HP MSR Router Series Layer 2 - WAN Command Reference (V5) Part number: 5998-2039 Software version: CMW520-R2511 Document version: 6PW103-20140128
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Contents SLIP configuration commands······································································································································ 1 link-protocol slip ························································································································································ 1 PPP and MP configuration commands ························································································································ 2 PPP con
ppp mp sort-buffer-size ········································································································································· 37 ppp mp user ··························································································································································· 38 ppp mp virtual-template ········································································································································ 38 reset counte
isdn carry connected-name ·································································································································· 77 isdn check-called-number ······································································································································ 77 isdn check-time······················································································································································· 78 isdn crlength······
fr lmi type ····························································································································································· 124 fr map ip ······························································································································································· 125 fr switch ··························································································································································
dialer isdn-leased (physical interface view) ······································································································ 165 dialer number ······················································································································································ 166 dialer overlap-receiving ······································································································································ 167 dialer priority ···········
map ip ·································································································································································· 214 map ppp ······························································································································································· 215 mtu ··································································································································································
llc2 max-pdu ························································································································································ 259 llc2 max-send-queue ············································································································································ 259 llc2 max-transmission ·········································································································································· 260 llc2 modulo
ppp access-control enable ·································································································································· 293 ppp access-control match-fragments ·················································································································· 294 reset l2tp tunnel ··················································································································································· 295 start l2tp·················
lapb window-size ················································································································································ 331 link-protocol lapb ················································································································································· 331 reset lapb statistics ·············································································································································· 332 X.
x25 x25 x25 x25 x25 x29 vc-per-map ···················································································································································· 379 vc-range ························································································································································ 380 window-size ·················································································································································
SLIP configuration commands The following matrix shows the feature and hardware compatibility: Feature MSR900 MSR93X MSR20-1 X MSR20 MSR30 MSR50 MSR1000 Configuring SLIP No No Yes Yes Yes Yes No link-protocol slip Use link-protocol slip to enable SLIP encapsulation on an interface. Syntax link-protocol slip Views Interface view Default command level 2: System level Usage guidelines Enable SLIP encapsulation only on asynchronous interfaces.
PPP and MP configuration commands PPP configuration commands ip address ppp-negotiate Use ip address ppp-negotiate to enable IP address negotiation on the local interface, so that the local interface can accept the IP address allocated by the peer end. Use undo ip address ppp-negotiate to disable IP address negotiation. Syntax ip address ppp-negotiate undo ip address ppp-negotiate Default IP address negotiation is disabled.
Views System view, ISP domain view Default command level 2: System level Parameters pool-number: Number of the address pool, in the range of 0 to 99. low-ip-address: Start address of the address pool. high-ip-address: End IP address of the address pool. An address pool can contain up to 1024 IP addresses. If the end IP address is not specified, the address pool has only one IP address, the start IP address.
[Sysname] interface serial 2/0 [Sysname-Serial2/0] link-protocol ppp ppp accm Use ppp accm to configure the ACCM value sent to the peer. Use undo ppp accm to restore the default. Syntax ppp accm hex-number undo ppp accm Default The ACCM value sent to the peer is 0x000A0000. Views Interface view Default command level 2: System level Parameters hex-number: ACCM value in hexadecimal format, in the range of 0 to 0xFFFFFFFF. Usage guidelines ACCM negotiation only applies on asynchronous links.
Parameters acl: Generates PPP accounting statistics for traffic that matches the configured ACL. If no ACL is configured, the device generates PPP accounting statistics for all traffic. acl-number: ACL number in the range of 2000 to 3999, where: • 2000 to 2999 are numbers for basic IPv4 ACLs. • 3000 to 3999 are numbers for advanced IPv4 ACLs. name acl-name: Specifies an ACL by its name.
Syntax ppp acfc remote { apply | ignore | reject } undo ppp acfc remote Default The device accepts ACFC requests received from a remote peer, but does not perform ACFC on frames sent to the peer. Views Interface view Default command level 2: System level Parameters apply: Configures the local end to accept ACFC requests received from the remote peer and to perform ACFC on frames sent to the peer.
ms-chap-v2: Uses MS-CHAP-V2 authentication. pap: Uses PAP authentication. call-in: Authenticates the call-in users only. domain isp-name: Specifies the domain name for authentication, a case-insensitive string of 1 to 24 characters. Usage guidelines If you run the ppp authentication-mode command with the domain keyword specified, you must configure an address pool in the corresponding domain. You can use the display domain command to display the domain configuration.
ppp chap password Use ppp chap password to set the password for CHAP authentication. Use undo ppp chap password to cancel the configuration. Syntax ppp chap password { cipher | simple } password undo ppp chap password Views Interface view Default command level 2: System level Parameters cipher: Sets a ciphertext password. simple: Sets a plaintext password. password: Specifies the password string for CHAP authentication. This argument is case sensitive.
Default command level 2: System level Parameters username: Username for CHAP authentication, a case-sensitive string of 1 to 80 characters. The username is sent to the peer device for the local device to be authenticated. Usage guidelines To pass CHAP authentication, the username/password of one side must be the local username/password of the peer. Examples # Set the username for CHAP authentication as Root on interface Serial 2/0.
Examples # Set the primary DNS server IP address to 100.1.1.1 and the secondary DNS server IP address to 100.1.1.2 on interface Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] ppp ipcp dns 100.1.1.1 100.1.1.2 ppp ipcp dns admit-any Use ppp ipcp dns admit-any to configure the device to accept the DNS server IP addresses assigned by the peer even though it does not request the peer for the DNS server IP addresses.
Default A device does not request its peer for the DNS server IP address actively. Views Interface view Default command level 2: System level Usage guidelines Suppose a device is connected to another device through PPP, for example, a device is connected to the operator's access server through a dial-up link.
[Sysname] interface serial 2/0 [Sysname-Serial2/0] remote address 10.0.0.1 # Configure IP address 10.0.0.1 on interface Serial 2/0 for the peer and assign the IP address to the peer by force. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] remote address 10.0.0.1 [Sysname-Serial2/0] ppp ipcp remote-address forced Related commands remote address ppp lqc Use ppp lqc to enable PPP LQC and set the PPP LQC close-percentage and PPP LQC resume-percentage.
For a PPP link with PPP LQC enabled on both sides, the PPP LQC settings of the both sides must be the same. HP recommends that you not enable PPP LQC on both sides of a PPP link. Because DCC tears down a dial-up line when the link established on the line is disabled, PPP LQC cannot operate correctly on dial-up lines. Thus, it is not recommended on dial-up links. Examples # Enable PPP LQC on interface Serial 2/0, setting the PPP LQC close-percentage to 90 and resume-percentage to 95.
Views Interface view Default command level 2: System level Parameters username: Username of the local device for PAP authentication, a case-sensitive string of 1 to 80 characters. cipher: Sets a ciphertext password. simple: Sets a plaintext password. password: Specifies the password string for PAP authentication. If simple is specified, it must be a string of 1 to 48 characters. If cipher is specified, it must be a ciphertext string of 1 to 97 characters.
Default command level 2: System level Parameters request: Specifies that the local end includes the PFC option in its outbound LCP negotiation requests. Examples # Configure port Serial 2/0 to send PFC requests during PPP negotiation. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] ppp pfc local request ppp pfc remote Use ppp pfc remote to configure how the local end handles the PFC requests received from the remote peer. Use undo ppp pfc remote to restore the default.
Use undo ppp timer negotiate to restore the default. Syntax ppp timer negotiate seconds undo ppp timer negotiate Default The PPP negotiation timeout time is 3 seconds. Views Interface view Default command level 2: System level Parameters seconds: Specifies the negotiation timeout time in the range of 1 to 10 seconds. In PPP negotiation, if the local device receives no response from the peer during this period after it sends a packet, the local device sends the last packet again.
Usage guidelines The remote address command can be used when the local device is configured with an IP address, but the peer has no IP address. To enable the peer device to accept the IP address assigned to it by the local device, you must configure the ip address ppp-negotiate command on the peer device in addition to configuring the remote address command on the local device.
Usage guidelines Because a slow link takes a long period of time to transmit large packets, the sending and receiving of keepalives might be delayed so long that one end cannot receive keepalive packets from the peer for a specific number of keepalive periods and shuts down the link. To prevent this, set the interval for sending keepalive packets to a relatively longer length of time. Examples # Set the interval for sending keepalive packets to 20 seconds on interface Serial 2/0.
broadcast-limit link Use broadcast-limit link to set the maximum number of links that can be used for transmitting multicast packets or broadcast packets for the VT. Use undo broadcast-limit link to restore the default. Syntax broadcast-limit link number undo broadcast-limit link Default The maximum number of links that can be used for transmitting multicast or broadcast packets is 30 for a VT.
CAUTION: The default command might interrupt ongoing network services. Make sure you are fully aware of the impacts of this command when you execute it on a live network. This command might fail to restore the default settings for some commands for reasons such as command dependencies or system restrictions. Use the display this command in interface view to identify these commands, and then use their undo forms or follow the command reference to individually restore their default settings.
# Set the description for interface MP-group 3 to mpgroup-interface. system-view [Sysname] interface mp-group 3 [Sysname-Mp-group3] description mpgroup-interface display interface mp-group Use display interface mp-group to display information about the specified MP-group interface or all existing MP-group interfaces.
LCP initial Physical is MP Output queue : (Urgent queue : Size/Length/Discards) 0/50/0 Output queue : (Protocol queue : Size/Length/Discards) 0/500/0 Output queue : (FIFO queuing : Size/Length/Discards) Last clearing of counters: 0/75/0 Never Last 300 seconds input rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec Last 300 seconds output rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec 0 packets input, 0 bytes, 0 drops 0 packets output, 0 bytes, 0 drops # Display brief information about interface MP-group12.
Field Description Last clearing of counters: Never Last time when statistics on the interface were cleared. Never indicates that statistics on the interface were never cleared. Last 300 seconds input rate: 0 bytes/sec 0, 0 bits/sec, packets/sec Last 300 seconds output rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec Average rate of input packets and output packets in the last 300 seconds.
Views Any view Default command level 1: Monitor level Parameters number: Number of an existing VT interface. brief: Displays brief interface information. If you do not specify this keyword, this command displays detailed interface information. down: Displays information about interfaces in DOWN state and the causes. If you do not specify this keyword, this command displays information about interfaces in all states. |: Filters command output by specifying a regular expression.
The brief information of interface(s) under route mode: Link: ADM - administratively down; Stby - standby Protocol: (s) - spoofing Interface Link Protocol Main IP VT1 UP UP(s) Description -- See Table 1 for the output description. Related commands interface virtual-template display ppp mp Use display ppp mp to display information about an MP interface.
Serial2/1:19 Up-Time:2005/03/13 19:54:23:60 Serial2/1:20 Up-Time:2005/03/13 19:54:23:60 Inactive member channels: 4 members Serial2/1:21 (inactive) Serial2/1:22 (inactive) Serial2/1:23 (inactive) Serial2/1:24 (inactive) Table 2 Command output Field Description Mp-group is Mp-group0 Information about interface MP-group 0. max-bind Maximum number of links that can be bundled. fragment Indicates whether MP fragmentation is enabled. min-fragment Minimum size of an MP fragment.
display virtual-access Use display virtual-access to display information about a VA interface or the VA interfaces that are formed based on a VT. Syntax display virtual-access [ va-number | dialer dialer-number | peer peer-address | user user-name | vt vt-number ] * [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters va-number: VA interface number in the range of 0 to 65535.
Last 300 seconds input rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec Last 300 seconds output rate: 0 bytes/sec, 0 bits/sec, 0 packets/sec 520 packets input, 44132 bytes, 0 drops 527 packets output, 44566 bytes, 4 drops For the output description, see Table 1. interface mp-group Use interface mp-group to create an MP-group interface and enter MP-group interface view. If the interface already exists, enter its view directly. Use undo interface mp-group to remove an MP-group interface.
Parameters number: VT number in the range of 0 to 1023. Usage guidelines To remove a VT, make sure that all the corresponding VA interfaces are removed and the VT is not in use. Examples # Create interface VT 10. system-view [Sysname] interface virtual-template 10 [Sysname-Virtual-Template10] mtu Use mtu to set the MTU size of the interface. Use undo mtu to restore the default. Syntax mtu size undo mtu Default The MTU of an interface is 1500 bytes.
undo ppp mp Default An interface encapsulated with PPP operates in the single PPP mode. Views Interface view Default command level 2: System level Usage guidelines To obtain more bandwidth, you can bind multiple PPP links to form a logical MP interface. Examples # Configure interface Serial 2/0 to operate in MP mode. (Assume that the interface has PPP encapsulation enabled.
In authentication username-based MP bindings, peer devices cannot be differentiated. When multiple peer devices exist, use the keyword both in the command. Examples # Specify to perform MP binding by PPP authentication username. system-view [Sysname] interface dialer 0 [Sysname-Dialer0] ppp mp binding-mode authentication Related commands ppp mp user ppp mp endpoint Use ppp mp endpoint to configure the endpoint descriptor for LCP negotiation on an interface associated with a VT interface.
Examples # Configure the endpoint descriptor of Serial 2/0 as 123456 for LCP negotiation. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] ppp mp endpoint string 123456 ppp mp fragment enable Use ppp mp fragment enable to enable MP fragmentation. Use undo ppp mp fragment enable disable MP fragmentation. Syntax ppp mp fragment enable undo ppp mp fragment enable Default MP fragmentation is enabled.
Views Virtual template interface view, dialer interface view, MP-group interface view Default command level 2: System level Parameters max-bind-num: Maximum number of links allowed in an MP bundle, in the range of 1 to 128. Usage guidelines Use the default setting in normal cases. Inappropriate use of this command can cause PPP performance degradation. Make sure you understand the impact of this command on your network before you use it.
Usage guidelines In dial-up application, you might need multiple links to carry services. In this case, you can set the minimum number of PPP links that can be triggered simultaneously by a packet to obtain the minimum bandwidth required. When the minimum number of links required in an MP bundle is set to a non-zero value, MP dial-up does not depend on traffic detection. Links that have been established will be removed when they time out because no traffic is present.
After executing the ppp mp min-fragment command, you must re-enable all the bundled ports (by using the shutdown and undo shutdown commands) for the new setting to take effect. Examples # Set the minimum MP packet size for fragmentation to 500 bytes. system-view [Sysname] interface virtual-template 0 [Sysname-Virtual-Template0] ppp mp min-fragment 500 ppp mp mp-group Use ppp mp mp-group to add the current interface to an MP-group.
Default The long sequence number header format is used. Views Interface view Default command level 2: System level Usage guidelines This command applies to the incoming direction only. To enable the local end to transmit packets with short sequence numbers, configure the remote end to receive packets with short sequence numbers. The sequence number format (long or short) of an MP bundle depends on the configuration of the first channel joining the MP bundle.
MP binding must be supported in the same way for all its member links, either in software or in hardware. You can switch between software support and hardware support by using one of the following methods: • Remove links from MP binding, and change their MP binding support mode before adding them again. • Execute the shutdown command and then the undo shutdown command on the MP interface after changing the MP binding support mode.
ppp mp user Use ppp mp user to specify to add PPP links with specific usernames to the corresponding MP bundles according to usernames. Use undo ppp mp user to remove a username-based MP bundle. Syntax ppp mp user username bind virtual-template number undo ppp mp user username Views System view Default command level 2: System level Parameters username: Username, a string of 1 to 80 characters. virtual-template number: Specifies a virtual-template number in the range of 0 to 1023.
undo ppp mp Default An interface is not bound to a VT interface, and the interface operates in normal PPP mode. Views Interface view Default command level 2: System level Parameters number: Number of the VT interface to be bound to the interface, in the range of 0 to 1023. Usage guidelines After binding an interface to a VT interface, you can optionally enable PAP, CHAP, MS-CHAP, or MS-CHAP-V2 authentication. Interfaces bound to the same VT interface are bound together directly.
reset counters interface virtual-template Use reset counters interface virtual-template to clear statistics on VTs. Syntax reset counters interface [ virtual-template [ interface-number ] ] Views User view Default command level 2: System level Parameters interface-number: Number of a VT. Usage guidelines Before collecting traffic statistics within a specific period of time on a VT, clear the existing statistics.
PPP link efficiency mechanism configuration commands display ppp compression iphc rtp Use display ppp compression iphc rtp to display the statistics on IPHC RTP. Syntax display ppp compression iphc rtp [ interface-type interface-number ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters interface-type interface-number: Interface type and interface number. |: Filters command output by specifying a regular expression.
Table 3 Command output Field Description Received Statistics on received packets. Compress/Error/Discard/Total: 0/0/0/0 (Packets) The number of received compressed/error/discarded/total packets is 0/0/0/0. Sent Statistics on sent packets. Compress/Total: 0/0 (Packets) The number of sent compressed/total packets is 0/0. Send/Save/Total: 0/0/0 (Bytes) The bytes of sent/saved/total packets are 0/0/0. Connect: Number of connections. Rx Number of connections that the receiver can decompress.
Examples # Display the statistics on IPHC TCP header compression. display ppp compression iphc tcp IPHC: TCP/IP header compression Interface: Serial2/0 Received: Compress/Error/Discard/Total: 0/0/0/0 (Packets) Sent: Compress/Total: 0/0 (Packets) Send/Save/Total: 0/0/0 (Bytes) Connect: Rx/Tx: 16/16 Long-search/Miss: 0/0 Table 4 Command output Field Description Received Statistics on received packets.
Parameters interface-type interface-number: Interface type and interface number. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression.
Examples # Enable VJ TCP header compression on interface Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] ip tcp vjcompress ppp compression iphc Use ppp compression iphc to enable IP header compression (TCP header compression and RTP header compression mainly) on an interface. Use undo ppp compression iphc to disable IP header compression.
ppp compression iphc rtp-connections Use ppp compression iphc rtp-connections to set the maximum number of connections allowed by RTP header compression on an interface. Use undo ppp compression iphc rtp-connections to restore the default, which is 16.
Default command level 2: System level Parameters number: Maximum number of connections allowed by TCP header compression, in the range of 3 to 256. Usage guidelines TCP is connection-oriented; and a link can accommodate multiple TCP connections. With TCP header compression enabled, the compression algorithm maintains the information about each connection in the memory.
