mibs/MIBS/3com/A3COM-HUAWEI-LswDEVM-MIB

-- ==================================================================
-- Copyright (c) 2004-2012 Hangzhou H3C Tech. Co., Ltd. All rights reserved.
--
-- Description£º  HUAWEI Lan Switch Platform Device Management MIB
-- Reference:
-- Version: V2.3
-- History:
--      V1.0 (1) Created by Hou Qiang, 2001.06.29
--           (2) Revised by Qi Zhenglin, 2001.12.30 ----r003 revision
--      V1.1 2004/7/20 import hwLswFrameIndex, hwLswSlotIndex
--           FROM A3COM-HUAWEI-DEVICE-MIB
--      V1.2 2004/09/10
--           1) change all MIB objects' STATUS from mandatory to current.
--           2) remove statement before hwLswdevMMib
--           3) adjust file format, change tab to space and some small
--              changes.
--           4) change STATUS of hwCfmWriteFlash and hwCfmEraseFlash
--              from write-only to read-write.
--      V2.0 2004-10-12 updated by gaolong
--           Import Gauge32, OBJECT-IDENTITY.
--           Relocate hwLswdevMMib MODULE-IDENTITY clause.
--           Change ACCESS to MAX-ACCESS
--           Change Gauge to Gauge32.
--           Change value of hwDevMFanStatus and hwDevMPowerStatus from underscores to hyphens.
--      V2.1  2005-01-12
--           Change the description of hwFlhTotalSize and hwFlhTotalFree by sunqiang
--      V2.2  2005-06-10 updated by Chen Xi
--           Modify the SYNTAX and DESCRIPTION of hwLinkUpDownTrapEnable
--           and adjust file format.
--      V2.3  2011-11-26 updated by duyanbing
--           Add hwDevMFirstTrapTime.
-- ==================================================================
-- ==================================================================
--
-- Varibles and types be imported
--
-- ==================================================================
A3COM-HUAWEI-LswDEVM-MIB DEFINITIONS ::= BEGIN

IMPORTS
    MODULE-IDENTITY, OBJECT-TYPE, TimeTicks, Gauge32, OBJECT-IDENTITY
        FROM SNMPv2-SMI

    lswCommon, huaweiUtility
        FROM A3COM-HUAWEI-OID-MIB
    hwLswFrameIndex, hwLswSlotIndex
        FROM A3COM-HUAWEI-DEVICE-MIB
        ;

hwLswdevMMib MODULE-IDENTITY
        LAST-UPDATED "201111260000Z"
        ORGANIZATION ""
        CONTACT-INFO
        ""
        DESCRIPTION
        ""
        REVISION "200106290000Z"
        DESCRIPTION
        ""
        ::= { lswCommon  9 }


hwDevice OBJECT IDENTIFIER ::= { huaweiUtility 1 }

-- ==================================================================
--
-- ======================= definition begin =========================
--
-- ==================================================================

hwCpuTable  OBJECT-TYPE
    SYNTAX  SEQUENCE OF HwCpuEntry
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "A table of CPU statistics."
    ::= { hwDevice 1 }

hwCpuEntry  OBJECT-TYPE
    SYNTAX  HwCpuEntry
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "The Entries of hwCpuTable."
    INDEX   { hwCpuIndex }
    ::= { hwCpuTable  1 }

HwCpuEntry ::=
   SEQUENCE {
            hwCpuIndex          INTEGER,
            hwCpuCostRate       Gauge32,
            hwCpuCostRatePer1Min       Gauge32,
            hwCpuCostRatePer5Min       Gauge32
           }

