CISCO-VISM-DSX0-MIB device MIB details by Stratacom
CISCO-VISM-DSX0-MIB file content
The SNMP protocol is used to for conveying information and commands between agents and managing entities. SNMP uses the User Datagram Protocol (UDP) as the transport protocol for passing data between managers and agents. The reasons for using UDP for SNMP are, firstly it has low overheads in comparison to TCP, which uses a 3-way hand shake for connection. Secondly, in congested networks, SNMP over TCP is a bad idea because TCP in order to maintain reliability will flood the network with retransmissions.
Management information (MIB) is represented as a collection of managed objects. These objects together form a virtual information base called MIB. An agent may implement many MIBs, but all agents must implement a particular MIB called MIB-II [16]. This standard defines variables for things such as interface statistics (interface speeds, MTU, octets sent, octets received, etc.) as well as various other things pertaining to the system itself (system location, system contact, etc.). The main goal of MIB-II is to provide general TCP/IP management information.
Use ActiveXperts Network Monitor 2024 to import vendor-specific MIB files, inclusing CISCO-VISM-DSX0-MIB.
Vendor: | Stratacom |
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Mib: | CISCO-VISM-DSX0-MIB [download] [view objects] |
Tool: | ActiveXperts Network Monitor 2024 [download] (ships with advanced SNMP/MIB tools) |
-- **************************************************************** -- ciscoVismDsx0MIB -- The MIB for DS0 interface configuration and -- Alarm Configuration for VISM(Voice Interface Module) -- in MGX products. -- -- March 2004, Rashmi Purandare -- -- Copyright (c) 2003,2004 by Cisco Systems, Inc. -- All rights reserved. -- **************************************************************** CISCO-VISM-DSX0-MIB DEFINITIONS ::= BEGIN IMPORTS MODULE-IDENTITY, OBJECT-TYPE, Integer32 FROM SNMPv2-SMI MODULE-COMPLIANCE, OBJECT-GROUP FROM SNMPv2-CONF DisplayString, TruthValue FROM SNMPv2-TC dsx0Vism, cardSpecific FROM BASIS-MIB ciscoWan FROM CISCOWAN-SMI; ciscoVismDsx0MIB MODULE-IDENTITY LAST-UPDATED "200403110000Z" ORGANIZATION "Cisco Systems, Inc." CONTACT-INFO " Cisco Systems Customer Service Postal: 170 W Tasman Drive San Jose, CA 95134 USA Tel: +1 800 553-NETS E-mail: cs-wanatm@cisco.com" DESCRIPTION "This MIB module contains ds0 configuration, Status and DS0 related information on a DS1 interface supported in VISM module. VISM is a Voice Interworking Service Module supported in MGX8250 and MGX8850 and other MGX products. Terminologies used: line : Same as the Physical Interface. DS1 line signifies DS1 interface." REVISION "200403110000Z" DESCRIPTION "Added - ds0Companding - ds0RxCasTransTblName - ds0TxCasTransTblName - ds0TxRxCasConfig - ciscoVismDsx0Compliance2 - ciscoVismDsx0ConfGroup2 Deprecated - ciscoVismDsx0Compliance - ciscoVismDsx0ConfGroup " REVISION "200308030000Z" DESCRIPTION "Added following tables: dsx0VismCnfTable dsx0VismChanMapTable These tables were defined in CISCO-WAN-AXIPOP-MIB (an unrelated mib) earlier. The relevant contents from CISCO-WAN-AXIPOP-MIB are moved and converted to SMIv2 and defined here." REVISION "200306170000Z" DESCRIPTION "Initial version of the MIB. The content of this MIB was originally available in SMIv1 version. The MIB has been converted to SMIv2 version and descriptions of some of the objects have been modified." ::= { ciscoWan 81 } vismDs0CardStats OBJECT IDENTIFIER ::= { cardSpecific 24 } -- ----------------------------------------------------------------- -- -- dsx0Vism group: -- -- This group contains the tables/objects necessary to configure -- the DS0s on DS1/E1 interfaces of VISM. -- ----------------------------------------------------------------- dsx0VismCnfTable OBJECT-TYPE SYNTAX SEQUENCE OF Dsx0VismCnfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "The entries in this table are created and deleted implicitly at the time of adding and deleting the line. For every DS0 on a line, one row will be created." ::= { dsx0Vism 1 } dsx0VismCnfEntry OBJECT-TYPE SYNTAX Dsx0VismCnfEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This ds0 table contains both cas related and non cas related parameters. The non cas related parameters are applicable accross all line signaling types, while the following cas related parameters are applicable only if the signaling type of the line(DS1/E1 Interface) to which this ds0 belongs is cas. ds0IdleCode ds0SeizedCode ds0ReceivedCode ds0CasVariantName ds0CasCadenceOnTime ds0CasCadenceOffTime ds0InsertLocalCas ds0LocalCasPattern ds0CasParameterSource ds0CasOnHookMinMakeTime ds0CasOffHookMinMakeTime ds0CasWinkMinMakeTime ds0CasWinkMaxMakeTime ds0CasWinkBreakTime ds0CasGlareTime ds0CasGaurdTime ds0CasDelayImmedStart ds0CasMinDelayDialTime ds0CasMinStartDialTime ds0CasFlashMinMakeTime ds0CasFlashMaxMakeTime ds0CasDirectionality ds0CasGlarePolicy ds0CasIncomingMgcpPackage ds0CasOutgoingMgcpPackage When the line signaling type changes from cas to non-cas and vice versa, then the user will be forced to delete endpoint/ccs channels associated with any ds0 on that line When an endpoint is deleted the ds0CasVariantName associated with that endpoint will also be implicitly deleted. Other than that none of the above cas related parameters are modified across line signaling type changes." INDEX { ds0IfIndex } ::= { dsx0VismCnfTable 1 } Dsx0VismCnfEntry ::= SEQUENCE { ds0IfIndex Integer32, ds0RobbedBitSignalling TruthValue, ds0IdleCode Integer32, ds0SeizedCode Integer32, ds0ReceivedCode Integer32, ds0TransmitCodesEnable TruthValue, ds0BundleMapped Integer32, ds0IfType INTEGER, ds0CasVariantName DisplayString, ds0CasCadenceOnTime Integer32, ds0CasCadenceOffTime Integer32, ds0InsertLocalCas TruthValue, ds0LocalCasPattern Integer32, ds0LoopbackCommand INTEGER, ds0CasParameterSource