If the configuration is applied on a MP bundle, you must shut down and then bring up all the MP member interfaces for the configuration to take effect. Examples # Enable Stac LZS compression on interface Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] ppp compression stac-lzs ppp mp lfi Use ppp mp lfi to enable LFI on an interface. Use undo ppp mp lfi to disable LFI. Syntax ppp mp lfi undo ppp mp lfi Default LFI is disabled.
Default The maximum delay for transmitting an LFI fragment is 10 ms. Views Virtual template interface view, MP-group interface view, dialer interface view Default command level 2: System level Parameters time: Maximum delay of an LFI fragment, in the range of 1 to 1000 ms. Examples # Set the maximum delay for transmitting an LFI fragment to 20 ms on Virtual-Template1 interface.
Views User view Default command level 1: Monitor level Parameters Interface-type Interface-number: Interface type and interface number. Usage guidelines If the interface-type interface-number argument is not provided, this command clears the IP header compression statistics on all interfaces. Examples # Clear the IP header compression statistics on all interfaces.
PPPoE configuration commands Support for this feature depends on the device model. PPPoE server configuration commands display pppoe-server session Use display pppoe-server session to display information about PPPoE sessions on a device operating as a PPPoE server. Syntax display pppoe-server session { all | packet } [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters all: Displays all the information about PPPoE sessions.
Field Description Intf Virtual-template interface. State PPPoE session state. OIntf Corresponding Ethernet interface. RemMAC Peer MAC address. LocMAC Local MAC address. # View the statistics about PPPoE sessions. display pppoe-server session packet Total PPPoE Session(s): 2 SID Intf InP InO InD OutP OutO OutD 1 Eth1/1 37 390 0 38 406 0 1 Eth1/2 35 370 0 36 386 0 Table 6 Command output Field Description SID PPPoE session ID.
Parameters number: Upper threshold for the PPPoE abnormal offline event count in 5 minutes, in the range of 0 to 65535. Usage guidelines If the PPPoE abnormal offline event count in the last 5 minutes exceeds this threshold, the system outputs a trap message. Examples # Set the upper threshold for the PPPoE abnormal offline event count in 5 minutes to 100.
pppoe-server bind Use pppoe-server bind to enable PPPoE on an Ethernet interface and bind the Ethernet interface to a virtual-template interface. Use undo pppoe-server bind to disable PPPoE on an Ethernet interface. Syntax pppoe-server bind virtual-template number undo pppoe-server bind Default PPPoE is disabled. Views Interface view Default command level 2: System level Parameters virtual template number: Specifies a virtual-template interface number in the range of 0 to 1023.
Examples # Disable PPP log displaying. system-view [Sysname] pppoe-server log-information off pppoe-server max-sessions local-mac Use pppoe-server max-sessions local-mac to set the maximum number of PPPoE sessions allowed with regard to the local MAC address on a device operating as a PPPoE server. Use undo pppoe-server max-sessions local-mac to restore the default.
Default command level 2: System level Parameters number: Maximum number of PPPoE sessions that the entire system can establish with a peer MAC address, in the range of 1 to 4096. Examples # Set the maximum number of PPPoE sessions allowed with regard to a peer MAC address to 50. system-view [Sysname] pppoe-server max-sessions remote-mac 50 pppoe-server max-sessions total Use pppoe-server max-sessions total to set the maximum number of PPPoE sessions allowed.
Views System view Default command level 2: System level Parameters number: Lower threshold for the PPPoE normal offline event percentage, in the range of 0 to 100. Usage guidelines If the PPPoE normal offline event percentage in the last 5 minutes is lower than this threshold, the system outputs a trap message. PPPoE normal offline event percentage = 100 – PPPoE abnormal offline event percentage. Examples # Set the lower threshold for the PPPoE normal offline event percentage to 10.
Syntax display pppoe-client session { packet | summary } [ dial-bundle-number number ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters packet: Displays the packet statistics on PPPoE sessions. summary: Displays PPPoE session summary. dial-bundle-number number: Displays the statistics on a PPPoE session. The number argument is in the range of 1 to 255.
ID: 1 Interface: Eth1/1 InPackets: 19 OutPackets: 19 InBytes: 816 OutBytes: 816 InDrops: 0 OutDrops: 0 ID: 2 Interface: Eth1/1 InPackets: 18 OutPackets: 18 InBytes: 730 OutBytes: 730 InDrops: 0 OutDrops: 0 Table 8 Command output Field Description ID PPPoE session ID. Interface Ethernet interface corresponding to a PPPoE session. InPackets Number of packets received. InBytes Size of received packets (in bytes). InDrops Number of received packets discarded.
idle-timeout seconds: Specifies the PPPoE session idle time in the range of 1 to 65535 seconds. If this option is specified, the PPPoE session operates in packet-triggered mode. If this option is not specified, the PPPoE session established operates in permanent mode. queue-length packets: Specifies the number of the packets that can be cached before the PPPoE session is established. The value range for the packets argument is 1 to 100, and the default is 10.
Default The PPPoE session negotiation timer is 10 seconds. Views System view Default command level 2: System level Parameters seconds: Specifies a value for the PPPoE session negotiation timer, in the range of 10 to 600 seconds. Usage guidelines To establish a PPPoE session, the PPPoE client sends negotiation requests to the PPPoE server. The PPPoE client deletes the peer-to-peer relationship previously established with the server if PPP negotiation is not completed before the timer expires.
Related commands pppoe-client 62
ISDN configuration commands The MSR900 and MSR93X(except the JG597A) routers do not support ISDN BRI interfaces. bandwidth Use bandwidth to set the intended bandwidth for an ISDN BRI interface. Use undo bandwidth to restore the default. Syntax bandwidth bandwidth-value undo bandwidth Views ISDN BRI interface view Default command level 2: System level Parameters bandwidth-value: Specifies the intended bandwidth in the range of 1 to 4294967295 kbps.
Views ISDN BRI interface view Default command level 2: System level Usage guidelines When some applications require the ISDN BRI interface to be deactivated rapidly, you must disable deactivation protection on the ISDN BRI interface. Examples # Disable deactivation protection for ISDN BRI Interface BRI 2/0.
Examples # Configure a 128 kbps leased line connection on interface BRI 2/0. system-view [Sysname] interface bri 2/0 [Sysname-Bri2/0] dialer isdn-leased 128k display isdn active-channel Use display isdn active-channel to view the active call information on ISDN interfaces. If no interface is specified, this command displays the active call information on all the ISDN interfaces.
Field Description Call property: • Digital. • Analog. Call Property Call type: Call Type • Incoming. • Outgoing. UserName User name used in PPP negotiation for authentication. IP Address IP address of the peer end. Start Time Time at which the link was set up. Time Used Duration of the call. display isdn call-info Use display isdn call-info to view the current states of ISDN interfaces. If no interface is specified, this command displays the current states of all the ISDN interfaces.
Link Layer 3: TEI = NONE, State = TEI_UNASSIGNED Link Layer 4: TEI = NONE, State = TEI_UNASSIGNED Link Layer 5: TEI = NONE, State = TEI_UNASSIGNED Link Layer 6: TEI = NONE, State = TEI_UNASSIGNED Link Layer 7: TEI = NONE, State = TEI_UNASSIGNED Link Layer 8: TEI = NONE, State = TEI_UNASSIGNED Network Layer: 1 connection(s) Connection 1 : CCIndex:0x0001 , State: Active , CES:1 , Channel:0x00000001 TEI: 65 Calling_Num[:Sub]: 2014: Called_Num[:Sub]: 50401: Table 10 Command output Field Descriptio
Field Description Current state of the layer 3 link of the BRI interface. It can be one of the following: • • • • • • • • • • • • • • • • State NULL. CALL_INITIATED. OVERLAP_SENDING. OUTGOING_CALL_PROCEEDING. CALL_DELIVERED. CALL_PRESENT. CALL_RECEIVED. CONNECT_REQUEST. INCOMING_CALL_PROCEEDING. ACTIVE. DISCONNECT_REQUEST. DISCONNECT_INDICATION. SUSPEND_REQUEST. RESUME_REQUEST. RELEASE_REQUEST. OVERLAP_RECEIVING. CES Connection endpoint suffix. Channel ISDN B channel map for the call.
regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters. Usage guidelines Executing this command will display information of the calls activated up to now, but the number of retained entries is limited to 100. Examples # Display the information of ISDN call history.
|: Filters command output by specifying a regular expression. For more information about regular expressions, see the Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression. regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters.
Item Description N200 Maximum number of retransmissions. K(Bri) Maximum number of unacknowledged frames (sliding window size) on the ISDN BRI port. K(Pri) Maximum number of unacknowledged frames (sliding window size) on the ISDN PRI port. Timer-Number ISDN L3 timer. Value(sec) Timeout value (in seconds) of each ISDN L3 timer. display isdn spid Use display isdn spid to view information on SPID on the BRI interface encapsulated with the NI protocol.
SPID B2: SPID Num: Neg State: SPID_UNASSIGNED Init State: INIT_NULL SPID timer: 30 seconds SPID resend: 1 times Table 13 Command output Field Description SPID Type: • NIT (not initial terminal mode). • STATIC (static mode, having only the L3 SPID Type initialization process). • AUTO (dynamic mode, including both the negotiation and the L3 initialization). SPID B1 SPID value of the BRI interface B1 channel. SPID Num SPID value of the BRI interface.
Default The local ISDN B channel management is not enabled, and the ISDN B channel is managed by the ISDN switch. Views ISDN interface view Default command level 2: System level Parameters exclusive: Exclusive local management mode for ISDN B channels. When the B channel indicated by the exchange is inconsistent with the one required by the local end, call failure occurs. Usage guidelines It is very important to put appropriate control on the B channels used for calls in process, especially in PRI mode.
Default command level 2: System level Parameters ascending: Selects B channels in ascending order. descending: Selects B channels in descending order. Usage guidelines When operating in B channel local management mode, the device selects B channels in ascending order by default. Examples # Configure B channel selection method on interface BRI 2/0 to descending order.
Syntax isdn caller-number caller-number undo isdn caller-number Views ISDN interface view Default command level 2: System level Parameters caller-number: Caller number that an incoming ISDN call can carry, which is a character string of 1 to 24 characters. Examples # Configure interface BRI 2/0 to receive only the incoming calls from caller number 400.
isdn carry calling-name Use isdn carry calling-name to configure ISDN to carry the Calling-Name field in outgoing packets of the interface. Use undo isdn carry calling-name to restore the default. Syntax isdn carry calling-name undo isdn carry calling-name Default ISDN does not carry the Calling-Name field in outgoing packets. Views ISDN interface view Default command level 2: System level Examples # Configure ISDN to carry the Calling-Name field in outgoing packets on interface BRI 2/0.
isdn carry connected-name Use isdn carry connected-name to configure ISDN to carry the Calling-Name field in outgoing packets of the interface. Use undo isdn carry connected-name to restore the default. Syntax isdn carry connected-name undo isdn carry connected-name Default ISDN does not carry the Connected-Name field in outgoing packets. Views ISDN interface view Default command level 2: System level Examples # Configure ISDN to carry the Connected-Name field in outgoing packets on interface BRI 2/0.
Usage guidelines This command is used for setting the examined item when a digital call is received. If a subaddress is specified, the system will deny an incoming digital call if the calling party sends a wrong subaddress or does not send at all. Examples # Check whether the called number carried by incoming digital calls is 66668888 on interface BRI 2/0.
Default The call reference length is 2 bytes for CE1/PRI and CT1/PRI interfaces and 1 byte for BRI interfaces. Views ISDN interface view Default command level 2: System level Parameters call-reference-length: ISDN call reference length, which can be 1 or 2 bytes. Usage guidelines Call reference is equal to the sequence number that the protocol assigns to each call. It is 1 or 2 bytes in length and can be used cyclically.
Default In the event that the router is communicating with an ISDN switch: Views ISDN interface view Default command level 2: System level Parameters incoming: Switches the ISDN protocol state to Active after sending a CONNECT message, without having to wait for a CONNECT ACK message from the ISDN switch. outgoing: Switches the ISDN protocol state to Active on receiving a CONNECT message, without sending a CONNECT ACK message.
undo isdn ignore hlc Default HLC information element is carried in SETUP messages when placing voice calls. Views ISDN interface view Default command level 2: System level Usage guidelines In the event that the router is communicating with an ISDN switch, its settings must be the same as those on the switch. You are not allowed to configure this command on an ISDN interface if a call still exists on it. This command can take effect only if it is configured when no call exists on the interface.
can manually disable the interface by executing the shutdown command, configure the command, and then enable the interface by executing the undo shutdown command. The operations, however, will lead to the disconnection of the call existing on the interface. Examples # Disable ISDN from carrying the LLC information element in the SETUP messages for the voice calls placed on interface BRI 2/0.
You are not allowed to configure this command on an ISDN interface if a call still exists on it. This command can take effect only if it is configured when no call exists on the interface. Alternatively, you can manually disable the interface by executing the shutdown command, configure the command, and then enable the interface by executing the undo shutdown command. The operations, however, will lead to the disconnection of the call existing on the interface.
timer-name Timer-name Time-out value range (in seconds) Default (in seconds) t308 T308 2 to 10 4 t309 T309 10 to 180 90 t310 T310 10 to 180 40 t313 T313 2 to 10 4 t316 T316 20 to 180 120 t322 T322 2 to 10 4 Usage guidelines Table 14 lists the defaults of the DSS1 ISDN protocol L3 timers. For the defaults of the L3 timers in any other ISDN protocol, perform the display isdn parameters command.
Use undo isdn number-property to restore the default. Syntax isdn number-property number-property [ calling | called ] [ in | out ] undo isdn number-property [ calling | called ] [ in | out ] Default The system selects ISDN number type and code scheme depending on the upper layer service. Views ISDN interface view Default command level 2: System level Parameters number-property: Type and number scheme of ISDN numbers. The argument is a hex value in the range of 0 to 7F.
Field (Bit) value Protocol Type 8 Code scheme 7 6 5 0 0 0 Unknown 0 0 1 International number 0 1 0 National number 0 1 1 Network specific number 1 0 0 Subscriber number 1 1 0 Abbreviated number 1 1 1 Reserved for extension DSS1 3 2 1 0 0 0 0 Unknown 0 0 0 1 ISDN/telephony numbering plan (Recommendation E.164) 0 0 1 1 Data numbering plan (Recommendation X.121) 0 1 0 0 Telex numbering plan (Recommendation F.
Field (Bit) value Protocol Type 8 NTT QSIG Code scheme Definition 7 6 5 4 3 2 1 1 0 0 0 0 0 1 Local (directory) number in ISDN numbering plan (Rec. E.164) 1 1 0 1 0 0 1 Abbreviated number in private numbering plan 0 0 0 Unknown 0 1 0 National number 0 1 1 Network specific number 1 0 0 Subscriber number 0 0 0 0 Unknown 0 0 0 1 ISDN/telephony numbering plan (Recommendation E.
Table 16 Set the type and code scheme for the calling/called numbers in incoming/outgoing ISDN calls Operation Command Set a number type and code scheme for the called numbers in incoming calls. isdn number-property number-property called in Remove the number type and code scheme for the called numbers in incoming calls. undo isdn number-property called in Set a number type and code scheme for the called numbers in outgoing calls.
[Sysname-Bri2/0] isdn number-property 0 calling in # On interface BRI 2/0, set both number type and code scheme of called numbers in outgoing ISDN calls to unknown. system-view [Sysname] interface bri 2/0 [Sysname-Bri2/0] isdn number-property 0 called out isdn overlap-sending Use isdn overlap-sending to set the system to send the called number information in overlap mode on the ISDN interface. Use undo isdn overlap-sending to set the system to send the called information in full mode.
isdn pri-slipwnd-size Use isdn pri-slipwnd-size to set the sliding window size on a PRI interface. Use undo isdn pri-slipwnd-size or isdn pri-slipwnd-size default to restore the default sliding window size on the PRI interface. Syntax isdn pri-slipwnd-size window-size undo isdn pri-slipwnd-size isdn pri-slipwnd-size default Default The sliding window size on PRI interfaces is 7.
Default command level 2: System level Parameters indicator: Specifies one of the progress indicators in Table 17. Table 17 Progress indicator values Value Description 1 Call is not end-to-end ISDN; further call progress information may be available in-band. 2 Destination address is non-ISDN. 3 Origination address is non-ISDN. 4 Call has returned to the ISDN. 5 Interworking has occurred and has resulted in a telecommunication service change.
[Sysname-Bri2/0] isdn protocol-mode network isdn protocol-type Use isdn protocol-type to set the ISDN protocol to be run on an ISDN interface. Use undo isdn protocol-type to restore the default. Syntax isdn protocol-type protocol undo isdn protocol-type Default Both BRI and PRI interfaces run ISDN protocol DSS1. Views ISDN interface view Default command level 2: System level Parameters protocol: ISDN protocol, which can be ansi, at&t, dss1, etsi, ni, ni2, ntt, qsig, or 5ess.
system-view [Sysname] interface serial 1/0:23 [Sysname-Serial1/0:23] isdn protocol-type 5ess isdn q921-permanent Use isdn q921-permanent to enable the Q.921 permanent link function. Use undo isdn q921-permanent to disable the Q.921 permanent link function.
[Sysname] interface bri 2/0 [Sysname-Bri2/0] isdn q931-traditional isdn send-restart Use isdn send-restart to enable PRI interfaces to actively send ISDN RESTART messages. Use undo isdn send-restart to disable PRI interfaces to actively send ISDN RESTART messages. Syntax isdn send-restart undo isdn send-restart Default The PRI interface actively sends RESTART messages to the remote end before maintaining B channels.
speech: Specifies the speech service. Usage guidelines This command is available only on voice interfaces such as BSV, VE1, and VT1 interfaces. Examples # Specify the service type as audio in the ISDN Bearer Compatibility signaling. system-view [Sysname] interface bri 1/0 [Sysname-Bri1/0] isdn service audio isdn spid auto_trigger Use isdn spid auto_trigger to enable SPID auto-negotiation once on the BRI interface running the NI protocol.
