Cisco Systems BC-281 manual DLSw+ Support for Other SNA Features, BC-287

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Configuring Data-Link Switching Plus

Technology Overview

If you are using NetBIOS applications, note that there are two NetBIOS timers—one at the link level and one at the next higher level. Local acknowledgment for LLC2 is designed to solve link timeouts only. If you are experiencing NetBIOS session timeouts, you have two options:

Experiment with increasing your NetBIOS timers and decreasing your maximum NetBIOS frame size.

Avoid using NetBIOS applications on slow serial lines.

Note By default, the Cisco IOS software translates Token Ring LLC2 to Ethernet 802.3 LLC2. To configure the router to translate Token Ring LLC2 frames into Ethernet 0x80d5 format frames, refer to the section “Enable Token Ring LLC2-to-Ethernet Conversion” in the “Configuring Source-Route Bridging” chapter of the Cisco IOS Bridging and IBM Networking Command Reference (Volume 1 of 2).

DLSw+ Support for Other SNA Features

DLSw+ can be used as a transport for SNA features such as LNM, DSPU, SNA service point, and SNA Switching Services (SNASw) through a Cisco IOS feature called virtual data-link control (VDLC).

LNM over DLSw+ allows DLSw+ to be used in Token Ring networks that are managed by IBM’s LNM software. Using this feature, LNM can be used to manage Token Ring LANs, control access units, and Token Ring attached devices over a DLSw+ network. All management functions continue to operate as they would in a source-route bridged network or an RSRB network.

DSPU over DLSw+ allows Cisco’s DSPU feature to operate in conjunction with DLSw+ in the same router. DLSw+ can be used either upstream (toward the mainframe) or downstream (away from the mainframe) of DSPU. DSPU concentration consolidates the appearance of multiple PUs into a single PU appearance to VTAM, minimizing memory and cycles in central site resources (VTAM, NCP, and routers) and speeding network startup.

SNA service point over DLSw+ allows Cisco’s SNA service point feature to be used in conjunction with DLSw+ in the same router. Using this feature, SNA service point can be configured in remote routers, and DLSw+ can provide the path for the remote service point PU to communicate with NetView. This allows full management visibility of resources from a NetView 390 console, while concurrently offering the value-added features of DLSw+ in an SNA network.

SNASw over DLSw+ allows Cisco’s APPN Branch Extender functionality to be used in conjunction with DLSw+ in the same router. With this feature, DLSw+ can be used to access SNASw in the data center. DLSw+ can also be used as a transport for SNASw upstream connectivity, providing nondisruptive recovery from failures.

Using DLSw+ as a transport for other Cisco IOS SNA features requires a feature called VDLC. Cisco IOS data-link users (such as LNM, DSPU, SNA service point, and SNASw) write to a virtual data-link control interface. DLSw+ then reads from this interface and sends out the traffic. Similarly, DLSw+ can receive traffic destined for one of these data-link users and write it to the virtual data-link control interface, from which the appropriate data-link user will read it.

In Figure 129, SNASw and DLSw+ use Token Ring and Ethernet, respectively, as “real” data-link controls, and use virtual data-link control to communicate between themselves. When one of the high-layer protocols passes data to the virtual data-link control, the virtual data-link control must pass it to a higher-layer protocol; nothing leaves the virtual data-link control without going through a data-link user.

 

 

Cisco IOS Bridging and IBM Networking Configuration Guide

 

 

 

 

 

 

 

78-11737-02

 

 

BC-287

 

 

 

 

 

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Contents BC-281 Configuring Data-Link Switching PlusBC-282 DLSw StandardDLSw Version 2 Standard IP MulticastExpedited TCP Connection DLSw+ FeaturesEnhanced Peer-on-Demand Routing Feature UDP UnicastBC-284 Local AcknowledgmentLLC2 Session without Local Acknowledgment BC-285BC-286 BC-287 DLSw+ Support for Other SNA FeaturesFollowing is a sample dlsw local peer statement Command PurposeDefining a DLSw+ Local Peer for the Router Defines the DLSw+ local peerTCP Encapsulation Defining a DLSw+ Remote PeerBC-289 BC-290 TCP/IP with RIF Passthrough EncapsulationFST Encapsulation Defines a remote peer with FST encapsulationDefines a remote peer with DLSw Lite encapsulation Direct EncapsulationDLSw Lite Encapsulation Defines a remote peer with direct encapsulationToken Ring Mapping DLSw+ to a Local Data-Link ControlBC-292 BC-293 EthernetAssociated with this serial interface Enables DLSw+ on an Sdlc interfaceBC-294 BC-295 Configuring Advanced FeaturesPeer Groups and Border Peers ScalabilityBC-296 BC-297 BC-298 Enables peer groups and border peersLocal, remote, and group caches Configures peer-on-demand defaultsBC-299 Explorer Firewalls Displays content of group, local and remote cachesNetBIOS Dial-on-Demand Routing Following command enables NetBIOS DDRBC-301 Following command configures the SNA DDR featureUDP Unicast Feature SNA Dial-on-Demand RoutingDynamic Peers Configures a dynamic peerPromiscuous Peer Defaults LLC1 CircuitsBC-303 Configures promiscuous peer defaultsAvailability Load BalancingBC-304 Local routerAddresses on a transparent bridged are mapped Configures transparent redundancyBackup Peers Ethernet RedundancyModes of Operation Configures a backup peerBC-306 BC-307 Access ControlNetwork Management Traffic Bandwidth and Queueing ManagementDLSw+ Bridge Group List Defines a port listBC-308 BC-309 Filter Lists in the Remote-Peer CommandStatic Paths Static Resources Capabilities ExchangeBC-310 Configuring DLSw+ TimersBC-311 BC-312 Following sections provide DLSw+ configuration examplesRouter B Router aBC-313 DLSw+ with Peer Groups Specified Example BC-314BC-315 Router CFEP BC-316BC-317 Router DBC-318 DLSw+ with Sdlc Multidrop Support Configuration ExamplesRouter E Following example, all devices are type PUBC-319 Following example, all devices are type PU 2.1 MethodHostname Router a BC-320DLSw+ Translation Between Fddi and Token Ring BC-321BC-322 DLSw+ Translation Between Sdlc and Token Ring Media ExampleSdlc partner 1000.5aed.1f53 d2 sdlc dlsw d2 BC-323Ring DLSw+ over Frame Relay Configuration ExampleBC-324 BC-325 DLSw+ over Qllc Configuration ExamplesFollowing three examples describe Qllc support for DLSw+ ExampleBC-326 DLSw+ with RIF Passthrough Configuration ExampleBC-327 DLSw+ with Enhanced Load Balancing Configuration ExampleBC-328 DLSw+ Peer Cluster Feature Configuration ExampleBC-329 DLSWRTR2BC-330 Shows a DLSw+ border peer network configured with DLSw+ RsvpBC-331 DLSw+ with Ethernet Redundancy Configuration ExampleBC-332 DLSw+ with Ethernet Redundancy in a Switched EnvironmentBC-333 BC-334