hwCpuIndex  OBJECT-TYPE
    SYNTAX  INTEGER
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "Index of hwCpuTable. This integer is a  uniq number to
             identify the CPU(s). We recommand two Number Plans in this
             paper, Logical Number or Phisical Number. For the first
             case, hwCpuIndex is a integer, range from 1 to the Maximum
             number, for example 1,2,3,4,5 ..., where 1 represents
             the first CPU, 2 represents the second CPU, etc.  For the
             second case hwCpuIndex represents physical card position
             (Shelf Number, Frame Number, Slot Number, SubSlotNumber)
             where the CPU residing, for example, 0x01020304 represent
             the CPU on the 4th subslot of the 3th slot of the 2nd frame
             of the 1st Shelf. In the condition of multiple CPU system
             where CPU group coordinately  process on one board, we see
             the CPUs as one CPU"
    ::= { hwCpuEntry 1 }

hwCpuCostRate  OBJECT-TYPE
   SYNTAX  Gauge32
   MAX-ACCESS  read-only
   STATUS  current
   DESCRIPTION
           "The overall CPU busy percentage in the last 5 second period. "
   ::= { hwCpuEntry 2 }

hwCpuCostRatePer1Min OBJECT-TYPE
   SYNTAX  Gauge32
   MAX-ACCESS  read-only
   STATUS  current
   DESCRIPTION
           "The overall CPU cost percentage in the last 1 minute period. "
   ::= { hwCpuEntry 3 }

hwCpuCostRatePer5Min OBJECT-TYPE
   SYNTAX  Gauge32
   MAX-ACCESS  read-only
   STATUS  current
   DESCRIPTION
           "The overall CPU cost percentage in the last 5 minutes period. "
   ::= { hwCpuEntry 4 }


hwMem   OBJECT IDENTIFIER ::= { hwDevice 2 }

hwMemTable  OBJECT-TYPE
    SYNTAX  SEQUENCE OF HwMemEntry
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "This table contains memory information.  "
    ::= { hwMem 1 }

hwMemEntry  OBJECT-TYPE
    SYNTAX  HwMemEntry
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "The Entries of hwMemTable"
    INDEX   { hwMemModuleIndex }
            ::= { hwMemTable  1 }

HwMemEntry ::=
   SEQUENCE {
            hwMemModuleIndex     INTEGER,
            hwMemSize            Gauge32,
            hwMemFree            Gauge32,
            hwMemRawSliceUsed    Gauge32,
            hwMemLgFree          Gauge32,
            hwMemFail            Gauge32,
            hwMemFailNoMem       Gauge32
            }

hwMemModuleIndex   OBJECT-TYPE
    SYNTAX  INTEGER
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "Index of hwMemTable. This integer is a  uniq number to
             identify the memory module. We recommand two Number Plans
             in this paper, Logical Number or Phisical Number. For the
             first case, hwMemModuleIndex is a integer, range from 1 to
             the Maximum number, for example 1,2,3,4,5 ..., where 1
             represents the first memory module, 2 represents the second
             memory module, etc.  For the second case hwMemModuleIndex
             represents physical card position (Shelf Number, Frame Number,
             Slot Number, SubSlotNumber) where the memory module residing,
             for example, 0x01020304 represent the memory module on the 4th
             subslot of the 3th slot of the 2nd frame of the 1st Shelf. "
    ::= { hwMemEntry  1 }

hwMemSize OBJECT-TYPE
    SYNTAX  Gauge32
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "Indicates the total size of the memory module
            which is on the managed object."
    ::= { hwMemEntry  2 }

hwMemFree OBJECT-TYPE
    SYNTAX  Gauge32
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "Indicates the free size of the memory"
    ::= { hwMemEntry  3 }

hwMemRawSliceUsed OBJECT-TYPE
    SYNTAX  Gauge32
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "Indicates the used size of the raw slice memory"
    ::= { hwMemEntry  4 }

hwMemLgFree OBJECT-TYPE
    SYNTAX  Gauge32
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "The largest free size of the contiguous area in the memory.
           The unit is byte."
    ::= { hwMemEntry  5 }

hwMemFail OBJECT-TYPE
     SYNTAX  Gauge32
     MAX-ACCESS  read-only
     STATUS  current
     DESCRIPTION
             "The times of memory allocation failures"
     ::= { hwMemEntry 6 }

