|
|
The following commands are associated with the global configuration mode:
To configure a data connection on the Cisco MC3810 to an IGX switch that will travel over the FTC trunk, use the connect global configuration command. To cancel the connection, use the no form of this command.
connect interface dlci dlci ftc-trunk connection-id cid
interface | Specifies the interface on the Cisco MC3810 on which the connection is configured. |
dlci | Specifies the DLCI for the connection. |
ftc-trunk | Specifies the Cisco MC3810 interface on which the FTC trunk was configured. |
cid | Specifies the connection ID. |
No data connection over the FTC trunk is configured.
Global configuration mode
| Release | Modification |
|---|---|
12.0(1) XA and 12.0(2) T | This command was first introduced. |
When configuring a connection for an IP routing data connection over an FTC trunk, specify Switch0 for the local interface value.
For this command, when entering the DLCI value, do not use either of the following DLCIs:
The following command establishes a data connection on serial port 1:
connect Serial1 dlci 250 Serial0:0 connection-id 250
| Command | Description |
Configures a connection on the Cisco MC3810 between a voice dial peer and the FTC trunk. | |
encapsulation ftc-trunk | Enables FTC trunk encapsulation on a serial interface on the Cisco MC3810. |
ftc-trunk frame-relay-dlci | Maps the FTC Frame Relay DLCI to an existing Frame Relay DLCI for data traffic on the Cisco MC3810. |
ftc-trunk management-dlci | Maps the FTC management DLCI to an existing Frame Relay DLCI for management traffic on the Cisco MC3810. |
ftc-trunk management-protocol | Selects the mode on the Cisco MC3810 that management frames are sent on the FTC trunk management DLCI. |
ftc-trunk voice-dlci | Maps the FTC voice DLCI to an existing Frame Relay DLCI for voice traffic on the Cisco MC3810. |
To configure a connection on the Cisco MC3810 between a voice dial peer and the FTC trunk, use the connect voice global configuration command. To disable the connection, use the no form of this command.
connect voice dial-peer-tag ftc-trunk connection-id cid
dlal-peer-tag | Specifies the voice dial-peer tag for the connection. Valid entries are from 1 to 10000. The dial peer can either be a POTS dial peer or a VoFR dial peer. |
ftc-trunk | Specifies the Cisco MC3810 interface on which the FTC trunk was configured. |
connection-id cid | Specifies the connection ID. |
No voice connection over the FTC trunk is configured.
Global configuration
| Release | Modification |
|---|---|
12.0(1) XA and 12.0(2) T | This command was first introduced. |
The following command establishes a voice connection for dial peer 2 on serial port 0:
connect voice2 Serial0:0 connection-id 50
| Command | Description |
Configures a data connection on the Cisco MC3810 to an IGX switch that will travel over the FTC trunk. | |
encapsulation ftc-trunk | Enables FTC trunk encapsulation on a serial interface on the Cisco MC3810. |
ftc-trunk frame-relay-dlci | Maps the FTC Frame Relay DLCI to an existing Frame Relay DLCI for data traffic on the Cisco MC3810. |
ftc-trunk management-dlci | Maps the FTC management DLCI to an existing Frame Relay DLCI for management traffic on the Cisco MC3810. |
ftc-trunk management-protocol | Selects the mode on the Cisco MC3810 that management frames are sent on the FTC trunk management DLCI. |
ftc-trunk voice-dlci | Maps the FTC voice DLCI to an existing Frame Relay DLCI for voice traffic on the Cisco MC3810. |
To enter the controller configuration mode for configuring a T1 or E1 controller on the Cisco MC3810, use the controller global configuration command.
controller {t1 | e1} number
t1 | T1 controller configuration mode. |
e1 | E1 controller configuration mode. |
number | Controller unit number: · Enter 0 for the Multiflex Trunk Module (MFT). · Enter 1 for the Digital Voice Module (DVM). |
The software is not in the T1 or E1 controller configuration mode.
Global configuration
| Release | Modification |
|---|---|
10.0 | This command was first introduced. |
11.3 MA | This command was supported on the Cisco MC3810. |
This command is used in configurations where the Cisco MC3810 is required to communicate with a T1 or E1 line.
