set tier type to subscription with right to tape
when apexCteApsLevel is 'off' or 'notDefined'.
The APEX will set tier type to subscription without right to tape when
apexCteApsLevel is 'splitBurstOff', 'splitBurst2Line', or 'splitBurst4Line'.
Once written, the change to this parameter will only take immediate
effect after apexCteApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexCteApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexCteConfig 3 }
apexCteCitEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Constrained Image Trigger (CIT) setting.
If set to 'enabled' the settop box is notified not to allow a high
quality digital output unless the receiving device also adheres to
CIT processing. If the apexCteApsLevel is set to 'notDefined', the
setting of the CIT value has no affect (CIT and APS are only used
when APS is set to a defined value).
Once written, the change to this parameter will only take immediate
effect after apexCteApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexCteApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexCteConfig 4 }
apexCteCommonTier OBJECT-TYPE
SYNTAX Integer32(0..16777215)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"EncryptionCommon Tier. Identifies the tier
number for which access is granted. Range is 0 to 16777215.
65535 is reserved and cannot be used.
The APEX will set Tier Type based on apexCteApsLevel setting.
Refer to the apexCteApsLevel description for more details.
Once written, the change to this parameter will only take immediate
effect after apexCteApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexCteApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexCteConfig 5 }
apexCteApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for CTE configuration items. This parameter
MUST be set to 'apply' in order for any of the following to
take effect:
apexCteEncryptionMode
apexCteCciLevel
apexCteApsLevel
apexCteCitEnable
apexCteCommonTier
This parameter MUST be set LAST after all associated parameters
has been configured.
@Config(config=no, reboot=no)
"
::= { apexCteConfig 6 }
-- ------------------------------------------------------------------------------
--
-- apexEncryptionStatus
--
-- apexEncryptionStatusGeneral
--
apexEncryptionStatAlgorithm OBJECT-TYPE
SYNTAX INTEGER
{
des-dcii (1),
des-scte-52 (2),
dvb-csa (3),
dvb-csa-simulcrypt (4),
mc-scte-52-simulcrypt (5),
mc-csa-simulcrypt (6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current encryption algorithm. This value determines which
MUX FPGA image will be loaded.
"
::= { apexEncryptionStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexEncryptionCwgStatus
--
apexEncryptionCwgPerSecond OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Average control words per second generated integrated over the last minute."
::= { apexEncryptionCwgStatus 1 }
apexEncryptionMux1CollisionCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Triton collision counter for MUX FPGA #1."
::= { apexEncryptionCwgStatus 2 }
apexEncryptionMux2CollisionCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Triton collision counter for MUX FPGA #2."
::= { apexEncryptionCwgStatus 3 }
apexEncryptionMux1RolloverCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Counts rollovers of triton message circular buffer for MUX FPGA #1."
::= { apexEncryptionCwgStatus 4 }
apexEncryptionMux2RolloverCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Counts rollovers of triton message circular buffer for MUX FPGA #2."
::= { apexEncryptionCwgStatus 5 }
apexEncryptionEmmRequestsSent OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Counts number of triton EMM reports sent to 6 MC2.1 devices."
::= { apexEncryptionCwgStatus 6 }
apexEncryptionEmmGoodRepliesRecvd OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Counts number of triton EMM replies marked good received from mc2.1 devices."
::= { apexEncryptionCwgStatus 7 }
apexEncryptionEmmBadRepliesRecvd OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Counts number of triton EMM replies marked bad received from mc2.1 devices."
::= { apexEncryptionCwgStatus 8 }
apexEncryptionEmmGoodDeliveryTimeMs OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Amount of time expressed in milliseconds taken to deliver
entire set of EMMs for most recent successful attempt.
Note it takes MC2.1 a significant amount of time to process an EMM.
They are delivered in batches of 6 (1 per MC2.1) the firmware then
waits for all 6 EMM replies before continuing with the next batch."
::= { apexEncryptionCwgStatus 9 }
apexEncryptionEmmMaxDeliveryTimeMs OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Maximum amount of time expressed in milliseconds taken to deliver
an entire set of EMMs since the Apex unit was last rebooted."
::= { apexEncryptionCwgStatus 10}
apexEncryptionEmmMinDeliveryTimeMs OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Minimum amount of time expressed in milliseconds taken to deliver
an entire set of EMMs since the Apex unit was last rebooted."
::= { apexEncryptionCwgStatus 11}
-- ------------------------------------------------------------------------------
--
-- apexEncryptionMcDiagTable
--
apexEncryptionMcDiagTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexEncryptionMcDiagEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Diagnostic table that breaks out individual mc21 performance parameters.
Indexed 1-6 for the 6 MC2.1 devices in an APEX ACP Module."
::= { apexEncryptionCwgStatus 12 }
apexEncryptionMcDiagEntry OBJECT-TYPE
SYNTAX ApexEncryptionMcDiagEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the mc2.1 diagnostic table."
INDEX { apexEncryptionMcDiagDeviceIndex }
::= { apexEncryptionMcDiagTable 1 }
ApexEncryptionMcDiagEntry ::= SEQUENCE
{
apexEncryptionMcDiagDeviceIndex Integer32,
apexEncryptionCwCountsPerSecond Unsigned32
}
apexEncryptionMcDiagDeviceIndex OBJECT-TYPE
SYNTAX Integer32 (1..6)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index represents 1 of 6 MC2.1 devices installed on ACP Module."
::= { apexEncryptionMcDiagEntry 1 }
apexEncryptionCwCountsPerSecond OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of CW successfully generated on this MC2.1 per second,
integrated over the last minute."
::= { apexEncryptionMcDiagEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexEas
--
-- apexEasConfig
--
-- apexEasConfigGeneral
--
apexEasApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
The Apply for any entries in the apexEasConfigGeneral group.
This parameter MUST be set to 'apply' in order for any of the data
in the apexEasConfigGeneral group to take effect. This
parameter MUST be set LAST after all other data in the group has
been configured.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexEasConfigGeneral 1 }
apexEasPhysInType OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
Input Type of input from which to extract EAS messages. When set
to 0, no EAS is received (disables EAS extraction).
Once written, the change to this parameter will only take immediate
effect after apexEasApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexEasApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfigGeneral 2 }
apexEasPhysInPort OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
Number of the input, of type configured by apexEasPhysInType,
from which to extract EAS messages.
Once written, the change to this parameter will only take immediate
effect after apexEasApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
@Range(min=0)
@Config(config=yes, reboot=no)
@Commit(param=apexEasApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfigGeneral 3 }
apexEasRcvUdpPort OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
This parameter indicates the UDP port on which to receive
EAS messages.
Range is 1024 to 65535 when apexEasPhysInType is 'fastEnet'.
Range is 0 to 65535 when apexEasPhysInType is 'gbe'.
Once written, the change to this parameter will only take immediate
effect after apexEasApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexEasApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfigGeneral 4 }
apexEasMulticastIpAddress OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
This parameter indicates the Multicast IP Receive address on which
to receive EAS messages.
If 0.0.0.0, then EAS messages will be received via singlecast only.
Once written, the change to this parameter will only take immediate
effect after apexEasApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexEasApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfigGeneral 5 }
apexEasSourceIpAddress OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS obsolete
DESCRIPTION
"This object is obsolete.
This parameter indicates the Source IP Receive address on which
to receive EAS messages. This is only for IGMP v3 networks.
If 0.0.0.0, then source IP is not used.
Once written, the change to this parameter will only take immediate
effect after apexEasApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexEasApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfigGeneral 6 }
apexEasMessageReceiveTimeoutDuration OBJECT-TYPE
SYNTAX Integer32 (1..30)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"It is the timeout duration(in days)that the device expects at least one
EAS message from the each EAS server configured in 'apexEasServerTable'.
Default value is 7 days.
Value can be configured with the increment of 1 day in the given range.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfigGeneral 7 }
apexEasMessageReceiveTimeoutEventEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"It enables or disables raising of the event 'trapEasMessageNotReceived'
Default value is disabled.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfigGeneral 8 }
-- ------------------------------------------------------------------------------
--
-- apexEasOutputTable
--
apexEasOutputTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexEasOutputEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of parameters for configuring EAS Output.
Table is indexed by Output Transport Stream Number.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfig 2 }
apexEasOutputEntry OBJECT-TYPE
SYNTAX ApexEasOutputEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the EAS output table."
INDEX { apexEasOutputStreamNum }
::= { apexEasOutputTable 1 }
ApexEasOutputEntry ::= SEQUENCE
{
apexEasOutputStreamNum Integer32,
apexEasOutputEnable EnableDisableTYPE
}
apexEasOutputStreamNum OBJECT-TYPE
SYNTAX Integer32 (1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The output transport stream number."
::= { apexEasOutputEntry 1 }
apexEasOutputEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The enable setting for EAS output on this Output Transport Stream.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
"
::= { apexEasOutputEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexEasServerApplyTable
--
apexEasServerApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexEasServerApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Apply table for the apexEasServerTable.
Table is indexed by RF Port number.
"
::= { apexEasConfig 3 }
apexEasServerApplyEntry OBJECT-TYPE
SYNTAX ApexEasServerApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"EAS Server Configuration Apply Table Entry."
INDEX { apexEasServerApplyNum }
::= { apexEasServerApplyTable 1 }
ApexEasServerApplyEntry ::= SEQUENCE
{
apexEasServerApplyNum Integer32,
apexEasServerApplyChange ApplyDataToDeviceTYPE
}
apexEasServerApplyNum OBJECT-TYPE
SYNTAX Integer32 (1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The EAS Server number."
::= { apexEasServerApplyEntry 1 }
apexEasServerApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for a row in the apexEasServerTable.
This parameter MUST be set to 'apply' in order for any of the data
in the apexEasServerTable table to take effect. This
parameter MUST be set LAST after all other data in the table has
been configured.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexEasServerApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexEasServerTable
--
apexEasServerTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexEasServerEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of parameters for configuring EAS Servers.
Table is indexed by RF Port number.
@Config(config=yes, reboot=no)
@Commit(param=apexEasServerApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexEasConfig 4 }
apexEasServerEntry OBJECT-TYPE
SYNTAX ApexEasServerEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the EAS server table."
INDEX { apexEasServerNum }
::= { apexEasServerTable 1 }
ApexEasServerEntry ::= SEQUENCE
{
apexEasServerNum Integer32,
apexEasServerPhysInType INTEGER,
apexEasServerPhysInPort Integer32,
apexEasServerRcvUdpPort Integer32,
apexEasServerMulticastIpAddress IpAddress,
apexEasServerSourceIpAddress IpAddress
}
apexEasServerNum OBJECT-TYPE
SYNTAX Integer32 (1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The EAS Server number."
::= { apexEasServerEntry 1 }
apexEasServerPhysInType OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Input Type of input from which to extract EAS messages. When set
to 0, no EAS is received (disables EAS extraction).
Once written, the change to this parameter will only take immediate
effect after apexEasServerApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
"
::= { apexEasServerEntry 2 }
apexEasServerPhysInPort OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of the input, of type configured by apexEasServerPhysInType,
from which to extract EAS messages.
Once written, the change to this parameter will only take immediate
effect after apexEasServerApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
@Range(min=0)
"
::= { apexEasServerEntry 3 }
apexEasServerRcvUdpPort OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates the UDP port on which to receive
EAS messages.
Range is 1024 to 65535 when apexEasServerPhysInType is 'fastEnet'.
Range is 0 to 65535 when apexEasServerPhysInType is 'gbe'.
Once written, the change to this parameter will only take immediate
effect after apexEasServerApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
"
::= { apexEasServerEntry 4 }
apexEasServerMulticastIpAddress OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates the Multicast IP Receive address on which
to receive EAS messages.
If 0.0.0.0, then EAS messages will be received via singlecast only.
Once written, the change to this parameter will only take immediate
effect after apexEasServerApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
"
::= { apexEasServerEntry 5 }
apexEasServerSourceIpAddress OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates the Source IP Receive address on which
to receive EAS messages. This is only for IGMP v3 networks.
If 0.0.0.0, then source IP is not used.
Once written, the change to this parameter will only take immediate
effect after apexEasServerApplyChange is set to 'apply'. In order for the
change to persist through subsequent reboots or power cycles, the
change must be saved via the apexSaveConfig parameter.
"
::= { apexEasServerEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexEasStatus
--
-- apexEasStatusGeneral
--
apexEasNumRcvMsgs OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of EAS messages received."
::= { apexEasStatusGeneral 1 }
apexEasNumInvalRcvMsgs OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of Invalid EAS messages received (invalid CRC).
These messages are discarded."
::= { apexEasStatusGeneral 2 }
apexEasLastReceivedMessageStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexEasLastReceivedMessageStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of parameters for last received EAS message details."
::= { apexEasStatus 2 }
apexEasLastReceivedMessageStatusEntry OBJECT-TYPE
SYNTAX ApexEasLastReceivedMessageStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"A row in the last received EAS message details table."
INDEX { apexEasLastReceivedMessageServerNum }
::= { apexEasLastReceivedMessageStatusTable 1 }
ApexEasLastReceivedMessageStatusEntry ::= SEQUENCE
{
apexEasLastReceivedMessageServerNum Integer32,
apexEasLastReceivedMessageTime Integer32
}
apexEasLastReceivedMessageServerNum OBJECT-TYPE
SYNTAX Integer32 (1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The EAS Server index number."
::= { apexEasLastReceivedMessageStatusEntry 1 }
apexEasLastReceivedMessageTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time when the last EAS message was received. Zero indicates EAS
message is yet to be received or not configured. This time is
reported in GPS seconds. To determine the system time in UTC the
apexSntpUtcOffset object must also be read and used in the calculation.
"
::= { apexEasLastReceivedMessageStatusEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexChassisRedundancy
--
-- apexChassisRedundancyConfig
--
-- apexChassisRedundancyConfigGeneral
--
apexChassisRedundancyConfigEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is to enable/disable APEX chassis redundancy.
When set to disabled(1), APEX is not allowed to failover.
When set to enabled(2), APEX can failover on its redundant APEX.
Once written, the change to this parameter will only take immediate
effect after apexChassisRedundancyConfigApplyChange is set to 'apply'.
In order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 1 }
apexChassisRedundancyMode OBJECT-TYPE
SYNTAX INTEGER
{
primary (1),
secondary (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures the desired role of APEX. Primary has active output ports,
secondary is inactive with output ports muted.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 2 }
apexChassisRedundancyMulticastRedundancyMode OBJECT-TYPE
SYNTAX INTEGER
{
hot (1),
warm (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is used to process route mappings by the standby APEX.
When set to hot(0) on standby APEX, all the routes processed by the
active APEX will also be processed by standby APEX.
When set to warm(1) on standby APEX, all the routes processed by the
active APEX will be muted by standby APEX.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 3 }
apexChassisRedundancyUdpPort OBJECT-TYPE
SYNTAX Integer32(1024..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This UDP port number value is used as:
(1) The port number on which to receive heartbeat messages from the
redundant APEX
(2) The port number to which heartbeat messages are sent to the
redundant APEX.
Valid range of UDP port numbers are 1024 to 65535.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 4 }
apexChassisRedundancyRedundantApexIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Unicast IP address of redundant APEX.
This IP address is used to send heartbeat messages to the redundant IP.
This IP address should match with the ENET1 or ENET2 IP address of the
redundant APEX.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 5 }
apexChassisRedundancySuspend OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When set to enabled(2), this results in APEX unit failover and become
active if it is in standby or suspend state.
If the condition above is not met, setting the value to enabled(2) has
no effect.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 6 }
apexChassisRedundancyForceFailOver OBJECT-TYPE
SYNTAX INTEGER
{
failoverNotInProgress (1),
failover (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When set to failover(2), this results in the APEX unit failing over
if it is in active state and the redundant APEX is in standby state.
If the condition above is not met, setting the value to failvoer(2)
has no effect.
@Config(config=no, reboot=no)
"
::= { apexChassisRedundancyConfigGeneral 7 }
apexChassisRedundancyFailOverGigE12LinkLoss OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if both GigE 1&2 link loss is cause for a failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 8 }
apexChassisRedundancyFailOverGigE34LinkLoss OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if both GigE 3&4 experience link loss is cause for failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 9 }
apexChassisRedundancyFailOverEnet1LinkLoss OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if ENET1 link loss is cause for failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 10 }
apexChassisRedundancyFailOverEnet2LinkLoss OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if ENET2 link loss is cause for failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 11 }
apexChassisRedundancyFailOverTemperatureFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if the temperature fault is a cause for failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 12 }
apexChassisRedundancyFailOverQamModuleFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if a QAM module fault is a cause for failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 13 }
apexChassisRedundancyFailOverQamRfPortFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if a QAM RF port fault is a cause for failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 14 }
apexChassisRedundancyFailOverQamChannelFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configures if a QAM channel fault is a cause for failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 15 }
apexChassisRedundancyConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for Chassis Redundancy Configuration parameters.
This parameter MUST be set to 'apply' in order for the data
to take effect. This parameter MUST be set LAST after all Chassis
Redundancy parameters affected by this parameter have been configured.
@Config(config=no, reboot=no)
"
::= { apexChassisRedundancyConfigGeneral 16 }
apexChassisRedundancyPrimaryStandbyOverride OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is set to ENABLED while configuring the apex
as primary apex. If this parameter is set, the apex will goto
ACTIVE state irrespective of secondary status.
@Config(config=no, reboot=no)
"
::= { apexChassisRedundancyConfigGeneral 17 }
apexChassisRedundancyRedundantApexSecIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Unicast IP address of redundant APEX heartbeat backup interface.
This IP address is used to send backup heartbeat messages to the redundant IP.
