- access-expression through asptime
- bridge acquire through bstun route all apip
- certificate reload through csna
- default-profile through dspu vdlc start
- enable (TN3270) through lu termination
- mac-address through vsrb remote-peer netbios-output-list
- sap-priority through servercert
- show access-expression through show extended channel udp-stack
- show fras through shutdown (TN3270)
- sna enable-host (Token Ring, Ethernet, Frame Relay, FDDI) through source-bridge max-in-hops
- source-bridge max-out-hops through x25 pvc qllc
- Appendix: Ethernet Type Codes
- default-profile
- disable (TN3270)
- dlsw allroute-netbios
- dlsw allroute-sna
- dlsw bgroup-list
- dlsw bridge-group
- dlsw cache-ignore-netbios-datagram
- dlsw disable
- dlsw duplicate-path-bias
- dlsw explorerq-depth
- dlsw group-cache disable
- dlsw group-cache max-entries
- dlsw history-log
- dlsw icannotreach saps
- dlsw icanreach
- dlsw llc2 nornr
- dlsw load-balance
- dlsw local-peer
- dlsw mac-addr
- dlsw max-multiple-rifs
- dlsw multicast
- dlsw netbios-cache-length
- dlsw netbios-keepalive-filter
- dlsw netbios-name
- dlsw peer-log-changes
- dlsw peer-on-demand-defaults
- dlsw port-list
- dlsw prom-peer-defaults
- dlsw redundant-rings
- dlsw remote-peer frame-relay
- dlsw remote-peer fst
- dlsw remote-peer interface
- dlsw remote-peer tcp
- dlsw ring-list
- dlsw rsvp
- dlsw timer
- dlsw timer connect-timeout
- dlsw timer local-connect-timeout
- dlsw tos disable
- dlsw tos map
- dlsw transparent map
- dlsw transparent redundancy-enable
- dlsw transparent switch-support
- dlsw transparent timers
- dlsw udp-disable
- dlur
- dlus-backup
- domain-id
- dspu activation-window
- dspu default-pu
- dspu enable-host (Token Ring, Ethernet, FDDI, Frame Relay)
- dspu enable-host (QLLC)
- dspu enable-host (SDLC)
- dspu enable-pu (Ethernet, Frame Relay, Token Ring, FDDI)
- dspu enable-pu (QLLC)
- dspu enable-pu (SDLC)
- dspu host (Token Ring, Ethernet, FDDI, RSRB, VDLC)
- dspu host (Frame Relay)
- dspu host (QLLC)
- dspu host (SDLC)
- dspu lu
- dspu ncia
- dspu ncia enable-pu
- dspu notification-level
- dspu pool
- dspu pu (Token Ring, Ethernet, FDDI, RSRB, VDLC, NCIA)
- dspu pu (Frame Relay)
- dspu pu (QLLC)
- dspu pu (SDLC)
- dspu rsrb
- dspu rsrb enable-host
- dspu rsrb enable-pu
- dspu rsrb start
- dspu start
- dspu vdlc
- dspu vdlc enable-host
- dspu vdlc enable-pu
- dspu vdlc start
default-profile
To specify the name of the profile to be applied as a default to all the listen points, use the default-profile command in security configuration mode. To disable the default profile specification, use the no form of this command.
default-profile profilename
no default-profile profilename
Syntax Description
profilename |
A profile name that has already been configured. |
Defaults
No default profile.
Command Modes
Security configuration
Command History
Usage Guidelines
If this command is configured, this profile name and all of its attributes will be associated with all listen points that do not specify an individual profile with the sec-profile command.
Profile names cannot be duplicated.
Entering the no form of this command removes the default specification and any listen points that do not have the sec-profile command specified will revert to a nonsecure mode.
This command has no retroactive effect. If a listen point is specified using the listen-point command, and the sec-profile command was already configured for that listen point, then all client connections to that listen point will be secure.
If a listen point is specified using the listen-point command, and the default-profile command is not configured, then all client connections to that listen point will not be secure. However, if the default-profile command is later configured, then all now connections to that listen point will be secure using the specified default-profile command. This will not affect the nonsecure connections.
Examples
The following example specifies DOMESTIC as the default profile name for all clients connecting to listen point 10.10.10.1 until the default-profile LAM command is configured. Once the default-profile LAM command is configured, all new client connections will use LAM as the default profile.
tn3270
security
profile NOSECURITY none
default-profile DOMESTIC
pu DIRECT 012ABCDE tok 0 04
default-profile LAM
listen-point 10.10.10.1
Related Commands
disable (TN3270)
To turn off security in the TN3270 server, use the disable (TN3270) command in security configuration mode.
disable
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values.
Command Modes
Security configuration
Command History
Usage Guidelines
Configuring the disable command does not terminate any active secure or nonsecure connections. This command specifies that all new connections established with the TN3270 server will be nonsecure. If a client initiates a change cipher specification for an existing secure connection, then the TN3270 server will process the request.
There is not a no form for this command. The enable command is equivalent to the no form of this command.
Examples
The following example turns off security in the TN3270 server so that all new connections established with the TN3270 server will be nonsecure:
disable
Related Commands
|
|
|
|---|---|
enable (TN3270) |
Turns on security in the TN3270 server. |
dlsw allroute-netbios
To change the single-route explorer to an all-route broadcast for NetBIOS, use the dlsw allroute-netbios command in global configuration mode. To return to the default single-route explorer, use the no form of this command.
dlsw allroute-netbios
no dlsw allroute-netbios
Syntax Description
This command has no arguments or keywords.
Defaults
Single-route explorer.
Command Modes
Global configuration
Command History
Examples
The following example specifies all-route broadcasts for NetBIOS:
dlsw allroute-netbios
dlsw allroute-sna
To change the single-route explorer to an all-route broadcast for Systems Network Architecture (SNA), use the dlsw allroute-sna command in global configuration mode. To return to the default single-route explorer, use the no form of this command.
dlsw allroute-sna
no dlsw allroute-sna
Syntax Description
This command has no arguments or keywords.
Defaults
Single-route explorer.
Command Modes
Global configuration
Command History
Examples
The following example specifies all-route broadcasts for SNA:
dlsw allroute-sna
dlsw bgroup-list
To map traffic on the local Ethernet bridge group interface to remote peers, use the dlsw bgroup-list command in global configuration mode. To cancel the map, use the no form of this command.
dlsw bgroup-list list-number bgroups number
no dlsw bgroup-list
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
Traffic received from a remote peer is forwarded only to the bridge group specified in the bridge group list. Traffic received from a local interface is forwarded to peers if the input bridge group number appears in the bridge group list applied to the remote peer definition. The definition of a bridge group list is optional. Each remote peer has a single list number associated with it; therefore, if you want traffic to go to a bridge group and to either a ring list or port list, you should specify the same list number in each definition.
Examples
The following example configures bridge group list 1:
dlsw bgroup-list 1 bgroups 33
Related Commands
dlsw bridge-group
To link data-link switching plus (DLSw+) to the bridge group of the Ethernet LANs, use the dlsw bridge-group command in global configuration mode. To disable the link, use the no form of this command.
dlsw bridge-group group-number [llc2 [N2 number] [ack-delay-time milliseconds] [ack-max number] [idle-time milliseconds] [local-window number] [t1-time milliseconds] [tbusy-time milliseconds] [tpf-time milliseconds] [trej-time milliseconds] [txq-max number] [xid-neg-val-time milliseconds] [xid-retry-time milliseconds]] [locaddr-priority lu address priority list number] [sap-priority priority list number]
no dlsw bridge-group group-number [llc2 [N2 number] [ack-delay-time milliseconds] [ack-max number] [idle-time milliseconds] [local-window number] [t1-time milliseconds] [tbusy-time milliseconds] [tpf-time milliseconds] [trej-time milliseconds] [txq-max number] [xid-neg-val-time milliseconds] [xid-retry-time milliseconds]] [locaddr-priority lu address priority list number] [sap-priority priority list number]
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guideliness
More than one bridge group can be attached to DLSw+ by using this command multiple times. Multiple bridge group support is available in Cisco IOS Release 11.3.
Examples
The following example links DLSw+ to bridge groups 1, 2, and 3:
dlsw local-peer peer-id 1.1.1.1
dlsw remote-peer 0 tcp 2.2.2.2
dlsw bridge-group 1
dlsw bridge-group 2
dlsw bridge-group 3
interface Ethernet0
bridge-group 1
interface Ethernet1
bridge-group 2
interface Ethernet2
bridge-group 3
bridge 1 protocol ieee
bridge 2 protocol ieee
bridge 3 protocol ieee
Related Commands
|
|
|
|---|---|
dlsw bgroup-list |
Maps traffic on the local Ethernet bridge group interface to remote peers. |
dlsw cache-ignore-netbios-datagram
To prevent data-link switching (DLSw) from caching NetBIOS names when a datagram (0x08) NetBIOS command is received, use the dlsw cache-ignore-netbios-datagram command in global configuration mode. To remove the filter, use the no form of this command.
dlsw cache-ignore-netbios-datagram
no dlsw cache-ignore-netbios-datagram
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Examples
The following example helps maintain a smaller name cache:
dlsw cache-ignore-netbios-datagram
dlsw disable
To disable data-link switching plus (DLSw+) without altering the configuration, use the dlsw disable command in global configuration mode. To reenable DLSw+, use the no form of this command.
dlsw disable
no dlsw disable
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Examples
The following example reenables DLSw+:
no dlsw disable
dlsw duplicate-path-bias
To specify how data-link switching plus (DLSw+) handles duplicate paths to the same MAC address or NetBIOS name, use the dlsw duplicate-path-bias command in global configuration mode. To return to the default, use the no form of this command.
dlsw duplicate-path-bias [load-balance]
no dlsw duplicate-path-bias [load-balance]
Syntax Description
load-balance |
(Optional) Specifies that sessions are load-balanced across duplicate paths. |
Defaults
Fault tolerance is the default logic used to handle duplicate paths.
Command Modes
Global configuration
Command History
Usage Guidelines
A path is either a remote peer or a local port.
In full-tolerance mode, the preferred path is always used unless it is unavailable. The preferred path is either the path over which the first response to an explorer was received, or, in the case of remote peers, the peer with the least cost.
Examples
The following example specifies load balancing to resolve duplicate paths:
dlsw duplicate-path-bias load-balance
dlsw explorerq-depth
To establish queue depth for multiple queues that handle various types of explorer traffic, including Systems Network Architecture (SNA) and NetBIOS frames, use the dlsw explorerq-depth command in global configuration mode. To remove the queues, use the no form of this command.
dlsw explorerq-depth {sna value | netbios value | other value}
no dlsw explorerq-depth {sna value | netbios value | other value}
Syntax Description
Defaults
The default value for the sna queue and netbios queue is unlimited (that is, if no value is specified, there is no threshold for these queues). The default for the other queue is 100.
Command Modes
Global configuration
Command History
Usage Guidelines
The dlsw explorererq-depth command allows data-link switching plus (DLSw+) to establish queue depth for multiple queues that handle different types of traffic, including SNA and NetBIOS frames. UI frames are handled by the other queue. Using multiple queues, the SNA and NetBIOS frames will take priority over the UI frames. The UI frames will be dropped when the other queue reaches its threshold.
The dlsw explorererq-depth command is used in an Ethernet and transparent-bridging environment.
Examples
The following example specifies the maximum number of explorers allowed in the SNA queue:
dlsw explorerq-depth sna 100
Related Commands
|
|
|
|---|---|
source-bridge explorerq-depth |
Sets the maximum explorer queue depth. |
dlsw group-cache disable
To disable the border peer caching feature, use the dlsw group-cache disable command in global configuration mode. To return to the default peer caching feature, use the no form of this command.
dlsw group-cache disable
no dlsw group-cache disable
Syntax Description
This command has no arguments or keywords.
Defaults
Border peer caching is enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
If a border peer becomes a nonborder peer, then the group cache is automatically deleted.
This command prevents a border peer from learning reachability information from relay responses. This command also prevents a border peer from using local or remote caches to make forwarding decisions.
Examples
The following example disables the group cache:
dlsw group-cache disable
Related Commands
|
|
|
|---|---|
dlsw group-cache max-entries |
Limits the number of entries in the group cache. |
dlsw group-cache max-entries
To limit the number of entries in the group cache, use the dlsw group-cache max entries command in global configuration mode. To return to the default, use the no form of this command.
dlsw group-cache max-entries number
no dlsw group-cache max entries
Syntax Description
number |
Maximum number of entries allowed in the group cache. The valid range is from 0 through 12000. If the value is set to 0, then there is no limit to the number of entries. The default is 2000. |
Defaults
The default setting is 2000.