INTEGER, ds0CasOnHookMinMakeTime Integer32, ds0CasOffHookMinMakeTime Integer32, ds0CasWinkMinMakeTime Integer32, ds0CasWinkMaxMakeTime Integer32, ds0CasWinkBreakTime Integer32, ds0CasGlareTime Integer32, ds0CasGaurdTime Integer32, ds0CasDelayImmedStart Integer32, ds0SignalingType INTEGER, ds0CasMinDelayDialTime Integer32, ds0CasMinStartDialTime Integer32, ds0CasFlashMinMakeTime Integer32, ds0CasFlashMaxMakeTime Integer32, ds0CasDirectionality INTEGER, ds0CasGlarePolicy INTEGER, ds0CasIncomingMgcpPackage DisplayString, ds0CasOutgoingMgcpPackage DisplayString, ds0InputGain Integer32, ds0OutputAttenuation Integer32, ds0MusicThreshold Integer32, ds0SidPacket TruthValue, ds0ExecDiag TruthValue, ds0Companding INTEGER, ds0RxCasTransTblName DisplayString, ds0TxCasTransTblName DisplayString, ds0TxRxCasConfig INTEGER } ds0IfIndex OBJECT-TYPE SYNTAX Integer32 (1..248) MAX-ACCESS read-only STATUS current DESCRIPTION "This attribute defines the index for this table. This is derived from the following formula: index = 31 * (Ds1# - 1) + ds0# where : Ds1# - The T1/E1 line number in the range 1 - 8. ds0# - The ds0 channel number ranging from 1 to 24 for T1 and 1 to 31 for E1." ::= {dsx0VismCnfEntry 1} ds0RobbedBitSignalling OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object indicates if Robbed Bit Signalling is turned on or off for a given ds0. This only applies to DS0s on a DS1 link. For E1 links the value is always off (false). For T1 links, the default value is true if the line is configured for CAS signaling, the default value is false if the line is configured for CCS signaling or no signaling." ::= { dsx0VismCnfEntry 2 } ds0IdleCode OBJECT-TYPE SYNTAX Integer32(0..15) MAX-ACCESS read-write STATUS current DESCRIPTION "This object contains the code transmitted in the ABCD bits when the ds0 is not connected and ds0TransmitCodesEnable is enabled. The object is a bitmap and the various bit positions are: Bit 0 (value 1) D bit Bit 1 (value 2) C bit Bit 2 (value 4) B bit Bit 3 (value 8) A bit This object is useful for ds0 conditioning to be done if an alarm condition is detected from the network side. DS0 conditioning is implemented in the trunking application only. This object is not applicable in the CAS backhaul application. From vism 2.0.3 release onwards this object can be configured in any mode, but will be applicable only in trunking application and will be ignored in other applications." DEFVAL { 0 } ::= { dsx0VismCnfEntry 3 } ds0SeizedCode OBJECT-TYPE SYNTAX Integer32(0..15) MAX-ACCESS read-write STATUS current DESCRIPTION "This object contains the code transmitted in the ABCD bits when the ds0 is connected and ds0TransmitCodesEnable is enabled. The object is a bitmap and the various bit positions are: Bit 0 (value 1) D bit Bit 1 (value 2) C bit Bit 2 (value 4) B bit Bit 3 (value 8) A bit This object is useful for ds0 conditioning to be done if an alarm condition is detected from the network side. DS0 conditioning is implemented in the trunking application only. This object is not applicable in the CAS backhaul application. From vism 2.0.3 release onwards this object can be configured in any mode, but will be applicable only in trunking application and will be ignored in other applications." DEFVAL { 15 } ::= { dsx0VismCnfEntry 4 } ds0ReceivedCode OBJECT-TYPE SYNTAX Integer32(0..15) MAX-ACCESS read-only STATUS current DESCRIPTION "This object contains the code being received in the ABCD bits. The object is a bitmap and the various bit positions are: Bit 0 (value 1) D bit Bit 1 (value 2) C bit Bit 2 (value 4) B bit Bit 3 (value 8) A bit" ::= { dsx0VismCnfEntry 5 } ds0TransmitCodesEnable OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-only STATUS deprecated DESCRIPTION "This object determines if the idle and seized codes are transmitted. If the value of this object is true then the codes are transmitted. This object is not applicable in the CAS backhaul application." DEFVAL { true } ::= { dsx0VismCnfEntry 6 } ds0BundleMapped OBJECT-TYPE SYNTAX Integer32(-1..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates endpoint number as specified by mgEndpointNumber of endpoint table. If it is not associated with any endpoint, then it is set to -1. It should be noted that the endpoint is associated with bearer DS0s only. For signaling channel or DS0 as in the case of CCS channel, there is no endpoint number associated with it and the value is set to -1." ::= { dsx0VismCnfEntry 7 } ds0IfType OBJECT-TYPE SYNTAX INTEGER { bearer (81), ccs-signaling (63), unknown (1) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object indicates the interface type associated with the ds0. bearer(81) : ds0 ifType is considered as bearer if the DS0 is used for carrying voice traffic. ccs-signaling(63): ds0 ifType is considered as ccs-signaling, if the DS0 is configured as the D-channel." ::= { dsx0VismCnfEntry 8 } ds0CasVariantName OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) MAX-ACCESS read-write STATUS current DESCRIPTION "This object indicates the index to the CAS variant table. This parameter can be configured after configuring this ds0 as an endpoint. This object cannot be modified while connections exist on this endpoint. The CAS variant table is used for configuring the system parameters associated with various types of CAS signaling methods supported." ::= { dsx0VismCnfEntry 9 } ds0CasCadenceOnTime OBJECT-TYPE SYNTAX Integer32(2..9999) MAX-ACCESS read-write STATUS current DESCRIPTION "This attribute describes the duration during which the digit tone is generated. This object is applicable only for CAS backhaul applications. For trunking application it is not applicable. The value is expresssed in units of milliseconds. From vism2.0.3 release onwards this object can configured in any application, but will be applicable only in non-trunking applications and will be ignored in other applications." DEFVAL {75} ::= {dsx0VismCnfEntry 10 } ds0CasCadenceOffTime OBJECT-TYPE SYNTAX Integer32(0..9999) MAX-ACCESS read-write STATUS current DESCRIPTION "This attribute corresponds to the silence between the digit tones. This object is applicable only for CAS backhaul applications. For trunking application it is not applicable. The value is expresssed in units of milliseconds. From vism2.0.3 release onwards this object can configured in any application, but will be applicable only in non-trunking applications and will be ignored in other applications." DEFVAL {75} ::= {dsx0VismCnfEntry 11} ds0InsertLocalCas OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object tells the framer whether to force the cas bits to a value defined by ds0LocalCasPattern or not. If this is enabled the framer will force the cas (ABCD) bits to a value defined in ds0LocalCasPattern by ignorning the cas bits sent by DSP. Else the framer will transmit the cas bits sent by DSP. Setting of this object is not allowed when the signaling type of this line is cas. Also setting of this object is not allowed when the ds0LoopbackCommand is set to RemoteLoop, because in this situation we are suppose to loopback whatever comes from the TDM side and not force the cas bits to something else. This object can be set only if the line type is T1." DEFVAL {false} ::= {dsx0VismCnfEntry 12} ds0LocalCasPattern OBJECT-TYPE SYNTAX Integer32(0..15) MAX-ACCESS read-write STATUS current DESCRIPTION "This object contains the pattern that the cas (ABCD) bits will have when ds0InsertLocalCas is enabled." DEFVAL{0} ::={dsx0VismCnfEntry 13} ds0LoopbackCommand OBJECT-TYPE SYNTAX INTEGER { noLoop (1), remoteLoop (2), localLoop (3) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object represents the loopback type at the ds0 level.The ds0 configuration overrides the line level configuration. NoLoop There is no loopback on this ds0. LocalLoop The data received from the ATM side is loopedback to the ATM side. RemoteLoop The data from the TDM side is looped back to the TDM side. Setting of this object to RemoteLoop will not be allowed when insert local cas for this ds0 (ds0InsertLocalCas object) is enabled as we are suppose to force the cas bits to the pattern configured in ds0LocalCasPattern, and not do loopback on the TDM side." DEFVAL{noLoop} ::= {dsx0VismCnfEntry 14} ds0CasParameterSource OBJECT-TYPE SYNTAX INTEGER { casAppl (1), mibValue (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object indicates VISM whether to read the cas related timer parameters from the casAppl file downloaded for that endpoint or to read from this mib. This gives the flexibility of configuring different cas related timer values for different endpoints associated with the same cas variant. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint." DEFVAL{casAppl} ::= { dsx0VismCnfEntry 15 } ds0CasOnHookMinMakeTime OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "This indicates the the minimum time in msecs for which the on hook pattern should be present in order for it to be recognised else the signal will be considered to be a spurious signal and will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint. This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000" DEFVAL {300} ::= { dsx0VismCnfEntry 16 } ds0CasOffHookMinMakeTime OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "This indicates the minimum time in msecs for which the off hook pattern should be present in order for it to be recognised else the signal will be considered to be a spurious signal and will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000" DEFVAL {20} ::= { dsx0VismCnfEntry 17 } ds0CasWinkMinMakeTime OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "The wink consists of off-hook A-B bit pattern, followed by on-hook A-B bit pattern in timed sequence. This object indicates the minimum duration for which the off-hook part of wink signal should persist. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000." DEFVAL {100} ::= { dsx0VismCnfEntry 18 } ds0CasWinkMaxMakeTime OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "millisesconds" MAX-ACCESS read-write STATUS current DESCRIPTION "The wink consists of off-hook A-B bit pattern, followed by on-hook A-B bit pattern in timed sequence. This object indicates the maximum duration for which the off-hook part of the wink signal should persist, if it exceeds this time limit the signal will be considered to be spurious and will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..3000. The value for this object should be greater than or equal to ds0CasWinkMinMakeTime" DEFVAL {350} ::= { dsx0VismCnfEntry 19 } ds0CasWinkBreakTime OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "The wink consists of off-hook A-B bit pattern, followed by on-hook A-B bit pattern in timed sequence. This object indicates the minimum duration for which the on-hook part of wink signal should persist. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000." DEFVAL {70} ::= { dsx0VismCnfEntry 20 } ds0CasGlareTime OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "When the terminating gateway receives off Hook event from the Call Agent it starts the timer specified in this object to see if the terminating side is also trying to originate a call. If this is true, we have a 'glare' condition. The way glare is resolved is thru this user programmable timer, we will not honor any off hook events from the originating PBX during this time. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non CAS. For a CAS line this object can only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..10000." DEFVAL {100} ::= { dsx0VismCnfEntry 21 } ds0CasGaurdTime OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "The gaurd time is the duration between the end of one call and the start of next call. This object specifies what should be such a duration. All state changes from the PBX are ignored for this duration. After receiving DLCX, this timer will be started for a period as configured in this object, and will not honor any off-hook events before the expiration of this timer. