mibs/MIBS/hwg/POSEIDON-MIB

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2023-12-05 12:25:34 +01:00
-- POSEIDON-MIB 2.06
-- History:
-- 2.07 7. 10.2009 Marek Koci - sensorUnitString added, traps renamed
-- 2.06 10. 9.2009 Marek Koci - universal 1-wire sensor supported
-- 2.05 11. 9.2008 Marek Koci - new sensor units added
-- 2.04 14. 9.2007 Dusan Ferbas - outMode added, node rename to reflect new behaviour for outputs
-- 2.03 20. 4.2007 Dusan Ferbas - inpAlarmState added, also to inpChange trap
-- 2.02 5. 9.2006 Rosta Hlebak - unit type and sensor ID, temp -> sens, trap variable list changed
-- 2.01 18. 4.2005 Jiri Sindelar - enterprise changed from 17739 (Embedded Technologies s.r.o.) to 21796 (HW group s.r.o)
-- - output name & type added
-- 1.05 5. 5.2004 Dusan Ferbas - MIB name changed to Poseidon, input and output variables into tables, their names settable
-- 1.04 2. 1.2004 Dusan Ferbas - alarm table added
-- 1.03 21.11.2003 Dusan Ferbas - Modified
-- 1.01 5.11.2003 Dusan Ferbas - Created
--
--
--
-- This is a MIB file for Poseidon product family - environment sensors & digital I/O over IP via XML, SNMP, Modbus/TCP
-- Availabe sensors: Temperature, Humidity, Voltage, Current, Power comsuption (110/230V) Industrial standards
--
-- --------------------- Poseidon Family ----------------------
--
-- Poseidon model 3262: 6 sensors
-- Poseidon model 3265: 5 sensors, GSM
-- Poseidon model 3266: 3 sensors, 4 Inputs
-- Poseidon model 3268: 4 sensors, 4 Inputs, 2 Outputs
-- Poseidon model 1250: 42 sensors, 3 Inputs, 2 Outputs, GSM
-- Poseidon model 2250: 42 sensors, 3 Inputs, 2 Outputs, GSM
-- Poseidon model 2261: 42 sensors, 3 Inputs, 2 Outputs
-- Poseidon model 3468: 4 sensors, 4 Inputs, 2 Outputs
-- Poseidon model Sitemon: 12 sensors, 16 Inputs, 4 Outputs
-- Poseidon model 4001: 16 sensors, 8 Inputs, 4 Outputs, GSM
-- Poseidon model 4002: 16 sensors, 6 Inputs, 2 Outputs, GSM
POSEIDON-MIB DEFINITIONS ::= BEGIN
IMPORTS
OBJECT-TYPE
FROM RFC-1212
Gauge, enterprises
FROM RFC1155-SMI
DisplayString, sysName
FROM RFC1213-MIB;
--
-- Type Definitions
--
PositiveInteger ::= INTEGER (1..2147483647) -- 0x7FFF FFFF
OnOff ::= INTEGER {
off (0),
on (1)
}
OutputType ::= INTEGER {
onOff (0),
rts (1),
dtr (2)
}
OutputMode ::= INTEGER {
manual (0),
autoAlarm (1),
autoTriggerEq (2),
autoTriggerHi (3),
autoTriggerLo (4)
}
UnitType ::= INTEGER {
celsius (0),
fahrenheit (1),
kelvin (2),
percent(3),
volt (4),
miliAmper (5),
noUnit (6),
pulse (7),
switch (8),
dewPoint (9),
absoluteHumidity (10),
pressure (11),
universal (12)
}
InputAlarmSetup ::= INTEGER {
inactive (0),
activeOff (1),
activeOn (2)
}
InputAlarmState ::= INTEGER {
normal (0),
alarm (1)
}
SensorState ::= INTEGER {
invalid (0),
normal (1),
alarmstate (2),
alarm (3)
}
SensorID ::= INTEGER (0..65535)
IOName ::= DisplayString (SIZE (0..20))
SensorName ::= DisplayString (SIZE (0..15))
SensorValue ::= INTEGER
SensorString ::= DisplayString (SIZE (0..10))
SensorUnitString ::= DisplayString (SIZE (0..4))
SensorFlags ::= INTEGER -- will hold info that this sensor has alarm (trap) enabled
-- and/or sets output pin (thermostat functionality)
TimeStamp ::= TimeTicks
--
-- Node Definitions
--
hwgroup OBJECT IDENTIFIER ::= { enterprises 21796 }
charonII OBJECT IDENTIFIER ::= { hwgroup 3 }
poseidon OBJECT IDENTIFIER ::= { charonII 3 }
-- Application Nodes
info OBJECT IDENTIFIER ::= { poseidon 70 }
setup OBJECT IDENTIFIER ::= { poseidon 99 }
inpTable OBJECT-TYPE
SYNTAX SEQUENCE OF InpEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"A list of binary input entries."
