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This chapter describes the VISM Command Line Interface (CLI) that is used to configure, manage, and troubleshoot the VISM 2.0 card.
Commands can be entered either through:
The CLI is a DOS-like interface in which each command has a mnemonic followed by a string of parameters (some commands have no parameters, some have one, and some have several). Commands are entered by typing the mnemonic followed by the value of each parameter in order and ending with the Enter key. Spaces are used to separate the mnemonic and all the parameters.
An example command is the command to add an endpoint in VISM which can be used to defined one end of a connection. The command is Add Endpoint and its mnemonic is addendpt. This command has three parameters, namely, an endpoint number (to identify the endpoint from other endpoints), the ds1 line to be associated with the endpoint, and the ds0 channel within the ds1 line to be associated with the endpoint. The format of this command is:
addendpt <endpoint_num> <ds1_num> <ds0_num>
where
<endpoint_num> | An endpoint number in the range 1-240 for E1 and 1-192 for T1. |
<ds1_num> | The physical line number in the range 1-8 |
<ds0_num> | The DS0 configured for this endpoint. DS0s are numbered 1 to 31 for E lines and 1 to 24 for T lines. |
Thus to add an endpoint with number (say) 10 which defines ds1 number 4 and ds0 channel number 3 within ds1 number 4, the command is:
addendpt 10 4 3 (Enter)
Some commands require a parameter identifier to be entered before the parameter value. The clear alarm is an example of such a command. The format of this command is:
clralm -ds1 <LineNum>
The parameter is LineNum but requires the identifier "-ds1" to be entered also. Thus to clear alarms on line 4, the command is:
clralm -ds1 4
This chapter describes each command is detail including parameter identifiers where required.
Many operations require several commands to be executed in a prescribed sequence. For example, configuring a line (such as addccs) requires the addln (addline) command to be executed before a configuration can take place. Likewise, the same principle applies when deleting in which the items are deleted in the reverse order in which they were added. Using the same example, if a line has CCS added through the addccs command, it must first be deleted (delccs) before the line can be deleted.
In most cases, if a user attempts to execute a command in the wrong sequence, a message indicating such is displayed.
There are certain mandatory commands that must be executed before the VISM card is fully operational. The remaining commands are optional and, for these commands, VISM will assume default values for their parameters unless they are executed with other specific parameter values.
The mandatory commands (in order of execution) are shown in Table 7-1.
| VoIP Mode | AAL2 Trunking Mode | ||
|---|---|---|---|
cnfvismmode | Configure VISM mode | cnfvismmode | Configure VISM mode |
cnfvismip | Configure VISM IP address |
|
|
cnfcac | Configure CAC | cnfcac | Configure CAC |
addln | Add line | addln | Add line |
addendpt | Add endpoing | addendpt | Add endpoing |
addcon | Add connection | addcon | Add connection |
cnflnsig | Configure line signaling | cnflnsig | Configure line signaling |
adddn | Add domain name | addcasvar | Add CAS variant |
cnftftpdn | Configure TFTP domain name | cnfcasendpt | Configure CAS endpoint |
addcasvar | Add CAS variant | addcid | Add channel id |
cnfcasendpt | Configure CAS endpoint | cnfcassig | Configure CAS signaling |
|
| addccs | Add CCS |
Before commands can be entered, the user must first log onto the system. This process requires a valid user name and password that are known to the MGX 8850 (see the MGX 8850 Command Reference for details)
Logging in process consists of:
1. Entering your user name followed by pressing the Enter key in response to a prompt requesting user name.
2. Entering your password followed by pressing the Enter key in response to a prompt requesting a password.
3. The system responds by asking for a card number (slot number).
Login: cisco password: card number [7]:
NODENAME.1.7.PXM.a > dspcds
Slot CardState CardType CardAlarm Redundancy
---- ----------- -------- --------- -----------
1.1 Empty Clear
1.2 Active VISM-8T1 Clear
1.3 Empty Clear
1.4 Empty Clear
1.5 Empty Clear
1.6 Empty Clear
1.7 Active PXM1-OC3 Minor
1.8 Empty Clear
1.9 Active VISM-8E1 Clear
1.10 Empty Clear
1.11 Active VISM-8T1 Clear
1.12 Boot VISM-8T1 Clear
1.13 Active VISM-8T1 Clear
1.14 Active VISM-8E1 Clear
1.15 Empty Clear
1.16 Empty Clear
1.17 Empty Clear
1.18 Empty Clear
1.19 Empty Clear
Type <CR> to continue, Q<CR> to stop:
Slot CardState CardType CardAlarm Redundancy
---- ----------- -------- --------- -----------
1.20 Empty Clear
1.21 Boot VISM-8T1 Clear
1.22 Empty Clear
1.25 Reserved VISM-8E1 Clear
1.26 Empty Clear
1.27 Empty Clear
1.28 Active VISM-8E1 Clear
1.29 Empty Clear
1.30 Empty Clear
1.31 Empty Clear
1.32 Empty Clear
NODENAME.1.7.PXM.a > cc 9 (session redirected)
NODENAME.1.9.VISM8.a
To end a CLI session and log out of the system, enter either the bye command or the logout command.
The VISM CLI Command set are listed in the following tables.
Table 7-2 lists all the VISM commands in alphabetical order.
 |
Note Not all commands are applicable to all modes. The X's in the table indicate which commands apply to the VoIP mode and which apply to the AAL2 Trunking mode. |
Table 7-3 lists VoIP mode commands in alphabetical order.
Table 7-4 lists VoIP mode commands by functional group. For example, the Card Group includes those commands that refer to the VISM card as a whole, the DSP Group includes those commands that refer to the Digital Signal Processors.
Table 7-5 lists AAL2 Trunking mode commands in alphabetical order.
Table 7-6 lists AAL2 Trunking mode commands by functional group.
A description of each VISM command, arranged in alphabetical order, follows the command tables. If the mnemonic of a command is known, the Index at the end of this document can be used to obtain the page number of the description of that command.
| Command | Description | Group | VoIP Mode | AAL 2 PVC Mode |
|---|---|---|---|---|
? | help | User | X | X |
addcasvar | add CAS variant | Call agent | X |
|
addccs | add common channel signaling | Signaling |
| X |
addcid | add channel identifier | Connection |
| X |
addcon | add connection | Connection | X | X |
addconloop | add connection loop | Connection | X | X |
adddn | add domain | Call agent | X |
|
addendpt | add endpoint | Connection | X | X |
addendpts | add endpoints | Connection | X | X |
addendptloop | add endpoint loopback | Connection | X | X |
addlapd | add lapd | Signaling | X |
|
addln | add line | Line | X | X |
addlnloop | add line loop | Line | X | X |
addmgc | add call agent | Call agent | X |
|
addmgcprotocol | add call agent protocol | Call agent | X |
|
addport | addport | Card | X | X |
addses | add session | Signaling | X |
|
addsesgrp | add session group | Signaling | X |
|
addsesset | add session set | Signaling | X |
|
addrscprtn | addresource partition | Card | X | X |
cc | change card | User | X | X |
chkflash | check flash memory | User | X | X |
clralm | clear alarm | Alarm | X | X |
clralmcnts | clear alarm counts | Alarm | X | X |
clralms | clear alarms | Alarm | X | X |
clrsarcnt | clear SAR counters | Card | X | X |
clrsarcnts | clear SAR counters | Card | X | X |
clrsarmsgcnt | clear SAR message count | Card | X | X |
clrscn | clear screen | User | X | X |
clrtaskinfo | clear task information | Card | X | X |
cnfaal2subcellmuxing | configure AAL2 sub-cell multiplexing | Connection |
| X |
cnfalm | configure alarm | Alarm | X | X |
cnfcac | configurfe CAC | Connection | X | X |
cnfcascode | configure CAS coding | Connection |
| X |
cnfcasendpt | configure CAS endpoint | Connection | X |
|
cnfcasvar | configure CAS variant | Connection | X |
|
cnfcodecparams | configure codec parameters | DSP | X |
|
cnfcodectempl | configure codec template | Card | X | X |
cnfcompsize | configure compression packet size | DSP | X | X |
cnfcompvad | configure compression VAD | DSP | X | X |
cnfcon | configure connection | Connection | X | X |
cnfconcac | configure connection CAC | Connection |
| X |
cnfconprotect | configure connection protection | Connection | X |
|
cnfdeftos | configure type of service | Connection | X |
|
cnfds0localcas | configure ds0 local CAS | Signaling | X | X |
cnfds0loop | configure ds0 loopback | Line | X | X |
cnfecanenable | configure echo canceler enable | DSP | X | X |
cnfecannrn | configure echo canceler nrn | DSP | X | X |
cnfecanrec | configure echo canceler rec | DSP | X | X |
cnfecantail | configure echo canceler tail | DSP | X | X |
cnfecantone | configure echo canceler tone | DSP | X | X |
cnfendptcadence | configure endpoint cadence | Signaling | X |
|
cnferl | configure echo return loss | DSP | X | X |
cnfgwis | configure VISM in service | Card | X |
|
cnfgwoos | configure VISM out of service | Card | X |
|
cnfjtrinitdelay | configure initial jitter delay | DSP | X | X |
cnfjtrmode | configure jitter mode | DSP | X | X |
cnflapdretrans | configure lapd retransmissions | Signaling | X |
|
cnflapdtimer | configure lapd timer | Signaling | X |
|
cnflapdtype | configure lapd type | Signaling | X |
|
cnflapdwinsize | configure lapd window size | Signaling | X |
|
cnfln | configure line | Line | X | X |
cnflnis | configure line in service | Line | X |
|
cnflnoos | configure line out of service | Line | X |
|
cnflnsig | configure line signal | Line |
| X |
cnflntrunkcond | configure line trunk conditioning | Line |
| X |
cnfmgc | configure call agent | Call agent | X |
|
cnfrtcprepint | configure RTCP report interval | Call agent | X |
|
cnfrtprxtimer | configure RTP recieve timer | Call agent | X |
|
cnfsesack | configure session acknowledgements | Signaling | X |
|
cnfsesmaxreset | configure session maximum resets | Signaling | X |
|
cnfsesmaxseg | configure session maximum segments | Signaling | X |
|
cnfsesmaxwindow | configure session maximum window size | Signaling | X |
|
cnfsesnullsegtmout | configure session null segment timeouts | Signaling | X |
|
cnfsesesoutofseq | configure session out of sequence | Signaling | X |
|
cnfsesport | configure session port | Signaling | X |
|
cnfsesretrans | configure session retransmissions | Signaling | X |
|
cnfsesstatemout | configure session state timeout | Signaling | X |
|
cnfsessyncatmps | configure session sync attempts | Signaling | X |
|
cnfsrcppeer | configure srcp peer UDP port | Call agent | X |
|
cnftftpdn | configure TFTP domain name | Card | X | X |
cnfvismdn | configure vism domain | Card | X |
|
cnfvismip | configure vism IP address | Card | X |
|
cnfvismmode | configure mode | Card | X | X |
cnfxgcpmwd | configure xgcp max. wait delay | Call agent | X |
|
cnfxgcppeer | configure xgcp peer | Call agent | X |
|
cnfxgcpretry | configure xgcp retries | Call agent | X |
|
delcasvar | delete CAS variant | Signaling | X |
|
delccs | delete common channel signaling | Signaling |
| X |
delcid | delete channel identifier | Connection |
| X |
delcon | delete connection | Connection | X | X |
delconloop | delete connection loopback | Connection | X | X |
deldn | delete domain name | Call agent | X |
|
delendpt | delete endpoint | Connection | X | X |
delendptloop | delete endpoint loopback | Connection | X | X |
delendpts | delete endpoints | Connection | X | X |
dellapd | delete lapd | Signaling | X |
|
delln | delete line | Line | X | X |
dellnloop | delete line loop | Line | X | X |
delmgc | del call agent | Call agent | X |
|
delmgcprotocol | delete call agent protocol | Call agent | X |
|
delport | delete port | Card | X | X |
delrscprtn | delete resource partition | Card | X | X |
delaes | delete session | Signaling | X |
|
delsesgrp | delete session group | Signaling | X |
|
delsesset | delete session set | Signaling | X |
|
dspaal2profile | display AAL2 profile | Connection |
| X |
dspalm | display alarm | Alarm | X | X |
dspalmcnf | display alarm configuration | Alarm | X | X |
dspalmcnt | dispaly alarm count | Alarm | X | X |
dspalms | display alarms | Alarm | X | X |
dspcarddsp | display card DSPs | DSP | X | X |
dspcasendpts | display CAS endpoints | Signaling | X |
|
dspcasvar | dsplay CAS variant | signaling | X |
|
dspcasvars | display CAS variants | signaling | X |
|
dspcasvarendpts | display CAS variant endpoints | Signaling | X |
|
dspcasxgcps | display CAS XGCP | Call agent | X |
|
dspccs | display common channel signaling | Connection |
| X |
dspccschans | display CCS channels | Signaling |
| X |
dspccscnt | display CCS counters | Signaling |
| X |
dspcd | display card | Card | X | X |
dspcid | display channel identifier | Connection |
| X |
dspcids | display channel identifiers | Connection |
| X |
dspcodecparams | display codec parameters | DSP | X |
|
dspcodectempls | display codec template | DSP | X | X |
dspcon | display connection | Connection | X | X |
dspconcac | display channel CAC | Connection |
| X |
dspconcnt | display channel counters | Connection | X | X |
dspcons | display connections | Connection | X | X |
dspdn | display domain name | Call agent | X |
|
dspdns | display domain names | Call agent | X |
|
dspds0localcasstatus | display ds0 local status | Signaling | X | X |
dspds0loop | display ds0 loopback | Line | X | X |
dspendpt | display endpoint | Connection | X | X |
dspendpts | display endpoints | Connection | X | X |
dspgwstate | display VISM | Card | X |
|
dsplapd | display lapd | Signaling | X |
|
dsplapds | display lapds | Signaling | X |
|
dsplapdstat | display lapd statistics | Signaling | X |
|
dspln | display line | Line | X | X |
dsplncids | display line CIDs | Connection |
| X |
dsplndsp | display line DSP | DSP | X | X |
dsplndsx0s | dsplay line ds0s | Line | X | X |
dsplnendptstatus | display endpoint status | Connection | X | X |
dsplns | display lines | Line | X | X |
dsplnstate | dsplay line state | Line | Xx | X |
dsploops | dsplay loopbacks | Connection | X | X |
dspmaxmgcs | display maximum number of call agents | Call agent | X |
|
dspmgc | display call agent | Call agent | X |
|
dspmgcprotocols | display call agent protocol | Call agent | X |
|
dspmgcs | display call agents | Call agent | X |
|
dspmgprotocols | display gateway control protocols | Call agent | X |
|
dspmngcidcnt | display cid count | Connection |
| X |
dspport | display port | Card | X | X |
dsprscprtn | display resource partition | Card | X | X |
dspsarcnt | display SAR counters (line | Card | X | X |
dspsarcnts | display SAR counters (all) | Card | X | X |
dspsarmsgcnt | display SAR message counters | Card | X | X |
dspses | display session | Signaling | X |
|
dspsesgrp | display session group | Signaling | X |
|
dspsesgrps | display session groups | Signaling | X |
|
dspsess | display session sessions | Signaling | X |
|
dspsesset | display session set | Signaling | X |
|
dspsesstat | display session statistics | Signaling | X |
|
dspsrcpcnt | display SRCP counters (line) | Call agent | X |
|
dspsrcpcnts | display SRCP counters (all) | Call agent | X |
|
dspsrcpeer | display SRCP peer UDP port | Call agent | X |
|
dspsrcpeers | display SRCP peer UDP ports | Call agent | X |
|
dspsrcpport | display SRCP UDP port | Call agent | X |
|
dsptaskinfo | display task information | Card | X | X |
dspvismdn | display card domain | Card | X |
|
dspvismip | display vism IP address | Card | X |
|
dspvismparam | display VISM parameters | Card | X | X |
dspxgcpcnf | display xgcp configuration | Call agent | X |
|
dspxgcpcons | display xgcp connections | Call agent | X |
|
dspxgcpdefpxg | display xgcp default package | Call agent | X |
|
dspxgcpdetailcnt | display xgcp detail count | Call agent | X |
|
dspxgcpdetailcnts | display xgcp detail counts | Call agent | X |
|
dspxgcperrcnt | display xgcp error count | Call agent | X |
|
dspxgcppeer | display xgcp peer | Call agent | X |
|
dspxgcpport | display xgcp port | Call agent | X |
|
dspxgcpcnt | display xgcp count | Call agent | X |
|
dspxgcpcnts | display all xgcp counts | Call agent | X |
|
Help | help | User | X | X |
pinglndsp | ping line dsp | DSP | X | X |
tstcon | test connection | Connection | X | X |
tstdelay | test delay | Connection | X | X |
version | version | Card | X | X |
| Command | Description |
|---|---|
? | help |
addcasvar | add CAS variant |
addcon | add connection |
addconloop | add connection loop |
adddn | add domain |
addendpt | add endpoint |
addendptloop | add endpoint loopback |
addendpts | add endpoints |
addlapd |
|
addln | add line |
addlnloop | add line loop |
addmgc | add call agent |
addmgcprotocol | add call agent protocol |
addport | addport |
addses | add session |
addsesgrp | add session group |
addsesset | add session set |
addrscprtn | addresource partition |
cc | change card |
chkflash | check flash memory |
clralm | clear alarm |
clralmcnts | clear alarm counts |
clralms | clear alarms |
clrsarcnt | clear SAR counters |
clrsarcnts | clear SAR counters |
clrsarmsgcnt | clear SAR message count |
clrscn | clear screen |
clrtaskinfo | clear task information |
cnfalm | configure alarm |
cnfcac | configurfe CAC |
cnfcasendpt | configure CAS endpoint |
cnfcasvar | configure CAS variant |
cnfcodecparams | configure codec parameters |
cnfcodectempl | configure codec template |
cnfcompsize | configure compression packet size |
cnfcompvad | configure compression VAD |
cnfcon | configure connection |
cnfconprotect | configure connection protection |
cnfdeftos | configure type of service |
cnfds0localcas | configure ds0 local CAS |
cnfds0loop | configure ds0 loopback |
cnfecanenable | configure echo canceler enable |
cnfecannrn | configure echo canceler nrn |
cnfecanrec | configure echo canceler rec |
cnfecantail | configure echo canceler tail |
cnfecantone | configure echo canceler tone |
cnfendptcadence | configure endpoint cadence |
cnferl | configure echo return loss |
cnfgwis | configure VISM in service |
cnfgwoos | configure VISM out of service |
cnfjtrinitdelay | configure initial jitter delay |
cnfjtrmode | configure jitter mode |
cnflapdretrans | configure lapd |
cnflapdtimer | configure lapd timer |
cnflapdtype | configure lapd type |
cnflapdwinsize | configure lapd window size |
cnfln | configure line |
cnflnis | configure line in service |
cnflnoos | configure line out of service |
cnflnsig | configure line signal |
cnfmgc | configure call agent |
cnfrtcprepint | configure RTCP report interval |
cnfrtprxtimer | configure RTP recieve timer |
cnfsesack | configure session acknowledgement |
cnfsesmaxreset | configure session maximum resets |
cnfsesmaxseg | configure session maximum segment |
cnfsesmaxwindow | configure session maximum window |
cnfsesnullsegtmout | configure session null segment timeout |
cnfsesoutofseq | configure session out of sequence |
cnfsesport | configure session port |
cnfsesretrans | configure session retransmissions |
cnfsesstatetmout | configure session statetimout |