Command Modes
Global configuration
Command History
Usage Guidelines
Once the number of entries has reached the maximum number specified, if a new entry needs to be added an entry will be removed to make room.
The value set for the number argument applies to both the NetBIOS and Systems Network Architecture (SNA) group cache.
Examples
The following configuration defines the maximum number of entries allowed in the NetBIOS or SNA group cache as 1800:
dlsw group-cache max-entries1800
Related Commands
|
|
|
|---|---|
dlsw group-cache disable |
Disables the border peer caching feature. |
dlsw history-log
To enable the data-link switching (DLSw) history log, use the dlsw history-log command in global configuration mode. To disable the DLSw history log, use the no form of this command.
dlsw history-log size [connected-only] [ignore-info-frames]
no dlsw history-log
Syntax Description
Defaults
The DLSw history log is enabled with a value of 32 for the size argument.
Command Modes
Global configuration
Command History
Examples
The following example configures the DLSw history log size to 2000 circuits and specifies that history be recorded only for circuits that reach the CONNECTED state:
router(config)# dlsw history-log 2000 connected-only
dlsw icannotreach saps
To configure a list of service access points (SAPs) not locally reachable by the router, use the dlsw icannotreach saps command in global configuration mode. To remove the list, use the no form of this command.
dlsw icannotreach saps sap
no dlsw icannotreach saps sap
Syntax Description
sap |
One or more SAPs, separated by spaces. |
Defaults
No lists are configured.
Command Modes
Global configuration
Command History
Usage Guidelines
The dlsw icannotreach saps command causes the local router to send a control vector to its peers during the capabilities exchange, which tells the peers not to send canureach messages to the local router for sessions using those destination service access point (DSAP)s. (They are DSAPs from the peer's perspective, and source service access point (SSAP)s from the perspective of the devices attached to the local router.) The effect is that devices attached to the peer will not be able to initiate sessions to devices attached to the local router using the listed DSAPs. Devices attached to the local router, however, will still be able to start sessions with devices on its peers using the listed SAP as SSAPs. The reason is that the local router can still send canureach requests to its peers,because no filtering is actually done on the local router. The filtering done by the peers does not prohibit the peers from responding to canureach requests from the local router sending the control vector, only sending canureach requests to the local router.
Examples
The following example specifies that NetBIOS traffic will be denied:
dlsw icannotreach saps F0
dlsw icanreach
To configure a resource that is locally reachable by this router, use the dlsw icanreach command in global configuration mode. To remove the resource, use the no form of this command.
dlsw icanreach {mac-exclusive [remote] | netbios-exclusive [remote] | mac-address mac-addr [mask mask] | netbios-name name | saps sap-value}
no dlsw icanreach {mac-exclusive [remote] | netbios-exclusive [remote] | mac-address mac-add [mask mask] | netbios-name name | saps sap-value}
Syntax Description
Defaults
No resources are configured.
Command Modes
Global configuration
Command History
Usage Guidelines
This command can be entered at any time. It causes a capabilities exchange to relay the information to all active peers. By specifying resource names or MAC addresses in this command, you can avoid broadcasts from remote peers that are looking for this resource. By specifying "exclusive" you can avoid broadcasts to this router or any resources. For example, you could configure the front-end processor (FEP) MAC address or corporate site LAN servers in central site routers to avoid any broadcasts over the WAN for these resources.
Configuring the remote keyword gives the NetBIOS workstations and MACs that are local to the router and that are not already defined in the dlsw icanreach netbios-name name and dlsw icanreach mac-address mac-addr commands access to remote NetBIOS servers and remote MAC addresses. The connection must be from the local Netbios workstation or MAC address to the remote Netbios Server or MAC address.
In the default case (where the remote keyword is not specified), a local NetBIOS station that is not configured in the icanreach netbios-name list will not be able to make a connection in this router over data-link switching plus (DLSw+), whether incoming or outgoing.
Note 
Because the configuration of the mac-address and netbios-name keywords prevents the DLSw+ peer from exploring, an incorrect configuration could prevent DLSw+ from being able to find a resource actually available elsewhere in the network.
Examples
The following example indicates that this peer has information only has information about a single NetBIOS server, and that no peers should send this peer explorers searching for other NetBIOS names. Because the remote option is also configured, NetBIOS workstations that are connected to the NetBIOS server named lanserv will be able to establish a DLSw+ connection:
dlsw icanreach netbios-exclusive
dlsw icanreach netbios-name lanserv
Related Commands
|
|
|
|---|---|
show dlsw capabilities |
Displays the configuration of a specific peer or all peers. |
dlsw llc2 nornr
To prevent the receiver not ready (RNR) message from being sent while establishing a Logical Link Control, type 2 (LLC2) connection, use the dlsw llc2 nornr command in global configuration mode. To return to the default, use the no form of this command.
dlsw llc2 nornr
no dlsw llc2 nornr
Syntax Description
This command has no arguments or keywords.
Defaults
The command is disabled by default.
Command Modes
Global configuration
Command History
Usage Guidelines
This command is used when any device does not handle the LLC2 RNR frames.
Examples
The following example keeps the receiver not ready (RNR) message from being sent when establishing an LLC2 connection:
dlsw llc2 nornr
The following is output from a Sniffer trace showing when use of the dlsw llc2 nornr command would be appropriate because the RNR message is being rejected from the front-end processor (FEP) when the router is trying to establish an LLC2 connection:
SUMMARY Delta T From 400020401003 From 400023491026
8 0.173 LLC C D=00 S=04 TEST P
9 0.003 LLC R D=04 S=00 TEST F
10 0.002 SNA XID Fmt 2 T4
11 0.059 SNA XID Fmt 2 T4
12 0.004 SNA XID Fmt 2 T4
13 0.065 SNA XID Fmt 2 T4
14 0.005 SNA XID Fmt 2 T4
16 0.054 LLC C D=04 S=04 SABME P
17 0.003 LLC R D=04 S=04 UA
The router sends an RNR message:
18 0.001 LLC C D=04 S=04 RNR NR=0
From frames 19 to 35, the FEP does not respond:
19 0.002 LLC C D=04 S=04 RR NR=0
20 0.048 SNA C NC NC-ER-OP
21 0.997 LLC C D=04 S=04 RR NR=0 P
22 1.000 LLC C D=04 S=04 RR NR=0 P
24 1.000 LLC C D=04 S=04 RR NR=0 P
25 1.000 LLC C D=04 S=04 RR NR=0 P
31 1.000 LLC C D=04 S=04 RR NR=0 P
32 1.000 LLC C D=04 S=04 RR NR=0 P
34 1.000 LLC C D=04 S=04 RR NR=0 P
35 1.000 LLC C D=04 S=04 RR NR=0 P
The router disconnects the circuit:
37 1.000 LLC C D=04 S=04 DISC P
38 0.002 LLC R D=04 S=04 UA F
The sequence repeats:
39 0.179 LLC C D=00 S=04 TEST P
41 0.767 SNA XID Fmt 2 T4
42 0.634 SNA XID Fmt 2 T4
43 0.173 LLC C D=00 S=04 TEST
44 0.003 LLC R D=04 S=00 TEST F
45 0.002 SNA XID Fmt 2 T4
46 0.060 SNA XID Fmt 2 T4
47 0.004 SNA XID Fmt 2 T4
48 0.063 SNA XID Fmt 2 T4
49 0.005 SNA XID Fmt 2 T4
dlsw load-balance
To enable load balancing and to select either round robin or circuit-count-based load balancing, use the dlsw load-balance command in global configuration mode. To disable the previous assignments, use the no form of this command.
dlsw load-balance [round-robin | circuit-count circuit-weight]
no dlsw load-balance [round-robin | circuit-count circuit-weight]
Syntax Description
Defaults
Fault-tolerant mode is the default setting. The default value for the circuit weight argument is 10.
Command Modes
Global configuration
Command History
Usage Guidelines
A circuit is never be taken down and reestablished by the code in an attempt to rebalance the load. The DLSw+ Enhanced Load Balancing feature changes the decision-making process only at the time a new circuit is desired.
The dlsw load-balance command replaces the dlsw duplicate-path-bias load balance command. The latter command continues to be accepted, however, it will be converted to the new command if the configuration is displayed or saved.
Examples
The following example enables the DLSw+ Enhanced Load Balancing feature:
dlsw load-balance circuit-count 10
dlsw local-peer
To define the parameters of the data-link switching plus (DLSw+) local peer, use the dlsw local-peer command in global configuration mode. To cancel the definitions, use the no form of this command.
dlsw local-peer [cluster cluster-id] [peer-id ip-address] [group group] [border] [cost cost] [lf size] [keepalive seconds] [passive] [promiscuous] [biu-segment] [init-pacing-window size] [max-pacing-window size]
no dlsw local-peer [cluster cluster-id] [peer-id ip-address] [group group] [border] [cost cost] [lf size] [keepalive seconds] [passive] [promiscuous] [biu-segment] [init-pacing-window size] [max-pacing-window size]
Syntax Description
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Usage Guidelines
When there are multiple peers to a given destination, use the cost keyword to determine which router is preferred and which is capable. The cost keyword applies only in fault tolerance mode.
The biu-segment option is a performance and utilization improvement. If a frame that arrives from a remote peer is too large for the destination station to handle, DLSw+ segments the frame. If you choose to implement this option, you must add the option to both DLSw peer partners.
Examples
The following command defines the local peer IP address and specifies the peer group number for this router:
dlsw local-peer peer-id 10.2.17.1 group 2
Related Commands
dlsw mac-addr
To configure a static MAC address, use the dlsw mac-addr command in global configuration mode. To cancel the configuration, use the no form of this command.
dlsw mac-addr mac-addr {ring ring-number | remote-peer {interface serial number | ip-address ip-address}| rif rif-string | group group}
no dlsw mac-addr mac-addr {ring ring -number| remote-peer {interface serial number | ip-address ip-address}| rif rif-string | group group}
Syntax Description
Defaults
No static MAC address is configured.
Command Modes
Global configuration
Command History
Usage Guidelines
You can statically define resources to prevent the Cisco IOS software from sending explorer frames for the specified resource. For example, you can include the MAC address of a front-end processor (FEP) in the configuration for each remote router to eliminate any broadcasts that are searching for a FEP. Alternately, you can specify a single dlsw icanreach statement in the router attached to the FEP indicating the MAC address of the FEP. This information is sent to all remote routers as part of the capabilities exchange.
Note Because the configuration of this command prevents the data-link switching plus (DLSw+) peer from exploring, an incorrect configuration could prevent DLSw+ from being able to find a resource actually available elsewhere in the network.
Examples
The following example maps the static MAC address 1000.5A12.3456 to the remote peer at IP address 10.17.3.2:
dlsw mac-addr 1000.5A12.3456 remote-peer ip-address 10.17.3.2
Related Commands
|
|
|
|---|---|
show dlsw reachability |
Displays DLSw+ reachability information. |
dlsw max-multiple-rifs
To enable caching of multiple Routing Information Field (RIF)s per interface, use the dlsw max-multiple-rifs command in global configuration mode. To turn off the feature, use the no form of this command.
dlsw max-multiple-rifs multiple-rifs-per-port
no dlsw max-multiple-rifs multiple-rifs-per-port
Syntax Description
multiple-rifs-per-port |
Number of multiple RIF entries per interface. The valid range is from 1 to 4. The default value is 1. |
Defaults
The default value is 1.
Command Modes
Global configuration
Command History
Usage Guidelines
A MAC address or NetBIOS name can have several RIF entries. Prior to this command, data-link switching plus (DLSw+) could cache only one of these RIF entries per local Token Ring port. With the dlsw max-multiple-rifs command configured, however, DLSw+ can cache multiple RIF entries (up to four) for a specific MAC address or NetBIOS name on one Token Ring port.
If the value 1 is specified, multiple RIF caching is not enabled.
Examples
The following example enables the router to cache up to two RIFs per interface:
dlsw max-multiple-rifs 2
dlsw multicast
To enable a DLSw router to participate in a multicast group, use the dlsw multicast command in global configuration mode. To remove the router from the multicast group, use the no form of this command.
dlsw multicast [multicast-ip-address]
no dlsw multicast [multicast-ip-address]
Syntax Description
multicast-ip-address |
(Optional) The IP address used by the multicast group. The default is 224.0.10.0. |
Defaults
Disabled
Command Modes
Global configuration
Command History
Usage Guidelines
In order for routers to be able to receive multicast traffic through DLSw, they must be properly configured to receive multicasts. The appropriate multicast configuration will depend on the specific topologies used.
