|
The voice commands apply to the setting up, configuring, and statistical reporting for voice connections (including FAX). In addition to the command descriptions, this chapter describes how to add a voice connection, configure card redundancy, and optimize the use of voice activity detection (VAD). A list of the commands that let you modify most characteristics of voice and data connections also appears at the front of the chapter. Use this list as a guideline for building voice service.
Voice connections exist as ports on circuit lines that are supported by either a Channelized Data Module (CDP) in an IPX node or a Channelized Voice Module (CVM) or Universal Voice Module (UVM) in an IGX node. The back card for the CDP or CVM is either a BC-T1, BC-E1, or BC-J1. For the UVM, the back card is either a BC-UVI-2T1EC, a BC-UVI-2J1EC, or BC-UVI-2E1EC.
The following steps describe how to set up a voice connection:
Step 1 Configure the voice channel at each end of the connection. The associated commands are:
♦ upln | Use upln to activate the line. |
♦ cnfcassw | If the UVM must convert CAS/DTMF to CCS signaling for a Voice Network Switch (VNS), use cnfcassw to configure the UVM for CAS switching. For CAS switching, the minimum UVM firmware level is B. Note that CAS switching is incompatible with pass-through. Before you use addcon to add signaling channels (to slot.port.24 or slot.port.16 for T1 or E1, respectively), specify "PBX-end" mode with cnfcassw. |
♦ cnflnpass | For a UVM intended to carry voice traffic with low delay code-excited linear predictive coding (LDCELP) or conjugative algebraic code-excited linear predictive coding (CACELP) per G.729, use cnflnpass to configure the UVM lines for the pass-through feature. Refer to the Cisco IGX Reference for a description of pass-through. Before you can execute cnflnpass, you must activate (upln) and configure (cnfln) the lines. Note that pass-through is incompatible with CAS-switching. |
♦ cnfchadv | Configures the channel for adaptive voice (ADV). This command enables or disables adaptive voice compression for one or more voice channels. The feature must be configured at both ends of the channel. |
♦ cnfchdl | Configures a channel's dial-type. The options are inband, pulse, and user-configured. |
♦ cnfchec | Configure the echo canceller for the channel. The command enables or disables the echo canceller for a range of voice channel, sets the echo return loss to high or low and enables/disables the tone disabler, convergence, and non-linear processing. |
♦ cnfchgn | Configures the amount of gain inserted in a voice channel. |
♦ cnfcond | Configures a conditioning template for the channel. |
♦ cnfrcvsig | Configures receive signaling for the channel. |
♦ cnfxmtsig | Configures transmit signaling for the channel. |
♦ cnfvchtp | Configures a voice interface type for the channel. |
♦ cnfchutl | Configures channel utilization (see "Optimizing Traffic Routing and Bandwidth" chapter). |
♦ addyred | Enables voice channel redundancy. |
♦ dsplncnf | Use dsplncnf to make sure you have correctly configured the line. |
Step 2 Add the connections with the addcon command. You must complete the appropriate steps at each end using the commands in the preceding list before you add connections.
You can configure voice cards for redundancy by installing two identical card sets in adjacent slots and connecting them to the CPE through a Y-cable. Configure redundancy by using addyred. Note that a switch to a standby UVM that has active CAS-switching causes the loss of all call states.
The bandwidth savings you gain by using VAD are less than optimal if you do not set the utilization of the voice channels to a reasonable value. To configure the utilization, use the cnfchutl command.
The following list shows the command name and starting page for the description of each command.
Command | Full Name | Page |
---|---|---|
addcon | Add connection | |
cnfchadv | Configure channel adaptive voice | |
cnfchdl | Configure channel dial type | |
cnfchec | Configure channel echo canceller | |
cnfchfax | Configure fax modem detection for channels (UVM) | |
cnfchgn | Configure channel gain insertion | |
cnfcond | Configure conditioning template | |
cnflnpass | Configure line pass | |
cnfrcvsig | Configure receive signaling | |
cnfvchtp | Configure voice channel interface type | |
cnfxmtsig | Configure transmit signaling | |
delcon | Delete connection | |
dspchcnf | Display channel configuration | |
dspchdlcnf | Display channel dial type configuration | |
dspchec | Display channel echo canceller | |
dspcon | Display connection | |
dspcond | Display conditioning template | |
dspcons | Display connections | |
dspconst | Display connection state | |
dspsigqual | Display signal qualifiers | |
dspsvcst | Display voice SVC statistics | |
prtchcnf | Print channel configuration | |
prtchdlcnf | Print dial type configuration | |
prtcons | Print connections |
Establishes the channel connections between nodes in the network. You can add voice connections to any slot that has a CDP, UVM, or CVM. Before you add a connection, determine its compression type.
If you plan for a port on a UVM to carry more than 16 channels with LDCELP or the G.729 version of CACELP, you must have a second, connected UVM and configure the resultant pair of UVMs for pass-through operation. If you attempt to add more than 16 LDCELP or G.729 channels, the system reports any excess connections as being failed connections after addcon execution finishes. Furthermore, if you execute dspcon, the status display for the excess connections shows "ConnRJ" (connection rejected). Refer to the cnflnpass description in this chapter and the UVM description in the Cisco IGX Reference for a description of pass-through.
After you have established pass-through for a pair of UVM card sets, the system does not allow duplication of channel numbers when you add connections. For example, if you add 7.1.1-16, the node does not allow you to add 8.1.1-8 if you have linked the UVMs by using cnflnpass. Instead, you would add 8.1.17-24.
A UVM with Model B or higher firmware supports CAS switching. Before you can add connections in a network with CAS switching, you must configure the UVM for this feature with the cnfcassw command. Note that, for CAS switching, you use addcon to add the signaling channels at the near and far end in the format slot.port.24 on a T1 line and slot.port.16 on an E1 line. Also, the connection type for these signaling channels is "t." If you specify D-channel compression, the connection type is "td." See the description of cnfcassw in the chapter titled "Setting Up Lines" or, for a more detailed description, the manual titled Cisco Voice Switching Installation and Operation.