Default NIT mode does not apply on BRI interfaces. Instead, static SPID or dynamic SPID negotiation is applied. Views ISDN BRI interface view Default command level 2: System level Usage guidelines On a BRI interface running the NI protocol, calls can be placed only after the SPID negotiation or initialization is finished.
Examples # Set the time-out value of TSPID on interface BRI 2/0 to 50 seconds. system-view [Sysname] interface bri 2/0 [Sysname-Bri2/0] isdn spid timer 50 isdn spid service Use isdn spid service to configure the service types that must be supported in SPID negotiation on the BRI interface running the NI protocol. Use undo isdn spid service to delete the service types that must be supported in SPID negotiation on the BRI interface running the NI protocol.
Use undo isdn spid resend to restore the default number of INFORMATION message retransmission attempts on the interface. Syntax isdn spid resend times undo isdn spid resend Views ISDN BRI interface view Default command level 2: System level Parameters times: Number of INFORMATION message retransmission attempts with an integer in the range of 1 to 255 times, which defaults to 1.
Default command level 2: System level Parameters spid: SPID to be set, a string of 1 to 20 digits. ldn: Local dialing number, a string of 1 to 30 digits. Usage guidelines On a BRI interface running the NI protocol, calls can be placed only after the SPID negotiation or initialization is finished. SPID information can be obtained through static configuration or dynamic negotiation.
negotiation. The system can make the L3 initialization to place calls correctly only after SPID information is configured for the B2 channel on the BRI interface. In addition, when the router works with an ISDN NI compliant switch (the DMS100 for example) in North America, you must use this command to configure a unique SPID and LDN for each B channel to ensure a successful MP channel call. Otherwise, only one B channel can be brought up.
Examples # Start collecting statistics about message receiving and sending on CE1/PRI interface Serial 1/0:15. system-view [Sysname] interface serial1/0:15 [Sysname-Serial1/0:15] isdn statistics start # After a moment, stop collecting statistics about message receiving and sending on CE1/PRI interface Serial 1/0:15. [Sysname-Serial1/0:15] isdn statistics stop # Display statistics about message receiving and sending on CE1/PRI interface Serial 1/0:15.
system-view [Sysname] interface bri 2/0 [Router-Bri2/0] isdn two-tei isdn message-conversion progress-to-alerting enable Use isdn message-conversion progress-to-alerting enable to configure the ISDN interface to convert received Progress messages into Alerting messages. Use undo isdn message-conversion progress-to-alerting enable to disable the function on the ISDN interface.
Default command level 2: System level Usage guidelines This command is available only on the BSV card's network-side BRI interfaces. After you specify a BSV interface operating on the network side to be in the permanent active state at the physical layer using the permanent-active command, no deactivating request is sent to the physical layer. The interface remains in the active state if it is up and the physical link operates smoothly.
Command MSR20-1X MSR20 MSR30 MSR50 MSR1000 power-source Yes Yes Yes Yes Yes Examples # Enable remote powering on interface BRI 2/0 (assuming that the interface is a BSV interface and operating on network side).
Frame relay configuration commands Basic frame relay configuration commands annexg Use annexg to configure the operating mode (Annex G DCE or Annex DTE) for a PVC. Use undo annexg to remove the configuration. Syntax annexg { dce | dte } undo annexg { dce | dte } Default A DLCI interface does operate in any Annex G mode. Views DLCI interface view Default command level 2: System level Parameters dce: Sets the PVC to Annex G DCE mode. dte: Sets the PVC to Annex G DTE mode. Usage guidelines ANSI T1.
Views Any view Default command level 1: Monitor level Parameters interface interface-type interface-number: Specifies an interface by its type and number. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression.
Parameters interface interface-type interface-number: Specifies an interface by its type and number. It can only be a main interface. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression.
Parameters interface-type { interface-number | interface-number.subnumber }: Specifies an interface by its type and number. The interface-number argument is a main interface number. The subnumber argument is a subinterface number, in the range 0 to 1023. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow.
exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression. regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters. Usage guidelines The LMI protocol sends Status-Enquiry messages and Status messages for maintaining frame relay links. The output from the command helps you diagnose faults. Examples # Display the statistics about LMI frames.
Syntax display fr map-info [ interface interface-type { interface-number | interface-number.subnumber } ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters interface interface-type { interface-number | interface-number.subnumber }: Specifies an interface by its type and number. It can be a main or subinterface. The interface-number argument is a main interface number.
Field Description create time = 2002/10/21 14:48:44 Time and date when the map entry was created. status = ACTIVE State of the map entry. encapsulation = ietf IETF frame relay is adopted for Layer 2 encapsulation. vlink Value of the map entry in the route-to-frame relay address mapping table. The value of 0 indicates that the route is invalid. When the value is not 0, the system uses the value to look up the corresponding map entry, and then look up the corresponding DLCI.
If you use the command with a DLCI specified, the displayed information covers only the specified PVC. Examples # Display the frame relay PVC table. display fr pvc-info PVC statistics for interface Serial2/0 (DTE, physical UP) DLCI = 100, USAGE = UNUSED (0000), Serial2/0 create time = 2000/04/01 23:55:39, status = ACTIVE in BECN = 0, in FECN = 0 in packets = 0, in bytes = 0 out packets = 0, out bytes = 0 DLCI = 102, USAGE = LOCAL (0010), Serial2/0.
Parameters interface interface-type interface-number: Specifies an interface by its type and number. The specified interface must be a main interface. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression.
Default command level 2: System level Parameters name: Name of an X.25 template, which is a string of 1 to 30 characters. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression.
Field Description Channel range types: Channels • Incoming-only—Channel range of incoming-only calls. • Two-way—Two-way channel range. • Outgoing-only—Channel range of outgoing-only calls. Window size: Window size • In—Receiving window size. • Out—Transmitting window size. Packet size: Packet size • In—Maximum X.25 packet size allowed for receiving. • Out—Maximum X.25 packet size allowed for transmitting. LAPB parameters LAPB-related settings. Modulo Modulo for numbering LAPB frames.
On a DCE or NNI frame relay main interface or subinterface, you must manually create the virtual circuits. On a DTE main interface, the device automatically creates virtual circuits according to the settings received from the DCE side. If you do that manually, make sure that the DLCIs of the virtual circuits are identical to those used on the DCE. On a DTE subinterface, you must manually create the virtual circuits. Examples # Assign a virtual circuit with DLCI 100 to frame relay interface Serial 2/0.
[Sysname] interface serial 2/0 [Sysname-Serial2/0] fr dlci-switch 100 interface serial 2/1 dlci 200 # Configure a static route, allowing the packets on the link with DLCI of 200 on Serial 2/1 to be forwarded over the link with DLCI of 300 on tunnel interface 4. system-view [Sysname] interface serial 2/1 [Sysname-Serial2/1] fr dlci-switch 200 interface tunnel 4 dlci 300 Related commands fr switching fr fragment end-to-end Use fr fragment end-to-end to enable FRF.
fr inarp Use fr inarp to enable InARP for frame relay on the interface. Use undo fr inarp to disable InARP for frame relay on the interface. Syntax fr inarp [ ip [ dlci-number ] ] undo fr inarp [ ip [ dlci-number ] ] Default InARP for frame relay is enabled. Views Interface view Default command level 2: System level Parameters ip: Performs InARP for IP addresses.
Syntax fr interface-type { dce | dte | nni } undo fr interface-type Default The frame relay interface type is DTE. Views Interface view Default command level 2: System level Parameters dce: Sets the frame relay interface type to DCE. dte: Sets the frame relay interface type to DTE. nni: Sets the frame relay interface type to NNI. Examples # Set the type of the frame relay interface Serial 2/0 to DCE.
Examples # Set DTE as the operating mode of frame relay interface Serial 2/0, and the counter value of the PVC status to 10. system-view [Sysname] interface serial2/0 [Sysname-Serial2/0] link-protocol fr [Sysname-Serial2/0] fr interface-type dte [Sysname-Serial2/0] fr lmi n391dte 10 fr lmi n392dce Use fr lmi n392dce to set the N392 counter at the DCE side. Use undo fr lmi n392dce to restore the default. Syntax fr lmi n392dce n392-value undo fr lmi n392dce Default The DCE-side N392 counter is 3.
fr lmi n392dte Use fr lmi n392dte to set the DTE-side N392 counter. Use undo fr lmi n392dte to restore the default. Syntax fr lmi n392dte n392-value undo fr lmi n392dte Default The DTE-side N392 counter is 3. Views Interface view Default command level 2: System level Parameters n392-value: Sets the DTE-side error threshold in the range of 1 to 10. Usage guidelines The DTE sends a Status-Enquiry message at a regular interval to the DCE to inquire link status.
Default The DCE-side N393 counter is 4. Views Interface view Default command level 2: System level Parameters n393-value: Sets the DCE-side N393 counter in the range of 1 to 10. Usage guidelines The DCE requires the DTE to send a Status-Enquiry message at a regular interval (set by T392). If the DCE does not receive the Status-Enquiry message within a certain period, the error counter on the DCE increments by one.
Parameters n393-value: Sets the DTE-side N393 counter in the range of 1 to 10. Usage guidelines The DTE sends Status-Enquiry messages at a regular interval to the DCE to inquire link status. On receiving a Status-Enquiry message, the DCE immediately sends a Status message. If the DTE does not receive the Status message in the specified time, its error counter increments by one. If the number of errors exceeds the error threshold, the DTE considers the physical link and all DLCIs unavailable.
[Sysname] interface serial2/0 [Sysname-Serial2/0] link-protocol fr [Sysname-Serial2/0] fr interface-type dce [Sysname-Serial2/0] fr lmi t392dce 10 fr lmi type Use fr lmi type to configure the frame relay LMI protocol type. Use undo fr lmi type to restore the default. Syntax fr lmi type { ansi | nonstandard | q933a } [ bi-direction ] undo fr lmi type Default The LMI protocol type is q933a. Views Interface view Default command level 2: System level Parameters ansi: Standard LMI protocol of ANSI T1.
Examples # Set the frame relay LMI type of Serial 2/0 to nonstandard compatible protocol. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] fr lmi type nonstandard fr map ip Use fr map ip to add an IP address map entry for frame relay. Use undo fr map ip to remove an IP address map entry for frame relay.
Examples # Create a static address map entry on interface Serial 2/0, mapping DLCI 50 to the peer IP address 202.38.163.252. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] fr map ip 202.38.163.252 50 fr switch Use fr switch name interface interface-type interface-number dlci dlci1 interface interface-type interface-number dlci dlci2 to create a PVC used for FR switching. Use fr switch name to enter the view of a PVC used for FR switching.
fr switching Use fr switching to enable FR switching. Use undo fr switching to disable FR switching. Syntax fr switching undo fr switching Default FR switching is disabled. Views System view Default command level 2: System level Examples # Enable FR switching. system-view [Sysname] fr switching interface Use interface to create subinterface and enter subinterface view. Use undo interface to delete subinterface. Syntax interface interface-type interface-number.
system-view [Sysname] interface serial2/0.2 p2p [Sysname-Serial2/0.2] link-protocol fr Use link-protocol fr to enable frame relay on the interface. Syntax link-protocol fr [ ietf | nonstandard ] Default PPP is enabled. Views Interface view Default command level 2: System level Parameters ietf: Specifies the default encapsulation format according to the IETF standard. nonstandard: Specifies the nonstandard compatible encapsulation format.
Views Traffic behavior view Default command level 2: System level Parameters fr-de-value: DE bit value in FR frames. It takes 0 or 1. Examples # Set the DE bit of FR frames to 1. system-view [Sysname] traffic behavior database [Sysname-behavior-database] remark fr-de 1 Related commands • qos policy • traffic behavior • classifier behavior (ACL and QoS Command Reference) reset fr inarp Use reset fr inarp to clear the address mapping established by inverse ARP.
Views User view Default command level 1: Monitor level Parameters interface-number: Interface number. dlci dlci-number: Specifies the DLCI to be assigned to an FR interface, in the range 16 to 1007. DLCI 0 through 15 and 1008 through 1023 are reserved for special use and are unavailable. Examples # Clear PVC statistics on Serial 2/0. reset fr pvc interface serial 2/0 shutdown Use shutdown to disable the current switching PVC. Use undo shutdown to enable the current switching PVC.
Default The parameter is 10 seconds. Views Interface view Default command level 2: System level Parameters seconds: Value of T391 parameter at DTE side, which is in the range of 0 to 32767 in seconds. 0 indicates that the LMI protocol is disabled. Usage guidelines The parameter is a time variable that defines the interval at which the DTE sends Status-Enquiry messages. Examples # Configure that frame relay interface Serial 2/0 to operate in DTE mode, and set the value of T391 parameter to 15 seconds.
Examples # Apply the X.25 template named vofr to DLCI 100. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] fr dlci 100 [Sysname-fr-dlci-Serial2/0-100] annexg dte [Sysname-fr-dlci-Serial2/0-100] x25-template vofr x25 template Use x25 template to create an X.25 template or enter X.25 template view. Use undo x25 template to remove an X.25 template. Syntax x25 template name undo x25 template name Views System view Default command level 2: System level Parameters Name: Name of an X.
Default command level 1: Monitor level Parameters interface interface-type interface-number: Specifies an interface by its type and number. The specified interface must be a main interface. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow.
Syntax display fr iphc [ interface interface-type interface-number ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters interface interface-type interface-number: Specifies an interface by its type and number. It can only be a main interface. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide.
Field Description Information of TCP header compression Information of TCP header compression. Compression Information of compression. Decompression Information of decompression. Total packets Total number of packets. Packets compressed Number of packets compressed. Link searches Times of link search. Search missed Times of search missed. Bytes saved Number of bytes saved. Bytes sent Number of bytes sent. Errors Number of errors.
FRF.9 compression configuration varies by the interface type. • For a point-to-point frame relay subinterface, you can use the fr compression frf9 command on the subinterface to enable FRF.9 compression. • For a point-to-multipoint frame relay interface or subinterface, you should configure FRF.9 compression by configuring static address mapping. For more information, see the fr map ip command. This command applies to only data messages and InARP messages, and does not apply to LMI messages.
In addition to enabling FRF.20 (FRF.20 IPHC) compression with the fr compression iphc command in interface view, you can alternatively enable the function when you configure static address mapping with the fr map ip command. Examples # Enable FRF.20 compression on the frame relay interface Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] fr compression iphc fr iphc Use fr iphc to enable IP header compression function, including RTP/TCP header compression.
MFR configuration commands bandwidth Use bandwidth to set the intended bandwidth for an MFR interface. Use undo bandwidth to restore the default. Syntax bandwidth bandwidth-value undo bandwidth Views MFR interface view Default command level 2: System level Parameters bandwidth-value: Intended bandwidth in the range of 1 to 4294967295 kbps. Usage guidelines You can obtain the intended bandwidth of an interface by using third-party software to query the value of the MIB ifspeed.
interface-number.subnumber: MFR subinterface number, of which, interface-number is the main interface number, and subnumber is the subinterface number. The subnumber argument is in the range of 0 to 1023. brief: Displays brief interface information. If you do not specify this keyword, the command displays detailed interface information. down: Displays information about interfaces in the DOWN state and the causes.
Interface Link Protocol Main IP MFR4 UP UP(s) Description -- # Display the brief information of all MFR interfaces in the DOWN state. display interface mfr brief down The brief information of interface(s) under route mode: Link: ADM - administratively down; Stby - standby Interface Link Cause MFR1 DOWN Not connected Table 28 Command output Field Description Physical layer state of the MFR interface: • DOWN (Administratively)—The interface has been shut down with the shutdown command.
Field Description Last 300 seconds output rate Output rate of the interface within the last 5 minutes. The output rate is represented in Bps, bps, and pps. 1058 packets input, 832389 bytes, 0 drops Packets and bytes received on the interface and packets dropped as the result of full receive buffer. 619 packets output, 828190 bytes, 0 drops Packets and bytes sent on the interface and packets dropped as the result of full transmit buffer.
Default command level 1: Monitor level Parameters interface interface-type interface-number: Specifies an interface by its type and number. The specified interface must be a main interface. verbose: Displays detailed statistics information, including the number of controlling packets sent and received. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide.
Field Description Bundle name = MFR0 Name of multilink frame relay bundle. Bundle links Physical interfaces of the links in the bundle. Serial2/0, PHY state = up, link state = up, Link name = Serial2/0 Physical interface on the bundle link, the state of interface at the physical layer and link layer, the name of the bundle link (name of the physical interface by default). # Display detailed state information about all frame relay bundle links.
Field Description Number of sent and received Hello acknowledgement messages. Hello_ack(TX/RX) Hello_ack messages notify receipt of the Hello messages. Number of sent and received Add_link messages. Add_link(TX/RX) Add_link messages notify the peer that the local node is ready for processing frames. Number of sent and received Add_link acknowledgment messages. Add_link_ack(TX/RX) Add_link_ack messages notify receipt of the Add_link messages. Number of sent and received Add_link reject messages.
undo interface mfr { interface-number | interface-number.subnumber } Default A subinterface is point-to-multipoint. Default No multilink frame relay interface or subinterface exists. Views System view Default command level 2: System level Parameters interface-number: MFR interface number. interface-number.subnumber: MFR subinterface number, of which, interface-number is the main interface number, and subnumber is the subinterface number in the range of 1 to 1023. p2mp: Point-to-multipoint subinterface.
Default command level 2: System level Parameters interface-number: MFR interface number. Usage guidelines Before performing this command, make sure that the specified MFR interface already exists. A maximum of 16 physical interfaces can be bundled onto an MFR interface. To delete a physical interface from an MFR interface, use the link-protocol command on the interface to configure a link layer protocol except MFR.
The BIDs at both ends are used during the link bundle negotiation phase. After changing the BID of an MFR interface, you must execute the shutdown and undo shutdown command on the interface to make the new BID take effect. Examples # Set the frame relay link MFR4 BID to bundle1. system-view [Sysname] interface mfr 4 [Sysname-MFR4] mfr bundle-name bundle1 mfr fragment Use mfr fragment to enable fragmentation on the MFR bundle. Use undo mfr fragment to disable the function.