cnfsessyncatmps | configure session sync attempts |
cnfsrcppeer | configure srcp peer UDP port |
cnftftpdn | configure TFTP domain name |
cnfvismdn | configure vism domain |
cnfvismip | configure vism IP address |
cnfvismmode | configure mode |
cnfxgcpmwd | configure xgcp max. wait delay |
cnfxgcppeer | configure xgcp peer |
cnfxgcpretry | configure xgcp retries |
delcasvar | delete CAS variant |
delcon | delete connection |
delconloop | delete connection loop |
dellapd | delete lapd |
deldn | delete domain name |
delendpt | delete endpoint |
delendptloop | delendptloop |
delendpts | delete endpoints |
delln | delete line |
dellnloop | delete line loop |
delmgc | delete call agent |
delmgcprotocol | delete call agent protocol |
delport | delete port |
delses | delete session |
delsesgrp | delete session group |
delsesset | delete session set |
delrscprtn | delete resource partition |
dspalm | display alarm |
dspalmcnf | display alarm configuration |
dspalmcnt | dispaly alarm count |
dspalms | display alarms |
dspcarddsp | display card DSPs |
dspcasendpts | display CAS endpoints |
dspcasvar | dsplay CAS variant |
dspcasvarendpts | display CAS variant endpoints |
dspcasvars | display CAS variants |
dspcasxgcps | display CAS XGCP |
dspcd | display card |
dspcodecparams | display codec parameters |
dspcodectempls | display codec template |
dspcon | display connection |
dspconcnt | display channel counters |
dspcons | display connections |
dspdn | display domain name |
dspdns | display domain names |
dspds0localcasstatus | display ds0 local CAS status |
dspds0loop | display ds0 loopback |
dspendpt | display endpoint |
dspendpts | display endpoints |
dspgwstate | display VISM |
dsplapd | display lapd |
dsplapds | display lapds |
dsplapdstat | dsplay lapd statistics |
dspln | display line |
dsplndsp | display line DSP |
dsplndsx0s | dsplay line ds0s |
dsplnendptstatus | display line endpoint status |
dsplns | display lines |
dsplnstate | dsplay line state |
dsploops | dsploopbacks |
dspmaxmgcs | display maximum number of call agents |
dspmgc | display call agent |
dspmgcprotocols | display call agent protocol |
dspmgcs | display call agents |
dspmgprotocols | display gateway control protocols |
dspport | display port |
dsprscprtn | display resource partition |
dspsarcnt | display SAR counters (line |
dspsarcnts | display SAR counters (all) |
dspsarmsgcnt | display SAR message counters |
dspses | display session |
dspsesgrp | display session group |
dspsesgrps | display session groups |
dspsess | display session sessions |
dspsesset | display session set |
dspsesstat | display session statistics |
dspsrcpcnt | display SRCP counters (line) |
dspsrcpcnts | display SRCP counters (all) |
dspsrcpeer | display SRCP peer UDP port |
dspsrcpeers | display SRCP peer UDP ports |
dspsrcpport | display SRCP UDP port |
dsptaskinfo | display task information |
dspvismdn | display card domain |
dspvismip | display vism IP address |
dspvismparam | display VISM parameters |
dspxgcpcnf | display xgcp configuration |
dspxgcpcons | display xgcp connections |
dspxgcpdefpxg | display xgcp default package |
dspxgcpdetailcnt | display xgcp detail count |
dspxgcpdetailcnts | display xgcp detail counts |
dspxgcperrcnt | display xgcp error count |
dspxgcppeer | display xgcp peer |
dspxgcpport | display xgcp port |
dspxgcpcnt | display xgcp count |
dspxgcpcnts | display all xgcp counts |
Help | help |
pinglndsp | ping line dsp |
tstcon | test connection |
tstdelay | test delay |
version | version |
| Command | Description | Group |
|---|---|---|
Alarm Group | ||
clralm | clear alarm | Alarm |
clralmcnts | clear alarm counts | Alarm |
clralms | clear alarms | Alarm |
cnfalm | configure alarm | Alarm |
dspalm | display alarm | Alarm |
dspalmcnf | display alarm configuration | Alarm |
dspalmcnt | dispaly alarm count | Alarm |
dspalms | display alarms | Alarm |
Call Agent Group | ||
adddn | add domain | Call agent |
addmgc | add call agent | Call agent |
addmgcprotocol | add call agent protocol | Call agent |
cnfcasxgcp | configure CAS xgcp protocol | Call agent |
cnfmgc | configure call agent | Call agent |
cnfrtcprepint | configure RTCP report interval | Call agent |
cnfrtprxtimer | configure RTP recieve timer | Call agent |
cnfsrcppeer | configure srcp peer UDP port | Call agent |
cnfxgcpmwd | configure xgcp max. wait delay | Call agent |
cnfxgcppeer | configure xgcp peer | Call agent |
cnfxgcpretry | configure xgcp retries | Call agent |
deldn | delete domain name | Call agent |
delmgc | delete call agent | Call agent |
delmgcprotocol | delete call agent protocol | Call agent |
dspcasxgcps | display CAS XGCP | Call agent |
dspdn | display domain name | Call agent |
dspdns | display domain names | Call agent |
dspmaxmgcs | display maximum number of call agents | Call agent |
dspmgc | display call agent | Call agent |
dspmgcprotocols | display call agent protocol | Call agent |
dspmgcs | display call agents | Call agent |
dspmgprotocols | display gateway control protocols | Call agent |
dspsrcpcnt | display SRCP counters (line) | Call agent |
dspsrcpcnts | display SRCP counters (all) | Call agent |
dspsrcpeer | display SRCP peer UDP port | Call agent |
dspsrcpeers | display SRCP peer UDP ports | Call agent |
dspsrcpport | display SRCP UDP port | Call agent |
dspxgcpcnf | display xgcp configuration | Call agent |
dspxgcpcons | display xgcp connections | Call agent |
dspxgcpdefpxg | display xgcp default package | Call agent |
dspxgcpdetailcnt | display xgcp detail count | Call agent |
dspxgcpdetailcnts | display xgcp detail counts | Call agent |
dspxgcperrcnt | display xgcp error count | Call agent |
dspxgcppeer | display xgcp peer | Call agent |
dspxgcpport | display xgcp port | Call agent |
dspxgcpcnt | display xgcp count | Call agent |
dspxgcpcnts | display all xgcp counts | Call agent |
Card Group | ||
addport | addport | Card |
addrscprtn | addresource partition | Card |
clrsarcnt | clear SAR counters | Card |
clrsarcnts | clear SAR counters | Card |
clrsarmsgcnt | clear SAR message count | Card |
clrtaskinfo | clear task information | Card |
cnfcodectempl | configure codec template | Card |
cnfgwis | configure VISM in service | Card |
cnfgwoos | configure VISM out of service | Card |
cnftftpdn | configure TFTP domain name | Card |
cnfvismdn | configure vism domain | Card |
cnfvismip | configure vism IP address | Card |
cnfvismmode | configure mode | Card |
delport | delete port | Card |
delrscprtn | delete resource partition | Card |
dspcd | display card | Card |
dspgwstate | display VISM | Card |
dspport | display port | Card |
dsprscprtn | display resource partition | Card |
dspsarcnt | display SAR counters (line | Card |
dspsarcnts | display SAR counters (all) | Card |
dspsarmsgcnt | display SAR message counters | Card |
dsptaskinfo | display task information | Card |
dspvismdn | display card domain | Card |
dspvismip | display vism IP address | Card |
dspvismparam | display VISM parameters | Card |
version | version | Card |
Connection Group | ||
delcon | delete connection | Connection |
addcon | add connection | Connection |
addconloop | add connection loopback | Connection |
addendpt | add endpoint | Connection |
addendptloop | add endpoing loop | Connection |
addendpts | addendpoints | Connection |
cnfcac | configurfe CAC | Connection |
cnfcasendpt | configure CAS endpoint | Connection |
cnfcasvar | configure CAS variant | Connection |
cnfcon | configure connection | Connection |
cnfdeftos | configure type of service | Connection |
delendpt | delete endpoint | Connection |
delendptloop | delete endpoint loop | Connection |
delendpts | delete endpoints | Connection |
dspcon | display connection | Connection |
dspconcnt | display channel counters | Connection |
dspcons | display connections | Connection |
dspendpt | display endpoint | Connection |
dspendpts | display endpoints | Connection |
dsplnendptstatus | display line endpoint status | Connection |
dsploops | dsplay loopbacks | Connection |
tstcon | test connection | Connection |
tstdelay | test delay | Connection |
cnfconprotect | configure connection protection | Connection |
DSP Group | ||
cnfcodecparams | configure codec parameters | DSP |
cnfcodectempl | configure codec template | DSP |
cnfcompsize | configure compression packet size | DSP |
cnfcompvad | configure compression VAD | DSP |
cnfecanenable | configure echo canceler enable | DSP |
cnfecannrn | configure echo canceler nrn | DSP |
cnfecanrec | configure echo canceler rec | DSP |
cnfecantail | configure echo canceler tail | DSP |
cnfecantone | configure echo canceler tone | DSP |
cnferl | configure echo return loss | DSP |
cnfjtrinitdelay | configure initial jitter delay | DSP |
cnfjtrmode | configure jitter mode | DSP |
dspcarddsp | display card DSPs | DSP |
dspcodecparams | display codec parameters | DSP |
dspcodectempls | display codec template | DSP |
dsplndsp | display line DSP | DSP |
pinglndsp | ping line DSP | DSP |
Line Group | ||
addln | add line | Line |
addlnloop | add line loop | Line |
cnfds0loop | configure ds0 loopback | Line |
cnfln | configure line | Line |
cnflnis | configure line in service | Line |
cnflnoos | configure line out of service | Line |
cnflnsig | configure line signal | Line |
cnflntrunkcond | configure line trunk conditioning | Line |
dspds0loop | dsplay ds0 loopback |
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delln | delete line | Line |
dellnloop | delete line loop | Line |
dspln | display line | Line |
dsplndsx0s | dsplay line ds0s | Line |
dsplns | display lines | Line |
dsplnstate | dsplay line state | Line |
Signaling Group | ||
addcasvar | add CAS variant | Signaling |
addlapd | add lapd | Signaling |
addses | add session | Signaling |
addsesgrp | add session group | Signaling |
addsesset | add session set | Signaling |
cnflapdretrans | configure lapd | Signaling |
cnflapdtimer | configure lapd timer | Signaling |
cnflapdtype | configure lapd type | Signaling |
cnflapdwinsize | configure lapd window size | Signaling |
cnfsesack | configure session acknowledgement | Signaling |
cnfsesmaxreset | configure session maximum resets | Signaling |
cnfsesmaxseg | configure session maximum segment | Signaling |
cnfsesmaxwindow | configure session maximum window | Signaling |
cnfsesnullsegtmout | configure session null segment timeout | Signaling |
cnfsesoutofseq | configure session out of sequence | Signaling |
cnfsesport | configure session port | Signaling |
cnfsesretrans | configure session retransmissions | Signaling |
cnfsesstatetmout | configure session statetimout | Signaling |
cnfsessyncatmps | configure session sync attempts | Signaling |
delcasvar | delete CAS variant | Signaling |
dspcasendpts | display CAS endpoints | Signaling |
dspcasvar | dsplay CAS variant | Signaling |
dspcasvarendpts | display CAS variant endpoints | Signaling |
dspcasvars | display CAS variants | Signaling |
dspds0localcasstatus | display ds0 local CAS status | Signaling |
User Group | ||
? | help | User |
cc | change card | User |
chkflash | check flash memory | User |
clrscn | clear screen | User |
Help | help | User |
| Command | Description |
|---|---|
? | help |
addccs | add common channel signaling |
addcid | add channel identifier |
addcon | add connection |
addconloop | add connection loop |
addendpt | add endpoint |
addendptloop | add endpoint loopback |
addendpts | add endpoints |
addln | add line |
addlnloop | add line loop |
addport | addport |
addrscprtn | addresource partition |
cc | change card |
chkflash | check flash memory |
clralm | clear alarm |
clralmcnts | clear alarm counts |
clralms | clear alarms |
clrsarcnt | clear SAR counters |
clrsarcnts | clear SAR counters |
clrsarmsgcnt | clear SAR message count |
clrscn | clear screen |
clrtaskinfo | clear task information |
cnfalm | configure alarm |
cnfaal2subcellmuxing | configure AAL2 sub-cell multiplexing |
cnfcac | configurfe CAC |
cnfcascode | configure CAS coding |
cnfcodectempl | configure codec template |
cnfcompsize | configure compression packet size |
cnfcompvad | configure compression VAD |
cnfcon | configure connection |
cnfconcac | configure connection CAC |
cnfecanenable | configure echo canceler enable |
cnfds0localcas | configure ds0 local CAS |
cnfds0loop | configure ds0 loopback |
cnfecannrn | configure echo canceler nrn |
cnfecanrec | configure echo canceler rec |
cnfecantail | configure echo canceler tail |
cnfecantone | configure echo canceler tone |
cnferl | configure echo return loss |
cnfjtrinitdelay | configure initial jitter delay |
cnfjtrmode | configure jitter mode |
cnfln | configure line |
cnflnsig | configure line signal |
cnflntrunkcond | configure line trunk conditioning |
cnfvismmode | configure mode |
cnftftpdn | configure TFTP domain name |
delccs | delete common channel signaling |
delcid | delete channel identifier |
delcon | delete connection |
delconloop | delete connection loopback |
delendpt | delete endpoint |
delendptloop | delete endpoint loopback |
delendpts | delete endpoints |
delln | delete line |
dellnloop | delete line loop |
delport | delete port |
delrscprtn | delete resource partition |
dspaal2profile | display AAL2 profile |
dspalm | display alarm |
dspalmcnf | display alarm configuration |
dspalmcnt | dispaly alarm count |
dspalms | display alarms |
dspcarddsp | display card DSPs |
dspccs | display common channel signaling |
dspccschans | display CCS channels |
dspccscnt | display CCS counters |
dspcd | display card |
dspcid | display channel identifier |
dspcids | display channel identifiers |
dspcodectempls | display codec template |
dspcon | display connection |
dspconcac | display channel CAC |
dspconcnt | display channel counters |
dspcons | display connections |
dspendpt | display endpoint |
dspds0localcasstatus | display ds0 local CAS status |
dspds0loop | display ds0 loopback |
dspendpts | display endpoints |
dspln | display line |
dsplncids | display line CIDs |
dsplndsp | display line DSP |
dsplndsx0s | dsplay line ds0s |
dsplnendptstatus | display line endpoint status |
dsplns | display lines |
dsplnstate | dsplay line state |
dsploops | dsplay loopbacks |
dspmngcidcnt | display cid count |
dspport | display port |
dsprscprtn | display resource partition |
dspsarcnt | display SAR counters (line |
dspsarcnts | display SAR counters (all) |
dspsarmsgcnt | display SAR message counters |
dsptaskinfo | display task information |
dspvismparam | display VISM parameters |
Help | help |
pinglndsp | ping line DSP |
tstcon | test connection |
tstdelay | test delay |
version | version |
| Command | Description | Group |
|---|---|---|
Alarm Group | ||
clralm | clear alarm | Alarm |
clralmcnts | clear alarm counts | Alarm |
clralms | clear alarms | Alarm |
cnfalm | configure alarm | Alarm |
dspalm | display alarm | Alarm |
dspalmcnf | display alarm configuration | Alarm |
dspalmcnt | dispaly alarm count | Alarm |
dspalms | display alarms | Alarm |
Card Group | ||
addport | addport | Card |
addrscprtn | addresource partition | Card |
clrsarcnt | clear SAR counters | Card |
clrsarcnts | clear SAR counters | Card |
clrsarmsgcnt | clear SAR message count | Card |
clrtaskinfo | clear task information | Card |
cnfcodectempl | configure codec template | Card |
cnfvismmode | configure mode | Card |
cnftftpdn | configure TFTP domain name | Card |
delport | delete port | Card |
delrscprtn | delete resource partition | Card |
dspcd | display card | Card |
dspport | display port | Card |
dsprscprtn | display resource partition | Card |
dspsarcnt | display SAR counters (line | Card |
dspsarcnts | display SAR counters (all) | Card |
dspsarmsgcnt | display SAR message counters | Card |
dsptaskinfo | display task information | Card |
dspvismparam | display VISM parameters | Card |
version | version | Card |
Connection Group | ||
delcon | delete connection | Connection |
addcid | add channel identifier | Connection |
addcon | add connection | Connection |
addconloop | add connection loopback | Connection |
addendpt | add endpoint | Connection |
addendptloop | add endpoint loopback | Connection |
addendpts | addendpoints | Connection |
cnfcac | configurfe CAC | Connection |
cnfaal2subcellmuxing | configure AAL2 sub-cell multiplexing | Connection |
cnfcon | configure connection | Connection |
cnfconcac | configure connection CAC | Connection |
delcid | delete channel identifier | Connection |
delendpt | delete endpoint | Connection |
delendptloop | delete endpoint loopback | Connection |
delendpts | delete endpoints | Connection |
dspaal2profile | display AAL2 profile | Connection |
dspccs | display common channel signaling | Connection |
dspcid | display channel identifier | Connection |
dspcids | display channel identifiers | Connection |
dspcon | display connection | Connection |
dspconcac | display channel CAC | Connection |
dspconcnt | display channel counters | Connection |
dspcons | display connections | Connection |
dspendpt | display endpoint | Connection |
dspendpts | display endpoints | Connection |
dsplncids | display line CIDs | Connection |
dsplnendptstatus | display line endpoint status | Connection |
dsploops | display loopbacks | Connection |
dspmngcidcnt | display cid count | Connection |
tstcon | test connection | Connection |
tstdelay | test delay | Connection |
DSP Group | ||
cnfcompsize | configure compression packet size | DSP |
cnfcompvad | configure compression VAD | DSP |
cnfecanenable | configure echo canceler enable | DSP |
cnfecannrn | configure echo canceler nrn | DSP |
cnfecanrec | configure echo canceler rec | DSP |
cnfecantail | configure echo canceler tail | DSP |
cnfecantone | configure echo canceler tone | DSP |
cnferl | configure echo return loss | DSP |
cnfjtrinitdelay | configure initial jitter delay | DSP |
cnfjtrmode | configure jitter mode | DSP |
dspcarddsp | display card DSPs | DSP |
dspcodectempls | display codec template | DSP |
dsplndsp | display line DSP | DSP |
pinglndsp | ping line DSP | DSP |
Line Group | ||
addln | add line | Line |
addlnloop | add line loop | Line |
cnfln | configure line | Line |
cnfds0loop | configure ds0 loopback | Line |
cnflnsig | configure line signal | Line |
delln | delete line | Line |
dellnloop | delete line loop | Line |
dspln | display line | Line |
dspds0loop | display ds0 loopback | Line |
dsplndsx0s | dsplay line ds0s | Line |
dsplns | display lines | Line |
dsplnstate | dsplay line state | Line |
dsplntrunkcond | display line trunk conditioning | Line |
Signaling Group | ||
addccs | add common channel signaling | Signaling |
cnfcascode | configure CAS coding | Signaling |
delccs | delete common channel signaling | Signaling |
dspccschans | display CCS channels | Signaling |
dspccscnt | display CCS counters | Signaling |
dspds0localcasstatus | display ds0 local CAS status | Signaling |
User Group | ||
? | help | User |
cc | change card | User |
chkflash | check flash memory | User |
clrscn | clear screen | User |
Help | help | User |
Use the ? command to view all commands associated with the current card, and to view a list of commands associated with a truncated command entry.