The following command enters the controller configuration mode for controller T1 0 in the MFT:
controller t1 0
| Command | Description |
channel-group | Configures a list of timeslots for voice channels on the T1 controller. |
clock source | Configure the clock source for a T1/E1 controller. |
framing | Selects the frame type for the E1 or T1 data line. |
linecode | Selects the line-code type for a T1 or E1 line. |
mode | Sets the mode of the T1/E1 controller and enters specific configuration commands for each mode type. |
For pass-through between two controllers, use the following commands:
cross-connect id controller-1 tdm-group-no-1 controller-2 tdm-group-no-2For pass-through traffic from a UIO serial port to a trunk controller, use the following commands:
cross-connect id interface-serial controller tdm-group-no
id | ID assigned to this cross-connection: a number from 0 to 31, unique on this Cisco MC3810. |
controller-1 | First controller type. Options are: · t1 0 or t1 1 · e1 0 or e1 1 |
tdm-group-no-1 | ID of a TDM group on the first controller. |
controller-2 | Second controller type. Options are: · t1 0 or t1 1 · e1 0 or e1 1 |
tdm-group-no-2 | ID of a TDM group on the second controller. |
For pass-through from a UIO serial port to a controller:
id | ID assigned to this cross-connection: a number from 0 to 31, unique on this Cisco MC3810. |
interface-serial | Serial port. Options are: · serial 0 · serial 1 |
controller | Controller type. Options are: · t1 0 or t1 1 · e1 0 or e1 1 |
tdm-group-no | ID of a TDM group on the controller. |
No cross-connections are configured.
Global configuration
| Release | Modification |
|---|---|
11.3 MA | This command was first introduced. |
You cannot cross-connect a TDM group to a logical interface (S0:1 or S1:4, for example) on a T1/E1 controller.
The following example configures a pass-through cross-connect from controller T1 0 on TDM group 20 to controller T1 1 on TDM group 30.
cross-connect 8 t1 0 20 t1 1 30
The following example configures a pass-through cross-connect from serial port 0 to controller T1 1 on TDM group 20.
cross-connect 10 serial0 t1 1 20
| Command | Description |
tdm-group | Configures a list of time slots for creating clear channel groups (pass-through) for Time Division Multiplexing (TDM) cross-connect. |
max-size number | Specifies the maximum size of the call history table. Valid entries are 0 to 500 table entries. A value of 0 prevents any history from being retained. |
retain-timer number | Specifies the length of time, in minutes, for entries in the call history table. Valid entries are 0 to 2147483647 minutes. A value of 0 prevents any history from being retained. |
The default call history table length is 50 table entries. The default retain timer is 15 minutes.
Global configuration
| Release | Modification |
|---|---|
11.3(1) T | This command was first introduced. |
12.0(1) XA | This command first supported the Call Detail Record (CDR) feature on the Cisco MC3810. |
Use the dial-control-mib command to specify the number of entries in the call history table and the length of time each entry remains in the table.
The following example configures the call history table to hold 400 entries, with each entry remaining in the table for 10 minutes:
configure terminal dial-control-mib max-size 400 dial-control-mib retain-timer 10
| Command | Description |
show call history voice record | Displays CDR events in the call history table. |
tag | Digit(s) defining a particular dial peer. Defines the dial peer and assigns the protocol type to it. Valid entries are 1 to 10000. |
pots | POTS dial peer for basic telephone service. |
voatm | Voice over ATM dial peer using the real-time AAL5 voice encapsulation on the ATM backbone network. |
vofr | Voice over Frame Relay dial peer using encapsulation on the Frame Relay backbone network. |
vohdlc | Voice over HDLC dial peer using Cisco serial encapsulation (HDLC) for voice. |
Global configuration
| Release | Modification |
|---|---|
11.3(1) T | This command was first introduced. |
11.3(1) MA | The voatm, vofr, and vohdlc keywords were first supported on the Cisco MC3810. |
Use the dial-peer voice global configuration command to switch to the dial-peer configuration mode from the global configuration mode. Use the exit command to exit the dial-peer configuration mode and return to the global configuration mode.
The following example accesses dial-peer configuration mode and configures a POTS peer identified as dial peer 10:
configure terminal dial-peer voice 10 pots
| Command | Description |
Enter voice-port configuration mode. |
To create a Frame Relay-ATM Interworking interface on the Cisco MC3810 and to enter Frame Relay-ATM Interworking configuration mode, use the interface fr-atm global configuration command. Use the no form of this command to delete the Frame Relay-ATM Interworking interface.
interface fr-atm number
number | Frame Relay-ATM Interworking interface number. Valid range is 0 to 20. |
Frame Relay-ATM Interworking interface 20 is configured by default.