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000." DEFVAL {800} ::= { dsx0VismCnfEntry 22 } ds0CasDelayImmedStart OBJECT-TYPE SYNTAX Integer32 (0..65535) UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "This timer indicates the time that VISM should wait before outpulsing digits to the PBX after sending an off hook event. This applies only to immediate start protocol. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non cas. For a cas line this object CAN only be configured only after associating this ds0 with an endpoint. This object will be applicable if ds0CasParameterSource has a value of mibValue (2). The allowed range for this object is 10..1000." DEFVAL {500} ::= { dsx0VismCnfEntry 23 } ds0SignalingType OBJECT-TYPE SYNTAX INTEGER { cas (1), ccs (2), none (3) } MAX-ACCESS read-only STATUS current DESCRIPTION "This attribute indicates the type of signaling on the line to which this ds0 belongs. CAS - Channel Associated Signaling CCS - Common Channel Signaling none - no signaling used. This object will be implicitly set to line signaling type every time it changes." DEFVAL { none } ::= {dsx0VismCnfEntry 24} ds0CasMinDelayDialTime OBJECT-TYPE SYNTAX Integer32 UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "This is an object for an E & M signaling protocol like wink-start for this ds0. The difference is that the address-control signal is different from wink. The originating VISM, on receiving a seize (AB=11) from the PBX, responds by sending the delay-dial (AB=11) signal back to the PBX. When the originating VISM is ready to collect the digits, it sends a start-dial (AB=00) signal. This operation is symmetric. So the terminating VISM, on seizing a trunk, should receive AB=11 (as an ack that the trunk is operational). Subsequently, when it receives the start signal (AB=00) from the connected PBX, it should outpulse the digits. The rest of the operation is similiar to wink-start. The allowed range for this object is 100..1000 with units in milliseconds. In delay-dial operation, the outgoing interface (this interface), after sending a seize signal (AB = 11), waits for the delay-dial signal (AB = 11). The delay-dial signal, apart from acknowledging the seize signal, tells this interface that the connected equipment is not ready for the digits yet. This object specifies the time in milliseconds, after which incoming AB=11 will be interpreted by this interface as the delay-dial signal." REFERENCE "1. Generic Requirements, GR-506-CORE, Issue 1, June 1996, Revision 1, November 1996, 2. LSSGR: Signaling for Analog Interfaces Section 11.2.3 is about 'Delay-Dial Operation' (in general) In particular, section 11.2.3.1 ([R11-21] is about these timing requirements." DEFVAL {100} ::= {dsx0VismCnfEntry 25} ds0CasMinStartDialTime OBJECT-TYPE SYNTAX Integer32 UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "This is an object for an E & M signaling protocol like wink-start for this ds0. The difference is that the address-control signal is different from wink. The originating VISM, on receiving a seize (AB=11) from the PBX, responds by sending the delay-dial (AB=11) signal back to the PBX. When the originating VISM is ready to collect the digits, it sends a start-dial (AB=00) signal. This operation is symmetric. So the terminating VISM, on seizing a trunk, should receive AB=11 (as an ack that the trunk is operational). Subsequently, when it receives the start signal (AB=00) from the connected PBX, it should outpulse the digits. The rest of the operation is similiar to wink-start. The allowed range for this object is 70..1000. In delay-dial operation, the outgoing interface (this interface), after receiving a delay-dial signal (AB=11) from the connected equipment, waits for the start-dial signal (AB = 00) before sending the digits to the connected equipment. The start-dial signal tells this interface that the connected equipment is ready for the digits. This object specifies the time in milliseconds, after which incoming AB=00 will be interpreted by this interface as the start dial signal." REFERENCE "1. Generic Requirements, GR-506-CORE, Issue 1, June 1996, Revision 1, November 1996, 2. LSSGR: Signaling for Analog Interfaces Section 11.2.3 is about 'Delay-Dial Operation' (in general) In particular, section 11.2.3.1 ([R11-22] and [R11-23]) is about these timing requirements." DEFVAL {70} ::= {dsx0VismCnfEntry 26} ds0CasFlashMinMakeTime OBJECT-TYPE SYNTAX Integer32 UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Flash is a CAS signal generated by users to request special services. The interpretation of the flash depends on the protocol in use. The signal itself is an on-hook followed by an off-hook. This object specifies the minimum duration for the signal to be recognized as a flash by VISM. This duration, expressed in milliseconds, is defined as the elapsed time between the off-to-on-hook transition followed by the on-to-off-hook transition. If the on-hook duration is shorter than the value of this object, the signal will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. If no endpoint was added for this Ds0, any configuration attempt will be rejected. This object will be applicable if ds0CasParameterSource has a value of mibvalue (2). The allowed range for this object is 50..1550." DEFVAL {300} ::= {dsx0VismCnfEntry 27} ds0CasFlashMaxMakeTime OBJECT-TYPE SYNTAX Integer32 UNITS "milliseconds" MAX-ACCESS read-write STATUS current DESCRIPTION "Flash is a CAS signal generated by users to request special services. The interpretation of the flash depends on the protocol in use. The signal itself is an on-hook followed by an off-hook. This object specifies the maximum duration for