Help
VoIP and AAL2 Trunking
? [command]
command | Full or partial name of the command. |
help
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This section contains the following example.
raviraj.1.11.VISM.a > ? ecan
Available commands
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cnfecancnf
cnfecannoise
cnfecannr
cnfecannrn
cnfecanrec
cnfecantail
Use the addcasvar command to add a CAS variant to the VISM card. Before this command can be ecxecuted, a file containing the variant information must have already been downloaded to the MGX 8850 PXM card using a separate application (e.g. TFTP). Upon execution, this command downloads the specified file from the PXM and configures the CAS variant on the VISM card based upon the information in the file. This command can be executed at any time to add a new CAS variant.
Add channel associated signaling variant
VoIP
addcasvar <variant name><fileName>
lvariant name | Name of the CAS variant, a text string of 1 - 64 characters. |
fileName | Name of the file that contains the signal definition for the CAS variant. |
cnfcasvar, delcasvar, dspcasvar
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addcasvar casvar wink-did-dod.o
This example adds the wink start CAS variant called "casvar" based upon information contained in file wink-did-dod.o
Use the addccs command to add a CCS channel (D channel) to the VISM card. To execute this card, CCS signaling mode must be selected on the specified line. When executed, this command displays a value called ds0IfIndex which is used to identify the CCS channel in subsequent CCS related commands (for example, delccs or dspccs).
Add common channel signaling
AAL2 Trunking
addccs <line#><DS0#><LCN#>
line# | Line number of the channel to be added in the range 1 - 8 |
DS0# | DS0 number of the channel to be added in the range 1 - 24 for T1, 1-31 for E1 |
LCN# | Logical channel number of the CCS channel to be added in the range 32-279 |
delccs, dspccs
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addccs 1 20 200
This example adds a CCS (D) channel to line 1, DS0 20, logical channel 200.
Use the addcid command to add an AAL 2 channel identifier on the VISM card. This command establish a relationship between and endpoint and a LCN/CID pair. Use only in AAL2 Trunking mode. To execute this command, the endpoint must be already added, the PVC must be of bearer type and already provisioned using addchan, and the current DSP template must contain the desired codec type.
add channel identifier
AAL2 Trunking
addcid <End point#><LCN#><CID#><Codec Type>[<profile type><profile#>
<VADon/off><VadInitTimer><Ecan><Type3Redundancy><CasTransport>
<DtmfTransport><ICS><pkt period>]
Endpoint# | The endpoint number to be related to the LCN/CID pair being added in the range 1 - 240 for E1 and 1 - 192 for T1. |
LCN# | The logical connection number of the LCN/CID pair in the range 32 -279 |
CID# | The CID number of the LCN/CID pair in the range 9 - 255. |
Codec Type | The type of coding/decoding to be performed on the date stream. 1 = G.711u, |
profile Type | The profile type to be used for the CID. 1 = ITU, 2 = ATMF, 3 = Custom (Both profile type and profile # are required). If profile type and profile number are both 1, VAD cannot be turned on. |
profile# | The profile number with the specified profile type |
VADon/off | Enable/disable Voice Activity Detection. 1 = on, 2 = off. If profile type and profile number are both 1, VAD cannot be turned on. |
VADInitTimer | VAD initiation timer, in the range of 250 - 65535. Default is 250 |
Ecan | Enable/disable echo cancellation. 1 = on, 2 = off |
Type3redundancy | Enable/disable triple redundancy protection for type 3 packets. 1 = on, |
CAS Transport | Enable/disable CAS signaling transport as AAL2 type3 packets. 1 = transport, |
DtmfTransport | Enable/disable DTMF tone transport as AAL2 type3 packets. 1 = transport, |
ICS | Enable/disable idle code suppression (ICS) for the CID |
pkt period | Packetization period in ms, applies only to G.729a compression. Allowed values are 10, 20, 30, and 40 ms. |
delcid, dspcid, dspcids
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addcid 10 12 1 2 3 1 1 1 0 0
Use the addcon command to add a PVC connection between the VISM card and any SM or PXM card. The connection may be a slave or master connection. The addport and addrscprtn commands must have been executed before this command is executed. This command displays the local connection id in the nodename.slot.port.vpi.vci format. The local vci that is entered is used as the lcn.
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Note When used in VoIP mode with dual PVCs, the primary channel must be added before the secondary channel. When used in AAL2 Trunking mode, pvc type AAL5 is used for signaling and AAL2 is used for a bearer channel. |
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Note There is one more parameter in this command if the connection being added is specified as master. |
Add connection
VoIP and AAL2 Trunking
addcon <localVCI><preference><pvcType><application><PCR><mastership>[<remoteConnId>]
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Note The <remoteConnId> is optional for both slave and master connections). |
localVCI | The local VCI to be used for the connection in the range 131 - 510. The value entred is also used as the LCN value. |
preference | Specifies the use of a primary or secondary channel, 1 for primary, 2 for secondary. |
pvcType | Specifies the AAL type of the connection. 1 for AAL5, 2 for AAL2 |
application | The application of the connection. 1 = control, 2 = bearer, 3 = signaling. If the connection is used for bearer and signaling, specify 2 for bearer |
PCR | Peak cell rate in Cells per Second. Ranges are: 1 - 75600 for VoIP bearer, |
mastership | Specifies the connection as master or slave. 1 = master, 2 = slave(default). |
temoteConnId | Remote connection identifier. This paramater has the format "nodename.slot.port.vpi.vci". (This parameter is used only when mastership is set to 1). |
dspcon, delcon, dspcons, cnfcon, cnfconprotect
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addcon 160 1 2 2 1000 1 node1.0.2.223.223
This example adds a master connection as the primary channel using AAL2 for bearer traffic. The local VCI is 160 amd the remote end is named node1 in slot 4, port 2 with a vpi/vci of 223/223.
After executing this command a typical local connection id would appear as node1.5.1.0.160 where 160 is the added lcn.
Use the addconloop command to set a cellbus connection to local loopback state on the current card. To remove a local loopback state on a VISM line, use the delconloop command. The loopback is in the direction of the cellbus.
Add Connection Loop
VoIP and AAL2 Trunking
VCN | Virtual channel number of the VC to be set in local loopback state, in the range 32 - 279. |
delconloop
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addlnloop 32
Use the adddn command to add a call agent Domain name, IP address and preference. VISM can supports up to 8 call agents and can maintain up to 8 domain names for each call agent.
add domain name
VoIP
adddn <domanin number><domain name><IP address><preference>
domain number | Domain index in the range 1 - 80 |
domain name | Domain name for a VISM's call agent. A text string of 1 - 64 characters |
IP address | The IP address for a VISM's call agent in dotted decimal format nnn.nnn.nnn.nnn |
preference | The preference level to be used when selecting a domain and IP address to communicate with the call agent. The range is 1 - 8 where 1 is the highest and 8 the lowest. The preference number must be different for different IP addresses using the same domain name.The IP address/preference that is added first is used for communication with the call agent, if a higher preference is added later, the switchover does not occur until the current IP address/preference fails. |
deldn, dspdn, dspdns
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adddn 3 main 209.165.200.224 1
The addendpt command is used to add an endpoint on the VISM card. The endpoint on VISM is a logical port that consists of one DS0. The parameters entered in this command are used to create the "endpoint ID" (or endpoint number)which is required by the call agent for sending the Create Connection SGCP/MGCP/SRCP command (CRCX) to the VISM card. Only bearer ds0s can be configured as endpoints and the line must have added. Note that the endpoint number is not equal to the DS0 number of the associated timeslot. For example, endpoint 1 could be associated with DS0 11.
In VoIP mode, the IP address for VISM must have added using the cnfvismip command before endpoints can be added.
This command causes an RSIP message to be sent to each associated Call Agent indicating that the endpoint is in-service.
Add Endpoint
VoIP and AAL2 Trunking
addendpt <endpt_num> <ds1_num> <ds0_num>
<endpt_num> | An endpoint number in the range 1-240 for E1 and 1-192 for T1 |
<ds1_num> | The physical line number in the range 1-8 |
<ds0_num> | The DS0 configured for this endpoint. DS0s are numbered 1 to 31 for E lines and 1 to 24 for T lines. Note on an E1 line, ds0 number 16 is reserved for CAS signaling if such signaling is used. The ds0 number 16 can be used as a bearer channel, ds0 17 is used for CAS. |
addendpts, delendpt, dspendpt, dspendpts
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addendpt 120 5 5
The addendptloop command is used to place an endpoint in a loopback condition in the TDM direction.
Add Endpoint Loopback
VoIP and AAL2 Trunking
addendptloop <endpt_num>
<endpt_num> | An endpoint number in the range 1-240 for E1 and 1-192 for T1. |
delendptloop
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addendptloop 120
Use the addendpts command to add multiple sequential endpoints with a single command. This command adds a specified number of sequential endpoints starting at a specified endpoint number, line number, and ds0 number. As endpoints are added, the command uses the next available (not added) endpoint numbers and next availble ds0s. The command does not wrap around ds0 and endpoint numbers. Note that the endpoint number is not equal to the DS0 number of the associated timeslot. For example, endpoint 1 could be associated with DS0 11.
When adding endpoints, the user should ascertain that there are enough lines and ds0s to execute the request. If the user attempts to add more end points than are available, only the available endpoints are added. For example, if T1 line 1 is the only line enabled and the user attempts to add 25 endpoints, only 24 endpoints are actually added. However, the actual number of endpoints that are added is displayed.
This command causes an RSIP message to be sent to each associated Call Agent indicating that the endpoints are in-service.
Add endpoints
VoIP and AAL2 Trunking
addendpts <start endpt><start linenum><start ds0num><number of endpoints>
start endpt | Start endpoint number in the range 1 - 192 for T1, 1 - 240 for E1. |
start linenum | Start line number in the range 1 - 8. |
start ds0num | Start ds0 number in the range 1 - 24 for T1, 1 - 15, 17-31 for E1 |
number of endpoints | Number of endpoints to be added in the range 1 - 192 for T1, 1 - 240 for E1. |
delendpts, dspendpts
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addendpts 6 1 12 12
This example adds 12 endpoints with consecutive numbers starting at 6 on line 1 starting at ds0 number 12.
Use the addlapd command to add an ISDN D channel from a specified DS0 to the VISM card. Before this command can be executed, the line must have been specified as CCS, the DS0 must be available, and a session group and session to a call agent must have been created.
Add LAPD D channel
VoIP
addlapd <line number><DS0 number>[<lapd app type>]
line number | The line number on which the D channel is to be added in the range 1 - 8. |
fileName | The DS0 number to be used for the D channel in the range 1 - 24 for T1, 1 - 31 for E1. |
lapd app type | The application type for the D channel. 1 = PRI , 2 = GR-303. For PRI backhaul, PRI should be specified. This parameter is optional, the default is PRI. |
dellapd, dsplapd, dsplapds
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addlapd 2 7 1
This example adds a D channel on line 2, DS0 number 7 for ISDN PRI.
The addln command adds a T1, or E1 line to the current card.
Add line
VoIP and AAL2 Trunking
addln <line number>
line_num | The line number of the T1 or E1 line to be added in the range 1 - 8. |
cnfln, delln, dspln
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addln 1
Use the addlnloop command to set a specified line to local loopback state on the current card. To remove a local loopback state on a VISM line, use the dellnloop command.
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Note The VISM CLI has no command for setting a line to a remote loopback state. To set a line to remote loopback state, the cnfbert command on the PXM card must be used. |
Add Line Loop
VoIP and AAL2 Trunking
line number | Line number to be set in local loopback state, in the range 1- 8. |
dellnloop
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addlnloop 1
Use the addmgc command to add a new call agent to the call agent list on the VISM card. This command must be executed for VISM to accept commands from the call agent. This command also allows the user to specify a call agent as an associate whereby an association between the call agent and VISM is established. When an association is established, RSIP messages are sent to the call agent. The addln command must be executed before the addmgc command can be executed.
Add media gateway controller (call agent)
VoIP
addmgc <mgc number><mgcname><association>
mgc number | A number by which the call agent is identified in the range 1 - 8 where 8 is the maximum number of permitted gateway controllers as specified by the adddn command. |
,mgcname | Domain name of the call agent, a text string up to 64 characters in length. |
association | defines VISM association with call agent. 1 = unassociate, 2 = associate |
addmgc
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addmgc 1 main 1
Use the addmgcprotocol command to specify which gateway control protocol should be used for a specified call agent. The specified call agent must already be configured in VISM.
add media gateway controller (call agent) protocol
VoIP
addmgcprotocol <mgcNumber><protocolNumber>
mgcNumber | the number of the call agent as displayed by the dspmgcs command. Any call agent from the displayed list can be specified in the range 1 - 8. |
protocolNumber | the number of the protocol as displayed by the dspmgcprotocol. Any protocol from the displayed list can be specified in the range 1 - 8. |
delmgcprotocol
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addmgcprotocol 3 2
This command specifies that the call agent number 3 in the dspmgcs list is to use the protocol
number 2 in the dspmgcprotocol list.
Use the addport command to add a virualport between VISM and PXM. Before a VISM card is removed from the MGX 8850, the port should be deleted using the delport command.
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Note If the VISM card is reset after executing an addport command but before executing the addrscprtn command. An error message is displayed. The error has no effect on the system and can be ingnored. |
Add port
VoIP and AAL2 Trunking
delport
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addport
This example adds the network port.
Use the addses command to add a PRI backhaul session to the VISM card. Before this command can be ecxecuted, a session group for this session must have been added.
Add session
VoIP
addses <session number><group number><mgc name><priority><local port><rmt port>
session number | An identifying number for the session in the range 1 - 64 |
group number | The number of the session group to which this session is to be added in the range 1 - 16 |
mgc name | The domain name of the call agent with which the session is to be executed |
priority | A priority for determining which session will become active in the event of a session failure in the same group. Priority is in the range 1 -4 with 1 the highest. |
local port | Local port number. The port number to be used for the session at the VISM end. |
rmt port | Remote port number. The port number to be used for the session at the Call Agent. |
delses, dspses, dspsess
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addsess 4 2 callagent1 2 1124 1124
This example adds a session with the number 4 to session group 2 with call agent domain name being callagent1. The priority of session is 2 and the local and remote ports be used are both 1124.
Use the addsesgrp command to add a PRI backhaul session group to the VISM card. The user specifies which set the group belongs to (currently only set 1) and to which Call Agent the group's sessions are to be associated.
Add session group
VoIP
addsesgrp <group number><set number><mgc name>
group number | An idendifying number for the group in the range 1 - 16. |
set number | The set number to which the group is to be added. Currently only set number 1 is supported. |
mgc name | The domain name of call agent to which the group is to be associated. A text string of up to 64 characters. |
delsesgrp
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addsesgrp 2 1 Jack
This example adds a PRI backhaul session group 2 to set 1 and for Call Agent Jack.
Use the addsesset command to add a PRI backhaul session set to the VISM card. The user specifies a set number, however, in VISM release 2.0, only one set (set # 1) is supported.
Add session set
VoIP
addsesset <group number><fault tolerant>
group number | An idendifying number for the group in the range 1 - 16. |
fault tolerant | Whether the set is to be fault tolerant or not. 1 = fault tolerant, 2 = not fault tolerant. |
delsesset
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addsesset 1
This example adds a PRI backhaul sessionset with the number 1.
Use the addsrcprtn command to add a resource partition for a virtual port that has been configured using the addport command. The addport command must be executed before executing this command.
|
Note If the VISM card is reset after executing an addport command but before executing the addrscprtn command. An error message is displayed. The error has no effect on the system and can be ingnored. |
Add resource partition
VoIP, AAL2 Trunking, AAL1
controller id | The id number of the controller to which the partition is to be assigned. |
delrscprtn, dsprscprtn
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|
|
addrscprtn 2
This example adds a resource partition to controller number 2.
Use the cc command to navigate from card to card.on the shelf. When this command is executed, the card in the specified slot number becomes the active CLI card and is identified in the command line prompt.
Change card
VoIP and AAL2 Trunking
cc <slot number>
slot number | The number of the slot that contains the card you want to work on. |
None
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node1.1.22.AUSM8.a > cc 11 (session redirected) node1.1.11.VISM.a >
A system message does not occur unless an error is detected. If the card slot is empty, an error message is presented.
Use the chkflash command to check the integrity of the VISM flash memory.
Check flash memory
VoIP and AAL2 Trunking
None
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chkflash
Use the clralm command to clear alarms on a specified line on the current card. Alarms occurring after this command is executed are not affected. If alarms on a line are cleared with this command, the results may be observable through the dspalm command.
This command can clear alarms caused only by the collection of statistical data. Alarms caused by network failure cannot be cleared. For example, an alarm caused by a collection of bipolar errors can be cleared, but an alarm caused by a card failure cannot.
Clear Alarm
VoIP and AAL2 Trunking
clralm -ds1 <LineNum>
LineNum | LineNum = 1- 8. |
clralms, dspalm, dspalms
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|
|
clralm -ds1 1
Use the clralmcnts command to clear all the alarm counters and statistics on the current card. All counters are reset to 0. The terminal does not display a response unless an error exists in the syntax.
Clear All Alarm Counters/statistics on the Current Card.
VoIP and AAL2 Trunking
dspalmcnt, clralmcnt
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clralmcnts
The clralms command clears alarms on the current card. Alarms occurring after this command executes are not affected.
This command can clear alarms caused only by the collection of statistical data. Alarms caused by network failure cannot be cleared. For example, an alarm caused by a collection of bipolar errors can be cleared, but an alarm caused by a card failure cannot.