Parameters bytes: Fragment size in the range of 60 to 1,500 in bytes. Examples # Configure the maximum fragment size allowed on interface MFR 4 to be 70 bytes. system-view [Sysname] interface mfr 4 [Sysname-MFR4] mfr fragment-size 70 mfr link-name Use mfr link-name to set the frame relay bundle link identification (LID). Use undo mfr link-name to restore the default. Syntax mfr link-name [ name ] undo mfr link-name Default LID is the name of the physical interface.
Use undo mfr retry to restore the default. Syntax mfr retry number undo mfr retry Default The maximum retry times for which a frame relay bundle link can resend hello message is twice. Views Frame relay interface view Default command level 2: System level Parameters number: Maximum retry times for which a bundle link can resend hello messages, in the range 1 to 5. Usage guidelines The bundle link sustains link status by periodically sending hello message to the peer end.
Parameters seconds: Time (in seconds) of waiting for hello acknowledgment message before resending hello message, in the range 1 to 10. Usage guidelines The bundle link sustains link status by periodically sending hello message to the peer end. If the times that a bundle link resends hello message reach the maximum without receiving acknowledgement from the peer, the system will regard the link protocol on the bundle link to be malfunctioning.
[Sysname] interface serial 2/0 [Sysname-Serial2/0] link-protocol fr mfr 4 [Sysname-Serial2/0] mfr timer hello 15 mfr window-size Use mfr window-size to configure the number of fragments that can be held by the window used in sliding window algorithm when multilink frame relay reassembles received fragments. Use undo mfr window-size to restore the default. Syntax mfr window-size number undo mfr window-size Default The size of a sliding window is equal to the number of physical interfaces of an MFR bundle.
Usage guidelines To collect statistics spanning a specific period for an interface, you must clear statistics of the interface before starting statistics collection. • If you do not specify mfr, this command clears the statistics of all interfaces. • If you specify the mfr but not an interface number, this command clears the statistics of all MFR interfaces. • If you specify both mfr and an interface number, this command clears the statistics of the specified MFR interface.
Table 31 Command output Field Description Fr Interface Frame relay interface name. DLCI DLCI number. Fr State Frame relay state. PPP Interface Name of the associated PPP virtual template interface. PPP Phase Phase of the PPP session. fr map ppp Use fr map ppp to map the frame relay DLCI (corresponds to an Frame Relay PVC) to a PPP link, so the PPPoFR link is established, and PPP packets can be sent/received on FR PVC.
Views Any view Default command level 1: Monitor level Parameters static: Displays static IPv6 address mappings. dynamic: Displays dynamic IPv6 address mappings. all: Displays all IPv6 address mappings. interface interface-type { interface-number | interface-number.subnumber }: Displays IPv6 address mappings for the specified interface. The interface-number argument is the main interface ID, and the subnumber argument is the subinterface ID in the range of 0 to 1023.
Field Description vlink Value for the route that corresponds to the mapping. If the value is zero, the route is invalid. If the value is nonzero, the route is valid. This value is used to find the corresponding mapping, and the DLCI. broadcast Broadcasting packets is allowed. Related commands • fr map ip • fr inarp fr map ipv6 Use fr map ipv6 to add an IPv6 static address mapping. Use undo fr map ipv6 to delete an IPv6 static address mapping.
[Sysname] interface serial 2/0 [Sysname-Serial2/0] fr map ipv6 10::2 100 fr ipv6 ind Use fr ipv6 ind to enable IND. Use undo fr ipv6 ind to disable IND. Syntax fr ipv6 ind [ dlci-number ] undo fr ipv6 ind [ dlci-number ] Default IND is disabled. Views Interface view Default command level 2: System level Parameters dlci-number: Enables IND for the virtual circuit specified by its DLCI number in the range of 16 to 1007.
Syntax ipv6 ind holdtime seconds undo ipv6 ind holdtime Default The interval is 30 seconds. Views Interface view Default command level 2: System view Parameters seconds: Specifies the interval for sending IND solicitations, in the range of 10 to 120 seconds. Examples # Configure the FR interface type of Serial 2/0 as DTE, and set the interval for sending IND solicitations to 15 seconds.
[Sysname-Serial2/0] link-protocol fr [Sysname-Serial2/0] fr interface-type dte [Sysname-Serial2/0] ipv6 ind solicitation retrans-timer 15 reset fr ipv6 ind Use reset fr ipv6 ind to clear all IPv6 dynamic address mappings created by IND. Syntax reset fr ipv6 ind Views User view Default command level 2: System level Usage guidelines In some scenarios, IPv6 dynamic address mappings created by IND become invalid because, for example, the network topology is changed.
DCC configuration commands Configure all synchronous/asynchronous serial interfaces involved in DCC configuration to operate in asynchronous mode with the physical-mode async command. bandwidth Use bandwidth to set the intended bandwidth for an interface. Use undo bandwidth to restore the default.
Views Dialer interface view Default command level 2: System level Parameters number: Specifies the dialer bundle number in the range of 1 to 255. Usage guidelines This command applies only to dialer interfaces. In addition, a dialer interface can be associated with only one dialer bundle. Examples # Associate dialer bundle 3 with interface Dialer 1.
Examples # Assign interface BRI 1/0 to Dialer bundle 1 and Dialer bundle 2, with a priority of 50 in both. system-view [Sysname] interface bri 1/0 [Sysname-Bri1/0] dialer bundle-member 1 priority 50 [Sysname-Bri1/0] dialer bundle-member 2 priority 50 Related commands dialer bundle dialer callback-center Use dialer callback-center to configure the PPP callback reference. Use undo dialer callback-center to remove the setting.
# Specify the device as the PPP callback server, and set the callback reference to dial number mode.
system-view [Sysname] interface bri 1/0 [Sysname-Bri1/0] dialer route ip 100.1.1.2 8810152 [Sysname-Bri1/0] dialer call-in 8810152 callback Related commands dialer callback-center dialer circular-group Use dialer circular-group to assign the physical interface to a dialer circular group in the C-DCC approach. Use undo dialer circular-group to remove the interface from the dialer circular group.
dialer disconnect Use dialer disconnect to clear the dialup link on an interface or all dialup links if no interface is specified. Syntax dialer disconnect [ interface interface-type interface-number ] Views Any view Default command level 1: Monitor level Parameters interface interface-type interface-number: Disconnects the dialup link on an interface specified by its type and number. Examples # Clear the dialup link on interface Dialer 0.
system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] dialer enable-circular Related commands dialer circular-group dialer flow-interval Use dialer flow-interval to set the interval for DCC to collect traffic statistics. Use undo dialer flow-interval to restore the default. Syntax dialer flow-interval interval undo dialer flow-interval Default The interval for DCC to collect traffic statistics is 20 seconds.
Default No ISDN B channel is configured for leased line connection. Views Dialup interface (physical interface) view Default command level 2: System level Parameters number: Number of the ISDN B channel for leased line connection. The value range is 0 to 1 for a BRI interface, 0 to 30 (with 15 excluded for the control channel) for a CE1/PRI interface, and 0 to 23 (with 23 excluded for the control channel) for a CT1/PRI interface.
In C-DCC, you can also use the dialer route command to configure multiple destination addresses or dial strings. However, in RS-DCC, you can only use the dialer number command to configure one dial string for each dialer interface, because associations between dialer interfaces and call destination address are one-to-one. If no dialer-group command is configured, DCC will not dial even if the dialer number command is configured.
dialer priority Use dialer priority to assign a priority to the physical interface in its dialer circular group in the C-DCC approach. Use undo dialer priority to restore the default. Syntax dialer priority priority undo dialer priority Default The priority of a physical interface in its dialer circular group is 1.
Default command level 2: System level Parameters packets: Number of packets that can be buffered on the interface, in the range of 1 to 100. Usage guidelines If no connection is available yet when a dialup interface without a buffer queue receives a packet, it will drop the packet. Configured with a buffer queue, the dialup interface will buffer the packet until a connection is available for packet sending. Examples # Set the buffer queue length to 10 on interface Serial 2/0.
autodial: Enables the device to automatically attempt to dial according to the dialer route at certain intervals. The interval is set in the dialer timer autodial command and defaults to 300 seconds. interface interface-type interface-number: Specifies to dial from the specified physical interface. When multiple physical interfaces are assigned to a dialer interface and their dialup links are connected to different ISDN switches, you must associate the dialup numbers with the physical interfaces.
out: Considers only outgoing traffic in actual load calculation. Usage guidelines When the percentage of the traffic on the link to available bandwidth exceeds the threshold, another link is brought up to call the same destination address. In DCC applications, you can configure load thresholds for links.
Parameters seconds: Interval before the next call attempt, in the range of 1 to 604800 seconds. Usage guidelines This command takes effect only when the autodial keyword is configured in the dialer route command. It allows DCC to automatically dial at certain intervals to set up a connection. In the auto-dial approach, dial attempts to set up connection are not traffic triggered. Once a connection is set up, it will not disconnect for idle-timeout.
dialer timer enable Use dialer timer enable to set the link holddown timer. Use undo dialer timer enable to restore the default. Syntax dialer timer enable seconds undo dialer timer enable Default The link holddown timer is 5 seconds. Views Dialup interface (physical or dialer interface) view Default command level 2: System level Parameters seconds: Holddown timer value, setting the interval for originating a call to bring up a link after it is disconnected. The value range is 5 to 65535 seconds.
Default command level 2: System level Parameters seconds: Link idle-timeout timer, setting the time that a link is allowed to be idle. The value range is 0 to 65535 seconds. Usage guidelines A link idle-timeout timer starts upon setup of a link. If no interesting packets are present before the timer expires, DCC disconnects the link. If the timer is set to 0, the link will never be disconnected, regardless of whether there are interesting packets on the link or not.
dialer timer warmup Use dialer timer warmup to configure the warm-up timer for dynamic route backup. Use undo dialer timer warmup to restore the default. Syntax dialer timer warmup seconds undo dialer timer warmup Default The warm-up timer is 30 seconds, or dynamic route backup takes effect 30 seconds after a system reboot. Views System view Default command level 2: System level Parameters seconds: Sets the warm-up timer for dynamic route backup, in the range of 0 to 66635 seconds.
Parameters username: Remote username for PPP authentication, a string of 1 to 80 characters. Usage guidelines This command is only valid on dialer interfaces in RS-DCC. On a dialer interface encapsulated with PPP, DCC identifies which dialer interface is to be used for receiving calls based on the remote username obtained through PPP authentication. You can configure multiple dialer users (up to 255) on a dialer interface.
Examples # Add interface Serial 2/0 to dialer access group 1. system-view [Sysname] dialer-rule 1 acl 3101 [Sysname] interface serial 2/0 [Sysname-Serial2/0] dialer-group 1 Related commands dialer-rule dialer-rule Use dialer-rule to set the condition for a DCC call to be placed for a dialer access group either by directly configuring a rule or by referencing an ACL. Use undo dialer-rule to remove the setting.
For DCC to send packets correctly, you must configure a dial ACL and associate it with the concerned dialup interface (physical or dialer interface) by using the dialer-group command. If no dial ACL is configured for the dialer access group associated with a dialup interface, DCC will drop received packets on the interface as uninteresting ones. Examples # Define dialer-rule 1 and apply it to interface Serial 2/0.
Idle:120 Wait-for-Carrier:60 Total Channels:1 Free Channels:1 Table 33 Command output Field Description dialer type Type of dialup interface, dialer or physical. NextHop address Remote address associated with a dialer route on the interface. Dialer_Numbers Dial strings for the remote IP addresses. Dialer number Dial string for a remote IP address. Dialer Timers(Secs) DCC timers. Auto-dial Timer set by the dialer timer autodial command.
regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters. Usage guidelines If you do not specify the dialer keyword, this command displays information about all interfaces on the device. If you specify the dialer keyword without the number argument, this command displays information about all the dialer interfaces. Examples # Display detailed information about interface Dialer 1.
Field Description Line protocol current state Data link layer protocol state of the dialer interface (up/down). Description Interface description. The Maximum Transmit Unit MTU of the dialer interface. Internet protocol processing Network layer protocol state of the dialer interface (enabled/disabled). Link layer protocol is PPP Current data link layer protocol. LCP initial LCP is initialized. Physical is Dialer The physical interface is a dialer interface.
Field Description Cause Cause of a DOWN physical link. If the port has been shut down with the shutdown command, this field displays Administratively. To restore the physical state of the interface, use the undo shutdown command. interface dialer Use interface dialer to create a dialer interface. In C-DCC, this equals creating a dialer circular group. Use undo interface dialer to remove a dialer interface.
ppp callback Use ppp callback to specify the interface as the server or client to send or accept PPP callback requests. Use undo ppp callback to disable the interface as the PPP callback server or client. Syntax ppp callback { client | server } undo ppp callback { client | server } Default Callback is disabled. Views Dialup interface (physical or dialer interface) view Default command level 2: System level Parameters client: Sends callback requests as the PPP callback client.
Default command level 2: System level Parameters dial-number: Dial string for a Windows NT server to place return calls to your router. Usage guidelines When your router is functioning as a PPP callback client, configure this command if a Windows NT Server requires PPP callback clients to send callback numbers. Examples # Set the dial string for a Windows NT server to call back the router to 1234567.
Use undo standby routing-group to disable the dynamic route backup function. Syntax standby routing-group group-number undo standby routing-group group-number Default The dynamic route backup function is disabled. Views Interface view Default command level 2: System level Parameters group-number: Dynamic route backup group number in the range of 1 to 255. Usage guidelines Before enabling the dynamic route backup function on a dialup interface, make sure DCC is enabled on the interface.
mask: Network mask. mask-length: Network mask length in the range of 0 to 32. Usage guidelines Up to 255 monitored network segments can be added to a dynamic route backup group. The primary link is considered to be disconnected only when the routes to all the monitored network segments in a dynamic route backup group become invalid. Examples # Create dynamic route backup group 1 to monitor routes to the network segments 20.0.0.0/8 and 30.0.0.0/8.
Modem management commands The modem management commands are available to AUX interfaces, asynchronous/synchronous serial interfaces operating in the asynchronous mode, and other asynchronous interfaces. They are unavailable to console ports. modem Use modem to enable modem call-in, modem call-out, or both on a user interface. Use undo modem to disable modem call-in, modem call-out, or both.
Default A modem operates in non-auto answer mode. Views User interface view Default command level 2: System level Usage guidelines When the modem is in auto-answer mode (the AA LED of the modem lights up), use the modem auto-answer command to prevent the device from issuing answer instructions. If the modem is in non-auto answer mode, use the undo modem auto-answer command to enable the device to issue answer instructions on the arrival of incoming calls.
Usage guidelines This command is available in only the TTY user interface view of an AM interface. You can configure this command in the TTY user interface view of other interfaces. However, the configuration does not take effect. For a POS terminal connected to an AM interface, if the FEP wants to obtain the caller number of the POS terminal, the POS access device must obtain the caller number of the POS terminal and send the caller number to the FEP before forwarding data from the POS terminal to the FEP.
Syntax sendat at-string Views Interface view. (The interface can be an asynchronous serial interface, an asynchronous/synchronous serial interface operating in the asynchronous mode, an AUX interface, or an AM interface.) Default command level 2: System level Parameters at-string: AT command string, a string of 1 to 300 characters. This argument can contain +++, A/, or be any string beginning with AT. For description on AT commands, see Table 35.
Command En Dn Description Sets the modem to echo commands to the workstation. The n argument can be 0 or 1. • E0—Disables echo of commands to the workstation. • E1—Enables echo of commands to the workstation (the default setting). Instructs a modem to dial the number specified by the n argument. In pulse dialing mode, nonnumeric characters in the n argument are ignored. Sets the way to terminate a call. The n argument can be 0 or 1.
Command Description Enables a modem to send result codes. Qn The n argument can be 0 or 1. • Q0—Enables output result code sending (the default). • Q1—Disables output result code sending. Sets register r to value n. Sr=n Specify a register to be set by specifying the r argument, which can be 0 through 27, 29, 31 through 33, 35, 37, and 89. The n argument is the value to be assigned to the register, in the range of 0 to 255. T Sets tone dial default.
Examples # Enable the callback function.
ATM commands The MSR900 and MSR93X(except JG518A, JG519A, JG520A and JG597A) routers do not support ATM interfaces. atm class Use atm class to create an ATM class and enter the ATM class view. Use undo atm class to delete the specified ATM class. Syntax atm class atm-class-name undo atm class atm-class-name Views System view Default command level 2: System level Parameters atm-class-name: Name of an ATM class, a string of 1 to 16 characters.
Default command level 2: System level Parameters atm-class-name: Name of an ATM class, a string of 1 to 16 characters. Examples # Apply the ATM class named main to interface ATM 1/0. system-view [Sysname] interface atm 1/0 [Sysname-Atm1/0] atm-class main Related commands atm class atm-link check Use atm-link check to adapt the protocol state of an ATM P2P subinterface to the status of the PVC on the subinterface in addition to the status of the physical interface.
undo bandwidth Views Layer 3 VE interface view Default command level 2: System level Parameters bandwidth-value: Specifies the intended bandwidth for the interface, in the range of 1 to 4294967295 kbps. Usage guidelines You can obtain the intended bandwidth of an interface by querying the ifspeed value of the MIB node with third-party software. The intended bandwidth is used for bandwidth monitoring of the network management, but does not affect the actual bandwidth of the interface.
Examples # Specify interface ATM 1/0 to use the internal transmission clock. system-view [Sysname] interface atm 1/0 [Sysname-Atm1/0] clock master Related commands display atm interface default Use default to restore the default settings for the interface. Syntax default Views Layer 3 VE interface view Default command level 2: System level Usage guidelines CAUTION: The default command might interrupt ongoing network services.
Default The description of a VE interface is interface name Interface, for example, Virtual-Ethernet0 Interface. Views Layer 3 VE interface view Default command level 2: System level Parameters text: Interface description, a case-sensitive character string of 1 to 80 characters.
|: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression. regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters.
include: Displays all lines that match the specified regular expression. regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters. Examples # Display the information interface about ATM 4/0.