The dlsw multicast command is implemented together with the DLSw version 2 support (RFC2166). It allows anybody-to-anybody communication without configuring a full mesh of the DLSw peers.
Examples
The following example configures a router to be part of the multicast group using 224.0.11.0 as the multicast address:
dlsw local-peer peer-id 172.18.62.11 promiscuous
dlsw multicast 224.0.11.0
dlsw netbios-cache-length
To customize the number of characters of a NetBIOS name that are retained in the cache, use the dlsw netbios-cache-length command in global configuration mode. To restore the default cache length, use the no form of this command.
dlsw netbios-cache-length [15 | 16]
no dlsw netbios-cache-length
Syntax Description
15 |
The first 15 characters of NetBIOS names are cached. |
16 |
The full 16 characters of NetBIOS names are cached. |
Defaults
The first 15 characters of NetBIOS names are cached.
Command Modes
Global configuration
Command History
Usage Guidelines
Configure the cache length to 16 characters only if the router will be dealing with NetBIOS names that differ only in the 16th byte.
Examples
The following example configures the cache to retain the full 16 characters of the NetBIOS name:
router(config)# dlsw netbios-cache-length 16
The following command restores the default behavior of caching only the first 15 characters of the NetBIOS name:
router(config)# no dlsw netbios-cache-length
dlsw netbios-keepalive-filter
To enable the NetBIOS dial-on-demand routing (DDR) feature, use the dlsw netbios-keepalive-filter command in global configuration mode. To turn off the feature, use the no form of this command.
dlsw netbios-keepalive-filter
no dlsw netbios-keepalive-filter
Syntax Description
This command has no arguments or keywords.
Defaults
Disabled
Command Modes
Global configuration
Command History
Usage Guidelines
Refer to the "Cisco IOS Bridging and IBM Networking Overview" chapter of the Cisco IOS Bridging and IBM Networking Configuration Guide for more details on the NetBIOS DDR feature.
Examples
The following example enables NetBIOS DDR:
dlsw netbios-keepalive-filter
dlsw netbios-name
To configure a static NetBIOS name, use the dlsw netbios-name command in global configuration mode. To cancel the configuration, use the no form of this command.
dlsw netbios-name netbios-name {ring ring-number | remote-peer {interface serial number | ip-address ip-address}| rif rif-string | group group}
no dlsw netbios-name netbios-name {ring ring-number | remote-peer {interface serial number | ip-address ip-address}| rif rif-string | group group}
Syntax Description
Defaults
No static NetBIOS name is configured.
Command Modes
Global configuration
Command History
Usage Guidelines
Because the configuration of this command prevents the data-link switching plus (DLSw+) peer from exploring, an incorrect configuration could prevent DLSw+ from being able to find a resource actually available elsewhere in the network.
Examples
dlsw netbios-name netbios-1 remote-peer ip-address 10.132.248.5
Related Commands
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show dlsw reachability |
Displays DLSw+ reachability information. |
dlsw peer-log-changes
To enable the logging of Syslog messages related to DLSw peer state changes, use the dlsw peer-log-changes global configuration command. To disable the logging of Syslog messages related to DLSw peer state changes, use the no form of this command.
dlsw peer-log-changes [extend]
no dlsw peer-log-changes
Syntax Description
extend |
(Optional) Enables more verbose logging of messages, beyond the basic connection and disconnection messages. |
Defaults
Disabled
Command Modes
Global configuration
Command History
Usage Guidelines
When the dlsw peer-log-changes command is enabled, Syslog messages are generated for the following events:
•Connection attempt to a DLSw peer.
•Successful connection to a DLSw peer.
•Disconnection from a DLSw peer
When the extended keyword is enabled, Syslog messages are also generated for the following events:
•DLSw peer keepalive failure.
•DLSw TCP peer receives a TCP FINI.
•The configuration contains a promiscuous mismatch.
•Error when opening a priority peer.
•Explanation of why a backup peer was closed (such as linger timer expired or last circuit gone).
Examples
The following example enables verbose logging of Syslog messages related to DLSw peer state changes:
Router(config)# dlsw peer-log-changes extended
dlsw peer-on-demand-defaults
To configure defaults for peer-on-demand transport, use the dlsw peer-on-demand-defaults command in global configuration mode. To disable the previous assignment, use the no form of this command.
dlsw peer-on-demand-defaults [fst] [bytes-netbios-out bytes-list-name] [cost cost] [dest-mac destination-mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [inactivity minutes] [keepalive seconds] [lf size] [lsap-output-list list] [port-list port-list-number] [priority] [rsvp {global | average-bit-rate maximum burst}] [tcp-queue-max]
no dlsw peer-on-demand-defaults [fst] [bytes-netbios-out bytes-list-name] [cost cost] [dest-mac destination-mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [inactivity minutes] [keepalive seconds] [lf size] [lsap-output-list list] [port-list port-list-number] [priority] [rsvp {global | average-bit-rate maximum burst}] [tcp-queue-max]
Syntax Description
Defaults
The default peer-on-demand transport is TCP. The default cost is 3.
The default inactivity is 600 seconds.
The default keepalive is 30 seconds.
The default priority state is off.
Command Modes
Global configuration
Command History
Usage Guidelines
A peer-on-demand peer is a nonconfigured remote peer that was connected because of a Logical Link Control, type 2 (LLC2) session established through a border peer data-link switching plus (DLSw+) network.
Setting the average-bit-rate and maximum burst values to 0 disables the RSVP bandwidth reservation for the peer connections.
Examples
The following example configures FST for peer-on-demand transport:
dlsw peer-on-demand-defaults fst
Related Commands
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show dlsw peers |
Displays DLSw peer information. |
dlsw port-list
To map traffic on a local interface (Token Ring or serial) to remote peers, use the dlsw port-list command in global configuration mode. To disable the previous map assignment, use the no form of this command.
dlsw port-list list-number type number
no dlsw port-list list-number type number
Syntax Description
list-number |
Port list number. The valid range is from 1 to 255. |
type |
Interface type. |
number |
Interface number. |
Defaults
No port list is configured.
Command Modes
Global configuration
Command History
Usage Guidelines
Traffic received from a remote peer is forwarded only to the ports specified in the port list. Traffic received from a local interface is forwarded to peers if the input port number appears in the port list applied to the remote peer definition. The definition of a port list is optional.
Examples
The following example configures a data-link switching (DLSw) peer port list for Token Ring interface 1:
dlsw port-list 3 token ring 1
Related Commands
dlsw prom-peer-defaults
To configure defaults for promiscuous transport, use the dlsw prom-peer-defaults command in global configuration mode. To disable the previous assignment, use the no form of this command.
dlsw prom-peer-defaults [fst] [bytes-netbios-out bytes-list-name] [cost cost] [dest-mac destination-mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [lsap-output-list list] [rsvp {global | learn | [average-bit-rate maximum burst]}] [tcp-queue-max size]
no dlsw prom-peer-defaults [fst] [bytes-netbios-out bytes-list-name] [cost cost] [dest-mac destination-mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [lsap-output-list list] [rsvp {global | learn | [average-bit-rate maximum burst]}] [tcp-queue-max size]
Syntax Description
Defaults
The default promiscuous-peer transport is TCP.
The default cost is 3.
The default keepalive value is 30 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines-
A prom peer is a peer not configured as a remote peer on this data-link switching plus (DLSw+) device, but that initiated a peer connection that was accepted because promiscuous peering was enabled.
Setting the average-bit-rate and maximum burst values to 0 disables the RSVP bandwidth reservation for non configured remote peers.
Examples
The following example configures cost for promiscuous peers:
dlsw prom-peer-defaults cost 4
Related Commands
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show dlsw capabilities |
Displays the configuration of a specific peer or all peers. |
dlsw redundant-rings
To eliminate caching problems and explorer looping when multiple data-link switching plus (DLSw+) peers are connected to a single Token Ring LAN where the virtual ring numbers configured in those DLSw+ routers are different, use the dlsw redundant-rings command in global configuration mode. To disable the previous settings, use the no form of this command.
dlsw redundant-rings [ring]
no dlsw redundant-rings [ring]
Syntax Description
ring |
(Optional) Virtual ring number. You can configure up to 10 redundant rings, separated by spaces. |
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Examples
The following example configures router remote-router-1 so that the redundant virtual ring 300 should drop any explorer that is sourced from ring number 300. Similarly, router remote-router-2 knows that 300 is a redundant ring and any explorer sourced from ring 300 should be dropped.
remote-router-1# dlsw redundant-rings 300
remote-router-2# dlsw redundant-rings 300
dlsw remote-peer frame-relay
To specify the remote peer with which the router will connect, use the dlsw remote-peer frame-relay command in global configuration mode. To disable the previous assignments, use the no form of this command.
dlsw remote-peer list-number frame-relay interface serial number dlci-number [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name | circuit-inactivity minutes]] [bytes-netbios-out bytes-list-name] [circuit-weight weight] [cost cost] [dest-mac mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [linger minutes] [lsap-output-list list] [passive] pass-thru
no dlsw remote-peer list-number frame-relay interface serial number dlci-number [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name | circuit-inactivity minutes]] [bytes-netbios-out bytes-list-name] [circuit-weight weight] [cost cost] [dest-mac mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [linger minutes] [lsap-output-list list] [passive] pass-thru
Syntax Description
Defaults
No remote peers are specified.
The linger default is 5 minutes.
The pass-thru default is local acknowledgment mode.
Command Modes
Global configuration
Command History
Usage Guidelines
When you need to permit access to only a single MAC address, the dest-mac option is a shortcut over the dmac-output-list option.
When the pass-thru keyword is not specified, traffic will be locally acknowledged and reliably transported in Logical Link Control, type 2 (LLC2) across the WAN.
The following keywords and arguments first appeared in Cisco IOS Release 12.2:
The backup-peer circuit-inactivity is only configurable in tandem with the backup-peer command for TCP or LLC2 peers.
Examples
The following example specifies a DLSw+ Lite peer as a backup to a primary direct peer:
dlsw remote-peer 0 frame-relay interface serial 1 40 pass-thru
dlsw remote-peer 0 frame-relay interface serial 0 30 backup-peer frame-relay interface serial 1 40
The following example specifies Frame Relay encapsulation connection for remote peer transport:
dlsw remote-peer 0 frame-relay interface serial 0 30
The following example specifies Remote Peer Backup Peer circuit-inactivity linger before termination:
dlsw local-peer peer-id 10.1.1.3
dlsw remote-peer 0 frame-relay 10.1.1.1
dlsw remote-peer 0 frame-relay 10.1.1.2 backup-peer 10.1.1.1 linger 20
circuit-inactivity 3
Related Commands
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show dlsw peers |
Displays DLSw peer information. |
dlsw remote-peer fst
To specify a Fast Sequenced Transport (FST) encapsulation connection for remote peer transport, use the dlsw remote-peer fst command in global configuration mode. To disable the previous FST assignments, use the no form of this command.
dlsw remote-peer list-number fst ip-address [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name]] [bytes-netbios-out bytes-list-name] [circuit-weight weight] [cost cost] [dest-mac mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [linger minutes] [lsap-output-list list] [passive]
no dlsw remote-peer list-number fst ip-address [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name]] [bytes-netbios-out bytes-list-name] [circuit-weight weight] [cost cost] [dest-mac mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [linger minutes] [lsap-output-list list] [passive]
Syntax Description
Defaults
No FST encapsulation connection is specified.
The linger default is 5 minutes.
Command Modes
Global configuration
Command History
Usage Guidelines
When you need to permit access to a single MAC address, the dest-mac option is a shortcut over the dmac-output-list option.
Examples
The following example specifies an FST peer as backup to a primary TCP peer:
dlsw remote-peer 0 tcp 10.2.18.1
dlsw remote-peer 1 fst 10.2.17.8 backup-peer 10.2.18.1
The following example specifies an FST encapsulation connection for remote peer transport:
dlsw remote-peer 1 fst 10.2.17.8
The following example specifies Remote Peer Backup Peer circuit inactivity and lingering before termination:
dlsw local-peer peer-id 10.1.1.3
dlsw remote-peer 0 tcp 10.1.1.1
dlsw remote-peer 0 tcp 10.1.1.2 backup-peer 10.1.1.1 linger 20
circuit-inactivity 3
Related Commands
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show dlsw peers |
Displays DLSw peer information. |
dlsw remote-peer interface
To specify a point-to-point direct encapsulation connection, use the dlsw remote-peer interface command in global configuration mode. To disable previous interface assignments, use the no form of this command.
dlsw remote-peer list-number interface serial number [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name | circuit-inactivity minutes]] [bytes-netbios-out bytes-list-name] [circuit-weight weight] [cost cost] [dest-mac mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [linger minutes] [lsap-output-list list] [passive] [pass-thru]
no dlsw remote-peer list-number interface serial number [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name | circuit-inactivity minutes]] [bytes-netbios-out bytes-list-name] [circuit-weight weight] [cost cost] [dest-mac mac-address] [dmac-output-list access-list-number] [host-netbios-out host-list-name] [keepalive seconds] [lf size] [linger minutes] [lsap-output-list list] [passive] [pass-thru]
Syntax Description
Defaults
No point-to-point direct encapsulation connection is specified.
