The object specifies the session target of the peer.
Session Targets definitions:
The session target has the syntax used by the IETF service
location protocol. The syntax is as follows:
mapping-type:type-specific-syntax
the mapping-type specifies a scheme for mapping the
matching dial string to a session target.
The valid Mapping type definitions for the peer are as
follows:
loopback - Syntax: loopback:where
'where' string is defined as follows:
compressed - loopback is performed on compressed voice
as close to the CODEC which processes the
data as possible.
uncompressed - loopback is performed on the PCM or
analog voice as close to the telephony
endpoint as possible.
Local loopback case:
uncompressed - the PCM voice coming into the DSP is simply
turned around and sent back out, allowing testing of
the transmit
endpoint.
compressed - the compressed voice coming out of the CODEC is
turned around on the DSP module and fed back into the
decompressor through the jitter buffer. In addition to
the telephony endpoint, this tests both the encode and
decode paths without involving data paths or packet
handling on the host router.
Remote loopback case:
compressed - RTP packets received from the network are
decapsulated and passed to the DSP board. Instead of
feeding these into the CODEC for decompression, they
are immediately sent back to the session application
as if they had originated locally and been compressed.
uncompressed - In addition to the above, the voice samples
are sent all the way through the CODEC and then turned
around instead of being sent to the telephony
endpoint
Parsed from file CISCO-VOICE-DIAL-CONTROL-MIB.mib
Module: CISCO-VOICE-DIAL-CONTROL-MIB
The object specifies the session target of the peer.
Session Targets definitions:
The session target has the syntax used by the IETF service
location protocol. The syntax is as follows:
mapping-type:type-specific-syntax
the mapping-type specifies a scheme for mapping the
matching dial string to a session target.
The valid Mapping type definitions for the peer are as
follows:
loopback - Syntax: loopback:where
'where' string is defined as follows:
compressed - loopback is performed on compressed voice
as close to the CODEC which processes the
data as possible.
uncompressed - loopback is performed on the PCM or
analog voice as close to the telephony
endpoint as possible.
Local loopback case:
uncompressed - the PCM voice coming into the DSP is simply
turned around and sent back out, allowing testing of
the transmit
endpoint.
compressed - the compressed voice coming out of the CODEC is
turned around on the DSP module and fed back into the
decompressor through the jitter buffer. In addition to
the telephony endpoint, this tests both the encode and
decode paths without involving data paths or packet
handling on the host router.
Remote loopback case:
compressed - RTP packets received from the network are
decapsulated and passed to the DSP board. Instead of
feeding these into the CODEC for decompression, they
are immediately sent back to the session application
as if they had originated locally and been compressed.
uncompressed - In addition to the above, the voice samples
are sent all the way through the CODEC and then turned
around instead of being sent to the telephony
endpoint
The object specifies the session target of the peer.
Session Targets definitions:
The session target has the syntax used by the IETF service
location protocol. The syntax is as follows:
mapping-type:type-specific-syntax
the mapping-type specifies a scheme for mapping the
matching dial string to a session target.
The valid Mapping type definitions for the peer are as
follows:
loopback - Syntax: loopback:where
'where' string is defined as follows:
compressed - loopback is performed on compressed voice
as close to the CODEC which processes the
data as possible.
uncompressed - loopback is performed on the PCM or
analog voice as close to the telephony
endpoint as possible.
Local loopback case:
uncompressed - the PCM voice coming into the DSP is simply
turned around and sent back out, allowing testing of
the transmit
endpoint.
compressed - the compressed voice coming out of the CODEC is
turned around on the DSP module and fed back into the
decompressor through the jitter buffer. In addition to
the telephony endpoint, this tests both the encode and
decode paths without involving data paths or packet
handling on the host router.
Remote loopback case:
compressed - RTP packets received from the network are
decapsulated and passed to the DSP board. Instead of
feeding these into the CODEC for decompression, they
are immediately sent back to the session application
as if they had originated locally and been compressed.
uncompressed - In addition to the above, the voice samples
are sent all the way through the CODEC and then turned
around instead of being sent to the telephony
endpoint
Parsed from file CISCO-VOICE-DIAL-CONTROL-MIB.my.txt
Company: None
Module: CISCO-VOICE-DIAL-CONTROL-MIB
The object specifies the session target of the peer.
