BASIS-SHELF-MIB

File: BASIS-SHELF-MIB.mib (30175 bytes)

Imported modules

RFC1155-SMI RFC-1212 RFC1213-MIB
BASIS-MIB

Imported symbols

IpAddress OBJECT-TYPE DisplayString
basisShelf axisRedundancy

Defined Types

ShelfEntry  
SEQUENCE    
  shelfNum INTEGER
  shelfSlotNum INTEGER
  shelfBkplnSerialNumDeprecated INTEGER
  shelfFunctionModuleState INTEGER
  shelfFunctionModuleType INTEGER
  shelfFunctionModuleHoldReset INTEGER

ShelfCBClkRateEntry  
SEQUENCE    
  cBNum INTEGER
  clkRate INTEGER

SmRedMapEntry  
SEQUENCE    
  redPrimarySlotNum INTEGER
  redRowStatus INTEGER
  redPrimaryType INTEGER
  redPrimaryState INTEGER
  redSecondarySlotNum INTEGER
  redSecondaryType INTEGER
  redSecondaryState INTEGER
  redType INTEGER
  redCoveringSlot INTEGER
  redFeature INTEGER
  redLineModuleType INTEGER

Defined Values

shelfTable 1.3.6.1.4.1.351.110.1.1.1
The table has the Physical slot number and state of the cards
OBJECT-TYPE    
  SEQUENCE OF  
    ShelfEntry

shelfEntry 1.3.6.1.4.1.351.110.1.1.1.1
An entry for the slot
OBJECT-TYPE    
  ShelfEntry  

shelfNum 1.3.6.1.4.1.351.110.1.1.1.1.1
A unique value for each shelf. Its value ranges between 1 and the maxvalue of shelfNumber.
OBJECT-TYPE    
  INTEGER 1..4  

shelfSlotNum 1.3.6.1.4.1.351.110.1.1.1.1.2
Slot number of a card. BASIS can have maximum 16 slots in one shelf. 17 is used to reset the whole shelf. Some MGX Series can have maximum 32 slots in one shelf. 33 is used to reset the whole shelf. For MGX8220: INTEGER (1..17) For other selected MGX series: INTEGER (1..33)
OBJECT-TYPE    
  INTEGER 1..33  

shelfBkplnSerialNumDeprecated 1.3.6.1.4.1.351.110.1.1.1.1.3
This entry has been deprecated. It is available as the 9th entry in basisShelf. It is included here to prevent a hole in the shelfEntry table.
OBJECT-TYPE    
  INTEGER 1..4  

shelfFunctionModuleState 1.3.6.1.4.1.351.110.1.1.1.1.4
This object holds the status of a card in a particular shelf-slot. The hold state is applicable only to MGX8800 Platform. The Slave PXM assumes the hold state during PXM Upgrades. In this state the Slave PXM will be running a different fw but will be receiving all Standby updates(BRAM and Database). The description for the two new states is as follows: 'notResponding' - Response from the Service module has become slow probably due to overloading of CPU. No recovery action is required on user part. At present, this state is implemented only for RPM card. 'cardinit' - When the physical presence of card has been detected but the communication hasn't yet been established between the controller card (PXM) and Service Module.
OBJECT-TYPE    
  INTEGER nocard(1), standby(2), active(3), failed(4), selfTest(5), heldInReset(6), boot(7), mismatch(8), unknown(9), coreCardMismatch(10), blocked(11), reserved(12), hold(13), notResponding(14), cardinit(17)  

shelfFunctionModuleType 1.3.6.1.4.1.351.110.1.1.1.1.5
This object holds the type of a card in a particular shelf-slot.
OBJECT-TYPE    
  INTEGER other(1), asc(2), bnm-T3(10), bnm-E3(11), bnm-155(12), srm-4T1E1(20), srm-3T3(21), srme-1OC3(22), srme-1STS3(23), srme-NOBC(24), srm-3T3-NOBC(25), frsm-4T1(30), frsm-4E1(31), frsm-4T1-C(32), frsm-4E1-C(33), frsm-hs1(34), frsm-8T1(35), frsm-8E1(36), frsm-hs1b(37), ausm-4T1(40), ausm-4E1(41), ausm-8T1(50), ausm-8E1(51), ausmB-8T1(52), ausmB-8E1(53), cesm-4T1(60), cesm-4E1(61), imatm-T3T1(70), imatm-E3E1(71), imatmB-T1(72), imatmB-E1(73), frasm-8T1(80), cesm-8T1(90), cesm-8E1(91), bscsm-2(100), bscsm-4(101), atmt-8T1(110), atmt-8E1(111), frt-8T1(120), frt-8E1(121), frsm-2ct3(130), frsm-2t3(131), frsm-2e3(132), frsm-hs2(133), frsm-2t3b(134), frsm-2e3b(135), frsm-hs2b-hssi(136), frsm-hs2b-12In1(137), cesm-T3(140), cesm-E3(141), vism-8T1(150), vism-8E1(151), pxm1(1000), pxm1-2t3e3(1001), pxm1-4oc3(1002), pxm1-oc12(1003), rpm(2000), rpm-pr(2001)  