The linger default is 5 minutes.
The pass-thru default is local acknowledgment mode.
Command Modes
Global configuration
Command History
Usage Guidelines
The cost keyword specified in a remote peer statement takes precedence over the cost learned as part of the capabilities exchange with the remote peer. The cost keyword is relevant only in fault-tolerance mode.
When you need to permit access to a single MAC address only, the dest-mac option is a shortcut over the dmac-output-list option.
Examples
The following example specifies a point-to-point direct peer backup to a primary direct peer:
dlsw remote-peer 0 interface serial 1 pass-thru
dlsw remote-peer 1 interface serial 2 backup-peer interface serial 1 pass-thru
The following example specifies a point-to-point direct encapsulation connection for remote peer transport:
dlsw remote-peer 1 interface serial 2 pass-thru
The following example specifies Remote Peer Backup Peer circuit inactivity and lingering before termination:
dlsw local-peer peer-id 10.1.1.3
dlsw remote-peer 0 tcp 10.1.1.1
dlsw remote-peer 0 tcp 10.1.1.2 backup-peer 10.1.1.1 linger 20
circuit-inactivity 3
Related Commands
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show dlsw peers |
Displays DLSw peer information. |
dlsw remote-peer tcp
To identify the IP address of a peer with which to exchange traffic using TCP, use the dlsw remote-peer tcp command in global configuration mode. To remove a remote peer, use the no form of this command.
dlsw remote-peer list-number tcp ip-address [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name | circuit-inactivity minutes]] [bytes-netbios-out bytes-list-name] [cluster cluster-id] [circuit-weight value] [cost cost] [dest-mac mac-address] dmac-output-list access-list-number] [dynamic] [host-netbios-out host-list-name] [inactivity minutes] [dynamic] [keepalive seconds] [lf size] [linger minutes] [lsap-output-list list] [no-llc minutes] [passive] [priority] [rif-passthru virtual-ring-number] [rsvp {global | average-bit-rate maximum burst}] [tcp-queue-max size] [timeout seconds]
no dlsw remote-peer list-number tcp ip-address [backup-peer [ip-address | frame-relay interface serial number dlci-number | interface name | circuit-inactivity minutes]] [bytes-netbios-out bytes-list-name] [cluster cluster-id] [circuit-weight value] [cost cost] [dest-mac mac-address] [dmac-output-list access-list-number] [dynamic] [host-netbios-out host-list-name] [inactivity minutes] [dynamic] [keepalive seconds] [lf size] [linger minutes] lsap-output-list list] [no-llc minutes] [passive] [priority] [rif-passthru virtual-ring-number] [rsvp {global | average-bit-rate maximum burst}] [tcp-queue-max size] [timeout seconds]
Syntax Description
Defaults
No peer IP address is identified.
The dynamic option is not on by default. If the dynamic option is added without either the inactivity or no-llc argument specified, the default is to terminate the TCP connection to the remote peer after 5 minutes of no active LLC2 connection.
The inactivity default is 5 minutes.
The no-llc default is 5 minutes.
The timeout default is 90 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
Systems Network Architecture (SNA) dial-on-demand routing (DDR) technology allows switched links to be closed during idle periods. To enable this feature, set the keepalive keyword seconds argument to 0 and configure the timeout keyword seconds argument. When the dynamic keyword is configured, the keepalive keyword seconds argument is automatically set to 0.
To enhance DDR cost savings, you can configure the TCP connection to a remote peer to be dynamically established (that is, established only when there is DLSw data to send). You can further configure the TCP connection to terminate after a specified period of idle time on the peer or after a specified period of no active LLC sessions on the peer.
You cannot use both no-llc and inactivity in a command specifying a dynamic peer.
When you need to permit access to a single MAC address, the dest-mac keyword mac-address argument is a shortcut over the dmac-output-list keyword access-list-number argument.
Use the linger keyword minutes argument to specify that a backup peer will remain connected for a specified period of time after the primary connection is reestablished. Setting the linger keyword minutes argument to 0 causes sessions connected to the backup peer to drop immediately when the primary peer recovers. If the linger keyword is omitted, all sessions connected to the backup peer remain active until they terminate on their own.
When the priority keyword on the dlsw remote-peer command is configured, DLSw+ automatically activates four TCP ports to that remote peer (ports 2065, 1981, 1982 and 1983) and assigns traffic to specific ports. Furthermore, if Advanced Peer-to-Peer Networking (APPN) is running with DLSw+ and you specify the priority keyword option on the dlsw remote-peer command, then the SNA type of service (ToS) will map APPN class of service (COS) to TCP ToS and will preserve the APPN COS characteristics throughout the network.
The rif passthru keyword works only on Token Ring LANs via source-route bridging (SRB). Other LAN types, such as Synchronous Data Link Control (SDLC) and Qualified Logical Link Control (QLLC), are not supported. The RIF Passthru feature is supported with TCP encapsulation and it disables local acknowledgment.
The following features are not supported with the DLSw+ RIF Passthru feature:
•Border peers
•Peer-on-demand peers
•Dynamic peers
•Backup peers
The cluster keyword is available only on border peers. This option enables the DLSw+ Peer Clusters feature without forcing every DLSw+ router in the network to upgrade its software.
Setting the average-bit-rate or maximum burst value to 0 turns off RSVP for this peer.
Examples
The following example specifies a TCP encapsulation connection for remote peer transport:
dlsw remote-peer 0 tcp 10.2.17.8
The following example specifies a TCP peer as backup to a primary Fast Sequenced Transport (FST) peer:
dlsw remote-peer 0 fst 10.2.18.9
dlsw remote-peer 0 tcp 10.2.17.8 backup-peer 10.2.18.9
Related Commands
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show dlsw peers |
Displays DLSw peer information. |
dlsw ring-list
To configure a ring list, mapping traffic on a local interface to remote peers, use the dlsw ring-list command in global configuration mode. To cancel the definition, use the no form of this command.
dlsw ring-list list-number rings ring-number
no dlsw ring-list list-number rings ring-number
Syntax Description
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Usage Guidelines
Traffic received from a remote peer is forwarded only to the rings specified in the ring list. Traffic received from a local interface is forwarded to peers if the input ring number appears in the ring list applied to the remote peer definition. The definition of a ring list is optional.
Examples
The following example configures a data-link switching (DLSw) ring list, assigning rings 1, 2, and 3 to ring list 3:
dlsw ring-list 3 rings 1 2 3
Related Commands
dlsw rsvp
To enable the data-link switching plus (DLSw+) RSVP Bandwidth Reservation feature on the local peer, use the dlsw rsvp command in global configuration mode. To disable the DLSw+ RSVP Bandwidth Reservation feature for all peers in the router, use the no form of this command.
dlsw rsvp {default | average-bit-rate maximum-burst]}
no dlsw rsvp {default | average-bit-rate maximum-burst}
Syntax Description
Defaults
The default values for the average-bit-rate and maximum-burst are 10 kbps and 28 kbps, respectively.
Command Modes
Global configuration
Command History
Usage Guidelines
The DLSw+ RSVP Bandwidth Reservation feature does not require that all peers in a network have Resource Reservation Protocol (RSVP) configured. However, the feature does require that the end peer devices are configured with RSVP and that all devices in the middle are IP RSVP-capable.
The default keyword assumes that the DLSw+ peer is connected via a 56-kbps link. If this is not the case, then the default values will likely not produce optimal results. Even if the line speed is 56 kbps, the default values (10 kbps average-bit-rate and 28 kBps maximum-burst) may not be optimal in a particular network environment and should be changed accordingly.
Setting the average-bit-rate or maximum-burst value to 0 turns off RSVP for this peer.
Examples
The following example configures the DLSw+ RSVP Bandwidth Reservation feature with an average bit rate of 10 kbps and a maximum-burst value of 28 kbps:
dlsw rsvp default
Related Commands
dlsw timer
To tune an existing configuration parameter, use the dlsw timer command in global configuration mode. To restore the default parameters, use the no form of this command.
dlsw timer {icannotreach-block-time | netbios-cache-timeout | netbios-explorer-timeout | netbios-group-cache | netbios-retry-interval | netbios-verify-interval | sna-cache-timeout | explorer-delay-time | sna-explorer-timeout | explorer-wait-time | sna-group-cache | sna-retry-interval | sna-verify-interval} time
no dlsw timer {icannotreach-block-time | netbios-cache-timeout | netbios-explorer-timeout | netbios-group-cache | netbios-retry-interval | netbios-verify-interval | sna-cache-timeout | explorer-delay-time | sna-explorer-timeout | explorer-wait-time | sna-group-cache | sna-retry-interval | sna-verify-interval} time
Syntax Description
Defaults
The icannotreach-block-time default is 0 (disabled).
The netbios-cache-timeout default is 960 seconds (16 minutes).
The netbios-explorer-timeout default is 6 seconds.
The netbios-group-cache default is 240 seconds (4 minutes).
The netbios-retry-interval default is 1 second.
The netbios-verify-interval default is 240 seconds (4 minutes).
The sna-cache-timeout default is 960 seconds (16 minutes).
The explorer-delay-time default is 0.
The sna-explorer-timeout default is 180 seconds (3 minutes).
The explorer-wait-time default is 0.
The sna-group-cache default is 240 seconds (4 minutes).
The sna-retry-interval default is 30 seconds.
The sna-verify-interval default is 240 seconds (4 minutes).
Command Modes
Global configuration
Command History
Usage Guidelines
The netbios-group-cache and sna-group-cache options were added to this command for the border peer caching feature.
Examples
The following configuration defines the length of time that an entry will stay in the group cache as 120 seconds (2 minutes):
dlsw timers sna-group-cache 120
The following example configures the length of time that an SNA MAC location cache entry exists before it is discarded:
dlsw timer sna-cache-timeout 3
dlsw timer connect-timeout
To modify the maximum allowed interval between first exchange identification (XID) and set asynchronous balanced mode extended unnumbered acknowledgment (SABME/UA) frames for circuits, use the dlsw timer connect-timeout command in global configuration mode. To disable the modification of XID and SABME/UA frames for circuits, use the no form of this command.
dlsw timer connect-timeout time
no dlsw timer connect-timeout time
Syntax Description
Command Default
Modification of XID and SABME/UA frames for circuits is enabled.
Command Modes
Global configuration (config)
Command History
|
|
|
|---|---|
12.3T |
This command was introduced. |
Usage Guidelines
Use the dlsw timer connect-timeout command to override the value of the timer value default.
Examples
The following example sets the interval to 30 seconds for the modification of XID and SABME/UA frames for circuits:
Router(config)# dlsw timer connect-timeout 30
Related Commands
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dlsw timer |
Tunes an existing configuration parameter. |
dlsw timer local-connect-timeout |
Modifies the maximum allowed interval between local-switched circuits. |
dlsw timer local-connect-timeout
To modify the maximum allowed interval between local-switched circuits, use the dlsw timer local-connect-timeout command in global configuration mode. To disable the modification of time intervals between local-switched circuits, use the no form of this command.
dlsw timer local-connect-timeout time
no dlsw timer local-connect-timeout time
Syntax Description
time |
The time interval between local-switched circuits, in seconds. The range is 1 to 86400. The default is 30 seconds. |
Command Default
Modification of the maximum allowed interval between local-switched circuits is enabled.
Command Modes
Global configuration (config)
Command History
|
|
|
|---|---|
12.3T |
This command was introduced. |
Usage Guidelines
Use the dlsw timer local-connect-timeout command for the following reasons:
•This command overrides the value of the timer value default.
•This command enables you to link between local-switched circuits, such as Synchronous Data Link Control (SDLC) protocol to Logical Link Control, type 2 (LLC2) protocol and Qualified Logical Link Control (QLLC) protocol LLC2 protocol.