When adding a range of channels, you do not have to specify the full channel set at the near-end. You may specify only the first channel in the set. For example, to connect channels 13.1-10 at alpha to channels 12.5-14 at beta, you could enter "addcon 13.1-10 beta 12.5." In this example, channel 13.1 is connected to channel 12.5, and channel 13.2 is connected to channel 12.6, and so on.
Connections are added with a default class of service (COS). The value of COS is the number of seconds that the node waits before it reroutes the connection after a failure. The COS applies to various types of connections other than voice and therefore is described elsewhere (see the cnfcos description in the chapter titled "Optimizing Traffic Routing and Bandwidth.")
Table 6-2 describes what you enter for the type parameter for each rate and compression variable.
Rate | VAD | No VAD | Comment |
---|---|---|---|
64 Kbps | v | p |
|
32 Kbps | c32 | a32 |
|
32 Kbps for FAX | c32d
| a32d | Specifies 32 Kbps specially optimized for FAX. c32d incorporates Voice Activity Detection (VAD). |
24 Kbps ADPCM | c24 | a24 |
|
16 Kbps no ZCS | c16z | a16z | For non-ZCS only. |
16 Kbps | c16 | a16 | ZCS is permissible. c16 and a16 use non-standard compression algorithms. |
Rate | VAD | No VAD | Comment |
---|---|---|---|
64 Kbps | v | p, t | Pass-through does not accept t-type connections. |
32 Kbps | c32 | a32 |
|
24 Kbps ADPCM | c24 | a24 |
|
16 Kbps no ZCS | l16V | l16 | For non-ZCS only. |
8 Kbps | g729r8v | g7298 | The UVM supports two forms of CACELP. Both versions can support VAD (or no VAD). The "a" indicates G.729A. The other version is G.729. |
p | A p-connection carries 64 Kbps PCM voice and supports A-law or µ-law encoding and conversion, gain adjustment, and signaling. |
t | A t-connection carries 64 Kbps clear channel data traffic. |
td | A td-connection carries compressed, 16-Kbps signaling between an IGX node and VNS unit. |
v | A v-connection is the same as "p" (above) but with VAD. |
a32 | Specifies ADPCM only. You can specify 32-Kbps or 24-Kbps. |
c32 | Specifies both ADPCM and VAD. You can specify 32-Kbps or 24-Kbps. |
l16 | LDCELP compression of voice to 16 Kbps. |
l16v | LDCELP compression of voice to 16 Kbps with VAD. |
g729r8 | CACELP voice compression at 8 Kbps according to G.729. This type also supports automatic FAX and modem upgrade. |
g729r8v | CACELP voice compression at 8 Kbps with VAD according to G.729. |
g729ar8 | CACELP voice compression at 8 Kbps according to G.729A. |
g729ar8v | CACELP voice compression at 8 Kbps with VAD according to G.729A. |
The difference between a PCM (p) connection and a transparent (t) or transparent D-compression (td) connection is that the D4 frame signaling bits are identified and processed as signaling information with PCM connections. PCM connections permit gain adjustment to be applied to the connection. Transparent connections treat all bits, including signaling bits, as data bits and disables any gain adjustment conversion that you may have specified.
The number in the type field indicates the ADPCM rates in Kbps. The "z" suffix indicates that 00 code level is used. Type a16 or c16 uses only 01, 10, and 11 binary codes to avoid long strings of zeroes. Type a16z and c16z connections use the 00 code and are automatically configured to avoid ZCS lines (*Z).
Add connection
addcon <local channel> <remote node> <remote channel> <type> [avoid]
delcon, dncon, dspcon, dspcons, cnfcos
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
addcon 7.2 beta 8.2 v
Add a "v" type voice connection. This command connects channel 7.2 on node alpha to channel 8.2 on node beta. A prompt appears asking you to confirm the proposed connections.
Connection type is "v," "class of service" (COS) is "2," compression is VAD, and ownership is local. For an explanation of COS, see the cnfcos description in the chapter titled "Optimizing Traffic Routing and Bandwidth." Because you are entering the addcon command at node alpha, the node alpha is the owner of the connection.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:37 PST
Local Remote Remote Route
Channel NodeName Channel State Type Compression Avoid COS
7.2 beta 8.2 Ok v VAD L 2
Last Command: addcon 7.2 beta 8.2 v
Next Command:
Parameter | Description |
---|---|
local channel | Specifies the local channel or set of channels to add. Right-angle brackets indicate that a range of channels. Channel specification on a UVM has one more parameter than the specification on a CDP or CVM, as follows: For a CDP or CVM, the format for channel specification is slot.chan[-chan]. For a UVM, the format for channel specification is slot.line.chan[-chan]. Refer to the Cisco IGX Reference for a description of the UVM's lines. Note that, if you are using CAS switching with for Model B firmware, line must be "1." |
node | Specifies the name of the node at the other end of the connection. For a DAX connection (where channels on a node are connected to channels on the same node), use the local node name. |
remote channel | Specifies the remote channel or set of channels to connect. Brackets indicate that a range of channels can be specified. Channel specification on a UVM has one more parameter than the specification on a CDP or CVM. For a CDP or CVM, the format for channel specification is slot.chan[-chan]. For UVM, the format for channel specification is slot.line.chan[-chan]. Access devices such as the Cisco 3800 use the following format for the remote channel specification: <slot.port> <access_device_connection_ID> where slot is the slot number of the FTC or FTM card, port is the port number, and access_device_connection_ID is in the range 1-252.
|
type | Specifies the voice connection type. Refer to Table 6-2 or Table 6-3 for voice connection types and compression. For connections to an access device such as the Cisco 3810, type can be one of the following: 24-Kbps or 32-Kbps ADPCM, LDCELP, or CACELP. |
Parameter | Description |
---|---|
avoid | Specifies the type of trunk for the connection to avoid. The default is no avoidance. The choices are: *s avoid satellite trunks. *t avoid terrestrial trunks. *z avoid trunks using zero code suppression techniques that modify any bit position to prevent long strings of zeros. |
Enables the adaptive voice (ADV) feature for individual channels. ADV must also be enabled at each node that terminates the connection. The channel-specific cnfchadv has no effect at nodes that do not support ADV enabled.