shelfFunctionModuleHoldReset 1.3.6.1.4.1.351.110.1.1.1.1.6
This object holds the card in a particular shelf-slot, in reset, If the object is set to holdInReset. If the object is set to doNotHold, then it only reset the card in the specified slot, if slot number is 17 then it'll reset the whole shelf.
OBJECT-TYPE    
  INTEGER doNotHold(1), holdInReset(2)  

shelfNumOfValidEntries 1.3.6.1.4.1.351.110.1.1.2
Number of rows in shelfTable. In some MGX series, it is equal to the number of slots in the shelf.
OBJECT-TYPE    
  INTEGER 0..64  

shelfNodeName 1.3.6.1.4.1.351.110.1.1.3
Has the node name of BASIS for MGX8220 only. For others NodeName supplied by PAR will be returned, A set on this MIB is not allowed. The NodeName of the shelf can be set using the PAR MIB.
OBJECT-TYPE    
  DisplayString Size(1..10)  

shelfDate 1.3.6.1.4.1.351.110.1.1.4
This object sets/gets the DATE. The syntax is mm/dd/yyyy
OBJECT-TYPE    
  DisplayString Size(10)  

shelfTime 1.3.6.1.4.1.351.110.1.1.5
This object sets/gets the TIME. The syntax is hh:mm:ss
OBJECT-TYPE    
  DisplayString Size(8)  

shelfTmZn 1.3.6.1.4.1.351.110.1.1.6
Object defines standard time. GMT for greenwich mean time, est for Eastern std time (USA EST). cst for Central std time (USA CST). mst for Mountain std time (USA MST). pst for Pacific std time (USA PST). edt for Eastern daylight time (USA EDT). cdt for Central daylight time (USA CDT). mdt for Mountain daylight time (USA MDT). pdt for Pacific daylight time (USA PDT). To define a std time that are not defined in here use the GMT and set the offset from the GMT in the shelfTmZnGMTOff object.
OBJECT-TYPE    
  INTEGER gmt(1), est(2), cst(3), mst(4), pst(5), edt(6), cdt(7), mdt(8), pdt(9)  

shelfTmZnGMTOff 1.3.6.1.4.1.351.110.1.1.7
This object contains the offset from greenwich mean time in hours, if configuring for std time in shelfTmZn object, set this object to 0. If configuring for non standard times use this object as an offset from the GMT.
OBJECT-TYPE    
  INTEGER -12..12  

shelfBkPlnType 1.3.6.1.4.1.351.110.1.1.8
This object contains the back plane type. The possible values are : 1 - For 336Mbps backplane 2 - For 1.2Gbps backplane 3 - For 45Gbps backplane
OBJECT-TYPE    
  INTEGER 1..10  

shelfBkplnSerialNum 1.3.6.1.4.1.351.110.1.1.9
A unique value for each shelf, entered in nvram by manf. The serial No. is on the non-volatile RAM on the backplane.
OBJECT-TYPE    
  DisplayString Size(0..11)  

statsMasterIpAddress 1.3.6.1.4.1.351.110.1.1.10
IP address of the Stats Master.
OBJECT-TYPE    
  IpAddress  

statsCollectionInterval 1.3.6.1.4.1.351.110.1.1.11
Statistics collection interval (in minutes).
OBJECT-TYPE    
  INTEGER 0..65535  

statsBucketInterval 1.3.6.1.4.1.351.110.1.1.12
Statistics bucket interval (in minutes).
OBJECT-TYPE    
  INTEGER 0..65535  

userName 1.3.6.1.4.1.351.110.1.1.13
username of the person logging in or logging out. used only in traps currently only limit to 12 chars
OBJECT-TYPE    
  DisplayString Size(1..20)  