This IP address should match with the ENET1 or ENET2 IP address of the
redundant APEX.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 18 }
apexChassisRedundancyRedundantHBEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter is set to ENABLED to configure backup heartbeat interface IP.
Heartbeat message in the Backup heartbeat interface is used if the Primary
heartbeat inteface fails.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 19 }
apexChassisRedundancyFailOverQamModuleRemoval OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"If this parameter is set to ENABLED then QAM Module removal fault will cause the failover.
@Config(config=yes, reboot=no)
@Commit(param=apexChassisRedundancyConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexChassisRedundancyConfigGeneral 20 }
-- ------------------------------------------------------------------------------
--
-- apexChassisRedundancyStatus
--
-- apexChassisRedundancyStatusGeneral
--
apexChassisRedundancyPrimaryApexStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
active (1),
standby (2),
fault (3),
suspend (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter is applicable for an APEX where chassis redundancy is
enabled.
The APEX configured as primary will report the following values:
active(1): Primary RF outputs are active.
standby(2): Primary RF outputs are muted. Waiting to become active.
fault(3): Primary has experienced a fault.
suspend(4): Primary is suspended.
The APEX configured as secondary will report the following values.
These are based on its knowledge about the primary APEX from heartbeat
messages.
unknown(0): State of primary is not known (heartbeat not received).
active(1): Primary RF outputs are active.
standby(2): Primary RF outputs are muted. Waiting to become active.
fault(3): Primary has experienced a fault.
suspend(4): Primary is suspended.
"
::= { apexChassisRedundancyStatusGeneral 1 }
apexChassisRedundancySecondaryApexStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
active (1),
standby (2),
fault (3),
suspend (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter is applicable for an APEX where chassis redundancy is
enabled.
The APEX configured as primary will report the following values:
These are based on its knowledge about the secondary APEX from heartbeat
messages.
unknown(0): State of secondary is not known (heartbeat not received).
active(1): Secondary RF outputs are active.
standby(2): Secondary RF outputs are muted. Waiting to become active.
fault(3): Secondary has experienced a fault.
suspend(4): Secondary is suspended.
The APEX configured as secondary will report the following values:
active(1): Secondary RF outputs are active.
standby(2): Secondary RF outputs are muted. Waiting to become active.
fault(3): Secondary has experienced a fault.
suspend(4): Secondary is suspended.
"
::= { apexChassisRedundancyStatusGeneral 2 }
apexChassisRedundancyState OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
available (1),
protected (2),
unavailable (3),
synchronizing (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter is applicable for an APEX where chassis redundancy is
enabled.
This parameter will report the chassis redundancy availability status.
These are based on its knowledge about the secondary APEX from heartbeat
messages.
The APEX configured as primary will report the following values:
unknown(0): State of redundancy is not known (heartbeat not
received).
available(1): Primary is active and secondary is in standby,
configurations are synchronized and no critical faults
on either of the APEX.
protected(2): Primary is fault and secondary is in active.
unavailable(3): Configuration not synchronized or primary has not
received heartbeat message from secondary.
synchronizing(4): Synchronizing configuration between active and standby
APEX's.
The APEX configured as secondary will report the following values:
unknown(0): State of redundancy is not known (heartbeat not
received).
available(1): Secondary is active and primary is in standby,
configurations are synchronized and no critical faults
on either of the APEX.
protected(2): Secondary is in active and primary is fault state.
unavailable(3): Configuration not synchronized or secondary is in
fault state or secondary has not received heartbeat
message from primary.
synchronizing(4): Synchronizing configuration between active and standby APEX's.
"
::= { apexChassisRedundancyStatusGeneral 3 }
apexChassisRedundancyCommunicationStatus OBJECT-TYPE
SYNTAX INTEGER
{
disconnected (0),
connected (1)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter is applicable for an APEX where chassis redundancy is
enabled.
This parameter will report the chassis redundancy communication status.
These are based on its knowledge about the secondary APEX from heartbeat
messages.
The APEX configured as primary will report the following values:
disconnected(0): No heartbeat messages are received from secondary or
communication timed out.
connected(1): Heartbeat messages are received from secondary and
communication has not timed out.
The APEX configured as secondary will report the following values:
disconnected(0): No heartbeat messages are received from primary or
communication timed out.
connected(1): Heartbeat messages are received from primary and
communication has not timed out.
"
::= { apexChassisRedundancyStatusGeneral 4 }
apexChassisRedundancyConfigurationStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
synchronized (1),
outofsync (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter is applicable for an APEX where chassis redundancy is
enabled.
This parameter will report the chassis redundancy configuration status.
These are based on its knowledge about the secondary APEX from heartbeat
messages.
The APEX configured as primary will report the following values:
unknown(0): Secondary configuration is not known or secondary is not
connected.
synchronized(1): Secondary has same configuration as primary (except for
QAM outputs).
outofsync(2): Secondary configuration is not in sync with primary.
The APEX configured as secondary will report the following values:
unknown(0): Primary configuration is not known or primary is not
connected.
synchronized(1): Primary has same configuration as secondary (except for
QAM outputs).
outofsync(2): Primary configuration is not in sync with secondary.
"
::= { apexChassisRedundancyStatusGeneral 5 }
apexChassisRedundancyStatusInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexChassisRedundancyConfigApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data.
"
::= { apexChassisRedundancyStatusGeneral 6 }
apexChassisRedundancyGeneralConfigSyncStatusText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"GigE Config Sync Error info "
::= { apexChassisRedundancyStatusGeneral 7 }
apexChassisRedundancyGigEMismatchStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
match (1),
mismatch (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates whether the GigE configuration of the apexes in
Chassis Redundancy pair match.
Both the APEXs will report the following values:
These are based on its knowledge about the secondary APEX GigE configuration
from heartbeat messages.
unknown (0): GigE configuration of pair APEX is not known (heartbeat not received).
match (1): GigE configuration of APEXs in redundancy pair match.
mismatch (2): GigE configuration of APEXs in redundancy pair do not match.
"
::= { apexChassisRedundancyStatusGeneral 8 }
apexChassisRedundancyQamMismatchStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
match (1),
mismatch (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates whether the QAM configuration of the apexes in
Chassis Redundancy pair match.
Both the APEXs will report the following values:
These are based on its knowledge about the secondary APEX QAM configuration
from heartbeat messages.
unknown (0): QAM configuration of pair APEX is not known (heartbeat not received).
match (1): QAM configuration of APEXs in redundancy pair match.
mismatch (2): QAM configuration of APEXs in redundancy pair do not match.
"
::= { apexChassisRedundancyStatusGeneral 9 }
apexChassisRedundancyFirmwareMismatchStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
match (1),
mismatch (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates whether the Firmware version of the apexes in
Chassis Redundancy pair match.
Both the APEXs will report the following values:
These are based on its knowledge about the secondary APEX Firmware version
from heartbeat messages.
unknown (0): Firmware version of pair APEX is not known (heartbeat not received).
match (1): Firmware version of APEXs in redundancy pair match.
mismatch (2): Firmware version of APEXs in redundancy pair do not match.
"
::= { apexChassisRedundancyStatusGeneral 10 }
apexChassisRedundancyGigE12LinkStatus OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates the combined alarm status of the GigE 1 and GigE 2.
Indicates the lower of the gigE input interface alarm conditions.
ok (1): No alarm on either of GigE1 and GigE2.
warning (3): Warning alarm on both GigE1 or GigE2
minor (4): minor alarm on both GigE1 or GigE2
major (5): Major alarm on both GigE1 or GigE2
critical (6): critical alarm on both GigE1 and GigE2.
"
::= { apexChassisRedundancyStatusGeneral 11 }
apexChassisRedundancyGigE34LinkStatus OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates the combined alarm status of the GigE3 and GigE4.
Indicates the lower of the gigE input interface alarm conditions.
ok (1): No alarm on either of GigE3 and GigE4.
warning (3): Warning alarm on both GigE3 or GigE4
minor (4): minor alarm on both GigE3 or GigE4
major (5): Major alarm on both GigE3 or GigE4
critical (6): critical alarm on both GigE3 and GigE4.
"
::= { apexChassisRedundancyStatusGeneral 12 }
apexChassisRedundancyCurrHBIntfIPStatus OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates the heartbeat interface used for receiving heartbeat
from the redundant APEX.
"
::= { apexChassisRedundancyStatusGeneral 13 }
apexChassisRedundancyAppliedEncAlgorithmStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
match (1),
mismatch (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates if there is a match/mismatch in the applied encryption
algorithm of the pair APEXs in chassis redundancy.
Both the APEXs will report the following values:
These are based on its knowledge about the secondary APEX GigE configuration
from heartbeat messages.
unknown (0): Applied encryption Algorithm of pair APEX is not known (heartbeat not received).
match (1): Applied encryption Algorithm of APEXs in redundancy pair match.
mismatch (2): Applied encryption Algorithm of APEXs in redundancy pair do not match.
"
::= { apexChassisRedundancyStatusGeneral 14 }
apexChassisRedundancyMCSimEntitlementStatus OBJECT-TYPE
SYNTAX INTEGER
{
unknown (0),
match (1),
mismatch (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This parameter indicates if there is a match/mismatch in the ULS license
of MC SimulCrypt for the chassis redundancy pair APEXes.
The mismatch will be indicated only when both the pair APEXs are configured
for MC SimulCrypt encryption mode.
Both the APEXs will report the following values:
These are based on its knowledge about the secondary APEX GigE configuration
from heartbeat messages.
unknown (0): ULS license for MC SimulCrypt of pair APEX is not known (heartbeat not received).
match (1): ULS license for MC SimulCrypt of APEXs in redundancy pair match.
mismatch (2): ULS license for MC SimulCrypt of APEXs in redundancy pair do not match.
"
::= { apexChassisRedundancyStatusGeneral 15 }
-- ------------------------------------------------------------------------------
--
-- apexDta
--
-- apexDtaConfig
--
-- apexDtaGeneralConfig
--
apexDtaGeneralConfigCatSourceType OBJECT-TYPE
SYNTAX INTEGER
{
internal (1),
external (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"When set to internal(0), APEX generates CAT and inserts EMM pid received from DAC.
When set to external(1), APEX will not generate CAT,
it will receive both CAT and EMM pids from DAC and inserts EMM pid into CAT.
@Config(config=yes, reboot=no)
@Commit(param=apexDtaGeneralConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaGeneralConfig 1 }
apexDtaGeneralConfigCatEmmPidMulticastIP OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Multicast IPv4 address on which CAT/EMM PID stream is available.
An IP Address of 0.0.0.0 indicates unicast stream.
@Config(config=yes, reboot=no)
@Commit(param=apexDtaGeneralConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaGeneralConfig 2 }
apexDtaGeneralConfigCatEmmPidSourceIP OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Source IP address to receive CAT/EMM PID stream.
This is used only if apexQamRfConfigDtaNetworkPidMulticastIP is set
to a multicast address.
@Config(config=yes, reboot=no)
@Commit(param=apexDtaGeneralConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaGeneralConfig 3 }
apexDtaGeneralConfigCatEmmPidUdpPort OBJECT-TYPE
SYNTAX Integer32(1024..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"UDP port to receive CAT/EMM PID stream.
The range of valid UDP port numbers are 1024 to 65535.
@Config(config=yes, reboot=no)
@Commit(param=apexDtaGeneralConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaGeneralConfig 4 }
apexDtaGeneralConfigCatEmmPidInterface OBJECT-TYPE
SYNTAX InputInterfaceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Fast Ethernet or GIGE Interface to receive CAT/EMM PID stream.
CAT/EMM PID streams can be received from either fast etherent
(ENET1 or ENET2) or GIGE etherent port (GIGE1, GIGE2, GIGE3, GIGE4).
@Config(config=yes, reboot=no)
@Commit(param=apexDtaGeneralConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaGeneralConfig 5 }
apexDtaGeneralConfigEmmPidNum OBJECT-TYPE
SYNTAX Integer32(7168..8190)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"EMM PID to insert on DTA enabled OTS.
The range of valid PID numbers are 0x1C00 to 0x1FFE.
@Config(config=yes, reboot=no)
@Commit(param=apexDtaGeneralConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaGeneralConfig 6 }
apexDtaGeneralConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for DTA Configuration parameters.
This parameter MUST be set to 'apply' in order for the DTA Cat Config data
to take effect. This parameter MUST be set LAST after all DTA Config
parameters affected by this parameter have been configured.
@Config(config=no, reboot=no)
"
::= { apexDtaGeneralConfig 7 }
apexDtaGeneralConfigInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexDtaGeneralConfigApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with DTA CAT/EMM PID Config data
or NET PID Config data.
"
::= { apexDtaGeneralConfig 8 }
-- ------------------------------------------------------------------------------
--
-- apexDtaConfigApplyTable
--
apexDtaConfigApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDtaConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Apply table for the configuration tables apexDtaRfPortConfigTable and
apexDtaOtsConfigTable.
"
::= { apexDtaConfig 2 }
apexDtaConfigApplyEntry OBJECT-TYPE
SYNTAX ApexDtaConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DTA RF Port Configuration Apply Table Entry."
INDEX { apexDtaConfigApplyIndex }
::= { apexDtaConfigApplyTable 1 }
ApexDtaConfigApplyEntry ::= SEQUENCE
{
apexDtaConfigApplyIndex Integer32,
apexDtaConfigApplyChange ApplyDataToDeviceTYPE
}
apexDtaConfigApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Defines the size of apexDtaRfPortConfigTable. DTA NET PID can be configured
for each RF port. This shall be the number of maximum number of QAM RF port."
::= { apexDtaConfigApplyEntry 1 }
apexDtaConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for a row of data in apexDtaRfPortConfigTable.
The Apply for eight rows of data in apexDtaOtsConfigTable.
A row in this table corresponds to the same row index in the
apexDtaRfPortConfigTable.
A row in this table corresponds to eight rows in the
apexDtaOtsConfigTable when QAM module is type of either
2x4 or 2x8 as follows:
Apply Table DTA OTS/QAM Config Table
----------- -----------------
1 1-8
2 9-16
3 17-24
4 25-32
5 33-40
6 41-48
A row in this table corresponds to four rows in the
apexDtaOtsConfigTable when QAM module is type of 4x4 as follows:
Apply Table DTA OTS/QAM Config Table
----------- -----------------
1 1-4
2 5-8
3 17-20
4 21-24
5 33-36
6 37-40
7 9-12
8 13-16
9 25-28
10 29-32
11 41-44
12 45-48
This parameter MUST be set to 'apply' in order for any of the data
in the rows to take effect in the APEX. This parameter MUST be set
LAST after all other data in the configuration table rows has been
configured.
@Config(config=no, reboot=no)
"
::= { apexDtaConfigApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexDtaRfPortConfigTable
--
apexDtaRfPortConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDtaRfPortConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of DTA configuration items configurable on a RF Port basis.
Once written, the change to this table will only take immediate
effect after apexDtaConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexDtaConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaConfig 3 }
apexDtaRfPortConfigEntry OBJECT-TYPE
SYNTAX ApexDtaRfPortConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DTA RF port configuration Table Entry."
INDEX { apexDtaRfPortConfigIndex }
::= { apexDtaRfPortConfigTable 1 }
ApexDtaRfPortConfigEntry ::= SEQUENCE
{
apexDtaRfPortConfigIndex Integer32,
apexDtaRfPortConfigNetPidMulticastIP IpAddress,
apexDtaRfPortConfigNetPidSourceIP IpAddress,
apexDtaRfPortConfigNetPidUdpPort Integer32,
apexDtaRfPortConfigNetPidInterface InputInterfaceTYPE,
apexDtaRfPortConfigNetPidNum Integer32
}
apexDtaRfPortConfigIndex OBJECT-TYPE
SYNTAX Integer32(1..12)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM RF Port number."
::= { apexDtaRfPortConfigEntry 1 }
apexDtaRfPortConfigNetPidMulticastIP OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Multicast IPv4 address on which Network PID stream is available.
An IP Address of 0.0.0.0 indicates unicast stream.
"
::= { apexDtaRfPortConfigEntry 2 }
apexDtaRfPortConfigNetPidSourceIP OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Source IP address to receive Network PID stream.
This is used only if apexDtaRfPortConfigNetPidMulticastIP is set
to a multicast address.
"
::= { apexDtaRfPortConfigEntry 3 }
apexDtaRfPortConfigNetPidUdpPort OBJECT-TYPE
SYNTAX Integer32 (1024..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"UDP port number to receive Network PID stream.
The range of valid port numbers are 1024 to 65535.
"
::= { apexDtaRfPortConfigEntry 4 }
apexDtaRfPortConfigNetPidInterface OBJECT-TYPE
SYNTAX InputInterfaceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Fast Ethernet or GIGE Interface to receive Network PID stream.
Network PID stream can be received from either fast etherent (ENET1 or ENET2)
or GIGE etherent port (GIGE1, GIGE2, GIGE3, GIGE4).
"
::= { apexDtaRfPortConfigEntry 5 }
apexDtaRfPortConfigNetPidNum OBJECT-TYPE
SYNTAX Integer32(7168..8190)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Network PID to insert on DTA enabled OTS.
The range of valid PID numbers are 0x1C00 to 0x1FFE.
"
::= { apexDtaRfPortConfigEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexDtaOtsConfigTable
--
apexDtaOtsConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDtaOtsConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of DTA configuration items for output transport streams (OTS).
Once written, the change to this table will only take immediate
effect after apexDtaConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexDtaConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDtaConfig 4 }
apexDtaOtsConfigEntry OBJECT-TYPE
SYNTAX ApexDtaOtsConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DTA OTS enable configuration Table Entry."