If the ADV feature is enabled for a channel with a "c" or "v" connections, VAD is automatically disabled on that channel when trunk bandwidth is available and enabled when trunk bandwidth is needed. If the Adaptive Voice feature is not enabled for a channel with a "c" or "v" connections, VAD is always turned on for that channel. In order for a voice ("c" or "v") connection to use ADV, both ends must have ADV enabled with the cnfchadv command.
Configure channel adaptive voice
cnfchadv <channel(s)> <y/n>
dspchcnf
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
cnfchadv 14.1 e
Enable Adaptive Voice for channel 14.1.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:43 PST
% Adaptive Gain (dB) Dial OnHk Cond
Channels Util Voice In Out Type Interface Type A B C D Crit.
14.1-24 40 Enabled 0 - Inband Unconfig ? ? - - a
Last Command: cnfchadv 14.1 e
Next Command:
Parameter | Description |
---|---|
channel | Specifies the channel or range of channels over which you specify Adaptive Voice. |
e | Enables ADV (default). |
d | Disables ADV. |
Configures the dial type for a channel or set of channels. The dial type may be inband, pulse, or user-configured. The user-configured option allows non-default timing values to be used. The parameters associated with the cnfchdl command are timing constants used to ensure that signaling pulses are not distorted in time by transmission through the network.
If you select inband, the node assumes that the A and B bits are not used for loop-disconnect dialing. Therefore, any change in signaling bit status goes in a packet to the far end of the connection.
If you select pulse, the transmitting node waits (normally 72 ms) after an A or B bit transition for another transition to arrive. If a transition arrives, the new transition goes into the same signaling packet that is sent to the far end of the connection. This step increases the delay of the signaling transition across the network but decreases the amount of trunk bandwidth used for signaling.
If the default timings are not correct for the network, you must configure the options. The dialing type should be set correctly. If a connection-designated pulse is used for inband signaling, a greater than necessary delay across the network results. If a connection-designated inband is used for pulse signaling, the relative timing of signaling transitions may be lost and so distort the pulses.
Configure dial type for channels
cnfchdl <channel(s)> <dial_type> [<sig_delay> <min_wink> <int_dig_time>
<playout delay>]
dspchcnf, dspchdlcnf
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
cnfchdl 14.1 p
Configure the dial type of channel 14.1 to pulse.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:46 PST
% Adaptive Gain (dB) Dial OnHk Cond
Channels Util Voice In Out Type Interface Type A B C D Crit.
14.1 40 Enabled 0 - Pulse Unconfig ? ? - - a
14.2-24 40 Enabled 0 - Inband Unconfig ? ? - - a
Last Command: cnfchdl 14.1 p
Next Command:
Parameter | Description |
---|---|
channel | Specifies the channel or range of channels over which to configure dial type. |
dial type | Specifies the dial type to assign. The three possible dial types are: i inband Inband is the default dial type. If you designate "u" for a user-configured dial type, you are prompted, as applicable, from among the following: sig delay, min wink, interdigit time, and playout delay. |
Parameter | Description |
---|---|
signaling delay | Specifies the signaling delay for the user-configured dial type. The range is |
minimum wink | Specifies the minimum wink to assign to the user-configured dial type. The range is 3-765 ms. Your entry is rounded down to the nearest multiple of 3 ms. This parameter does not apply to CDP, UVM, or CVM channels. |
interdigit time | Specifies the interdigit time for the user-configured dial type. The range is |
playout delay | Specifies the signaling delay assign to the user-configured dial type. The range is 12-96 ms. Your entry is rounded to the closest multiple of 1.5 ms. |
Configures the echo canceller and other channel parameters associated with a voice channel. (You cannot configure CAS and data channels using cnfchec). The CDP/CVM and UVM have slightly different parameters. Unavailable parameters appear on the screen as a dashed line, so no prompts for these unavailable options appear.
Configure channel echo canceller
For CDP/CVM
cnfchec <chan> <ec> <erl> <td> <convergence> <nlp>
For UVM:
cnfchec <chan> <ec> <td> <nlp> <bkgd_filter>
dspchec
Privilege | 1 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | Yes |
cnfchec 7.1 e h e e e
Enable and configure the Echo Canceller in channel 7.1 with high echo loss tone disabled, convergence enabled, and non-linear processing enabled. In this example, the card is either a CDP or CVM because the channel is specified with slot.channel rather than slot.line.channel.
pubsipx1 TN cisco IPX 16 9.1 July 27 1997 06:06 PDT
Echo Echo Return Tone Conver- Non-Linear Voice
Channels Cancel Loss (.1 dBs) Disabler gence Processing Tmplt
7.1 Enabled High 60 Enabled Enabled Enabled USA
7.2-31 Disabled High 60 Enabled Enabled Enabled USA
Last Command: cnfchec 7.1 e h e e e
Next Command:
cnfchec 13.1.1 e
Enable the echo canceller in channel 13.1.1. In this example, the card is a UVM because the channel is specified with slot.line.channel. Note the available parameters differ slightly from a CDP/CVM.
sw176 TN Cisco IGX 8420 9.1 Aug. 4 1997 13:29 PST
Echo Echo Return Tone Conver- Non-Linear Voice Bkgrnd
Channels Cancel Loss(.1 dBs) Disabler gence Processing Tmplt Filter
13.1.1-24 Disabled - Enabled - Enabled - Enabled
13.2.1-24 Disabled - Enabled - Enabled - Enabled
This Command: cnfchec 13.1.1
Enable or Disable Echo Cancel (e/d)? [d]:
Parameter | Description |
---|---|
channel | Specifies the channel or range of channels. For a CDP or CVM, "channel" has the format slot.channel(s). For a UVM, "channel" has the format slot.line.channels(s). |
echo canceller | Enable or disable the echo canceller. An "e" enables. A "d" disables. |
echo return loss | Sets the echo return loss as high/low). An "h" specifies high. An "l" specifies low. |
tone disabler | Enables or disables the tone disabler. An "e" enables. A "d" disables. |
convergence | Enables or disables convergence. An "e" enables. A "d" disables. Except for test purposes, the normal state for convergence is enabled. |
non-linear processing | Enables or disables non-linear processing. An "e" enables. A "d" disables. |
bkgd_filter | Enables or disables the background filter. |
Configures a channel on a UVM for either FAX detection or FAX relay. If you enable FAX detection, the UVM suspends voice compression when it detects a FAX or modem tone on the channel. For the duration of the FAX, transmission takes place at 64 Kbps.