::= { poseidon 1 }
inpEntry OBJECT-TYPE
SYNTAX InpEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry containing information applicable
to a particular binary input."
INDEX { inpIndex }
::= { inpTable 1 }
InpEntry ::= SEQUENCE {
inpIndex PositiveInteger,
inpValue OnOff,
inpName IOName,
inpAlarmSetup InputAlarmSetup,
inpAlarmState InputAlarmState
}
inpIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS current
DESCRIPTION
"The binary input index."
::= { inpEntry 1 }
inpValue OBJECT-TYPE
SYNTAX OnOff
ACCESS read-only
STATUS current
DESCRIPTION
"The binary input value."
::= { inpEntry 2 }
inpName OBJECT-TYPE
SYNTAX IOName
ACCESS read-write
STATUS current
DESCRIPTION
"The binary input name."
::= { inpEntry 3 }
inpAlarmSetup OBJECT-TYPE
SYNTAX InputAlarmSetup
ACCESS read-write
STATUS current
DESCRIPTION
"You can enable alarm for this binary input.
Alarm can be inactive or active for On/Off state."
::= { inpEntry 4 }
inpAlarmState OBJECT-TYPE
SYNTAX InputAlarmState
ACCESS read-only
STATUS current
DESCRIPTION
"The binary input alarm state."
::= { inpEntry 5 }
--
outTable OBJECT-TYPE
SYNTAX SEQUENCE OF OutEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"A list of binary output entries."
::= { poseidon 2 }
outEntry OBJECT-TYPE
SYNTAX OutEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry containing information applicable
to a particular binary output."
INDEX { outIndex }
::= { outTable 1 }
OutEntry ::= SEQUENCE {
outIndex PositiveInteger,
outValue OnOff,
outName IOName,
outType OutputType,
outMode OutputMode
}
outIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS current
DESCRIPTION
"The binary output index."
::= { outEntry 1 }
outValue OBJECT-TYPE
SYNTAX OnOff
ACCESS read-write
STATUS current
DESCRIPTION
"The binary output value. 0 off(open), 1 on(close)"
::= { outEntry 2 }
outName OBJECT-TYPE
SYNTAX IOName
ACCESS read-write
STATUS current
DESCRIPTION
"The binary output name."
::= { outEntry 3 }
outType OBJECT-TYPE
SYNTAX OutputType
ACCESS read-only
STATUS current
DESCRIPTION
"The binary output type. 0 relay (off, on), 1 rts (-10,+10V), 2 dtr (0,10V)"
::= { outEntry 4 }
outMode OBJECT-TYPE
SYNTAX OutputMode
ACCESS read-write
STATUS current
DESCRIPTION
"The binary output mode. 0 manual, 1 autoAlarm,
2 autoTriggerEq, 3 autoTriggerHi, 4 autoTriggerLo"
::= { outEntry 5 }
-- Table has to be last in a branch to satisfy snmp walk engine implementation
sensTable OBJECT-TYPE
SYNTAX SEQUENCE OF SensEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"A list of sensor table entries. The number
of entries corresponds with number of detected sensors."
::= { poseidon 3 }
sensEntry OBJECT-TYPE
SYNTAX SensEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry containing information applicable to a
particular sensor."
INDEX { sensIndex }
::= { sensTable 1 }
SensEntry ::= SEQUENCE {
sensIndex PositiveInteger,
sensName SensorName,
sensState SensorState,
sensString SensorString,
sensValue SensorValue,
sensValueRaw SensorValue,
sensID SensorID,
sensUnit UnitType,
sensUnitString SensorUnitString
}
sensIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS current
DESCRIPTION
"The sensor index."
::= { sensEntry 1 }
sensName OBJECT-TYPE
SYNTAX SensorName
ACCESS read-only
STATUS current
DESCRIPTION
"The sensor name."