INDEX { apexDtaOtsConfigIndex }
::= { apexDtaOtsConfigTable 1 }
ApexDtaOtsConfigEntry ::= SEQUENCE
{
apexDtaOtsConfigIndex Integer32,
apexDtaOtsConfigEnable EnableDisableTYPE
}
apexDtaOtsConfigIndex OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The Output Transport Stream(OTS) number."
::= { apexDtaOtsConfigEntry 1 }
apexDtaOtsConfigEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This is to enable/disable of inserting DTA messages on OTS.
When set to disabled(1), DTA messages are not allowed to insert on OTS.
When set to enabled(2), DTA messages are allowed to insert on OTS.
"
::= { apexDtaOtsConfigEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexDepi
--
-- apexDepiConfig
--
-- apexDepiConfigGeneral
--
apexDepiConfigHostname OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..31))
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Host name defined as the FQDM of the APEX-EQAM device.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2, default=yes)
@File(config.ini, type='ini')
"
::= { apexDepiConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexDepiStatus
--
-- apexDepiStatusGeneral
--
apexDepiStatusGeneralDtiPort1LinkActive OBJECT-TYPE
SYNTAX ActiveTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This indicates if the DTI Ethernet link is active."
::= { apexDepiStatusGeneral 1 }
apexDepiStatusGeneralDtiPort2LinkActive OBJECT-TYPE
SYNTAX ActiveTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This indicates if the second DTI Ethernet link is active."
::= { apexDepiStatusGeneral 2 }
apexDepiStatusGeneralDtiClientStatusMode OBJECT-TYPE
SYNTAX INTEGER
{
warmup(1),
free-run(2),
fast(3),
normal(4),
bridging(5),
holdover(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The DTI Client MUST support and report these operational modes."
::= { apexDepiStatusGeneral 3 }
apexDepiStatusGeneralDtiClientPhaseError OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"24-bit Phase Error in units of 149.8 MHz sample clock cycles.
The lower eight bits of the 24-bit field MUST be padded with
zeros and MUST NOT be used by the DTI server. The value MUST be a
signed 2's complement number. If the DTI client supports more bits of
resolution, the DTI client MUST round the reported value to the nearest
integer sample clock cycle.
"
::= { apexDepiStatusGeneral 4 }
apexDepiStatusGeneralDtiCurrentTimestamp OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"DOCSIS 32-bit timestamp (DTS). "
::= { apexDepiStatusGeneral 5 }
apexDepiStatusGeneralDtiPort1CableAdvanceValue OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"24-bit Cable Advance value is derived by dividing the cable delay by 2."
::= { apexDepiStatusGeneral 6 }
apexDepiStatusGeneralDtiPort2CableAdvanceValue OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"24-bit Cable Advance value is derived by dividing the cable delay by 2."
::= { apexDepiStatusGeneral 7 }
-- ------------------------------------------------------------------------------
--
-- apexDepiControl
--
-- apexDepiControlConfig
--
-- apexDepiControlConfigGeneral
--
apexDepiControlConfigGeneralKeepaliveTimeout OBJECT-TYPE
SYNTAX Integer32(10..600)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Timeout in seconds to wait while no control or data messages are received
within the connection before sending a DEPI:HELLO message.
Default is 60 seconds.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDepiControlConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexDepiControlConfigApplyTable
--
apexDepiControlConfigApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDepiControlConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for apexDepiControlConfigTable.
Entries in the apexDepiControlConfigTable cannot be modified while DEPI Control
Connections and DEPI Sessions currently exist.
"
::= { apexDepiControlConfig 2 }
apexDepiControlConfigApplyEntry OBJECT-TYPE
SYNTAX ApexDepiControlConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Control Configuration Apply Table Entry.
"
INDEX { apexDepiControlConfigApplyIndex }
::= { apexDepiControlConfigApplyTable 1 }
ApexDepiControlConfigApplyEntry ::= SEQUENCE
{
apexDepiControlConfigApplyIndex Integer32,
apexDepiControlConfigApplyChange ApplyDataToDeviceTYPE
}
apexDepiControlConfigApplyIndex OBJECT-TYPE
SYNTAX Integer32(1..10)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Depi Control Config Apply Table."
::= { apexDepiControlConfigApplyEntry 1 }
apexDepiControlConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for any entries in the apexDepiControlConfigTable.
Entries in the apexDepiControlConfigTable cannot be modified while DEPI Control
Connections and DEPI Sessions currently exist.
This parameter MUST be set to 'apply' in order for any of the data
in the apexDepiControlConfigTable to take effect. This
parameter MUST be set LAST after all other data in the group has
been configured.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexDepiControlConfigApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexDepiControlConfigTable
--
apexDepiControlConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDepiControlConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table provides a list of DEPI Control Connections initiated by
M-CMTS Cores. A maximum of 10 connections is accepted.
Entries in the apexDepiControlConfigTable cannot be modified while DEPI Control
Connections and DEPI Sessions currently exist.
@Config(config=yes, reboot=no)
@Commit(param=apexDepiControlConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDepiControlConfig 3 }
apexDepiControlConfigEntry OBJECT-TYPE
SYNTAX ApexDepiControlConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Control Configuration Table Entry.
"
INDEX { apexDepiControlConfigIndex }
::= { apexDepiControlConfigTable 1 }
ApexDepiControlConfigEntry ::= SEQUENCE
{
apexDepiControlConfigIndex Integer32,
apexDepiControlConfigEnable EnableDisableTYPE,
apexDepiControlConfigInterfaceNumber Integer32,
apexDepiControlConfigSrcIpAddr IpAddress,
apexDepiControlConfigOverUdp INTEGER,
apexDepiControlConfigType INTEGER
}
apexDepiControlConfigIndex OBJECT-TYPE
SYNTAX Integer32(1..10)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Depi Control Config Table."
::= { apexDepiControlConfigEntry 1 }
apexDepiControlConfigEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The enable setting for DEPI Control Connection.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
"
::= { apexDepiControlConfigEntry 2 }
apexDepiControlConfigInterfaceNumber OBJECT-TYPE
SYNTAX Integer32(0..4)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Represents the Gigabit Ethernet interface number.
Range:
'0' = Not Applicable
GBE = 1-4
"
::= { apexDepiControlConfigEntry 3 }
apexDepiControlConfigSrcIpAddr OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates the M-CMTS Core IP address.
"
::= { apexDepiControlConfigEntry 4 }
apexDepiControlConfigOverUdp OBJECT-TYPE
SYNTAX INTEGER
{
over-IP (1),
over-UDP (2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates whether the DEPI Control Connection and
Sessions will be accepted over the UDP protocol.
"
::= { apexDepiControlConfigEntry 5 }
apexDepiControlConfigType OBJECT-TYPE
SYNTAX INTEGER
{
static (1),
dynamic(2)
}
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This parameter indicates whether DEPI Sessions are established
dynamically using the DEPI control protocol or statically.
Not supported.
"
::= { apexDepiControlConfigEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexDepiControlStatus
--
-- apexDepiControlStatusGeneral
--
apexDepiControlStatusGeneralTotalConnections OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of DEPI Control Connections established since reboot."
::= { apexDepiControlStatusGeneral 1 }
apexDepiControlStatusGeneralCurrentConnections OBJECT-TYPE
SYNTAX Integer32(1..10)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The current number of DEPI Control Connections currently connected."
::= { apexDepiControlStatusGeneral 2 }
apexDepiControlStatusGeneralRejectedConnections OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of control connection requests rejected for any reason."
::= { apexDepiControlStatusGeneral 3 }
apexDepiControlStatusGeneralUnknownConnectionMessages OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of DEPI control messages ignored not related to any
existing control connection i.e. unrecognized connection identifier."
::= { apexDepiControlStatusGeneral 4 }
apexDepiControlStatusGeneralUnknownSessionMessages OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of DEPI messages ignored not related to any existing
session i.e. unrecognized session identifier."
::= { apexDepiControlStatusGeneral 5 }
apexDepiControlStatusGeneralInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexDepiControlConfigApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data. This
entry contains the description for the most recent apply
of a related entry that was invalid.
"
::= { apexDepiControlStatusGeneral 6 }
-- ------------------------------------------------------------------------------
--
-- apexDepiControlStatusTable
--
apexDepiControlStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDepiControlStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of read-only status information pertaining to the DEPI Control
Connections."
::= { apexDepiControlStatus 2 }
apexDepiControlStatusEntry OBJECT-TYPE
SYNTAX ApexDepiControlStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Control Status Table Entry."
INDEX { apexDepiControlStatusIndex }
::= { apexDepiControlStatusTable 1 }
ApexDepiControlStatusEntry ::= SEQUENCE
{
apexDepiControlStatusIndex Integer32,
apexDepiControlStatusLocalUdp Integer32,
apexDepiControlStatusRemoteUdp Integer32,
apexDepiControlStatusConnectionStatus INTEGER,
apexDepiControlStatusUnknownCtl Unsigned32,
apexDepiControlStatusMalformedCtl Unsigned32,
apexDepiControlStatusUnknownAvp Unsigned32,
apexDepiControlStatusMalformedAvp Unsigned32,
apexDepiControlStatusInvalidVendorId Unsigned32,
apexDepiControlStatusHbitSet Unsigned32,
apexDepiControlStatusTotalSessions Unsigned32,
apexDepiControlStatusCurrentSessions Unsigned32,
apexDepiControlStatusRejectedSessions Unsigned32
}
apexDepiControlStatusIndex OBJECT-TYPE
SYNTAX Integer32(1..10)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Session ID"
::= { apexDepiControlStatusEntry 1 }
apexDepiControlStatusLocalUdp OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The EQAM UDP port used in DEPI session messages from M-CMTS core.
Only valid for DEPI connections using L2TPv3/UDP/IP.
"
::= { apexDepiControlStatusEntry 2 }
apexDepiControlStatusRemoteUdp OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The M-CMTS UDP port used in DEPI session messages from M-CMTS core.
Only valid for DEPI connections using L2TPv3/UDP/IP.
"
::= { apexDepiControlStatusEntry 3 }
apexDepiControlStatusConnectionStatus OBJECT-TYPE
SYNTAX INTEGER
{
terminated (1),
failed (2),
waiting (3),
established (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"M-CMTS core to the EQAM control connection status"
::= { apexDepiControlStatusEntry 4 }
apexDepiControlStatusUnknownCtl OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of unrecognized DEPI messages not marked as mandatory
received on this control connection.
"
::= { apexDepiControlStatusEntry 5 }
apexDepiControlStatusMalformedCtl OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of malformed DEPI messages received on this control
connection.
"
::= { apexDepiControlStatusEntry 6 }
apexDepiControlStatusUnknownAvp OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages received on this control connection with an
unsupported AVP.
"
::= { apexDepiControlStatusEntry 7 }
apexDepiControlStatusMalformedAvp OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages received on this control connection with
malformed AVP.
"
::= { apexDepiControlStatusEntry 8 }
apexDepiControlStatusInvalidVendorId OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages with an unsupported Vendor ID received on this
control connection. The supported vendor IDs are 0 or 4491.
"
::= { apexDepiControlStatusEntry 9 }
apexDepiControlStatusHbitSet OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages received on this control connection with H-bit
set to 1.
"
::= { apexDepiControlStatusEntry 10 }
apexDepiControlStatusTotalSessions OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Total number of sessions established on this control connection since
EQAM reboot. Only valid for dynamically established connections.
"
::= { apexDepiControlStatusEntry 11 }
apexDepiControlStatusCurrentSessions OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of session currently established on this control connection.
Only valid for dynamically established connections.
"
::= { apexDepiControlStatusEntry 12 }
apexDepiControlStatusRejectedSessions OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of session setup related (ICQR/ICCN) messages rejected on
this control connection.
"
::= { apexDepiControlStatusEntry 13 }
-- ------------------------------------------------------------------------------
--
-- apexDepiSessionConfigApplyTable
--
apexDepiSessionConfigApplyTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDepiSessionConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Apply Change for the data for apexDepiSessionConfigTable.
"
::= { apexDepiSessionConfig 1 }
apexDepiSessionConfigApplyEntry OBJECT-TYPE
SYNTAX ApexDepiSessionConfigApplyEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Session Status Table Entry."
INDEX { apexDepiSessionConfigApplyOutputTsNum }
::= { apexDepiSessionConfigApplyTable 1 }
ApexDepiSessionConfigApplyEntry ::= SEQUENCE
{
apexDepiSessionConfigApplyOutputTsNum Integer32,
apexDepiSessionConfigApplyChange ApplyDataToDeviceTYPE
}
apexDepiSessionConfigApplyOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The index of the Depi Session Config Apply Table."
::= { apexDepiSessionConfigApplyEntry 1 }
apexDepiSessionConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for any entries in the apexDepiSessionConfigTable.
This parameter MUST be set to 'apply' in order for any of the data
in the apexDepiSessionConfigTable to take effect. This
parameter MUST be set LAST after all other data in the table entry has
been configured.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexDepiSessionConfigApplyEntry 2 }
-- ------------------------------------------------------------------------------
--
-- apexDepiSessionConfigTable
--
apexDepiSessionConfigTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDepiSessionConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of data for DEPI Session Mapping. There are
48 rows in this table mapping QAM output TS to DEPI Session.
Once written, the change to this table will only take immediate
effect after apexDepiSessionConfigApplyChange is set to 'apply'.
However, in order for the change to persist through subsequent
reboots or power cycles, the change must be saved via apexSaveConfig.
@Config(config=yes, reboot=no)
@Commit(param=apexDepiSessionConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexDepiSessionConfig 2 }
apexDepiSessionConfigEntry OBJECT-TYPE
SYNTAX ApexDepiSessionConfigEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Session Config Table Entry."
INDEX { apexDepiSessionConfigOutputTsNum }
::= { apexDepiSessionConfigTable 1 }
ApexDepiSessionConfigEntry ::= SEQUENCE
{
apexDepiSessionConfigOutputTsNum Integer32,
apexDepiSessionConfigEnable EnableDisableTYPE,
apexDepiSessionConfigControlId Integer32,
apexDepiSessionConfigDocsisTsid Integer32,
apexDepiSessionConfigUdpPort Integer32,
apexDepiSessionConfigSyncCorrection EnableDisableTYPE
}
apexDepiSessionConfigOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The QAM output transport stream number which to associate the DEPI Session.
"
::= { apexDepiSessionConfigEntry 1 }
apexDepiSessionConfigEnable OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The enable setting for DEPI Session.
Once written, the change to this parameter will take immediate
effect. In order for the change to persist through subsequent
reboots or power cycles, the change must be saved via the
apexSaveConfig parameter.
"
::= { apexDepiSessionConfigEntry 2 }
apexDepiSessionConfigControlId OBJECT-TYPE
SYNTAX Integer32 (0..10)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"DOCSIS Control ID assignment. Value of 0 indicates transport stream to be used
for Video only.
"
::= { apexDepiSessionConfigEntry 3 }
apexDepiSessionConfigDocsisTsid OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The system wide unique M-CMTS TSID mapped to the QAM. This TSID is specified by the
remote ID from the ICRQ message.
"
::= { apexDepiSessionConfigEntry 4 }
apexDepiSessionConfigUdpPort OBJECT-TYPE
SYNTAX Integer32 (1..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"UDP port number defining the DEPI Session (if UDP is enabled.) The
range of valid port numbers is 1 to 65535.
"
::= { apexDepiSessionConfigEntry 5 }
apexDepiSessionConfigSyncCorrection OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Enable or disable updating the timestamp in the SYNC messages. This
is only valid for static connections. (For dynamically established
sessions, M-CMTS core enables or disables the SYNC correction during
session establishment)
"
::= { apexDepiSessionConfigEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexDepiSessionStatusGeneral
--
apexDepiSessionStatusGeneralInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexDepiSessionConfigApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of what was wrong with the data. This
entry contains the description for the most recent apply
of a related entry that was invalid.
"
::= { apexDepiSessionStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexDepiSessionStatusTable
--
apexDepiSessionStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexDepiSessionStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of read-only status information pertaining to the DEPI Sessions."
::= { apexDepiSessionStatus 2 }
apexDepiSessionStatusEntry OBJECT-TYPE
SYNTAX ApexDepiSessionStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Session Status Table Entry."
INDEX { apexDepiSessionStatusIndex }
::= { apexDepiSessionStatusTable 1 }
ApexDepiSessionStatusEntry ::= SEQUENCE
{
apexDepiSessionStatusIndex Integer32,
apexDepiSessionStatusControlId Integer32,
apexDepiSessionStatusOutputQAMChannel Integer32,
apexDepiSessionStatusLocalUdp Integer32,
apexDepiSessionStatusRemoteUdp Integer32,
apexDepiSessionStatusStatus INTEGER,
apexDepiSessionStatusPerHopBehavior Integer32,
apexDepiSessionStatusUnknownCtl Unsigned32,
apexDepiSessionStatusMalformedCtl Unsigned32,
apexDepiSessionStatusUnknownAvp Unsigned32,
apexDepiSessionStatusMalformedAvp Unsigned32,
apexDepiSessionStatusInvalidVendorId Unsigned32,
apexDepiSessionStatusHbitSet Unsigned32,
apexDepiSessionStatusInSLIMsgs Unsigned32,
apexDepiSessionStatusOutSLIMsgs Unsigned32,
apexDepiSessionStatusIngressDlmMsgs Unsigned32,
apexDepiSessionStatusEgressDlmMsgs Unsigned32,
apexDepiSessionStatusLatencyStart Unsigned32,
apexDepiSessionStatusLatencyEnd Unsigned32,
apexDepiSessionStatusInDataPackets Unsigned32,
apexDepiSessionStatusInSequenceDiscards Unsigned32,
apexDepiSessionStatusInDataPacketDiscards Unsigned32,
apexDepiSessionStatusSessionID Unsigned32
}
apexDepiSessionStatusIndex OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"DEPI Session ID."