FAX relay is a mechanism for compression the FAX transmission rate across a network to 9.6 Kbps.
To view the current configuration, use the dspchcnf command.
Configure FAX modem detection for channels
cnfchfax <slot.line> <channel(s)> <e/d>
dspchcnf
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IGX |
Lock | Yes |
cnfchfax 7.1.1
Configure channels 1-24 on line 1 of the UVM in slot 7 to have FAX modem detection.
sw109 VT Cisco IGX 8420 9.1 Aug. 20 1997 19:10 PST
% Adaptive Gain (dB) Dial Interface OnHk Cond
Channels Util Voice Fax In Out Type Type A B C D Crit
7.1.1-24 40 Enabled Disabled 0 0 Inband 2W E&M 0 X - - a
7.2.1-24 40 Enabled Disabled 0 0 Inband Unconfig ? ? - - a
Last Command: cnfchfax 7.1.1
Next Command:
Parameter | Description |
---|---|
slot.line | Specifies the line of the UVM. |
channel(s) | Specifies the DS0 or range of DS0s. |
e/d | Enable or disable FAX detection. |
Configures the amount of gain inserted by the IPX or IGX node for a given circuit line channel or range of channels. Gain can be configured between +6 dB and -8 dB. The input gain is inserted at the receive side of a voice card and is therefore applied before the signal is packetized by the card. The output gain is inserted at the transmit side of a voice card and is applied after the signal has been depacketized by the card. Gain is meaningless for channel that carry data.
Configure gain insertion for channels
cnfchgn <channel(s)> <input_gain> <output_gain>
dspchcnf
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
cnfchgn 14.1 -4 2
Configure input gain of -4 db and an output gain of +2 dB for channel 1 of circuit line 1.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:52 PST
% Adaptive Gain (dB) Dial OnHk Cond
Channels Util Voice In Out Type Interface Type A B C D Crit.
14.1 40 Enabled -4 -2 User Unconfig ? ? - - a
14.2-24 40 Enabled 0 -2 Inband Unconfig ? ? - - a
Last Command: cnfchgn 14.1 -4 2
Next Command:
Parameter | Description |
---|---|
channel | Specifies the channel or range of channels. |
input_gain | Specifies the gain, in decibels, to assign to the channel. The range is -8 dB-+6 dB. |
output_gain | Specifies the gain, in decibels, to assign to the channel. The range is -8 dB -+6 dB. |
Creates a conditioning template that specifies the bit patterns to be transmitted for each of the T1 and E1 timeslots and their A, B, C, and D signaling bits while the channel is in the failed state. Its purpose is to prevent the signaling bits from returning to the idle (on-hook) bit pattern during a channel failure and to force a known bit pattern (usually busy). If a connection fails and the template has been specified as the conditioning template for the failed connection, the data parameter in the template is transmitted in the channels timeslot, and the A, B, C, and D bits are processed according to the specified parameters.
A two-character sequence in the id parameter field identifies the template. The 'Data Pattern' field displays the pattern transmitted in the channels timeslot. The 'signaling Pattern' field displays the pattern transmitted in the channel's A, B, C, and D signaling bit positions. Each of the A, B, C, and D signaling bits are specified independently and may be held high or low or toggled to the on-hook condition for a short time then off-hook (the name of this latter action is a wink). You can control the timing of the bit-toggling by specifying the duration of winks in increments of 50 ms.
A typical failure response is for the node to:
1. Transmit idle characters in the channel's timeslot
2. Signal off-hook for a period of 2 seconds
3. Return permanently to the on-hook condition.
Configure conditioning template
cnfcond <id> <data> <A bit> <B bit> <C bit> <D bit>
cnfvchtp, dspchcnf, dspcond
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
cnfcond lm 01010100 0(40)/1 1 1 1
Configure the conditioning template.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:59 PST
Conditioning criterion lm:
Data Pattern
01010100 - E1/T1
Signalling Pattern
A 0(40)/1
B 1
C 1
D 1
Last Command: cnfcond lm 01010100 0(40)/1 1 1 1
Next Command:
Parameter | Description |
---|---|
id | Specifies the identifier of conditioning template. The identifier may be any two character combination of lowercase letters (a-z) and numeric digits (0-9). |
data | Specifies an eight-bit binary string to use instead of the voice in the event the channel fails. |
A bit B bit C bit D bit | Specifies the signaling sequence to be transmitted for these bits in the event of a channel failure. You can independently set each of these parameters. Each element in the sequence is expressed as a 1 or 0 (to indicate the logic state of the line) followed by a number in parenthesis to indicate the duration that the state remains on the channel. The duration number is expressed in 50 ms intervals. If you do not enter a duration value, the state remains the same indefinitely. For example, if <B> is set to 1(40); upon a channel failure, the B bit remains in the 1 state for 2 seconds (40 x 50 ms=2 seconds). For another example, <C> set to 0 would cause the C bit to be held permanently at 0 during a failed channel condition because no duration value is present. Note that you can specify a sequence of states by entering several states separated by slash symbols. The maximum number of states in a sequence is 5. For example, you could set <A> to 1(40)/0(20)/1 to vary the duration of the 0 and 1 states. |
Configures a pair of ports so that unprocessed channels go from a primary UVM to a secondary UVM. The cnflnpass command primarily applies to channels that use LDCELP or G.729 CACELP (although pass-through is possible on any type of connection except t-type or td-type). For a description of pass-through, refer to the UVM description in the Cisco IGX Reference.
To return ports to the non-passing configuration, execute cnflnpass with a 0 as the second argument.
Configure line pass-through
To configure pass-through, enter:
cnflnpass <primary line> <secondary line>
To remove pass-through from the primary and secondary lines, enter:
cnflnpass <primary line> 0
dsplncnf
Privilege | 1-6 |
Jobs | Yes |
Log | Yes |
Node | IGX |
Lock | Yes |
cnflnpass 13.1 12.1
Configure line 13.1 to pass any unsupported channels to line 12.1.