Session Targets definitions:
The session target has the syntax used by the IETF service
location protocol. The syntax is as follows:
mapping-type:type-specific-syntax
the mapping-type specifies a scheme for mapping the
matching dial string to a session target.
The valid Mapping type definitions for the peer are as
follows:
loopback - Syntax: loopback:where
'where' string is defined as follows:
compressed - loopback is performed on compressed voice
as close to the CODEC which processes the
data as possible.
uncompressed - loopback is performed on the PCM or
analog voice as close to the telephony
endpoint as possible.
Local loopback case:
uncompressed - the PCM voice coming into the DSP is simply
turned around and sent back out, allowing testing of
the transmit
endpoint.
compressed - the compressed voice coming out of the CODEC is
turned around on the DSP module and fed back into the
decompressor through the jitter buffer. In addition to
the telephony endpoint, this tests both the encode and
decode paths without involving data paths or packet
handling on the host router.
Remote loopback case:
compressed - RTP packets received from the network are
decapsulated and passed to the DSP board. Instead of
feeding these into the CODEC for decompression, they
are immediately sent back to the session application
as if they had originated locally and been compressed.
uncompressed - In addition to the above, the voice samples
are sent all the way through the CODEC and then turned
around instead of being sent to the telephony
endpoint
cvVoicePeerCfgSessionTarget OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) MAX-ACCESS read-write STATUS current DESCRIPTION "The object specifies the session target of the peer. Session Targets definitions: The session target has the syntax used by the IETF service location protocol. The syntax is as follows: mapping-type:type-specific-syntax the mapping-type specifies a scheme for mapping the matching dial string to a session target. The valid Mapping type definitions for the peer are as follows: loopback - Syntax: loopback:where 'where' string is defined as follows: compressed - loopback is performed on compressed voice as close to the CODEC which processes the data as possible. uncompressed - loopback is performed on the PCM or analog voice as close to the telephony endpoint as possible. Local loopback case: uncompressed - the PCM voice coming into the DSP is simply turned around and sent back out, allowing testing of the transmit endpoint. compressed - the compressed voice coming out of the CODEC is turned around on the DSP module and fed back into the decompressor through the jitter buffer. In addition to the telephony endpoint, this tests both the encode and decode paths without involving data paths or packet handling on the host router. Remote loopback case: compressed - RTP packets received from the network are decapsulated and passed to the DSP board. Instead of feeding these into the CODEC for decompression, they are immediately sent back to the session application as if they had originated locally and been compressed. uncompressed - In addition to the above, the voice samples are sent all the way through the CODEC and then turned around instead of being sent to the telephony endpoint" DEFVAL { "" } ::= { cvVoicePeerCfgEntry 1 }
cvVoicePeerCfgSessionTarget OBJECT-TYPE SYNTAX DisplayString(SIZE(0..64)) ACCESS read-write STATUS mandatory DESCRIPTION "The object specifies the session target of the peer. Session Targets definitions: The session target has the syntax used by the IETF service location protocol. The syntax is as follows: mapping-type:type-specific-syntax the mapping-type specifies a scheme for mapping the matching dial string to a session target. The valid Mapping type definitions for the peer are as follows: loopback - Syntax: loopback:where 'where' string is defined as follows: compressed - loopback is performed on compressed voice as close to the CODEC which processes the data as possible. uncompressed - loopback is performed on the PCM or analog voice as close to the telephony endpoint as possible. Local loopback case: uncompressed - the PCM voice coming into the DSP is simply turned around and sent back out, allowing testing of the transmit endpoint. compressed - the compressed voice coming out of the CODEC is turned around on the DSP module and fed back into the decompressor through the jitter buffer. In addition to the telephony endpoint, this tests both the encode and decode paths without involving data paths or packet handling on the host router. Remote loopback case: compressed - RTP packets received from the network are decapsulated and passed to the DSP board. Instead of feeding these into the CODEC for decompression, they are immediately sent back to the session application as if they had originated locally and been compressed. uncompressed - In addition to the above, the voice samples are sent all the way through the CODEC and then turned around instead of being sent to the telephony endpoint" DEFVAL { "" } ::= { cvVoicePeerCfgEntry 1 }
