vismEcanREC - vism Ecan REC - CISCO-VISM-DSX1-MIB

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vismEcanREC

vism Ecan REC
1.3.6.1.4.1.351.110.4.3.5.1.1.1.6

Residual Echo Control (REC) instructs the canceler how to treat echo remaining after cancellation. 'cancelOnly' : REC is disabled. 'suppressResidual': The residual echo is replaced with silence. 'comfortNoise' : Noise is injected in place of residual echo at the same level as the ambient noise at the near end. 'reserved' : Results in BadValue error. DEFVAL { suppressResidual } ::= { dsx1VismCnfGrpEntry 6 } SYNTAX INTEGER { disable (1), enable (2) } MAX-ACCESS read-write STATUS current DESCRIPTION This object identifies VAD (Voice Activity Detection). 'disable': Disable VAD on the compression DSPs. 'enable' : Enable VAD on the compression DSPs. DEFVAL { enable } ::= { dsx1VismCnfGrpEntry 7 } SYNTAX INTEGER { cas (1), ccs (2), none (3) } MAX-ACCESS read-write STATUS current DESCRIPTION This object specifies the type of signaling used for the line. 'cas' : Channel Associated Signaling. 'ccs' : Common Channel Signaling. 'none' : No signaling used. This cannot be modified if endpoints are present. and if CIDs/CCS channels are associated with this line in aal2Trunking mode. Setting of this object to CAS signaling type is not allowed if any of the DS0s on this line have loop back set to RemoteLoop or if any of the DS0's has ds0InsertLocalCas enabled. RemoteLoop and ds0InsertLocalCas from CISCO-VISM-DSX0-MIB. Line signaling type cannot be changed if there are endpoints present, irrespective of mode/application. DEFVAL { none } ::= { dsx1VismCnfGrpEntry 8 } SYNTAX Integer32(0..2147483647) MAX-ACCESS read-write STATUS current DESCRIPTION This object describes the CCS signaling channels or DS0s (also referred to as D-channel). It is used only for lines configured as CCS signaling type. It is a bit map of the DS0s configured as D channel. A one in the bit position represents that DS0 as the D channel. In most of the applications, only one D channel per T or E span is required. However, since some applications may require multiple D channels, this is supported by providing a bit map. This attribute is set by 'addccs' CLI command. ::= { dsx1VismCnfGrpEntry 9 } SYNTAX Integer32(50..200) UNITS "milliseconds This object describes the cadence time for CAS signals. This object is applicable only for CAS backhaul applications. For trunking application it is not applicable. DEFVAL { 100 } ::= { dsx1VismCnfGrpEntry 10 } SYNTAX TruthValue MAX-ACCESS read-write STATUS current DESCRIPTION This object determines if trunk conditioning should be enabled or disabled on this line. If this object is set to true(1), VISM will do trunk conditioning on the affected DS0s on this line when it sees an alarm (AIS) on the ATM side, instead of sending AIS on the line side. If there are endpoints or CCS channels enabled on a line then setting of this object is not allowed. Trunk conditioning: VISM will transmit idle code pattern for the first 2.5 secs and then will transmit seized code which is configured in ds0IdleCode and ds0SeizedCode respectively, ds0IdleCode and ds0SeizedCode from CISCO-VISM-DSX0-MIB. This object is applicable only in trunking application. This object can be set in all applications but will be applicable in trunking application only. DEFVAL { false } ::= { dsx1VismCnfGrpEntry 11 } SYNTAX DisplayString MAX-ACCESS read-write STATUS current DESCRIPTION This object is the identifier of a T1/E1 line. It contains alphanumeric description of a line for the purpose of better identification. ::= { dsx1VismCnfGrpEntry 12 } SYNTAX INTEGER { aniThenDnis (1), dnisThenAni (2) } MAX-ACCESS read-write STATUS current DESCRIPTION When the call agent hands the ANI (Automatic Number Identification, denoting the calling party number) and the DNIS (Destination Number Identification Service, indicating the called party number) to the gateway for dialing out, the gateway (by default) dials out the ANI followed by the DNIS. This object indicates the order in which ANI and DNIs will be dialed out from this (outgoing) interface. DEFVAL { aniThenDnis } ::= { dsx1VismCnfGrpEntry 13 } SYNTAX DisplayString (SIZE(1..64)) MAX-ACCESS read-write STATUS current DESCRIPTION This object specifies regional tone plan string. If the value of the object is 'NULL' then it will be considered non usable, and non 'NULL' is (usable or activated and related to an entry in the vismTonePlanTable table). This object must be compatible with the vismDsx1TonePlanVersion object below, where both objects must either be NULL or where both objects must be non NULL. The vismTonePlanTable table consists of 32 slots which are configurable (provisionable) followed by a release dependent number of slots for built-in entries which are not configurable, but loaded from values stored in the internal firmware of the release. As releases are continued, the number of built-in slots will typically increase. The total number of slots in this table consists of the sum of the 32 provisionable slots plus an unspecified number of built-in slots and the built-in number and this sum represents the size of this table. In the case where these two objects are non NULL, this object, along with the vismDsx1TonePlanVersion object below, must exactly