shelfIntegratedAlarm 1.3.6.1.4.1.351.110.1.1.14
Alarm status of the shelf.An implementation may not support all the values. possible values are : clear (1) : shelf is not in alarm minor (2) : Indicates that a non-service affecting condition has occurred and that corrective action should be taken in order to prevent a more serious fault. major (3) : Indicates that a service affecting condition has occurred and urgent corrective action is required. critical (4) : Indicates that a service affecting condition has occurred and immediate corrective action is required. The definition for minor(2),major(3),critical(4) are taken from Bell Core document : GR-1248-CORE.
OBJECT-TYPE    
  INTEGER clear(1), minor(2), major(3), critical(4)  

shelfAlarmCardBitMap 1.3.6.1.4.1.351.110.1.1.15
default value is 0, none of the cards is in alarm bit position represents the card physical slot number which is in alarm
OBJECT-TYPE    
  INTEGER  

apsIpAddress 1.3.6.1.4.1.351.110.1.1.19
the IP address of the APS
OBJECT-TYPE    
  IpAddress  

redundantApsIpAddress 1.3.6.1.4.1.351.110.1.1.20
the IP address of the redundant APS
OBJECT-TYPE    
  IpAddress  

axisFeederTkNo 1.3.6.1.4.1.351.110.1.1.16
ASC creates its cell/frame file based on the feeder trunk number.
OBJECT-TYPE    
  INTEGER 0..65535  

axisSvcBillingColInterval 1.3.6.1.4.1.351.110.1.1.17
SVC billing collection interval (in 0, 15, 30 minute steps).
OBJECT-TYPE    
  INTEGER a0minutes(1), a15minutes(2), a30minutes(3)  

axisSvcBillingBucketInterval 1.3.6.1.4.1.351.110.1.1.18
SVC billing bucket interval (in 0, 5, 15, 30 minute steps).
OBJECT-TYPE    
  INTEGER a0minutes(1), a5minutes(2), a15minutes(3), a30minutes(4)  

axisSvcBilling 1.3.6.1.4.1.351.110.1.1.21
SVC billing feature.
OBJECT-TYPE    
  INTEGER enable(1), disable(2)  

shelfCBClkRateTable 1.3.6.1.4.1.351.110.1.1.22
The table has the Clock Rates of each Cell Bus
OBJECT-TYPE    
  SEQUENCE OF  
    ShelfCBClkRateEntry

shelfCBClkRateEntry 1.3.6.1.4.1.351.110.1.1.22.1
An entry for the Cell Bus
OBJECT-TYPE    
  ShelfCBClkRateEntry  

cBNum 1.3.6.1.4.1.351.110.1.1.22.1.1
The number (1-8) designation for the Cell Bus.
OBJECT-TYPE    
  INTEGER 1..8  

clkRate 1.3.6.1.4.1.351.110.1.1.22.1.2
The Cell Bus Clock Rate designation.
OBJECT-TYPE    
  INTEGER twentyOne-Mhz(1), fortyTwo-Mhz(2)  

shelfPowerSupplyVoltage 1.3.6.1.4.1.351.110.1.1.23
Power Supply voltage rating for some selected MGX Series. two-twenty (1): 220Volts AC. one-ten (2): 110Volts AC.
OBJECT-TYPE    
  INTEGER two-twenty(1), one-ten(2)  

smRedMapTable 1.3.6.1.4.1.351.110.1.3.1
The table has the redundancy map for a service module. This table is for configuring redundancy for service modules. This table might contain entries for Core-Card set,in some implementations.
OBJECT-TYPE    
  SEQUENCE OF  
    SmRedMapEntry

smRedMapEntry 1.3.6.1.4.1.351.110.1.3.1.1
An entry for module(Service Module,Core-Card set) redundancy. Some implementations might have entries for the core-card set. The entries for core-card set may not be added , modified or deleted. An entry has to be created in this table to configure Service Modules in redundant configuration. For a 1:1 (Y cable ) redundancy configuration,an entry exists for each redundant pair with redPrimarySlotNum as the index. For 1:N Redundancy configuration,an entry exists with different primary slot numbers(redPrimarySlot value) with the same secondary slot numbers(redSecondarySlot value).
OBJECT-TYPE    
  SmRedMapEntry  