Global configuration
| Release | Modification |
|---|---|
11.3 MA | This command was first introduced. |
This command applies to Frame Relay-ATM Interworking on the Cisco MC3810 only.
Use the interface fr-atm command to enter Frame Relay-ATM interworking interface configuration mode. When you enter this command for the first time, an interface number is created dynamically. You can configure up to 21 Frame Relay-ATM interworking interfaces.
The following example configures Frame Relay-ATM Interworking interface number 20:
interface fr-atm 20
| Command | Description |
fr-atm connect dlci | Maps a Frame Relay DLCI to an ATM virtual circuit descriptor (VCD) for the FRF.5 Frame Relay-ATM interworking function on the Cisco MC3810. |
To configure the Cisco MC3810 PRI interface to support Q.SIG signaling, use the isdn switch-type global or interface command. To disable Q.SIG signaling, use the no form of this command.
isdn switch-type switch-type
switch-type | Service provider switch type. It can be one of the following values:
|
The switch type defaults to none, which disables the switch on the ISDN interface.
Global configuration or interface configuration
| Release | Modification |
|---|---|
9.2.1 | This command was first introduced as a global command. |
11.3 T | This command first appeared as an interface command. |
12.0(2) T | The primary-qsig-slave and primary-qsig-master switch type options to support Q.SIG signaling on the Cisco MC3810 were added. |
You have a choice of configuring the isdn-switch-type command to support Q.SIG at either the global configuration level or at the interface configuration level. For example, if you have a Q.SIG connection on one line as well as on the BRI port, you can configure the ISDN switch type in one of the following combinations:
The following example configures the Cisco MC3810 to act as the Q.SIG master:
isdn switch-type primary-qsig-master
The following example configures T1 interface 23 on the Cisco MC3810 to act as the Q.SIG master:
interface serial 1:23 isdn switch-type primary-qsig-master
| Command | Description |
codec (voice port) | Configures voice compression on the Cisco MC3810 voice port. |
To configure the network clock base rate for universal I/O serial ports 0 and 1 on the Cisco MC3810, use the network-clock base-rate global configuration command. Use the no form of this command to disable the current network clock base rate.
network-clock base-rate {56k | 64k}
56k | Sets the network clock base rate to 56 kilobits per second (kbps). |
64k | Sets the network clock base rate to 64kbps. |
56 kbps
Global configuration
| Release | Modification |
|---|---|
11.3 MA | This command was first introduced. |
This command applies to Voice over Frame Relay, Voice over ATM, Voice over HDLC, and Frame Relay-ATM Interworking on the Cisco MC3810.
The following example sets the network clock base-rate to 64 kbps:
network-clock base-rate 64k
| Command | Description |
clock rate network | Sets the outgoing network clock rate for serial port 0 or 1 in DCE mode. |
To specify a selection hierarchy for the clock sources for the Cisco MC3810, use the network-clock-select global configuration command. Use the no form of this command to cancel the network clock selection hierarchy and use the default clock source.
network-clock-select priority {serial 0 | system | bvm | controller}
priority | Priority of the clock source.Values are 1 to 4, with 1 being the highest priority. When a clock source fails, the next priority clock source becomes active, after the delay specified using the network-clock-switch command. |
serial 0 | Priority value applies to serial interface 0. |
system | Priority value applies to the system (internal) clock generator. |
bvm | Priority value applies to the BRI voice module. |
controller | Priority value applies to a controller--- either the trunk controller (T1 0 or |
No clock source hierarchy is specified, and the clock source defaults to the controller receiving external clock (clock source line).
Global configuration
| Release | Modification |
|---|---|
11.3 MA | This command was first introduced. |
This command applies to Voice over Frame Relay, Voice over ATM, Voice over HDLC, and Frame Relay-ATM Interworking on the Cisco MC3810.
If a controller is specified in the clock source hierarchy, you must configure that controller for line timing (clock source line). Any controller not currently acting as the clock source will automatically operate in loop timing mode.
Both controllers can be given (different) clock source priority values.
