Perle Systems IOLINK-520 manual IPX Specifics, RIP/IPX and SAP/IPX, Suspension of IPX Sessions

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ISDN Connection Management

IPX Specifics

RIP/IPX and SAP/IPX

IOLINK ISDN routers incorporate a 3 second settling time for IPX RIP and SAP updates. This means that an IOLINK will wait for three seconds after an initial change in the network is reported before transmitting that change on to the remaining IOLINK routers connected on the Wide Area Network.

Suspension of IPX Sessions

When Connection Management is enabled, IPX sessions that are established across the ISDN calls are monitored and maintained in a table. The IPX connection table may contain up to 256 entries. The IOLINK will filter all watchdog traffic for any IPX session over the 256 limit of the table preventing any new IPX sessions from being established.

Server IPX Watchdog Frames

When the IOLINK router on the server side of the IPX session receives an IPX watchdog packet from the server on the local LAN, the IOLINK router will pass the watchdog packet to the remote partner IOLINK router and then to the client side of the IPX session. Once the client side of the session has responded to the IPX watchdog, the IOLINK router on the server side of the IPX session will consider all future IPX watchdog packets for this session to be non-interesting and will not pass them across the ISDN call.

The IOLINK router on the server side of the IPX session will generate a response to each IPX watchdog packet sent by the server and send the response back to the server on the local LAN. In this way, the local IOLINK router will keep the ISDN call suspended and will also keep the local side of the IPX session active.

While an ISDN call is suspended, if the IOLINK router on the server side of the IPX session observes that the server has stopped generating IPX watchdog packets, the IOLINK router will assume that the server has gone away and alert the IOLINK router on the client side of the IPX session. The IOLINK router on the client side of the IPX session will stop generating IPX watchdog packets for that IPX session.

Client IPX Watchdog Frames

When the IOLINK router on the client side of the IPX session observes an IPX watchdog packet from the server side of the IPX session sent to the client, and later an IPX watchdog reply being sent from the client back to the server, the IOLINK router on the client side of the IPX session will begin to generate and send IPX watchdog packets to the client on behalf of the server.

While an ISDN call is suspended, if the IOLINK router on the client side of the IPX session observes that the client has stopped responding to the IPX watchdog packets, the IOLINK router will assume that the client has gone away and will alert the IOLINK router on the server side of the IPX session. The IOLINK router on the server side of the IPX session will stop responding to the IPX watchdog packets for that IPX session and will filter all remaining IPX watchdog packets generated by the server until the server has determined that the client has gone away.

The time interval between the IPX watchdog packets generated by the IOLINK router on the client side of the IPX session may be defined by the operator by setting the Watchdog Interval option in the IPX Routing Set-Up menu.

IPX Serialization Frames

The IOLINK router will prevent IPX serialization frames from activating a suspended ISDN call by filtering the IPX serialization frames. The IOLINK router will allow IPX serialization frames to be passed to the WAN when the ISDN call is active.

2.8IOLINK-PRO & 520 Reference Manual

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Contents Reference Manual IP Routing and the IOLINK-PRO & 520 Routers IOLINK-PRO & 520 RoutersComplete IP Connection ARP-Address Resolution ProtocolProxy ARP IOLINK-PRO & 520 Reference Manua Protocol IP Header DetailsTime to live Header ChecksumOptions Icmp MessagesUnreachable RedirectTime and Mask server PingRoute Tables Update MechanismRIP-Routing Information Protocol IPX Addressing IPX Routing and The IOLINK-PRO & 520 RoutersNetwork Layer Addressing vs. MAC Addressing IPX Address FormatIPX Header Other IPX Header InformationSAP Broadcasts Service Advertisement ProtocolEstablishing an IPX Connection Routing Information Protocol Server TypesSAP Requests RIP/X OperationRIP/X Metrics Bridging and the IOLINK-PRO & 520 RoutersRIP/X Requests Station Address Learning Initial Bridging ProcessAddress Purging Aging TimerAging Exception Filled Address TableLink Compression Iolink Router Feature DefinitionsTelnet Introduction Bandwidth On Demand WAN TopologiesPoint-to-Point MultipointTime of Day Connect Application Isdn Single Active Link & Dual Active Link Disaster Recovery Backup LinkOperating Software Upgrades Call Establishment Methods Iolink PRO & 520 Isdn Connection ManagementWide Area Network Topologies Supported Auto-Call Time-of-Day Connections Isdn Connection ManagementManual Call Address ConnectCombination Connection ProcessProtocol Awareness Idle TimerSuspension Process Interesting TrafficTermination Process Session Keepalive MessagesIP Address Connect IP SpecificsSuspension of TCP/IP Sessions RIP-Routing Information ProtocolRIP/IPX and SAP/IPX IPX SpecificsSuspension of IPX Sessions IPX Serialization FramesLink Clocking Information Pinout InformationModule Identification Link Interfaces Reference ATL CSU/DSU Link Module InformationConsole Pinouts T1/E1 Module CSU/DSU ModuleRS232 Link Pinouts 24 & RS232C Link PinoutsDB15 Female DTE Direction Contact Circuits From Number 11 & X.21 Link PinoutsDB25 Female DTE Direction Contact Circuit From Number Name RS442 & RS530 Link PinoutsNumber Name Link PinoutsDB25 11 RS232 Null-Modem Cable RS232 Null-Modem Cable Configuration12 V.35 Null-Modem Cable Null-Modem Cable Configuration13 RS530 Null-Modem Cable RS530 Null-Modem Cable Configuration14 RS530 to RS449 Conversion Cable RS530 To RS449 Conversion Cable15 V.11/X.21 Null-Modem Cable 11/X.21 Null-Modem Cable ConfigurationWAN Link Control-Signal Operation Event logs Appendix a Event LogsEvent Logs IOLINK-PRO & 520 Reference Manual A.3 Event Logs IOLINK-PRO & 520 Reference Manual A.5 Event Logs IOLINK-PRO & 520 Reference Manual A.7 Event Logs Alarm Logs Event Logs IOLINK-PRO & 520 Reference Manual A.11 Event Logs IOLINK-PRO & 520 Reference Manual A.13 Event Logs IOLINK-PRO & 520 Reference Manual A.15 Event Logs IOLINK-PRO & 520 Reference Manual A.17 Event Logs IOLINK-PRO & 520 Reference Manual A.19 PPP Security Logs Security MAC Address FilteringSecurity-Filter if Destination Programmable FilteringSecurity-Filter if Source Security-Forward if Destination Security-Forward if Source Programmable Filtering Protocol Discrimination Pattern Filter OperatorsBridge Pattern Filtering Internet Protocol IP Protocol Type FieldFilter all IP Packets IP, and no moreFilter only TCP/IP Transport Control Protocol / Internet Protocol TCP/IPFilter all IP without TCP traffic Filter all except TCP/IPFilter all DEC Bandwidth ConservationEthernet Broadcasting Ethernet MulticastingEthernet Station Addresses General RestrictionsInternet Addresses Mask would be 6-010203040506&12-0800&23-06 Example Mask CombinationsIPX Router Pattern Filtering IP Router Pattern FilteringPage Appendix C Frame Formats Octet Locations on an IP Routed TCP/IP Frame IOLINK-PRO & 520 Reference Manual C.3
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