::= { apexDepiSessionStatusEntry 1 }
apexDepiSessionStatusControlId OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The DEPI Control ID this session belongs to."
::= { apexDepiSessionStatusEntry 2 }
apexDepiSessionStatusOutputQAMChannel OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The QAM Channel number this session is mapped to."
::= { apexDepiSessionStatusEntry 3 }
apexDepiSessionStatusLocalUdp OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The local UDP port used by the APEX to communicate the DEPI Session
messages to the M-CMTS Core"
::= { apexDepiSessionStatusEntry 4 }
apexDepiSessionStatusRemoteUdp OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The remote UDP port used by the M-CMTS Core to communicate the DEPI
Session messages to the Apex."
::= { apexDepiSessionStatusEntry 5 }
apexDepiSessionStatusStatus OBJECT-TYPE
SYNTAX INTEGER
{
terminated (1),
failed (2),
waiting (3),
established (4)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"M-CMTS core to the EQAM control connection status"
::= { apexDepiSessionStatusEntry 6 }
apexDepiSessionStatusPerHopBehavior OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Per Hop Behavior value for this session."
::= { apexDepiSessionStatusEntry 7 }
apexDepiSessionStatusUnknownCtl OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of unrecognized DEPI messages not marked as mandatory
received on this session."
::= { apexDepiSessionStatusEntry 8 }
apexDepiSessionStatusMalformedCtl OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of malformed DEPI messages received on this session."
::= { apexDepiSessionStatusEntry 9 }
apexDepiSessionStatusUnknownAvp OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages received on this session with an unsupported AVP."
::= { apexDepiSessionStatusEntry 10 }
apexDepiSessionStatusMalformedAvp OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages received on this session with malformed AVP."
::= { apexDepiSessionStatusEntry 11 }
apexDepiSessionStatusInvalidVendorId OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages with an unsupported Vendor ID received on this
session. The supported vendor IDs are 0 or 4491."
::= { apexDepiSessionStatusEntry 12 }
apexDepiSessionStatusHbitSet OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of messages received on this session with H-bit set to 1."
::= { apexDepiSessionStatusEntry 13 }
apexDepiSessionStatusInSLIMsgs OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of SLI messages received on this session."
::= { apexDepiSessionStatusEntry 14 }
apexDepiSessionStatusOutSLIMsgs OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of SLI messages sent on this session."
::= { apexDepiSessionStatusEntry 15 }
apexDepiSessionStatusIngressDlmMsgs OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of DLM messages received on this session."
::= { apexDepiSessionStatusEntry 16 }
apexDepiSessionStatusEgressDlmMsgs OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of DLM messages sent on this session."
::= { apexDepiSessionStatusEntry 17 }
apexDepiSessionStatusLatencyStart OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Last latency related timestamp start value received."
::= { apexDepiSessionStatusEntry 18 }
apexDepiSessionStatusLatencyEnd OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Last latency related timestamp end value received."
::= { apexDepiSessionStatusEntry 19 }
apexDepiSessionStatusInDataPackets OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of data packets received on this session."
::= { apexDepiSessionStatusEntry 20 }
apexDepiSessionStatusInSequenceDiscards OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of data packets received on this session that are discarded
due to sequencing error."
::= { apexDepiSessionStatusEntry 21 }
apexDepiSessionStatusInDataPacketDiscards OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of data packets received on this session that are discarded
for reasons other than sequencing errors."
::= { apexDepiSessionStatusEntry 22 }
apexDepiSessionStatusSessionID OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Remote DEPI Session ID, used by the Remote End to identify the DEPI
Session and locally to bind the Session to a QAM Channel."
::= { apexDepiSessionStatusEntry 23 }
-- ------------------------------------------------------------------------------
--
-- apexPsip
--
-- apexPsipConfig
--
-- apexPsipConfigGeneral
--
apexPsipConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for parameters in apexPsipConfigGeneral.
This parameter MUST be set to 'apply' in order for other
apexPsipConfigGeneral parameters to take effect.
This parameter MUST be set LAST after other apexPsipConfigGeneral
parameters have been configured.
@Config(config=no, reboot=no)
"
::= { apexPsipConfigGeneral 1 }
apexPsipConfigMgtMsgInsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(150..1000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Specify insertion rate (ms) for MGT PSIP table.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 2 }
apexPsipConfigSttMsgInsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(1000..5000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Specify insertion rate (ms) for STT PSIP table.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 3 }
apexPsipConfigCvctMsgInsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(400..1000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Specify insertion rate (ms) for CVCT PSIP table.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 4 }
apexPsipConfigRrtMsgInsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(30000..60000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Specify insertion rate (ms) for RRT PSIP table.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 5 }
apexPsipConfigEit0InsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(500..60000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"EIT insertion rate (ms) of EIT-0.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 6 }
apexPsipConfigEit1InsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(500..60000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"EIT insertion rate (ms) of EIT-1.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 7 }
apexPsipConfigEit2InsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(500..60000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"EIT insertion rate (ms) of EIT-2.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 8 }
apexPsipConfigEit3InsertionPeriod OBJECT-TYPE
SYNTAX Unsigned32(500..60000)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"EIT insertion rate (ms) of EIT-3.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigGeneral 9 }
-- ------------------------------------------------------------------------------
--
-- apexPsipConfigTime
--
apexPsipConfigTimeApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for parameters in apexPsipConfigTime group.
This parameter MUST be set to 'apply' in order for other
apexPsipConfigTime parameters to take effect.
This parameter MUST be set LAST after other apexPsipConfigTime
parameters have been configured.
@Config(config=no, reboot=no)
"
::= { apexPsipConfigTime 1 }
apexPsipConfigTimeDsMonthIn OBJECT-TYPE
SYNTAX Unsigned32(1..12)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configurable month for entering DST.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigTimeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigTimeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigTime 2 }
apexPsipConfigTimeDsDayIn OBJECT-TYPE
SYNTAX Unsigned32(1..31)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configurable day for entering DST.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigTimeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigTimeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigTime 3 }
apexPsipConfigTimeDsHourIn OBJECT-TYPE
SYNTAX Unsigned32(0..18)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configurable hour for entering DST.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigTimeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigTimeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigTime 4 }
apexPsipConfigTimeDsMonthOut OBJECT-TYPE
SYNTAX Unsigned32(1..12)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configurable month for exiting DST.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigTimeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigTimeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigTime 5 }
apexPsipConfigTimeDsDayOut OBJECT-TYPE
SYNTAX Unsigned32(1..31)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configurable day for exiting DST.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigTimeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigTimeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigTime 6 }
apexPsipConfigTimeDsHourOut OBJECT-TYPE
SYNTAX Unsigned32(0..18)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Configurable hour for exiting DST.
Once written, the change to this parameter will only take immediate
effect after apexPsipConfigTimeApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Commit(param=apexPsipConfigTimeApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPsipConfigTime 7 }
-- ------------------------------------------------------------------------------
--
-- apexPsipStatusInputTable
--
apexPsipStatusInputTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPsipStatusInputEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The following table contains a list of messages that are being extracted
from the input side.
"
::= { apexPsipStatus 2 }
apexPsipStatusInputEntry OBJECT-TYPE
SYNTAX ApexPsipStatusInputEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"PSIP Table Entry."
INDEX { apexPsipStatusInputIndex, apexPsipStatusInputPid, apexPsipStatusInputMessageType,
apexPsipStatusInputSourceId, apexPsipStatusInputSegment, apexPsipStatusInputPart }
::= { apexPsipStatusInputTable 1 }
ApexPsipStatusInputEntry ::= SEQUENCE
{
apexPsipStatusInputIndex Integer32,
apexPsipStatusInputPid Integer32,
apexPsipStatusInputMessageType Integer32,
apexPsipStatusInputSourceId Integer32,
apexPsipStatusInputSegment Integer32,
apexPsipStatusInputPart Integer32,
apexPsipStatusInputBody DisplayString,
apexPsipStatusInputGpsTime Integer32,
apexPsipStatusInputInfo DisplayString
}
apexPsipStatusInputIndex OBJECT-TYPE
SYNTAX Integer32(1..784)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the input index for which this message applies."
::= { apexPsipStatusInputEntry 1 }
apexPsipStatusInputPid OBJECT-TYPE
SYNTAX Integer32(0..8191)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the PID that this message is contained in."
::= { apexPsipStatusInputEntry 2 }
apexPsipStatusInputMessageType OBJECT-TYPE
SYNTAX Integer32(0..255)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the PSIP message type.
199 - MGT
200 - TVCT
201 - CVCT
203 - EIT
202 - RRT
205 - STT
"
::= { apexPsipStatusInputEntry 3 }
apexPsipStatusInputSourceId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the Source Id of EIT tables. When a
message is not specifically related to a program,
this value is 0."
::= { apexPsipStatusInputEntry 4 }
apexPsipStatusInputSegment OBJECT-TYPE
SYNTAX Integer32(0..256)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the segment number of this message.
Otherwise this is 0."
::= { apexPsipStatusInputEntry 5 }
apexPsipStatusInputPart OBJECT-TYPE
SYNTAX Integer32(1..16)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Since a message can be 4096 bytes long the message
may divided into parts. Each part of the message is
indexed using this index."
::= { apexPsipStatusInputEntry 6 }
apexPsipStatusInputBody OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Raw ASCII hex of the PSIP message."
::= { apexPsipStatusInputEntry 7 }
apexPsipStatusInputGpsTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The GPS time when the PSIP message was added to the table."
::= { apexPsipStatusInputEntry 8 }
apexPsipStatusInputInfo OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Comma-separated string showing Input Interface, UDP port,
Multicast IP, and Source IP for this PSIP message."
::= { apexPsipStatusInputEntry 9 }
-- ------------------------------------------------------------------------------
--
-- apexPsipStatusOutputTable
--
apexPsipStatusOutputTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPsipStatusOutputEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The following table contains a list of messages that are
being inserted to the output side of the apex.
"
::= { apexPsipStatus 3 }
apexPsipStatusOutputEntry OBJECT-TYPE
SYNTAX ApexPsipStatusOutputEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"PSIP Table Entry."
INDEX { apexPsipStatusOutputIndex, apexPsipStatusOutputPid, apexPsipStatusOutputMessageType,
apexPsipStatusOutputSourceId, apexPsipStatusOutputSegment, apexPsipStatusOutputPart }
::= { apexPsipStatusOutputTable 1 }
ApexPsipStatusOutputEntry ::= SEQUENCE
{
apexPsipStatusOutputIndex Integer32,
apexPsipStatusOutputPid Integer32,
apexPsipStatusOutputMessageType Integer32,
apexPsipStatusOutputSourceId Integer32,
apexPsipStatusOutputSegment Integer32,
apexPsipStatusOutputPart Integer32,
apexPsipStatusOutputBody DisplayString,
apexPsipStatusOutputGpsTime Integer32
}
apexPsipStatusOutputIndex OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the Output index for which this message applies.
This is the Output Transport Stream number (1..48).
"
::= { apexPsipStatusOutputEntry 1 }
apexPsipStatusOutputPid OBJECT-TYPE
SYNTAX Integer32(0..8191)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the PID that this message is contained in."
::= { apexPsipStatusOutputEntry 2 }
apexPsipStatusOutputMessageType OBJECT-TYPE
SYNTAX Integer32(0..255)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the PSIP message type.
199 - MGT
200 - TVCT
201 - CVCT
203 - EIT
202 - RRT
205 - STT"
::= { apexPsipStatusOutputEntry 3 }
apexPsipStatusOutputSourceId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the Source Id of EIT tables. When a
message is not specifically related to a program,
this value is 0."
::= { apexPsipStatusOutputEntry 4 }
apexPsipStatusOutputSegment OBJECT-TYPE
SYNTAX Integer32(0..256)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Indicates the segment number of this message.
Otherwise this is 0."
::= { apexPsipStatusOutputEntry 5 }
apexPsipStatusOutputPart OBJECT-TYPE
SYNTAX Integer32(1..16)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Since a message can be 4096 bytes long the message may divided into parts.
Each part of the message is indexed using this index."
::= { apexPsipStatusOutputEntry 6 }
apexPsipStatusOutputBody OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Raw ASCII hex of the PSIP message."
::= { apexPsipStatusOutputEntry 7 }
apexPsipStatusOutputGpsTime OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The GPS time when the PSIP message was added to the table."
::= { apexPsipStatusOutputEntry 8 }
-- ------------------------------------------------------------------------------
--
-- apexPsipStatusServiceTable
--
apexPsipStatusServiceTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexPsipStatusServiceEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"The following table shows the PSIP status per service.
For each service, the service number, the Output Transport
Stream number, its PSIP state and its source id are shown
in the current entry. This table is indexed the same as
apexOutputProgramTable.
"
::= { apexPsipStatus 4 }
apexPsipStatusServiceEntry OBJECT-TYPE
SYNTAX ApexPsipStatusServiceEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"PSIP Status Table Entry per service."
INDEX { apexPsipStatusServiceIndex }
::= { apexPsipStatusServiceTable 1 }
ApexPsipStatusServiceEntry ::= SEQUENCE
{
apexPsipStatusServiceIndex Integer32,
apexPsipStatusServiceNum Integer32,
apexPsipStatusServiceOutputTs Integer32,
apexPsipStatusServiceState DisplayString,
apexPsipStatusServiceSourceId Integer32
}
apexPsipStatusServiceIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Program Table Index."
::= { apexPsipStatusServiceEntry 1 }
apexPsipStatusServiceNum OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Output Service Number."
::= { apexPsipStatusServiceEntry 2 }
apexPsipStatusServiceOutputTs OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Output Transport Stream of this service."
::= { apexPsipStatusServiceEntry 3 }
apexPsipStatusServiceState OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..64))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current program PSIP state."
::= { apexPsipStatusServiceEntry 4 }
apexPsipStatusServiceSourceId OBJECT-TYPE
SYNTAX Integer32(1..65535)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current PSIP Program Source Id."
::= { apexPsipStatusServiceEntry 5 }
-- ------------------------------------------------------------------------------
--
-- apexPreencryption
--
-- apexPreencryptionConfig
--
-- apexPreencryptionConfigGeneral
--
apexSupportPreencryptedSimulcrypt OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Allows to configure the APEX to support services pre-encrypted with Simulcrypt.
All the CA descriptors present in the input PMT will be copied to the output PMT,
modifying the ECM PID references if needed.
Default value is enabled.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexPreencryptionConfigGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexOutputAncillaryPid
--
-- apexOutputAncillaryPidConfig
--
-- apexOutputAncillaryPidConfigGeneral
--
-- none
-- ------------------------------------------------------------------------------
--
-- apexOutputAncillaryPidStatus
--
-- apexOutputAncillaryPidStatusGeneral
--
apexOutputAncillaryPidBitrateSamplePeriod OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Sample Period for Output Ancillary PID bitrate collection.
This parameter indicates the length of time in the unit of
milliseconds the TS packets are collected during a sample.
"
::= { apexOutputAncillaryPidStatusGeneral 1 }
-- ------------------------------------------------------------------------------
--
-- apexOutputAncillaryPidStatusTable
--
apexOutputAncillaryPidStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputAncillaryPidStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"This table shows the status of input ancillary PID to output ancillary
PID mappings which are configured through either apexPidMapTable or
apexBulkPidMapTable. As 'apexBulkPidMapTable' maps the same PID
to multiple output transport streams, then for each selected OTSs
a separate PID mapping will be created. Accordingly, for each mapping
there will be a separate status entry in the status table.
"
::= { apexOutputAncillaryPidStatus 2 }
apexOutputAncillaryPidStatusEntry OBJECT-TYPE
SYNTAX ApexOutputAncillaryPidStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Ancillary PID Status Table Entry.
As 'apexBulkPidMapTable' maps the same PID to multiple output
transport streams, then for each selected OTSs a separate PID
mapping will be created. Accordingly, for each mapping
there will be a separate status entry in the status table.
The manually configurable ancillary PIDs are 480. DTA configured
ancillary PIDs are 144 (CAT, EMM and NET pids routed to all 48 OTSs)
"
INDEX { apexOutputAncillaryPidIndex }
::= { apexOutputAncillaryPidStatusTable 1 }
ApexOutputAncillaryPidStatusEntry ::= SEQUENCE
{
apexOutputAncillaryPidIndex Integer32,
apexOutputAncillaryPidInputTsNum Integer32,
apexOutputAncillaryPidInputPid Integer32,
apexOutputAncillaryPidOutputTsNum Integer32,
apexOutputAncillaryPidOutputPid Integer32,
apexOutputAncillaryPidRoutingStatus DisplayString,
apexOutputAncillaryPidAverageBitrate Unsigned32
}
apexOutputAncillaryPidIndex OBJECT-TYPE
SYNTAX Integer32(1..624)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Ancillary PID Status Table Index.
"
::= { apexOutputAncillaryPidStatusEntry 1 }
apexOutputAncillaryPidInputTsNum OBJECT-TYPE
SYNTAX Integer32(1..784)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This input TS number points the index in the 'apexInputTsStatTable'.
The index will be used to retrieve the input TS details like
Input Interface, UDP port, Multicast IP and Source IP.
"
::= { apexOutputAncillaryPidStatusEntry 2 }
apexOutputAncillaryPidInputPid OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This input ancillary PID will be extracted from the input TS
pointed by the 'apexOutputAncillaryPidInputTsNum'.
"
::= { apexOutputAncillaryPidStatusEntry 3 }
apexOutputAncillaryPidOutputTsNum OBJECT-TYPE
SYNTAX Integer32(1..48)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Output Transport Stream Number to which the Input ancillary
PID is routed.
"
::= { apexOutputAncillaryPidStatusEntry 4 }
apexOutputAncillaryPidOutputPid OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Output Ancillary PID.