Parameters interface-type interface-number: Specifies an interface by its type and number. pvc-name: PVC name, a unique string of 1 to 16 characters on the specified ATM interface, case-insensitive. The name cannot be the same as any valid VPI/VCI pair. For example, the name 1/20 is not allowed. vpi/vci: VPI/VCI pair. VPI is short for virtual path identifier. The value range is 0 to 255. VCI is short for virtual channel identifier. The value range varies by interface type.
Field Description PVC 1/33 PVC identifier. IP & Mask Protocol type. State UP PVC state. 100.11.1.1, mask 255.255.0.0 Protocol address. vlink 1 Virtual link number. display atm pvc-group Use display atm pvc-group to view the information about PVC-Group.
1/32 UP SNAP IP Atm11/0(UP) 1/32 1/33 aa UP SNAP IP Atm11/0(UP) 1/32 3/34 UP SNAP IP Atm11/0(UP) 1/32 Table 40 Command output Field Description VPI/VCI VPI/VCI value pair. PVC-NAME PVC name. STATE PVC state. ENCAP AAL5 encapsulation type of the PVC. PROT Upper protocol running on the PVC. INTERFACE Interface to which the PVC belongs. GROUP PVC group to which the PVC belongs. display atm pvc-info Use display atm pvc-info to view the information about a PVC.
Without a PVC name or a VPI/VCI value pair specified, this command displays all the PVC information on the specified ATM interface. Examples # Display the PVC information on all ATM interfaces. display atm pvc-info VPI/VCI | STATE | PVC-NAME | INDEX | ENCAP | PROT | INTERFACE --------|---------|-----------|--------|--------|------|---------1/32 |UP |aa |33 |SNAP |IP |Atm1/0 (UP) 1/33 |UP |Sysname |34 |MUX |None |Atm1/0 (UP) 1/55 |UP |datacomm |56 |SNAP |PPP |Atm1/0.
Table 42 Command output Field Description VPI Virtual path identifier of the specified ATM PVC. VCI Virtual channel identifier of the specified ATM PVC. INDEX Internal index of the PVC. AAL5 Encaps AAL5 encapsulation type of the PVC. Protocol Upper layer protocol running on the PVC. Service-type Service type. Transmit-Priority Transmit priority. OAM interval Interval at which OAM F5 loopback cells are sent. OAM retry interval Interval at which the system retransmits OAM F5 loopback cells.
Field Description OAM cell drops Count of dropped OAM cells. OAM CC alarm state: OAM CC State • • • • A dash (–)—The system does not support obtaining OAM CC state. No CC Alarm—No OAM CC alarm is present. E2E CC Alarm—An end-to-end OAM CC alarm is present. SEG CC Alarm—A segment OAM CC alarm is present (not supported). display interface virtual-ethernet Use display interface virtual-ethernet to display information about Layer 3 VE interfaces.
Examples # Display detailed information about subinterface Virtual-Ethernet 1.1. display interface virtual-ethernet 1.1 Virtual-Ethernet1.1 current state: UP Line protocol current state: UP Description: Virtual-Ethernet1.
Field Description Line protocol current state Link layer state of the interface: UP or DOWN. Description Interface description. The Maximum Transmit Unit Maximum transmission unit (MTU) of the interface. Internet protocol processing Processing state of the network layer protocol: enabled or disabled. IP Packet Frame Type Encapsulation format for IPv4 packets. Hardware Address MAC address of the interface. IPv6 Packet Frame Type Encapsulation format for IPv6 packets.
Use undo encapsulation to restore the default. Syntax encapsulation aal5-encap undo encapsulation Default Aal5snap encapsulation is used. Views PVC view, ATM class view Default command level 2: System level Parameters aal5-encap: Specifies an AAL5 encapsulation type. The following are available values: • aal5mux—MUX encapsulation • aal5nlpid—RFC1490 encapsulation • aal5snap—LLC/SNAP encapsulation Usage guidelines Among aal5snap, aal5mux and aal5nlpid, only aal5snap encapsulation supports InARP.
Default level 2: System level Parameters None Usage guidelines When you enable this function on an ATM interface, the interface pads a sent EoA packet to 60 bytes if the packet (including the frame header) is smaller than 60 bytes. This command is used on ATM interfaces that communicate with vendor-specific ATM devices. When the ATM devices receive EoA packets, they use chips to resolve the Ethernet packets in the EoA packets, and forward the Ethernet packets through Ethernet interfaces.
system-view [Sysname] interface atm 1/0 [Sysname-Atm1/0] # Create subinterface ATM 1/0.1, enter subinterface view, and set its connection type to point-to-point. system-view [Sysname] interface atm 1/0.1 p2p [Sysname-Atm1/0] interface virtual-ethernet Use interface virtual-ethernet to create a Layer 3 VE interface or subinterface and enter the interface or subinterface view. Use undo interface virtual-ethernet to remove a Layer 3 VE interface or subinterface.
undo ip-precedence { pvc-name [ vpi/vci ] | vpi/vci } Views ATM PVC-group view Default command level 2: System level Parameters pvc-name: PVC name, a unique string of 1 to 16 characters on ATM interface, case-insensitive. The name cannot be the same as a valid VPI/VCI pair value. For example, the name 1/20 is not allowed. vpi/vci: VPI/VCI pair. VPI is short for virtual path identifier. The value range is 0 to 255. VCI is short for virtual channel identifier. The value range varies by interface type.
Syntax mac-address mac-address undo mac-address Default The MAC address of a Layer 3 VE interface depends on the router model. You can use the display interface command to display it. Views Layer 3 VE interface view Default command level 2: System level Parameters mac-address: Specifies the MAC address in the format of H-H-H. Usage guidelines As a logical interface, a Layer 3 VE interface is created and removed manually, and uses the MAC address of a physical interface on the device.
Usage guidelines Before using this command, make sure that the VE has been created. Examples The following example demonstrates a complete process of IPoEoA configuration. # Establish a VE interface numbered 1. system-view [Sysname] interface virtual-ethernet 1 # Assign IP address 10.1.1.1/16 to the VE interface. [Sysname-Virtual-Ethernet1] ip address 10.1.1.1 255.255.0.0 [Sysname-Virtual-Ethernet1] quit # Create PVC 1/102 on the ATM interface ATM2/0.
inarp: Enables InARP on the PVC. minutes: Time interval to send InARP packets in minutes. The value range for this argument is 1 to 600, and the default is 15 minutes. broadcast: Enables pseudo-broadcast. If the mapping of a PVC is configured with pseudo-broadcast, the device sends on the PVC a copy of each broadcast or multicast packet that it sends out of the interface to which the PVC belongs.
Usage guidelines Before using this command, make sure that the VT has been created. Examples The following example demonstrates a complete process of PPPoA configuration. # Create a VT interface numbered 10, and assign it an IP address. system-view [Sysname] interface virtual-template 10 [Sysname-Virtual-Template10] ip address 202.38.160.1 255.255.255.0 [Sysname-Virtual-Template10] quit # Create PVC 1/101 on interface ATM 1/0.
Interface type Value range Virtual-Ethernet 46-1500 Usage guidelines The MTU only influences the packet assembly and disassembly at the IP layer at the ATM interface. Due to the limit of QoS queue length, MTU that is too small might cause numerous fragments. Thus, it might be dropped by the QoS queue. The length of the QoS queue can be increased appropriately. The default queue dispatching mechanism used by PVC is FIFO.
Examples # Set the AIS/RDI alarm detection parameters for PVC 1/32, setting up-seconds to 10, and down-count to 5. system-view [Sysname] interface atm 1/0 [Sysname-Atm1/0] pvc 1/32 [Sysname-atm-pvc-Atm1/0-1/32] oam ais-rdi up 10 down 5 oam frequency Use oam frequency to enable the transmission and retransmission detection of the OAM F5 Loopback cell, as well as to modify the related parameters. Use undo oam frequency to disable the transmission and retransmission detection of the cell.
[Sysname-Atm1/0] pvc 1/32 [Sysname-atm-pvc-Atm1/0-1/32] oam frequency 12 up 4 down 4 retry-frequency 1 oamping interface Use oamping interface to send OAM cells over the specified PVC on the specified ATM interface so as to check the link state. If no response is received within the specified time, the link is bad or so busy that packets are lost.
Syntax pvc { pvc-name [ vpi/vci ] | vpi/vci } undo pvc { pvc-name [ vpi/vci ] | vpi/vci } Default No PVC is created. Views ATM interface view, PVC-group view Default command level 2: System level Parameters pvc-name: PVC name, a unique string of 1 to 16 characters on ATM interface, case-insensitive. The name cannot be the same as a valid VPI/VCI pair value. For example, the name 1/20 is not allowed. vpi/vci: VPI/VCI pair. VPI is short for virtual path identifier. The value range is 0 to 255.
Syntax pvc-group { pvc-name [ vpi/vci ] | vpi/vci } undo pvc-group { pvc-name [ vpi/vci ] | vpi/vci } Views ATM interface view Default command level 2: System level Parameters pvc-name: PVC name, a unique string of 1 to 16 characters on ATM interface, case-insensitive. The name cannot be the same as a valid VPI/VCI pair value. For example, the name 1/20 is not allowed. The PVC corresponding to pvc-name must have already been created. vpi/vci: VPI/VCI pair. VPI is short for virtual path identifier.
Views ATM main interface view Default command level 2: System level Parameters max-number: Maximum number of PVCs allowed on the ATM interface. The value range varies by the type of physical interface, as shown in Table 45. Table 45 Maximum number of PVCs supported on an ATM interface Interface type Maximum number Default ADSL2+ 1 to 8 8 G.SHDSL 1 to 32 32 G.SHDSL.
Views ATM interface view Default command level 2: System level Parameters vpi: Specifies the VPI of the ATM network, in the range of 0 to 255. output-scr: Specifies the sustainable rate of ATM cell output (in kbps). For more information about the value range, see Table 46. Usage guidelines When applying VP policing, the parameters of PVC are still valid. Only when the parameters of PVC and VP policing are met, will the packets be transmitted and received.
Usage guidelines A QoS policy that references the behavior can be applied only to the outgoing traffic of an ATM PVC. For more information about green, red, and yellow packets, see ACL and QoS Configuration Guide. Examples # Create a traffic behavior named database and configure the action of setting the CLP bit of ATM cells to 1 for the traffic behavior.
Views PVC view, ATM class view Default command level 2: System level Parameters output-pcr: Specifies the output peak rate of an ATM cell (in kbps). The value range for this parameter varies with interface types, as shown in Table 46. Table 46 Value ranges for the output-pcr argument Interface type Value range for output-pcr ADSL 2+ 64 to 640 • For two-wire interfaces or four-wire interfaces in two-wire mode: 64 to 2312 G.
service ubr Use service ubr to specify the service type of PVC as UBR and specify the related rate parameters. Use undo service to restore the default. Syntax service ubr output-pcr undo service Default The service type is UBR after a PVC creating is created. Views PVC view, ATM class view Default command level 2: System level Parameters output-pcr: Specifies the output peak rate of an ATM cell (in kbps). For more information about the value range, see Table 46.
Default command level 2: System level Parameters output-pcr: Specifies the peak rate of ATM cell output (in kbps). For more information about the value range, see Table 46. output-scr: Specifies the sustainable rate of ATM cell output (in kbps). Its value ranges are the same as those of the output-pcr argument. output-mbs: Specifies the maximum burst size for ATM cell output, which specifies the maximum number of ATM cells that the output interface can cache. The value range for this argument is 1 to 512.
Parameters output-pcr: Specifies the peak cell rate of ATM output (in kbps). For more information about the value range, see Table 46. output-scr: Specifies the sustainable cell rate of ATM output (in kbps). Its value ranges are the same as those of the output-pcr argument. output-mbs: Specifies the maximum burst size of ATM cell output, which specifies the maximum cache size of ATM cell output at the interface in cell number. The value range for this argument is 1 to 512.
[Sysname] interface atm 5/0 [Sysname-Atm5/0] shutdown # Bring up interface ATM 5/0. system-view [Sysname] interface atm 5/0 [Sysname-Atm5/0] undo shutdown transmit-priority Use transmit-priority to assign transmission priority for an ATM PVC associated with the UBR, rt-VBR, or nrt-VBR service. At the time of bandwidth allocation, the PVCs with higher priorities take precedence over those with lower priorities. Use undo transmit-priority to restore the default transmission priority.
Syntax tx-bd-limit value undo tx-bd-limit Views PVC view Default command level 2: System level Parameters value: Specifies the maximum number of BDs allowed on a PVC. The value range varies by the type of physical interface, as shown in Table 47. Table 47 Maximum number of BDs allowed on a PVC Interface type Maximum number ADSL 1 to 128 G.SHDSL 1 to 128 ATM OC3 1 to 1024 ATM E3 1 to 256 ATM T3 1 to 256 IMA 1 to 64 Examples # Set the maximum number of BDs allowed to 100.
HDLC configuration commands The MSR900 and MSR93X routers do not support HDLC. display hdlc compression stac Use display hdlc compression stac to display the HDLC STAC-LZ compression-related information about a specified HDLC link.
Field Description Compress/Error/Total: Number of compressed/error packets sent and the total number of sent packets. hdlc compression stac Use hdlc compression stac to enable STAC-LZ compression on the interface. Use undo hdlc compression stac to restore the default. Syntax hdlc compression stac undo hdlc compression stac Default No compression is enabled on an interface. Views Interface view Default command level 2: System level Examples # Enable the STAC-LZ compression on Serial 2/0.
Examples # Enable HDLC encapsulation on interface Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] link-protocol hdlc reset hdlc compression stac Use reset hdlc compression stac to clear the HDLC compression-related statistics on an interface.
Examples # Set the link status polling interval to 100 seconds on interface Serial 2/0.
DLSw configuration commands code Use code to configure the encoding format for the synchronous serial interface. Use undo code to remove the current configuration. Syntax code { nrz | nrzi } undo code Default The NRZ encoding scheme is used on the synchronous serial interface. Views Synchronous serial interface view Default command level 2: System level Parameters nrz: Sets the digital signal coding format to nonreturn to zero (NRZ).
Default command level 1: Monitor level Parameters circuit-id: Specifies the ID of a DLSw virtual circuit, in the range of 0 to 0xFFFFFFFF. remote ip-address: IP address of the remote DLSw peer. verbose: Displays the detailed information of the virtual circuits. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide.
Field Description Connection status: • CONNECTED—A TCP connection has been established. State • DISCONNECTED—No TCP connection has been established. • CONNECTING—A TCP connection is being established. lifetime Length of time for which the virtual circuit has been up. Local-SAP SAP of the local SNA device. Remote-SAP SAP of the remote SNA device. Direction Direction of the virtual circuit. Remote peer IP address of the remote peer. FC Flow control. OutWin Output window value.
Usage guidelines If you execute this command on a primary router, this command displays information about virtual circuits established by the primary router and the virtual circuits that all the secondary routers request. If you execute this command on a secondary router, this command displays information about the virtual circuits that the secondary router requests and are successfully established. Examples # Display virtual circuit information after the Ethernet redundancy function is enabled.
regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters. Examples # Display the MAC address conversion information after the Ethernet redundancy function is enabled. display dlsw ethernet-backup map Local-MAC Remote-MAC Type Status 3333.3333.4333 4444.4444.3444 Configured Enabled Local-MAC Remote-MAC Type Status 3333.3333.3336 4444.4444.
Self 000f.e200.0002 Master ---- Neighbor 000f.e21d.053b Slave CONNECT Table 52 Command output Field Description Device role: • Self—Local device. • Neighbor—Neighbor device. Role Device status: • Master. • Slave. Status LLC2 link status: • CONNECT—Connected. • DISCONNECT—Disconnected. LLC2-Circuit display dlsw information Use display dlsw information to display DLSw capabilities exchange information.
Initial pacing window: 40 TCP sessions number : 1 Multicast address : None Version string : Comware software, Version 5.20, Release 1205, Standard Copyright (c) 2004-2014 Hewlett-Packard Development Company, L.P. Table 53 Command output Field Description DLSw IP address of the remote peer. Vendor ID(OUI) Vendor ID of the remote device. Version number Latest DLSw version supported by the remote device. Release number Release version. Initial pacing window Size of the initialized window.
regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters. Usage guidelines With the ip-address argument provided, this command displays the information about the specified remote DLSw peer. Without the ip-address argument provided, this command displays the information about all remote DLSw peers. Examples # Display information about all the current remote peers.
display dlsw reachable-cache Use display dlsw reachable-cache to view the reachability information of DLSw. Syntax display dlsw reachable-cache [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide.
Field Description Status Status of the reachability information. Peer Remote peer to which the reachability information belongs. Type of the reachability information: • DYNAMIC—The information was dynamically learned. Type • CONFIG—The information was manually configured. Remain time Remaining aging time. display llc2 Use display llc2 to display LLC2 statistics.
Table 56 Command output Field Description llc2 circuit index Index of LLC2 circuit. Local MAC Local MAC address of LLC2 circuit. Remote MAC Remote MAC address of LLC2 circuit. Local Sap Local SAP address of LLC2 circuit. Remote Sap Remote SAP address of LLC2 circuit. Local role of LLC2 circuit: • primary—The end that initiated the circuit. • secondary—The End that accepted the circuit Role connection. State State of the LLC2 circuit.
dlsw enable Use dlsw enable to enable DLSw. Use undo dlsw enable to disable DLSw. Syntax dlsw enable undo dlsw enable Default DLSw is enabled. Views System view Default command level 2: System level Usage guidelines The execution of the undo dlsw enable command releases all dynamic resources without altering the configuration. Examples # Disable DLSw without changing the configuration. system-view [Sysname] undo dlsw enable # Enable DLSw.
Parameters multicast-mac-address: Multicast address that the DLSw Ethernet redundancy function uses for primary/secondary router election. The multicast address is in the format of xxxx-xxxx-xxxx and with the Ethernet byte order. priority: Priority that the DLSw Ethernet redundancy function uses for primary/secondary election. The priority is in the range of 0 to 254 and defaults to 100. A smaller value means a higher priority.
neighbor-mac-address: MAC address of device that takes over to perform MAC address conversion when the current device is not available. The multicast address is in the format of xxxx-xxxx-xxxx and with the token ring byte order. Usage guidelines With the command configured, when the router receives a frame from a WAN, the router replaces the source MAC address of the frame with the local MAC address.
