IBM BC-201 manual Ncia Client/Server Model, BC-227

Page 27

Overview of IBM Networking

NCIA

The NCIA Server communicates with other components in router, such as RSRB, SNASw, DLSw+, and DSPU.

Supports both connect-in and connect-out.

The NCIA client/server model is independent of the upstream implementation.

It is an efficient protocol between client and server.

NCIA Client/Server Model

The NCIA Server feature uses a client/server model (see Figure 101), where the NCIA server is a software module on a Cisco router and the NCIA client is a PC or workstation. The NCIA server performs two major functions:

Establishes TCP to NCIA Data Link Control (NDLC) sessions with clients for the purpose of sending and receiving data.

Uses the Cisco link services interface (CLSI) to communicate with other software modules in the router, such as SNASw, DLSw+, and DSPU, and acts as the data intermediary between them and NCIA clients. The NCIA server’s role as an intermediary is transparent to the client.

Figure 101 NCIA Server Client/Server Model

SNASw

 

DLSw+

 

DLSw local switch

 

DSPU

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

LLC2

 

 

NCIA server

 

RSRB

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Ethernet

 

 

 

Token Ring

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

TCP/IP

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

NDLC

SNA

NCIA client

TCP/IP

51913

 

NCIA Data Link Control (NDLC) is the protocol used between clients and servers. NDLC serves two purposes:

Establishes the peer connection

Establishes the circuit between the client and the server

The peer session must be established before an end-to-end circuit can be set up. During the set up period for the peer session, the MAC address representing a client is defined. The MAC address can be defined by the client or by the server when the client does not have a MAC address.

The NCIA Server feature supports connect-in and connect-out (from the server’s perspective), but connect-out is not supported if the client station does not listen for the incoming connection. For a server to connect-out, clients must connect to the server first. After registering itself by providing its own MAC address, the client can then optionally disconnect from the server. When a server receives an explorer, and its destination MAC address is registered, an NCIA server will connect to that client if it is not connected. For NetBIOS explorers (addressed to functional address 0xC00000000080), the TCP session must remain up so that the server can broadcast the explorers to the client. If the TCP session is down, the server will not send the NetBIOS explorers to a client, even when the client is registered.

 

 

Cisco IOS Bridging and IBM Networking Configuration Guide

 

 

 

 

 

 

 

78-11737-02

 

 

BC-227

 

 

 

 

 

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Contents BC-201 Overview of IBM NetworkingBC-202 RsrbBC-203 Configuration ConsiderationsBC-204 DLSw+DLSw Standard DLSw Version 2 StandardBC-205 UDP Unicast DLSw+ FeaturesEnhanced Peer-on-Demand Routing Feature IP MulticastBC-207 Local AcknowledgmentLLC2 Session Without Local Acknowledgment BC-208BC-209 BC-210 DLSw+ Support for Other SNA FeaturesStun and Bstun Stun NetworksBC-211 BC-212 Stun FeaturesBC-213 Stun BC-214BC-215 Bstun FeaturesLLC2 and Sdlc Parameters Bstun NetworksBC-216 Cisco Implementation of LLC2IBM Network Media Translation Cisco Implementation of SdlcBC-217 Sdllc Media Translation Features Virtual Token Ring ConceptBC-218 BC-219 Resolving Differences in LLC2 and Sdlc Frame SizeMaintaining a Dynamic RIF Cache Other ConsiderationsBC-220 Qllc ConversionBC-221 Cisco Implementation of Qllc ConversionBC-222 Comparing Qllc Conversion to SdllcBC-223 Other Implementation ConsiderationsBC-224 RFC 1490 Routed Format for LLC2 BNNBC-225 RFC 1490 Bridged Format for LLC2 BANBC-226 Ncia ServerBC-227 Ncia Client/Server ModelAdvantages of the Client/Server Model Extended ScalabilityBC-228 BC-229 Migration SupportBC-230 Dspu and SNA Service PointBC-231 Shows a router functioning as a Dspu concentratorSNA Switching Services Benefits of SNASwBC-232 Network Design Simplicity Reduced Configuration RequirementsScalable Appn Networks IP Infrastructure SupportHPR Capable SNA Routing Services Branch ExtenderBC-234 BC-235 Enterprise Extender HPR/IPDynamic SNA BTU Size Usability FeaturesResponsive Mode Adaptive Rate-Based Flow Control Dynamic CP Name Generation SupportConsole Message Archiving Interprocess Signal TracingManagement Enhancements User-Settable Port LimitsVirtual Token Ring LAN and IP-Focused Connection TypesMIB Support for Advanced Network Management Awareness Token Ring, Ethernet, and FddiCisco Transaction Connection Virtual Data-Link ControlNative IP Data-Link Control HPR/IP BC-240 Ctrc and CicsBC-241 Ctrc and DB2Cmcc Adapter Hardware Benefits of CtrcBC-242 Channel Interface Processor Channel Port AdapterBC-243 BC-244 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 EnvironmentsIP Host Backup Cisco Multipath Channel+BC-246 Cmcc Adapter Features for SNA Environments Cisco SNABC-247 Cisco Multipath Channel TN3270 ServerBC-248 SNA Functions Telnet Server FunctionsBC-249 BC-250
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