Upon successful execution of the command, the screen displays the slot and line of the passing channel on the right. The screen also shows other characteristics of the line.
sw176 TN IGX 8420 9.1 Aug. 26 1997 00:18 GMT
LN 13.1 Config E1/30 UVM slot: 13
Loop clock: No
Line framing: On cnfg: Passing
coding: HDB3 slot.line: 12.1
CRC: No
recv impedance: 75 ohm + gnd
E1/J1 signalling: CAS
encoding: A-LAW
T1 signalling: --
cable type: --
length: --
56KBS Bit Pos: msb
pct fast modem: 20
Last Command: cnflnpass 13.1 12.1
Next Command:
Note that, when you remove pass-through by entering a 0 for the secondary line, the screen also still line characteristics but with dashed lines in the column for the secondary (or passing) line.
Parameter | Description |
---|---|
primary line | Specifies the channels that the primary card supports. The format is slot.port. |
secondary line | Specifies the channels that the secondary card supports. The format is slot.port. |
Configures the receive signaling bits for a voice channel. Channel signaling bit options are t (transparent), 0, 1, or I (invert). If signaling is set to "not used" (-) by cnfchtp, the following condition is maintained: A=1, B=1, C=0, D=1.
Configure receive signaling
cnfrcvsig <channel(s)> <[A/]Conv> <[B/]Conv> <[C/]Conv> <[D/]Conv>
cnfxmtsig, dspsigqual
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
cnfrcvsig 8.1 A/T B/0 C/I D/I
Configure channel 8.1 signaling to transparent for the A bit, inhibited for the B bit, inverted for the C and D bits.
beta TRM YourID:1 IPX 32 9.1 Aug. 23 1997 11:36 MST
Signalling Qualifiers
From 8.1 TXAbit TXBbit TXCbit TXDbit RXAbit RXBbit RXCbit RXDbit
8.1 T T T T T 0 I I
8.2-31 T T T T T T T T
Last Command: cnfrcvsig 8.1 A/T B/0 C/I D/I
Next Command:
Parameter | Description |
---|---|
channel | Specifies the channel or range of channels to receive signaling. |
Parameter | Description |
---|---|
A/ | Specifies the conversion applied to the A bit. <Conv> can be one of: 1: bit is asserted. |
B/ | Specifies the conversion applied to the B bit. |
C/ | Specifies the conversion applied to the C bit. |
D/ | Specifies the conversion applies to the D bit. |
Configures an interface signaling type for a voice channel. Most standard signaling types are maintained by the node, but a custom template may be built by the user. Entering the cnfvchtp command without a specific interface number, the system presents you with a list of valid interface types and their associated onhook and conditioning information.
To assign an interface type (and its associated onhook and conditioning information) to the channel or set of channels, enter the number of the desired interface type. As mentioned previously, type "1" requires user configuration. Interface type is ignored for "d" type connections.
Configure interface type for voice channels
cnfvchtp <channel(s)> <type> [<A> <B> <C> <D> <cond_code>]
cnfchgn, cnfchdl, dspchcnf
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
cnfvchtp 7.1.1
Configure the interface type for channel 7.1.1-24.
sw109 VT cisco IGX 8420 9.1 Aug. 20 1997 18:54 PST
CDP Models All None All
UVM Models All None All
Sample Delay Bkgnd Echo Suppression V.25 Xmit
From 7.1.1 VAD Non-VAD Noise HPF Float Function Loss Detect Delay
7.1.1-24 A8 01 67 ON ON ON ON 64K 5
7.2.1-24 A8 01 67 ON ON ON ON 64K 5
This Command: cnfvchparm 7.1.1
Sample delay for VAD connections:
cnfvchtp 15.5-8 1 X X - - b
Configure a user configurable interface type for channel 15.1 to 15.8. The channel configuration screen shows that channels 5-8 of circuit line 15 now has a user-configured interface type with an A-bit on-hook value of "X", a B-bit on-hook value of "X", an C-bit on-hook value of not used, D-bit on-hook value of not used, and conditioning template b.
Parameter | Description |
---|---|
channel | Specifies the channel or range of channels for the interface type configuration. For a CVM or CDP, the format is slot.channel[-channel]. For a UVM, the format for channel is slot.line.channel[-channel]. |
interface type | Specifies the number of the interface type to assign to the channel or range of channels. These types are listed below. The Onhook column has A bits on the left and B bits on the right. The conditioning column has different types of conditioning specified. If you designate interface type number 1 to indicate a user-configured interface type, the system prompts for: onhook A, onhook B, onhook C (if applicable), onhook D (if applicable), conditioning A, conditioning B, conditioning C (if applicable), conditioning D (if applicable), and conditioning template information. When the IPX or IGX receives A, B, C, and D bits corresponding to the onhook values, that channel is known to be onhook. If the A, B, C, and D bits do not correspond to the onhook values, that channel is known be offhook |
onhook A | A-bit value for the onhook state of a channel or set of channels. |
onhook B | B-bit value for the on-hook state of a channel or set of channels. |
onhook C | C-bit value for the on-hook state of a channel or set of channels. |
onhook D | D-bit value for the on-hook state of a channel or set of channels. Possible values are: 1 high |
conditioning template | One of many predefined or user-defined conditioning templates in the range of 00000000 to 11111111. (See dspcond and cnfcond commands). Each interface type, except for option 1, has a predetermined conditioning template associated with it. These represent the A, B, C, D bit values as well as the substitute PCM voice sample sent to the attached equipment in case the voice connection fails for any reason. |
Allows the node to pass A, B, C, and D channel signaling bits through unchanged, or to invert, or hold them at a given value for a CDP or CVM line. It affects signaling bits in the transmit direction (to the PBX or channel bank) in an E1 system. The command configures the transmit signaling. Channel signaling bit options are T (transparent), 0, 1, or I (invert). If signaling is set to "not used" (-) by cnfchtp, the following is maintained: A=1, B=1, C=0, D=1.
