IBM BC-203 manual Local Acknowledgment, BC-209

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Overview of IBM Networking

DLSw+

This section contains information on the following topics related to DLSw+ features:

Local Acknowledgment, page 209

Notes on Using LLC2 Local Acknowledgment, page 211

DLSw+ Support for Other SNA Features, page 212

DLSw+ is fully compatible with any vendor’s RFC 1795 implementation and the following features are available when both peers are using DLSw+:

Peer groups and border peers

Backup peers

Promiscuous and on-demand peers

Explorer firewalls and location learning

NetBIOS dial-on-demand routing feature support

UDP unicast support

Load balancing

Support for LLC1 circuits

Support for multiple bridge groups

Support for RIF Passthru

SNA type of service feature support

Local acknowledgment for Ethernet-attached devices and media conversion for SNA PU 2.1 and PU 2.0 devices

Conversion between LLC2 to SDLC between PU 4 devices

Local or remote media conversion between LANs and either the SDLC Protocol or QLLC

SNA View, Blue Maps, and Internetwork Status Monitor (ISM) support

MIB enhancements that allow DLSw+ features to be managed by the CiscoWorks Blue products, SNA Maps, and SNA View. Also, new traps alert network management stations of peer or circuit failures. For more information, refer to the current Cisco IOS release note for the location of the Cisco MIB Web site.

Local Acknowledgment

When you have LANs separated by wide geographic distances, and you want to avoid multiple retransmissions or loss of user sessions that can occur with time delays, encapsulate the source-route bridged traffic inside IP datagrams passed over a TCP connection between two routers with local acknowledgment enabled.

LLC2 is an ISO standard data-link level protocol used in Token Ring networks. LLC2 was designed to provide reliable transmission of data across LAN media and to cause minimal or at least predictable time delays. However, RSRB and WAN backbones created LANs that are separated by wide, geographic distances-spanning countries and continents. As a result, LANs have time delays that are longer than LLC2 allows for bidirectional communication between hosts. Local acknowledgment addresses the problem of unpredictable time delays, multiple retransmissions, and loss of user sessions.

In a typical LLC2 session, when one host sends a frame to another host, the sending host expects the receiving host to respond positively or negatively in a predefined period of time commonly called the T1 time. If the sending host does not receive an acknowledgment of the frame it sent within the T1 time, it retries a few times (normally 8 to 10). If there is still no response, the sending host drops the session.

Cisco IOS Bridging and IBM Networking Configuration Guide

BC-209

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Contents BC-203 Overview of IBM NetworkingBC-204 RsrbBC-205 Configuration ConsiderationsBC-206 DLSw+DLSw Version 2 Standard DLSw StandardBC-207 UDP Unicast DLSw+ FeaturesEnhanced Peer-on-Demand Routing Feature IP MulticastBC-209 Local AcknowledgmentLLC2 Session Without Local Acknowledgment BC-210BC-211 BC-212 DLSw+ Support for Other SNA FeaturesStun Networks Stun and BstunBC-213 BC-214 Stun FeaturesBC-215 Stun BC-216BC-217 Bstun FeaturesLLC2 and Sdlc Parameters Bstun NetworksBC-218 Cisco’s Implementation of LLC2Cisco’s Implementation of Sdlc IBM Network Media TranslationBC-219 Virtual Token Ring Concept Sdllc Media Translation FeaturesBC-220 BC-221 Resolving Differences in LLC2 and Sdlc Frame SizeMaintaining a Dynamic RIF Cache Other ConsiderationsBC-222 Qllc ConversionBC-223 Cisco’s Implementation of Qllc ConversionBC-224 Comparing Qllc Conversion to SdllcBC-225 Other Implementation ConsiderationsBC-226 RFC 1490 Routed Format for LLC2 BNNBC-227 RFC 1490 Bridged Format for LLC2 BANNcia BC-228Ncia Client/Server Model Ncia ServerBC-229 Ncia Server Client/Server Model BC-230BC-231 Advantages of the Client/Server ModelExtended Scalability Migration SupportAlps BC-232BC-233 Dspu and SNA Service PointRouter Acting as a Dspu Concentrator BC-234Benefits of SNASw SNA Switching ServicesBC-235 Network Design Simplicity Reduced Configuration RequirementsScalable Appn Networks IP Infrastructure SupportBranch Extender HPR Capable SNA Routing ServicesBC-237 BC-238 Enterprise Extender HPR/IPDlur Connect-Out Usability FeaturesDynamic CP Name Generation Support Dynamic SNA BTU SizeManagement Enhancements Virtual Token Ring LAN and IP-Focused Connection TypesTrap MIB Support for Advanced Network Management Awareness Token Ring, Ethernet, and FddiNative IP Data-Link Control HPR/IP DLC Switching Support for Access to Sdlc and QllcCisco Transaction Connection Virtual Data-Link ControlBC-243 Ctrc and CicsBC-244 Ctrc and DB2Benefits of Ctrc Cmcc Adapter HardwareBC-245 Channel Port Adapter Channel Interface ProcessorBC-246 BC-247 Differences between the CIP and CPAEscon Channel Port Adapter Parallel Channel Port AdapterTCP/IP Offload Cmcc Adapter Features for TCP/IP EnvironmentsCommon Link Access to Workstation Supported EnvironmentsCisco Multipath Channel+ IP Host BackupBC-249 Cisco SNA Cmcc Adapter Features for SNA EnvironmentsBC-250 TN3270 Server Cisco Multipath ChannelBC-251 Telnet Server Functions SNA FunctionsBC-252 BC-253 BC-254
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