The following example specifies a clock selection hierarchy for four clock sources. If the clock source with the highest priority (controller T1 0) fails, the Cisco MC3810 switches the clock source to the second highest priority (controller T1 1).
network-clock-select 1 t1 0
network-clock-select 2 t1 1
network-clock-select 3 serial 0
network-clock-select 4 system
| Command | Description |
Configures the delay times for switchover to a backup clock source and for reversion to a higher priority clock source. | |
clock source | Specifies the clock source and distribution for a T1/E1 controller. |
switch-delay | Delay time in seconds before switchover to a backup clock source when a clock source fails. The range is 0 to 99. |
never | No delay time before switchover to a backup clock source when a clock source fails. |
restore-delay | Delay time in seconds before reversion to a higher-priority clock source. The range is 0 to 99. |
never | No delay time before reversion to a higher-priority clock source. |
10 seconds delay before switchover or reversion
Global configuration
| Release | Modification |
|---|---|
11.3 MA | This command was first introduced. |
This command applies to Voice over Frame Relay, Voice over ATM, Voice over HDLC, and Frame Relay-ATM Interworking on the Cisco MC3810.
The following command sets the delay time for switchover to a backup clock source to 20 seconds and sets the delay time for reversion to a higher-priority clock source to 20 seconds:
network-clock-switch 20 20
| Command | Description |
Specifies a selection hierarchy for the clock sources for the Cisco MC381 | |
clock source | Specifies the clock source and distribution for a T1/E1 controller. |
trap-type | (Optional) Type of trap to enable. If no type is specified, all traps are sent (including the envmon and repeater traps). The trap type can be one of the following keywords: · bgp---Sends Border Gateway Protocol (BGP) state change traps. · config---Sends configuration traps. · entity---Sends Entity MIB modification traps. · envmon---Sends Cisco enterprise-specific environmental monitor traps when an environmental threshold is exceeded. When the envmon keyword is used, you can specify a trap-option value. · frame-relay---Sends Frame Relay traps. · isdn---Sends Integrated Services Digital Network (ISDN) traps. When the isdn keyword is used on Cisco 1600 series routers, you can specify a trap-option value. · repeater---Sends Ethernet hub repeater traps. When the repeater keyword is selected, you can specify a trap-option value. · rtr---Sends response time reporter (RTR) traps. · snmp---Sends Simple Network Management Protocol (SNMP) traps. When the snmp keyword is used, you can specify a trap-option value. · syslog---Sends error message traps (Cisco Syslog MIB). Specify the level of messages to be sent with the logging history level command. · voice---Sends SNMP poor quality of voice traps, when used with the qov trap-option. |
trap-option | (Optional) When the envmon keyword is used, you can enable a specific environmental trap type, or accept all trap types from the environmental monitor system. If no option is specified, all environmental types are enabled. The option can be one or more of the following keywords: voltage, shutdown, supply, fan, and temperature. When the isdn keyword is used on Cisco 1600 series routers, you can specify the call-information keyword to enable an SNMP ISDN call information trap for the ISDN MIB subsystem, or you can specify the isdnu-interface keyword to enable an SNMP ISDN U interface trap for the ISDN U interface MIB subsystem. When the repeater keyword is used, you can specify the repeater option. If no option is specified, all repeater types are enabled. The option can be one or more of the following keywords: · health---Enables IETF Repeater Hub MIB (RFC 1516) health trap. · reset---Enables IETF Repeater Hub MIB (RFC 1516) reset trap. When the snmp keyword is used, you can specify the authentication option to enable SNMP Authentication Failure traps. (The snmp-server enable traps snmp authentication command replaces the snmp-server trap-authentication command.) If no option is specified, all SNMP traps are enabled. When the voice keyword is used, you can enable SNMP poor quality of voice traps by using the qov option. |
All traps are disabled.
If you enter this command with no keywords, the default is to enable all trap types.
Some trap types cannot be controlled with this command. These traps are either always enabled or enabled by some other means. For example, the linkUpDown messages are disabled by the no snmp trap link-status command.
Global configuration
| Release | Modification |
|---|---|
11.1 | This command was first introduced. |
11.3(1) MA | The voice trap type was added for the Cisco MC3810 |
This command applies to Voice over IP on the Cisco 3600 series and to Voice over Frame Relay, Voice over ATM, and Voice over HDLC on the Cisco MC3810.
This command is useful for disabling traps that are generating a large amount of uninteresting or useless noise.
If you do not enter an snmp-server enable traps command, no traps controlled by this command are sent. In order to configure the router to send these SNMP traps, you must enter at least one snmp-server enable traps command. If you enter the command with no keywords, all trap types are enabled. If you enter the command with a keyword, only the trap type related to that keyword is enabled. In order to enable multiple types of traps, you must issue a separate snmp-server enable traps command for each trap type and option.