Configure transmit signaling
cnfxmtsig <channel(s)> <[A/]Conv> <[B/]Conv> <[C/]Conv> <[D/]Conv>
cnfrcvsig, dspsigqual
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
cnfxmtsig 8.1 a/I b/0 c/1 d/t
Configure the transmit signaling for channel 8.1 to inverted for the A bit, inhibited for the B bit, asserted for the C bit and transparent for the D bit.
beta TRM YourID:1 IPX 32 9.1 Aug. 23 1997 11:38 MST
Signalling Qualifiers
From 8.1 TXAbit TXBbit TXCbit TXDbit RXAbit RXBbit RXCbit RXDbit
8.1 1 0 1 T T 0 I I
8.2-31 T T T T T T T T
Last Command: cnfxmtsig 8.1 a/I b/O c/1 d/t
Next Command:
Parameter | Description |
---|---|
channel | Specifies the channel or range of channels to receive signaling. |
Parameter | Description |
---|---|
A/ | Specifies the conversion applied to the A bit. <Conv> can be one of: 1: bit is asserted. |
B/ | Specifies the conversion applied to the B bit. |
C/ | Specifies the conversion applied to the C bit. |
D/ | Specifies the conversion applies to the D bit. |
Removes one or more voice connections from a network. You can delete connections at either end of the connection.
Do not delete a connection when the node at the other end of the connection is unreachable. The unreachable node does not recognize the deletion. Also, you must not delete a connection to an unreachable node then connect that deleted channel to another node.
Delete connection
delcon <channel(s)>
addcon, dspcon, dspcons
Privilege | 1-2 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | Yes |
delcon 14.1
Delete connection 14.1. The proposed deletions are highlighted, a prompt requests confirmation of the deletion. Enter a "y" to delete the highlighted connections or an "n" to keep the highlighted connections. The example shows the screen after deletion of 14.1.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:35 PST
Local Remote Remote Route
Channel NodeName Channel State Type Compression Code Avoid COS O
5.1 beta 25.1 Ok 256 7/8 0 L
9.1.100 gamma 8.1.200 Ok fr 0 L
9.2.400 beta 19.2.302 Ok fr 0 L
Last Command: delcon 14.1
Next Command:
Parameter | Description |
---|---|
channel(s) | Specifies a channel or range of channels to delete. The format for channel on a CDP or CVM is slot.channel The format for channel on a UVM is slot.line.channel. For a range of channels, separate the first and last channel with a dash (-). |
Displays configuration details for voice, data, or Frame Relay channels. When you specify a voice channel with dspchcnf, the display shows:
For the contents of the display when you apply dspchcnf to a serial data channel or Frame Relay channel, refer to the chapters in this manual that describe those traffic types.
Display channel configuration
dspchcnf <start_channel>
cnfchadv, cnfchdfm, cnfchdl, cnfcheia, cnfchgn, cnfchtp, cnfchutl
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dpchcnf 7.1.1
Display the channel configuration of line 7.1.1-24. The card in slot 7 is a UVM.
sw109 VT cisco IGX 8420 9.1 Sept. 20 1997 18:59 PST
% Adaptive Gain (dB) Dial Interface OnHk Cond
Channels Util Voice Fax In Out Type Type A B C D Crit
7.1.1-24 40 Enabled Disabled 0 0 Inband 2W E&M 0 X - - a
7.2.1-24 40 Enabled Disabled 0 0 Inband Unconfig ? ? - - a
Last Command: dspchcnf 7.1.1
Next Command:
Parameter | Description |
---|---|
start channel | Specifies the channel to begin the display. The format for a CDP or CVM is slot.channel. The format for a UVM is slot.line.channel. |
Displays dial type configurations for all channels on a circuit line as follows:
Channel Type | Dial Type | Description |
---|---|---|
All | Dial Type | Inband, pulse, or user-configured. |
User-configured | signaling delay | The signaling delay on a channel. The range is 12 ms-96 ms. |
| minimum wink | The minimum wink on the channel. The range is 3 ms-765 ms. (Minimum wink does not apply to a CDP or CVM channel.) |
| interdigit time | The interdigit times on a channel. The range is 3 ms-765 ms. (Interdigit time does not apply to a CDP or CVM channel.) |
| playout delay | The playout delay on a channel. The range is 12 ms-96 ms. |
Display channel dial type configurations
dspchdlcnf <start_channel>
cnfchdl
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dspchdlcnf 14.1
Display the dial type configuration for all channels beginning with 14.1.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:45 PST
Channels Type Sig Delay Min Wink IntDigit Time Playout Delay
14.1-24 Inband 12 141 300 -
Last Command: dspchdlcnf 14.1
Next Command:
Parameter | Description |
---|---|
start channel | Specifies the channel at which the display begins. For a CDP or CVM, the format is slot.channel. For a UVM, the format is slot.line.channel. |
Displays the integrated echo canceller (IEC) parameters for one or more voice channel(s). The dspchec command does not apply to CAS or data channels. The specified channels must be on a CDP, CVM, or UVM. Table 6-24 lists the displayed parameters and possible values.
Category | Possible Value |
---|---|
Echo cancellation | Enabled or Disabled |
Echo Return Loss (.1 dBs) | High/low (loss is in units are 0.1 dBs) |
Tone Disabler | Enabled or Disabled |
Convergence | Enabled or Disabled |
Non-Linear Processing | Enabled or Disabled |
Voice Template | USA, other |
Display channel echo canceller configuration
dspchec <channel(s)>
cnfchec
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dspchec 7.1
Display the echo canceller configuration for channel 7.1.
pubsipx1 TN cisco IPX 16 9.1 July 27 1997 06:10 PDT
Echo Echo Return Tone Conver- Non-Linear Voice
Channels Cancel Loss (.1 dBs) Disabler gence Processing Tmplt
7.1 Enabled High 60 Enabled Enabled Enabled USA
7.2-31 Disabled High 60 Enabled Enabled Enabled USA
Last Command: dspchec 7.1
Next Command:
Parameter | Description |
---|---|
channels | Specifies the channel or channels to display. For a CVM or CDP, the format is slot.channel(s). For a UVM, the format is slot.line.channel(s). |
Displays connection information for a specified channel. The information displayed includes:
The status that may be displayed includes:
| ok | Connection good |
| failed | Connection failed |
Display connection
dspcon <channel>
addcon, cnfrtcost, cnfpref
Privilege | 1-6 |
Jobs | Yes |
Log | Yes |
Node | IPX, IGX |
Lock | No |
dspcon 6.1
Display connection information for 6.1.