hwMemFailNoMem OBJECT-TYPE
     SYNTAX  Gauge32
     MAX-ACCESS  read-only
     STATUS  current
     DESCRIPTION
             "The times of memory allocation failures due to no free memory."
     ::= { hwMemEntry 7 }


hwBufTable    OBJECT-TYPE
    SYNTAX  SEQUENCE OF HwBufEntry
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "This table contains buffer information.  "
    ::= { hwMem 2 }

hwBufEntry   OBJECT-TYPE
    SYNTAX  HwBufEntry
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "The Entries of hwBufferTable"
    INDEX   { hwBufModuleIndex , hwBufSize }
    ::= { hwBufTable  1 }

HwBufEntry ::=
   SEQUENCE {
            hwBufModuleIndex     INTEGER,
            hwBufSize            INTEGER,
            hwBufCurrentTotal    Gauge32,
            hwBufCurrentUsed     Gauge32
           }

hwBufModuleIndex   OBJECT-TYPE
    SYNTAX  INTEGER
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "Index of hwBufferTable. This integer is a  uniq number to
             identify the buffer module. We recommand two Number Plans
             in this paper, Logical Number or Phisical Number. For the
             first case, hwBufferModuleIndex is a integer, range from 1 to
             the Maximum number, for example 1,2,3,4,5 ..., where 1
             represents the first buffer module, 2 represents the second
             buffer module, etc.  For the second case hwBufferModuleIndex
             represents physical card position (Shelf Number, Frame Number,
             Slot Number, SubSlotNumber) where the buffer module residing,
             for example, 0x01020304 represent the buffer module on the 4th
             subslot of the 3th slot of the 2nd frame of the 1st Shelf. "
    ::= { hwBufEntry  1 }

hwBufSize OBJECT-TYPE
    SYNTAX  INTEGER
    MAX-ACCESS  not-accessible
    STATUS  current
    DESCRIPTION
            "The size of buffer,unit is byte."
    ::= { hwBufEntry 2 }

hwBufCurrentTotal OBJECT-TYPE
    SYNTAX  Gauge32
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
            "The total number of buffer currently."
    ::= { hwBufEntry 3 }

hwBufCurrentUsed OBJECT-TYPE
    SYNTAX  Gauge32
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
            "The number of used buffer currently."
    ::= { hwBufEntry 4 }


hwFlh   OBJECT IDENTIFIER ::= { hwDevice 3 }

-- huawei Local Flash Group
-- This group is present in all products which contain flash"

hwFlhTotalSize OBJECT-TYPE
    SYNTAX  INTEGER
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "The flash memory's total size, in kilobyte"
    ::= { hwFlh 1 }

hwFlhTotalFree OBJECT-TYPE
    SYNTAX  INTEGER
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "The free space in internal flash memory, in kilobyte"
    ::= { hwFlh 2 }

hwFlhLastDelTime OBJECT-TYPE
    SYNTAX  TimeTicks
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "The time since system up of the lastest deleting operation of
            flash memory.The value of Zero indicates there is no erasing operation
            since system up"
    DEFVAL { 0 }
    ::= { hwFlh 3 }

hwFlhDelState OBJECT-TYPE
    SYNTAX  INTEGER {
        executing(1),
        ok(2),
        error(3),
        readOnly(4),
        failtoopen(5),
        blockMallocFail(6),
        noneDelOperationSinceStart(7)
    }
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "The state indicates the result of current or
            lastest flash memory deleting operation"
    ::= { hwFlh 4 }

hwFlhState OBJECT-TYPE
    SYNTAX  INTEGER {
        busy(1),
        free(2)
    }
    MAX-ACCESS  read-only
    STATUS  current
    DESCRIPTION
           "Busy indicates the flash memory is unavailable due to others may be using it,
            and free indicates the flash memory is available now"
    ::= { hwFlh 5 }