"
::= { apexOutputAncillaryPidStatusEntry 5 }
apexOutputAncillaryPidRoutingStatus OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Ancillary PID Routing Status. The list of status information is
mentioned below.
Not Defined - When a PID is mapped, but not
activated.
Successfully multiplexing - When a PID is mapped, activated and
input PID is available.
Input ancillary PID is missing - When a PID is mapped and activated,
but the input PID is not available.
"
::= { apexOutputAncillaryPidStatusEntry 6 }
apexOutputAncillaryPidAverageBitrate OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Bitrate is measured for the sample period
'apexOutputAncillaryPidBitrateSamplePeriod'.
This parameter contains the average bitrate,
calculated from the samples collected for the
rolling sampling interval. The sampling interval
is upto last fifteen minutes.
This parameter is in bits per second (bps).
"
::= { apexOutputAncillaryPidStatusEntry 7 }
-- ------------------------------------------------------------------------------
--
-- apexUls
--
-- apexUlsConfig
--
-- apexUlsConfigGeneral
--
apexUlsConfigGenerateRequest OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for generating ULS Feature Requests.
This parameter MUST be set to 'apply' in order for
apexUlsConfigMcSimChannelsRequest
to take effect.
This parameter MUST be set LAST after all other data has been configured.
@Config(config=no, reboot=no)
"
::= { apexUlsConfigGeneral 1 }
apexUlsConfigValidateResponse OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for validating ULS Feature Response.
This parameter MUST be set to 'apply' in order for
ULS-generated feature key file to be submitted.
This parameter MUST be set after the binary key file
has been SFTP to the target device.
@Config(config=no, reboot=no)
"
::= { apexUlsConfigGeneral 2 }
apexUlsConfigCommitNewFeatures OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for committing ULS feature Keys.
This parameter MUST be set to 'apply' in order for
the validated feature keys to be committed.
@Config(config=no, reboot=no)
"
::= { apexUlsConfigGeneral 3 }
-- ------------------------------------------------------------------------------
--
-- apexUlsConfigMcSimFeatures
--
apexUlsConfigMcSimChannelsRequest OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Number of MediaCipher Simulcrypt channels, being requested in this feature.
@Config(config=no, reboot=no)
@Commit(param=apexUlsConfigGenerateRequest , value=2)
"
::= { apexUlsConfigMcSimFeatures 1 }
-- ------------------------------------------------------------------------------
--
-- apexUlsStatus
--
-- apexUlsStatusGeneral
--
apexUlsStatusGenerateRequestText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexUlsConfigGenerateRequest is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply that was invalid.
"
::= { apexUlsStatusGeneral 1 }
apexUlsStatusValidateResponseText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexUlsConfigValidateResponse is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply that was invalid.
"
::= { apexUlsStatusGeneral 2 }
apexUlsStatusCommitNewFeaturesText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When apexUlsConfigCommitNewFeatures is set to applyNotInProgressInvalidData
this entry may contain a text description of what was wrong with the data.
This entry contains the description for the most recent apply that was invalid.
"
::= { apexUlsStatusGeneral 3 }
-- ------------------------------------------------------------------------------
--
-- apexUlsStatusMcSimFeatures
--
apexUlsStatusMcSimChannelsCurrent OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of MediaCipher Simulcrypt channels, currently allowed in this feature."
::= { apexUlsStatusMcSimFeatures 1 }
apexUlsStatusMcSimChannelsInUse OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of MediaCipher Simulcrypt channels, in use."
::= { apexUlsStatusMcSimFeatures 2 }
apexUlsStatusMcSimChannelsMax OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Maximum number of MediaCipher Simulcrypt channels allowed to be used, even if the
license provides for more."
::= { apexUlsStatusMcSimFeatures 3 }
-- ------------------------------------------------------------------------------
--
-- apexSimulcryptEcmgStatusTable
--
apexSimulcryptEcmgStatusTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexSimulcryptEcmgStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Rds2 Events.
The index apexSimulcryptEcmgProgramIndex matches the
row index in apexManualRouteTable.
"
::= { apexSimulcryptEcmgStatus 4 }
apexSimulcryptEcmgStatusEntry OBJECT-TYPE
SYNTAX ApexSimulcryptEcmgStatusEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Rds2 Events Table Entry."
INDEX { apexSimulcryptEcmgProgramIndex}
::= { apexSimulcryptEcmgStatusTable 1 }
ApexSimulcryptEcmgStatusEntry ::= SEQUENCE
{
apexSimulcryptEcmgProgramIndex Integer32,
apexOutputProgramCAS1EcmgChannel Integer32,
apexOutputProgramCAS1EcmgStream Integer32,
apexOutputProgramCAS2EcmgChannel Integer32,
apexOutputProgramCAS2EcmgStream Integer32,
apexOutputProgramCAS3EcmgChannel Integer32,
apexOutputProgramCAS3EcmgStream Integer32,
apexOutputProgramCAS4EcmgChannel Integer32,
apexOutputProgramCAS4EcmgStream Integer32,
apexOutputProgramCAS5EcmgChannel Integer32,
apexOutputProgramCAS5EcmgStream Integer32,
apexOutputProgramCAS6EcmgChannel Integer32,
apexOutputProgramCAS6EcmgStream Integer32,
apexOutputProgramCAS7EcmgChannel Integer32,
apexOutputProgramCAS7EcmgStream Integer32,
apexOutputProgramCAS8EcmgChannel Integer32,
apexOutputProgramCAS8EcmgStream Integer32
}
apexSimulcryptEcmgProgramIndex OBJECT-TYPE
SYNTAX Integer32(1..768)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"apexSimulcryptEcmgProgramIndex is the last 10 bits of
apexOutputProgramEcmServiceId from apexOutputProgramTable."
::= { apexSimulcryptEcmgStatusEntry 1 }
apexOutputProgramCAS1EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the first CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 2 }
apexOutputProgramCAS1EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS1EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the first CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 3 }
apexOutputProgramCAS2EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the second CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 4 }
apexOutputProgramCAS2EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS2EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the second CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 5 }
apexOutputProgramCAS3EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the third CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 6 }
apexOutputProgramCAS3EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS3EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the third CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 7 }
apexOutputProgramCAS4EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the fourth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 8 }
apexOutputProgramCAS4EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS4EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the fourth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 9 }
apexOutputProgramCAS5EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the fifth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 10 }
apexOutputProgramCAS5EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS5EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the fifth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 11 }
apexOutputProgramCAS6EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the sixth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 12 }
apexOutputProgramCAS6EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS6EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the sixth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 13 }
apexOutputProgramCAS7EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the seventh CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 14 }
apexOutputProgramCAS7EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS7EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the seventh CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 15 }
apexOutputProgramCAS8EcmgChannel OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The index into the simulcryptEcmgStatChannelTable for the eigth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 16 }
apexOutputProgramCAS8EcmgStream OBJECT-TYPE
SYNTAX Integer32(0..19)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This combined with apexOutputProgramCAS8EcmgChannel gives the
index into simulcryptEcmgStatStreamTable for the eigth CAS system.
This is applicable only when Simulcrypt is enabled.
"
::= { apexSimulcryptEcmgStatusEntry 17 }
-- ------------------------------------------------------------------------------
--
-- apexMcSim
--
-- apexMcSimConfig
--
-- apexMcSimConfigGeneral
--
apexMcSimEnableDacId OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This enables prepending the DAC ID to the Access Criteria in the
SCS<=>ECMG Control Word Provision request.
Once written, the change to this parameter will only take immediate
effect after apexMcSimConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
Default value is disabled.
@Config(config=yes, reboot=no)
@Commit(param=apexMcSimConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexMcSimConfigGeneral 1 }
apexMcSimDacId OBJECT-TYPE
SYNTAX Integer32(0..65535)
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The DAC ID to be prepended to the Access Criteria in the
SCS<=>ECMG Control Word Provision request.
Once written, the change to this parameter will only take immediate
effect after apexMcSimConfigApplyChange is set to 'apply'. In
order for the change to persist through subsequent reboots or power
cycles, the change must be saved via apexSaveConfig.
Default value is 0.
@Config(config=yes, reboot=no)
@Commit(param=apexMcSimConfigApplyChange, value=2)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexMcSimConfigGeneral 2 }
apexMcSimConfigApplyChange OBJECT-TYPE
SYNTAX ApplyDataToDeviceTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"The Apply for MC SimulCrypt Configuration.
This parameter MUST be set to 'apply' in order for the Queuing Device ID,
or DAC ID to take effect in the APEX.
This parameter MUST be set LAST after the MC Simulcrypt Enable
has been configured.
@Config(config=no, reboot=no)
"
::= { apexMcSimConfigGeneral 3 }
apexMcSimConfigInvalidApplyText OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..80))
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"When corresponding apexMcSimEnableApplyChange is set to
'applyNotInProgressInvalidData' this entry may contain
a text description of why MC Simulcrypt was not enabled/disabled.
"
::= { apexMcSimConfigGeneral 4 }
-- ------------------------------------------------------------------------------
--
-- apexAlarms
--
apexAlarmHardwareFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates that a Hardware related error occurred. Examples include
missing or uncommunicative HW, failures in initialization of HW, and
failures to configure HW. These can occur at startup or when the
system is operational. Types of HW Faults include: Application File(s)
Download failure; SPI Interface Initialization failure; PCI Interface
Initialization failure; GigE Configuration failure; MUX Configuration
failure; QAM Module Communication failure; Unsupported/Incorrect
HW/FW Version (QAM, etc.); Fatal Host Firmware Exception.
'critical' indicates a fatal error occurred that prevents the APEX
from performing operational requirements.
'warning' indicates an error that does not prevent the APEX from
performing operational requirements.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Hardware Fault"
--crs_define="EC_HARDWARE_FAULT_ALARM"></DbHint>
::= { apexAlarms 8000 }
apexAlarmInvalidInitData OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Set when invalid Initialization data (ini files) is encountered.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Invalid Initialization"
--crs_define="EC_INVALID_INIT_DATA_ALARM"></DbHint>
::= { apexAlarms 8001 }
apexAlarmTemperatureFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"'critical' indicates one or more temperature sensors is reporting a
high temperature condition.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Temperature Fault"
--crs_define="EC_TEMPERATURE_ALARM"></DbHint>
::= { apexAlarms 8002 }
apexAlarmFanFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"'major' indicates one or more fans has reduced RPM readings.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Fan Fault"
--crs_define="EC_FAN_FAULT_ALARM"></DbHint>
::= { apexAlarms 8003 }
apexAlarmPowerFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Power Supply Fault Alarm.
'warning' indicates power supply not compatible (apexPsStatusInstalled).
'major' indicates power supply or fan only module) removed
(apexPsStatusInstalled).
'major' indicates power supply input power fault (apexPsStatusInputPowerStatus),
output power fault (apexPsStatusOutputPowerStatus), or comm fault
(apexPsStatusCommError).
'critical' indicates power supply over temperature fault
(apexPsStatusTemperatureStatus).
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Power Fault"
--crs_define="EC_POWER_FAULT_ALARM"></DbHint>
::= { apexAlarms 8004 }
apexAlarmGbeLossOfPhysicalInput OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Loss of Physical Gigabit Ethernet Input Alarm.
'critical' indicates that one or more physical interfaces that are
configured as enabled to receive input have a failure
(apexGbeStatusLossOfPhysicalInput).
Physical input interfaces can be disabled to prevent this alarm
when no input is connected.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE Physical Input Failure"
--crs_define="EC_GBE_PHYS_INPUT_FAILURE_ALARM"></DbHint>
::= { apexAlarms 8020 }
apexAlarmGbeBufferFullness OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Gigabit Ethernet Frame Buffer Fullness Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
Frame buffers are about to or have overflowed. The overflow level is
based on the actual input data rate.
'major' when the frame buffer crosses a user specified threshold
(apexGbeConfigFrameBufferAlarmThreshold). Cleared when the buffer level drops
below the threshold.
'critical' when the frame buffer is completely full and frames are being
dropped. Cleared when the overflow condition stops.
A Major alarm, depending on the threshold setting, indicates that the
APEX is getting close to overflowing it's internal Gigabit Ethernet
frame buffers.
A Critical alarm indicates that the frame buffer levels have overflowed.
This will cause loss of packets and may result in tiling and other output
anomalies.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE Buffer Fullness"
--crs_define="EC_GBE_BUFFER_FULLNESS_ALARM"></DbHint>
::= { apexAlarms 8021 }
apexAlarmGbeInputStreamLowBitRate OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Stream Low Bit Rate Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
Input Streams as configured in apexManRteGbeInRedTable have a low
bit rate condition. For alarm status of each stream refer to entries
apexGbeStatInTsPriLowBitRateAlarm and apexGbeStatInTsSecLowBitRateAlarm.
'major' when one or more stream bit rates are below their
apexManRteGbeInRedPriLowAlarmBitRate or apexManRteGbeInRedSecLowAlarmBitRate.
Clears when all streams have been restored to at or above their configured
apexManRteGbeInRedPriLowAlarmBitRate or apexManRteGbeInRedSecLowAlarmBitRate.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE Input Low Bit Rate"
--crs_define="EC_GBE_IN_LOW_BIT_RATE_ALARM"></DbHint>
::= { apexAlarms 8022 }
apexAlarmGbeInputStreamHighBitRate OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Stream High Bit Rate Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
Input Streams as configured in apexManRteGbeInRedTable or via a Session
Controller have a high bit rate condition. For alarm status of each
stream refer to entry apexGbeStatInTsPriHighBitRateAlarm and
apexGbeStatInTsSecHighBitRateAlarm.
'major' when one or more stream bit rates are above their
apexManRteGbeInRedPriHighAlarmBitRate or apexManRteGbeInRedSecHighAlarmBitRate.
Clears when all streams have been restored to at or below their configured
apexManRteGbeInRedPriHighAlarmBitRate or apexManRteGbeInRedSecHighAlarmBitRate.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE Input High Bit Rate"
--crs_define="EC_GBE_IN_HIGH_BIT_RATE_ALARM"></DbHint>
::= { apexAlarms 8023 }
apexAlarmGbeMptsRedundPrimaryThreshold OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Gigabit Ethernet Input MPTS Redundant Primary Stream Below Threshold Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
Input Streams configured in apexManRteGbeInRedTable as being the Primary
stream of a Redundant Pair are below the configured threshold.
For alarm status of each stream refer to entry
apexGbeStatInTsMptsRedundPriAlarm.
'major' when one or more stream bit rates are below their threshold
as specified in apexManRteGbeInRedThreshold. Clears when all
streams have been restored to at or above their configured
apexManRteGbeInRedThreshold.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE MPTS Redundant Threshold"
--crs_define="EC_GBE_MPTS_THRESHOLD_ALARM"></DbHint>
::= { apexAlarms 8024 }
apexAlarmGbeMptsRedundFailOver OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Gigabit Ethernet Input MPTS Redundant Fail Over Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
Input Streams configured in apexManRteGbeInRedTable as being the Primary
stream of a Redundant Pair have Failed Over to the Secondary stream.
For alarm status of each stream refer to entry apexGbeStatInTsMptsRedundFailAlarm.
'major' when one or more Redundant Primary streams have failed over to
the Secondary. Clears when all Primary streams have been restored and the
APEX has switched back to the Primary from the Secondary.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE MPTS Redundant Fail Over"
--crs_define="EC_GBE_MPTS_FAILOVER_ALARM"></DbHint>
::= { apexAlarms 8025 }
apexAlarmServiceInError OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Alarm Service In Error.
'major' indicates that one or more services is in error (unable
to fully continue processing). However, this is only for very
specific errors where the error could be caused by either the
input stream being invalid or another command along with the
input stream is causing the error. For example, if mapping an
input service to an output and that PMT is not referenced in
the PAT, or the number of PIDs in the PMT is greater than the
number of PIDs supported, then the command is in error. This
error condition would be cleared if a new PAT is received
referencing the PMT or in the other case, if a new PMT is
received referencing a valid number of PIDs.
Refer to apexOutputProgramRoutingStatus for more information.
This alarm occurs on the first error. It is not issued for
additional errors. It is cleared when all errors are cleared.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Service In Error"
--crs_define="EC_SERVICE_IN_ERROR_ALARM"></DbHint>
::= { apexAlarms 8026 }
apexAlarmGbeLossOfInputStream OBJECT-TYPE
SYNTAX INTEGER
{
ok (1),
indeterminate(2),
warning (3),
minor (4),
major (5),
critical (6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Loss of Gbe Input Stream Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
Input Streams is missing. A missing input stream is determined based
on user configured data or stream rate and detection timeout value. This
alarm is only applicable when the input streams are configured to be
monitored for loss of input stream.
This alarm occurs on the first error. It is not issued for
additional errors. It is cleared when all errors are cleared.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE Loss of Input Error"
--crs_define="EC_GBE_LOSS_OF_INPUT_TS_ALARM"></DbHint>
::= { apexAlarms 8027 }
apexAlarmGigeToHostCommFault OBJECT-TYPE
SYNTAX INTEGER
{
ok (1),
indeterminate(2),
warning (3),
minor (4),
major (5),
critical (6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Loss of Communications from Gige to Host Alarm.
This alarm is used to inform the user when the Host processor is no longer receiving
periodic status messages from the Gige processor.
This alarm occurs on the first error. It is not issued for
additional errors. It is cleared when the condition is resolved.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Gige to Host Communication Fault"
--crs_define="EC_GIGE_TO_HOST_LOSS_COMM_ALARM"></DbHint>
::= { apexAlarms 8028 }
apexAlarmGbeInterfaceRedundFailOver OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Gigabit Ethernet Interface Redundant Fail Over Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
interfaces have Failed Over to the Secondary interface. The APEX determines an
interface as failed when link has been lost.