Vendor: Cisco
Module: CISCO-VOICE-DIAL-CONTROL-MIB
[Automatically extracted from oidview.com]
cvVoicePeerCfgSessionTarget OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) MAX-ACCESS read-write STATUS current DESCRIPTION "The object specifies the session target of the peer. Session Targets definitions: The session target has the syntax used by the IETF service location protocol. The syntax is as follows: mapping-type:type-specific-syntax the mapping-type specifies a scheme for mapping the matching dial string to a session target. The valid Mapping type definitions for the peer are as follows: loopback - Syntax: loopback:where 'where' string is defined as follows: compressed - loopback is performed on compressed voice as close to the CODEC which processes the data as possible. uncompressed - loopback is performed on the PCM or analog voice as close to the telephony endpoint as possible. Local loopback case: uncompressed - the PCM voice coming into the DSP is simply turned around and sent back out, allowing testing of the transmit endpoint. compressed - the compressed voice coming out of the CODEC is turned around on the DSP module and fed back into the decompressor through the jitter buffer. In addition to the telephony endpoint, this tests both the encode and decode paths without involving data paths or packet handling on the host router. Remote loopback case: compressed - RTP packets received from the network are decapsulated and passed to the DSP board. Instead of feeding these into the CODEC for decompression, they are immediately sent back to the session application as if they had originated locally and been compressed. uncompressed - In addition to the above, the voice samples are sent all the way through the CODEC and then turned around instead of being sent to the telephony endpoint" DEFVAL { "" } ::= { cvVoicePeerCfgEntry 1 }
cvVoicePeerCfgSessionTarget OBJECT-TYPE SYNTAX DisplayString (SIZE (0..64)) MAX-ACCESS read-write STATUS current DESCRIPTION "The object specifies the session target of the peer. Session Targets definitions: The session target has the syntax used by the IETF service location protocol. The syntax is as follows: mapping-type:type-specific-syntax the mapping-type specifies a scheme for mapping the matching dial string to a session target. The valid Mapping type definitions for the peer are as follows: loopback - Syntax: loopback:where 'where' string is defined as follows: compressed - loopback is performed on compressed voice as close to the CODEC which processes the data as possible. uncompressed - loopback is performed on the PCM or analog voice as close to the telephony endpoint as possible. Local loopback case: uncompressed - the PCM voice coming into the DSP is simply turned around and sent back out, allowing testing of the transmit endpoint. compressed - the compressed voice coming out of the CODEC is turned around on the DSP module and fed back into the decompressor through the jitter buffer. In addition to the telephony endpoint, this tests both the encode and decode paths without involving data paths or packet handling on the host router. Remote loopback case: compressed - RTP packets received from the network are decapsulated and passed to the DSP board. Instead of feeding these into the CODEC for decompression, they are immediately sent back to the session application as if they had originated locally and been compressed. uncompressed - In addition to the above, the voice samples are sent all the way through the CODEC and then turned around instead of being sent to the telephony endpoint" DEFVAL { "" } ::= { cvVoicePeerCfgEntry 1 }
| OID | Name | Sub children | Sub Nodes Total | Description |
|---|---|---|---|---|
| 1.3.6.1.4.1.9.9.63.1.2.2.1.2 | cvVoicePeerCfgDialDigitsPrefix | 0 | 0 | The object specifies the prefix of the dial digits for the peer. The dial digits prefix is sent to telephony interface before the… |
| 1.3.6.1.4.1.9.9.63.1.2.2.1.3 | cvVoicePeerCfgDIDCallEnable | 0 | 0 | The object enables/disables the DID call treatment for incoming DNIS digits. true - treat the incoming DNIS digits as if the dig… |
| 1.3.6.1.4.1.9.9.63.1.2.2.1.4 | cvVoicePeerCfgCasGroup | 0 | 0 | The object specifies the CAS group number of a CAS capable T1/E1 that is in the dialCtlPeerCfgLowerIf object of RFC2128. This obj… |
| 1.3.6.1.4.1.9.9.63.1.2.2.1.5 | cvVoicePeerCfgRegisterE164 | 0 | 0 | This object specifies that the E.164 number specified in the dialCtlPeerCfgOriginateAddress field of the associated dialCtlPeerCf… |
| 1.3.6.1.4.1.9.9.63.1.2.2.1.6 | cvVoicePeerCfgForwardDigits | 0 | 0 | This object specifies the number of dialed digits to forward to the remote destination in the setup message. The object can take … |
| 1.3.6.1.4.1.9.9.63.1.2.2.1.7 | cvVoicePeerCfgEchoCancellerTest | 0 | 0 | This object specifies which, if any, test to run in the echo canceller when a call from the network is connected. echoCancellerTe… |