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and the interface the monitored device is connected to Currently the only protocol supported for testing is ICMP (ipIcmpEcho) The timeout command specifies the number of milliseconds to wait for the echo reply The frequency command specifies the number of echo replies that must be missed before the tracked static route is considered bad The sla monitor schedule command specifies when monitoring should start and for how long Normally you want the tracking to start right now and continue forever, but you can change these values The track command associates the SLA_ID for monitoring with the tracking ID specified in the route command(s) Static Route Tracking Configuration Example To illustrate how static route tracking is used, examine Figure 4-2 In this example, the perimeter appliance is connected to two ISPs via two different perimeter routers, where ISP1 is the default path and ISP2 is the backup However, if either of these two ISP links were to go down, the appliance, since it is not connected to them, would not know this Here is the configuration for static route tracking for this example:
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ciscoasa(config)# sla monitor 100 ciscoasa(config-sla-monitor)# type echo protocol ipIcmpEcho 200111 interface outside ciscoasa(config-sla-monitor-echo)# timeout 1000 ciscoasa(config-sla-monitor-echo)# frequency 3 ciscoasa(config-sla-monitor-echo)# exit ciscoasa(config)# sla monitor schedule 100 life forever start-time now ciscoasa(config)# track 1 rtr 100 reachability ciscoasa(config)# route 0 0 outside1 19216811 1 track 1 ciscoasa(config)# route 0 0 outside2 19216821 2 track 1
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In the preceding configuration, the appliance is tracking a device, probably a router, in the ISP1 network (200111) If an echo reply is not received when tracking within 1 second (1,000 milliseconds) and this process is repeated three times, the primary default
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19216811 Outside 1 Inside Outside 2
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Figure 4-2 Static route tracking example
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route is considered bad (the 19216811 neighbor with a metric of 1), and the backup default route for the outside2 interface will be used
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Until version 8 of the operating system, the appliances were restricted in how they ran RIP: they could only accept RIP routes and optionally advertise a default route; they could not take routes learned from one RIP neighbor and advertise these routes on another interface Starting in version 8, the appliance is a full-functioning RIP router If more than one routing process is running on the appliance, you can even redistribute routes from one process, like RIP, into another routing process Both RIPv1 and RIPv2 are supported With RIPv2, you can authenticate routing updates from neighboring RIPv2 routers You can also control, on an interface-by-interface basis, what RIP version is run on an interface
RIP Configuration
The configuration of RIP is performed globally, with some features controlled on an interface-by-interface basis The following two sections will cover the configuration of RIP RIP Global Configuration Configuring RIP on an appliance is similar to configuring RIP on a Cisco router To enable RIP, use the router rip global Configuration mode command:
ciscoasa(config)# router ciscoasa(config-router)# ciscoasa(config-router)# ciscoasa(config-router)# ciscoasa(config-router)# ciscoasa(config-router)# rip network network_address version [1 | 2] default-information originate passive-interface [default | logical_if_name] no auto-summarize
The router rip command takes you into the RIP routing process The network command specifies the networks that the appliance is connected to that should be included in the RIP process The version command specifies, globally, the RIP version the appliance should run (This can be overridden on an interface-by-interface basis) The default-information command allows a default route to propagate into and through the RIP routing process on the appliance The passive-interface command specifies whether all interfaces or just the specified interface is allowed to propagate RIP routes to other neighbors (the interface is operating in passive mode) By default, the RIP routing process will automatically summarize Class A, B, and C network numbers at their class boundary The no auto-summarize command works only for RIPv2: it disables automatic summarization of subnets back to their Class A, B, and/or C network numbers when advertising networks across a network boundary, like 1721600/16 to 10000/8
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