Examples
The following example sets the interval between local-switched circuits to 60 seconds:
Router(config)# dlsw timer local-connect-timeout 60
Related Commands
|
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|---|---|
dlsw timer |
Tunes an existing configuration parameter. |
dlsw timer connect-timeout |
Modifies the maximum allowed interval between XID and SABME/UA frames for circuits. |
dlsw tos disable
To disable any type of service (ToS) bits in data-link switching plus (DLSw+)-generated packets, use the dlsw tos disable command in global configuration mode. To return to the default, use the no form of this command.
dlsw tos disable
no dlsw tos disable
Syntax Description
This command has no arguments or keywords.
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Examples
The following example disables the ToS bits in DLSw+-generated packets:
dlsw tos disable
dlsw tos map
To associate a type of service (ToS) value for priority peers, use the dlsw tos map command in global configuration mode. To return to the default, use the no form of this command.
dlsw tos map [high value [medium value | normal value | low value]]
no dlsw tos map [high value [medium value | normal value | low value]]
Syntax Description
Defaults
The default settings, with priority peers configured, are defined in Table 11.
Command Modes
Global configuration
Command History
Usage Guidelines
By default, data-link switching plus (DLSw+) peer traffic is set to Critical-ECP. When the priority keyword is specified in the dlsw remote peer tcp command, DLSw+ automatically activates four TCP ports to that remote peer (ports 2065, 1981, 1982 and 1983) and associates a priority level. This command enables the user to customize the prioritization of DLSw+ traffic within the network. If priority peers are not configured, high is the only option. See Table 11 for corresponding priority levels and options.
|
|
|
|
|
|---|---|---|---|
01 |
Routine |
— |
— |
11 |
Priority |
— |
— |
2 |
Immediate |
Low |
1983 |
3 |
Flash |
Normal |
1982 |
4 |
Flash Override |
Medium |
1981 |
5 |
Critical ECP |
High |
2065 |
62 |
Internetwork Control |
— |
— |
72 |
Network Control |
— |
— |
1 Using ToS bit values 0 and 1 does not cause negative impact to the network, but these values do not prioritize the traffic. 2 ToS bit values 6 and 7 are not recommended because of potential interference with critical network infrastructure flows. |
Examples
The following example changes the default setting on IP packets generated by DLSw+ from high to low:
dlsw tos map low 2
The following is an example policy routing configuration that shows how to modify the default setting of TCP port 2065. The configuration changes the default setting on IP packets from network control priority to routine priority.
ip local policy route-map test
access-list 101 permit tcp any eq 2065 any
access-list 101 permit tcp any any eq 2065
route-map test permit 20
match ip address 101
set ip precedence routine
dlsw transparent map
To enable MAC address mapping in a switch-based environment, use the dlsw transparent map command in interface configuration mode. To disable MAC address mapping, use the no form of this command.
dlsw transparent map local mac mac-address remote mac mac-address [neighbor mac-address]
no dlsw transparent map local mac mac-address remote mac mac-address
[neighbor mac-address]
Syntax Description
Defaults
No default behavior or values
Command Modes
Interface configuration
Command History
Usage Guidelines
Only the routers that are connected to the switch are configured for address mapping.
Examples
The following example maps MAC address 4000.1000.1234 to the actual device with the MAC address of 4000.3754.1000 and designates the DLSw+ device with MAC address 0000.0c12.0001 as backup:
dlsw transparent map local-mac 4000.1000.1234 remote mac 4000.3754.1000 neighbor 0000.0c12.0001
Related Commands
dlsw transparent redundancy-enable
To configure transparent redundancy, use the dlsw transparent redundancy-enable command in interface configuration mode. To disable transparent redundancy, use the no form of this command.
dlsw transparent redundancy-enable multicast-mac-address [master-priority value]
no dlsw transparent redundancy-enable multicast-mac-address [master-priority value]
Syntax Description
Defaults
No default behavior or value
The master-priority default is 100.
Command Modes
Interface configuration
Command History
Usage Guidelines
The same multicast-mac-address value must be configured on all DLSw+ devices within the same transparent bridged domain. All the DLSw+ devices advertise their presence via frames to this multicast-mac-address value.
All routers in the transparent bridged domain compete and elect one master router. The master router is elected based on its master-priority value. In the case of equal master priority setting, the router with the lowest MAC address is the elected master router.
Examples
The following example configures Ethernet redundancy with a master-priority value of 100:
dlsw transparent redundancy-enable 9999.9999.9999 master-priority 100
Related Commands
dlsw transparent switch-support
To enable the special support that is required for the interfaces connected to an Ethernet switch with the dlsw transparent redundancy-enable command configured, use the dlsw transparent switch-support command in global configuration mode. To disable data-link switching (DLSw) transparent switch support, use the no form of this command.
dlsw transparent switch-support
no dlsw transparent switch-support
Syntax Description
This command has no arguments or keywords.
Defaults
Switch support is off.
Command Modes
Global configuration
Command History
Usage Guidelines
The dlsw transparent switch-support command must be configured before the dlsw transparent map command.
Examples
The following example configures Ethernet switch support:
dlsw transparent switch-support
Related Commands
|
|
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|---|---|
dlsw transparent map |
Enables MAC address mapping in a switch-based environment. |
dlsw transparent timers
To configure the timeout value the master router waits for all requests for a circuit before giving the permission for a router for a circuit, use the dlsw transparent timers command in interface configuration mode. To disable the timeout value, use the no form of this command.
dlsw transparent timers [netbios value | sna value]
no dlsw transparent timers [netbios value | sna value]
Syntax Description
Defaults
The default NetBIOS value is 400 ms.
The default SNA value is 1000 ms (1 second).
Command Modes
Interface configuration
Command History
Usage Guidelines
The dlsw transparent redundancy-enable command must be configured before the dlsw transparent timers command.
Examples
The following example configures the master router to wait 500 ms for a NetBIOS session before giving or denying permission to a router to create a circuit:
dlsw transparent timers netbios 500
Related Commands
|
|
|
|---|---|
dlsw transparent redundancy-enable |
Configures transparent redundancy. |
dlsw udp-disable
To disable the User Datagram Protocol (UDP) unicast feature, use the dlsw udp-disable command in global configuration mode. To return to the default UDP unicast feature, use the no form of this command.
dlsw udp-disable
no dlsw udp-disable
Syntax Description
This command has no arguments or keywords.
Defaults
The UDP unicast feature is enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
If the dlsw udp-disable command is configured, then a data-link switching plus data-link switching plus (DLSw+) node will not send packets via UDP unicast and will not advertise UDP Unicast support in its capabilities exchange message.
Refer to the "Bridging and IBM Networking Overview" chapter of the Bridging and IBM Networking Configuration Guide for more information on the UDP Unicast feature.
Examples
The following example disables the UDP unicast feature:
dlsw udp-disable
dlur
To enable the Systems Network Architecture (SNA) session switch function on the Cisco Mainframe Channel Connection (CMCC) adapter and enter dependent logical unit requester (DLUR) configuration mode, use the dlur command in TN3270 server configuration mode. To disable the SNA session switch function and discard all parameter values associated with the SNA session switch, use the no form of this command.
dlur [fq-cpname fq-dlusname]
no dlur
Syntax Description
Defaults
No DLUR function is enabled.
Command Modes
TN3270 server configuration
Command History
Usage Guidelines
This command is valid only on the virtual channel interface. If the SNA session switch function is already enabled, the dlur command with no arguments puts you in DLUR configuration mode. The session switch function implements an End Node DLUR.
Several parameters in the DLUR configuration mode consist of fully qualified names, as defined by the APPN architecture. Fully qualified names consist of two case-insensitive alphanumeric strings, separated by a period. However, for compatibility with existing APPN products, including virtual telecommunications access method (VTAM), the characters "#" (pound), "@" (at), and "$" (dollar) are allowed in the fully qualified name strings. Each string is from one to 8 characters long; for example, RA12.NODM1PP. The portion of the name before the period is the network entity title (NET) ID and is shared between entities in the same logical network.
The no dlur command hierarchically deletes all resources defined beneath it.
Examples
The following example performs two functions: It enters DLUR configuration mode and it enables the DLUR function and defines the LU name for the DLUR as SYD.TN3020 and the primary choice for DLUS as SYD.VMG. Note that the NET ID portion of both names is the same:
dlur SYD.TN3020 SYD.VMG
Related Commands
dlus-backup
To specify a backup Dependent Logical Unit Server (DLUS) for the Dependent Logical Unit Requestor (DLUR) function, use the dlus-backup command in DLUR configuration mode. To remove a backup DLUS name, use the no form of this command.
dlus-backup dlusname
no dlus-backup
Syntax Description
dlusname |
Fully qualified name of the backup DLUS for the DLUR. |
Defaults
No backup DLUS is specified.
Command Modes
DLUR configuration
Command History
Usage Guidelines
This command is valid only on the virtual channel interface. Only one backup DLUS can be specified per Cisco Mainframe Channel Connection (CMCC) adapter. If the backup DLUS specified in the dlus-backup command is in use when a no dlus-backup command is issued, the connection is not torn down.
Several parameters in DLUR configuration mode consist of fully qualified names, as defined by the Advanced Peer-to-Peer Networking (APPN) architecture. Fully qualified names consist of two case-insensitive alphanumeric strings, separated by a period. However, for compatibility with existing APPN products, including virtual telecommunications access method (VTAM), the characters "#" (pound), "@" (at), and "$" (dollar) are allowed in the fully qualified name strings. Each string is from one to eight characters long; for example, RA12.NODM1PP. The portion of the name before the period is the network entity title (NET) ID and is shared between entities in the same logical network.
Examples
The following example specifies SYD.VMX as the backup DLUS:
dlus-backup SYD.VMX
Related Commands
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|---|---|
client pool |
Nails clients to pools. |
domain-id
To specify a domain name suffix that the TN3270 server appends to a configured machine name to form a fully qualified name when configuring inverse Domain Name System (DNS) nailing, use the domain-id command in TN3270 server configuration mode. To disable this specification, use the no form of this command.
domain-id DNS-domain-identifier DNS-domain
no domain-id DNS-domain-identifier DNS-domain
Syntax Description
Defaults
No default behavior or values
Command Modes
TN3270 server configuration
Command History
Usage Guidelines
The user can configure up to 255 domain names, one per statement. This command must be configured before you configure the client pool command with either the domain-id keyword or the name keyword and the optional DNS-domain-identifier argument.
Examples
In the following example, the domain-id command specifies 23 as the DNS domain identifier for the .cisco.com domain name. All clients nailed to the pool GENERAL will use .cisco.com as the domain name suffix. For example, the client name ally-isdn1 will become ally-isdn1.cisco.com.
tn3270-server
domain-id 23 .cisco.com
pool GENERAL cluster layout 4s1p
listen-point 172.18.5.168
pu T240CA 91922363 token-adapter 31 12 rmac 4000.4000.0001
allocate lu 1 pool GENERAL clusters 1
client name ally-isdn1 23 pool GENERAL
dspu activation-window
To define the number of activation request units (RUs) and response messages (such as activate logical unit (ACTLU)s or Dynamic Definition of Dependent LU (DDDLU) Network Management Vector Transport (NMVT)s that can be sent without waiting for responses from the remote physical unit (PU), use the dspu activation-window command in global configuration mode. To restore the default window size, use the no form of this command.
dspu activation-window window-size
no dspu activation-window
Syntax Description
window-size |
Number of outstanding unacknowledged activation RUs. The default is five. |
Defaults
The default window size is five outstanding unacknowledged activation RUs.
Command Modes
Global configuration
Command History
Usage Guidelines
You do not typically need to define the number of activation RUs, but doing so can enhance activation performance in some situations. Increasing the downstream physical unit (DSPU) activation window allows more logical unit (LU)s to become active in a shorter amount of time (assuming the required buffers for activation RUs are available). Conversely, decreasing the DSPU activation window limits the amount of buffers the DSPU can use during PU or LU activation. This command provides pacing to avoid depleting the buffer pool during PU activation.
Examples
In the following example, the DSPU activation window is configured to 10. The DSPU can send up to 10 activation RUs without a response from the remote PU. However, the DSPU cannot send any additional activation RUs until a response is received. The DSPU can only have 10 activation RUs awaiting response at any given time.
dspu activation-window 10
dspu default-pu
To enable the default PU feature to be used when a downstream physical unit (PU) attempts to connect, but does not match any of the explicit PU definitions, use the dspu default-pu command in global configuration mode. To disable the default PU feature, use the no form of this command.
dspu default-pu [window window-size] [maxiframe max-iframe]
no dspu default-pu [window window-size] [maxiframe max-iframe]
Syntax Description
Defaults
The default window size is 7.