Clear Alarms on Card
VoIP and AAL2 Trunking
clralm, dspalm, dspalms
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clralms
Use the clrsarcnt command to clear the Segmentation and Reassembly (SAR) counters on a specified channel. Number of BCM cells that were received on this channel.
Clear SAR Counters
VoIP and AAL2 Trunking
clrsarcnt <chan#>
chan# | The channel number for which the counters are to be cleared. |
dspsarcnt
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|
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clrsarcnt
Use the clrsarcnts command to clear all SAR counters on the VISM card.
Clear SAR Counts
VoIP and AAL2 Trunking
clrsarcnt, dspsarcnt, dspsarcnts
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clrsarcnts
Use the clrsarmsgcnt command to clear the control message counters.
Clear SAR Control Message Counters
VoIP and AAL2 Trunking
dspsarmsgcnt
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clrsarmsgcnt
Use the clrscrn command to clear the control terminal screen. After this command executes, only the current command line prompt appears on the screen.
Clear Terminal Screen
VoIP and AAL2 Trunking
None
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clrscrn
Use the clrtaskinfo command to reset the values displayed by the dsptaskinfo command. When this command is executed the values are reset to zero and the collection of the task information statistics begins again.
Clear task information
VoIP and AAL2 Trunking
dsptaskinfo
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clrtaskinfo
Use the cnfaal2subcellmuxing command to enable or disable AAL2 subcell multiplexing. When enabled multiple CPS-packets are mulitplexed onto a single AAL2 connection without partial fill (unless there is a time-out). When disabled, each CPS-packet fill one or two cell (with padding). Note that the length field for each CPS-packet can be up to 64 bytes.
When the mulitplexing type is changed if cids are present, the card is reset and existing cids/connections are restored with the multiplexing type
Configure AAL2 sub-cell multiplexing
AAL2 Trunking
cnfaal2subcellmuxing <Muxing status>
None
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cnfaal2subcellmuxing 2
Use the cnfalm command to configure the alarm parameters for a specified line. The line must be added before this command can be executed.
Configure alarm
VoIP and AAL2 Trunking
cnfalm -ds1 <LineNum> -red <RedSeverity> -rai <RAISeverity>-neu <NEAlarmUpcount>
-ned <NEAlarmDncount> -net <NEAlarmThreshold>-feu <FEAlarmUpcount>
-fed <FEAlarmDncount> -fet <FEAlarmThreshold>"
lineNum | Line number in the range 1 - 8. |
RedSeverity | Red alarm severity. 1 = minor, 2 = major |
RAISeverity | RAI alarm severity. 1 = minor, 2 = major |
NEAlarmUpcount | Near end alarm upcount in the range 1 - 65535 |
NEAlarmDncount | Near end alarm downcount in the range 1 - 65535 |
NEAlarmThreshold | Near end alarmthreshold in the range 1 - 65535 |
FEAlarmUpcount | Far end alarm upcount in the range 1 - 65535 |
FEAlarmDncount | Far end alarm down count in the range 1 - 65535 |
FEAlarmThreshold | Far end alarm threshold in the range 1 - 65535 |
dspalm, clralm, clralms
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cnfalm -ds1 2 -red 1 -rAI 1
Use the cnfcac command to enable Connection Admission Control(CAC) feature on a card basis. When CAC has been enabled with this command, CAC can be applied on a per PVC basis using the cnfconcac command.
Configure Connection Admission Control
VoIP and AAL2 Trunking
cnfcac <enable_flag>
enable_flag | Set the value of the CAC enable flag. 1 = Disable, 2 = Enable |
cnfconcac
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cnfcac 2
This example enables CAC for the card
Use the cnfcascode command to configure CAS coding parameters for an endpoint. The parameters that can be configured are on-hook, off-hook, idle_code, seized_code. The line associated with the endpoint must have been added before this command can be executed.
Configure Channel Associated Signaling
AAL2 Trunking
cnfcascode <endpoint#>[-<endpoint#>]<idle_code><seized-code>
endpoint# | The endpoint being configured. If the second (optional) parameter is specified, this parameter is the first endpoint in a sequential number of endpoints. |
endpoint# | An optional parameter to indicate the last endpoint in a sequential range of endpoints. In the range 1 - 192 for T1, 1 - 240 for E1. |
idle_code | The valid value for a 4-bit idle code. The value is in the range 0 to 15 and represents the four A, B, C, and D signaling as bits 3, 2, 1, and 0 respectively with bit 3 the most significant. |
seized_code | The valid value for a 4-bit seized code. The value is in the range 0 to 15 and represents the four A, B, C, and D signaling as bits 3, 2, 1, and 0 respectively with bit 3 the most significant. |
None
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cnfcascode 1 4 4 9
This example sets value for idle code and seized code for endpoints 1 to 4. The idle code is 0100 (paramter value of 4) with A = 0, B = 1, C = 0, D = 0. The seized code is 1001 (parameter value of 9) with A = 1, B = 0, C = 0, D = 1.
Use the cnfcasendpt command to associate an endpoint with a CAS variant. To execute this command, the endpoint and the CAS variant must already be added..
If there is no connection on an endpoint when the endpoint is associated with a CAS variant, the user can use cnfcasendpt again to change the CAS variant. However, if there is a connection on an endpoint, the CAS variant can only be changed by first deleting the endpoint, then adding it back again and then executing the cnfcasendpt command.
Configure CAS endpoint
VoIP
cnfcasendpt <endpoint#><casVariantName>
endpoint# | The endpoint number of the endpoint to be associated with the CAS variant. In the range 1 - 192 for T1, 1 - 240 for E1. |
casVariantName | A CAS variant name, a character string in the range of 1 to 64 characters. |
None
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cnfcasendpt 3 var1
This example associates endpoint 3 with the variant "var1".
Use the cnfcasvar command to configure CAS variant and CAS timing parameters for a variant already created using the addcasvar command.
Configure Channel Associated Signaling Variant
VoIP
cnfcasvar <variantName><country_code><Tpart><Tcrit><TMF>
variantName | The variant name of the variant being configured. This name must have been created using the addcasvar command. |
country_code | The country code of the variant. A 2 character text string. |
Tpart | The partial dial time in seconds in the range 10 to 10000 in increments of 10. |
Tcrit | The critical timing in seconds in the range 0 to 10000 in increments of 10 |
TMF | The interdigit timeout value for MF digits in seconds in the range 1 to 10 |
addcasvar, delcasvar, dspcasvar, dspcasvar
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cnfcasvar var1 nz 10 10 2
This example configure variant "var1" for country code "nz" with a partial dial timeout of 10 seconds, a critical timing of 10 seconds and an interdigit timeout of 2 seconds.
Use the cnfcodecparams command to configure a codec parameters.
This command operates in VoIP mode only.
Configure codec parameters
VoIP
cnfcodecparams<codec-type><pkt-period>
codec-type | The codec type: |
pkt-period | Packetization period in msecs: |
dspcodectmpl
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cnfcodectmpl 1
This example enables template number 1
Use the cnfcodectmpl command to configure a template for the whole VISM card. In release 2.1 there two templates (1 and 2). A template defines the allowable voice encoding types.
Template number 1 supports G.711u, G.711a, G.729a, G.729ab, G.726/32, and clear channel codecs. This template is not allowed in VoIP mode.
Template number 2 supports G.711u, G.711a, and clear channel only. Note that execution of this command requires confirmation by the user because the command causes the card to reset.
This command is not allowed if cids are present.
Configure template
VoIP and AAL2 Trunking
cnfcodectmpl <Template#>
template# | The template number in the range 1 - 2. |
dspcodectmpl
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cnfcodectmpl 1
This example enables template number 1
The cnfcompsize command is used to configure the packet size for digital signal processors (DSPs) on the VISM card that are used for voice compression. This command applies to all DSPs on the VISM used for voice compression.
Configure packet size on all voice compression DSP
VoIP and AAL2 Trunking
cnfcompsize <packetSize>
packetSize | Packet size. Can be set to 80 or 160 bytes |
None
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cnfcompsize 160
This example sets the DSP compression packet size to 160 bytes
Use the cnfcompvad command to enable or disable voice activity detection (VAD) on a specified line.
Configure VAD
VoIP and AAL2 Trunking (however this command has no affect in Trunking mode).
cnfcompvad <line#><voiceDetection>
line# | The line number of the line for which VAD is being configured in the range 1 - 8. |
voiceDetection | Enables/disables VAD. 1 = disable, 2 = enable. |
None
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cnfcompvad 3 2
This example enables VAD for line 3.
Use the cnfcon command to configure a connection between the VISM card and the MGX 8850 PXM card.
Configure connection
VoIP and AAL2 Trunking
cnfcon <lcn><PCR><service_type>[<SCR_ingress><MBS_ingress>]
lcn | The number of the channel being configured in the range 32 - 279. |
PCR | Peak cell rate in cells per second. Ranges are 1 - 72000 for VoIP bearer pvc, 1 - 50000 for T1 AAL2, 1 - 60000 for E1 AAL2. PCR cannot be changed if calls/connections for signaling and control are active. |
service_type | Service type, 1 = CBR, 2 = VBR-RT |
SCR_ingress | Sustained cell rate in cells per second in the range 1 - 72000 |
MBS-ingress | Maximum burst rate in cells per second in the range 1 - 72000 |
addcon, delcon
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cnfcon 40 2000 1 100
Use the cnfconcac command to configure CAC on an already added connection. The cnfcac command must havebeen executed to enable CAC at the card level. If the PVC has been configured as a master, CAC functionality can only be applied to the master end of the PVC. This command is used for AAL2 Trunking mode only.
Configure channle CAC
AAL2 Trunking
cnfconcac<lcn><master>
lcn | The logical channel number (lcn) of the connection being configured in the range 32 - 279. |
master | End of PVC to which CAC is applied. 1 = master end, 2 = slave end |
cnfcac, dspconcac
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cnfconcac 32 1
This example sets CAC at the master end of lcn 32.
Use the cnfconprotect command to configure the desired protection of a PVC. If a PVC (designated the primary PVC) is protected, automatic switchover to a specified secondary PVC occurs in the event of a failure in the primary PVC. This command operates in VoIP mode only and the primary and secondary PVC must already have been added using addcon and both channels must have the same PCR (peak cell rate) value.
First add the primary channel as unprotected then the secondary channel as unprotected (the PCR for both channels should be the same). Protect the primary channel using this cnfconprotect command with the fallback lcn set to that of the secondary channel. The primary channel can be locked in which case it becomes inoperative and forces a switchover to the secondary channel. If the primary channel is locked and the secondary channel fails, the connection fails.
A protected channel cannot be deleted. To delete the connection, first use cnfconprotect to unprotect the primary channel, then delete the secondary channel, then delete the primary channel.
Configure connection protection
VoIP
cnfconprotect <lcn#><protection><locking_state><fallbackLcn>
lcn# | The logical channel number of the channel being configured for protection in the range 32 - 279. |
protection | Sets protection. 1 = protected, 2 = unprotected |
locking_state | Specifies whether the channel should be locked/unlocked. 1 = unlock, 2 = lock. |
fallbackLcn | The logical channel number of the fallback (secondary) channel in the range 32 - 279. |
None
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|
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cnfconprotect 32 1 1 17
This example protects lcn 32 (unlocked) with lcn 17 as the fallback connection.
Use the cnfdeftos command to configure the type of service (tos) parameters for both control and bearer IP packets. These bearer parameters are used in call control in cases where the parameters are not supplied by the Call agent.
If this command is not executed, the system wide default values are used for all connections. The default values are shown in the table below.
Configure type of service
VoIP
cnfdeftos <control_precedence><control_tos>[<bearer_precedence><bearer_tos>]
|
Note The bearer_prededence and bearer_tos parameters are used on a per call basis by VISM in VoIPmode when they are not provided by the call agent in the xgcp message. |
control-precedence | Sets the control precedence value in the range 0 - 7. Default is 3 |
control_tos | Sets the control type of service value in the range 0, 1, 2, 4, or 8. Default is 0. The TOS conforms to RFC 1349 |
bearer-precedence | Sets the bearer precedence value in the range 0 - 7. Default is 5. Precedence conforms to RFC 791. |
bearer_tos | Sets the bearer type of service value in the range 0, 1, 2, 4, or 8. Default is 0 |
None
|
|
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cnfdeftos 4 4 0 0
This example sets the control precedence and tos to 4 and the bearer precedence and tos to 0.
Use the cnfds0localcas command to configure a local CAS bit pattern for a specified line and ds0. If a ds0 is configured for local CAS, the framer forces the CAS bits to a value defined by the localCadPattern parameter in this command. This command is allowed for T1 lines only.
This command is not allowed if:
The line signaling type is CAS
The line is not enabled
The ds0 is in a remote loop state.
Configure ds0 local CAS
VoIP and AAL2 Trunking
cnfds0localcas<line no><ds0 no><localCasType><localCasPattern>
line no. | The line number for which the local CAS is specified in the range 1 - 8 (T1 lines only) |
ds0 no. | The ds0 number for which the local CAS is specified in the range 1 - 24 |
localCasType | The type of CAS to be used. 1 = local CAS pattern enabled, 2 = local CAS pattern disabled. |
localCasPattern | The local 4-bit pattern expressed as a number in the range 1 - 15 (default is 0). |
dspds0localcasstatus
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|
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cnfds0localcas 2 12 1 3
This example sets the local CAS pattern on line 2, ds0 12 to a value of 3 (binary 0011).
Use the cnfds0loop command to configure a the loopback type for a specified line and ds0.
Configure ds0 loopback
VoIP and AAL2 Trunking
cnfds0localcas<line no><ds0 no><loopbackType>
line no. | The line number for which the loopback is specified in the range 1 - 8. |
ds0 no. | The ds0 number for which the loopback is specified in the range 1 - 24 for T1, 1 - 31 for E1. |
loopbackType | The type of loopback to be used. 1 = no loopback, 2 = remote loopback, 3 = local loopback. |
dspds0loopback
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|
|
cnfds0loopback 2 12 2
This example sets the loopback on line 2, ds0 12 to remote.
The cnfecanenable command is used to enable or disable echocancellation on a specified line.
Configure echo cancellation enable
VoIP and AAL2 Trunking
cnfecanenable <line#><ECANEnable>
line# | Line number for which echo cancellation is being set. |
ECANEnable | Sets the echo cancellation for the specified line. 1 = disable, 2 = enable. |
dsplndsp, cnfecannrn, cnfecanrec, cnfecantail, cnfecantone
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|
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cnfecaenable 2 2
This example set echo cancellation to enabled on line 2
The cnfecannrn command is used to configure the re-enable canceller for digital signal processors (DSPs) on the VISM card that are used for echo cancellation. This command applies to DSPs processing data on a specified line.
Configure re-enable canceller for echo cancellation DSPs for a specified line
VoIP and AAL2 Trunking
cnfecannrn <line#><ECANRenable>
line# | The line number for which the re-enable is being configured in the range 1 - 8. |
ECANRenable | A number in the range of1-2. |
dsplndsp, cnfecanenable, cnfecanrec, cnfecantail, cnfecantone
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|
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cnfecannrn 1 2
This example re-enables echo cancellalion at the end of the current call for line 1.
The cnfecanrec command is used to configure the residual echo control for digital signal processors (DSPs) on the VISM card that are used for echo cancellation. This command applies to DSPs processing data on a specified line.
Configure residual echo control for echo cancellation DSPs for a specified line.
VoIP and AAL2 Trunking
cnfecanrec <line#><residualEchoControl>
line# | The line number for which the residual echo control is being configured in the range 1 - 8. |
residualEchoControl | A number with a value of 1, 2, or 4. |
dsplndsp, cnfecanenable, cnfecannrn, cnfecantail, cnfecantone
|
|
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cnfecanrec 1 4
This example configures line 1 for comfort noise
The cnfecantail command is used to configure the maximum tail length (in milliseconds) for digital signal processors (DSPs) on the VISM card that are used for echo cancellation. This command applies to DSPs processing data on a specified line.
Configure maximum tail length for echo cancellation DSPs for a specified line.
VoIP and AAL2 Trunking
cnfecantail <line#><maximumTail>
line# | The line number for which the maximum tail is being configured in the range 1 - 8. |
maximumTail | The length of the maximum tail in milliseconds. Permissible values are 24, 32, 48, 64, 80, 96, 112, and 128. |
dsplndsp, cnfecanenable, cnfecannrn, cnfecanrec, cnfecantone
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cnfecantail 3 96
This example set the maximum tail to 96 milliseconds for line 3
The cnfecantone command is used to configure the tone disable for digital signal processors (DSPs) on the VISM card that are used for echo cancellation. This command applies to DSPs processing data on a specified line. The default value of G.165 should be used under normal circumstances.
Configure tone disable for echo cancellation DSPs on a specified line.
VoIP and AAL2 Trunking
cnfecantone <line#><toneDisable>
line# | The line number on which the tone is being configured in the range of 1 - 8 |
toneDisable | A number 1, 2, or 4. |
dsplndsp, cnfecanenable, cnfecannrn, cnfecanrec, cnfecantail
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|
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cnfecantone 1 4
This example set the tone to G.165 mode for line 1.
Use the cnfendptcadence command to configure cadence (digit tone) times for a specified endpoint.
Configure endpoint cadence.
VoIP
cnfendptcadence<endpoing#><on-time><off-time>
endpoint# | The endpoint number for which the cadence is being configured, in the range |
on-time | The time in milliseconds during which the digit tone is generated in the range |
off-time | The time in milliseconds of silence between digit tones in the range |
None
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|
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cnfendptcadence 20 100 100
This example sets the digit time and the silence time to 100 msecs for endpoint 20
Use the cnferl command to configure DSP return echo loss values.
Configure echo return loss.
VoIP and AAL2 Trunking
cnferl<db_loss_value>
db_loss_value | The value of echo return loss to be applied by echo cancellation DSPs. 1 = 0 db, 2 = 3 db, 3 = 6 db, 4 = worst level |
None
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|
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cnferl 3
This example sets the echo loss value to 6 db.
Use the cnfgwis command to bring an out-of-service VISM into service. This command is used in conjunction with the cnfwoos (configure gateway out of service) command. This command causes a RSIP notification to be sent to the call agent.
Configure gateway into service
VoIP
cnfgwoos
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|
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cnfgwis
Use the cnfgwoos command to bring the in-service VISM out of service. Associated Call agents are notified of the state change through an RSIP notification. The out-of-service method can be specified as either graceful or forceful.
If `graceful out of service' is specified, existilng connections are not released and are allowed to terminate naturally. All new connection requests will be rejected. Immediately after this command is executed, the gateway will transition to `pendingOutOfService state'. The gateway will transition to `commandedOutOfService' state when all connections have been deleted by the call agent.
If `forceful out of service' is specified, gateway will delete all existing connections and will transition to `commandedOutOfService' state. All new connection requests will be rejected.