[Sysname] interface ethernet 1/1 [Sysname-Ethernet1/1] dlsw ethernet-backup enable 9999-9999-9999 priority 10 [Sysname-Ethernet1/1] dlsw ethernet-backup timer 1500 dlsw ethernet-frame-filter Use dlsw ethernet-frame-filter to configure the DLSw router to filter Ethernet frames from or to the local SNA device by applying the specified ACL for incoming or outgoing traffic. Use undo dlsw ethernet-frame-filter to remove the ACL applied for the incoming or outgoing traffic.
Parameters circuit-weight: Default virtual circuit weight, which is used by the remote peers that are not explicitly configured with the virtual circuit weight. The value range for the circuit-weight argument is 1 to 100, and the default is 10. A remote peer with a bigger virtual circuit weight will be assigned more virtual circuits. Default DLSw load balancing is disabled. Examples # Enable DLSw load balancing, and set the default virtual circuit weight to 20.
vendor-id: DLSw vendor identifier in the range of 00.00.00 to ff.ff.ff. The default is 00.e0.fc. Usage guidelines Deleting a local DLSw peer will automatically delete all its remote DLSw peers. Establishing a TCP connection is the first step in establishing a DLSw circuit. To establish a TCP connection, you must create a local DLSw peer, and configure an IP address for it, which is used for establishing the TCP connection. Then, the router can initiate or accept a TCP connection request.
Examples # Permit access to MAC addresses that start with 1212. system-view [Sysname] dlsw reachable mac-address 1212-1212-1212 mask ffff-0000-0000 # Allow the router to access SAP addresses 12 and 14. [Sysname] dlsw reachable saps 12 14 # Permit access to user-configured MAC addresses only. [Sysname] dlsw reachable mac-exclusivity dlsw reachable-cache Use dlsw reachable-cache to add the reachability information of the specified SNA device to the reachable-cache.
Syntax dlsw remote ip-address [ backup backup-address [ immediately ] | circuit-weight circuit-weight | keepalive keepalive-interval | linger seconds | lsap-output-acl acl-number | max-frame max-frame-size | max-queue max-queue-length | priority priority ] * undo dlsw remote ip-address Views System view Default command level 2: System level Parameters ip-address: IP address of the remote peer to be created. backup backup-address: Creates a backup remote peer with the IP address of ip-address.
If a backup link exists after the primary link is disconnected from the TCP connection, the TCP connection remains connected (you can see whether a TCP connection exists by using the display dlsw remote command). After the primary TCP connection is established, the backup link still exists for the period specified by linger seconds. Examples # Create a remote DLSw peer with the following parameters: • IP address: 2.2.2.
[Sysname] dlsw reverse 0012-3578-4521 Reversed MAC address: 0048-ac1e-a284 # Convert the token ring MAC address 0048-ac1e-a284 to the Ethernet format. [Sysname] dlsw reverse 0048-ac1e-a284 Reversed MAC address: 0012-3578-4521 Related commands sdlc mac-map remote dlsw max-transmission Use dlsw max-transmission to set the maximum number of attempts the DLSw v2.0 router makes to send an explorer frame. Use undo dlsw max-transmission to restore the default.
Default The multicast function of DLSw v2.0 is disabled. Views System view Default command level 2: System level Parameters multicast-ip-address: Multicast IP address in the range of 224.0.10.0 to 224.0.10.191. The default is to 224.0.10.0. interface: Specifies the interface through which DLSw v2.0 multicasts are sent. interface-type interface-number: Specifies an interface by its type and number. Examples # Enable the router to send DLSw 2.0 multicasts to the multicast address of 224.0.10.
explorer-wait seconds: Local explorer frame waiting time in seconds. The range is 1 to 65535, and the default is 30 seconds. local-pending seconds: Local pending time in seconds. The range is 1 to 65535, and the default is 30 seconds. remote-pending seconds: Remote pending time in seconds. The range is 1 to 65535, and the default is 30 seconds. Usage guidelines Configure the timers used in creating DLSw circuits to meet your actual needs. Do this only when necessary.
either flags (default) or marks. When the synchronous serial interface is connected with an AS/400 device, you must change the idle character by using this command to improve the speed of polling the AS/400 device. Examples # Configure synchronous serial interface Serial 2/0 to send 0xFF to indicate idle space between frames.
Views Ethernet interface view Default command level 2: System level Parameters length: Maximum number of information frames the router can receive before it sends an acknowledgment, in the range of 1 to 127. Examples # Set the maximum number of information frames the router can receive before it sends an acknowledgment to 5 on Ethernet 1/0. system-view [Sysname] interface ethernet 1/0 [Sysname-Ethernet1/0] llc2 max-ack 5 llc2 max-pdu Use llc2 max-pdu to configure the maximum LLC2 PDU size.
undo llc2 max-send-queue Default The length of the LLC2 output queue is 50. Views Ethernet interface view Default command level 2: System level Parameters length: Length of the LLC2 output queue, in the range of 20 to 200. Examples # Set the length of the LLC2 output queue to 30 on Ethernet 1/0.
Syntax llc2 modulo { 8 | 128 } undo llc2 modulo Default The modulus of LLC2 is 128. Views Ethernet interface view Default command level 2: System level Parameters 8: Specifies the modulus value to be 8. 128: Specifies the modulus value to be 128. Usage guidelines LLC2, like X.25, uses modulus to number frames. All frames sent are numbered incrementally and await an acknowledgment. When the frame number reaches the configured value (called "modulus value"), subsequent frames are numbered from 1 again.
Parameters length: Maximum number of consecutive information frames the router can send before receiving an acknowledgment from the peer, in the range of 1 to 127. Examples # Set the maximum number of consecutive information frames the router can send before receiving an acknowledgment from the peer to 10 on Ethernet 1/0.
Default The LLC2 local acknowledgment delay time is 100 milliseconds. Views Ethernet interface view Default command level 2: System level Parameters mseconds: LLC2 local acknowledgment delay in milliseconds. The range is 1 to 60000. Examples # Set the LLC2 local acknowledgment delay time to 200 milliseconds on Ethernet 1/0.
Syntax llc2 timer detect mseconds undo llc2 timer detect Default The LLC2 polling interval is 30000 milliseconds. Views Ethernet interface view Default command level 2: System level Parameters mseconds: LLC2 polling interval in milliseconds. The range is 1 to 60000. Examples # Set the LLC2 polling interval to 10000 milliseconds on Ethernet 1/0.
system-view [Sysname] interface ethernet 1/0 [Sysname-Ethernet1/0] llc2 timer poll 2000 llc2 timer reject Use llc2 timer reject to configure the LLC2 REJ status timer, the amount of time the router waits for the expected frame after it receives an unexpected frame and sends a reject frame. Use undo llc2 timer reject to restore the default. Syntax llc2 timer reject mseconds undo llc2 timer reject Default The LLC2 REJ status timer is 500 milliseconds.
Examples # Clear the information of virtual circuit 100. reset dlsw circuits 100 reset dlsw ethernet-backup circuit Use reset dlsw ethernet-backup circuit to clear virtual circuit information after the Ethernet redundancy function is enabled. Syntax reset dlsw ethernet-backup circuit Views User view Default command level 2: System level Examples # Clear virtual circuit information after the Ethernet redundancy function is enabled.
Examples # Clear the DLSw reachability information. reset dlsw reachable-cache reset dlsw tcp Use reset dlsw tcp to reset the TCP connection between the DLSw router and a remote peer or all remote peers. Syntax reset dlsw tcp [ ip-address ] Views User view Default command level 2: System level Parameters ip-address: IP address of the remote peer. Usage guidelines This command without ip-address resets the TCP connections between the DLSw router and all current remote peers.
sdlc controller Use sdlc controller to configure the address of a secondary SDLC station address. Use undo sdlc controller to delete the address of a secondary SDLC station. Syntax sdlc controller sdlc-address undo sdlc controller sdlc-address Default No secondary SDLC station address is configured. Views Synchronous serial interface view Default command level 2: System level Parameters sdlc-address: Address of the secondary SDLC station to be configured, in the range of 0x01 to 0xFE.
Syntax sdlc enable dlsw undo sdlc enable dlsw Default DLSw forwarding is not enabled on the serial interface. Views Synchronous serial interface view Default command level 2: System level Usage guidelines Before enabling DLSw forwarding on the serial interface, enable SDLC encapsulation on the interface. With DLSw forwarding enabled on the SDLC interface, all local SNA devices connected to the interface will be able to communicate with the remote device through DLSw.
The sixth byte of the MAC address should be set to 0x00. The system will combine the first 5 bytes of this virtual MAC address with the SDLC address into a new MAC address, which will serve as the source MAC address in SDLC-to-LLC2 frame format conversion. Examples # Set the SDLC virtual MAC address to 0000-e81c-b600 on Serial 2/0.
[Sysname] interface serial 2/0 [Sysname-Serial2/0] sdlc mac-map remote 000f-e200-0010 05 sdlc max-pdu Use sdlc max-pdu to configure the maximum SDLC PDU size, the maximum size of a frame that the router can send, not including the frame check sequence (FCS), start flag and ending flag fields. Use undo sdlc max-pdu to restore the default. Syntax sdlc max-pdu number undo sdlc max-pdu Default The maximum SDLC PDU size is 265 bytes.
Default command level 2: System level Parameters length: Length of the SDLC output queue, in the range of 20 to 255. Examples # Set the length of the SDLC output queue to 30 on Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] sdlc max-send-queue 30 sdlc max-transmission Use sdlc max-transmission to configure the maximum number of SDLC transmission retries, the number of times a frame is retransmitted before an acknowledgment is received from the peer.
Default The SDLC modulus is 8. Views Synchronous serial interface view Default command level 2: System level Parameters 8: Specifies the modulus value to be 8. 128: Specifies the modulus value to be 128. Usage guidelines Like X.25, SDLC uses the modulus method to number frames. All frames sent are numbered incrementally and await an acknowledgment. When the frame number reaches the configured value (called "modulus value"), subsequent frames are numbered from 1 again.
Usage guidelines When an SDLC frame is converted into an LLC2 frame, a SAP address is needed in addition to the MAC address. The SAP address used by the SNA protocol is 0x04, 0x08, or 0x0C. Examples # Configure the SAP address to be used in SDLC-to-LLC2 frame format conversion on Serial 2/0.
Related commands sdlc sap-map local sdlc simultaneous Use sdlc simultaneous to configure the SDLC synchronous serial interface to operate in two-way simultaneous mode, so that the primary SDLC station can send data to and receive data from a secondary station at the same time. Use undo sdlc simultaneous to restore the default mode. Syntax sdlc simultaneous undo sdlc simultaneous Default The data transmission mode is "alternate.
Usage guidelines SDLC is an "unbalanced" link layer protocol. The end systems across a TCP connection are not equal in the positions: one is primary and the other is secondary. The primary station, whose role is primary, plays a dominant role and controls the whole connection process. The secondary station, whose role is secondary, is controlled by the primary station. You must configure a role for an SDLC interface.
sdlc timer lifetime Use sdlc timer lifetime to configure the secondary-station acknowledgment waiting time, the amount of time a secondary SDLC station waits for an acknowledgment from the primary station after sending an information frame. Use undo sdlc timer lifetime to restore the default. Syntax sdlc timer lifetime mseconds undo sdlc timer lifetime Default The secondary-station acknowledgment waiting time is 500 milliseconds.
Examples # Set the SDLC polling interval to 200 milliseconds on Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] sdlc timer poll 200 sdlc window Use sdlc window to configure the maximum number of consecutive frames the device can send before receiving an acknowledgement from the peer. Use undo sdlc window to restore the default.
Views Synchronous serial interface view Default command level 2: System level Parameters sdlc-address: SDLC address of the XID, in the range of 0x01 to 0xFE. This address should be configured beforehand. xid-number: XID of the SDLC-enabled device, a 4-byte integer, in the range of 1 to 0xFFFFFFFF. The first 12 bits indicate the network address, and the last 20 bits indicate the node number. Usage guidelines An XID identifies a device in an SNA system.
L2TP configuration commands allow l2tp Use allow l2tp to specify the VT interface for receiving calls, the tunnel name on the LAC, and the domain name. Use undo allow to remove the configuration. Syntax allow l2tp virtual-template virtual-template-number remote remote-name [ domain domain-name ] undo allow Default An LNS denies all incoming calls.
system-view [Sysname] l2tp-group 2 [Sysname-l2tp2] allow l2tp virtual-template 1 remote aaa # Specify L2TP group 1 as the default L2TP group, accept the L2TP tunneling request initiated by any peer, and create a VA interface based on virtual template 1. system-view [Sysname] l2tp-group 1 [Sysname-l2tp1] allow l2tp virtual-template 1 Related commands l2tp-group display l2tp session Use display l2tp session to display information about L2TP sessions.
Related commands display l2tp tunnel display l2tp tunnel Use display l2tp tunnel to display information about L2TP tunnels. Syntax display l2tp tunnel [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide.
Syntax display ppp access-control interface interface-type interface-number [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters interface interface-type interface-number: Specifies an interface by its type and number. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide.
Field Description User Name PPP username. In-bound Policy ACL that filters PPP user data packets. From xx to xx Time range during which the firewall takes effect. x packets, x bytes, x% permitted Indicates the packets permitted by ACL rules: the number of packets and bytes, and the percentage of the permitted to the total. x packets, x bytes, x% denied Indicates the packets denied by ACL rules: the number of packets and bytes, and the percentage of the denied to the total.
Related commands allow l2tp l2tp enable Use l2tp enable to enable the L2TP function. Use undo l2tp enable to disable the L2TP function. Syntax l2tp enable undo l2tp enable Default The L2TP function is disabled. Views System view Default command level 2: System level Usage guidelines L2TP must be enabled for relevant L2TP configurations to take effect. Examples # Enable the L2TP function.
Examples # Trigger the LAC to establish an L2TP tunnel. system-view [Sysname] interface virtual-template 1 [Sysname-Virtual-Template1] l2tp-auto-client enable l2tp-group Use l2tp-group to create an L2TP group and enter its view. Use undo l2tp-group to remove an L2TP group. Syntax l2tp-group group-number undo l2tp-group group-number Default No L2TP group exists. Views System view Default command level 2: System level Parameters group-number: Number of an L2TP group, in the range of 1 to 1000.
Default The L2TP multi-instance function is disabled. Views System view Default command level 2: System level Usage guidelines This command is available for only LNSs. Examples # Enable the L2TP multi-instance function for the LNS. system-view [Sysname] l2tpmoreexam enable Related commands l2tp enable mandatory-chap Use mandatory-chap to force the LNS to perform a CHAP authentication of the user. Use undo mandatory-chap to disable CHAP authentication on the LNS.
Related commands mandatory-lcp mandatory-lcp Use mandatory-lcp to force an LNS to perform LCP negotiation with users. Use undo mandatory-lcp to disable the LCP negotiation. Syntax mandatory-lcp undo mandatory-lcp Default An LNS does not perform LCP negotiation with users. Views L2TP group view Default command level 2: System level Usage guidelines When you start a PPP session, a client of NAS-initialized VPN will first negotiate with the NAS for LCP parameters.
Views VT interface view Default command level 2: System level Examples # Configure the client to accept LNS-initiated IMSI negotiation requests. system-view [Sysname] interface virtual-template 1 [Sysname-Virtual-Template1] ppp lcp imsi accept ppp lcp imsi request Use ppp lcp imsi request to configure the LNS to initiate an IMSI negotiation request. Use undo ppp lcp imsi request to restore the default.
Default command level 2: System level Parameters string imsi-info: Configures IMSI information for the client, a case-sensitive string of 1 to 31 characters. Examples # Configure IMSI information as imsi1 for the client. system-view [Sysname] interface virtual-template 1 [Sysname-Virtual-Template1]ppp lcp imsi string imsi1 ppp lcp sn accept Use ppp lcp sn accept to configure the client to accept LNS-initiated serial number (SN) negotiation requests.
Views VT interface view Default command level 2: System level Examples # Configure the LNS to initiate an SN negotiation request. system-view [Sysname] interface virtual-template 1 [Sysname-Virtual-Template1] ppp lcp sn request ppp lcp sn string Use ppp lcp sn string to configure SN information for the client. Use undo ppp lcp sn string to remove SN information from the client. Syntax ppp lcp sn string sn-info undo ppp lcp sn string Default SN information is automatically obtained.
Default No delimiter is configured. Views VT interface view Default command level 2: System level Parameters splitchart: Specifies a delimiter for the username received from the client during negotiation. The delimiter is one character in length and can be a letter, number, or sign such as percent sign (%), pound sign (#), or at sign (@). For example, if you set splitchart to @, the received username imsiinfo@sninfo@username is split to imsiinfo, sninfo, and username.
system-view [Sysname] interface virtual-template 1 [Sysname-Virtual-Template1] ppp user attach-format imsi-sn split # ppp user replace Use ppp user replace to replace the username with IMSI or SN information during negotiation. Use undo ppp user replace imsi to remove the replacement. Syntax ppp user replace { imsi | sn } undo ppp user replace imsi Default The username is used for authentication.
When the VT interface operates as the access interface of an LNS, you might need to configure the EAD to provide per-user packet filtering policies. L2TP-based EAD can transparently transmit IMC packets, which contain the EAD server information such as the IP address, to iNode devices. Examples # Enable L2TP-based EAD on VT 10.
Specify the exact mode for fragments filtering on the interface. • Your configuration takes effect only on the VA interfaces created after the configuration is performed. Examples # Specify the exact fragment match mode for all firewalls on the VA interfaces created based on VT 10.
start l2tp Use start l2tp to enable the device (as an LAC) to initiate tunneling requests to the specified IP addresses for the specified VPN users. Use undo start to remove the configuration. Syntax start l2tp { ip ip-address }&<1-5> { domain domain-name | fullusername user-name } undo start Views L2TP group view Default command level 2: System level Parameters { ip ip-address }&<1-5>: Specifies the IP addresses of the tunnel peers (LNSs). &<1-5> means that you can specify up to five IP addresses.
undo tunnel authentication Default L2TP tunnel authentication is enabled. Views L2TP group view Default command level 2: System level Usage guidelines Generally, authentication is required at both ends of a tunnel for the sake of security. However, you can disable the authentication when you check network connectivity or you have to receive tunneling requests from unknown tunnel peers. Examples # Disable L2TP tunnel authentication.
