IBM BC-203 manual Stun Features, BC-214

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Overview of IBM Networking

STUN and BSTUN

Figure 89 Comparison of STUN in Passthrough Mode and Local Acknowledgment Mode

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SDLC session

SNA session

TCP session

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SDLC session

 

SDLC session

 

SNA session

Note To enable STUN local acknowledgment, you first enable the routers for STUN and configure them to appear on the network as primary or secondary SDLC nodes. TCP/IP encapsulation must be enabled. Cisco’s STUN local acknowledgment feature also provides priority queueing for TCP-encapsulated frames.

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STUN Features

Cisco’s STUN implementation provides the following features:

Encapsulates SDLC frames in either the Transmission Control Protocol/Internet Protocol (TCP/IP) or the HDLC protocol.

Allows two devices using SDLC- or HDLC-compliant protocols that are normally connected by a direct serial link to be connected through one or more Cisco routers, reducing leased-line costs.

When you replace direct serial links with routers, serial frames can be propagated over arbitrary media and topologies to another router with a STUN link to an appropriate end point. The intervening network is not restricted to STUN traffic, but rather, is multiprotocol. For example, instead of running parallel backbones for DECnet and SNA/SDLC traffic, this traffic now can be integrated into an enterprise backbone network.

Supports local acknowledgment for direct Frame Relay connectivity between routers, without requiring TCP/IP.

Cisco IOS Bridging and IBM Networking Configuration Guide

BC-214

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Contents Overview of IBM Networking BC-203Rsrb BC-204Configuration Considerations BC-205DLSw+ BC-206DLSw Standard DLSw Version 2 StandardBC-207 DLSw+ Features Enhanced Peer-on-Demand Routing FeatureIP Multicast UDP UnicastLocal Acknowledgment BC-209BC-210 LLC2 Session Without Local AcknowledgmentBC-211 DLSw+ Support for Other SNA Features BC-212Stun and Bstun Stun NetworksBC-213 Stun Features BC-214BC-215 BC-216 StunBstun Features LLC2 and Sdlc ParametersBstun Networks BC-217Cisco’s Implementation of LLC2 BC-218IBM Network Media Translation Cisco’s Implementation of SdlcBC-219 Sdllc Media Translation Features Virtual Token Ring ConceptBC-220 Resolving Differences in LLC2 and Sdlc Frame Size Maintaining a Dynamic RIF CacheOther Considerations BC-221Qllc Conversion BC-222Cisco’s Implementation of Qllc Conversion BC-223Comparing Qllc Conversion to Sdllc BC-224Other Implementation Considerations BC-225RFC 1490 Routed Format for LLC2 BNN BC-226RFC 1490 Bridged Format for LLC2 BAN BC-227BC-228 NciaNcia Server Ncia Client/Server ModelBC-229 BC-230 Ncia Server Client/Server ModelAdvantages of the Client/Server Model Extended ScalabilityMigration Support BC-231BC-232 AlpsDspu and SNA Service Point BC-233BC-234 Router Acting as a Dspu ConcentratorSNA Switching Services Benefits of SNASwBC-235 Reduced Configuration Requirements Scalable Appn NetworksIP Infrastructure Support Network Design SimplicityHPR Capable SNA Routing Services Branch ExtenderBC-237 Enterprise Extender HPR/IP BC-238Usability Features Dynamic CP Name Generation SupportDynamic SNA BTU Size Dlur Connect-OutManagement Enhancements LAN and IP-Focused Connection Types Trap MIB Support for Advanced Network Management AwarenessToken Ring, Ethernet, and Fddi Virtual Token RingDLC Switching Support for Access to Sdlc and Qllc Cisco Transaction ConnectionVirtual Data-Link Control Native IP Data-Link Control HPR/IPCtrc and Cics BC-243Ctrc and DB2 BC-244Cmcc Adapter Hardware Benefits of CtrcBC-245 Channel Interface Processor Channel Port AdapterBC-246 Differences between the CIP and CPA Escon Channel Port AdapterParallel Channel Port Adapter BC-247Cmcc Adapter Features for TCP/IP Environments Common Link Access to WorkstationSupported Environments TCP/IP OffloadIP Host Backup Cisco Multipath Channel+BC-249 Cmcc Adapter Features for SNA Environments Cisco SNABC-250 Cisco Multipath Channel TN3270 ServerBC-251 SNA Functions Telnet Server FunctionsBC-252 BC-253 BC-254