CCIE-在IS IS网络部署MPLS VPN

www.net130.com     日期:2009-12-30    浏览次数:
出处:56cto

Network Diagram

This document uses this network setup:

 

Configurations

This document uses these configurations:

  • Quick Configuration Guide

  • <LI>

    Pomerol

  • Pulligny

  • Pauillac

Quick Configuration Guide

Complete these steps to configure MPLS:

  1. Set up your network as usual (MPLS needs a standard IP connection in order to establish forwarding bases).

  2. Ensure that the routing protocol (OSPF or IS-IS) is working correctly. These commands are shown in italics in the configurations in this section.

  3. Use the ip cef command (for better performances, use the ip cef distributed command when available) in the general configuration mode (shown in bold in the configurations in this section) to enable.

  4. Use the mpls ip command (or the tag-switching ip command on older Cisco IOS versions) in the general configuration mode and in each interface (shown in bold in the configurations in this section) to enable.

    Note:  The LSRs must have (up) Loopback interfaces with an address mask of 32 bits.

1a.gif

Pomerol

Current configuration:
!
version 12.2
!
hostname Pomerol
!
ip cef

!--- Enables Cisco Express Forwarding globally.

!
interface Loopback0
 ip address 10.10.10.3 255.255.255.255
 ip router isis 

!--- Assigns an IP address to interface loopback0 
!--- and enables IS-IS for IP on the interface.

!
interface Serial0/0
 encapsulation frame-relay
!
interface Serial0/0.1 point-to-point
 ip address 10.1.1.6 255.255.255.252
 ip router isis   
 tag-switching ip

!--- Enables dynamic Label Switching of 
!--- IPv4 packets on an interface.

 frame-relay interface-dlci 301   
!
interface Serial0/0.2 point-to-point
 ip address 10.1.1.9 255.255.255.252
 ip router isis  
 tag-switching ip
 frame-relay interface-dlci 303   
!
interface Serial0/0.3 point-to-point
 ip address 10.1.1.21 255.255.255.252
 ip router isis 
 tag-switching ip
 frame-relay interface-dlci 306   
!
router isis  
 net 49.0001.0000.0000.0003.00
 is-type level-1
!
ip classless
!
end

Pulligny

Current configuration:
!
version 12.1
!
hostname Pulligny
!
ip cef
!
interface Loopback0
 ip address 10.10.10.2 255.255.255.255
!
interface Serial0/1
 no ip address
 encapsulation frame-relay
!
interface Serial0/0.1 point-to-point
 ip address 10.1.1.2 255.255.255.252
 ip router isis 
 tag-switching ip
 frame-relay interface-dlci 201   
!
interface Serial0/0.2 point-to-point
 ip address 10.1.1.10 255.255.255.252
 ip router isis 
tag-switching ip
 frame-relay interface-dlci 203   
!
router isis
 redistribute static ip
 passive-interface Loopback0
 net 49.0001.0000.0000.0002.00
 is-type level-1

!--- Enables the IS-IS process on the router,
!--- makes loopback interface passive 
!--- (does not send IS-IS packets on interface), 
!--- and assigns area and system ID to router.

!
ip classless
!
end

Pauillac

Current configuration : 2366 bytes
!
version 12.1
!
hostname pauillac
!
ip cef
!
interface Loopback0
 ip address 10.10.10.1 255.255.255.255
 ip router isis
!
interface Serial0/0
 no ip address
 encapsulation frame-relay
!
interface Serial0/0.1 point-to-point
 ip address 10.1.1.1 255.255.255.252
 ip router isis
 tag-switching ip
 frame-relay interface-dlci 102   
!
interface Serial0/0.2 point-to-point
 ip address 10.1.1.5 255.255.255.252
 ip access-group 150 out
 ip router isis 
 tag-switching ip
 frame-relay interface-dlci 103   
!
interface Serial0/0.3 point-to-point
 bandwidth 512
 ip address 10.1.1.13 255.255.255.252
 ip router isis 
 tag-switching ip
 frame-relay interface-dlci 104   
!
interface Serial0/0.4 point-to-point
 ip address 10.1.1.17 255.255.255.252
 ip router isis 
 tag-switching ip
 frame-relay interface-dlci 105
!
!
router isis
 net 49.0001.0000.0000.0001.00
 is-type level-1
!
ip classless
!
end

 

Verify

This section provides information you can use to confirm your configuration is working properly.