redPrimarySlotNum 1.3.6.1.4.1.351.110.1.3.1.1.1
The index to the table. This is the slot number of the primary module in the redundant configuration. For MGX8850 Release 1.x,skip PXM slot 7,8,23,24, SRM slot 15,16,31,32. For MGX8220(Formerly known as AXIS), values 5-14 are supported. For systems, where the entries are created by the agent for the Core-Card set, the implied slot numbers are used for this object. The implied slot number values are depend on the system.
OBJECT-TYPE    
  INTEGER 1..32  

redRowStatus 1.3.6.1.4.1.351.110.1.3.1.1.2
This will add, delete or modify the redundancy Note that mod is NOT used but it is there for consistency. This object is for creating and deleting an entry in smRedMapTable. This object is set to add(1) to create an entry in the table. The values of redPrimarySlot and redSecondarySlot objects constitute the redundant Pairs. The slot numbers specified for redPrimarySlot and redSecondarySlot should be in the same half of the shelf for half-height service modules. This object is set to del(2) to delete an entry from the table.
OBJECT-TYPE    
  INTEGER add(1), del(2), mod(3)  

redPrimaryType 1.3.6.1.4.1.351.110.1.3.1.1.3
This object holds the type of the primary card Some of the card types are not supported in the table but they are defined here for consistency with the shelf card types.
OBJECT-TYPE    
  INTEGER other(1), bsc(2), aum-T3(10), tim(20), frsm-4T1(30), frsm-4E1(31), frsm-hs1(34), frsm-8T1(35), frsm-8E1(36), frsm-hs1b(37), ausm-4T1(40), ausm-4E1(41), ausm-8T1(50), ausm-8E1(51), ausmB-8T1(52), ausmB-8E1(53), cesm-4T1(60), cesm-4E1(61), imatm-T3T1(70), imatm-E3E1(71), imatmB-T1(72), imatmB-E1(73), frasm-8T1(80), cesm-8T1(90), cesm-8E1(91), bscsm-2(100), bscsm-4(101), frsm-2ct3(130), frsm-2t3(131), frsm-2e3(132), frsm-hs2(133), frsm-2t3b(134), frsm-2e3b(135), frsm-hs2b-hssi(136), frsm-hs2b-12In1(137), cesm-T3(140), cesm-E3(141), atmt-8T1(110), atmt-8E1(111), frt-8T1(120), frt-8E1(121), vism-8T1(150), vism-8E1(151), pxm1(1000), pxm1-2t3e3(1001), pxm1-4oc3(1002), pxm1-oc12(1003), rpm(2000), rpm-pr(2001)  

redPrimaryState 1.3.6.1.4.1.351.110.1.3.1.1.4
This object holds the state of the primary card Some of the states are not supported in the table but they are defined here for consistency with the cardStates. heldInReset, boot and unknown are not supported. Supported values are : nocard (1) : Module not present in the slot standby (2) : Module is in 'standby' state active (3) : Module is in 'active' state failed (4) : Module is in 'failed' state due to some condition selfTest(5) : Module is performing selftest mismatch(8) : Module is not compatible with the current configuration or a wrong type of back-card/line-module is plugged in. notResponding(14) : Response from the Service module has become slow probably due to overloading of CPU. No recovery action is required on user part. At present, this state is implemented only for RPM card. cardinit(17) : When the physical presence of card has been detected but the communication hasn't yet been established between the controller card (PXM) and Service Module.
OBJECT-TYPE    
  INTEGER nocard(1), standby(2), active(3), failed(4), selfTest(5), heldInReset(6), boot(7), mismatch(8), unknown(9), unusedCoreCardMisMatch(10), blocked(11), reserved(12), unusedHold(13), notResponding(14), cardinit(17)  

redSecondarySlotNum 1.3.6.1.4.1.351.110.1.3.1.1.5
This is the slot number of the redundant card for the primary card. SecondarySlotNum will be 0 when no secondary card covering the primary card. SecondarySlotNum in case of MGX8850 shloud be from the same half of the shelf. Like if primary card is in the top then secondary card also should be in the top and will be covered by top SRM.
OBJECT-TYPE    
  INTEGER 0..32  