The default maximum I-frame size is 1472.
Command Modes
Global configuration
Command History
Usage Guidelines
If the downstream physical unit (DSPU) default PU is not defined, a connection attempt by a downstream PU that does not match any explicit PU definition is rejected.
The dspu default-pu command must be followed by at least one dspu lu command to define which pool the default LUs will be assigned from. Default LUs cannot be defined as dedicated LUs from a host.
The maximum I-frame size includes the Systems Network Architecture (SNA) transmission header (TH), request header (RH), and request unit (RU), but does not include the Data-link control (DLC) header. The DSPU feature segments frames being sent to fit within this frame size. If an exchange identification (XID) is received from a remote PU, which indicates that it supports a different maximum I-frame size, then the lower of the two values is used.
Examples
In the following example, the default PU feature is enabled with a window size of five and a maximum I-frame size of 128. Each default PU can have up to three LUs assigned from the hostpool pool of LUs.
dspu pool hostpool host ibm3745 lu 2 254
dspu default-pu window 5 maxiframe 128
dspu lu 2 4 pool hostpool
Related Commands
|
|
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|---|---|
dspu lu |
Defines a dedicated LU or a range of LUs for an upstream host and a downstream PU. |
dspu pool |
Defines a range of host LUs in an LU pool. |
dspu enable-host (Token Ring, Ethernet, FDDI, Frame Relay)
To enable a local service access point (SAP) on Token Ring, Ethernet, FDDI, or Frame Relay interfaces for use by upstream hosts, use the dspu enable-host command in interface configuration mode. To cancel the definition, use the no form of this command.
dspu enable-host [lsap local-sap]
no dspu enable-host [lsap local-sap]
Syntax Description
Defaults
The default local SAP address is 12.
Command Modes
Interface configuration
Command History
Examples
In the following example, the local SAP address 10 on Token Ring interface 0 is enabled for use by upstream host connections:
interface tokenring 0
dspu enable-host lsap 10
Related Commands
dspu enable-host (QLLC)
To enable an X.121 subaddress for use by upstream host connections via Qualified Logical Link Control (QLLC), use the dspu enable-host command in interface configuration mode. To disable the X.121 subaddress, use the no form of this command.
dspu enable-host qllc x121-subaddress
no dspu enable-host qllc x121-subaddress
Syntax Description
qllc |
Specifies that the interface will use QLLC. |
x121-subaddress |
X.121 subaddress. |
Defaults
No default X.121 subaddress is specified.
Command Modes
Interface configuration
Command History
Examples
In the following example, X.121 subaddress 320108 is enabled for use by upstream host connections:
interface serial 0
encapsulation x35
x25 address 3202
x25 map qllc 320112
dspu enable-host qllc 320108
Related Commands
dspu enable-host (SDLC)
To enable an Synchronous Data Link Control (SDLC) address for use by upstream host connections, use the dspu enable-host command in interface configuration mode. To cancel the definition, use the no form of this command.
dspu enable-host sdlc sdlc-address
no dspu enable-host sdlc sdlc-address
Syntax Description
sdlc |
Specifies that the interface will use SDLC. |
sdlc-address |
SDLC address. |
Defaults
No default SDLC address is specified.
Command Modes
Interface configuration
Command History
Examples
In the following example, SDLC address C1 is enabled for use by upstream host connections:
interface serial 0
encapsulation sdlc
sdlc role secondary
sdlc address c1
dspu enable-host sdlc c1
Related Commands
dspu enable-pu (Ethernet, Frame Relay, Token Ring, FDDI)
To enable an Ethernet, Frame Relay, Token Ring, or FDDI address for use by downstreamphysical unit (PU) connections, use the dspu enable-pu command in interface configuration mode. To disable the connection, use the no form of this command.
dspu enable-pu [lsap local-sap]
no dspu enable-pu [lsap local-sap]
Syntax Description
lsap local-sap |
(Optional) Local service access point (SAP) address used by the downstream physical unit (DSPU) to establish connection with the remote host. The default local SAP address is 8. |
Defaults
The default local SAP address is 8.
Command Modes
Interface configuration
Command History
Examples
The following example demonstrates the configuration of a downstream PU via Token Ring and Ethernet:
interface tokenring 0
ring-speed 16
dspu enable-pu lsap 8
interface ethernet 0
dspu enable-pu lsap 8
Related Commands
dspu enable-pu (QLLC)
To enable an X.121 subaddress for use by downstream physical unit (PU) connections via Qualified Logical Link Control (QLLC), use the dspu enable-pu command in interface configuration mode. To cancel the definition, use the no form of this command.
dspu enable-pu qllc x121-subaddress
no dspu enable-pu qllc x121-subaddress
Syntax Description
qllc |
Required keyword for Qualified Logical Link Control (QLLC) data-link control. |
x121-subaddress |
Variable-length X.121 address. It is assigned by the X.25 network service provider. |
Defaults
No default address is assigned.
Command Modes
Interface configuration
Command History
Examples
The following example enables an X.121 subaddress for use by downstream PU connections:
interface serial 0
encapsulation x25
x25 address 3201
x25 map qllc 320208
dspu enable-pu qllc 08
Related Commands
dspu enable-pu (SDLC)
To enable an Synchronous Data Link Control (SDLC) address for use by downstream physical unit (PU) connections, use the dspu enable-pu command in interface configuration mode. To disable the connection, use the no form of this command.
dspu enable-pu sdlc sdlc-address
no dspu enable-pu sdlc sdlc-address
Syntax Description
sdlc |
Required keyword for SDLC data-link control. |
sdlc-address |
SDLC address. |
Defaults
No default address is specified.
Command Modes
Interface configuration
Command History
Examples
The following example enables a downstream physical unit (DSPU) downstream connection:
interface serial 0
encapsulation x25
sdlc role primary
sdlc address c1
dspu enable-pu sdlc c1
Related Commands
dspu host (Token Ring, Ethernet, FDDI, RSRB, VDLC)
To define a downstream physical unit (DSPU) host over Token Ring, Ethernet, FDDI, remote source-route bridging (RSRB), or virtual data-link control (VDLC) connections, use the dspu host command in global configuration mode. To cancel the definition, use the no form of this command.
dspu host host-name xid-snd xid rmac remote-mac [rsap remote-sap] [lsap local-sap] [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
no dspu host host-name xid-snd xid rmac remote-mac [rsap remote-sap] [lsap local-sap] [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
Syntax Description
Defaults
The default remote SAP address is 4.
The default local SAP address is 12.
The default window size is 7.
The default maximum I-frame is 1472.
The default number of retries is 255.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The local SAP address must be enabled by one of the following commands: dspu enable-host, dspu rsrb enable-host, or dspu vdlc enable-host.
If an XID is received from a remote PU that indicates it supports a different maximum I-frame size, then the lower of the two values is used.
Alerts from downstream PUs will be forwarded to the focal point host. The focalpoint keyword must be included in no more than one dspu host command.
Examples
The following example shows the definition for a DSPU host with 252 logical unit (LU)s and a connection to be established across an RSRB link:
dspu rsrb 88 1 99 4000.ffff.0001
dspu rsrb enable-host lsap 10
dspu host ibm3745 xid 06500001 rmac 4000.3745.0001 lsap 10
dspu pool hostpool lu 2 253 host ibm3745
Related Commands
dspu host (Frame Relay)
To define a downstream physical unit (DSPU) host over a Frame Relay connection, use the dspu host command in global configuration mode. To cancel the definition, use the no form of this command.
dspu host host-name xid-snd xid dlci dlci-number [rsap rsap-addr] [lsap lsap-addr] [interface slot/port] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
no dspu host host-name xid-snd xid dlci dlci-number [rsap remote-sap] [lsap local-sap] [interface slot/port] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
Syntax Description
Defaults
The default remote SAP is 4.
The default local SAP is 12.
The default window size is 7.
The default maximum I-frame is 1472.
The default retry count is 255.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The local SAP address must be enabled by a dspu enable-host command.
If an XID is received from a remote PU that indicates it supports a different maximum I-frame size, then the lower of the two values is used.
Alerts from downstream PUs will be forwarded to the focal point host. The focalpoint keyword must be included in no more than one dspu host command.
Examples
The following example defines a DSPU host for Frame Relay support:
dspu host rosebud xid-snd 06500001 dlci 200 rsap 4 lsap 12
Related Commands
dspu host (QLLC)
To define a downstream physical unit (DSPU) host over an X.25 or Qualified Logical Link Control (QLLC) connection, use the dspu host command in global configuration mode. To delete the DSPU host definition, use the no form of this command.
dspu host host-name xid-snd xid x25 remote-x121-addr [qllc local-x121-subaddr] [interface slot | port] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
no dspu host host-name xid-snd xid x25 remote-x121-addr [qllc local-x121-subaddr] [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
Syntax Description
Defaults
The default window size is 7.
The default maximum I-frame is 1472.
The default retry count is 255.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The X.121 subaddress must be enabled by a dspu enable-host command.
If an XID is received from a remote PU that indicates it supports a different maximum I-frame size, then the lower of the two values is used.
Alerts from downstream PUs will be forwarded to the focal point host. The focalpoint keyword must be included in no more than one dspu host command.
Examples
The following example defines a DSPU host:
dspu host hosta xid-snd 065ffff0 x25 00000123005 qllc 12
Related Commands
dspu host (SDLC)
To define a downstream physical unit (DSPU) host over an Synchronous Data Link Control (SDLC) connection, use the dspu host command in global configuration mode. To cancel the definition, use the no form of this command.
dspu host host-name xid-snd xid sdlc sdlc-addr [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
no dspu host host-name xid-snd xid sdlc sdlc-addr [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout] [focalpoint]
Syntax Description
Defaults
The default window size is 7.
The default maximum I-frame is 1472.
The default number of retries is 255.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The SDLC address must be enabled by a dspu enable-host command.
If an XID is received from a remote PU that indicates it supports a different maximum I-frame size, then the lower of the two values is used.
Alerts from downstream PUs will be forwarded to the focal point host. The focalpoint keyword must be included in no more than one dspu host command.
Examples
The following example defines a DSPU host for SDLC:
dspu host hosta xid-snd 065ffff0 sdlc c1
Related Commands
|
|
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|---|---|
dspu enable-host (SDLC) |
Enables an SDLC address for use by upstream host connections. |
dspu pool |
Defines a range of host LUs in an LU pool. |
dspu lu
To define a dedicated logical unit (LU) or a range of LUs for an upstream host and a downstream physical unit (PU), use the dspu lu command in global configuration mode. To cancel the definition, use the no form of this command.
dspu lu lu-start [lu-end] {host host-name host-lu-start | pool pool-name} [pu pu-name]
no dspu lu lu-start [lu-end] {host host-name host-lu-start | pool pool-name} [pu pu-name]
Syntax Description
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Usage Guidelines
If the dspu lu command immediately follows a dspu default-pu or dspu pu command, then the dspu lu command is applied to that PU, and the pu pu-name option is not necessary for the dspu lu command.
If the keyword and argument are included, the LU defined by the dspu lu command will be applied to the named PU.
The pool and host keywords are mutually exclusive. You can define a range of LUs to be either assigned from a pool or dedicated to a host.
Examples
The following example defines downstream LUs as dedicated LUs. The downstream PU, ciscopu, has three downstream LUs with addresses 2 and 4. When ciscopu establishes a connection with the downstream physical unit (DSPU), the three downstream LUs (2, 3, and 4) are dedicated to LUs 22, 23, and 24, respectively, from the IBM 3745 host.
dspu host ibm3745 xid-snd 065000001 rmac 4000.3745.0001
dspu pu ciscopu xid-rcv 05D00001 rmac 1000.5AED.1F53
dspu lu 2 4 host ibm3745 22
Related Commands
dspu ncia
To configure the native client interface architecture (NCIA) server as the underlying transport, use the dspu ncia command in global configuration mode. To cancel the definition, use the no form of this command.
dspu ncia [server-number]
no dspu ncia [server-number]
Syntax Description
server-number |
(Optional) Server number configured in the ncia server command. Currently, only one NCIA server is supported. |
Defaults
No default behavior or values
Command Modes
Global configuration
Command History
Usage Guidelines
You must use the ncia server command to configure an NCIA server on the router before using the dspu ncia command to configure the NCIA server as the underlying transport.