Configure Gateway Out of Service
VoIP
cnfgwoos <method>
method | The method of going out-of-service. 2 = forceful, 3 = graceful |
cnfgwis, dspgwstate
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|
|
cnfgwoos 2
Use the cnfjtrinitdelay command to configure the jitter buffer size. If the jitter delay mode is set to fixed (set by the cnfjtrmode command) the jitter buffer size is fixed at this value for the call. If the jitter delay mode is not fixed (adaptive), this is the initial jitter buffer size, and the DSP will adapt to an optimal size. Changing the delay parameter does not affect any existing CIDs. The new value is sent to the DSPs only when CIDs are open.
Configure jitter delay
VoIP and AAL2 Trunking
cnfjtrinitdelay <delay>
delay | The delay to be used in setting the buffer size for dejittering. Allowable values are 10, 20, 30, 40, 50, 60, 70, 80, 90, and 100 milli-seconds. The default is 60. |
cnfjtrmode, dspcarddsp
|
|
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cnfjtrinitdelay 70
This example sets the jitter buffer size to 70 ms.
Use the cnfjtrmode command to set the jitter algorithm to fixed or adaptive with regard to jitter delay. It is recommended that fixed is used if the latency jitter is constant and that adaptive is used if the latency jitter varies. Changing the mode parameter does not affect any existing CIDs. The new parameter value is sent to the DSPs only when CIDs are open.
Configure jitter mode
VoIP and AAL2 Trunking
cnfjtrmode <mode>
mode | The mode of determining jitter delay. 1 = fixed, 2 = adaptive |
cnfjtrinitdelay, dspcarddsp
|
|
|
cnfjtrrmode 2
This example sets the jitter delay to adaptive.
Use the cnflapdretrans command for an already added LAPD D channel to configure the maximum allowed number of frame retransmissions.
Configure LSPD retransmissions
VoIP
cnflapdretrans <line number><ds0 number><N200>
line# | The line number of the D channel being configured. |
ds0# | The DSO specified in the addlapd command |
N200 | The maximum number of retransmission of a frame in the range 1 - 10. |
cnflapdwinsize, cnflapdretrans, cnflapdtimer, cnflapdtype
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|
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cnfccs 2 12 10
For line 2, DS0 12, this example sets the maximum number of retransmissions to 10.
Use the cnflapdtimer command for an already added LAPD D channel to configure two LAPD timers. The first is the time at the end of which a frame transmission can be initiated (T200) and the second is the maximum time allowed without frames being exchanged (T203).
Configure LAPD timers
VoIP
cnfccs <linenumber><ds0 number><T200><T203>
line# | The line number of the D channel being configured. |
ds0# | The DSO specified in the addlapd command |
T200 | Thetimeout, in milliseconds, at the end of which a frame transmission is initiated in the range 1000 - 1023000 for PRI and 100 - 350 for GR-303 (in increments of 50). The specified value must be less than the value specified for T203. |
T203 | The maximum time, in milliseconds, allowed without a frame being exchanged in the range of 10000 - 1023000 for PRI (default is 10000) and 100000 - 300000 for GR-303 (in increments of 10000) (default is 30000). The specified value must be greater than the value specified for T200. |
cnflapdwinsize, cnflapdretrans, cnflapdtimer, cnflapdtype
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cnfccs 2 12 300
For line 2, DS0 12, this example sets the window size to 10..
Use the cnflapdtype command for an already added LAPD D channel to configure the various types of LAPD stack.
Configure LAPD type
VoIP
cnfccs <linenumber><ds0number><Type>
linenumber | The line number of the D channel being configured. |
ds0 number | The DSO specified in the addlapd command. |
Type | The type of LAPD stack to be used. The number in parenthesis is the parameter value to be used. ccitt(1) att5EssPRA(3) att4Ess(4) ntDMS100PRA(6) vn2or3(7) insNet(8) tr6MPC(9) tr6PBX(10) ausp(12) ni1(13) ssetsi(14) bc303TMC(15) bc303CSC(16) ntDMS250(17) bellcore(18) ni2(19) |
cnflapdwinsize, cnflapdretrans, cnflapdtimer
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cnfccs 2 12 12
For line 2, DS0 12, this example sets the LAPD typs to ausp .
Use the cnflapdwinsize command for an already added LAPD D channel to configure the maximum allowed number of outstanding (unacknowledged) I-frames.
Configure LAPD window size
VoIP
cnflapdwinsize <line number><DS0 number><window size>
linenumber | The line number of the D channel being configured. |
DS0 number | The DSO specified in the addlapd command |
window size | The maximum number of outstanding I-frames that can be accumulated before sending an acknowledgement in the range 1 - 128. |
cnflapdretrans, cnflapdtimer, cnflapdtype
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cnflapdwinsize 2 12 10
For line 2, DS0 12, this example sets the window size to 10.
Use the cnfln command to configure line characteristics for the current card. The line must be added before this command can be executed.
Configure Line
VoIP and AAL2 Trunking
cnfln <line_num> <line_code> <line_len> <clk_src> <line_type><loopback_detection>
line_num | Line number, in the range 1-8. |
line_code | Value to set line coding.
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line_len | Line length, as appropriate for the interface.
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clk_src | Value to set clock source as either loop clock or local clock.
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line_type | Line type. 1 = dsx1ESF, 2 = dsx1D4, 3 = E1, 4 = E1CRC, 5 = E1Mf, 6 = E1MFCRC, 7 = E1 Clear |
loopback_detection | Loopback code detection, 1 = disabled, 2 = enabled. |
addln, delln
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cnfln 2 2 8 1 1 1
Use the cnflnis command to bring an out-of-service VISM line into service. If the VISM card is rebooted, this information configuration using this command is lost.
Configure line into service
VoIP
cnflnis<line_num>
line num | The number of the line to be brought into service in the range 1 - 8 |
cnflnoos, dsplnstate, dspgwstate
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cnflnis 2
Use the cnflnoos command to bring the in-service VISM line out of service. The out-of-service method can be specified as either graceful or forceful.
If `graceful out of service' is specified, existing connections are not released and are allowed to terminate naturally. All new connection requests will be rejected. Immediately after this command is executed, the gateway will transition to `pendingOutOfService state'. The gateway will transition to `commandedOutOfService' state when all connections have been deleted by the call agent.
If `forceful out of service' is specified, gateway will delete all existing connections and will transition to `commandedOutOfService' state. All new connection requests will be rejected.
If the VISM card is rebooted, this information configuration using this command is lost
Configure Line Out of Service
VoIP
cnflnoos<line_num><method>
line num | The number of the line to be taken out of service in the range 1 - 8 |
method | The method of going out of service: 2 = forceful, 3 = graceful |
cnflnis
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cnflnoos 2
Use the cnflnsig command to configure a signaling mode for a specified line. Signaling types are CAS, CCS, and no signaling. This command requires confirmation by the user before execution to ensure that the signaling type cannot be changed while endpoints are configured for that line. In AAL2 Trunking mode, this command is not allowed when CIDs/CCS channels are present. When used with E1 lines, the line type must be either E1MF or E1MFCRC otherwise the command will not execute.
Configure line signaling
AAL2 Trunking
cnflnsig <line#><Signaling type>
line#r | The line number for which the signaling is being specified in the range of 1 - 8 |
Signaling type | Type of signaling required. 1 = CAS, 2 = CCS, 3 = no signaling |
dspln
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cnflnsig 3 2
Use the cnflntrunkcond command to enable or disable trunk conditioning on a per line basis. When enabled VISM conditions the affected ds0 when an AIS is detected on the ATM side. Trunk conditioning consists of transmitting an idle code pattern for 2.5 seconds followed by the seized code specified in the cnfcascode command.
This command is not allowed if endpoints or ccs channels are enabled on the line.
Configure trunk conditioning
AAL2 Trunking
cnflntrunkcond <line no.><trunkCondType>
line no. | The line number on which conditioning is to be enabled or disabled in the range 1 - 8. |
trunkCondType | The status of conditioning to be performed. 1 = enable, 2 = disable |
None
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cnflntrunkcond 2
Use the cnfmgc command to specify a call agent as an associate. The call agent must have already been added through the addmgc command. If addmgcprotocol with SGCP/MGCP has been done and if the association state is set to associate then VISM will send RSIP to that MGC.
This command can also be used to "unassociate" a callagent.
Configure media gateway controller (call agent)
VoIP
cnfmgc <mgc number><association state>
mgc number | a number by which the call agent is identified in the range 1 - n where n is the maximum number of permitted gateway controllers as specified by the adddn command. |
association state | defines VISM association with call agent. 1 = unassociate, 2 = associate. |
addmgc, dspmgcs
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cnfmgc 11
Use the cnfrtcprepint command to configure the RTCP report interval for the VISM card. This command operates in VoIP mode only
Configure RTCP report interval
VoIP
cnfrtcprepint <report_interval>
report_interval | The interval in milliseconds between RTCP report packets sent to the peer VoIP endpoints. Allowable values are in multiples of 10 within the range 500 - 1500 |
dspvismparam
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cnfrtcprepint 1000
This example sets the RTCP report packet interval to 1 second (1000 milliseconds).
Use the chfrtprxtimer command to configure the VISM card for RTP receive processing.. This command operates in VoIP mode only. If this parameter is enabled, no reception of RTP packets for a given connection within 5 seconds (non-configurable) will result in gateway-initiated connection deletion.
Configure rtp receive timer
VoIP
cnfrtprxtimer <rx_timer>
rx-timer | Sets the receipt of RTP messages to enable or disable. 1 = enable, 2 = disable. |
None
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cnfrtprxtimer 2
This example enables the receipt of RTP messages at the VISM card.
Use the cnfsesack command for an already added PRI backhaul sessionto to configure the timeout period to send out an acknowledgement and the maximum number of acknowledgements that can accumulated before sending an acknowledgements.
Configure session acknowledgements
VoIP
cnfsesack <session number><acknowledgement timeout><acknowledgement>
session number | The session number being configured |
acknowledgement timeout | The timeout period, in milliseconds, to send out an acknowledgement in the range 100 - 65535. |
acknowledgement | The maximum number of acknowledgements that can accumulated before sending an acknowledgements in the range 0 - 255. |
cnfsesport, cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxseg, cnfsesmaxreset, cnfsesretrans, cnfsesoutofseq, cnfsesnullsegtmout, cnfsesstatmout
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cnfsesack 2 500 10
This example sets the session 2 for an acknowlegement period of 500 milliseconds and the maximum of accumulated acknowledgements of 10.
Use the cnfsesmaxreset command for an already added PRI backhaul sessionto to configure the maximum number of resets that VISM will perform before a connection is reset.
Configure maximum resets
VoIP
cnfsesmaxreset <session number><resets><maxfrramesize>
session number | The session number being configured |
resets | The maximum number of resets that VISM will perform before a connection is reset in the range 0 - 255. |
cnfsesport, cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxseg, cnfsesretrans, cnfsesack, cnfsesoutofseq, cnfsesnullsegtmout, cnfsesstatmouts
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cnfsesmaxreset 2 25
This example sets the maximum number of resets for session 2 to 25.
Use the cnfsesmaxseg command for an already added PRI backhaul sessionto to configure the maximum segment size, in octets, that can be received by VISM after sending a SYN message.
Configure maximum segment size
VoIP
cnfsesmaxseg <session number><segment size>
session number | The session number being configured |
segment size | The maximum segment size, in octets, that can be received by VISM after sending a SYN message in the range 30 - 65535. |
cnfsesport, cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxreset, cnfsesretrans, cnfsesack, cnfsesoutofseq, cnfsesnullsegtmout, cnfsesstatmout
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cnfsesmaxseg 2 1000
This example sets the segment size for session 2 to 1000 octets.
Use the cnfsesmaxwindow command for an already added PRI backhaul session to change the maximum number of segments (window) that can be sent before receiving an acknowledgement.
Configure session maximum window
VoIP
cnfsesmaxwindow<session number><window size>
session number | The session number being configured in the range 1 - 64 |
window size | The number of segments that can be sent before receiving and acknowlgement in the range 1 - 64. |
cnfsesport, cnfsessyncatmps, cnfsesmaxseg, cnfsesmaxreset, cnfsesretrans, cnfsesack, cnfsesoutofseq, cnfsesnullsegtmout, cnfsesstatmout
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cnfsesmaxwindow 2 44
This example sets the number of segments for session 2 to 44.
Use the cnfsesnullsegtmout command for an already added PRI backhaul sessionto to configure the period, in milliseconds, of idle time before sending a null segment.
Configure null segment timeout
VoIP
cnfsesnullsegtmout<session number><timeout>
session number | The session number being configured in the range 1 - 64. |
timeout | The period, in milliseconds, of idle time before sending a null segment in the range 0 - 65535. |
cnfsesport, cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxseg, cnfsesmaxreset, cnfsesretrans, cnfsesack, cnfsesoutofseq, cnfsesstatmout
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cnfsesnullsegtmout 2 1000
For session 2, this example sets the idle timeout period to 1000 milliseconds.
Use the cnfsesoutofseq command for an already added PRI backhaul sessionto to configure the maximum number of out of sequence packets that can be accumulated before sending an EACK packet.
Configure session out of sequence packets
VoIP
cnfccs <session number><packets>
session number | The session number being configured |
packets | The maximum number of out of sequence packets that can be accumulated before an EACK packet is transmitted in the range 0 - 255. If a value of 0 is specified, a DACK message is sent immediately upon receiving an out of sequence packet. |
cnfsesport, cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxseg, cnfsesmaxreset, cnfsesretrans, cnfsesack, cnfsesnullsegtmout, cnfsesstatmout
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cnfsesoutofseq 2 10
This example sets the number of out of sequence packets received for session 2 to 10.
Use the cnfsesport command to change the port numbers of an already added PRI backhaul session.
Configure session port
VoIP
cnfsesport <session number><local port><remote port>
session number | The session number being configured. |
local port | Local port number. The port number to be used for the session at the VISM end. In the range 1124 - 3123. |
remote port | Remote port number. The port number to be used for the session at the Call Agent. In the range 1124 - 3123. |
cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxseg, cnfsesmaxreset, cnfsesretrans, cnfsesack, cnfsesoutofseq, cnfsesnullsegtmout, cnfsesstatmout
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cnfsesport 3 1200 1204
This example configures session number 4 for local port 1200 and remote port 1204.
Use the cnfsesretrans command for an already added PRI backhaul sessionto to configure the timeout period for unacknowledged packets and the number of retransmissions. When the maximum retransmissions have been made and there is still not acknowledgment, the session is deemed to have failed.
Configure retransmissions
VoIP
cnfsesretrans <session number><retrans timeout><retrans>
session number | The session number being configured in the range 1 - 64 |
retrans timeout | The timeout period, in milliseconds, for unacknowledged packets in the range 100 - 65535. |
retrans | The number of retransmissions in the range 0 - 255. |
cnfsesport, cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxseg, cnfsesmaxreset, cnfsesack, cnfsesoutofseq, cnfsesnullsegtmout, cnfsesstatmouts
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cnfsesretrams 2 1000 20
This example sets the retransmission timeout value to 1000 milliseconds and the number of retransmissions to 20 for session 2..
Use the cnfsesstatetmout command for an already added PRI backhaul sessionto to configure the number of milliseconds that VISM will wait for a transfer state before executing an auto reset .
Configure session state timeout
VoIP
cnfsesstatetmout <session number><timeout>
session number | The session number being configured in the range 1 - 64. |
timeout | The number of milliseconds that VISM will wait for a transfer state before executing an auto reset in the range 0 - 65535. |
cnfsesport, cnfsesmaxwindow, cnfsessyncatmps, cnfsesmaxseg, cnfsesmaxreset, cnfsesretrans, cnfsesack, cnfsesoutofseq, cnfsesnullsegtmout
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cnfsesstatetmout 2 500
For session 2, this example sets the auto reset timeout to 500 milliseconds.
Use the cnsesfsyncatmps command for an already added PRI backhaul sessionto to configure the maximum number of attempts to synchronize with the Call Agent.
Configure synchronization attempts
VoIP
cnfsessyncatmps <session number><attempts>
session number | The session number being configured |
attempts | The maximum number of attempts to synchronize with the call agent in the range 1 - 32. |
cnfsesport, cnfsesmaxwindow, cnfsesmaxseg, cnfsesmaxreset, cnfsesretrans, cnfsesack, cnfsesoutofseq, cnfsesnullsegtmout, cnfsesstatmout
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cnfsessyncatmpts 2 10
This example sets the number of synchronization attempts for session 2 to 10.
Use the cnfsrcppeer command to configure the Simple Resource Coordination Protocol (SRCP) parameters when SRCP is the selected protocol for communication between the VISM card and the call agent. If this command is not executed, a default UDP port number (2428) is used and the monitoring of heartbeat is disabled.
Configure srcp peer
VoIP
cnfsrcppeer <peerID><peerUDPport number><heartbeat interval><MaxPDUsize>
peerID
| The ID number of peer as displayed in the dspsrcppeers list |
peerUDPportnumber | The UDP port number in the range 1025 - 65535 (if this command is not executed, the default MGCP/SGCP port number of 2428 is used). |
heartbeat interval | The interval between heartbeats in milliseconds. If 0, or if this command is not executed, the heartbeat is not monitored. |
MaxPDUsize | The maximum allowable PDU size in the range 4095 - 65535. |
dspsrcppeer
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cnfsrcppeer 2 1160 100 4095
This example sets the port number to 1160, the heartbeat interval to 100 milliseconds, and the max. PDU size to 4095 for peer ID 2.
The cnftftpdn command is used to select a domain name for a TFTP server. The domain name must be one that has been added to the mgc table using the adddn command. When selected as a TFTP server, the domain cannot be used for as the call agent domain name.
Configure TFTP domain name
VoIPand AAL2 Trunking
cnftftpdn <domain_name>
domain_name | A domain name to be used as a TFTP server , a text string up to 64 characters in length. |
None
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cnftftpdn south
The cnfvismdn command is used to configure a domain name for a VISM card. The domain name is used when creating an endpoint ID for each endpoint on the card. The endpoint ID is used, in turn, to address SGCP/MGCP commands to a specific endpoint. If this command is not executed, the default domain name of cisco.com is used.
Configure domain name
VoIP
cnfvismdn <domain_name>
domain_name | A domain name for the VISM card. The name is a text string up to 64 characters in length. Alpha-numeric characters but no spaces. Make sure that when configuring the VSC, the same domain name for the VISM is specified. |
dspvismdn, cnfvismip
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cnfvismdn north
The cnfvismip command configures the VISM IP address on the VISM card. The VISM IP address is used to communicate with the VSC and as an identification for VoIP endpoints. Once configured the parameter values are stored on the PXM's hard disk and are retrieved for subsequent configure and add commands. The IP address must be configured before any endpoints are added.