the signal to be recognized as a flash by VISM. This duration, expressed in milliseconds, is defined as the elapsed time between the off-to-on-hook transition followed by the on-to-off-hook transition. If the on-hook duration is longer than the value of this object, the signal will be ignored. This object cannot be configured if the signaling type for the line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. This means that if no endpoint was added for this Ds0, any configuration set attempt will be rejected, but any get will be allowed. This object will be applicable if ds0CasParameterSource has a value of 'mibvalue'(2). The allowed range for this object is 50..1550. The value of this object should be greater than or equal to ds0CasFlashMinMakeTime." DEFVAL {1400} ::= {dsx0VismCnfEntry 28} ds0CasDirectionality OBJECT-TYPE SYNTAX INTEGER { bidirectional (1), incoming (2), outgoing (3) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies the direction in which CAS calls will be accepted on this endpoint. If this object is set to bidirectional(1): VISM can send and receive calls on this endpoint incoming(2) : calls from the connected PBX will be accepted by VISM on this endpoint. outgoing(3) : VISM will send calls towards the connected PBX and not accept calls from the PBX. The main difference between bidirectional and one-way trunks is the occurrence of glare. On bidirectional trunks, since both VISM and the connected PBX can seize the endpoint at approximately the same time, glare (dual seizure) is likely to occur. The protocol assigned to a bidirectional endpoint should be capable of detecting and resolving glare. Wink-start and delay-dial are examples of protocols capable of glare handling and immediate-start, ground-start and loop-start, of those that cannot. This object cannot be configured if the signaling type for the DS1 line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. This means that if no endpoint was added for this Ds0, any configuration set attempt will be rejected, but any get will be allowed." DEFVAL {bidirectional} ::= {dsx0VismCnfEntry 29} ds0CasGlarePolicy OBJECT-TYPE SYNTAX INTEGER { controlling (1), releasing (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies how a bidirectional endpoint should resolve glare. This object will be used only if dsx0VismDirectionality of the endpoint is 'bidirectional'. When glare is detected, if this object is set to controlling, VISM will wait for the connected PBX to assert on-hook. When the connected PBX goes on-hook, VISM proceeds to dial the numbers out waits for answer. If this object is set to releasing(2), VISM indicates the glare situation to the Call Agent (as specified by the control protocol), prepares to collect digits from the PBX and asserts on hook. The incoming call should go through. If the CAS protocol assigned to the endpoint cannot detect glare or if it cannot resolve glare according to the policy provisioned via this object, this object will not be used. This object cannot be configured if the signaling type for the DS1 line to which this ds0 belongs is non-CAS. For a CAS line, this object can only be configured after associating this ds0 with an endpoint. This means that if no endpoint was added for this Ds0, any configuration set attempt will be rejected, but any get will be allowed." DEFVAL {controlling} ::= {dsx0VismCnfEntry 30} ds0CasIncomingMgcpPackage OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) MAX-ACCESS read-write STATUS current DESCRIPTION "This object, in conjunction with the card level persistentXgcpEventsTable, controls how persistent CAS events (like seize, disconnect, etc) related to an incoming call observed on this DS0 are notified to the Media Gateway Controller (MGC). At the card level, the persistentXgcpEventsTable allows MGCP package-event combinations to be configured as persistent. For example, when L/hd is added to the persistentXgcpEventsTable, the hook-down event in line package will be notified to the MGC every time it is observed without the MGC requesting for that event. Since the same CAS event can map to different MGCP events under different packages (eg. the CAS event 'seize' can be 'sup' in 'MS' package and 'hd' in 'BL' package) and different lines could be running different packages at a given time, there needs to be a per-DS0 object indicating what package should be used while notifying CAS events observed on that DS0. This object, ds0CasIncomingMgcpPackage specifies the package that will be used while notifying CAS events observed on an incoming call on this DS0. This object can be set to a package name from xgcpCapabilityPackageTable whose xgcpCapabilityPackageEnable is true or the string 'basic' indicating that one of the basic packages in that table (G, T, L, H, R, D or M) to which the observed event belongs can be used. This object is used only if the protocol is MGCP. If the notification is in response to an RQNT, VISM uses the package (and event name) that the MGC used to request the event regardless what this object is set to. In the absence of an RQNT, the observed CAS event is encoded according to the package that this object specifies. A 'seize' observed on the CAS signaling channel on this DS0, for example is encoded as 'ms/sup' if this object is set to 'ms', 'bl/hd' if this object is set to 'bl' or as 'L/hd' if this object is set to 'basic'. If this package/event is present in persistentXgcpEventsTable, a notification is generated, otherwise this event is discarded. An attempt to set this object to a package name whose xgcpCapabilityPackageEnable is false in xgcpCapabilityPackageTable will fail. This object is used only if the ds0CasDirectionality is set to 'bidirectional' or 'incoming'." ::= {dsx0VismCnfEntry 31} ds0CasOutgoingMgcpPackage OBJECT-TYPE SYNTAX DisplayString (SIZE(0..255)) MAX-ACCESS read-write STATUS current DESCRIPTION "This object, in