redSecondaryType 1.3.6.1.4.1.351.110.1.3.1.1.6
This object holds the type of the redundant card Note that redSecondaryType is the same as redPrimaryType unless it is changed for a new service module. Some of the card types are not supported in the table but they are defined here for consistency with the shelf card types.
OBJECT-TYPE    
  INTEGER other(1), bsc(2), aum-T3(10), tim(20), frsm-4T1(30), frsm-4E1(31), frsm-hs1(34), frsm-8T1(35), frsm-8E1(36), frsm-hs1b(37), ausm-4T1(40), ausm-4E1(41), ausm-8T1(50), ausm-8E1(51), ausmB-8T1(52), ausmB-8E1(53), cesm-4T1(60), cesm-4E1(61), imatm-T3T1(70), imatm-E3E1(71), imatmB-T1(72), imatmB-E1(73), frasm-8T1(80), cesm-8T1(90), cesm-8E1(91), bscsm-2(100), bscsm-4(101), frsm-2ct3(130), frsm-2t3(131), frsm-2e3(132), frsm-hs2(133), frsm-2t3b(134), frsm-2e3b(135), frsm-hs2b-hssi(136), frsm-hs2b-12In1(137), cesm-T3(140), cesm-E3(141), atmt-8T1(110), atmt-8E1(111), frt-8T1(120), frt-8E1(121), vism-8T1(150), vism-8E1(151), pxm1(1000), pxm1-2t3e3(1001), pxm1-4oc3(1002), pxm1-oc12(1003), rpm(2000), rpm-pr(2001)  

redSecondaryState 1.3.6.1.4.1.351.110.1.3.1.1.7
This object holds the state of the secondary card Supported values are : nocard (1) : Module not present in the slot standby (2) : Module is in 'standby' state active (3) : Module is in 'active' state failed (4) : Module is in 'failed' state due to some condition selfTest(5) : Module is performing selftest mismatch(8) : Module is not compatible with the current configuration or a wrong type of back-card/line-module is plugged in. notResponding(14) : Response from the Service module has become slow probably due to overloading of CPU. No recovery action is required on user part. At present, this state is implemented only for RPM card. cardinit(17) : When the physical presence of card has been detected but the communication hasn't yet been established between the controller card (PXM) and Service Module.
OBJECT-TYPE    
  INTEGER nocard(1), standby(2), active(3), failed(4), selfTest(5), heldInReset(6), boot(7), mismatch(8), unknown(9), unusedCoreCardMisMatch(10), blocked(11), reserved(12), unusedHold(13), notResponding(14), cardinit(17)  

redType 1.3.6.1.4.1.351.110.1.3.1.1.8
This object describes the type of redundancy. The supported values are : yCable (1) : 1:1 (y cable) redundancy configuration. In this configuration,there is only one module which acts as the backup for the other. oneToN (2) : 1:N redundancy configuration. In this configuration, there is one module(secondary)which acts as the backup for other primary modules. There are multiple primary modules and one secondary module in this configuration. At any point of time, the secondary module is backup for only one failed primary module. If more than one primary module fails, then the failed primary modules are not covered by the secondary module.
OBJECT-TYPE    
  INTEGER yCable(1), oneToN(2)  

redCoveringSlot 1.3.6.1.4.1.351.110.1.3.1.1.9
This is the slot number of the primary card for which the secondary card is covering Note that redCoveringSlot is set to 0 when the primary is not being protected. If this primary card is being protected by its redundant card then this object would be the primary slot number.
OBJECT-TYPE    
  INTEGER 0..32  

redFeature 1.3.6.1.4.1.351.110.1.3.1.1.10
This is the feature of the primary card.
OBJECT-TYPE    
  INTEGER  

redLineModuleType 1.3.6.1.4.1.351.110.1.3.1.1.11
This is the line module type for the primary card. This object is NOT configurable and it only has the type of the current line module that is present in this slot. Note that the types that end with a -R are of redundant back card type which do not have a connector on the its faceplate and they are used for the redundant card but they can be plugged into the primary by mistake and this object would show its type.
OBJECT-TYPE    
  INTEGER lm-DB15-4T1(16), lm-DB15-4E1(17), lm-BNC-4E1(18), lm-DB15-4T1-R(19), lm-DB15-4E1-R(20), lm-BNC-4E1-R(21), lm-RJ48-8T1(22), lm-RJ48-8E1(23), lm-SMB-8E1(24), lm-RJ48-T3T1(25), lm-RJ48-E3E1(26), lm-RJ48-T3E1(27), lm-SMB-E3E1(28), lm-RJ48-E3T1(29), lm-SMB-T3E1(30), lm-T3E3-D(32), lm-T3E3-B(33), lm-RJ48-8T1-R(48), lm-RJ48-8E1-R(49), lm-SMB-8E1-R(50), lm-HS1-4X21(60), lm-HS1-3HSSI(61), lm-HS1-4V35(62), lm-12In1-8s(63)