sw196 VT cisco IGX 8420 9.1 OCt. 19 1997 13:35 PDT
Conn: 6.1 sw83 7.13 c16
Status: OK
Owner: LOCAL Restriction: NONE COS: 2 Compression: ADPCM
Path: sw196 14-- 6.1sw86 1.1-- 11sw83
Pref: sw196 14-- 6.1sw86 1.1-- 11sw83
sw196 Line 6: OK ONHK sw83 Line 7: OK
Last Command: dspcon 6.1
Next Command:
Parameter | Description |
---|---|
channel | Specifies the channel for the connection details display.The command displays connection information for one channel at a time. The format for channel on a CDP or CVM is slot.channel. The format for a channel on a UVM is slot.line.channel. |
Displays the signaling bit patterns from the specified template. Refer to the description of the cnfcond command for the purpose of the conditioning template.
Display conditioning criteria
dspcond <identifier>
cnfchtp, cnfcond
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dspcond a
Display the conditioning template identified as "a."
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:56 PST
Conditioning criterion a:
Data Pattern
01010100 - E1
01111111 - T1
Signalling Pattern
A 0(40)/1
B 1
C 1
D 1
Last Command: dspcond a
Next Command:
Parameter | Description |
---|---|
identifier | Specifies the identifier of the template. |
Displays a summary of the connections on an IPX or IGX node. Table 6-28 shows the fields displayed in the dspcons screens.
Fields | Description |
---|---|
Local Channel | The connection's channel at this node. |
Remote Node Name | The name of the node at the other end of the connection. |
Remote Channel | The connection's channel at the remote node. |
State | The state of the connection(s) as follows:
|
Type | The type of connection (v = voice, d = data, fr = Frame Relay, atfr = ATM to Frame Relay interworking, atfst = ATM to Frame Relay interworking with ForeSight, -fail = failed connections; data rate in kbps for data) |
Compression | The type of compression applied to the connection. The types of voice compression appear earlier in the chapter. The compression that applies to data connections is the purchased option called repetitive pattern suppression (RPS). |
COS | The Class Of Service. |
Loopback | A connection with a local loopback is indicated by a right parenthesis symbol between the "Local Channel" and "Remote NodeName" columns. A Frame Relay connection with a port loopback is indicated by a right bracket symbol between the "Local Channel" and "Remote NodeName" columns. A connection with a remote loopback is indicated by a right parenthesis symbol before the channel number in the "Remote Channel" column. |
Local/Remote A-bit | A-bit status on the local and remote nodes if -abit option selected. Note that -abit is incompatible with -v, -d, and +d. |
Display connections
dspcons [start_channel] [nodename] [state] [type]
[-g | +d | -v | -d | -f | -abit | -fabit | -atfr | -siw | -fail | -down]]
addcon, cnfchadv, chfchdfm
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dspcons
Display a summary of all connections.
pubsipx1 TN cisco IPX 16 9.1 July 24 1997 23:04 PDT
Local Remote Remote
Channel NodeName Channel State Type Compress Code COS
5.1.100 pubsipx3 5.1.200 Ok fr 0
Last Command: dspcons
Next Command:
dspcons -abit
Display connections and abit status.
sw53 VT cisco BPX 15 9.1 July 25 1997 11:52 GMT
Local Remote Remote Local Remote
Channel NodeName Channel State A-bit A-bit
4.1.2.1 sw53 4.3.2.1 Ok OK OK
4.1.2.2 sw53 4.3.2.2 Ok OK OK
4.1.2.3 sw53 4.3.2.3 Ok OK OK
4.1.2.4 sw53 4.3.2.4 Ok OK OK
4.1.2.5 sw53 4.3.2.5 Ok OK OK
4.1.2.6 sw53 4.3.2.6 Ok OK OK
4.1.2.7 sw53 4.3.2.7 Ok OK OK
4.1.2.8 sw53 4.3.2.8 Ok OK OK
4.1.2.9 sw53 4.3.2.9 Ok OK OK
4.1.2.10 sw53 4.3.2.10 Ok OK OK
4.1.2.11 sw53 4.3.2.11 Ok OK OK
4.1.2.12 sw53 4.3.2.12 Ok OK OK
This Command: dspcons -abit
Continue?
Parameter | Description |
---|---|
start channel | Specifies the channel to begin the display. The start channel on a CDP or CVM is specified as slot.channel.The start channel on a UVM is slot.line.channel. |
node name | Specifies that only connections to this remote node from the local note be displayed. If no "nodename" is designated, connections from the local node to all other nodes are displayed. |
connection type | Specifies that only connections of a certain type be displayed. If you do not add at least one argument to specify a particular connection type, all connections appear. When you enter the connection type on the command line, precede it with a hyphen (-). In some cases, you can add more than one connection type (with a space between), but not all compound arguments are compatible, so you may not always see the expected combination of types. The connection types are: -v displays only voice connections. -d displays only data connections. -f displays only Frame Relay connections. -abit shows A-bit (nni) status. -fabit shows connections with failed A-bit (nni) status. -fail shows only failed connections -siw shows service interworking connections. -atfr shows only network interworking connections. |
+d | Causes the display to show the user-configured descriptor for the connection instead of the compression and ownership fields. |
Displays the status of the circuit line(s) and continues to display the status until you press the Delete key. While the display is on the screen, the status is automatically updated. The update frequency is one second for each circuit line being displayed. (For example, if only one line is displayed, the update frequency is once per second, if three circuit lines are displayed, the update frequency is once per three seconds). Table 6-30 shows the connection type. cnfchtp must be correctly configured.