Examples
The following example configures the NCIA server as the underlying transport mechanism communicating directly with the downstream physical unit (DSPU):
dspu ncia 1
Related Commands
|
|
|
|---|---|
dspu ncia enable-pu |
Enables a SAP on the NCIA server for use by downstream connections. |
ncia server |
Configures an NCIA server on a Cisco router. |
dspu ncia enable-pu
To enable a destination service access point (DSAP) on the native client interface architecture (NCIA) server for use by downstream connections, use the dspu ncia enable-pu command in global configuration mode. To disable the SAP, use the no form of this command.
dspu ncia enable-pu [lsap local-sap]
no dspu ncia enable-pu [lsap local-sap]
Syntax Description
lsap local-sap |
(Optional) Specifies that the local SAP address will be activated as an upstream SAP for receiving incoming connection attempts. The default is 8. |
Defaults
The default local SAP is 8.
Command Modes
Global configuration
Command History
Examples
In the following example, the local SAP address 8 is enabled for use by the downstream PU CISCOPU-A:
dspu ncia 1
dspu ncia enable-pu lsap 8
!
dspu host HOST-9370 xid-snd 11100001 rmac 4000.1060.1000 rsap 4 lsap 4
!
dspu pu CISCOPU-A xid-rcv 01700001
dspu lu 2 6 host HOST-9370 2
!
interface TokenRing 0
ring-speed 16
llc2 xid-retry-time 0
dspu enable-host lsap 4
dspu start HOST-9370
Related Commands
dspu notification-level
To specify the downstream physical unit (DSPU) notifications to send to Simple Network Management Protocol (SNMP) and Systems Network Architecture (SNA) network management, use the dspu notification-level command in global configuration mode. To specify the default notification level low, use the no form of this command.
dspu notification-level {off | low | medium | high}
no dspu notification-level
Syntax Description
Defaults
The default notification level is low.
Command Modes
Global configuration
Command History
Usage Guidelines
This command applies to both SNMP traps and unsolicited SNA messages to the operator. The upstream PU and LU notification events and the LU state change notification events are not sent as unsolicited SNA messages to the operator. These events are sent as SNMP traps only.
Examples
The following example sets the notification level to enable the DSPU to send notifications to network management for both PU and LU state changes and activation failures:
dspu notification-level high
Related Commands
|
|
|
|---|---|
snmp-server host |
Specifies the recipient of SNMP notifications. |
dspu pool
To define a range of host logical unit (LU)s in an LU pool, use the dspu pool command in global configuration mode. To remove the definition, use the no form of this command.
dspu pool pool-name host host-name lu lu-start [lu-end] [inactivity-timeout minutes]
no dspu pool pool-name host host-name lu lu-start [lu-end] [inactivity-timeout minutes]
Syntax Description
Defaults
The inactivity-timeout is disabled.
Command Modes
Global configuration
Command History
Usage Guidelines
You can include multiple dspu pool commands that specify the same pool name. In this way, an LU pool can include several LU ranges from the one host physical unit (PU), or it can include LUs from different host PUs. The LUs from the host host-name value starting at the lu-start value and ending with the lu-end value, inclusive, will be included in the pool pool-name. For the LUs in this pool, if there is no traffic on either the SSCP-LU or LU-LU sessions for the inactivity timeout number of minutes, the downstream LU will be disconnected from the upstream LU, and the upstream LU will be allocated to any downstream LU waiting for a session. A value of zero for inactivity minutes means no timeouts. (The inactivity timeout applies to all LUs in this pool, not just the LUs defined by this dspu pool command. The last value configured will be used.)
Examples
The following example defines a pool of host LUs. A pool of 253 host LUs is defined with all LUs supplied from the ibm3745 host PU:
dspu host ibm3745 xid-snd 065000001 rmac 4000.3745.0001
dspu pool hostpool host ibm3745 lu 2 254
The following example defines multiple pools and defines a disjoint pool of host LUs. One pool with a total of 205 host LUs and second pool with a total of 48 host LUs are defined with all LUs supplied from the same ibm3745 host PU. Host LUs with addresses 2 to 201 and 250 to 254 are defined in hostpool1. Host LUs with addresses 202 to 249 are defined in hostpool2.
dspu host ibm3745 xid-snd 065000001 rmac 4000.3745.0001
dspu pool hostpool1 host ibm3745 lu 2 201
dspu pool hostpool2 host ibm3745 lu 202 249
dspu pool hostpool1 host ibm3745 lu 250 254
The following example defines a pool of LUs from multiple hosts. A pool of 506 host LUs is defined with 253 LUs supplied by the ibm3475 host PU and 253 supplied by the ibm3172 host PU.
dspu host ibm3745 xid-snd 065000001 rmac 4000.3745.0001
dspu host ibm3172 xid 06500002 rmac 4000.3172.0001
dspu pool hostpool host ibm3745 lu 2 254
dspu pool hostpool host ibm3172 lu 2 254
Related Commands
dspu pu (Token Ring, Ethernet, FDDI, RSRB, VDLC, NCIA)
To define an explicit downstream physical unit (PU) over Token Ring, Ethernet, FDDI, remote source-route bridging (RSRB), virtual data-link control, or NCIA connections, use the dspu pu command in global configuration mode. To cancel the definition, use the no form of this command.
dspu pu pu-name [rmac remote-mac] [rsap remote-sap] [lsap local-sap] [xid-rcv xid] [interface slot | port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
no dspu pu pu-name [rmac remote-mac] [rsap remote-sap] [lsap local-sap] [xid-rcv xid] [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
Syntax Description
Defaults
The default remote SAP is 4.
The default local SAP is 8.
The default window size is 7.
The default maximum I-frame is 1472.
The default retry count is 4.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Usage Guidelines
The local SAP address must be enabled by one of the following commands:
•dspu enable-pu lsap fo5
•dspu ncia enable-pu lsap
•dspu rsrb enable-pu lsap
•dspu vdlc enable-pu lsap
The send and receive maximum I-frame size includes the Systems Network Architecture (SNA) transmission header (TH) and request/response (RH), but does not include the data-link control header. The DSPU feature will segment frames being sent to fit within this frame size. If an XID is received from a remote PU, which indicates that it supports a different maximum I-frame size, then the lower of the two values is used.
If you want the DSPU to attempt a ConnectOut to the remote node using the dspu start command, you must configure the rmac keyword and argument. If you want this PU to match against a ConnectIn attempt, then several combinations of the rmac, rsap, and xid-rcv keywords are possible. The matching algorithms are as follows:
•rmac—Match on remote MAC/SAP address of downstream PU.
•xid-rcv—Match on XID value received from downstream PU.
•rmac/rsap, xid-rcv—Match on remote MAC or SAP address of downstream PU and XID value received from downstream PU.
If an XID is received from a remote PU, which indicates that it supports a different maximum I-frame size, then the lower of the two values is used.
For Cisco IOS Release 11.3 and later releases, the number of DSPU PUs that can be configured is 1024.
Examples
In the following example, a downstream PU is defined with only the MAC address and SAP address specified. A downstream PU that attempts an incoming connection to the DSPU will be accepted only if the remote MAC or SAP address matches the configured values for this downstream PU (and the proper local SAP address is enabled).
dspu pu ciscopu rmac 1000.5AED.1F53 rsap 20
dspu lu 2 5 pool hostpool
interface tokenring 0
dspu enable-pu lsap 8
In the following example, a downstream PU is defined with only an xid-rcv value. Any downstream PU that attempts an incoming connection specifying the xid-rcv value, 05D00001, will be accepted without regard to remote MAC or SAP address (although the proper local SAP address must be enabled).
dspu pu ciscopu xid-rcv 05d00001
dspu lu 2 5 pool hostpool
interface tokenring 0
dspu enable-pu lsap 8
In the following example, a downstream PU is defined with xid-rcv, rmac, and rsap keywords. Any downstream PU that attempts to connect in to the DSPU must match all three configured values for the connection to be accepted (the proper local SAP address must also be enabled).
dspu pu ciscopu rmac 1000.5AED.1F53 rsap 20 xid-rcv 05d00001
dspu lu 2 5 pool hostpool
interface tokenring 0
dspu enable-pu lsap 8
Related Commands
dspu pu (Frame Relay)
To define a downstream physical unit (DSPU) host over a Frame Relay connection, use the dspu pu command in global configuration mode. To cancel the definition, use the no form of this command.
dspu pu pu-name dlci dlci-number [rsap remote-sap] [lsap local-sap] [xid-rcv xid] [interface slot | port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
no dspu pu pu-name dlci dlci-number [rsap remote-sap] [lsap local-sap] [xid-rcv xid] [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
Syntax Description
Defaults
The default remote SAP is 4.
The default local SAP is 8.
The default window size is 7.
The default maximum I-frame is 1472.
The default retry count is 4.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Examples
The following example defines a downstream PU:
dspu pu pub dlci 8
Related Commands
dspu pu (QLLC)
To explicitly define a downstream physical unit (PU) over an X.25 connection, use the dspu pu command in global configuration mode. To cancel the definition, use the no form of this command.
dspu pu pu-name x25 remote-x121-addr [qllc local-x121-subaddr] [xid-rcv xid] [interface slot | port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
no dspu pu pu-name x25 remote-x121-addr [qllc local-x121-subaddr] [xid-rcv xid] [interface slot | port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
Syntax Description
Defaults
The default window size is 7.
The default maximum I-frame is 1472.
The default retry count is 4.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Examples
The following example defines a downstream PU:
dspu pu testpu x25 32012 qllc 12 xid-rcv 05d00001
Related Commands
dspu pu (SDLC)
To define a downstream physical unit (DSPU) host over an Synchronous Data Link Control (SDLC) connection, use the dspu pu command in global configuration mode. To cancel the definition, use the no form of this command.
dspu pu pu-name sdlc sdlc-addr [xid-rcv xid] [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
no dspu pu pu-name sdlc sdlc-addr [xid-rcv xid] [interface slot/port]] [window window-size] [maxiframe max-iframe] [retries retry-count] [retry-timeout retry-timeout]
Syntax Description
Defaults
The default window size is 7.
The default maximum I-frame is 1472.
The default retry count is 4.
The default retry timeout is 30 seconds.
Command Modes
Global configuration
Command History
Examples
The following example defines a downstream PU:
dspu pu testpu sdlc c1 interface serial 1/1
Related Commands
|
|
|
|---|---|
dspu enable-pu (SDLC) |
Enables an SDLC address for use by downstream PU connections. |
dspu lu |
Defines a dedicated LU or a range of LUs for an upstream host and a downstream PU. |
dspu rsrb
To define the local virtual ring, virtual bridge, target virtual ring, and virtual MAC address that the downstream physical unit (DSPU) feature will simulate at the remote source-route bridging (RSRB), use the dspu rsrb command in global configuration mode. To cancel the definition, use the no form of this command.
dspu rsrb local-virtual-ring bridge-number target-virtual-ring virtual-macaddr
no dspu rsrb local-virtual-ring bridge-number target-virtual-ring virtual-macaddr
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
The bridge-number argument can be specified only once in a configuration.
Use the dspu rsrb command to enable DSPU host and downstream connections to be established across an RSRB link.
If the local-ack value is specified on the source-bridge remote-peer statement, DSPU will establish host connections across RSRB using local acknowledgment. DSPU cannot support local acknowledgment for downstream PU connections across RSRB.
Examples
The following example defines DSPU to start a connection to the host across an RSRB link (without local acknowledgment). The DSPU is identified by its local ring number 88 and its virtual MAC address 4000.FFFF.0001. When the DSPU attempts an outgoing connection to the ibm3745 host, the connection will be established across the RSRB virtual ring 99.
source-bridge ring-group 99
source-bridge remote-peer 99 tcp 10.10.13.1
source-bridge remote-peer 99 tcp 10.10.13.2
dspu rsrb 88 1 99 4000.FFFF.0001
dspu rsrb enable-host lsap 10
dspu host ibm3745 xid-snd 06500001 rmac 4000.3745.0001 lsap 10
dspu rsrb start ibm3745
interface serial 0
ip address 10.10.13.1 255.255.255.0
The following example defines the DSPU to start a connection to the host across an RSRB link (with local acknowledgment). The DSPU is identified by its local ring number 88 and its virtual MAC address 4000.FFFF.0001. When the DSPU attempts an outward connection to the ibm3745 host, the connection will be established across the RSRB virtual ring 99 using RSRB local acknowledgment.
source-bridge ring-group 99
source-bridge remote-peer 99 tcp 10.10.13.1
source-bridge remote-peer 99 tcp 10.10.13.2 local-ack
dspu rsrb 88 1 99 4000.FFFF.0001
dspu rsrb enable-host lsap 10
dspu host ibm3745 xid-snd 06500001 rmac 4000.3745.0001 lsap 10
dspu rsrb start ibm3745
interface serial 0
ip address 10.10.13.1 255.255.255.0
The following example define the s DSPU to allow a connection from the downstream PU across an RSRB link. The DSPU is identified by its local ring number 88 and its virtual MAC address 4000.FFFF.0001. The downstream PU will specify the DSPU virtual MAC address 4000.FFFF.0001 and SAP address 20 in its host definitions. The DSPU will accept incoming connections from the downstream PU across the RSRB virtual ring 99.
source-bridge ring-group 99
source-bridge remote-peer 99 tcp 10.10.13.1
source-bridge remote-peer 99 tcp 10.10.13.2
dspu rsrb 88 1 99 4000.FFFF.0001
dspu rsrb enable-pu lsap 20
dspu pu ciscopu xid-rcv 05D00001 lsap 20
interface serial 0
ip address 10.10.13.1 255.255.255.0
Related Commands
dspu rsrb enable-host
To enable an remote source-route bridging (RSRB) service access point (SAP) for use by downstream physical unit (DSPU) host connections, use the dspu rsrb enable-host command in global configuration mode. To disable the RSRB SAP, use the no form of this command.
dspu rsrb enable-host [lsap local-sap]
no dspu rsrb enable-host [lsap local-sap]
Syntax Description
Defaults
The default local SAP is 12.