-- ==================================================================

hwLswdevMMibObject OBJECT-IDENTITY
    STATUS current
    DESCRIPTION
        "Description."
    ::= { hwLswdevMMib 1 }

hwdevMFanStatusTable OBJECT-TYPE
        SYNTAX SEQUENCE OF HwDevMFanStatusEntry
        MAX-ACCESS not-accessible
        STATUS current
        DESCRIPTION " Fan status description table "
        ::= { hwLswdevMMibObject  1 }


hwdevMFanStatusEntry OBJECT-TYPE
        SYNTAX HwDevMFanStatusEntry
        MAX-ACCESS not-accessible
        STATUS current
        DESCRIPTION " Fan status description table entry "
        INDEX   { hwDevMFanNum }
        ::= { hwdevMFanStatusTable 1}


HwDevMFanStatusEntry ::=
   SEQUENCE {
                hwDevMFanNum    INTEGER,
                hwDevMFanStatus INTEGER
            }

hwDevMFanNum  OBJECT-TYPE
        SYNTAX  INTEGER
        MAX-ACCESS read-only
        STATUS current
        DESCRIPTION " Fan number "
        ::= { hwdevMFanStatusEntry 1 }


hwDevMFanStatus  OBJECT-TYPE
        SYNTAX  INTEGER
        {
        active     (1),
        deactive   (2),
        not-install  (3),
        unsupport    (4)
        }
        MAX-ACCESS read-only
        STATUS current
        DESCRIPTION " Fan status: active (1), deactive (2) not installed (3) and unsupported (4)"
        ::= { hwdevMFanStatusEntry 2 }


hwdevMPowerStatusTable OBJECT-TYPE
        SYNTAX SEQUENCE OF HwDevMPowerStatusEntry
        MAX-ACCESS not-accessible
        STATUS current
        DESCRIPTION " Power status description table  "
        ::= { hwLswdevMMibObject  2 }


hwdevMPowerStatusEntry OBJECT-TYPE
        SYNTAX HwDevMPowerStatusEntry
        MAX-ACCESS not-accessible
        STATUS current
        DESCRIPTION " Power status description table entry   "
        INDEX   { hwDevMPowerNum }
        ::= { hwdevMPowerStatusTable 1}

HwDevMPowerStatusEntry ::=
   SEQUENCE {
                hwDevMPowerNum          INTEGER,
                hwDevMPowerStatus       INTEGER
            }


hwDevMPowerNum  OBJECT-TYPE
        SYNTAX  INTEGER
        MAX-ACCESS read-only
        STATUS current
        DESCRIPTION "Power number "
        ::= { hwdevMPowerStatusEntry 1 }


hwDevMPowerStatus OBJECT-TYPE
        SYNTAX  INTEGER
        {
        active     (1),
        deactive   (2),
        not-install (3),
        unsupport    (4)
        }
        MAX-ACCESS read-only
        STATUS current
        DESCRIPTION " Power status: active (1), deactive (2) not installed (3) and unsupported    "
        ::= { hwdevMPowerStatusEntry 2 }


hwdevMSlotEnvironmentTable OBJECT-TYPE
        SYNTAX SEQUENCE OF HwdevMSlotEnvironmentEntry
        MAX-ACCESS not-accessible
        STATUS current
        DESCRIPTION " environment description table  "
        ::= { hwLswdevMMibObject  3 }


hwdevMSlotEnvironmentEntry OBJECT-TYPE
        SYNTAX HwdevMSlotEnvironmentEntry
        MAX-ACCESS not-accessible
        STATUS current
        DESCRIPTION " environment description table entry   "
        INDEX   { hwLswFrameIndex, hwLswSlotIndex, hwdevMSlotEnvironmentType }
        ::= { hwdevMSlotEnvironmentTable 1 }