Symbol | Description |
---|---|
+ | offhook |
- | onhook |
m | slow modem |
M | fast modem |
F | FAX |
blank | channel not connected |
Display connection state for line connections
dspconst [circuit line]
cnfchtp
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dspconst
Display the condition state for the voice channels on the node.
alpha TRM YourID:1 IPX 16 9.1 Aug. 16 1997 09:55 PST
Connection status display
+ offhook, - onhook, m slow modem, M fast modem, F FAX
1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 3 3
CLN 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
14 +
This Command: dspconst
Hit DEL key to quit:
Parameter | Description |
---|---|
circuit line | Specifies the number of the line for the channel state display. If you do not specify a line, all upped circuit lines (up to a maximum of eight at once) are displayed. |
New in Release 9.1, this command displays the cache of all cost-based routing connections. The optional 'index' parameter lets you specify a cache entry index. The optional 'c' parameter clears the cache. The information displayed includes:
Display cost-based route cache
dsprtcache [index] [c]
[index] specifies the cache entry index
[c] specifies to clear the entire cache or a single entry
dspcon, cnfrtcost, cnfpref
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX, BPX |
Lock | No |
dsprtcache
Display route cache contents, and let you monitor and manually clear the cache.
pissaro TN StrataCom BPX 15 9.1 Jun. 18 1997 11:11 GMT
Route Cache (Summary)
Index Use # Cost Delay Restrict Load VPC Hops RemoteNode
0 Yes 1 Yes No None VBR No 2 lautrec
1 Yes 6 Yes No *s BDB No 3 vangogh
2 Yes 9 Yes No None BDA No 3 matisse
3 Yes 3 Yes No *t BDB No 3 rousseau
4 Yes 1 Yes No None CBR No 3 seurat <- current
5 No 0 No No None --- No 0 ---
6 No 0 No No None --- No 0 ---
7 No 0 No No None --- No 0 ---
8 No 0 No No None --- No 0 ---
9 No 0 No No None --- No 0 ---
10 No 0 No No None --- No 0 ---
11 No 0 No No None --- No 0 ---
Last Command: dsprtcache
Next Command:
Parameter | Description |
---|---|
index | Specifies a particular route entry within the cache. When used with the c parameter, the route is either displayed or cleared from the cache. |
c | Clears the cache, or if you also enter the index parameter, clears the route cache specified by the index number. |
Displays the configuration for the A, B, C, and D bit signaling qualifiers for all channels. The only parameter is the starting channel. You set the values for these signaling bits with the cnfrcvsig and cnfxmtsig commands. Note that these signaling bit states are different from the states during circuit alarm (signaling conditioning).
During normal operation of the voice circuit, the A, B, C, and D signaling bits may be held at a fixed value (0 or 1), inverted (I), or passed through transparently (T). For the direction of the signals, the transmit direction is towards the PBX or channel bank. Receive is from the external equipment.
Display signaling qualifiers
dspsigqual <start channel>
cnfxmtsig, cnfrcvsig
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dspsigqual 8.1
Display the channel signaling bit qualifiers for channel 8.1.
beta TRM YourID:1 IPX 32 9.1 Aug. 23 1997 11:39 MST
Signalling Qualifiers
From 8.1 TXAbit TXBbit TXCbit TXDbit RXAbit RXBbit RXCbit RXDbit
8.1 1 0 1 T T 0 I I
8.2-31 T T T T T T T T
Last Command: dspsigqual 8.1
Next Command:
Parameter | Description |
---|---|
start channel | Specifies the starting channel. On a CDP or CVM, the format is slot.channel. On a UVM, the format is slot.line.channel. |
Displays the voice SVC statistics.
Display voice SVC statistics
dspsvcst
None
Privilege | 1-6 |
Jobs | No |
Log | No |
Node | IPX, IGX |
Lock | No |
dspsvcst
Display the voice SVC statistics for the current node.
sw91 TN cisco IPX 8 9.1 Aug. 29 1997 14:11 GMT
Number of Active SVC : 0
Number of SVC Requests : 0
Number of Failed Requests : 0
Last Reason for request failure : 0
Number of Completed SVC Routes : 0
Number of Failed SVC Routes : 0
Number of Deleted SVC(s) : 0
Number of Failed SVC : 0
Max Secs To Perform SVC Route : 0.000
Avg Secs To Perform SVC Route : 0.000
Last Command: dspsvcst
Next Command:
Prints the configuration details for voice channels or data channels. This command uses the same syntax, and prints the same information as is displayed using the dspchcnf command. See the dspchcnf command for syntax and output information.
Print channel configurations
prtchcnf [start_channel]
dspchcnf
Privilege | 1-6 |
Jobs | Yes |
Log | No |
Node | IPX, IGX |
Lock | Yes |
prtchcnf 14.1
Print the configuration values of circuit line 14.1.
None available because this command produces hardcopy.
Parameter | Description |
---|---|
start channel | Specifies the starting channel for the print output. On a CDP or CVM, the format is slot.channel. On a UVM, the format is slot.line.channel. |
Prints the dial type configurations for channels on a circuit line.
Full Name
Print dial type configuration for channels
prtchdlcnf <start_channel>
cnfchdl, dspchcnf
Privilege | 1-6 |
Jobs | Yes |
Log | No |
Node | IPX, IGX |
Lock | Yes |
prtchcnf 14.1
Print the dial type configuration for all channels beginning with 14.1.
None available as this command produces hardcopy.
Parameter | Description |
---|---|
start channel | Specifies the starting channel for the print output. On a CDP or CVM, the format is slot.channel. On a UVM, the format is slot.line.channel.
|
Prints a summary of connections terminated at the IPX or IGX node.
Print connections
prtcons [start_channel] [nodename] [type]
dspcons
Privilege | 1-6 |
Jobs | Yes |
Log | No |
Node | IPX, IGX |
Lock | Yes |
prtcons
Print a summary of all connections.
None available as this command produces hardcopy.
Parameter | Description |
---|---|
start channel | Specifies the starting channel. On a CDP or CVM, the format is slot.channel. On a UVM, the format is slot.line.channel.
|
node name | Specifies that only connections to this remote node from the local note be displayed. If no "nodename" is designated, connections from the local node to all other nodes are displayed. |
connection type | Specifies that only connections of the specified type appear. If you do not include a connection-type argument, all connections appear. Connection types require a hyphen (-). Valid connection type entries are: -v Displays only voice connections. |
Posted: Thu Aug 22 09:33:35 PDT 2002
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