conjunction with the card level persistentXgcpEventsTable, controls how persistent CAS events (like answer, disconnect, etc) related to an outgoing call observed on this DS0 are notified to the Media Gateway Controller (MGC). At the card level, the persistentXgcpEventsTable allows MGCP package-event combinations to be configured as persistent. For example, when L/hd is added to the persistentXgcpEventsTable, the hook-down event in line package will be notified to the MGC every time it is observed without the MGC requesting for that event. Since the same CAS event can map to different MGCP events under different packages (eg. the CAS event 'answer' can be 'ans' in 'MS' package and 'hd' in 'BL' package) and different lines could be running different packages at a given time, there needs to be a per-DS0 object indicating what package should be used while notifying CAS events observed on that DS0. This object, ds0CasOutgoingMgcpPackage specifies the package that will be used while notifying CAS events observed on an outgoing call on this DS0. This object can be set to a package name from xgcpCapabilityPackageTable whose xgcpCapabilityPackageEnable is true or the string 'basic' indicating that one of the basic packages in that table (G, T, L, H, R, D or M) to which the observed event belongs can be used. This object is used only if the protocol is MGCP. If the notification is in response to an RQNT, VISM uses the package (and event name) that the MGC used to request the event regardless what this object is set to. In the absence of an RQNT, the observed CAS event is encoded according to the package that this object specifies. An answer observed on the CAS signaling channel on this DS0, for example is encoded as 'ms/ans' if this object is set to 'ms', 'bl/hd' if this object is set to 'bl' or as 'L/hd' if this object is set to 'basic'. If this package/event is present in persistentXgcpEventsTable, a notification is generated, otherwise this event is discarded. An attempt to set this object to a package name whose xgcpCapabilityPackageEnable is false in xgcpCapabilityPackageTable will fail. This object is used only if the ds0CasDirectionality is set to 'bidirectional' or 'outgoing'." ::= {dsx0VismCnfEntry 32} ds0InputGain OBJECT-TYPE SYNTAX Integer32 (-6..14) UNITS "dB - decibel" MAX-ACCESS read-write STATUS current DESCRIPTION "This object indicates the amount of gain inserted at the receiver side of a ds0 channel, in dB (decibel) units. The default value of this object is 0 dB. The input gain settings only define a gain/loss relative to the 0 dB setting. The absolute loss at the 0 dB setting could be implementation dependent based on the desired network loss plan. This object can be set when there are active call going on, and in this case the new gain will take effective immediately. It can also be set at both unbound endpoints and bound but non-active endpoints." DEFVAL { 0 } ::= {dsx0VismCnfEntry 33} ds0OutputAttenuation OBJECT-TYPE SYNTAX Integer32 (0..14) UNITS "dB - decibel" MAX-ACCESS read-write STATUS current DESCRIPTION "This object contains the amount of attenuation inserted at the transmit side of a ds0 channel, in dB (decibel) units. The output attenuation settings only define a loss relative to 0 dB setting. The absolute loss at the 0 dB setting could be implementation dependent based on the desired network loss plan. This object can be set when there are active call going on, and in this case the new gain will take effective immediately. It can also be set at both unbound endpoints and bound but non-active endpoints. " DEFVAL { 0 } ::= {dsx0VismCnfEntry 34} ds0MusicThreshold OBJECT-TYPE SYNTAX Integer32 (-70..-30) MAX-ACCESS read-write STATUS current DESCRIPTION "The indicates Music On Hold Threshold in dBm. Based on this value, VISM DSP will interprete the incoming signal from TDM side as either silence or voice, and consequently turn on or off VAD. This object can be set when there is active call going on at the ds0 channel, and at both unbound endpoints and bound non-active endpoints. " DEFVAL { -38 } ::= {dsx0VismCnfEntry 35} ds0SidPacket OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object specifies whether the Silence Indication Detection (SID) packet should be generated when silence suppression is in active mode. The SID packet indicates the noise level during silence, which is used as a reference to generate comfort noise on the other side of the gateway. This object is used for VoIP only." DEFVAL {true} ::= {dsx0VismCnfEntry 36} ds0ExecDiag OBJECT-TYPE SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION "This object indicates the status of DSP channel level RAS on the VISM. When it is enable VISM will configure the DSP through HOST-DSP message on the individual channel." DEFVAL{true} ::= { dsx0VismCnfEntry 37 } ds0Companding OBJECT-TYPE SYNTAX INTEGER { uLaw (1), aLaw (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object indicates whether input from / output to the TDM side of DS0 is u-law or a-law stream. The setting of this object will not take effect unless the corresponding DSP channel is closed and re-opened." ::= { dsx0VismCnfEntry 38 } ds0RxCasTransTblName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "This object identifies the template name 'cvcmCasTemplateName' in the CISCO-VOICE-CAS-MODULE-MIB associated with the receive signaling channel on a DS0." ::= { dsx0VismCnfEntry 39 } ds0TxCasTransTblName OBJECT-TYPE SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION "This object identifies the template name 'cvcmCasTemplateName' in the CISCO-VOICE-CAS-MODULE-MIB associated with the transmit signaling channel on a DS0." ::= { dsx0VismCnfEntry 40 } ds0TxRxCasConfig OBJECT-TYPE SYNTAX INTEGER { transmit (1), receive (2), bidirectional (3), none (4) } MAX-ACCESS read-write STATUS current DESCRIPTION "This object indicates configuration on a DS0. 