Use undo tunnel flow-control to disable the L2TP tunnel flow control function. Syntax tunnel flow-control undo tunnel flow-control Default The L2TP tunnel flow control function is disabled. Views L2TP group view Default command level 2: System level Examples # Enable the L2TP tunnel flow control function. system-view [Sysname] l2tp-group 1 [Sysname-l2tp1] tunnel flow-control tunnel name Use tunnel name to specify the name of a tunnel at the local end.
tunnel password Use tunnel password to specify the key for tunnel authentication. Use undo tunnel password to remove the configuration. Syntax tunnel password { cipher | simple } password undo tunnel password Default The key for tunnel authentication is null. Views L2TP group view Default command level 2: System level Parameters cipher: Sets a ciphertext key. simple: Sets a plaintext key. password: Specifies the key for tunnel authentication. This argument is a case sensitive.
Default command level 2: System level Parameters hello-interval: Specifies the interval at which the LAC or the LNS sends Hello packets when receiving no packets, in the range of 60 to 1000 seconds. Usage guidelines You can set different hello intervals for the LNS and LAC. Examples # Set the hello interval to 99 seconds.
Bridging configuration commands If no Ethernet interfaces are assigned to the bridge set corresponding to the bridge-template interface, a bridge-template interface uses its default MAC address: 000f-e207-f301 for bridge-template 1; 000f-e207-f302 for bridge-template 2; …; 000f-e207-f3ff for bridge-template 255. bandwidth Use bandwidth to set the intended bandwidth for a bridge-template interface. Use undo bandwidth to restore the default.
Views System view Default command level 2: System level Parameters seconds: Specifies the aging time of dynamic bridge table entries, in seconds, with an effective range of 10 to 1000000. Examples # Set the aging time of dynamic bridge table entries to 500 seconds. system-view [Sysname] bridge aging-time 500 bridge bridge-set enable Use bridge bridge-set enable to enable a bridge set. Use undo bridge bridge-set enable to remove a bridge set.
Syntax bridge bridge-set bridging { ip | ipx | others } undo bridge bridge-set bridging { ip | ipx | others } Default Bridging of all network layer protocols is enabled. Views System view Default command level 2: System level Parameters bridge-set: Specifies the bridge set number, an integer in the range of 1 to 255. ip: Specifies the IP protocol. ipx: Specifies the IPX protocol. others: Specifies other protocols than IP and IPX.
Examples # Enable bridging. system-view [Sysname] bridge enable bridge learning Use bridge learning to enable dynamic address learning to allow the specified bridge set to add dynamic address entries into the bridge table. Use undo bridge learning to disable dynamic address learning. Syntax bridge bridge-set learning undo bridge bridge-set learning Default Dynamic address learning is enabled, and all bridge sets are allowed to add dynamic address entries into the bridge table.
Parameters bridge-set: Specifies the bridge set number, an integer in the range of 1 to 255. mac-address: Specifies the MAC address in the format of H-H-H. deny: Discards frames whose source address or destination address is the specified address on all interfaces or the specified interface. permit: Forwards frames whose source address or destination address is the specified address on all interfaces or the specified interface. interface: Specifies an outbound interface.
[Sysname] bridge 1 routing ip bridge routing-enable Use bridge routing-enable to enable bridge routing. Use undo bridge routing-enable to disable bridge routing. Syntax bridge routing-enable undo bridge routing-enable Default Bridge routing is disabled. Views System view Default command level 2: System level Usage guidelines Routing of a specified protocol can be implemented only if bridge routing is enabled. Examples # Enable bridge routing.
Before enabling VLAN transparency on an interface, you must add the interface to a bridge-set. Examples # Enable VLAN transparency on interface ATM 5/0. system-view [Sysname] interface atm5/0 [Sysname-Atm5/0] bridge-set 2 [Sysname-Atm5/0] bridge vlanid-transparent-transmit enable bridge-set Use bridge-set to add an interface to a bridge set. Use undo bridge-set to remove an interface from a bridge set.
Default command level 2: System level Usage guidelines CAUTION: The default command might interrupt ongoing network services. Make sure you are fully aware of the impacts of this command when you execute it on a live network. This command might fail to restore the default settings for some commands for reasons such as command dependencies and system restrictions.
display bridge address-table Use display bridge address-table to view the bridge table information. Syntax display bridge address-table [ bridge-set bridge-set | dlsw | interface interface-type interface-number | mac mac-address] [ dynamic | static ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 2: System level Parameters bridge-set bridge-set: Specifies the bridge set number, an integer in the range of 1 to 255.
Field Description Flag can be any of the four values: • • • • Flag P—The permit rule is used for MAC address filtering. N—The deny rule is used for MAC address filtering. D—This entry is a dynamic entry. S—This entry is a static entry. Aging-time Aging time of bridge table entries. Receive Number of received frames destined for this MAC address. Send Number of forwarded frames destined for this MAC address. Interface-name Outbound interface name.
Ethernet1/2 : up Bridge set 2 : configure :bridge 2 enable; bridging ip, undo bridging ipx; bridging others; undo routing ip, undo routing ipx; bridge 2 learning interface :total 2 interface(s) in the set Ethernet1/1.1 :up Ethernet1/1.2 :up Table 62 Command output Field Description configure Configuration properties of this bridge set. For example, the configuration part of bridge set 1 indicates that bridge set 1 can bridge IP packets, not IPX packets, and it can dynamically learn MAC addresses.
Usage guidelines If no parameter is provided, this command displays the bridged traffic statistics on the device. Examples # Display the statistics of bridged traffic that has passed Ethernet 1/1.
Field Description 0 by outport filter Number of frames discarded due to the filtering rules configured on the outbound interfaces. 0 by ip filter Number of frames discarded due to the filtering rules configured at the IP layer. 0 other Number of frames discarded due to other reasons. display interface bridge-template Use display interface bridge-template to display information about bridge-template interfaces.
Description: Bridge-template1 Interface The Maximum Transmit Unit is 1500 Internet Address is 2.0.0.1/30 Primary Internet Address is 2.0.0.
Field Description Last 300 seconds output rate Average rate at which packets are output through the current interface in the last 300 seconds (in bytes per second, bits per second, and packets per second). 0 packets input, 0 bytes, 0 drops Total number and total size in bytes of input packets and the number of dropped packets on the interface. 0 packets output, 0 bytes, 0 drops Total number and size in bytes of output packets and the number of dropped packets on the interface.
Default command level 2: System level Parameters dlci: Specifies the local virtual circuit number in the range of 16 to 1007. broadcast: Specifies to allow bridging of broadcasts over this FR-to-bridging mapping. Examples # Create an FR-to-bridging mapping on the virtual circuit by the DLCI of 50 on Serial 2/0.
mac-address (bridge-template interface view) Use mac-address to manually configure a MAC address for the current bridge-template interface. Use undo mac-address to remove the configured MAC address of the current bridge-template interface. Syntax mac-address mac-address undo mac-address Default If a bridge set contains Ethernet interfaces, its bridge-template interface will use the MAC address of a random Ethernet interface.
Views PVC view Default command level 2: System level Examples # Enable bridging over PVC 32/102. system-view [Sysname] interface atm 1/0 [Sysname-Atm1/0] pvc 32/102 [Sysname-atm-pvc-Atm1/0-32/102] map bridge-group broadcast reset bridge address-table Use reset bridge address-table to remove one or more dynamic bridge table entries.
Parameters bridge-set bridge-set: Clears bridged traffic statistics in the specified bridge set. The bridge-set argument must be an integer in the range of 1 to 255. dlsw: Clears the bridged traffic statistics of the DLSw module. interface interface-type interface-number: Clears the bridged traffic statistics of the specified interface. Examples # Clear the bridged traffic statistics of bridge set 1.
Default An interface is up by default. Views Bridge-template interface view Default command level 2: System level Examples # Shut down bridge-template 1. system-view [Sysname] interface bridge-template 1 [Sysname-Bridge-template1] shutdown x25 map bridge Use x25 map bridge to create an X.121-to-bridging mapping. Use undo x25 map bridge to remove an X25-to-bridging mapping. Syntax x25 map bridge x121-address x.121-address broadcast undo x25 map bridge x121-address x.121-address Default No X.
EtoPPP and EtoFR configuration commands EtoPPP configuration commands display etoppp translate Use display etoppp translate to display EtoPPP translation entries and translation statistics. Syntax display etoppp translate [ interface interface-type interface-number ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 1: Monitor level Parameters interface-type interface-number: Specifies an interface by its type and number.
Serial 2/0 to Ethernet 1/1 translate statistics: Translate IP packets: 200 Drop Drop IP packets: 0 Non-IP packets: 0 Table 65 Command output Field Description Etoppp translate entry Information about an EtoPPP translation entry. Ethernet 1/1 Ethernet interface in the EtoPPP entry. Status Link state of the Ethernet interface. (CE) IP Address Remote IP address of the Ethernet interface. MAC Address Remote MAC address of the Ethernet interface. Serial 2/0 The PPP interface in the EtoPPP entry.
interface-type2 interface-number2: Specifies an interface by its type and number. It can only be a synchronous serial interface, MP group interface, POS interface, or POS subinterface. ip-address ip-address1: Specifies a remote IP address of the interface specified by interface-type1 interface-number1. ip-address2: Specifies a remote IP address of the PPP interface specified by interface-type2 interface-number2. It must be located on the same network segment as ip-address1.
Views Any view Default command level 1: Monitor level Parameters interface-type interface-number: Specifies an interface by its type and number. The interface can only be a Layer 3 Ethernet interface, Ethernet subinterface, or VLAN interface. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow.
Field Description Serial 2/0 The FR interface in the EtoFR entry. DLCI The DLCI of the used virtual circuit on the FR interface. Status Link state of the FR interface. (PE) IP Address Remote IP address of the FR interface. Ethernet 1/1.1 to Serial 2/0 translate statistics Statistics about Ethernet to FR translation for the EtoFR translation entry. Translate IP packets Number of IP packets successfully translated. Drop Number of IP packets dropped due to translation failure.
Examples # Create an EtoFR translation mapping to map Ethernet 1/1 to Serial 2/0. system-view [Sysname] etofr translate interface ethernet 1/1 serial 2/0 dlci 30 ip-address 10.1.1.1 10.1.1.10 Related commands display etofr translate reset etofr translate Use reset etofr translate to clear the translation statistics for the EtoFR translation entry for the specified interface or all EtoFR translation entries if no interface is specified.
LAPB and X.25 configuration commands The MSR900 and MSR93X routers do not support LAPB or X.25. LAPB configuration commands lapb max-frame Use lapb max-frame to configure the LAPB N1 parameter. Use undo lapb max-frame to restore the default. Syntax lapb max-frame n1-value undo lapb max-frame Default The value of N1 is calculated according to the MTU, upper layer protocol, and modulo.
(1500+5)*8 = 12040. You can use the undo lapb max-frame command to restore the new default. For the same reason, N1 changes with the change of MTU. Examples # Set the LAPB N1 parameter to 1160 on Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] lapb max-frame 1160 lapb modulo Use lapb modulo to specify the LAPB modulo. Use undo lapb modulo to restore the default. Syntax lapb modulo { 8 | 128 } undo lapb modulo Default The LAPB modulo is modulo 8.
Use undo lapb pollremote to restore the default. Syntax lapb pollremote undo lapb pollremote Default LAPB does not initiate link re-negotiation when receiving unsolicited response frames with the Final bit set to 1.
[Sysname] interface serial 2/0 [Sysname-Serial2/0] lapb retry 20 lapb timer Use lapb timer to configure the LAPB timers T1, T2, T3, and T4. Use undo lapb timer to restore their default values. Syntax lapb timer { t1 t1-value | t2 t1-value | t3 t3-value | t4 t4-value } undo lapb timer { t1 | t2 | t3 | t4 } Default The T4 timer is 0 seconds, and the T4 timer is disabled. Views Interface view Default command level 2: System level Parameters t1 t1-value: Sets the T1 timer in milliseconds.
Examples # Set the LAPB timer T1 on Serial 2/0 to 2000 milliseconds. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] lapb timer t1 2000 lapb window-size Use lapb window-size to configure the LAPB window parameter K. Use undo lapb window-size to restore the default. Syntax lapb window-size k-value undo lapb window-size Default The LAPB window parameter K is 7.
Default command level 2: System level Parameters dce: Specifies DCE mode of LAPB. dte: Specifies DTE mode of LAPB. ip: Specifies the upper layer protocol as IP. multi-protocol: Specifies the upper layer protocol as multi-protocol. Usage guidelines When the link layer protocol is LAPB, the default operating mode is DTE, and the upper layer protocol is IP. Though LAPB is a layer-2 protocol of X.25, it can act as an independent link-layer protocol for simple data transmission.
Syntax channel { interface interface-type interface-number [ dlci dlci-number ] | xot ip-address } undo channel { interface interface-type interface-number | xot ip-address } Views X.25 hunt group view Default command level 2: System level Parameters interface interface-type interface-number: Specifies an interface by its type and number. dlci dlci-number: Specifies an FR DLCI number, in the range 16 to 1007. xot ip-address: Specifies the IP address of the peer XOT host.
Syntax display x25 alias-policy [ interface interface-type interface-number ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 2: System level Parameters interface interface-type interface-number: Specifies an interface by its type and number. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide.
|: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression. regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters.
Usage guidelines You can use this command to learn the hunt group of the router and the information about the interfaces and XOT channel inside the hunt group. Examples # Display the status information of the X.25 hunt group named hg1. display x25 hunt-group-info hg1 HG_ID : hg1 HG_Type: round-robin member state vc-used in-pkts out-pkts Serial2/1 Last used 2 51 20 Serial2/0 Next 1 21 15 1.1.1.
Parameters |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression.
|: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression. regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters.
display x25 switch-table pvc Use display x25 switch-table pvc to display X.25 PVC switching table. Syntax display x25 switch-table pvc [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 2: System level Parameters |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow.
|: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow. exclude: Displays all lines that do not match the specified regular expression. include: Displays all lines that match the specified regular expression. regular-expression: Specifies a regular expression, a case-sensitive string of 1 to 256 characters.
Syntax display x25 vc [ lci ] [ | { begin | exclude | include } regular-expression ] Views Any view Default command level 2: System level Parameters lci: Logical channel identifier in the range 1 to 4095. If not specified, all VCs will be displayed. |: Filters command output by specifying a regular expression. For more information about regular expressions, see Fundamentals Configuration Guide. begin: Displays the first line that matches the specified regular expression and all lines that follow.
State: P4(transmit) SVC <--> Serial2/0 SVC 60 Window size: input 2 output 2 Packet Size: input 128 Local PS: 0 output 128 Local PR: 0 Local Busy: FALSE Remote PS: 0 Remote PR: 0 Reset times: 0 Input/Output: DATA 5/5 RR 0/0 INTERRUPT 0/0 RNR 0/0 REJ 0/0 Bytes 420/420 Send Queue(Current/Max): 0/200 Interface: Serial2/0-1.1.1.
Bytes 53/363 Send Queue(Current/Max): 0/200 Table 74 Command output Field Description Interface: Serial2/0 Interface name. SVC 1 SVC number. State: P4(transmit) SVC state: P4 (transmission state). Map: ip 10.1.1.2 to 130 Address mapping. XOT PVC <--> Serial2/0 PVC 1 connected PVC from XOT to Serial 2/0 already established. PVC <--> XOT Serial2/0-1.1.1.1 PVC 1 connected PVC from Serial 2/0 to XOT already established.
Usage guidelines The entry exists when the router sets up an X2T connection, and is deleted after the X2T connection is closed. Examples # Display the X2T switching table on the router. display x25 x2t switch-table X.121 Interface [LCD ] <--> Ip Address port SocketId ======================================================================= 222 Serial2/0 [SVC:1024 ] <--> 20.1.1.1 102 2 NULL Serial2/0 [PVC:1 ] <--> 20.1.1.1 104 2 Table 75 Command output Field Description X.121 X.
SVC 1024: ( ESTAB ) tcp peer ip: 10.1.1.1, peer port: 1998 tcp local ip: 10.1.1.2, local port: 1024 socket keepalive period: 5, keepalive tries: 3 come interface name: Serial2/0-10.1.1.1-1024 go interface name: Serial2/0 Related commands • x25 switch svc xot • x25 xot pvc link-protocol x25 Use link-protocol x25 to enable X.25 encapsulation on the specified interface. Syntax link-protocol x25 [ dce |dte ] [ ietf | nonstandard ] Default The link-layer protocol for the interface is PPP.
pad Use pad to establish a X.25 PAD connection and logon to the remote site. Syntax pad x121-address Views User view Default command level 2: System level Parameters x121-address: Destination X.121 address, a string of 1 to 15 numerical characters. Usage guidelines PAD is similar to Telnet. It can establish the connection from the local to the remote through the remote X121 address to carry out configuration operations. Examples # Establish a PAD connection to the destination X.121 address 2.
Default command level 2: System level Parameters interface interface-type interface-number: Specifies an interface by its type and number. vc-number: Virtual circuit number of a PVC or SVC, in the range 1 to 4095. Usage guidelines If a PVC is specified, this command resets the PVC. If an SVC is specified, this command deletes the SVC. Examples # Clear the X.25 virtual circuits on interface Serial 2/0. reset x25 vc interface serial 2/0 reset xot Use reset xot to clear an XOT connection for SVC.
Syntax translate ip ip-address port port-number { pvc interface-type interface-number pvc-number | x25 x.121-address } undo translate ip ip-address port port-number Views System view Default command level 2: System level Parameters ip-address: Local IP address. port port-number: Specifies the TCP port number on which the local router listen messages, in the range 1 to 65535. interface-type interface-number: Type and number of an interface. pvc-number: PVC number, in the range 1 to 4095. x25 x.