The snmp-server enable traps command is used in conjunction with the snmp-server host command. Use the snmp-server host command to specify which host or hosts receive SNMP traps. In order to send traps, you must configure at least one snmp-server host command.
For a host to receive a trap controlled by this command, both the snmp-server enable traps command and the snmp-server host command for that host must be enabled. If the trap type is not controlled by this command, just the appropriate snmp-server host command must be enabled.
The trap types used in this command all have an associated MIB object that allows them to be globally enabled or disabled. Not all of the trap types available in the snmp-server host command have notificationEnable MIB objects, so some of these cannot be controlled using the snmp-server enable traps command.
The following example enables the router to send SNMP poor-quality-of-voice traps:
configure terminal
snmp-server enable trap voice poor-qov
The following example enables the router to send all traps to the host myhost.cisco.com using the community string public:
snmp-server enable traps snmp-server host myhost.cisco.com public
The following example enables the router to send Frame Relay and environmental monitor traps to the host myhost.cisco.com using the community string public:
snmp-server enable traps frame-relay snmp-server enable traps envmon temperature snmp-server host myhost.cisco.com public
The following example will not send traps to any host. The BGP traps are enabled for all hosts, but the only traps enabled to be sent to a host are ISDN traps.
snmp-server enable traps bgp snmp-server host bob public isdn
| Command | Description |
snmp-server host | Specifies the recipient of an SNMP trap operation. |
snmp-server trap-source | Specifies the interface (and hence the corresponding IP address) that an SNMP trap should originate from. |
snmp trap illegal-address | Issues an SNMP trap when a MAC address violation is detected on an Ethernet hub port. |
snmp trap link-status | Enables SNMP link trap generation. |
This command has no arguments or keywords.
Disabled
Global configuration
| Release | Modification |
|---|---|
11.3 MA | This command was first introduced as the voice local-bypass disable command. |
12.0 | This command replaced the voice local-bypass disable command for Cisco IOS 12.0 and newer. |
This command applies to Voice over Frame Relay, Voice over ATM, Voice over HDLC, and Frame Relay-ATM Interworking on the Cisco MC3810.
This command allows you to pass uncompressed voice traffic for local POTS calls.
The following example configures the Cisco MC3810 to directly cross-connect local calls without going through a Digital Signal Processor (DSP):
voice local-bypass
To directly cross-connect local calls without going through a Digital Signal Processor (DSP), use the voice local-bypass-disable global configuration command. Use the no form of this command to cancel the voice local-bypass disable operation.
voice local-bypass-disableThis command has no arguments or keywords.
Disabled
Global configuration
| Release | Modification |
|---|---|
11.3 MA | This command was first introduced. |
12.0(2) T | This command was replaced by the voice local-bypass command in Cisco IOS 12.0(2) T. |
This command applies to Voice over Frame Relay, Voice over ATM, Voice over HDLC, and Frame Relay-ATM Interworking on the Cisco MC3810.
This command allows you to pass uncompressed voice traffic for local POTS calls.
To enter voice-port configuration mode, use the voice-port global configuration command.
voice-port slot/port
slot | Slot number of the voice module in the Cisco MC3810: · For voice ports on an analog voice module (AVM) enter 1. · For voice ports on a digital voice module (DVM) enter 1. · For voice ports on a multiflex trunk module (MFT) enter 0. |
port | Voice port in the slot specified above. Valid ranges are as follows: · For analog voice ports on the AVM: 1 to 6 · For digital voice ports on a DVM or MFT over T1: 1 to 24 · For digital voice ports on a DVM or MFT over E1: 1 to 15, and 17 to 31 |
Global configuration
| Release | Modification |
|---|---|
11.2 F | This command was first introduced. |
Use the voice-port global configuration command to switch to the voice-port configuration mode from the global configuration mode. Use the exit command to exit the voice-port configuration mode and return to the global configuration mode.
The following example enters the voice-port configuration mode for voice-port 1 in slot 1 (AVM):
configure terminal voice-port 1/1
| Command | Description |
Enters dial-peer configuration mode and specifies the method of voice-related encapsulation. | |
voice-group | Configures a list of voice ports for Channel Associated Signaling (CAS) or transparent Common Channel Signaling (CCS) on the T1/E1 controller. |
Posted: Mon May 3 15:10:48 PDT 1999
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