'major' when one or more Primary interfaces have failed over to
the Secondary. Clears when all Primary interfaces have been restored and the
APEX has switched back to the Primary from the Secondary.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE Interface Redundancy Fail Over"
--crs_define="EC_GBE_INTERFACE_REDUND_ALARM"></DbHint>
::= { apexAlarms 8029 }
apexAlarmLossOfInputAncillaryPid OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Loss of input ancillary PID Alarm.
This alarm is raised when one or more input ancillary PID(s)
is(are) missing in the input transport streams. The APEX
monitors each input ancillary PID configured through either
'apexPidMapTable' or 'apexBulkPidMapTable' or 'apexDtaOtsConfigTable'.
The APEX will monitor for the 'apexPidMapInputAncillaryPidDetectionTimeout'
period, before declaring the loss of input ancillary PID.
'minor' - When one or more input ancillary PIDs are missing.
'clear' - When all the ancillary PIDs are available in the input.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Loss Of Input Ancillary PID"
--crs_define="EC_LOSS_OF_INPUT_ANCILLARY_PID_ALARM"></DbHint>
::= { apexAlarms 8030 }
apexAlarmGbeInputStreamPacketDrop OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Stream Packet Drop Alarm.
This alarm is used to inform the user when one or more Gigabit Ethernet
Input Streams have a dropped packet condition.
'major' when one of the stream's packets is dropped.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="GigE Input Packet Drop"
--crs_define="EC_GBE_IN_PACKET_DROP_ALARM"></DbHint>
::= { apexAlarms 8031 }
apexAlarmOutputUtilizationFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Output Transport Stream Utilization Threshold Alarm.
'minor' when apexOutputTsUtilMonAlarmThreshold is met or
exceeded for apexOutputTsUtilMonSetAlarmDelay for an OTS.
The alarm will clear after the OTS remains below
apexOutputTsUtilMonAlarmThreshold for
apexOutputTsUtilMonClearAlarmDelay.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Output Utilization Fault"
--crs_define="EC_OTS_UTILIZATION_ALARM"></DbHint>
::= { apexAlarms 8040 }
apexAlarmOutputOverflow OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Output Transport Stream Overflow Alarm.
'critical' when apexOutputTsUtilizOverflow occurs for an OTS.
The alarm will clear when OTS no longer in overflow.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Output Overflow"
--crs_define="EC_OTS_OVERFLOW_ALARM"></DbHint>
::= { apexAlarms 8041 }
apexAlarmQamModuleFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM Port Fault Alarm.
'major' when apexQamModuleStatError occurs when all QAM channels on
the QAM Module have apexQamChanStatActive of not 'active'.
'critical' when apexQamModuleStatError occurs when all QAM channels on
the QAM Module have apexQamChanStatActive of 'active'.
The alarm will clear after all faults clear on the QAM Module.
The current alarm status on a QAM Module basis can be found in
apexQamModuleStatFaultCondition.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="QAM Module Fault"
--crs_define="EC_QAM_MODULE_ALARM"></DbHint>
::= { apexAlarms 8042 }
apexAlarmQamRfPortFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM RF Port Fault Alarm.
'major' when power voltage or output RF level error occurs on the RF Port.
'critical' when clock, PLL, or data sync error occurs on the RF Port.
The alarm will clear after all faults clear for the RF Port.
The current alarm status on an RF port basis can be found in
apexQamRfPortStatFaultCondition.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="QAM RF Port Fault"
--crs_define="EC_QAM_RF_PORT_ALARM"></DbHint>
::= { apexAlarms 8043 }
apexAlarmQamChannelFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM Channel Fault Alarm.
'critical' when any or all of the QAM Channel errors
enumerated in apexQamChanStatError occur on a QAM channel.
The alarm will clear after all faults clear on the QAM channel.
The current alarm status on a QAM channel basis can be found in
apexQamChanStatFaultCondition.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="QAM Channel Fault"
--crs_define="EC_QAM_CHANNEL_ALARM"></DbHint>
::= { apexAlarms 8044 }
apexAlarmQamRfRedundFailOver OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM RF Redundancy Fail Over Alarm.
'major' when the backup QAM RF Port status is 'active' (apexQamRfRedundStatusBackupPort).
This occurs when a primary QAM RF Port has failed over to the backup RF Port or
the user has forced a primary to the backup.
The alarm will clear when the backup QAM RF Port status returns to 'standby'.
The alarm is relevant only when apexQamRfRedundConfigEnable is 'enabled'.
The current QAM RF Port that is active on the backup port can be found
in apexQamRfRedundStatusFailedPort.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="QAM RF Redundant Fail Over"
--crs_define="EC_QAM_RF_FAILOVER_ALARM"></DbHint>
::= { apexAlarms 8045 }
apexAlarmQamRfRedundMismatch OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM RF Redundancy Mismatch Alarm.
'warning' when channels could be lost on QAM RF Fail Over to backup or on Switch Back to
primary. Refer to apexQamRfRedundStatusMismatch for more information.
The alarm will clear when mismatch condition clears.
The alarm is relevant only when apexQamRfRedundConfigEnable is 'enabled'.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="QAM RF Redundant Mismatch"
--crs_define="EC_QAM_RF_MISMATCH_ALARM"></DbHint>
::= {apexAlarms 8046 }
apexAlarmQamModuleRemovalFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"QAM Module Removal Fault Alarm.
'critical' when apexQamModuleStatError occurs when any QAM channels on
the QAM Module have apexQamChanStatActive of 'active'.
The alarm will clear after the fault is cleared on the QAM Module.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="QAM Module Removal Fault"
--crs_define="EC_QAM_MODULE_REMOVAL_ALARM"></DbHint>
::= { apexAlarms 8047 }
apexAlarmRtspControllerCommFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"RTSP Controller Communication Fault.
'major' when the RTSP Controller is experiencing a
communication fault.
The alarm will clear when connection is restored the RTSP
controller.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="RTSP Controller Communication Fault"
--crs_define="EC_RTSP_CONTROL_COMM_ALARM"></DbHint>
::= { apexAlarms 8050 }
apexAlarmRdsCommFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"RDS Communication Fault.
'major' when experiencing an RDS
communication fault.
The alarm will clear when RDS connection is restored.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="RDS Communication Fault"
--crs_define="EC_RDS_COMM_ALARM"></DbHint>
::= { apexAlarms 8060 }
apexAlarmRemCommFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"REM Communication Fault.
'major' when experiencing an REM communication fault.
The alarm will clear when REM connection is restored.
Refer to apexQamRfRedundStatusRemConnection for more information.
The alarm is relevant only when apexQamRfRedundConfigEnable is 'enabled'
and apexQamRfRedundConfigRemConnection is not 'none'.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="REM Communication Fault"
--crs_define="EC_REM_COMM_ALARM"></DbHint>
::= { apexAlarms 8070 }
apexAlarmRemFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"REM Fault.
'warning' when REM is reporting a 0x05 error code.
'major' when error received from REM (other than 0x05) or REM is reporting
incorrect switch configuration.
The alarm will clear when REM errors clear.
Refer to apexQamRfRedundStatusRemError and apexQamRfRedundStatusRemSwitch
for more information.
The alarm is relevant only when apexQamRfRedundConfigEnable is 'enabled'
and apexQamRfRedundConfigRemConnection is not 'none'.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="REM Fault"
--crs_define="EC_REM_ALARM"></DbHint>
::= { apexAlarms 8071 }
apexAlarmDepiControlConnectionFault OBJECT-TYPE
SYNTAX INTEGER
{
ok (1),
indeterminate(2),
warning (3),
minor (4),
major (5),
critical (6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"DEPI Control connection setup Fault.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="DEPI CONTROL CONNECTION FAULT"
--crs_define="EC_DEPI_CONTROL_CONNECTION_ALARM"></DbHint>
::= { apexAlarms 8080 }
apexAlarmDepiSessionSetupFault OBJECT-TYPE
SYNTAX INTEGER
{
ok (1),
indeterminate(2),
warning (3),
minor (4),
major (5),
critical (6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"DEPI Session Setup Fault.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="DEPI SESSION SETUP FAULT"
--crs_define="EC_DEPI_SESSION_SETUP_ALARM"></DbHint>
::= { apexAlarms 8081 }
apexAlarmDtiSyncLossFault OBJECT-TYPE
SYNTAX INTEGER
{
ok (1),
indeterminate(2),
warning (3),
minor (4),
major (5),
critical (6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"EQAM lost SYNC with the DTI Server.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="DTI SYNC LOSS FAULT"
--crs_define="EC_DTI_SYNC_LOSS_ALARM"></DbHint>
::= { apexAlarms 8082 }
apexAlarmChassisRedundancyPrimaryFailover OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when the primary active APEX fails over to the secondary standby unit.
Trap tells if failover is operator induced, or automatic because of a fault.
Major if automatic due to some fault Warning if force-failover.
Cleared when redundancy is disabled or when the primary becomes active and
the secondary is standby.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Primary FailOver."
--crs_define="EC_CHASSIS_REDUNDANCY_PRIMARY_FAILOVER_ALARM"></DbHint>
::= { apexAlarms 8090 }
apexAlarmChassisRedundancySecondaryFailover OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when the secondary active APEX fails over to the primary standby unit.
Trap tells if failover is operator induced, or automatic because of a fault.
Major if automatic due to some fault Warning if force-failover.
Cleared when redundancy is disabled or when the secondary becomes active and
the primary is standby.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Secondary FailOver."
--crs_define="EC_CHASSIS_REDUNDANCY_SECONDARY_FAILOVER_ALARM"></DbHint>
::= { apexAlarms 8091 }
apexAlarmChassisRedundancyAvailabilityFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when redundancy status is unavailable (except for link loss)
configuration not synchronized secondary in fault state Cleared
when redundancy status is available or redundancy disabled.
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Availability Fault"
--crs_define="EC_CHASSIS_REDUNDANCY_AVAILABLITY_ALARM"></DbHint>
::= { apexAlarms 8092 }
apexAlarmChassisRedundancyLinkFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when ENET2 link is lost
Cleared when ENET 2 link is present or redundancy disabled."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Link Fault"
--crs_define="EC_CHASSIS_REDUNDANCY_LINK_ALARM"></DbHint>
::= { apexAlarms 8093 }
apexAlarmChassisRedundancyConfigurationFault OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when primary APEX receives heartbeat from another primary.
Critical if APEX was in active state (sourcing broadcast content)
Major if APEX was in standby state (broadcast ports muted).
Cleared when primary APEX receives heartbeat from a secondary, configuration is changed to secondary,
or redundancy is disabled."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Configuration Fault"
--crs_define="EC_CHASSIS_REDUNDANCY_CONFIGURATION_ALARM"></DbHint>
::= { apexAlarms 8094 }
-- ------------------------------------------------------------------------------
--
-- apexEvents
--
apexEventEmUserLoginFailed OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Event to indicate APEX EM User login failed 5 times."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="EM USER Login Failed 5 Times"
--crs_define="EC_EM_USER_LOGIN_FAILED_EVENT"></DbHint>
::= { apexEvents 8100 }
apexEventQamModuleUpgraded OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Event to indicate a QAM Module has been upgraded from 2x4 to 2x8
channel capability."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="QAM Module Upgraded"
--crs_define="EC_QAM_MODULE_UPGRADED_EVENT"></DbHint>
::= { apexEvents 8101 }
apexEventSnmpCommunityStringChanged OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Event to indicate that the read/read-write SNMP community strings are changed
Trap description is given in trapSnmpCommunityStringChanged
"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="SNMP Community String Changed"
--crs_define="EC_SNMP_COMMUNITY_STRING_CHANGED_EVENT"></DbHint>
::= { apexEvents 8102 }
apexEventEasMessageNotReceived OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when the EAS message is not received for the amount of time configured by
the object 'apexEasMessageReceiveTimeoutDuration'"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="EAS Message Not Received."
--crs_define="EC_EAS_MSG_NOT_RECEIVED_EVENT"></DbHint>
::= { apexEvents 8103 }
apexEventLossOfInputAncillaryPid OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Event to indicate that the input PID has not received.
This event is sent when one or more input ancillary PID(s)
is(are) missing in the input transport streams. The APEX
monitors each input ancillary PID configured through either
'apexPidMapTable' or 'apexBulkPidMapTable' or 'apexDtaOtsConfigTable'.
The APEX will monitor for the 'apexPidMapInputAncillaryPidDetectionTimeout'
period, before declaring the loss of input ancillary PID.
'minor' - When one or more input ancillary PIDs are missing.
'clear' - When the ancillary PIDs and input TS are not available in the input"
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Loss of input ancillary PID."
--crs_define="EC_LOSS_OF_INPUT_ANC_PID_EVENT"></DbHint>
::= { apexEvents 8104 }
apexEventChassisRedunPrimaryForceFailover OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS obsolete
DESCRIPTION
"Generated when the operator forces a failover from the primary, back to the secondary APEX."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Primary force failover"
--crs_define="EC_CHASSIS_REDUNDANCY_PRIMARY_FORCE_FAILOVER_EVENT"></DbHint>
::= { apexEvents 8110 }
apexEventChassisRedunSecondaryForceFailover OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS obsolete
DESCRIPTION
"Generated when the operator forces a failover from the secondary, back to the primary APEX."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Secondary force failover"
--crs_define="EC_CHASSIS_REDUNDANCY_SECONDARY_FORCE_FAILOVER_EVENT"></DbHint>
::= { apexEvents 8111 }
apexEventChassisRedunFirmwareVersionMismatch OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when the primary and secondary APEX firmware versions are mismatched."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy Firmware version mismatch."
--crs_define="EC_CHASSIS_REDUNDANCY_FIRMWARE_VERSION_MISMATCH_EVENT"></DbHint>
::= { apexEvents 8112 }
apexEventChassisRedunQAMVersionMismatch OBJECT-TYPE
SYNTAX Unsigned32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Generated when the primary and secondary APEX QAM versions are mismatched."
--MOT-MIBCOMP-BE-EXT <DbHint map="SCALAR" crs_fmt="1" crs_desc="Chassis Redundancy QAM version mismatch."
--crs_define="EC_CHASSIS_REDUNDANCY_QAM_VERSION_MISMATCH_EVENT"></DbHint>
::= { apexEvents 8113 }
-- ------------------------------------------------------------------------------
--
-- apexConfigAlarms
--
-- apexConfAlarmEnable
--
apexEnableInvalidInitData OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmInvalidInitData.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8001 }
apexEnableGbeLossOfPhysicalInput OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeLossOfPhysicalInput.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8020 }
apexEnableGbeBufferFullness OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeBufferFullness.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8021 }
apexEnableGbeInputStreamLowBitRate OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeInputStreamLowBitRate.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8022 }
apexEnableGbeInputStreamHighBitRate OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeInputStreamHighBitRate.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8023 }
apexEnableGbeMptsRedundPrimaryThreshold OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeMptsRedundPrimaryThreshold.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8024 }
apexEnableGbeMptsRedundFailOver OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeMptsRedundFailOver.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8025 }
apexEnableServiceInError OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmServiceInError.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8026 }
apexEnableGbeLossOfInputTsFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeLossOfInputStream.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8027 }
apexEnableGbeInterfaceRedundFailOver OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeInterfaceRedundFailOver.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8029 }
apexEnableLossOfInputAncillaryPid OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"It enables or disables the alarm 'apexAlarmLossOfInputAncillaryPid'.
When set to 'enabled', the alarm will operate as described in the
description for 'apexAlarmLossOfInputAncillaryPid' and sends event
'apexEventLossOfInputAncillaryPid'.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Also, when set to 'disabled', clear/minor apexEventLossOfInputAncillaryPid
events will not be sent.
Default value is disabled.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8030 }
apexEnableGbeInputStreamPacketDrop OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmGbeInputStreamPacketDrop.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8031 }
apexEnableOutputUtilizationFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmOutputUtilizationFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8040 }
apexEnableOutputOverflow OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmOutputOverflow.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8041 }
apexEnableQamModuleFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmQamModuleFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8042 }
apexEnableQamRfPortFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmQamRfPortFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8043 }
apexEnableQamChannelFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmQamChannelFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8044 }
apexEnableQamRfRedundFailOver OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmQamRfRedundFailOver.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8045 }
apexEnableQamRfRedundMismatch OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmQamRfRedundMismatch.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8046 }
apexEnableQamModuleRemovalFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmQamModuleRemovalFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8047 }
apexEnableRtspControllerCommFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmRtspControllerCommFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8050 }
apexEnableRdsCommAlarmFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmRdsCommFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8060 }
apexEnableRemCommFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmRemCommFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8070 }
apexEnableRemFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmRemFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8071 }
apexEnableDepiControlConnectionFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmDepiControlConnectionFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8080 }
apexEnableDepiSessionSetupFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmDepiSessionSetupFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8081 }
apexEnableDtiSyncLossFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexAlarmDtiSyncLossFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8082 }
apexEnableChassisRedundancyPrimaryFailover OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexEnableChassisRedundancyPrimaryFailover.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8090 }
apexEnableChassisRedundancySecondaryFailover OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexEnableChassisRedundancySecondaryFailover.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8091 }
apexEnableChassisRedundancyAvailabilityFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexEnableChassisRedundancyAvailabilityFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8092 }
apexEnableChassisRedundancyLinkFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexEnableChassisRedundancyLinkFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8093 }
apexEnableChassisRedundancyConfigurationFault OBJECT-TYPE
SYNTAX EnableDisableTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"This setting enables or disables apexEnableChassisRedundancyConfigurationFault.
When set to 'enabled' the alarm will operate as described.
When set to 'disabled' the alarm will not be reported or wrapped
into unitAlarmStatus and the alarm condition will remain 'ok'.
If the alarm condition is not 'ok' when it is 'disabled', the
alarm will be cleared.
Once written, the change to this parameter will take immediate
effect. However, in order for the change to persist through
subsequent reboots or power cycles, the change must be saved via
the apexSaveConfig parameter.