Views System view Default command level 2: System level Parameters x.121-address: X.121 address. ip ip-address: Specifies the IP address of the remote host. port port-number: Specifies the port number of the remote host. Usage guidelines You can implement the packet forwarding from an X.25 network to an IP network using this command. The device compares the destination address in the X.25 call request packet to the x.
Examples # Enable the user facility adding function. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] link-protocol x25 dce ietf [Sysname-Serial2/0] x25 add-facility x25 alias-policy Use x25 alias-policy to configure the alias of an X.121 address. Use undo x25 alias-policy to delete the alias of an X.121 address. Syntax x25 alias-policy match-type alias-string undo x25 alias-policy match-type alias-string Default No x.25 alias is configured.
system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] link-protocol x25 [Sysname-Serial2/0] x25 x121-address 20112451 [Sysname-Serial2/0] x25 alias-policy right 20112451$ [Sysname-Serial2/0] x25 alias-policy left $20112451 With the configurations, a call whose destination address is 20112451 can be accepted as long as it can reach the local X.25 interface Serial2/0, no matter whether the network is performing the prefix adding operation or suffix adding operation.
Option Description send-delay delay-time Carries out the maximum network send delay negotiation when initiating calls from the X.25 interface. The delay time is in the range 0 to 65534 ms. threshold input-value output-value Specifies throughput negotiation values for initiating calls from the X.25 interface. The values of input/output can only be 75, 150, 300, 600, 1200, 2400, 4800, 9600, 19200, and 48000.
Parameters incoming-access: Incoming access policy. outgoing-access: Outgoing access policy. suppress all: Suppresses all. If the incoming packet contains CUG facility, delete the CUG facility and process the call. It does not apply to outgoing call. suppress preferential: Processes only the calls configured with preference rule. Usage guidelines The command is used at DCE end. You can use the link-protocol x25 dce command to set the interface to operate in DCE mode.
Views Interface view Default command level 2: System level Parameters protocol-type: Protocol type. IP is available. Usage guidelines During X.25 SVC setup, the called device will check the call user data field of X.25 call request packet. If it is an unidentifiable one, the called device will deny the setup of the call connection. However, a user can specify a default upper-layer protocol carried over X.25. When X.
Syntax x25 hunt-group hunt-group-name { round-robin | vc-number } undo x25 hunt-group hunt-group-name Views System view Default command level 2: System level Parameters hunt-group-name: Name of a hunt group, a string of 1 to 30 characters. round-robin: Selects call channel using cyclic selection policy. vc-number: Selects call channel using the policy of computing available logical channel. Usage guidelines X.
Usage guidelines According to X.25, the calling request packet must carry the address. However, on some occasions, the X.25 calling request does not have to carry the called/calling DTE address in a specific network environment or as is required by the application. This command enables users to specify whether the call request packet sent by X.25 in the device carries the called DTE address. Examples # Specify the call request packet from the X.25 interface Serial 2/0 not to carry the called DTE address.
• x25 response calling-address • x25 ignore called-address x25 local-cug Use x25 local-cug to configure mapping from local CUG to network CUG and define its suppression rule. Use undo x25 local-cug to remove the mapping from local CUG to network CUG. Syntax x25 local-cug local-cug-number network-cug network-cug-number [ no-incoming | no-outgoing | preferential ]* undo x25 local-cug local-cug-number Default No CUG mapping is defined by default.
Examples # Define the rule on the serial interface Serial 2/0: the incoming calls with 100 local CUGs or 200 network CUGs are denied. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] x25 cug-service [Sysname-Serial2/0] x25 local-cug 100 network-cug 200 no-incoming Related commands • x25 call-facility • x25 cug-service x25 map Use x25 map to set the address mapping between IP address and X.121 address. Use undo x25 map to delete a mapping.
Option Description encapsulation-type Encapsulation type, with nonstandard, ietf, multi-protocol and snap available. idle-timer minutes Maximum idle time for the virtual circuit associated with the address mapping. 0 means that the idle time is infinite. no-callin Disables accepting calls to the address mapping. no-callout Disables calls originating from the address mapping. packet-size input-size output-size Carries out maximum packet size negotiation when initiating calls from the mapping.
[Sysname-Serial2/1] x25 map ip 202.38.160.138 x121-address 20112450 packet-size 512 512 idle-timer 10 [Sysname-Serial1/0] quit [Sysname] interface serial2/0 [Sysname-Serial2/0] x25 map ip 20.30.4.1 x121-address 25112451 window-size 4 4 broadcast [Sysname-Serial2/0] x25 map ip 20.30.4.8 x121-address 25112450 no-callin Related commands • display x25 map • x25 reverse-charge-accept • x25 call-facility • x25 timer idle • x25 vc-per-map x25 modulo Use x25 modulo to set the modulo mode of the X.
the efficiency of local DTE/DCE interface (point-to-point efficiency) for LAPB. For Layer 3 in X.25, it improves the efficiency of the two communicating DTE peers (or peer-to-peer efficiency). Examples # Set the modulo on the X.25 interface Serial 2/0 to 128. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] x25 modulo 128 x25 packet-size Use x25 packet-size to set the maximum input and output packet lengths of X.25 interface.
[Sysname-Serial2/0] x25 packet-size 256 256 x25 pvc Use x25 pvc to configure a PVC route. Use undo x25 pvc to delete a PVC route. Syntax x25 pvc pvc-number protocol-type protocol-address x121-address x.121-address [ option ] undo x25 pvc pvc-number Default No PVC is created. When creating such a PVC, if you do not set the relevant attributes for the PVC, its flow control parameters will be the same as that of the X.25 interface (the flow control parameters on an X.
Before creating PVCs, you should first enable the PVC channel range. The range is between 1 and the closest assignable channel PVC number minus 1 (including 1 and the lowest PVC number minus 1). Naturally, if the lowest PVC number is 1, the PVC section will be disabled.
Usage guidelines When the data traffic is too heavy, you can use this command to extend the receiving queue and sending queue of X.25 virtual circuits to avoid data loss that affects transmission performance. Modifying this parameter would not affect the existing data queue of virtual circuits. After changing the parameter, you must restart the port with the shutdown command and then the undo shutdown command and this will clear the current SVCs and reset the PVCs, and change the data queue of all the VCs.
Related commands x25 window-size x25 remove-facility Use x25 remove-facility to enable the user facility removing function. Use undo x25 remove-facility to disable the user facility removing function. Syntax x25 remove-facility undo x25 remove-facility Default The user facility removing function is disabled. Views Interface view Default command level 2: System level Usage guidelines This command is applicable to only the outgoing packets on main interfaces.
Default command level 2: System level Usage guidelines According to X.25, the call reception packet can optionally carry an address code group, depending on the specific network requirements. This command enables users to easily specify whether the packet carries the called DTE address. Examples # Specify that the call receiving packet of a call sent from the X.25 interface Serial 2/0 carries the called DTE address.
Related commands • x25 response called-address • x25 ignore called-address • x25 ignore calling-address x25 reverse-charge-accept Use x25 reverse-charge-accept to enable this interface to accept the call with the reverse charging request user facility. Use undo x25 reverse-charge-accept to disable this function. Syntax x25 reverse-charge-accept undo x25 reverse-charge-accept Default This function is disabled.
Default No ROA list is defined. Views System view Default command level 2: System level Parameters roa-name: Name of ROA, a string of 1 to 19 characters. roa-id&<1-10>: ROA ID in the range of 0 to 9999. You can specify 10 IDs for the ROA. Usage guidelines You can configure multiple (0 to 20. The maximum number of ROA lists supported by the system is 1,000) ROAs. After configuring ROA, you can reference it by its name in the commands x25 call-facility or x25 map.
Default command level 2: System level Parameters pvc-number1: PVC number on the input interface, in the range of 1 to 4095. interface interface-type interface-number: Specifies an interface by its type and number. dlci dlci-number: Specifies an FR DLCI number in the range of 16 to 1007. pvc pvc-number2: Specifies a PVC number on the output interface, in the range of 1 to 4095. option: Attribute option of PVC.
[Sysname-Serial2/1] link-protocol fr [Sysname-Serial2/1] fr interface-type dce [Sysname-Serial2/1] fr dlci 100 [Sysname-fr-dlci-Serial2/1-100] annexg dce [Sysname-fr-dlci-Serial2/1-100] x25-template switch [Sysname-fr-dlci-Serial2/1-100] quit [Sysname-Serial2/1] quit [Sysname] interface serial 2/0 [Sysname-Serial2/0] link-protocol x25 dce [Sysname-Serial2/0] x25 switch pvc 1 interface Serial2/1 dlci 100 pvc 1 x25 switch svc Use x25 switch svc to configure a SVC, specifying the packet to be forwarded to the
Wildcard characters Matching rules Example Matchable character string .* Matching arbitrary zero or more characters fo.* fo, foo, fot .+ Matching arbitrary one or more characters fo.+ foo, fot, foot Table 81 Input rules of X.121 address mode matching string Characters Input rules Cannot be placed at the beginning of character string. Cannot be placed after the symbol ^. * Cannot be placed before and after the symbols + and *. Cannot be placed at the beginning of character string.
The output interface of the SVC switching can be an X.25 interface, or FR interface Annex G DLCI. The link layer of the output interface must be X.25, or FR with the Annex G DLCI configured for output. Before using this command, you should use the x25 switching command to enable X.25 switching. Examples # Configure an SVC to forward the packet to the X.121 address 20112451 through interface Serial 2/0.
sub-dest destination-address: X.121 address, an alphanumeric string of 1 to 15 characters. The system replaces the destination DTE address in the call request packet with the destination-address. sub-source source-address: X.121 address, an alphanumeric string of 1 to 15 characters. The system replaces the source DTE address in the call request packet with the source-address. hunt-group hunt-group-name: Specifies the name of a hunt group.
Default command level 2: System level Parameters x.121-address: Destination address of X.121, a mode matching string with a 1 to 15 characters. For the specific description of mode matching, see Table 80 and Table 81. If no wildcard is used, the X.121 address must exactly match. sub-dest destination-address: X.121 address, a string of 1 to 15 characters. The system replaces the destination DTE address in the call request packet with the destination-address. sub-source source-address: X.
Default X.25 packet switching function is disabled. Views System view Default command level 2: System level Usage guidelines X.25 packet switching accepts packets from an X.25 interface and sends them to a certain interface based on the destination information contained in the packets. The device with this function can be used as a small-sized packet switch. Examples # Enable X.25 switching function.
Examples # Set the delay to 5 minutes on X.25 interface Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] x25 timer hold 5 x25 timer idle Use x25 timer idle to set the maximum idle time of the SVC on the interface. Use undo x25 timer idle to restore the default. Syntax x25 timer idle minutes undo x25 timer idle Default This value is 0.
Syntax x25 timer tx0 seconds undo x25 timer tx0 Default The restart timer on the X.25 DTE is 180 seconds and that on the DCE is 60 seconds. Views Interface view Default command level 2: System level Parameters seconds: X.25 restart timer in seconds. It ranges 1 to 1000. Usage guidelines According to X.25, a timer should be started when the DTE sends a restart request (or a DCE sends a restart indication).
Parameters seconds: Time of calling request (indication) sending timer, in the range of 1 to 1000 seconds. Usage guidelines According to X.25, a timer should be started when the DTE sends a call request (or the DCE sends a call indication). If no peer acknowledgement is received after the timer timeout, the sending end will take some measures to guarantee the normal proceeding of the local procedure. This parameter specifies the time of this timer.
Related commands • x25 timer tx0 • x25 timer tx1 • x25 timer tx3 x25 timer tx3 Use x25 timer tx3 to set the clear request (indication) sending timer for DTE (or DCE). Use undo x25 timer tx3 to restore the default. Syntax x25 timer tx3 seconds undo x25 timer tx3 Default The clear timer on a DTE is 180 seconds, and that on a DCE is 60 seconds.
undo x25 vc-per-map Default The maximum number of VCs for connections with the same destination device is 1. Views Interface view Default command level 2: System level Parameters count: Maximum number of VCs, in the range of 1 to 8. Usage guidelines If the parameter is greater than 1, and the sending window and the sending queue of virtual circuit are filled full, the system will create a new virtual circuit to the same destination.
(lowest incoming-only channel) must also be set to 0, which indicates that the incoming-only channel section is disabled. in-channel loc hoc: Specifies the lowest and highest outgoing-only channels of X.25 virtual circuit. The value ranges for loc and hoc are both 0 to 4095. If hoc (highest outgoing-only channel) is set to 0, loc (lowest outgoing-only channel) must also be set to 0, which indicates that the outgoing-only channel section is disabled. Usage guidelines X.
Consult your ISP about the input and output window sizes. Unless supported by the network, do not set these two parameters to different values. Examples # Set the input and output window sizes to 5 on the X.25 interface Serial 2/0. system-view [Sysname] interface serial 2/0 [Sysname-Serial2/0] x25 window-size 5 5 x25 x121-address Use x25 x121-address to set the X.121 address of an X.25 interface. Use undo x25 x121-address to delete the address. Syntax x25 x121-address x.
Syntax x25 xot pvc pvc-number1 ip-address interface interface-type interface-number pvc pvc-number2 [ xot-option | packet-size input-packet output-packet | window-size input-window-size output-window-size ]* undo x25 xot pvc pvc-number1 Default No PVC route of XOT is configured. Views Interface view Default command level 2: System level Parameters pvc-number1: Number of PVC on the local interface, in the range 1 to 4095. ip-address: IP address of the peer on the XOT connection.
[Sysname] x25 switching [Sysname] interface ethernet 1/1 [Sysname-Ethernet1/1] ip address 10.1.1.1 255.255.255.0 [Sysname-Ethernet1/1] quit [Sysname] interface serial 2/0 [Sysname-Serial2/0] link-protocol x25 dce ietf [Sysname-Serial2/0] x25 xot pvc 1 10.1.1.2 interface serial 2/0 pvc 2 Related commands • display x25 vc • x25 switching x29 timer inviteclear-time Use x29 timer inviteclear-time to set the delay waiting for response after the PAD clear procedure is initiated.
Support and other resources Contacting HP For worldwide technical support information, see the HP support website: http://www.hp.
Conventions This section describes the conventions used in this documentation set. Command conventions Convention Description Boldface Bold text represents commands and keywords that you enter literally as shown. Italic Italic text represents arguments that you replace with actual values. [] Square brackets enclose syntax choices (keywords or arguments) that are optional. { x | y | ... } Braces enclose a set of required syntax choices separated by vertical bars, from which you select one.
Network topology icons Represents a generic network device, such as a router, switch, or firewall. Represents a routing-capable device, such as a router or Layer 3 switch. Represents a generic switch, such as a Layer 2 or Layer 3 switch, or a router that supports Layer 2 forwarding and other Layer 2 features. Represents an access controller, a unified wired-WLAN module, or the switching engine on a unified wired-WLAN switch. Represents an access point.
Index ABCDEFHILMOPRSTWX dialer bundle,159 A dialer bundle-member,160 allow l2tp,280 dialer callback-center,161 annexg,105 dialer call-in,162 atm class,194 dialer circular-group,163 atm-class,194 dialer disconnect,164 atm-link check,195 dialer enable-circular,164 B dialer flow-interval,165 bandwidth,18 dialer isdn-leased (isdn bri interface view),64 bandwidth,195 dialer isdn-leased (physical interface view),165 bandwidth,159 dialer number,166 bandwidth,138 dialer overlap-receiving,167
display x25 switch-table pvc,339 display dlsw information,240 display dlsw reachable-cache,243 display x25 switch-table svc,339 display dlsw remote,241 display x25 template,113 display etofr translate,323 display x25 vc,340 display etoppp translate,321 display x25 x2t switch-table,343 display fr compress,132 display x25 xot,344 display fr dlci-switch,105 dlsw bridge-set,245 display fr inarp-info,106 dlsw enable,246 display fr interface,107 dlsw ethernet-backup enable,246 display fr iphc,133
fr map bridge,315 isdn number-property,84 fr map ip,125 isdn overlap-sending,89 fr map ipv6,155 isdn pri-slipwnd-size,90 fr map ppp,153 isdn progress-indicator,90 fr switch,126 isdn protocol-mode,91 fr switching,127 isdn protocol-type,92 H isdn q921-permanent,93 isdn q931-traditional,93 hdlc compression stac,232 isdn send-restart,94 I isdn service,94 idle-mark,257 isdn spid auto_trigger,95 interface,127 isdn spid nit,95 interface atm,210 isdn spid resend,97 interface bridge-template,
llc2 timer ack,262 ppp acfc remote,5 llc2 timer ack-delay,262 ppp authentication-mode,6 llc2 timer busy,263 ppp callback,183 llc2 timer detect,263 ppp callback ntstring,183 llc2 timer poll,264 ppp chap password,8 llc2 timer reject,265 ppp chap user,8 M ppp compression iphc,45 ppp compression iphc rtp-connections,46 mac-address,212 ppp compression iphc tcp-connections,46 mac-address (bridge-template interface view),317 ppp compression stac-lzs,47 mandatory-chap,287 ppp ipcp dns,9 mandator
pppoe-client timer negotiation,60 reset xot,347 pppoe-server abnormal-offline-count threshold,52 S pppoe-server abnormal-offline-percent threshold,53 sdlc controller,268 pppoe-server bind,54 sdlc enable dlsw,268 pppoe-server log-information off,54 sdlc mac-map local,269 pppoe-server max-sessions local-mac,55 sdlc mac-map remote,270 pppoe-server max-sessions remote-mac,55 sdlc max-pdu,271 pppoe-server max-sessions total,56 sdlc max-send-queue,271 pppoe-server normal-offline-percent threshold,
tunnel name,298 x25 remove-facility,365 tunnel password,299 x25 response called-address,365 tunnel timer hello,299 x25 response calling-address,366 tx-bd-limit,229 x25 reverse-charge-accept,367 W x25 roa-list,367 x25 switch pvc,368 Websites,385 x25 switch svc,370 X x25 switch svc hunt-group,372 x25 add-facility,349 x25 switch svc xot,373 x25 alias-policy,350 x25 switching,374 x25 call-facility,351 x25 template,132 x25 cug-service,352 x25 timer hold,375 x25 default-protocol,353 x25 tim