'transmit'- Configure transmit signaling channel on the DSP with user defined CAS pattern to translate incoming ABCD CAS bits from the TDM 'receive'- Configure receive signaling channel on the DSP with user defined CAS pattern to translate the outgoing ABCD CAS bits on the TDM 'bidirectional'- Configure transmit and receive signaling channel on the DSP with user defined CAS pattern to translate incoming and outgoing ABCD CAS bits on the TDM 'none'- Signaling channel is using default ABCD CAS pattern specified by the DSP." ::= { dsx0VismCnfEntry 41 } ------------------------------------------------------------------- -- -- dsx0VismChanMapTable -- This table defines the mapping between the Ds0 and the ifIndex -- used to index the table dsx0VismCnfTable. ------------------------------------------------------------------- dsx0VismChanMapTable OBJECT-TYPE SYNTAX SEQUENCE OF Dsx0VismChanMapEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table is created implicitly at the time of creating and deleting the endpoints. This table provides the mapping information from a line and channel to obtain an index for that channel." ::= { dsx0Vism 2 } dsx0VismChanMapEntry OBJECT-TYPE SYNTAX Dsx0VismChanMapEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "Each entry represents the mapping from dsx1Line number to ds0 channel Number and provides the ifIndex mapping." INDEX { dsx1LineNum, ds0ChanNum } ::= { dsx0VismChanMapTable 1 } Dsx0VismChanMapEntry ::= SEQUENCE { dsx1LineNum Integer32, ds0ChanNum Integer32, ds0ChanMapIfIndex Integer32 } dsx1LineNum OBJECT-TYPE SYNTAX Integer32 (1..8) MAX-ACCESS read-only STATUS current DESCRIPTION "This object describes the physical line number on VISM card." ::= { dsx0VismChanMapEntry 1 } ds0ChanNum OBJECT-TYPE SYNTAX Integer32 (1..31) MAX-ACCESS read-only STATUS current DESCRIPTION "This object describes the ds0 number or channel number within a T1 or E1 line. The valid channel numbers are 1 to 24 for T1 line and 1 - 31 for E1 line." ::= { dsx0VismChanMapEntry 2 } ds0ChanMapIfIndex OBJECT-TYPE SYNTAX Integer32(1..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This object describes the ifIndex derived based on the line number and the channel number within the line according to the formula: IfIndex = 31 * (Ds1# - 1) + ds0# where : Ds1# - The T1/E1 line number in the range 1 - 8. ds0# - The ds0 channel number ranging from 1 to 24 for T1 and 1 to 31 for E1." ::= { dsx0VismChanMapEntry 3 } vismTotalDs0Count OBJECT-TYPE SYNTAX Integer32(0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the total number of ds0s configured the card." DEFVAL { 0 } ::= { vismDs0CardStats 1 } vismFreeDs0Count OBJECT-TYPE SYNTAX Integer32(0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the number of free ds0s on the card." DEFVAL { 0 } ::= { vismDs0CardStats 2 } vismActiveDs0Count OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the number of active ds0s on the card." ::= { vismDs0CardStats 3 } vismBlockDs0Count OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the number of blocked ds0s on the card." DEFVAL { 0 } ::= { vismDs0CardStats 4 } vismActiveHighWaterMark OBJECT-TYPE SYNTAX Integer32 (0..2147483647) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the high water mark number of ds0s that were active simultaneously on the card." DEFVAL { 0 } ::= { vismDs0CardStats 5 } vismDs0CardStatsClrButton OBJECT-TYPE SYNTAX INTEGER { noaction (1), clear (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable is used to clear all the vism Ds0 card stats. 1 = No action, 2 = Clear alarm" ::= { vismDs0CardStats 6 } -- -- VISM DS0 Line Stats table -- vismDs0LineStatsTable OBJECT-TYPE SYNTAX SEQUENCE OF VismDs0LineStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains information on DS0s configured on DS1 interface." ::= { dsx0Vism 3 } vismDs0LineStatsEntry OBJECT-TYPE SYNTAX VismDs0LineStatsEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the vismDs0LineStatsTable. Each entry contains following information applicable for each DS1 interface: Total DS0s Free DS0s Active DS0s Blocked DS0s." INDEX { ds0LineNum } ::= { vismDs0LineStatsTable 1 } VismDs0LineStatsEntry ::= SEQUENCE { ds0LineNum Integer32, lineTotalDs0Count Integer32, lineFreeDs0Count Integer32, lineActiveDs0Count Integer32, lineBlockDs0Count Integer32, lineActiveHighWaterMark Integer32, lineStatsClrButton INTEGER } ds0LineNum OBJECT-TYPE SYNTAX Integer32 (1..8) MAX-ACCESS read-only STATUS current DESCRIPTION "This object is the identifier of a DS1/E1 Interface on a managed device. The number of entries is 8 in a VISM and VISM-PR card." ::= { vismDs0LineStatsEntry 1 } lineTotalDs0Count OBJECT-TYPE SYNTAX Integer32(0..31) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the total number of ds0s configured on this DS1 line." DEFVAL { 0 } ::= { vismDs0LineStatsEntry 2 } lineFreeDs0Count OBJECT-TYPE SYNTAX Integer32(0..31) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the total number of free ds0s on this DS1 line." DEFVAL { 0 } ::= { vismDs0LineStatsEntry 3 } lineActiveDs0Count OBJECT-TYPE SYNTAX Integer32(0..31) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the number of active ds0s on this line." DEFVAL { 0 } ::= { vismDs0LineStatsEntry 4 } lineBlockDs0Count OBJECT-TYPE SYNTAX Integer32(0..31) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the number of blocked ds0s on this line." DEFVAL { 0 } ::= { vismDs0LineStatsEntry 5 } lineActiveHighWaterMark OBJECT-TYPE SYNTAX Integer32(0..31) MAX-ACCESS read-only STATUS current DESCRIPTION "This is the high water mark number of ds0s that were active simultaneously on the line." DEFVAL { 0 } ::= { vismDs0LineStatsEntry 6 } lineStatsClrButton OBJECT-TYPE SYNTAX INTEGER { noaction (1), clear (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable is used to clear the vism Ds0 line status entry. 