@Config(config=yes, reboot=no)
@Save(apexSaveConfig, value=2)
@File(config.ini, type='ini')
"
::= { apexConfAlarmEnable 8094 }
-- ------------------------------------------------------------------------------
--
-- apexConfAlarmClear
--
apexClearInvalidInitData OBJECT-TYPE
SYNTAX ClearAlarmTYPE
MAX-ACCESS read-write
STATUS current
DESCRIPTION
"Setting to 'clearAlarm' clears the apexAlarmInvalidInitData.
The APEX will set this parameter back to 'clearAlarmNotInProgress'
after clearing the alarm.
Once written, the change to this parameter will take immediate effect.
@Config(config=no, reboot=no)
"
::= { apexConfAlarmClear 8001 }
-- ------------------------------------------------------------------------------
--
-- apexLogs
--
-- ------------------------------------------------------------------------------
--
-- apexHwEventTable
--
apexHwEventTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexHwEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Hardware Events that have occurred.
Maximum of 100 events will be recorded.
"
::= { apexLogs 1 }
apexHwEventEntry OBJECT-TYPE
SYNTAX ApexHwEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Hardware Event Table Entry."
INDEX { apexHwEventIndex }
::= { apexHwEventTable 1 }
ApexHwEventEntry ::= SEQUENCE
{
apexHwEventIndex Integer32,
apexHwEventTimeLogged Integer32,
apexHwEventAlarmCode Integer32,
apexHwEventAlarmSeverity INTEGER,
apexHwEventData Integer32,
apexHwEventDescription DisplayString
}
apexHwEventIndex OBJECT-TYPE
SYNTAX Integer32(0..'7fffffff'h)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index to HW Event table entry."
::= { apexHwEventEntry 1 }
apexHwEventTimeLogged OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this event was logged.
"
::= { apexHwEventEntry 2 }
apexHwEventAlarmCode OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Last number of alarm OID. Can be one of the following:
0 Indicates event is informational and may or may not cause an alarm.
8000 apexAlarmHardwareFault
8002 apexAlarmTemperatureFault
8003 apexAlarmFanFault
8004 apexAlarmPowerFault
8042 apexAlarmQamModuleFault
8043 apexAlarmQamRfPortFault
8044 apexAlarmQamChannelFault
8045 apexAlarmQamRfRedundFailOver
8046 apexAlarmQamRfRedundMismatch
8070 apexAlarmRemCommFault
8071 apexAlarmRemFault
More details about the error can be found in apexHwEventDescription.
"
::= { apexHwEventEntry 3 }
apexHwEventAlarmSeverity OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Alarm severity level of this event.
"
::= { apexHwEventEntry 4 }
apexHwEventData OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Additional integer data.
When apexHwEventAlarmCode is non-zero, this will be the same as Additional
Data 1 as in the trap for the alarm.
When apexHwEventAlarmCode is zero, this may contain additional data
helpful in debug.
"
::= { apexHwEventEntry 5 }
apexHwEventDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text description of the event."
::= { apexHwEventEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexInvalidInitDataTable
--
apexInvalidInitDataTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexInvalidInitDataEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Invalid Initialization Data Errors.
Maximum of 100 errors will be recorded.
"
::= { apexLogs 2 }
apexInvalidInitDataEntry OBJECT-TYPE
SYNTAX ApexInvalidInitDataEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Invalid Initialization Data Table Entry."
INDEX { apexInvalidInitDataIndex }
::= { apexInvalidInitDataTable 1 }
ApexInvalidInitDataEntry ::= SEQUENCE
{
apexInvalidInitDataIndex Integer32,
apexInvalidInitDataTimeLogged Integer32,
apexInvalidInitDataDescription DisplayString
}
apexInvalidInitDataIndex OBJECT-TYPE
SYNTAX Integer32(0..'7fffffff'h)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index to Invalid Initialization Data table entry."
::= { apexInvalidInitDataEntry 1 }
apexInvalidInitDataTimeLogged OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this event was logged.
"
::= { apexInvalidInitDataEntry 2 }
apexInvalidInitDataDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text string describing the data error."
::= { apexInvalidInitDataEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexOutputTsEventTable
--
apexOutputTsEventTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexOutputTsEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Output Stream events that have occurred.
Maximum of 200 events will be recorded.
"
::= { apexLogs 3 }
apexOutputTsEventEntry OBJECT-TYPE
SYNTAX ApexOutputTsEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Output Stream Error Table Entry."
INDEX { apexOutputTsEventIndex }
::= { apexOutputTsEventTable 1 }
ApexOutputTsEventEntry ::= SEQUENCE
{
apexOutputTsEventIndex Integer32,
apexOutputTsEventTimeLogged Integer32,
apexOutputTsEventAlarmCode Integer32,
apexOutputTsEventAlarmSeverity INTEGER,
apexOutputTsEventOutputTsNum Integer32,
apexOutputTsEventCurRate Integer32,
apexOutputTsEventAvgRate Integer32,
apexOutputTsEventMinRate Integer32,
apexOutputTsEventPeakRate Integer32,
apexOutputTsEventCurDropPackets Integer32,
apexOutputTsEventPeakDropPackets Integer32,
apexOutputTsEventRollingDropPackets Integer32,
apexOutputTsEventTotalDropPackets Integer32,
apexOutputTsEventDescription DisplayString
}
apexOutputTsEventIndex OBJECT-TYPE
SYNTAX Integer32(0..'7fffffff'h)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index to Output Stream Error table.
"
::= { apexOutputTsEventEntry 1 }
apexOutputTsEventTimeLogged OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this event was logged.
"
::= { apexOutputTsEventEntry 2 }
apexOutputTsEventAlarmCode OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Last number of alarm OID. Can be one of the following:
0 Indicates event is informational and may or may not cause an alarm.
8040 apexAlarmOutputUtilizationFault
8041 apexAlarmOutputOverflow
More details about the error can be found in apexOutputTsEventDescription.
"
::= { apexOutputTsEventEntry 3 }
apexOutputTsEventAlarmSeverity OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Alarm severity level of this event.
"
::= { apexOutputTsEventEntry 4 }
apexOutputTsEventOutputTsNum OBJECT-TYPE
SYNTAX Integer32 (0..48)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of the output transport stream for this event.
"
::= { apexOutputTsEventEntry 5 }
apexOutputTsEventCurRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizCurRate when event occurred.
"
::= { apexOutputTsEventEntry 6 }
apexOutputTsEventAvgRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizAvgRate when event occurred.
"
::= { apexOutputTsEventEntry 7 }
apexOutputTsEventMinRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizMinRate when event occurred.
"
::= { apexOutputTsEventEntry 8 }
apexOutputTsEventPeakRate OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizPeakRate when event occurred.
"
::= { apexOutputTsEventEntry 9 }
apexOutputTsEventCurDropPackets OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizCurDropPackets when event occurred.
"
::= { apexOutputTsEventEntry 10 }
apexOutputTsEventPeakDropPackets OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizPeakDropPackets when event occurred.
"
::= { apexOutputTsEventEntry 11 }
apexOutputTsEventRollingDropPackets OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizRollingDropPackets when event occurred.
"
::= { apexOutputTsEventEntry 12 }
apexOutputTsEventTotalDropPackets OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexOutputTsUtilizTotalDropPackets when event occurred.
"
::= { apexOutputTsEventEntry 13 }
apexOutputTsEventDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text description of the event.
Maximum length is 128 characters.
"
::= { apexOutputTsEventEntry 14 }
-- ------------------------------------------------------------------------------
--
-- apexGbeInputTsEventTable
--
apexGbeInputTsEventTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexGbeInputTsEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Gigabit Ethernet Input Transport Stream Events that have occurred.
Maximum of 100 events will be recorded.
"
::= { apexLogs 4 }
apexGbeInputTsEventEntry OBJECT-TYPE
SYNTAX ApexGbeInputTsEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Gigabit Ethernet Input Transport Stream Event Table Entry."
INDEX { apexGbeInputTsEventIndex }
::= { apexGbeInputTsEventTable 1 }
ApexGbeInputTsEventEntry ::= SEQUENCE
{
apexGbeInputTsEventIndex Integer32,
apexGbeInputTsEventTimeLogged Integer32,
apexGbeInputTsEventAlarmCode Integer32,
apexGbeInputTsEventAlarmSeverity INTEGER,
apexGbeInputTsEventRedundantConfig INTEGER,
apexGbeInputTsEventGbeInterface Integer32,
apexGbeInputTsEventUdpPort Integer32,
apexGbeInputTsEventMulticastIp IpAddress,
apexGbeInputTsEventSourceIp IpAddress,
apexGbeInputTsEventInputTsState InputTsStateTYPE,
apexGbeInputTsEventRateCompareType RateComparisonTYPE,
apexGbeInputTsEventSamplingPeriod Integer32,
apexGbeInputTsEventPriCurStreamCount Counter32,
apexGbeInputTsEventPriCurDataCount Counter32,
apexGbeInputTsEventSecCurStreamCount Counter32,
apexGbeInputTsEventSecCurDataCount Counter32,
apexGbeInputTsEventDescription DisplayString
}
apexGbeInputTsEventIndex OBJECT-TYPE
SYNTAX Integer32(0..'7fffffff'h)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index to Gigabit Ethernet Input Transport Stream Event table.
"
::= { apexGbeInputTsEventEntry 1 }
apexGbeInputTsEventTimeLogged OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this event was logged.
"
::= { apexGbeInputTsEventEntry 2 }
apexGbeInputTsEventAlarmCode OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Last number of alarm OID. Can be one of the following:
0 Indicates event is informational and may or may not cause an alarm.
8022 apexAlarmGbeInputStreamLowBitRate
8023 apexAlarmGbeInputStreamHighBitRate
8024 apexAlarmGbeMptsRedundPrimaryThreshold
8025 apexAlarmGbeMptsRedundFailOver
More details about the error may be found in apexGbeInputTsEventDescription.
"
::= { apexGbeInputTsEventEntry 3 }
apexGbeInputTsEventAlarmSeverity OBJECT-TYPE
SYNTAX INTEGER
{
ok(1),
indeterminate(2),
warning(3),
minor(4),
major(5),
critical(6)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Alarm severity level of this event.
"
::= { apexGbeInputTsEventEntry 4 }
apexGbeInputTsEventRedundantConfig OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
primary (1),
secondary (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Indicates whether this input transport stream was
configured as a primary or secondary at the time of the event.
"
::= { apexGbeInputTsEventEntry 5 }
apexGbeInputTsEventGbeInterface OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexInputTsStatPriInputInterface or apexInputTsStatSecInputInterface
at the time of the event.
"
::= { apexGbeInputTsEventEntry 6 }
apexGbeInputTsEventUdpPort OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexInputTsStatPriInputUdp or apexInputTsStatSecInputUdp
at the time of the event.
"
::= { apexGbeInputTsEventEntry 7 }
apexGbeInputTsEventMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexInputTsStatPriInputMulticastIp or apexInputTsStatSecInputMulticastIp
at the time of the event.
"
::= { apexGbeInputTsEventEntry 8 }
apexGbeInputTsEventSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexInputTsStatPriInputSourceIp or apexInputTsStatSecInputSourceIp
at the time of the event.
"
::= { apexGbeInputTsEventEntry 9 }
apexGbeInputTsEventInputTsState OBJECT-TYPE
SYNTAX InputTsStateTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Value of apexInputTsStatPriState or apexInputTsStatSecState
at the time of the event. For threshold or fail over events, the
state reported is always the Primary input stream state.
"
::= { apexGbeInputTsEventEntry 10 }
apexGbeInputTsEventRateCompareType OBJECT-TYPE
SYNTAX RateComparisonTYPE
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Comparison type at time of event (stream or data).
"
::= { apexGbeInputTsEventEntry 11 }
apexGbeInputTsEventSamplingPeriod OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Sample period in seconds of the stream and data counts reported.
Using the sample period and the stream or data counts, the actual
input rate at the time of the event can be computed.
"
::= { apexGbeInputTsEventEntry 12 }
apexGbeInputTsEventPriCurStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Primary input stream Packet Count at the time of the event.
This is the number of packets received, including Nulls, during the
sample period defined in apexGbeInputTsEventSamplingPeriod.
"
::= { apexGbeInputTsEventEntry 13 }
apexGbeInputTsEventPriCurDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Primary input data Packet Count at the time of the event.
This is the number of data packets received (non-Nulls), during the
sample period defined in apexGbeInputTsEventSamplingPeriod.
"
::= { apexGbeInputTsEventEntry 14 }
apexGbeInputTsEventSecCurStreamCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Secondary input stream Packet Count at the time of the event.
This is the number of packets received, including Nulls, during the
sample period defined in apexGbeInputTsEventSamplingPeriod.
"
::= { apexGbeInputTsEventEntry 15 }
apexGbeInputTsEventSecCurDataCount OBJECT-TYPE
SYNTAX Counter32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Current Secondary input data Packet Count at the time of the event.
This is the number of data packets received (non-Nulls), during the
sample period defined in apexGbeInputTsEventSamplingPeriod.
"
::= { apexGbeInputTsEventEntry 16 }
apexGbeInputTsEventDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text description of the event.
Maximum length is 128 characters.
"
::= { apexGbeInputTsEventEntry 17 }
-- ------------------------------------------------------------------------------
--
-- apexRtspEventTable
--
apexRtspEventTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexRtspEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of RTSP Events that have occurred.
Maximum of 100 events will be recorded.
"
::= { apexLogs 5 }
apexRtspEventEntry OBJECT-TYPE
SYNTAX ApexRtspEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"RTSP Event Table Entry."
INDEX { apexRtspEventIndex }
::= { apexRtspEventTable 1 }
ApexRtspEventEntry ::= SEQUENCE
{
apexRtspEventIndex Integer32,
apexRtspEventTimeLogged Integer32,
apexRtspEventControllerIp IpAddress,
apexRtspEventSessionCount Integer32,
apexRtspEventSourceDescription DisplayString,
apexRtspEventDescription DisplayString
}
apexRtspEventIndex OBJECT-TYPE
SYNTAX Integer32(0..'7fffffff'h)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index to RTSP Event table entry."
::= { apexRtspEventEntry 1 }
apexRtspEventTimeLogged OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this event was logged.
"
::= { apexRtspEventEntry 2 }
apexRtspEventControllerIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"IP address of the RTSP Controller associated with this event. Value
will be zero if the event is not associated with a specific controller.
Refer to apexRtspEventSourceDescription for the source of the event.
"
::= { apexRtspEventEntry 3 }
apexRtspEventSessionCount OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Number of active sessions for the RTSP Controller associated with this
event. Value will be total count of all sessions for all controllers
if the event is not associated with a specific controller. Refer
to apexRtspEventSourceDescription for the source of the event.
"
::= { apexRtspEventEntry 4 }
apexRtspEventSourceDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text description of the source of the event. May indicate a controller
identifier or an APEX application process.
"
::= { apexRtspEventEntry 5 }
apexRtspEventDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text description of the event."
::= { apexRtspEventEntry 6 }
-- ------------------------------------------------------------------------------
--
-- apexMappingErrorTable
--
apexMappingErrorTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexMappingErrorEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of program, ancillary PID, and stream pass through mapping errors
that have occurred. Maximum of 100 error events will be recorded.
"
::= { apexLogs 6 }
apexMappingErrorEntry OBJECT-TYPE
SYNTAX ApexMappingErrorEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Program, PID, Stream Pass Through Error Table Entry."
INDEX { apexMappingErrorIndex }
::= { apexMappingErrorTable 1 }
ApexMappingErrorEntry ::= SEQUENCE
{
apexMappingErrorIndex Integer32,
apexMappingErrorTimeLogged Integer32,
apexMappingErrorCode Integer32,
apexMappingErrorMappingType INTEGER,
apexMappingErrorInputType INTEGER,
apexMappingErrorInputInterface Integer32,
apexMappingErrorUdpPort Integer32,
apexMappingErrorMulticastIp IpAddress,
apexMappingErrorSourceIp IpAddress,
apexMappingErrorInputProgramPid Integer32,
apexMappingErrorOutputProgramPid Integer32,
apexMappingErrorOutputOpMode INTEGER,
apexMappingErrorOutputTsNum Integer32,
apexMappingErrorSecInputInterface Integer32,
apexMappingErrorSecUdpPort Integer32,
apexMappingErrorSecMulticastIp IpAddress,
apexMappingErrorSecSourceIp IpAddress
}
apexMappingErrorIndex OBJECT-TYPE
SYNTAX Integer32(0..'7fffffff'h)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index to Program, PID, Stream Pass Through,
DEPI Control, DEPI Session Error table.
"
::= { apexMappingErrorEntry 1 }
apexMappingErrorTimeLogged OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this error was logged.
"
::= { apexMappingErrorEntry 2 }
apexMappingErrorCode OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Error code for this mapping error. 0 indicates no error.
"
::= { apexMappingErrorEntry 3 }
apexMappingErrorMappingType OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
program (1),
ancillaryPid (2),
streamPassthru (3),
depiControl (4),
depiSession (5)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Type of mapping (program, ancillary PID, or stream pass through).
"
::= { apexMappingErrorEntry 4 }
apexMappingErrorInputType OBJECT-TYPE
SYNTAX INTEGER
{
notApplicable (0),
gbe (1),
fastEnet (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input Type. Indicates if mapping is from Gigabit Ethernet or Fast Ethernet.
"
::= { apexMappingErrorEntry 5 }
apexMappingErrorInputInterface OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Interface port number of the primary input interface.
"
::= { apexMappingErrorEntry 6 }
apexMappingErrorUdpPort OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input UDP Port for primary input.
"
::= { apexMappingErrorEntry 7 }
apexMappingErrorMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Multicast receive IP address for primary input.
