Example 837 Testing the New PVC

r1#show frame-relay map

SerialO.100 (up): ip 192.168.8.2 dlci 102(0x66,0x18 60), static, broadcast,

CISCO, status defined, active Serial0.100 (up): ip 192.168.8.4 dlci 104(0x68,0x18 8 0), static, broadcast,

CISCO, status defined, active Serial0.105 (up): point-to-point dlci, dlci 105(0x69,0x18 90), broadcast status defined, active r2#show frame-relay map

Serial0.101 (up): ip 192.168.8.1 dlci 101(0x65,0x1850), dynamic, broadcast,, status defined, active frame-switch#show frame-relay route

Input Intf Input Dlci Output Intf

Serial0/0 Serial0/0 Serial0/0 Serial0/1 Serial0/2 Serial0/3

105 101 101 101

Output Dlci 101

Serial0/1 Serial0/2 Serial0/3 Serial0/0 Serial0/0 Serial0/0 r4#show frame-relay map

Serial0/0.101 (up): ip 192.168.8.1 dlci 101(0x65,0x1850), dynamic,

101 101 102

Status active active active active active active broadcast,, status defined, active r5#show frame-relay map

Serial0.101 (up): point-to-point dlci, dlci 101(0x65,0x1850), broadcast status defined, active

Active is the status you wanted to begin with on the frame switch and all the routers. Compare the findings it the preceding example to your drawing.

Save your configurations and move up the stack to work on the routing protocol. Configure BGP as inExample 8-38. r1 should advertise the 192.168.8.0 network to the other AS. r2 and r4 should be configured such that they use r1 to get to r5.

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