match an entry in the vismTonePlanTable. In the case where these objects are considered to be a NULL object, its behavior and contents are described in paragraph five of this description block. The allowed range and contents of this object in the non NULL case is the same as the tonePlanRegionName object in the vismTonePlanTable. This object will thus consist of a 1 to 64 alphabetic, numeric, or underscore character string, with no embedded spaces. And this object plus the vismDsx1TonePlanVersion object below, must exactly match an existing valid entry in the vismTonePlanTable, vismTonePlanTable is specify in CISCO-WAN-VISM-TONE-PLAN-MIB. In the case where this object is NULL, this object will consist of a single space character of size one. A NULL value for this object will make the vismDsx1RingingTO, vismDsx1RingBackTO, vismDsx1BusyTO, vismDsx1ReorderTO, vismDsx1DialTO, vismDsx1StutterDialTO, vismDsx1OffHookAlertTO, and vismDsx1RemoteRingback. ::= { dsx1VismCnfGrpEntry 14 } SYNTAX Integer32(0..2147483647) MAX-ACCESS read-write STATUS current DESCRIPTION This object will either be considered NULL (i.e. non usable) or non NULL (usable or activated and related to an entry in the vismTonePlanTable table). This object must be compatible with the vismDsx1TonePlanRegion object above, where both objects must either be NULL or where both objects must be non NULL. The vismTonePlanTable table consists of 32 slots which are configurable (provisionable) followed by a release dependent number of slots for built-in entries which are not configurable, but loaded from values stored in the internal firmware of the release. As releases are continued, the number of built-in slots will typically increase. The total number of slots in this table consists of the sum of the 32 provisionable slots plus an unspecified number of built-in slots and the built-in number and this sum represents the size of this table. In the case where these two objects are non NULL, this object, along with the vismDsx1TonePlanRegion object above, must exactly match an entry in the vismTonePlanTable. In the case where these objects are considered to be a NULL object, its behavior and contents are described in paragraph five of this description block. The allowed range and contents of this object in the non NULL case is the same as the tonePlanVersionNumber object in the vismTonePlanTable. This object will thus consist of a non zero numeric value. And this object plus the vismDsx1TonePlanRegion object above, must exactly match an existing valid entry in the vismTonePlanTable. In the case where this object is NULL, this object will consist of a zero numeric value. A NULL value for this object will make the vismDsx1RingingTO, vismDsx1RingBackTO, vismDsx1BusyTO, vismDsx1ReorderTO, vismDsx1DialTO, vismDsx1StutterDialTO, vismDsx1OffHookAlertTO, and vismDsx1RemoteRingback. ::= { dsx1VismCnfGrpEntry 15 } SYNTAX Integer32 (0..3600) UNITS "seconds Time in seconds for which the ringing cadence will be generated towards the basic PBX unless interrupted (e.g. by the answer from the called party or a delete connection command from the Call Agent). This is also the time for which remote inband ring back tone will be played towards the packet network. The value Zero indicates that the cadence will be generated indefinitely unless interrupted. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { 180 } ::= { dsx1VismCnfGrpEntry 16 } SYNTAX Integer32 (0..3600) UNITS "seconds Time in seconds for which the local ring back tone (towards the TDM) will be generated unless interrupted (e.g. by the answer from the called party or a delete connection command from the Call Agent). The value Zero indicates that the tone will be generated indefinitely unless interrupted. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { 180 } ::= { dsx1VismCnfGrpEntry 17 } SYNTAX Integer32 (0..3600) UNITS "seconds Time in seconds for which the busy tone will be generated unless interrupted (e.g. by the hangup from the calling party). The value Zero indicates that the tone will be generated indefinitely unless interrupted. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { 30 } ::= { dsx1VismCnfGrpEntry 18 } SYNTAX Integer32 (0..3600) UNITS "seconds Time in seconds for which the reorder/fast busy tone will be generated unless interrupted (e.g. by the hangup from the calling party). The value zero indicates that the tone will be generated indefinitely unless interrupted. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { 30 } ::= { dsx1VismCnfGrpEntry 19 } SYNTAX Integer32 (0..3600) UNITS "seconds Time in seconds for which the dial tone will be generated unless interrupted (e.g. by the first DTMF digit from the calling party). The value Zero indicates that the tone will be generated indefinitely unless interrupted. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { 16 } ::= { dsx1VismCnfGrpEntry 20 } SYNTAX Integer32 (0..3600) UNITS "seconds Time in seconds for which the stutter dial tone/confirmation dial tone will be generated unless interrupted (e.g. by the first DTMF digit from the calling party). The value Zero indicates that the tone will be generated indefinitely unless interrupted. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { 16 } ::= { dsx1VismCnfGrpEntry 21 } SYNTAX Integer32 (0..3600) UNITS "seconds Time in seconds for which the off-hook alert tone will be generated unless interrupted (e.g. caller hangup). The value Zero indicates that the tone will be generated indefinitely unless interrupted. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { 5 } ::= { dsx1VismCnfGrpEntry 22 } SYNTAX INTEGER { proxy (1), inband (2) } MAX-ACCESS read-write STATUS current DESCRIPTION This object specifies the remote ring back method on endpoints on this DS1/E1. This object can have the following values: 'proxy(1)': This gateway sends the appropriate packet (NSE, NTE, or AAL-2 Type 3) for ring back to the originating gateway which in turn generates the ringback tone towards the TDM network. 'inband(2)': This gateway will generate the inband ringback tone towards the originating gateway over the packet network and the originating gateway plays it. This MIB object is not applicable unless the value of vismDsx1TonePlanRegion and vismDsx1TonePlanVersion MIB objects are not 'NULL' string. DEFVAL { proxy } ::= { dsx1VismCnfGrpEntry 23 } SYNTAX Integer32 (10..10000) UNITS "seconds This object represents the partial dial timing in seconds and is used along with a digit map as the inter-digit timer. This object is used for both CAS and non CAS endpoints when doing mid call DTMF digit reporting. The timer is not started until the first digit is entered, and the timer is restarted after each new digit is entered until either a digit map match or mismatch occurs. DEFVAL { 16 } ::= { dsx1VismCnfGrpEntry 24 } SYNTAX Integer32 (0..10000) UNITS "seconds This object represents the critical timing in seconds. If used along with a digit map, the timer is started when the last digit is received i.e when no more digits are required for a digit map match. After this timer expires, the digit map match is assumed to be complete. If used without a digit map, the timer is started immediately and cancelled (but not restarted) as soon as a digit is entered. This object is used for both CAS and non CAS endpoints when doing mid call DTMF digit reporting. DEFVAL { 4 } ::= { dsx1VismCnfGrpEntry 25 } SYNTAX Integer32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION This is a spare bit on T1/E1 Framer reserved for international standardization. DEFVAL { 0 } ::= { dsx1VismCnfGrpEntry 26 } SYNTAX Integer32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION This is a spare bit on T1/E1 Framer reserved for international standardization. DEFVAL { 0 } ::= { dsx1VismCnfGrpEntry 27 } SYNTAX Integer32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION This is a spare bit on T1/E1 Framer reserved for international standardization. DEFVAL { 0 } ::= { dsx1VismCnfGrpEntry 28 } SYNTAX Integer32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION This is a spare bit on T1/E1 Framer reserved for international standardization. DEFVAL { 0 } ::= { dsx1VismCnfGrpEntry 29 } SYNTAX Integer32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION This is a spare bit on T1/E1 Framer reserved for international standardization. DEFVAL { 0 } ::= { dsx1VismCnfGrpEntry 30 } SYNTAX INTEGER { invalid (1), is (2), oos (3), poos (4), coos (5), inactive(6) } MAX-ACCESS read-only STATUS current DESCRIPTION This object will allow the line administrative state (in service and out of service) to be persistent. invalid (1) : invalid state. is (2) : in service oos (3) : out of service poos (4) : pending out of service coos (5) : command out of service inactive(6) : inactive DEFVAL { inactive } ::= { dsx1VismCnfGrpEntry 31 } SYNTAX INTEGER { inService (1), forcefulOutOfService (2), gracefulOutOfService (3), inactive (4) } MAX-ACCESS read-write STATUS current DESCRIPTION This control object is used to change the service state of the line from 'is' to 'coos' or from 'coos' to 'is'. The resulting service state of the line is represented by vismDsx1State. 'inService': Transition vismDsx1State to 'is'(in service). In the course, the MG's MGCs may get notified of this transition, e.g. in the case of MGCP through emission of RSIPs to registered call agents according to policy. 'forcefulOutOfService': Take the line out-of-service forcefully. This releases any resources at the line. In the course, the MGCs may get notified of this transition, e.g. in the case of MGCP through emission of RSIPs to registered call agents according to policy. 'gracefulOutOfService': Take the line out-of-service gracefully. If there are no resources existing, vismDsx1State transitions to coos immediately. If resources exist, vismDsx1State transitions to poos thus initiating a graceful shutdown. In the course, the MG's MGCs may get notified of this transition, e.g. in the case of MGCP through emission of RSIPs to registered call agents according to policy. 'inactive': Indicates the vismDsx1State is in inactive state. DEFVAL { inactive } ::= { dsx1VismCnfGrpEntry 32 } SYNTAX Integer32 (0..255) MAX-ACCESS read-write STATUS current DESCRIPTION This object is used when vismTrunkConditionEnable is enabled on a line. It is a configurable busy pattern sent out on the 'Bearer' on the channels, which are receiving remote ATM channel ID (CID) alarms. If this object is not set, it assumes a default value of 255 for E1 and 127 for T1.

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