::= { sensEntry 2 }
sensState OBJECT-TYPE
SYNTAX SensorState
ACCESS read-only
STATUS current
DESCRIPTION
"The sensor state."
::= { sensEntry 4 }
sensString OBJECT-TYPE
SYNTAX SensorString
ACCESS read-only
STATUS current
DESCRIPTION
"The string representation of sensor value."
::= { sensEntry 5 }
sensValue OBJECT-TYPE
SYNTAX SensorValue
ACCESS read-only
STATUS current
DESCRIPTION
"The integer (decimal * 10) representation
of sensor value."
::= { sensEntry 6 }
sensValueRaw OBJECT-TYPE
SYNTAX SensorValue
ACCESS read-only
STATUS current
DESCRIPTION
"The original raw value of sensor
(it differs for each sensor type, especially
1-Wire sensors have different precisions)."
::= { sensEntry 7 }
sensID OBJECT-TYPE
SYNTAX SensorID
ACCESS read-only
STATUS current
DESCRIPTION
"The sensor ID."
::= { sensEntry 8 }
sensUnit OBJECT-TYPE
SYNTAX UnitType
ACCESS read-only
STATUS current
DESCRIPTION
"The sensor unit."
::= { sensEntry 9 }
sensUnitString OBJECT-TYPE
SYNTAX SensorUnitString
ACCESS read-only
STATUS current
DESCRIPTION
"The string representation of sensor unit."
::= { sensEntry 10 }
-- The Alarm group.
tsAlarm OBJECT IDENTIFIER ::= { poseidon 50 }
tsAlarmsPresent OBJECT-TYPE
SYNTAX Gauge32
ACCESS read-only
STATUS current
DESCRIPTION
"The present number of active alarm conditions."
::= { tsAlarm 1 }
tsAlarmTable OBJECT-TYPE
SYNTAX SEQUENCE OF TsAlarmEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"A list of alarm table entries. The table contains
zero, one, or many rows at any moment, depending upon
the number of alarm conditions in effect. The table
is initially empty at agent startup. The agent
creates a row in the table each time a condition is
detected and deletes that row when that condition no
longer pertains. The agent creates the first row with
tsAlarmId equal to 1, and increments the value of
tsAlarmId each time a new row is created, wrapping to
the first free value greater than or equal to 1 when
the maximum value of tsAlarmId would otherwise be
exceeded. Consequently, after multiple operations,
the table may become sparse, e.g., containing entries
for rows 95, 100, 101, and 203 and the entries should
not be assumed to be in chronological order because
tsAlarmId might have wrapped.
The number of rows in the table at any given time is
reflected by the value of tsAlarmsPresent."
::= { tsAlarm 2 }
tsAlarmEntry OBJECT-TYPE
SYNTAX TsAlarmEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry containing information applicable
to a particular alarm."
INDEX { tsAlarmIdx }
::= { tsAlarmTable 1 }
TsAlarmEntry ::= SEQUENCE {
tsAlarmIdx PositiveInteger,
tsAlarmId PositiveInteger,
tsAlarmDescr INTEGER,
tsAlarmSensName SensorName,
tsAlarmTime TimeStamp
}
tsAlarmIdx OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS current
DESCRIPTION
"An index to alarm table."
::= { tsAlarmEntry 1 }
tsAlarmId OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS read-only -- (used in trap variables)
STATUS current
DESCRIPTION
"A unique identifier for an alarm condition.
This value must remain constant."
::= { tsAlarmEntry 2 }
tsAlarmDescr OBJECT-TYPE
SYNTAX INTEGER {
inputStateAlarm(1),
temperatureOutOfRange(2)
}
ACCESS read-only
STATUS current
DESCRIPTION
"Description of the alarm condition."
::= { tsAlarmEntry 3 }
-- inputStateAlarm(1)
-- Binary input reached a state which meets its alarm setting.
-- This means that no such alarm can happenn if alarm is set to no.
-- temperatureOutOfRange(2)
-- Sensor value is out of limits.
tsAlarmSensName OBJECT-TYPE
SYNTAX SensorName
ACCESS read-only
STATUS current
DESCRIPTION
"Name of sensor with alarm condition."
::= { tsAlarmEntry 4 }
tsAlarmTime OBJECT-TYPE
SYNTAX TimeStamp
ACCESS read-only
STATUS current
DESCRIPTION
"The value of sysUpTime when the alarm condition was
detected. If the alarm condition was detected
at the time of agent startup and presumably existed
before agent startup, the value of tsAlarmTime shall equal 0."