1 = No action, 2 = Clear alarm." ::= { vismDs0LineStatsEntry 7 } -- -- VISM DS0 Status table -- vismDs0StatusTable OBJECT-TYPE SYNTAX SEQUENCE OF VismDs0StatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "This table contains ds0 status information on a DS1 interface." ::= { dsx0Vism 4 } vismDs0StatusEntry OBJECT-TYPE SYNTAX VismDs0StatusEntry MAX-ACCESS not-accessible STATUS current DESCRIPTION "An entry in the Ds0 Status Table." INDEX { ds0LineNumber, ds0Number } ::= { vismDs0StatusTable 1 } VismDs0StatusEntry ::= SEQUENCE { ds0LineNumber Integer32, ds0Number Integer32, ds0Status INTEGER, ds0StatusClrButton INTEGER } ds0LineNumber OBJECT-TYPE SYNTAX Integer32 (1..8) MAX-ACCESS read-only STATUS current DESCRIPTION "This object is the identifier of a DS1/E1 Interface on a managed device. The number of entries is 8 in a VISM and VISM-PR card." ::= { vismDs0StatusEntry 1 } ds0Number OBJECT-TYPE SYNTAX Integer32 (1..31) MAX-ACCESS read-only STATUS current DESCRIPTION "This object identifies the ds0 number on a DS1 interface." ::= { vismDs0StatusEntry 2 } ds0Status OBJECT-TYPE SYNTAX INTEGER { idle (1), busy (2), fault (3), block (4), unknown (5) } MAX-ACCESS read-only STATUS current DESCRIPTION "This object is the status of the ds0. idle - This ds0 is in idle state. busy - This ds0 is in busy state. Ds0 enters this state when it is in the process of being setup for a call. fault - This ds0 is in fault(alarm) state. block - This ds0 is in block state. Ds0 can enter this state when the line or gateway is commissioned out of service." DEFVAL { unknown } ::= { vismDs0StatusEntry 3 } ds0StatusClrButton OBJECT-TYPE SYNTAX INTEGER { noaction (1), clear (2) } MAX-ACCESS read-write STATUS current DESCRIPTION "This variable is used to clear the vism Ds0 status. 1 = No action, 2 = Clear alarm" ::= { vismDs0StatusEntry 4 } -- conformance information ciscoVismDsx0MIBConformance OBJECT IDENTIFIER ::= { ciscoVismDsx0MIB 2 } ciscoVismDsx0MIBGroups OBJECT IDENTIFIER ::= { ciscoVismDsx0MIBConformance 1 } ciscoVismDsx0MIBCompliances OBJECT IDENTIFIER ::= { ciscoVismDsx0MIBConformance 2 } -- compliance statements ciscoVismDsx0Compliance MODULE-COMPLIANCE STATUS deprecated DESCRIPTION "The compliance statement for objects related to DS0 mib objects." MODULE -- this module MANDATORY-GROUPS { ciscoVismDsx0LineStatsGroup, ciscoVismDsx0StatusGroup, ciscoVismDsx0ConfGroup, ciscoVismDsx0ChanMapGroup, ciscoVismCardStatsGroup } ::= { ciscoVismDsx0MIBCompliances 1 } ciscoVismDsx0Compliance2 MODULE-COMPLIANCE STATUS current DESCRIPTION "The compliance statement for objects related to DS0 mib objects." MODULE -- this module MANDATORY-GROUPS { ciscoVismDsx0LineStatsGroup, ciscoVismDsx0StatusGroup, ciscoVismDsx0ConfGroup2, ciscoVismDsx0ChanMapGroup, ciscoVismCardStatsGroup } ::= { ciscoVismDsx0MIBCompliances 2 } ciscoVismCardStatsGroup OBJECT-GROUP OBJECTS { vismTotalDs0Count, vismFreeDs0Count, vismActiveDs0Count, vismBlockDs0Count, vismActiveHighWaterMark, vismDs0CardStatsClrButton } STATUS current DESCRIPTION "The collection of objects used for DS0 Statistics applicable to VISM Module." ::= { ciscoVismDsx0MIBGroups 1 } ciscoVismDsx0LineStatsGroup OBJECT-GROUP OBJECTS { ds0LineNum, lineTotalDs0Count, lineFreeDs0Count, lineActiveDs0Count, lineBlockDs0Count, lineActiveHighWaterMark, lineStatsClrButton } STATUS current DESCRIPTION "The collection of objects used for DS0 Line statistics." ::= { ciscoVismDsx0MIBGroups 2 } ciscoVismDsx0StatusGroup OBJECT-GROUP OBJECTS { ds0LineNumber, ds0Number, ds0Status, ds0StatusClrButton } STATUS current DESCRIPTION "The collection of objects used for DS0 status." ::= { ciscoVismDsx0MIBGroups 3 } ciscoVismDsx0ConfGroup OBJECT-GROUP OBJECTS { ds0IfIndex, ds0RobbedBitSignalling, ds0IdleCode, ds0SeizedCode, ds0ReceivedCode, ds0BundleMapped, ds0IfType, ds0CasVariantName, ds0CasCadenceOnTime , ds0CasCadenceOffTime, ds0InsertLocalCas, ds0LocalCasPattern, ds0LoopbackCommand, ds0CasParameterSource, ds0CasOnHookMinMakeTime, ds0CasOffHookMinMakeTime, ds0CasWinkMinMakeTime, ds0CasWinkMaxMakeTime, ds0CasWinkBreakTime, ds0CasGlareTime, ds0CasGaurdTime, ds0CasDelayImmedStart, ds0SignalingType, ds0CasMinDelayDialTime, ds0CasMinStartDialTime , ds0CasFlashMinMakeTime, ds0CasFlashMaxMakeTime, ds0CasDirectionality, ds0CasGlarePolicy, ds0CasIncomingMgcpPackage, ds0CasOutgoingMgcpPackage, ds0InputGain, ds0OutputAttenuation, ds0MusicThreshold, ds0SidPacket, ds0ExecDiag } STATUS deprecated DESCRIPTION "The collection of objects used for DS0 configuration in VISM module." ::= { ciscoVismDsx0MIBGroups 4 } ciscoVismDsx0ConfGroup2 OBJECT-GROUP OBJECTS { ds0IfIndex, ds0RobbedBitSignalling, ds0IdleCode, ds0SeizedCode, ds0ReceivedCode, ds0BundleMapped, ds0IfType, ds0CasVariantName, ds0CasCadenceOnTime , ds0CasCadenceOffTime, ds0InsertLocalCas, ds0LocalCasPattern, ds0LoopbackCommand, ds0CasParameterSource, ds0CasOnHookMinMakeTime, ds0CasOffHookMinMakeTime, ds0CasWinkMinMakeTime, ds0CasWinkMaxMakeTime, ds0CasWinkBreakTime, ds0CasGlareTime, ds0CasGaurdTime, ds0CasDelayImmedStart, ds0SignalingType, ds0CasMinDelayDialTime, ds0CasMinStartDialTime , ds0CasFlashMinMakeTime, ds0CasFlashMaxMakeTime, ds0CasDirectionality, ds0CasGlarePolicy, ds0CasIncomingMgcpPackage, ds0CasOutgoingMgcpPackage, ds0InputGain, ds0OutputAttenuation, ds0MusicThreshold, ds0SidPacket, ds0ExecDiag, ds0Companding, ds0RxCasTransTblName, ds0TxCasTransTblName, ds0TxRxCasConfig } STATUS current DESCRIPTION "The collection of objects used for DS0 configuration in VISM module." ::= { ciscoVismDsx0MIBGroups 7 } ciscoVismDsx0ChanMapGroup OBJECT-GROUP OBJECTS { dsx1LineNum, ds0ChanNum , ds0ChanMapIfIndex } STATUS current DESCRIPTION "The collection of objects used for mapping DS0 to ifIndex." ::= { ciscoVismDsx0MIBGroups 5 } ciscoVismDsx0ConfDeprecatedGroup OBJECT-GROUP OBJECTS { ds0TransmitCodesEnable } STATUS deprecated DESCRIPTION "The collection of objects that were supported earlier but deprecated now." ::= { ciscoVismDsx0MIBGroups 6 } END