Configure VISM IP
VoIP
cnfvismip <vismIpAddress><netMask>
<vismIpAddress> | IP address of the VISM in dotted decimal format (nnn.nnn.nnn.nnn) |
<netMask> | The local network mask in dotted decimal format (nnn.nnn.nnn.nnn). For VISM 2.0 the netmask should be assigned the value of 255.255.255.252. This netmask represents a point-to-point arrangement which is required on the VISM. This also implies that the low order two bits of the mask are either 10 or 01 |
dspvismip
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cnfvismip 209.165.200.224 255.255.255.252
This example assignes an IP address to the VISM card of 209.165.200.224 and a subnet mask of 255.255.255.252
Use the cnfvismmode command to configure a main mode for the VISM card. The choice of modes is either VoIP or AAL2 Trunking. This command should be used during the initial installation of the card to set the operating mode. All connections, ports, resource partitions (if any) should be deleted before executing this command. Any configurations existing on the card are cleared on execution of this command.
In VoIP mode, the calls are processed by a Call Agent and the connections are controlled using a gateway control protocol between the Call Agent and VISM. In AAL2 Trunking mode, the VISM is not involved in call control and both voice payload and signaling are trunked to a peer voice endpoint.
Configure VISM mode
VoIP and AAL2 Trunking
cnfvismmode <mode>
mode | the mode in which VISM is to operate. 1 = VoIP, 2 = AAL2 Trunking |
None
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cmfvismmode 1
This example sets the VISM card to VoIP mode
Use the cnfxgcpmwd command to configure the Maximum Waiting Delay (MWD) value used for sending Restart In Progress to the Call Agent. This command is used to avoid an avalanche of RSIPs sent to the Call Agent when an MGX 8850 with multiple VISM cards is started or reset. Each VISM card waits a random amount of time (up to a maximum specified by this command) before sending the RSIP.
If this command is not executed, the default value of 10 secs will be used.
Configure xgcp maximum waiting delay
VoIP
cnfxgcpmwd <timeout value>
timeout value | The maximum waiting delay (MWD) timout value for sending Restart in Progress to the Call Agent. In milliseconds in the range of 0 - 600000 |
dspxgcpcnf
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cnfxgcpmwd 300
This example sets the waiting delay to 300 milliseconds.
Use the cnfxgcppeer command to configure the UDP port number to be used for communication with the call agent. The call agent must already be configured with the addmgc command. The default port number is 2427
The command sequence for using another port number is:
Step 2 Execute addmgcprotocol.
Step 3 Execute cnfxgcppeer to specify the desired UDP port number
Step 4 Use cnfmgc to associate the call agent
By following the above the steps, RSIP will be sent to the specified port number.
Configure xgcp peer port
VoIP
cnfxgcppeer <index><protocol_number><peer UDP port number>
index | An index number into the Call Agent table in the range 1 - 8 |
protocol number | The protocol number as displayed by the dspxgcpports command in the range of |
peer UDP port number | the remote UDP port number used for MGCP/SGCP protocol communication with the call agent. |
dspxgcppeers
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cnfxgcppeer 1 3 1168
Use the cnfxgcpretry command to configure the request timeout and retry count to be used for communication with the call agent. The call agent must already be configured with the addmgc command. If this command is not executed, a default timeout of 500 milliseconds and a retry count of 3 are used.
Configure xgcp retry
VoIP
cnfxgcpretry <timeout value><retry count>
timeout value | the timeout to be used by the call agent in waiting for a message acknowledgement from VISM. If the timeout expires, the VISM retransmits the message. The timeout value is expressed in miliseconds in the range 0 - 100000. Default is 500. |
retry count | the number of times that a call agent will retransmit an unacknowledged message before determining that the VISM is unreachable. Default is 3. |
dspxgccnf
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cnfxgcpretry 1000 3
This example sets the timeout to 1000 milliseconds and the retry count to 3.
Use the delcasvar command to delete a CAS variant.
Delete CAS variant
VoIP
delcasvar <variantName>
variantName | The name of the variant to be deleted. The name must have already been added with the addcasvar command. Variant names are character strings of 1 - 64 characters. |
addcasvar, dspcasvar, cnfcasvar, dspcasvars
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delcasvar var1
This example deletes the CAS variant named "var1".
Use the delccs command to delete the association between the CCS (ds0) channel and the corresponding virtual channel. This association had already been setup using the addccs command. Applicable in AAL2 Trunking mode only.
Delete common channel signaling channel
AAL2 Trunking
delccs <line#><ds0#>[<maxframesize>]
line# | The line number that was used when the CCS channel was added using the addccs command. Line number is in the range 1 - 8 |
ds0# | The ds0 number that was used when the CCS channel was added using the addccs command. ds0 number is in the range 1 - 24 for T1, 1-31 for E1. |
maxframesize | The maximum HDLC frame size in the range 264 - 720 |
None
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delccs 2 12
This example deletes line 2, ds0 12 as a CCS channel.
Use the delcid command to delete the association between and endpoint and a lcnl/cid pair. This command is used only in AAL2 Trunking mode. To execute this command, the CID must already be added using the addcid command.
delete AAL2 channel identifier
AAL2 Trunking
delcid <LCN#><CID#>
LCN# | The logical connection number of the LCN/CID pair in the range 32 - 279. |
CID# | The CID number of the LCN/CID pair in the range 9 - 255. |
addcid, delcid, dspcid, dsplncids
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delcid 40 12
This example deletes the endpoint association for lcn 40/CID 12
Use the delcon command to delete a connection (PVC) between the VISM card and the MGX 8850 PXM card. A connection cannot be deleted when it is protected or when CIDs are present.
Delete connection
VoIP and AAL2 Trunking
delcon <chan_num>
chan_num | The channel number of the connection to be deleted in the range 32 - 279. |
addcon
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delcon 40
This example deletes the connection for channel 40
Use the delconloop command to delete a local loopback state on a connection to the cellbus on the current card. The loopback should have been added using the addconloop command.
Delete Connection Loop
VoIP and AAL2 Trunking
VCN | Virtual channel number of the VC to be deleted from thelocal loopback state, in the range 32 - 279. |
addconloop
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dellnloop 32
Use the deldn command to delete the Domain name of a call agent. The domain name must already have been added to the VISM's list of domain names. If this is the last entry in the domain table being deleted, deletion will not be allowed if the domain name entry exists in the list of call agents that VISM maintains (as displayed by dspmgcs).
Delete domain name
VoIP
deldn <domain number>
domain number | domain name number as displayed by the dspdns command in the range 1 - 80. |
adddn, dspdn, dspdns
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deldn 12
This example deletes the domain name for domain number 12.
The delendpt command is used to delete a specified endpoint on the VISM card. This command causes a graceful transition to out-of-service. An endpoint cannot be deleted if CISs are present.
This command causes an RSIP to be sent to each associated Call Agent indicating the out-of-service state of the endpoint.
Delete Endpoint
VoIP and AAL2 Trunking
delendpt <endpoint_num>
endpoint_num | An endpoint number in the range 1-240 for E1 and 1-192 for T1 |
addendpt, dspendpt, dspendpts
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delendpt 120
This example deletes endpoint number 120.
The delendptloop command is used to take an endpoint out of a loopback condition.
Delete Endpoint Loopback
VoIP and AAL2 Trunking
delendptloop <endpt_num>
<endpt_num> | An endpoint number in the range 1 - 240 for E1 and 1 - 192 |
addendptloop
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delendptloop 120
The delendpts command is used to delete a sequence of endpoints on the VISM card. This command causes a graceful transition to out-of-service for each deleted endpoint.
If the specified range of endpoints to be deleted contains gaps, the gaps are not counted. For example, if the current endpoints are 3, 4, 7, 8, 9 10, 11,12 and the command specifies a start at 4 and a number of 5, the endpoints deleted are 4, 7, 8, 9, and 10.
This command causes an RSIP to be sent to each associated Call Agent indicating the out-of-service state of the endpoints.
Delete Endpoints
VoIP and AAL2 Trunking
delendpts <endpoint_num> <number of endpt>
endpoint_num | The starting endpoint number of the sequence to be deleted in the range 1 - 240 for E1 and 1 -1 92 for T1 |
number of endpt | The number of endpoints to be deleted in the range 1 -240 for E1 and 1 - 192 for T1. |
addendpt, dspendpt, dspendpts
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delendpt 120 10
This example deletes 10 endpts starting with endpoint number 120.
Use the dellapd command to delete an LAPD D channel.
Delete Lapdt
VoIP
dellapd <line number><DS0 number>
line number | The line number containing the D channel to be deleted in the range of 1 - 8 |
DS0 number | The DS0 number of the D channel being deleted in the range 1 - 24 for T1, 1 - 31 for E1. |
addlapd, dsplapd, dsplapds
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dellapd 2 14
This example deletes the D channelfor line number 2, DS0 number 14.
Use the delln command to delete a DS1 line on the VISM card. Endpoints and CCS channels must be deleted before the line is deleted.
Delete line
VoIP and AAL2 Trunking
delln <line#>
line# | The DS1 line number on the VISM card for which the loop is to be deleted, |
addln, cnfln, dspln, dsplns
|
|
|
delln 4
This example deletes line number 4.
Use the dellnloop command to remove a T1 or E1 local line loopback state for the current card.
Delete Line Loop
VoIP and AAL2 Trunking
dellnloop <line number>
line number | The DS1 line number on the VISM card for which the local loop is to be deleted, |
dspln
|
|
|
dellnloop 6
This example deletes loopback for line 6.
Use the delmgc command to delete a call agent from the VISM's list of configured call agents. If the call agent to be deleted is configured as "associated", the call agent must first be unassociated in order to exedute this delmgc command. The addmgcprotocol command must be executed before this command can be executed.
Delete media gateway control (call agent)
VoIP
delmgc <mgc number>
mgc number | The mgc number as displayed by the dspmgcs command |
cnfmgc, dspmgcs
|
|
|
delmgc 3
This example deletes the call agent with the mgc number of 3.
Use the delmgcprotocol command to delete a media gateway control protocol which is used for communication between VISM and the call agent.
Delete media gateway control protocol
VoIP
delmgcprotocol <mgcNumber><protocolNumber>
mgcNumber | The mgc number as displayed by the dspmgc command |
protocolNumber | The protocol number as displayed by the dspmgcprotocols command |
dspmgcprotocols
|
|
|
delmgcprotocol 3 2
This example deletes the mgc 3, protocol 2.
Use the delport command to delete a VISM port on the packet network side. This command should be executed before the VISM card is removed from the MGX 8850. If a VISM card is removed with the port undeleted, any subsequent card inserted into the same slot may not operate correctly. The resource partition and all PVCs should be deleted before deleting this port.
Delete port
VoIP and AAL2 Trunking
|
|
dspport
|
|
|
delport
This example deletes the network port.
Use the delses command to delete a PRI backhaul session.
Delete session
VoIP
delses <session number>
session number | The number of the session being deleted |
addses, dspses, dspsess
|
|
|
delses 3
This example deletes the session number 3.
Use the delsesgrp command to delete a PRI backhaul session group. All sessions in the group must be deleted before this command will execute.
Delete session group
VoIP
delsesgrp <group number>
group number | The number of the group being deleted. |
addsesgrp, dspsesgrp, dspsesgrps
|
|
|
delsesgrp 2
This example deletes the session group number 2.
Use the delsesset command to delete a PRI backhaul session set. All session groups in the set must be deleted before this command will execute.
Delete session set
VoIP
delsesset <set number>
set number | The set of the group being deleted (a value of 1 only is currently suppoted). |
addsesset
|
|
|
delsesset 1
This example deletes the session set number 1.
Use the delrscprtn command to delete a the resource partition which was created by the addscrprtn command.
Delete resource partition
VoIP and AAL2 Trunking
|
|
addrscprtn, dsprscprtn
|
|
|
delrscprtn
This example deletes the current resource partition.
Use the dspaal2profile command to display information about a specified AAL2 profile type and profile number. The AAL2 profiles correspond to the profile types ITU and ATMF as defined in the ITU-T I.366.2 and ATM forum af-vtoa-0113 standards respectively. This command can only be used in AAL 2 PVC mode.
Display AAL2 profile
AAL2 Trunking
dspaal2profile<profile_type><profile#>
profile_type | The profile type. 1 = ITU, 3 = custom |
profile# | The profile number in the profile table. |
None
|
|
|
dspaal2profile
A typical display is as follows:
Profile Profile Min Max Packet Packet Seq No.
Type Number Codec Type UUI UUI Lngth (bt) Time (ms) Invl (ms)
------- ------- ---------------------- --- --- ---------- --------- ---------
ITU 1 PCM, G.711-64, generic 0 15 40 5 5
Use the dspalm command to view the alarms associated with a specified line.
Display Alarms for a Line
VoIP and AAL2 Trunking
dspalm -ds1 <LineNum>
LineNum | Line number, in the range 1-8 |
clralm, dspalms
|
|
|
spirit.1.5.VISM8.a > dspalm -ds1 1
LineNum: 1
LineAlarmState: Alarm(s) On --
XmtRAI
RcvLOS
LineStatisticalAlarmState: No Statistical Alarms
spirit.1.5.VISM8.a >
Use the dspalmcnf command to view the threshold information about the alarm statistics being collected.
Display Alarm Configuration
VoIP and AAL2 Trunking
dspalmcnf -ds1 <LineNum>
LineNum | The line number for which the alarm configuration is being displayed. |
dspalm, dspalms
|
|
|
spirit.1.5.VISM8.a > dspalmcnf -ds1 1
Severity AlarmUpCount AlarmDnCount AlarmThreshold
Line Red / RAIS NE / FE NE / FE NE / FE
---- ----- ----- ----- ----- ----- ----- ----- -----
5.1 Major/Minor 6/6 1/1 1500/1500
spirit.1.5.VISM8.a >
Use the dspalmcnt command to view the alarm counters and statistics.
Display Alarm Counters
VoIP and AAL2 Trunking
dspalmcnt -ds1 <LineNum>
LineNum | Line number, in the range 1-8 (FRSM, VISM, AUSM, or CESM). |
clralmcnt, clralmcnts
|
|
|
Display alarms and counters for line 1 on the VISM
spirit.1.5.VISM8.a > dspalmcnt -ds1 1 Line RcvLOSCount RcvOOFCount RcvRAICount RcvFECount ---- ----------- ----------- ----------- ---------- 5.1 1 1 409 1373405 spirit.1.5.VISM8.a >
Use the dspalms command to view all alarms for the selected linetype on the card.
Display all Alarms on a Card
VoIP and AAL2 Trunking
dspalms <lineType>
lineType | Line type, -ds1 = T1 or E1 lines |
dspalm
|
|
|
Display alarms on the 3 E1 lines on the current card (a VISM)
spirit.1.5.VISM8.a > dspalms -ds1 Line AlarmState StatisticalAlarmState ---- ----------- --------------------- 5.1 No Alarms No Statistical Alarms 5.2 No Alarms No Statistical Alarms 5.3 No Alarms No Statistical Alarms spirit.1.5.VISM8.a >
The dspcarddsp command is used to display all card level parameters for both echo cancellation and voice compression DSPs.
Display card parameters for DSPs
VoIP and AAL2 Trunking
None
|
|
|
dspcarddsp
A typical display for the VISM card is:
IdlePattern: 7f or ff IdleDirection: Both PacketSize: 80 bytes DB loss: sixdb Jitter buffer mode: fixed Jitter buffer size: sixty Adaptive Gain Control: off Default type of service: 0xa0
The packetization period and Default type of service apply to VoIP only.
Use the dspcasendpts command to display information about configured CAS endpoints.
Display CAS endpoints
VoIP
|
|
dspcasvarendpts
|
|
|
dspcasendptsEndpt
A typical display for the VISM card is:
Endpt Ds0Num CasVarName cadOnTime cadOffTime ----- ------ ---------- --------- --------- 2 2 immd 75 75 5 5 wink 75 75 10 10 wink 75 75
Use the dspcasvar command to display information about CAS variants for a given variant name.
Display CAS variant
VoIP
dspcasvar <variantAName>
variantName | The variant name that was used when the variant was added with the addcasvar command. A text string of 1 - 64 characters. |
addcasvar, delcasvar, cnfcasvar
|
|
|
dspcasvar var1
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspcasvar first CasVariantName: first CasFileName: wink.dod Ringing time: 30 Digit method: DTMF Partial dial timing: 16 Critical dial timing: 4 Interdigit timeout: 1 CasVariantState: configured CasRowStatus: Add Country code: US
Use the dspcasvarendpts command to display all the endpoints associated with a spcified CAS variant name.
Display CAS variant endpoints
VoIP
dspcasvarendpts <variantAName>
variantName | The variant name that was used when the variant was added with the addcasvar command. A text string of 1 - 64 characters. |
dspcasendpts
|
|
|
dspcasvarendpts var1
A typical display for the VISM card is:
Use the dspcasvars command to display the parameters of all the CAS variant configured on the card. For each variant, this command lists variant name, file name, and country code.
Display CAS variants
VoIP
|
|
addcasvar, cnfcasvar, dspcasvar, delcasvar
|
|
|
dspcasvars
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspcasvars
VariantName FileName DigitMethod CountryCode
----------- -------- ----------- -----------
first wink.dod DTMF US
second ring.dod DTMF US
Use the dscasxgcps command to display the timer parameters for the CAS/XGCP backhaul.
Display CAS xgcp parameters
VoIP
|
|
None
|
|
|
dspcasxgcps
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspcasxgcps
VariantName FileName ReXmitTime InitReXmitTime Retry
----------- -------- ----------- -------------- -----
first wink.dod 500 100 4
second ring.dod 500 100 4
Use the dspccs command to display the properties of an already added CCS channel.
Display common channel signaling channel
AAL2 Trunking
dspccs <line#><ds0>
<line#> | The line number of the CCS channel to be displayed. |
<ds0#> | The ds0 number of the CCS channel to be displayed. |
addccs, cnfccs, delccs, dspccschans
|
|
|
dspccs 1 10
A typical display for the VISM card is:
Ds0IfIndex: 10 RowStatus: active LcnNum: 36 MaxFrameSize: 300
Use the dspccschans command to display all the channels that are configured as CCS channels.
Display CCS channels
AAL2 Trunking
addccs, cnfccs, delccs, dspccs
|
|
|
dspccschans
A typical display for the VISM card is:
Ds0 If Row Lcn Max Frame Index Status Num Size ------- ------ ----- ------------ 10 active 36 300
Use the dspccscnt command to display the values of the CCS counters for a specified line and ds0.