"
::= { apexMappingErrorEntry 8 }
apexMappingErrorSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the IGMP v3 Source IP address of the source device for the primary input.
"
::= { apexMappingErrorEntry 9 }
apexMappingErrorInputProgramPid OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"For program mappings, this is the input program number of the program being mapped.
For ancillary PID mappings, this is the input PID number being mapped.
For stream pass through mappings, this field is not used and is set to 0.
"
::= { apexMappingErrorEntry 10 }
apexMappingErrorOutputProgramPid OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"For program mappings, this is the output program number of the program being mapped.
For ancillary PID mappings, this is the output PID number being mapped.
For stream pass through mappings, this field is not used and is set to 0.
"
::= { apexMappingErrorEntry 11 }
apexMappingErrorOutputOpMode OBJECT-TYPE
SYNTAX INTEGER
{
notInUse (0),
sessionControl (1),
manualRouting (2)
}
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Operating mode of the output transport stream for this mapping.
"
::= { apexMappingErrorEntry 12 }
apexMappingErrorOutputTsNum OBJECT-TYPE
SYNTAX Integer32 (0..48)
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The number of the output transport stream for this mapping error.
"
::= { apexMappingErrorEntry 13 }
apexMappingErrorSecInputInterface OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Interface port number of the secondary input interface.
An interface number of 0 indicates no secondary input.
"
::= { apexMappingErrorEntry 14 }
apexMappingErrorSecUdpPort OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Input UDP Port for secondary input.
"
::= { apexMappingErrorEntry 15 }
apexMappingErrorSecMulticastIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"The Multicast receive IP address for secondary input.
"
::= { apexMappingErrorEntry 16 }
apexMappingErrorSecSourceIp OBJECT-TYPE
SYNTAX IpAddress
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"This is the IGMP v3 Source IP address of the source device for the secondary input.
"
::= { apexMappingErrorEntry 17 }
-- ------------------------------------------------------------------------------
--
-- apexChassisRedundancyEventTable
--
apexChassisRedundancyEventTable OBJECT-TYPE
SYNTAX SEQUENCE OF ApexChassisRedundancyEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Table of Chassis Redundancy Events.
Maximum of 300 events will be recorded.
"
::= { apexLogs 7 }
apexChassisRedundancyEventEntry OBJECT-TYPE
SYNTAX ApexChassisRedundancyEventEntry
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Chassis Redundancy Event Table Entry."
INDEX { apexChassisRedundancyEventIndex }
::= { apexChassisRedundancyEventTable 1 }
ApexChassisRedundancyEventEntry ::= SEQUENCE
{
apexChassisRedundancyEventIndex Integer32,
apexChassisRedundancyEventTimeLogged Integer32,
apexChassisRedundancyEventDescription DisplayString
}
apexChassisRedundancyEventIndex OBJECT-TYPE
SYNTAX Integer32(0..'7fffffff'h)
MAX-ACCESS not-accessible
STATUS current
DESCRIPTION
"Index for Chassis Redundancy Event table."
::= { apexChassisRedundancyEventEntry 1 }
apexChassisRedundancyEventTimeLogged OBJECT-TYPE
SYNTAX Integer32
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Time in GPS seconds (apexSystemTime) that this event was logged.
"
::= { apexChassisRedundancyEventEntry 2 }
apexChassisRedundancyEventDescription OBJECT-TYPE
SYNTAX DisplayString
MAX-ACCESS read-only
STATUS current
DESCRIPTION
"Text string describing the event."
::= { apexChassisRedundancyEventEntry 3 }
-- ------------------------------------------------------------------------------
--
-- apexTraps
--
-- ------------------------------------------------------------------------------
--
-- BCS Traps
--
-- Objects are commonly defined but ENTERPRISE is APEX specific.
-- Trap ID starts at 1. Trap ID 1 and 2 are not issued by the APEX.
--
trapConfigurationChangeInteger NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger
}
STATUS current
DESCRIPTION
"This trap is issued if configuration of a single variable
with integer type was changed (via ANY interface).
TrapChangedValueInteger variable may contain current reading
of that variable.
trapPerceivedSeverity - 'indeterminate'"
::= { apexTraps 3 }
trapConfigurationChangeDisplayString NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueDisplayString
}
STATUS current
DESCRIPTION
"This trap is issued if configuration of a single variable
with DisplayString type was changed (via ANY interface).
TrapChangedValueDisplayString variable may contain current
reading of that variable.
trapPerceivedSeverity - 'indeterminate'"
::= { apexTraps 4 }
trapConfigurationChangeOID NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueOID
}
STATUS current
DESCRIPTION
"This trap is issued if configuration of a single variable
with OID type was changed (via ANY interface).
TrapChangedValueOID variable may contain current reading
of that variable.
trapPerceivedSeverity - 'indeterminate'"
::= { apexTraps 5 }
trapConfigurationChangeIpAddress NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueIpAddress
}
STATUS current
DESCRIPTION
"This trap is issued if configuration of a single variable
with IpAddress type was changed (via ANY interface).
TrapChangedValueIpAddress variable may contain current reading
of that variable.
trapPerceivedSeverity - 'indeterminate'"
::= { apexTraps 6 }
-- ------------------------------------------------------------------------------
--
-- DNS Traps
--
-- Objects are commonly defined but ENTERPRISE is APEX specific.
-- Trap ID starts at 20.
--
trapConditionNotInList NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued if a condition is being cleared and
it is not in the condition list.
trapAdditionalInfoInteger1 : Task and Function ID (task
and function generates the
error condition)
trapAdditionalInfoInteger2 : Condition number
trapAdditionalInfoInteger3 : Condition severity"
::= { apexTraps 20 }
trapConditionAlreadyInList NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued if a condition is being set and
it is already in the condition list.
trapAdditionalInfoInteger1 : Task and Function ID (task
and function generates the
error condition)
trapAdditionalInfoInteger2 : Condition number
trapAdditionalInfoInteger3 : Condition severity"
::= { apexTraps 21 }
trapConditionListFull NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued if a condition is being set and
the condition list is full.
trapAdditionalInfoInteger1 : Task and Function ID (task
and function generates the
error condition)
trapAdditionalInfoInteger2 : Condition number
trapAdditionalInfoInteger3 : Condition severity"
::= { apexTraps 22 }
trapInvalidCaseInSwitch NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued when in a switch statement the
default case is reached. The trapAdditionalInfoInteger1
will contain the task and Function ID. The
trapAdditionalInfoInteger2 will contain value of the switch.
The trapAdditionalInfoInteger3 is not used."
::= { apexTraps 23 }
trapCannotCreateSemaphore NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued when a semaphore cannot
be created. The trapAdditionalInfoInteger1 will contain the
task and Function ID, the trapAdditionalInfoInteger2 and
trapAdditionalInfoInteger3 will not be used."
::= { apexTraps 24 }
trapCannotOpenSocket NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued when a socket cannot
be opened. The trapAdditionalInfoInteger1 will contain the
task and Function ID. The trapAdditionalInfoInteger2 will
contain the errno returned by the call to socket(). The
trapAdditionalInfoInteger3 is not used."
::= { apexTraps 25 }
trapUnknownMessageReceived NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued when an unknown message
is received. The trapAdditionalInfoInteger1 will contain the
task and Function ID. The trapAdditionalInfoInteger2 will
contain the message ID and the trapAdditionalInfoInteger3 is
not used."
::= { apexTraps 26 }
trapInvalidMessageReceived NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is issued when an invalid message
is received. The trapAdditionalInfoInteger1 will contain the
task and Function ID. The trapAdditionalInfoInteger2 will
contain the message ID and the trapAdditionalInfoInteger3 is
not used."
::= { apexTraps 27 }
-- ------------------------------------------------------------------------------
--
-- APEX Alarm Traps
--
-- Trap ID starts at 8000.
--
trapHardwareFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmHardwareFault.
Additional Info 1 carries HW Error Code (refer to HW Event Log for details).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8000 }
trapInvalidInitData NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmInvalidInitData.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8001 }
trapTemperatureFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmTemperatureFault.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8002 }
trapFanFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmFanFault.
This trap is sent on summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8003 }
trapPowerFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmPowerFault.
Additional Info 1 carries the apexPsStatusTable index (1 to 2).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8004 }
trapGbeLossOfPhysicalInput NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeLossOfPhysicalInput.
Additional Info 1 carries the Gigabit Ethernet Interface Number (1 to 4).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8020 }
trapGbeBufferFullness NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeBufferFullness.
Additional Info 1 carries the Gigabit Ethernet Processor Number (1 to 2).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8021 }
trapGbeInputStreamLowBitRate NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeInputStreamLowBitRate.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8022 }
trapGbeInputStreamHighBitRate NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeInputStreamHighBitRate.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8023 }
trapGbeMptsRedundPrimaryThreshold NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeMptsRedundPrimaryThreshold.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8024 }
trapGbeMptsRedundFailOver NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeMptsRedundFailOver.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8025 }
trapServiceInError NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmServiceInError.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8026 }
trapGbeLossOfInputStream NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeLossOfInputStream.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8027 }
trapGigeToHostCommFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGigeToHostCommFault.
This trap is sent on a summary basis.
Additional Info 1 is not used.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8028 }
trapGbeInterfaceRedundFailOver NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmGbeInterfaceRedundFailOver.
This trap is sent on a GbE Redundant Pair basis.
Additional Info 1 contains the GbE interface number that lost link.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8029 }
trapLossOfInputAncillaryPid NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is sent if 'apexAlarmLossOfInputAncillaryPid' is
enabled by 'apexEnableLossOfInputAncillaryPid' and if any of
the input ancillary PID is not received for the duration
'apexPidMapInputAncillaryPidDetectionTimeout'.
Severity level of the alarm is minor.
"
::= { apexTraps 8030 }
trapGbeInputStreamPacketDrop NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is sent if 'apexAlarmGbeInputStreamPacketDrop' is
enabled by 'apexEnableGbeInputStreamPacketDrop' and if any of
the input data streams drops a packet.
"
::= { apexTraps 8031 }
trapOutputUtilizationFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmOutputUtilizationFault.
This trap is sent on an Output Transport Stream basis.
Additional Info 1 carries the Output Transport Stream number (1 to 48).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8040 }
trapOutputOverflow NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmOutputOverflow.
This trap is sent on an Output Transport Stream basis.
Additional Info 1 carries the Output Transport Stream number (1 to 48).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8041 }
trapQamModuleFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmQamModuleFault.
This trap is sent on a QAM Module basis.
Additional Info 1 carries the QAM Module number (1 to 3).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8042 }
trapQamRfPortFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmQamRfPortFault.
This trap is sent on a QAM RF Port basis.
Additional Info 1 carries the QAM RF Port number:
RF Port 1 = QAM Module 1, RF 1
RF Port 2 = QAM Module 1, RF 2
RF Port 3 = QAM Module 2, RF 1
RF Port 4 = QAM Module 2, RF 2
RF Port 5 = QAM Module 3, RF 1
RF Port 6 = QAM Module 3, RF 2
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8043 }
trapQamChannelFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmQamChannelFault.
This trap is sent on a QAM Channel basis.
Additional Info 1 carries the QAM Channel number.
1 to 8 = QAM Module 1, RF 1, QAM Channel A to H
9 to 16 = QAM Module 1, RF 2, QAM Channel A to H
17 to 24 = QAM Module 2, RF 1, QAM Channel A to H
25 to 32 = QAM Module 2, RF 2, QAM Channel A to H
33 to 40 = QAM Module 3, RF 1, QAM Channel A to H
41 to 48 = QAM Module 3, RF 2, QAM Channel A to H
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8044 }
trapQamRfRedundFailOver NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmQamRfRedundFailOver.
This trap is sent on a Primary QAM RF Port basis.
Additional Info 1 carries the Primary QAM RF Port number.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8045 }
trapQamRfRedundMismatch NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmQamRfRedundMismatch.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8046 }
trapQamModuleRemovalFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmQamModuleRemovalFault.
This trap is sent on a QAM Module Removal basis.
Additional Info 1 carries the QAM Module number (1 to 3).
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8047 }
trapRtspControllerCommFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmRtspControllerCommFault.
This trap is sent on a controller basis.
Additional Info 1 carries the controller number.
Additional Info 2 is not used.
Additional Info 3 is not used.
"
::= { apexTraps 8050 }
trapRdsCommFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmRdsCommFault.
Additional Info is not used.
"
::= { apexTraps 8060 }
trapRemCommFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmRemCommFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8070 }
trapRemFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmRemFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8071 }
trapDepiControlConnectionFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmDepiControlConnectionFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8080 }
trapDepiSessionSetupFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmDepiSessionSetupFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8081 }
trapDtiSyncLossFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmDtiSyncLossFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8082 }
trapChassisRedundancyPrimaryFailover NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmChassisRedundancyPrimaryFailover.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8090 }
trapChassisRedundancySecondaryFailover NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmChassisRedundancySecondaryFailover.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8091 }
trapChassisRedundancyAvailabilityFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmChassisRedundancyAvailabilityFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8092 }
trapChassisRedundancyLinkFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmChassisRedundancyLinkFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8093 }
trapChassisRedundancyConfigurationFault NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding alarm apexAlarmChassisRedundancyConfigurationFault.
This trap is sent on a summary basis.
Additional Info is not used.
"
::= { apexTraps 8094 }
-- ------------------------------------------------------------------------------
--
-- APEX Event Traps
--
-- Trap ID starts at 8100.
--
trapEmUserLoginFailed NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding event apexEventEmUserLoginFailed.
Additional Info is not used."
::= { apexTraps 8100 }
trapQamModuleUpgraded NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding event apexEventQamModuleUpgraded.
Additional Info is not used."
::= { apexTraps 8101 }
trapSnmpCommunityStringChanged NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap event is sent when read/read-write SNMP community strings are changed.
See corresponding event 'apexEventSnmpCommunityStringChanged'.
Severity level of the event is warning.
The type of community strings which are changed is sent in the
'Additional Info' parameters as explained below.
trapAdditionalInfoInteger1 - 1 - read community string is changed
0 - read community string is not changed
trapAdditionalInfoInteger2 - 1 - read write community string is changed
0 - read write community string is not changed
trapAdditionalInfoInteger3 - Not used
"
::= { apexTraps 8102 }
trapEasMessageNotReceived NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This event is raised, if 'apexEasMessageReceiveTimeoutEventEnable'
is enabled, when there is no EAS message received from any
of the EAS sever configured in 'apexEasServerTable' in the duration
'apexEasMessageReceiveTimeoutDuration'.
Severity level of this event is warning.
Input interface, input UDP port, multicast IP and source IP details are
passed with the below optional parameters.
trapAdditionalInfoInteger1 -
bits 0 to 15 : Input UDP port number
bit 16 : Type of interface
value 0 : GIGE
value 1 : Fast Enet
bits 17 to 18 : Interface Number and it is zero based
Ex: If this value is 3 and the type of interface is
GIGE then it represents GIGE4 interface
bits 21 to 31 : Reserved
trapAdditionalInfoInteger2 - contains EAS multicast IP address
trapAdditionalInfoInteger3 - contains EAS source IP address
Note: As trapAdditionalInfoInteger2, trapAdditionalInfoInteger3
contains IP addresses in the 'IpAddress' type format.
See corresponding event apexEventEasMessageNotReceived.
"
::= { apexTraps 8103 }
trapLossOfInputAncillaryPidEvent NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"This trap is sent if apexEnableLossOfInputAncillaryPid enabled and
if any of the input ancillary PID is not received for the duration
'apexPidMapInputAncillaryPidDetectionTimeout'. Refer
'apexEventLossOfInputAncillaryPid' for more details.
Severity level of the event is minor.
The trap with clear severity is sent, when the event is cleared.
Input interface type, Input interface type
input UDP port, multicast IP and source IP details are
passed with the below optional parameters.
trapAdditionalInfoInteger1 - bits 0 to 12 - Input ancillary PID
bit 13 - Input interface type
0 - GIGE
1 - Fast Enet
bits 14 to 15 - Input interface number
Zero based index runs from
0 to 3.
bits 16 to 31 - Input UDP port number
trapAdditionalInfoInteger2 - Input multicast IP address
trapAdditionalInfoInteger3 - Input source IP address
Note: As trapAdditionalInfoInteger2, trapAdditionalInfoInteger3
contains IP addresses which is in the 'IpAddress' type format,this
should be decoded as the same way as the type 'IpAddress'.
"
::= { apexTraps 8104 }
trapChassisRedundancyPrimaryForceFailover NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding event apexEventChassisRedunPrimaryForceFailover.
Additional Info is not used."
::= { apexTraps 8110 }
trapChassisRedundancySecondaryForceFailover NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding event apexEventChassisRedunSecondaryForceFailover.
Additional Info is not used."
::= { apexTraps 8111 }
trapChassisRedundancyFirmwareVersionMismatch NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding event apexEventChassisRedunFirmwareVersionMismatch.
Additional Info is not used."
::= { apexTraps 8112 }
trapChassisRedundancyQAMVersionMismatch NOTIFICATION-TYPE
OBJECTS
{
trapIdentifier,
trapSequenceId,
trapNetworkElemModelNumber,
trapNetworkElemSerialNum,
trapPerceivedSeverity,
trapNetworkElemOperState,
trapNetworkElemAlarmStatus,
trapNetworkElemAdminState,
trapNetworkElemAvailStatus,
trapText,
trapNETrapLastTrapTimeStamp,
trapChangedObjectId,
trapChangedValueInteger,
trapAdditionalInfoInteger1,
trapAdditionalInfoInteger2,
trapAdditionalInfoInteger3
}
STATUS current
DESCRIPTION
"See corresponding event apexEventChassisRedunQAMVersionMismatch.
Additional Info is not used."
::= { apexTraps 8113 }
END