::= { tsAlarmEntry 5 }
-- Application Info
infoAddressMAC OBJECT-TYPE
SYNTAX DisplayString (SIZE (0..17))
ACCESS read-only
STATUS current
DESCRIPTION
"MAC address in text form.
It is here to distinguish devices in trap messages."
::= { info 1 }
-- Application Setup
sensSetup OBJECT IDENTIFIER ::= { setup 1 }
unitType OBJECT-TYPE
SYNTAX UnitType
ACCESS read-write
STATUS current
DESCRIPTION
"Units for displayed values.
All setup values are fixed in Celsius"
::= { sensSetup 1 }
sensSetupTable OBJECT-TYPE
SYNTAX SEQUENCE OF SensSetupEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"A list of sensor table setup entries. The number
of entries corresponds with number of detected sensors."
::= { sensSetup 2 }
sensSetupEntry OBJECT-TYPE
SYNTAX SensSetupEntry
ACCESS not-accessible
STATUS current
DESCRIPTION
"An entry containing setup information
for a particular sensor."
INDEX { sensSetupIndex }
::= { sensSetupTable 1 }
SensSetupEntry ::= SEQUENCE {
sensSetupIndex PositiveInteger,
sensSetupName SensorName,
sensFlags SensorFlags,
sensLimitMin SensorValue,
sensLimitMax SensorValue,
sensHysteresis SensorValue
}
sensSetupIndex OBJECT-TYPE
SYNTAX PositiveInteger
ACCESS not-accessible
STATUS current
DESCRIPTION
"The sensor setup table index."
::= { sensSetupEntry 1 }
sensSetupName OBJECT-TYPE
SYNTAX SensorName
ACCESS read-write
STATUS current
DESCRIPTION
"The sensor name."
::= { sensSetupEntry 2 }
sensFlags OBJECT-TYPE
SYNTAX SensorFlags
ACCESS read-write
STATUS current
DESCRIPTION
"The behaviour of sensor
- 0x01: range or level detection
- 0x02: enable trap sending
-- 0x04: output set (thermostat)
- 0x08: sensor enabled
- 0x10: enable SMS sending
- 0x20: enable email sending."
::= { sensSetupEntry 5 }
sensLimitMin OBJECT-TYPE
SYNTAX SensorValue
ACCESS read-write
STATUS current
DESCRIPTION
"The sensor low limit."
::= { sensSetupEntry 6 }
sensLimitMax OBJECT-TYPE
SYNTAX SensorValue
ACCESS read-write
STATUS current
DESCRIPTION
"The sensor high limit."
::= { sensSetupEntry 7 }
sensHysteresis OBJECT-TYPE
SYNTAX SensorValue
ACCESS read-write
STATUS current
DESCRIPTION
"The sensor hysteresis."
::= { sensSetupEntry 8 }
-- Trap Definitions ------------------------------------------------------------
inpAlarmStateChanged TRAP-TYPE
ENTERPRISE poseidon
VARIABLES { sysName, infoAddressMAC, inpName, inpValue, inpAlarmState }
DESCRIPTION
"Input state entered/left alarm condition.
This trap always follows tsTrapAlarmStart/tsTrapAlarmEnd."
::= 1
sensAlarmStateChanged TRAP-TYPE
ENTERPRISE poseidon
VARIABLES { sysName, infoAddressMAC, sensName, sensID, sensState, sensValue, sensUnit }
DESCRIPTION
"Nth sensor state entered/left alarm condition.
This trap always follows tsTrapAlarmStart/tsTrapAlarmEnd."
::= 2
tsTrapAlarmStart TRAP-TYPE
ENTERPRISE poseidon
VARIABLES { sysName, infoAddressMAC, tsAlarmId, tsAlarmDescr }
DESCRIPTION
"This trap is sent each time an alarm is inserted
into to the alarm table. It is sent on the insertion
of all alarms except for powerFailure."
::= 3
tsTrapAlarmEnd TRAP-TYPE
ENTERPRISE poseidon
VARIABLES { sysName, infoAddressMAC, tsAlarmId, tsAlarmDescr }
DESCRIPTION
"This trap is sent each time an alarm is removed
from the alarm table. It is sent on the removal
of all alarms."
::= 4
END