HwdevMSlotEnvironmentEntry ::=
   SEQUENCE {
                hwdevMSlotEnvironmentType               INTEGER,
                hwDevMSlotEnvironmentStatus             INTEGER,
                hwDevMSlotEnvironmentValue              INTEGER,
                hwDevMSlotEnvironmentUpperLimit         INTEGER,
                hwDevMSlotEnvironmentLowerLimit         INTEGER
           }


hwdevMSlotEnvironmentType  OBJECT-TYPE
        SYNTAX  INTEGER
        {
        temperature(1),
        humidity(2),
        fog(3)
        }
        MAX-ACCESS not-accessible
        STATUS current
        DESCRIPTION "Environment type "
        ::= { hwdevMSlotEnvironmentEntry 1 }

hwDevMSlotEnvironmentStatus OBJECT-TYPE
        SYNTAX  INTEGER
        {
        normal(1),
        upper(2),
        lower(3)
        }
        MAX-ACCESS read-only
        STATUS current
        DESCRIPTION " Environment status"
        ::= { hwdevMSlotEnvironmentEntry 2 }

hwDevMSlotEnvironmentValue OBJECT-TYPE
        SYNTAX  INTEGER
        MAX-ACCESS read-only
        STATUS current
        DESCRIPTION " Environment value"
        ::= { hwdevMSlotEnvironmentEntry 3 }

hwDevMSlotEnvironmentUpperLimit  OBJECT-TYPE
        SYNTAX  INTEGER
        MAX-ACCESS read-write
        STATUS current
        DESCRIPTION "Environment upper limit "
        ::= { hwdevMSlotEnvironmentEntry 4 }


hwDevMSlotEnvironmentLowerLimit OBJECT-TYPE
        SYNTAX  INTEGER
        MAX-ACCESS read-write
        STATUS current
        DESCRIPTION " Environment Lower limit"
        ::= { hwdevMSlotEnvironmentEntry 5 }


hwLinkUpDownTrapEnable  OBJECT-TYPE
        SYNTAX  INTEGER
        {
        enableBoth(1) ,
        disableBoth(2) ,
        enableLinkUpTrapOnly(3) ,
        enableLinkDownTrapOnly(4)
        }
        MAX-ACCESS read-write
        STATUS current
        DESCRIPTION
        "Enable/Disable linkUp/linkDown traps of the device, determining whether
         to enable linkUp/linkDown traps with that of the interface.
         When the value is enableBoth(1), the linkUp/linkDown traps are both
         enabled.
         When the value is disableBoth(2), the linkUp/linkDown traps are both
         disabled.
         When the value is enableLinkUpTrapOnly(3), the linkUp traps is enabled
         and the linkDown traps is disabled.
         When the value is enableLinkDownTrapOnly(4), the linkUp traps is
         disabled and the linkDown traps is enabled. "
        ::= { hwLswdevMMibObject  9 }

hwdot1qTpFdbLearnStatus OBJECT-TYPE
        SYNTAX  INTEGER
        {
                enabled(1),
                disabled(2)
        }
        MAX-ACCESS read-write
        STATUS current
        DESCRIPTION " Enable/Disable the address learning."
        ::= { hwLswdevMMibObject  10 }



hwCfmWriteFlash OBJECT-TYPE
        SYNTAX  INTEGER
        {
                write(1)
        }
        MAX-ACCESS read-write
        STATUS current
        DESCRIPTION " Write the current effective configuration into the Flash memory.
                      This object does not support read operation."
        ::= { hwLswdevMMibObject  11 }


hwCfmEraseFlash OBJECT-TYPE
        SYNTAX  INTEGER
        {
                erase(1)
        }
        MAX-ACCESS read-write
        STATUS current
        DESCRIPTION " Delete the configuration from the Flash memory.
                      This object does not support read operation."
        ::= { hwLswdevMMibObject  12 }

hwDevMFirstTrapTime OBJECT-TYPE
    SYNTAX      TimeTicks
    MAX-ACCESS  accessible-for-notify
    STATUS      current
    DESCRIPTION
        "Represents the first trap time."
    ::= { hwLswdevMMibObject 13 }

END