Command Modes
Global configuration
Command History
Examples
In the following example, the local SAP address 10 of the RSRB is enabled for use by the ibm3745 host physical unit (PU):
source-bridge ring-group 99
source-bridge remote-peer 99 tcp 10.10.13.1
source-bridge remote-peer 99 tcp 10.10.13.2
dspu rsrb 88 1 99 4000.FFFF.0001
dspu rsrb enable-host lsap 10
dspu host ibm3745 xid-snd 06500001 rmac 4000.3745.0001 lsap 10
interface serial 0
ip address 10.10.13.1 255.255.255.0
Related Commands
dspu rsrb enable-pu
To enable an remote source-route bridging (RSRB) service access point (SAP) for use by downstream physical unit (DSPU) downstream connections, use the dspu rsrb enable-pu command in global configuration mode. To disable the SAP, use the no form of this command.
dspu rsrb enable-pu [lsap local-sap]
no dspu rsrb enable-pu [lsap local-sap]
Syntax Description
Defaults
The default local SAP is 8.
Command Modes
Global configuration
Command History
Examples
In the following example, the local SAP address 20 of the RSRB is enabled for use by the ciscopu DSPU downstream physical unit (PU):
source-bridge ring-group 99
source-bridge remote-peer 99 tcp 10.10.13.1
source-bridge remote-peer 99 tcp 10.10.13.2
dspu rsrb 88 1 99 4000.FFFF.0001
dspu rsrb enable-pu lsap 20
dspu pu ciscopu xid-rcv 05D00001 lsap 20
Related Commands
dspu rsrb start
To specify that an attempt will be made to connect to the remote resource defined by host name or physical unit (PU) name through the remote source-route bridging (RSRB), use the dspu rsrb start command in global configuration mode. To cancel the definition, use the no form of this command.
dspu rsrb start {host-name | pu-name}
no dspu rsrb start {host-name | pu-name}
Syntax Description
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
Before issuing this command, you must enable the correct local service access point (SAP) with the appropriate enable command (dspu rsrb enable-host for a host resource, and dspu rsrb enable-pu for a PU resource).
This command is valid only if the target MAC address has been defined in the resource. For a host resource, this is not a problem because the MAC address is mandatory, but for a PU resource the MAC address is optional. The command will fail if the MAC address is missing.
Examples
In the following example, the downstream physical unit (DSPU) will initiate a connection with the ibm3745 host PU across the RSRB link:
source-bridge ring-group 99
source-bridge remote-peer 99 tcp 10.10.13.1
source-bridge remote-peer 99 tcp 10.10.13.2
dspu rsrb 88 1 99 4000.FFFF.0001
dspu rsrb enable-host lsap 10
dspu host ibm3745 xid-snd 06500001 rmac 4000.3745.0001 lsap 10
dspu rsrb start ibm3745
interface serial 0
ip address 10.10.13.1 255.255.255.0
Related Commands
dspu start
To specify that an attempt will be made to connect to the remote resource defined by host name or physical unit (PU) name, use the dspu start command in interface configuration mode. To cancel the definition, use the no form of this command.
dspu start {host-name | pu-name}
no dspu start {host-name | pu-name}
Syntax Description
host-name |
Name of a host defined in a dspu host command. |
pu-name |
Name of a PU defined in a dspu pu command. |
Defaults
No default behavior or values.
Command Modes
Interface configuration
Command History
Usage Guidelines
Before issuing this command, you must enable the correct address using the appropriate dspu enable-host or dspu enable-pu command.
This command is valid only if the target address (remote MAC [RMAC], Synchronous Data Link Control [SDLC], data-link connection identifier [DLCI], or X.25 parameter) has been defined for the resource. For a host resource, this is not a problem because the address specification is mandatory, but for a PU resource, specifying the address is optional. The dspu start command will fail if the address is missing.
Examples
In the following example, the downstream physical unit (DSPU) will initiate a connection with the ciscopu downstream PU on Token Ring interface 0:
dspu pu ciscopu xid-rcv 05D00001 rmac 1000.5AED.1F53 lsap 20
interface tokenring 0
dspu enable-pu lsap 20
dspu start ciscopu
Related Commands
dspu vdlc
To identify the local virtual ring and virtual MAC address that will be used to establish downstream physical unit (DSPU) host and downstream connections over data-link switching plus (DLSw+) using virtual data-link control, use the dspu vdlc command in global configuration mode. To cancel the definition, use the no form of this command.
dspu vdlc ring-group virtual-mac-address
no dspu vdlc ring-group virtual-mac-address
Syntax Description
ring-group |
Local virtual ring number identifying the SRB ring group. |
virtual-mac-address |
Virtual MAC address that represents the DSPU virtual data-link control. |
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
The virtual data-link control local virtual ring must have been previously configured using the source-bridge ring-group command.
The virtual data-link control virtual MAC address must be unique within the DLSw+ network.
To avoid an address conflict on the virtual MAC address, use a locally administered address in the form 4000.xxxx.xxxx.
Examples
The following example defines the DSPU to start a connection to the host using virtual data-link control. The DSPU virtual data-link control is identified by its virtual MAC address 4000.4500.01f0, existing on the SRB virtual ring 99. When the DSPU attempts an outgoing connection to the host HOST-B, the connection will be established across the virtual ring 99.
source-bridge ring-group 99
dlsw local-peer peer-id 10.10.16.2
dlsw remote-peer 0 tcp 10.10.16.1
dspu vdlc 99 4000.4500.01f0
dspu vdlc enable-host lsap 12
dspu host HOST-B xid-snd 065bbbb0 rmac 4000.7000.01f1 rsap 4 lsap 12 focalpoint
dspu vdlc start HOST-B
interface serial 3
description IP connection to dspu7k
ip address 10.10.16.2 255.255.255.0
clockrate 4000000
Related Commands
dspu vdlc enable-host
To enable a service access point (SAP) for use by downstream physical unit (DSPU) host connections, use the dspu vdlc enable-host command in global configuration mode. To disable the SAP, use the no form of this command.
dspu vdlc enable-host [lsap local-sap]
no dspu vdlc enable-host [lsap local-sap]
Syntax Description
Defaults
The default local SAP is 12.
Command Modes
Global configuration
Command History
Examples
In the following example, the local SAP address 12 is enabled for use by the host PU HOST-B:
source-bridge ring-group 99
dlsw local-peer peer-id 10.10.16.2
dlsw remote-peer 0 tcp 10.10.16.1
dspu vdlc 99 4000.4500.01f0
dspu vdlc enable-pu lsap 8
dspu vdlc enable-host lsap 12
dspu host HOST-B xid-snd 065bbbb0 rmac 4000.7000.01f1 rsap 4 lsap 12 focalpoint
dspu pool pool-b host HOST-B lu 2 254
dspu host HOST3K-A xid-snd 05d0000a rmac 4000.3000.0100 rsap 8 lsap 12
dspu pool pool3k-a host HOST3K-A lu 2 254
dspu pu PU3K-A xid-rcv 05d0000a rmac 4000.3000.0100 rsap 10 lsap 8
dspu lu 2 254 pool pool-b
dspu default-pu
dspu lu 2 5 pool pool3k-a
dspu vdlc start HOST-B
dspu vdlc start HOST3K-A
dspu vdlc start PU3K-A
interface serial 3
description IP connection to dspu7k
ip address 10.10.16.2 255.255.255.0
clockrate 4000000
Related Commands
dspu vdlc enable-pu
To enable a service access point (SAP) for use by downstream physical unit (DSPU) virtual data-link control downstream connections, use the dspu vdlc enable-pu command in global configuration mode. To disable the SAP, use the no form of this command.
dspu vdlc enable-pu [lsap local-sap]
no dspu vdlc enable-pu [lsap local-sap]
Syntax Description
Defaults
The default local SAP is 8.
Command Modes
Global configuration
Command History
Examples
In the following example, the local SAP address 8 is enabled for use by the downstream PU PU3K-A:
source-bridge ring-group 99
dlsw local-peer peer-id 10.10.16.2
dlsw remote-peer 0 tcp 10.10.16.1
dspu vdlc 99 4000.4500.01f0
dspu vdlc enable-pu lsap 8
dspu vdlc enable-host lsap 12
dspu host HOST-B xid-snd 065bbbb0 rmac 4000.7000.01f1 rsap 4 lsap 12 focalpoint
dspu pool pool-b host HOST-B lu 2 254
dspu host HOST3K-A xid-snd 05d0000a rmac 4000.3000.0100 rsap 8 lsap 12
dspu pool pool3k-a host HOST3K-A lu 2 254
dspu pu PU3K-A xid-rcv 05d0000a rmac 4000.3000.0100 rsap 10 lsap 8
dspu lu 2 254 pool pool-b
dspu default-pu
dspu lu 2 5 pool pool3k-a
dspu vdlc start HOST-B
dspu vdlc start HOST3K-A
dspu vdlc start PU3K-A
interface serial 3
description IP connection to dspu7k
ip address 10.10.16.2 255.255.255.0
clockrate 4000000
Related Commands
dspu vdlc start
To specify that an attempt will be made to connect to the remote resource defined by host name or physical unit (PU) name through virtual data-link control, use the dspu vdlc start command in global configuration mode. To cancel the definition, use the no form of this command.
dspu vdlc start {host-name | pu-name}
no dspu vdlc start {host-name | pu-name}
Syntax Description
host-name |
Name of a host defined in a dspu host command. |
pu-name |
Name of a PU defined in a dspu host command. |
Defaults
No default behavior or values.
Command Modes
Global configuration
Command History
Usage Guidelines
Before issuing this command, you must enable the correct local service access point (SAP) with the appropriate enable command (dspu vdlc enable-host for a host resource, and dspu vdlc enable-pu for a PU resource).
This command is valid only if the target MAC address has been defined in the resource. For a host resource, this is not a problem because the MAC address is mandatory, but for a PU resource the MAC address is optional. The command will fail if the MAC address is missing.
Examples
In the following example, the downstream physical unit (DSPU) attempts to initiate connections with host PU HOST-B, host PU HOST3k-A, and downstream PU PU3k-A over data-link switching plus (DLSw+) using virtual data-link control:
source-bridge ring-group 99
dlsw local-peer peer-id 10.10.16.2
dlsw remote-peer 0 tcp 10.10.16.1
dspu vdlc 99 4000.4500.01f0
dspu vdlc enable-pu lsap 8
dspu vdlc enable-host lsap 12
dspu host HOST-B xid-snd 065bbbb0 rmac 4000.7000.01f1 rsap 4 lsap 12 focalpoint
dspu pool pool-b host HOST-B lu 2 254
dspu host HOST3K-A xid-snd 05d0000a rmac 4000.3000.0100 rsap 8 lsap 12
dspu pool pool3k-a host HOST3K-A lu 2 254
dspu pu PU3K-A xid-rcv 05d0000a rmac 4000.3000.0100 rsap 10 lsap 8
dspu lu 2 254 pool pool-b
dspu default-pu
dspu lu 2 5 pool pool3k-a
dspu vdlc start HOST-B
dspu vdlc start HOST3K-A
dspu vdlc start PU3K-A
interface serial 3
description IP connection to dspu7k
ip address 10.10.16.2 255.255.255.0
clockrate 4000000
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