Display CCS counters
AAL2 Trunking
dspccscnt <line#><ds0#>
line# | The line number of the CCS channel to be displayed in the range 1 - 8. |
ds0 | The ds0 number of the CCS channel to be displayed in the range 1 - 24 for T1, 1 - 30 for E1. |
None
|
|
|
dspccscnt 1 10
A typical display for the VISM card is:
Ds0IfIndex: 10 TxFrameCount: 0 RxFrameCount: 0 RxCRCErrorCount: 0 RxBufOverflowCount: 0 TxUnderflowCount: 0 TxAbortCount: 0 RxAbortCount: 0
Use the dspcd command to view characteristics of the current card's hardware and firmware, and information on its status. Card characteristics include serial number and hardware and firmware revision levels. Full Name
Display Card
VoIP and AAL2 Trunking
|
|
dspcds, version
|
|
|
dspcd
A typical display for the VISM card is:
ModuleSlotNumber: 17 FunctionModuleState: Active FunctionModuleType: VISM-8T1 FunctionModuleSerialNum: SAK0331006P FunctionModuleHWRev: 0.0 FunctionModuleFWRev: 1.5.0_11Nov99_2 FunctionModuleResetReason: ? LineModuleType: LM-RJ48-8T1 LineModuleState: Present mibVersionNumber: 21 configChangeTypeBitMap: CardCnfChng, LineCnfChng pcb part no - (800 level): 800-04399-01 pcb part no - (73 level): 73-03618-01 Fab Part no - (28 level): 28-02791-01 PCB Revision: 08 Daughter Card Information: Daughter Card Serial Number: SAK0331003P pcb part no - (73 level): 73-03722-01 Fab Part no - (28 level): 28-02905-01 PCB Revision: 04
Use the dspcid command to display the parameter values of an AAL 2 channel identifier on the VISM card. Use only with AAL2 Trunking mode. To execute this command, the cid must already be added.
display channel identifier
AAL2 Trunking
dspcid <lcn#><cid#>
lcn# | The logical connection number of the lcn/cid pair in the range 32 - 279 |
cid# | The cid number of the LCN/cid pair in the range 9 - 255 |
addcid, cnfcid, delcid, dspcids
|
|
|
dspcid 35 10
A typical display for a VISM card is:
LCN number : 35
CID number: 10
Endpoint number : 1
CidRowStatus: active
Type3redundancy: disabled
VAD: disabled
VADInitTimer: 250
Profile type: Custom
Profile number: 100
Codec type: G.711u
Cas transport: disabled
DTMF transport: enabled
Ecan on/off: enabled
Use the dspcids command to display all the AAL 2 channel identifiers for a specified LCN on the VISM card. Use only with AAL2 Trunking mode. To execute this command, the CID must already be added.
display channel identifiers
AAL2 Trunking
dspcids <lcn#>
lcn# | The logical connection number of the LCN for which the CIDs are to be displayed |
addcid, cnfcid, delcid, dspcid
|
|
|
dspcids 32
A typical display for a VISM card is:
LCN CID Endpt Cid Type3 VAD Prof Prof Codec Cas DTMF Num Num Num Status Redun VAD Timer Type Num Type Tran Tran Ecan --- --- ----- ------ ----- --- ----- ------ ---- --------- ---- ---- ---- 32 9 1 active ena ena 250 ITU 1 G.711u ena ena ena
Use the dspcodecparams command to display the current codec parameters.
Display codec parameters
VoIP
cnfcodecparams
|
|
|
dspcodecparams
A typical display for the VISM card is:
codecType codecName pktPeriod (msecs) codecPreference
---------- ---------- --------- ---------------
1 G.711u 10 4
2 G.711a 10 5
3 G.726-32 10 3
4 G.729a 10 2
5 G.729ab 10 1
6 clear ch 10 6
Use the dspcodectmpls command to display all the entries in the codec template table. VISM maintains a list of codec templates. Each entry contains the codec template number, the codecs supported, and the maximum number of ds0s supported by the template.
VISM 2.0 supports two templates as follows:
Template 1. This template supports G.711u, G.711a, G729ab, and G.726/32 codecs.
Template 2. This template supports G.711u and G.711a only (no compression).
Display codec templates
VoIP and AAL2 Trunking
cnfcodectmpl
|
|
|
dspcodectmpl
A typical display for the VISM card is:
codecTemplateNumber codecSupported MaxChanCount
------------------- -------------- ------------
1 31 145
2 3 192
Use the dspcon command to display the parameters for a specified channel.
Display Alarms for a Line
VoIP and AAL2 Trunking
dspcon <chanNum>
chanNum | The channel number for the connection to be displayes in the range 32 - 279. |
addcon, delcon
|
|
|
dspcon 36
A typical display for the VISM card is:
ChanNum: 36 ChanRowStatus: Add ChanLocalRemoteLpbkState: Disabled ChanTestType: TestOff ChanTestState: NotInProgress ChanRTDresult: 65535 ms ChanPortNum: 1 ChanPvcType: AAL5 ChanConnectionType: PVC ChanLocalVpi: 0 ChanLocalVci: 36 ChanLocalNSAP: 646174616d767232000000000000000005000100 ChanRemoteVpi: 44 ChanRemoteVci: 44 ChanRemoteNSAP: 646174616d767232000000000000000000000200 ChanMastership: Master ChanVpcFlag: Vcc ChanConnServiceType: CBR ChanRoutingPriority: 1 ChanMaxCost: 255 ChanRestrictTrunkType: No Restriction Type <CR> to continue, Q<CR> to stop: ChanConnPCR: 400 ChanConnPercentUtil: 100 ChanPreference: 1 ChanRemotePCR: 400 ChanRemotePercentUtil: 100 ChanProtection: unprotected ChanActivityState: unknown ChanLockingState: unlock ChanApplication: signaling ChanServiceType: cbr ChanScrIngress: 0 ChanMbsIngress: 0 ChanNumNextAvailable: 37
Use the dspconcac command to display CAC parameters for a specified connection.
Display connection CAC parameters.
AAL2 Trunking
dspconcac <lcn#>
lcn# | The logical channel number of the cconnection for which the CAC parameters are to be displayed, in the range 32 - 279. |
cnfconcac
|
|
|
dpsconcac 36
A typical display for the VISM card is:
LcnNumer: 36 ChanCacMaster: Master ChanCacPassedCons: 0 ChanCacRejectedCons: 0
Use the dspconcnt command to view the values of the counters for a specified connection..
Display connection counters
VoIP and AAL2 Trunking
dspconcnt <chanNum>
chanNum | The channel number for which the counters are to be displayed in the range 32 - 279. |
clralm, dspalms
|
|
|
dspconcnt 36
A typical display for the VISM card is:
ChanNum: 36 Chan State: alarm Chan XMT ATM State: Sending AIS OAM Chan RCV ATM State: Receiving AIS OAM OAM Lpb Lost Cells: 75599 AAL2 HEC Errors: 0 AAL2 CRC Errors: 0 AAL2 Invalid OSF Cells: 0 AAL2 Invalid Parity Cells: 0 AAL2 CPS Packet Xmt: 0 AAL2 CPS Packet Rcv: 0 AAL2 Invalid CID CPS: 0 AAL2 Invalid UUI CPS: 0 AAL2 Invalid Len. CPS: 0 AAL5 Invalid CPI: 0 AAL5 oversized SDU PDU: 0 AAL5 Invalid Len. PDU: 0 AAL5 PDU CRC32 Errors: 0 AAL5 Reassembly Timer expired PDU: 0
Use the dspcons command to display channel information for all configured connections on the card.
Display connections
VoIP and AAL2 Trunking
dspcon, addcon, cnfcon
|
|
|
dspcons
A typical display for the VISM card is:
ConnId ChanNum Status Preference Protection Active Locking ------- ------- ------ ---------- ---------- ------- -------- datamvr2.5.1.0.35 35 Add 1 unprotected unknown unlock datamvr2.5.1.0.36 36 Add 1 unprotected unknown unlock ChanNumNextAvailable: 37
Use the dspdn command to display the parameter values of a Domain num= of a call agent. The domain name must already have been added to the VISM's list of domain names
display domain name
VoIP
dspdn <domain number>
domain number | The domain number for a VISM's call agent in the range 1 - 80 |
adddn, cnfdn, deldn, dspdns
|
|
|
dspdn main
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspdn 1 Index : 1 Name : mgc1 IP address : 2.2.2.2 State : Inactive Preference : 1
Use the dspdns command to display the parameter values of all the Domain names of a call agent.
Display domain names
VoIP
adddn, cnfdn, deldn, dspdn
|
|
|
dspdns
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspdns
DomainNumber DomainName IP State Preference
------------ ------------ -------- ---------- ------------
1 mgc1 2.2.2.2 Inactive 1
Use the dspds0localcasstatus command to the currently configured local CAS status for a specified line and ds0.
Display ds0 local CAS status
VoIP and AAL2 Trunking
dspds0localcasstatus<line no><ds0 no>
line no. | The line number for which the local CAS is to be displayed d in the range 1 - 8 (T1 lines only) |
ds0 no. | The ds0 number for which the local CAS is to be displayed in the range 1 - 24 for T1, 1 - 31 for E1. |
cnfds0localcas
|
|
|
dspds0localcasstatus 1 1
A typical display for the VISM card is:
vismpop12.1.4.VISM8.a > dspds0localcasstatus 1 1 Ds1 line number: 1 ds0 number: 1 Ds0 If Index: 1 local cas type: Disabled local cas 4 bit bit pattern: 0
Use the dspds0loop command to display a the loopback type for a specified line and ds0.
Display ds0 loopback
VoIP and AAL2 Trunking
dspds0localcas<line no><ds0 no>
line no. | The line number for which the loopback is to be displayed in the range 1 - 8. |
ds0 no. | The ds0 number for which the loopback is to be displayed in the range 1 - 24 for T1, 1 - 31 for E1. |
cnfds0loopback
|
|
|
dspds0loop 1 1
A typical display for the VISM card is:
vismpop12.1.4.VISM8.a > dspds0loop 1 1 Ds1 line number: 1 ds0 number: 1 Ds0 If Index: 1 loopback value: noLoop
The dspendpt command is used to display information about the specified endpoint on the VISM card.
Display endpoint
VoIP and AAL2 Trunking
dspendpt <endpoint_num>
endpoint_num | An endpoint number in the range 1-240 for E1 and 1-192 for T1 |
|
|
addendpt, delendpt, dspendpts
|
|
|
dspendpt 120
A typical display for the VISM card is:
datamvr2.1.11.VISM8.a > dspendpt 1
EndptNum: 1
EndptLineNum: 1
EndptName: T1-1/1@cisco.com
EndptSpeed: 64 kbps
EndptState: active
EndptChannelMap: 1
EndptEnable: active
EndptLoopback: disabled
The EndptChannelMap value is a hex number (not decimal), where each DS0 is a power of two. EndptChannelMap = 2^DS0 number.
The dspendpts command displays information about all the endpoints on the VISM card.
Display endpoints
VoIP and AAL2 Trunking
addendpt, addendpts, delendpt, dspendpt
|
|
|
dspendpts
A typical display for the VISM card is:
EndptNum Ena/Speed
-------- --- -----
1 act/ 64k
2 act/ 64k
3 act/ 64k
The dspgwstate command displays the current service state of the gateway which are configured by the user. States are:
Display gateway state
VoIP
cnfgwstate
|
|
|
dspgwstate
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspgwstate
Admin State : Command_Out_Of_Service
Oper. State : Alarm
Use the dsplapd command to display information about a LAPD D channel.
Display LAPD
VoIP
dsplapd <line number><DS0 number>
line number | The line number of the D channel to be displayed in the range 1 - 8. |
DS0 number | The DS0 number of the D channel to be displayed in the range 1 - 24 for T1, 1 - 31 for E1. |
addlapd, dellapd, dsplapds
|
|
|
dsplapd 3 22
Use the dsplapd command to display information about all LAPD D channels.
Display LAPDs
VoIP
addlapd, dellapd, dsplapd
|
|
|
dsplapds
Use the dsplapdstat command to display information about LAPD D channel counters (statistics).
Display statistics
VoIP
dsplapdstat <line number><DS0 number>
line number | The line number of the D channel for which counter values are to be displayed in the range 1 - 8. |
DS0 number | The DS0 number of the D channel for which counter values are to be displayed in the range 1 - 24 for T1, 1 - 31 for E1. |
None
|
|
|
dsplapdstat 1 22
Use the dspln command to view the characteristics of a specified line. :
Display line
VoIP and AAL2 Trunking
dspln <line#>
line# | The line number of the line to be displayed in the range 1 - 8. |
addln, cnfln, delln, cnflnsig
|
|
|
dspln 1
A typical display for the VISM card is:
LineNum: 1 LineConnectorType: RJ-48 LineEnable: Enabled LineType: dsx1ESF LineCoding: dsx1B8ZS LineLength: 0-131 ft LineXmtClockSource: LocalTiming LineLoopbackCommand: NoLoop LineSendCode: NoCode LineUsedTimeslotsBitMap: 0x3ff LineLoopbackCodeDetection: codeDetectDisabled LineSignalingType: CAS LineCcsChannels: 0x0 LineTrunkConditioning: disable LineNumOfValidEntries: 8
LineCcsChannels applies to AAL2 Trunking mode only.
Use the dsplncids command to display the cid, endpoint, and AAL2 information for a specified line.
Display line cid usage
AAL2 Trunking
dsplncids <line#>
line# | The line number for which the usage is to be displayed in the range 1 - 8. |
addcid
|
|
|
dsplncids
A typical display for the VISM card is:
LCN CID Endpt Cid Type3 VAD Prof Prof Codec Cas DTMF Num Num Num Status Redun VAD Timer Type Num Type Tran Tran Ecan --- --- ----- ------ ----- --- ----- ------ ---- --------- ---- ---- ---- 33 10 2 active ena ena 250 ITU 1 G.711u ena ena ena
If codec type is clear, Type3 Redun, Cad Tran, DTMF Tran, and Ecan are not applicable
Use the dsplndsp command to display the DSP information for a specified line.
Display line DSP
VoIP and AAL2 Trunking
dsplndsp <line#>
line# | The line number for which the DSP information is to be displayed in the range 1 - 8. |
addln, delln
|
|
|
dsplndsp 1
A typical display for the VISM card is:
VismLineNum: 1 ECANEnable: enable ECANReenable: ReenableOnModemData ToneDisable: G.165 MaximumTail: 32 milliseconds ResidualEcho: ComfortNoise VoiceDetection: Enable
VAD and ECAN apply to VoIP only.
Use the dsplndsx0s command to display the parameters of all ds0s on a specified T1 or E1 line.
Display ds0s
VoIP and AAL2 Trunking
dsplndsx0s<line#>
line# | The line number for which the ds0s are to be displayed in the range 1 - 8 |
|
|
addendpt, addendpts, delendpts, delendpt, cnfcascode
|
|
|
dsplndsx0s 1
A typical display for the VISM card is:
Ds0 If Robbed Bit Idle Seized EndPt If Variant
Index Signaling Code Code Num Type Name
-------- ------------ ------ -------- ------- ------ -------------
1 True 0 0 1 bearer
2 True 0 0 2 bearer
3 True 0 0 3 bearer
4 True 0 0 4 bearer
5 True 0 0 5 bearer
6 False 0 0 -1 -
7 False 0 0 -1 -
8 False 0 0 -1 -
9 False 0 0 -1 -
10 False 0 0 -1 -
11 False 0 0 -1 -
12 False 0 0 -1 -
13 False 0 0 -1 -
14 False 0 0 -1 -
15 False 0 0 -1 -
16 False 0 0 -1 -
17 False 0 0 -1 -
18 False 0 0 -1 -
19 False 0 0 -1 -
20 False 0 0 -1 -
21 False 0 0 -1 -
22 False 0 0 -1 -
23 False 0 0 -1 -
24 False 0 0 -1 -
Idle code, siezed code and variant name apply to VoIP mode only.
Use the dsplnendptstatus command to view the the status of endpoints for a specified line.
Display line endpoint status
VoIP and AAL2 Trunking
dsplnendptstatus <line#>
line# | the line number for which the endpoint status is to be displayed in the range 1 - 8 |
dspendpts, dspln
|
|
|
dsplnendptstatus 1
A typical display for the VISM card is:
DS0# Endpt# Codec VAD ECAN
-----------------------------------
1 1 G.711a ON ON
Use the dsplns command to view the configuration for all lines on the VISM.
Display lines
VoIP and AAL2 Trunking
|
|
addln, cnfln, delln, dspln
|
|
|
dsplns
A typical display for the VISM card is:
Line Conn Type Status/Coding Length XmtClock Alarm Stats
Type Source Alarm
---- ----- ------------ ------ -------- ------------- -------- ----- -----
17.1 RJ-48 dsx1ESF Ena/dsx1B8ZS 0-131 ft LocalTim Yes No
17.2 RJ-48 dsx1ESF Ena/dsx1B8ZS 0-131 ft LocalTim Yes No
17.3 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
17.4 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
17.5 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
17.6 RJ-48 dsx1ESF Dis/dsx1B8ZS 0-131 ft LocalTim
17.7 RJ-48 dsx1ESF Ena/dsx1B8ZS 0-131 ft LocalTim No No
17.8 RJ-48 dsx1ESF Ena/dsx1B8ZS 0-131 ft LocalTim No No
LineNumOfValidEntries: 8
Use the dsplnstate command to display the service state of the line with respect to the xgcp protocol. The states are: in-service, out-of-service, and shutting down.
Display line state
VoIP and AAL2 Trunking
dsplnstate <line#>
line# | The line number for which the service state is to be displayed in the range 1 - 8. |
dspgwstate
|
|
|
dsplnstate 1
A typical display for the VISM card is:
Line number : 1, Actual admin. state : Inactive
Actual oper. state : OK
Line number : 1, Effective admin. state : Inactive
Effective oper. state : OK
Actual admin state values are, In-service, Pending out-of-service, Command out-of-service, Inactive, Invalid state.
Actual oper state values are, Alarm (alarm state of the line), OK
Effective admin state is the combination state of the gateway and line
Effective oper state is the combination alarm state of the gateway and line
Use the dsploops command to view all the lines and ds0s that are in loopback condition.
Display loopbacks
VoIP and AAL2 Trunking
|
|
addconloop, addendptlooop
|
|
|
dsploops
A typical display for the VISM card is:
Line Loopbacks on this card --------------------------- Line 1: Local Loopback Ds0 loopbacks on this card -------------------------- Endpoint 1 Loopback Enabled
Use the dspmaxmgcs command to display the maximum number of media gateway controllers that can be configured. The number cannot be larger than 8.
Display maximum number of media gateway controllers that can be configured
VoIP
|
|
addmgc
|
|
|
dspmaxmgcs
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspmaxmgcs Maximum number of MGCs: 8
Use the dspmgc command to display the configuration information about a specified media gateway controllers.
Display number of media gateway controllers that can be configured
VoIP
dspmgc <mgc number>
mgc number | the mgc number as displayed by the dspmgcs command. |
addmgc, delmgc, dspmaxmgcs, dspmgcs
|
|
|
dspmgc
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspmgc 1 mgcNumber : 1 mgcName : mgc1 mgcDnsResolution : -2143449980 mgcAssociationState : AssociatedCommLoss mgcAssociationStateControl : associate mgcUnassociationPolicy : NoAction mgcCommLossUnassociationTimeout : -1
Use the dspmgcprotocols command to display information about the call agent protocols that have been configured using the addmgcprotocol command.
