Perle Systems IOLINK-520 manual IP Specifics, IP Address Connect, Suspension of TCP/IP Sessions

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ISDN Connection Management

IP Specifics

IP Address Connect

As stated previously, an IP Address Connect connection is an ISDN connection that is established to a specific destination IOLINK router dependent upon the destination IP address contained within IP traffic received from the local LAN.

This means that the IOLINK router continuously monitors IP traffic from the local LAN, as all IP routers do, and makes ISDN connections to partner IOLINK routers when IP traffic needs to be sent to remote LANs. Once the IP traffic is passed to the remote LAN and all sessions are closed, the local IOLINK router will then disconnect the ISDN call and continue to monitor the local LAN for IP traffic.

The IP Address Connect table consists of IP addresses and associated ISDN numbers of remote partner IOLINK IP Routers. Either one or both of the ISDN calls may be used for IP Address Connect use. When one of the ISDN calls is defined for Auto-Call purposes, the remaining ISDN call may be used for IP Address Connect use.

The combination of Auto-Call and Address Connect allows part of the WAN environment to be established statically and still allow dynamic connections to other networks depending upon destination IP addresses.

Suspension of TCP/IP Sessions

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

While an ISDN call is suspended, if the IOLINK router observes that one of the devices in the session stops sending keepalive packets, the IOLINK router will begin to generate keepalive packets and send them to the device in order to determine the status of the device. The length of time the IOLINK router waits before beginning to generate keepalive packets is definable by the operator.

If the device does not respond to five consecutive keepalive packets sent from the IOLINK router, the IOLINK router will determine that the device has gone away and the IOLINK router will send a packet to each end of the TCP session to shut down the session. When the shut down packet is generated for the remote device, the IOLINK router will re-activate the suspended ISDN call and transmit the shut down packet to the remote device. Once the remote IOLINK router determines that the TCP session is no longer active, the remote IOLINK router will stop generating and responding to the keepalive packets for that TCP session.

RIP—Routing Information Protocol

IOLINK ISDN routers incorporate a 3 second settling time for IP RIP 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.

IOLINK-PRO & 520 Reference Manual — 2. 7

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Contents Reference Manual IOLINK-PRO & 520 Routers IP Routing and the IOLINK-PRO & 520 RoutersProxy ARP ARP-Address Resolution ProtocolComplete IP Connection IOLINK-PRO & 520 Reference Manua IP Header Details ProtocolTime to live Header ChecksumIcmp Messages OptionsUnreachable RedirectPing Time and Mask serverRIP-Routing Information Protocol Update MechanismRoute Tables IPX Routing and The IOLINK-PRO & 520 Routers IPX AddressingNetwork Layer Addressing vs. MAC Addressing IPX Address FormatOther IPX Header Information IPX HeaderEstablishing an IPX Connection Service Advertisement ProtocolSAP Broadcasts Server Types Routing Information ProtocolSAP Requests RIP/X OperationRIP/X Requests Bridging and the IOLINK-PRO & 520 RoutersRIP/X Metrics Initial Bridging Process Station Address LearningAging Timer Address PurgingFilled Address Table Aging ExceptionTelnet Iolink Router Feature DefinitionsLink Compression Introduction WAN Topologies Bandwidth On DemandPoint-to-Point MultipointTime of Day Connect Application Operating Software Upgrades Disaster Recovery Backup LinkIsdn Single Active Link & Dual Active Link Wide Area Network Topologies Supported Iolink PRO & 520 Isdn Connection ManagementCall Establishment Methods Isdn Connection Management Auto-Call Time-of-Day ConnectionsAddress Connect Manual CallConnection Process CombinationIdle Timer Protocol AwarenessSuspension Process Interesting TrafficSession Keepalive Messages Termination ProcessIP Specifics IP Address ConnectSuspension of TCP/IP Sessions RIP-Routing Information ProtocolIPX Specifics RIP/IPX and SAP/IPXSuspension of IPX Sessions IPX Serialization FramesModule Identification Pinout InformationLink Clocking Information ATL CSU/DSU Link Module Information Link Interfaces ReferenceConsole Pinouts CSU/DSU Module T1/E1 Module24 & RS232C Link Pinouts RS232 Link Pinouts11 & X.21 Link Pinouts DB15 Female DTE Direction Contact Circuits From NumberRS442 & RS530 Link Pinouts DB25 Female DTE Direction Contact Circuit From Number NameDB25 Link PinoutsNumber Name RS232 Null-Modem Cable Configuration 11 RS232 Null-Modem CableNull-Modem Cable Configuration 12 V.35 Null-Modem CableRS530 Null-Modem Cable Configuration 13 RS530 Null-Modem CableRS530 To RS449 Conversion Cable 14 RS530 to RS449 Conversion Cable11/X.21 Null-Modem Cable Configuration 15 V.11/X.21 Null-Modem CableWAN Link Control-Signal Operation Appendix a Event Logs 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 MAC Address Filtering SecurityProgrammable Filtering Security-Filter if DestinationSecurity-Filter if Source Security-Forward if Destination Security-Forward if Source Programmable Filtering Bridge Pattern Filtering Pattern Filter OperatorsProtocol Discrimination Protocol Type Field Internet Protocol IPFilter all IP Packets IP, and no moreTransport Control Protocol / Internet Protocol TCP/IP Filter only TCP/IPFilter all IP without TCP traffic Filter all except TCP/IPBandwidth Conservation Filter all DECEthernet Broadcasting Ethernet MulticastingInternet Addresses General RestrictionsEthernet Station Addresses Mask Combinations Mask would be 6-010203040506&12-0800&23-06 ExampleIP Router Pattern Filtering IPX 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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