Display media gateway control protocols
VoIP
|
|
addmgcprotocol, delmgcprotocol
|
|
|
dspmgcprotocols
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspmgcprotocols
mgc# protocol#
------ ---------
1 MGCP 0.1
1 SGCP 1.1+
Use the dspmgcs command to display configuration information about all configured call agents.
Display media gateway controllers
VoIP
addmgc, delmgc
|
|
|
dspmgcs
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspmgcs
mgcNumber mgcName Dnsresolution associateState Timeout
-------- -------- ------------- -------------- -------
1 mgc1 False AssociatedCommLoss -1
Use the dspmgprotocols command to display configuration information about all the available call agent protocols by VISM.
Display media gateway control protocols
VoIP
|
|
addmgcprotocol, delmgcprotocol
|
|
|
dspmgprotocols
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspmgprotocols
Number mgProcotol
---------- -----------
1 MGCP 0.1
2 SGCP 1.1+
3 SRCP 1.0.2
Use the dspmngcidcnt command to display the managed CID count for a specified endpoint.
Display managed CID count
AAL2 Trunking
dspmngcidcnt <endpt_num>
endpt_num | the endpoint number for which the CID count is to be displayed. 1 - 240 for E1, 1 - 1922 for T1 |
addcid
|
|
|
dspmngcidcnt 1
A typical display for the VISM card is:
EndptNum: 1 Lcn: 35 Cid: 10 SentPkts: 15277688 RcvdPkts: 0 SentOctets: 654128294 RcvdOctets: 0 LostPkts: 0 Jitter: 0 Latency: 0
Use the dspport command to view information about the virtual port that was created using the addport command.
Display Port
VoIP and AAL2 Trunking
addport, delport
|
|
|
dspport
A typical display for the VISM card is:
vismPortNum: 1
vismPortRowStatus: add
vismPortSpeed: 50000
vismPortState: active
Use the dsprscprtn command to view information about the resource partition which was created using the addrscprtn command.
Display Resource Partition
VoIP and AAL2 Trunking
addrscprtn
|
|
|
dsprscprtn
A typical display for the VISM card is:
vismResPartPortNum: 1
vismResPartCtrlrNum: par
vismResPartRowStatus: add
vismResPartNumOfLcnAvail: 72
vismResPartLcnLow: 32
vismResPartLcnHigh: 279
vismResPartIngrPctBW: 100
vismResPartEgrPctBW: 100
vismResPartCtrlrID: 2
Use the dspsracnt command to display the values of the Segmentation and Reassembly (SAR) counters for a specified channel.
Display SAR coounters
VoIP and AAL2 Trunking
dspsarcnt <lcn>
lcn | The channel number for which the counters are to be dispalyed in the range 32 - 279. |
dspsarcnts
|
|
|
dspsracnt 32
A typical display for the VISM card is:
SarShelfNum: 1
SarSlotNum: 17
SarChanNum: 32
Tx Rx
--------------- ---------------
Total Cells: 69486 60243
Total CellsCLP: 0 0
Total CellsAIS: 0 0
Total CellsFERF: 0 0
Total CellsEnd2EndLpBk: 0 0
Total CellsSegmentLpBk: 0 0
RcvCellsDiscOAM: 2151467320
Use the dspsarcnts command to display the values of the Segmentation and Reassembly (SAR) counters for the VISM card.
Display SAR counters
VoIP and AAL2 Trunking
|
|
dspsarcnt
|
|
|
dspsracnts
A typical display for the VISM card is:
Use the dspsarmsgcnt command to view the values of the control message counters for the card.
Display SAR Control Message Counters
VoIP and AAL2 Trunking
clrsarmsgcnt
|
|
|
dspsarmsgcnt
A typical display for the VISM card is:
spirit.1.5.VISM8.a > dspsarmsgcnt RiscXmtCtrlMsg: 83606 RiscRcvCtrlMsg: 83606 SARXmtCtrlMsg: 83445 SARRcvCtrlMsg: 83606 SARCtrlMsgDiscLenErr: 0 SARCtrlMsgDiscCRCErr: 0 SARCtrlMsgDiscUnknownChan: 0 SARCtrlMsgLastUnknownChan: 0 spirit.1.5.VISM8.a >
Use the dspses command to display information about a PRI backhaul sessioin.
Display session
VoIP
dspses <session number>
session number | The number of the session to be displayed in the range 1 - 64. |
addses, delses, dspsess
|
|
|
dspses 6
Use the dspsesgrp command to display information about a PRI backhaul session group.
Display session group
VoIP
dspsesgrp <group number>
group number | The group number of the group to be displayed in the range 1 - 64. |
addsesgrp, delsesgrp, dspsesgrps
|
|
|
dspsesgrp 2
A typical display for the VISM card is:
cli_test.1.27.VISM8.a > dspsesgrp 2 vismSessionGrpNum: 2 vismSessionGrpSetNum: 1 vismSessionGrpState: ? vismSessionGrpCurrSession: 0 vismSessionGrpTotalSessions: 0 vismSessionGrpMgcName: abc vismSessionGrpSwitchFails: 0 vismSessionGrpSwitchSucesses: 0
Use the dspsesgrps command to display information about all PRI backhaul session groups.
Display session groups
VoIP
|
|
addsesgrp, delsesgrp, dspsesgrp
|
|
|
dspsesgrps
A typical display for the VISM card is:
cli_test.1.27.VISM8.a > dspsesgrps GrpNum SetNum State ActiveSes TotalSes Mgc SwitchFail SwitchSuccess ----------------------------------------------------------------------------- 2 1 ? 0 0 abc 0 0 3 1 ? 0 0 svc 0 0
Use the dspsess command to display information about all PRI backhaul sessions.
Display sessions
VoIP
|
|
addses. delses, dspses
|
|
|
dspsess
Use the dspsesset command to display information about CAS variants for a given variant name.
Display session set
VoIP
dspsesset <set number>
set number | The set number being displayed. The current release of VISM support only one set designated set number 1. |
None
|
|
|
dspsesset 1
A typical display for the VISM card is:
cli_test.1.27.VISM8.a > dspsesset 1 vismSessionSetNum: 1 vismSessionSetState: Idle vismSessionSetTotalGrps: 2 vismSessionSetActiveGrp: 0 vismSessionSetFaultTolerant: FT vismSessionSetSwitchFails: 0 vismSessionSetSwitchSucesses: 0
Use the dspsesstat command to display information about PRI backhaul session counters (statistics).
Display session statisitics
VoIP
dspsesstat <session number>
session number | The number of the session for which the values of the counters are to be displayed in the range 1 - 64. |
None
|
|
|
dspcsesstat 3
Use the dspsrcpcnt command to display the SRCP message statistics for a specified call agent.
Display simple resource coordination protocol statistics
VoIP
dspsrcpcnt <IP address>
IPaddress | the IP address of the call agent for which message statistics are to be displayed in dotted decimal format - nnn.nnn.nnn.nnn |
dspsrcpcnts
|
|
|
dspsrcstat 209.165.200.224
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspsrcpcnt 2.2.2.2
Ip Name Discarded Augw/Fail Auln/Fail Ntfy/Fail Rqnt/Fail
---------------- -------- --------- --------- --------- --------- -------
2.2.2.2 mgc1 0 0/0 0/0 0/0 0/0
Use the dspsrcpcnts command to display the SRCP message statistics for all known call agents.
Display simple resource coordination protocol statistics for all call agents
VoIP
dspsrcpcnt
|
|
|
dspsrccnts
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspsrcpcnts
Ip Name Discarded Augw/Fail Auln/Fail Ntfy/Fail Rqnt/Fail
---------------- -------- --------- --------- --------- --------- -------
2.2.2.2 mgc1 0 0/0 0/0 0/0 0/0
Use the dspsrcppeer command to display the peer configuration information for a specified peer (call agent). Only applicable if addmgcprotocol with SRCP has been executed.
Display simple resource coordination protocol peer
VoIP
dspsrcppeer <peerId>
peerId | the peer ID as displayed by the dspsrcppeers command in the range 1 - 8 |
|
|
dspsrcppeer, addmgcprotocol
|
|
|
dspsrcppeer 4
Use the dspsrcppeers command to display the peer configuration information for all configured SRCP peers (call agents).
Display simple resource coordination protocol peers
VoIP
|
|
addmgcprotocol
|
|
|
dspsrcppeers
Use the dspsrcpport command to display the local UDP port number used by SRCP protocol on VISM.
Display simple resource coordination protocol port
VoIP
dspsrcpport
|
|
|
dspsrcpport
Use the dsptaskinfo command to view information about currently operating tasks.
Display task information
VoIP and AAL2 Trunking
None
|
|
|
dsptaskinfo
A typical display for the VISM card is:
taskName msgReceivd msgSent msgSent lastSent lastSt lastSt
Failed FailedTask Failed Failed
MsgTyp Errno
---------- --------------- --------------- ---------- ---------- ------ ------
nmimRouter 0 60 0 0 0x0
scm 1240 584 0 0 0x0
pSNMP 0 1 0 0 0x0
cmm 277 258 0 0 0x0
conn_mgr_t 1109790 29 0 0 0x0
tFiled 68 69 0 0 0x0
tSmd 237 313 0 0 0x0
logd 304 1 0 0 0x0
alarm_task 0 29 0 0 0x0
taskName msgReceivd msgSent msgSent lastSent lastSt lastSt
Failed FailedTask Failed Failed
MsgTyp Errno
---------- --------------- --------------- ---------- ---------- ------ ------
oam 5 1109778 0 0 0x0
bertd 0 1 0 0 0x0
The dspvismdn command is used to display the domain name for the VISM card.
Display domain name
VoIP
cnfvismdn
|
|
|
dspvismdn
A typical display for the VISM card is:
DomainName: cisco.com
The dspvismip command displays the IP address and subnetmask for the VISM card.
Display VISM IP
VoIP
cnfvismip
|
|
|
dspvismip
A typical display for the VISM card is:
VismIpAddress: 209.165.200.224 NetMask: 255.255.255.252
Use the dspvismparam command to display VISM card parameters including current mode, CAC s. status, template number, control and bearer Tos, etc.
Display VISM parameters
VoIP and AAL2 Trunking
cnfvismmode, cnfcodectmpl, cnfcac, cnfvismip
|
|
|
dspvismparam
A typical display for the VISM card is:
VISM mode: voipSwitching CAC flag: enable DS0s available: 192 Template number: 2 Percent of functional DSPs: 100 IP address: 10.10.10.1 Subnet mask 255.255.255.252 RTCP report interval: 1000 RTP receive timer: disable ControlPrecedence/Tos: 0x60 BearerPrecedence/Tos: 0xa0 Aal2 muxing status: disable Tftp Server Dn TFTPDOMIAN
DS0s available is applicable to AAL2 Trunking mode only
RTCP report interval, RTP receive timer, ControlTos, BearerTos are applicable to VoIP mode only.
Use the dspxgcpcnf command to display SGCP/MGCP timeout and retry count values which have been configured using the cnfxgcpretry and cnfxgcpmwd commands.
Display gateway control protocol configuration
VoIP
cnfxgcpretry, cnfxgcpmwd
|
|
|
dspxgcpcnf
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpcnf
MWD timeout : 10000
Request timeout : 500
Retry count: 3
Use the dspxgcpcons command to display xGCP/MGCP connections.
Display gateway control protocol connections
VoIP
None
VISM
|
|
|
dspxgcpcons
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpcons
Calls Active Line1: 0x00000000 (0)
Calls Active Line2: 0x00000000 (0)
Calls Active Line3: 0x00000000 (0)
Calls Active Line4: 0x00000000 (0)
Calls Active Line5: 0x00000000 (0)
Calls Active Line6: 0x00000000 (0)
Calls Active Line7: 0x00000000 (0)
Calls Active Line8: 0x00000000 (0)
Total Active Calls: 0
Use the dspxgcpdefpkg command to display SGCP/MGCP default package.
Display gateway control protocol default package
VoIP
None
|
|
|
dspxgcpdefpkg
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpdefpkg
Default package : T
Use the dspxgcpdetailcnt command to display SGCP/MGCP details of message statistics exchanged between VISM and the specified call agent.
Display gateway control protocol counters
VoIP
dspxgcpdetailcnt <IpAddress>
IpAddress | the IP address of the call agent in dotted decimal notation - nnn.nnn.nnn.nnn. An address value of zero is not allowed. |
None
|
|
|
dspxgcpdetailcnt 209.165.200.224
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpdetailcnt 2.2.2.2
IP Address : 2.2.2.2
CRCX Count : 0
CRCX Fail Count : 0
MDCX Count : 0
MDCX Fail Count : 0
DLCX Received Count : 0
DLCX Received Fail Count : 0
DLCX Sent Count : 0
DLCX Sent Fail Count : 0
RQNT Count : 0
RQNT Fail Count : 0
Notify Count : 0
Notify Fail Count : 0
Audit Endpoint Count : 0
Audit Endpoint Fail Count : 0
Audit Connection Count : 0
Audit Connection Fail Count : 0
RSIP Count : 4
RSIP Fail Count : 4
Use the dspxgcpdetailcnts command to display SGCP/MGCP details of message statistics exchanged between VISM and all known call agents.
Display gateway control protocol configurations
VoIP
None
|
|
|
dspxgcpdetailcnts
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpdetailcnts
IP Address : 2.2.2.2
CRCX Count : 0
CRCX Fail Count : 0
MDCX Count : 0
MDCX Fail Count : 0
DLCX Received Count : 0
DLCX Received Fail Count : 0
DLCX Sent Count : 0
DLCX Sent Fail Count : 0
RQNT Count : 0
RQNT Fail Count : 0
Notify Count : 0
Notify Fail Count : 0
Audit Endpoint Count : 0
Audit Endpoint Fail Count : 0
Audit Connection Count : 0
Audit Connection Fail Count : 0
RSIP Count : 4
RSIP Fail Count : 4
Use the dspxgcperrcnt command to display SGCP/MGCP the count of errors for both unsupported protocol versions and unrecognized packets.
Display gateway control protocol error count
VoIP
None
|
|
|
dspxgcperrcnt
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcperrcnt
Number of msg. for an unsupported protocol version : 0
Number of unrecongnized packets : 0
Use the dspxgcppeers command to display all the UDP peer ports used by SGCP/MGCP.
Display gateway control protocol peer ports
VoIP
cnfxgcppeers
|
|
|
dspxgcppeers
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcppeers
mgcNumber protocolNumber portNumber
----------- ------------- ----------
1 1 2064
1 2 2427
Use the dspxgcpport command to display the local UDP port number used by SGCP/MGCP.
Display gateway control protocol local port number
VoIP
cnfxgcppeer
|
|
|
dspxgcpport
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpport xgcpProtNumber: 2427
Use the dspxgcpcnt command to display the SGCP/MGCP message statistics for a specified call agent.
Display gateway control protocol statistics for a specified call agent
VoIP
dspxgcpcnt <IpAddress>
IpAddress | the IP address of the call agent in dotted decimal format - nnn.nnn.nnn.nnn. An address value of zero is not allowed. |
addmgcprotocol, adddn
|
|
|
dspxgcpcnt 209.165.200.224
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpcnt 2.2.2.2
IP success msg fail msg
-------------- ----------- ----------
2.2.2.2 0 4
Use the dspxgcpcnts command to display the SGCP/MGCP message statistics for all known call agents.
Display gateway control protocol statistics for all call agents
VoIP
addmgcprotocol, adddn
|
|
|
dspxgcpcnts
A typical display for the VISM card is:
datamvr2.1.5.VISM8.a > dspxgcpcnts
IP success msg fail msg
-------------- ----------- ----------
2.2.2.2 0 4
Use the Help command to view commands associated with the current card. TheHelp command is case-sensitive.
This command takes no arguments and therefore does not provide information about specific commands.
Help
VoIP and AAL2 Trunking
|
|
|
Help
A typical display for the VISM card is:
? Help addccs addchan addcid addcon addconloop addendpt addendptloop addendpts addln addlnloop addport addrscprtn chkflash clralm clralmcnt clralmcnts clralms clrsarcnt clrsarcnts clrsarmsgcnt Type <CR> to continue, Q<CR> to stop: clrscrn clrtaskinfo cnfadapgain cnfalm cnfcac cnfcascode cnfccs cnfchan cnfcodectmpl cnfcon cnfconcac cnfecanenable cnfecannrn cnfecanrec cnfecantail cnfecantone cnferl cnfjtrinitdelay cnfjtrmode cnfln cnflnsig cnfvismmode Type <CR> to continue, Q<CR> to stop: delccs delchan delcid delcon delconloop delendpt delendptloop delendpts delln dellnloop delport delrscprtn dmShellConn dspaal2profile dspalm dspalmcnf dspalmcnt dspalms dspcarddsp dspccs dspccschans dspccscnt dspcd Type <CR> to continue, Q<CR> to stop: dspchan dspchans dspcid dspcids dspcodectmpls dspcon dspconcac dspconcnt dspcons dspendpt dspendpts dspln dsplncids dsplndsp dsplndsx0s dsplns dspmngcidcnt dspport dsprscprtn dspsarcnt dspsarcnts dspsarmsgcnt dsptaskinfo Type <CR> to continue, Q<CR> to stop: dspvismparam i memShow shellConn tstcon tstdelay version
Use the pinglndsp command to display the DSP health for all endpoints on a specified line.
Ping line DSP
VoIP and AAL2 Trunking
pinglndsp <line#>
line# | The line number for which the DSP health for all endpoints is to be displayed in the range 1 - 8. |
dsplndsp
|
|
|
pinglndsp 1
Use the tstcon command to test a specified connection.
Test connection
VoIP and AAL2 Trunking
tstcon <LCN>
LCN | Channel number of the connection to be tested in the range 32 -279. |
tstcon
|
|
|
tstcon 36
Use the tstdelay command to test the delay on a specified connection.
Test connection delay
VoIP and AAL2 Trunking
tstdelay <LCN>
LCN | The channel number of the connection to be tested in the range 32 - 279. |
tstcon
|
|
|
tstdelay 36
Use the version command to view different types of version-related information, such as firmware version, operating system kernel version, the date of the software build, and so on (refer to screen examples).
Display Versions
VoIP and AAL2 Trunking
None
|
|
|
version
A typical display for the VISM card is:
sj885044.1.17.VISM8.a > version
***** Cisco Systems. MGX 8850 VISM Card *****
Firmware Version = 2.0.0_11Nov99_2
Backup Boot version = 3.2.13
Xilinx Firmware version = 10/ 2/1998
DSPCOM FPGA version = 10/ 7/1999
DSPM F irmware Details:
Major Release = 3
Minor Release = 4
Build number = 2
DSPM ecan Firmware Details:
Major Release = 7
Minor Release = 3
Build number = 9
VxWorks (for R5k PDC) version 5.3.1.
Kernel: WIND version 2.5.
Made on Nov 11 1999, 15:31:28.
Boot line:
Posted: Wed Aug 30 18:11:08 PDT 2000
Copyright 1989-2000©Cisco Systems Inc.