Certain show commands are supported by the Output Interpreter Tool (registered customers only) , which allows you to view an analysis of show command output.

  • show tag-switching tdp neighbor

  • show tag-switching tdp bindings

  • show tag-switching forwarding-table

  • show tag-switching forwarding-table a.b.c.d detail

  • traceroute a.b.c.d

An exhaustive list of commands is included in the MPLS Command Reference. Other sample show commands are described in Configuring Basic MPLS Using OSPF.

Sample Output

The following output focuses on the LDP. The LDP currently implemented in IOS is TDP (Tag Distribution Protocol), which contains some Cisco-proprietary extensions, but it be used with LDP, the IETF official protocol for label distribution. TDP will be replaced by LDP in the future.

You can use the show tag-switching tdp * command to verify the state of TDP. You can see neighbors using the show tag-switching tdp neighbor command.

Pulligny# show tag-switching tdp discovery
Local TDP Identifier:    
	10.10.10.2:0
TDP Discovery Sources:    
  Interfaces:
 Serial0/0.1: xmit/recv            
   TDP Id: 10.10.10.1:0
 Serial0/0.2: xmit/recv
   TDP Id: 10.10.10.3:0

!--- Ensure you are able to ping this IP address
!--- If not, check whether a route exists in the routing table

Pulligny# show tag-switching tdp neighbor 
Peer TDP Ident: 10.10.10.1:0; Local TDP Ident 10.10.10.2:0
        TCP connection: 10.10.10.1.711 - 10.10.10.2.11001
        State: Oper; PIEs sent/rcvd: 27907/27925; ; Downstream
        Up time: 2w2d
        TDP discovery sources:
          Serial0/0.1
        Addresses bound to peer TDP Ident:
          10.1.1.1        10.1.1.13       10.1.1.17       10.10.10.1      
          10.1.1.5        10.200.28.89    
Peer TDP Ident: 10.10.10.3:0; Local TDP Ident 10.10.10.2:0
        TCP connection: 10.10.10.3.11001 - 10.10.10.2.711
        State: Oper; PIEs sent/rcvd: 22893/22874; ; Downstream
        Up time: 1w6d
        TDP discovery sources:
          Serial0/0.2
        Addresses bound to peer TDP Ident:
          10.200.28.91    10.1.1.6        10.1.1.9        10.1.1.21       
          10.10.10.3

You can use the show tag-switching tdp bindings command to view the established bindings between labels and routes.

Pulligny# show tag-switching tdp bindings 
(...)
  tib entry: 10.10.10.4/32, rev 22
        local binding:  tag: 21
        remote binding: tsr: 10.10.10.1:0, tag: 22
        remote binding: tsr: 10.10.10.3:0, tag: 25
  tib entry: 10.10.10.6/32, rev 51
        local binding:  tag: 23
        remote binding: tsr: 10.10.10.3:0, tag: 18
        remote binding: tsr: 10.10.10.1:0, tag: 20
(...)

You can use the show tag-switching forwarding-table command to see which bindings are used to build the LFIB.

Pulligny# show tag-switching forwarding-table
Local  Outgoing    Prefix            Bytes tag  Outgoing   Next Hop    
tag    tag or VC   or Tunnel Id      switched   interface 
16     Pop tag     10.1.1.4/30       0          Se0/0.2    point2point       
       Pop tag     10.1.1.4/30       0          Se0/0.1    point2point
17     Pop tag     10.1.1.20/30      0          Se0/0.2    point2point
18     Pop tag     10.10.10.3/32     0          Se0/0.2    point2point
19     Pop tag     10.10.10.1/32     0          Se0/0.1    point2point
20     Pop tag     10.1.1.12/30      0          Se0/0.1    point2point
21     Pop tag     10.1.1.16/30      0          Se0/0.1    point2point
22     20          10.10.10.5/32     0          Se0/0.1    point2point
23     22          10.10.10.6/32     0          Se0/0.2    point2point
24     22          10.10.10.4/32     0          Se0/0.1    point2point

You can use the show tag-switching forwarding-table 10.10.10.4 detail command to view the details of a given destination.

Pulligny# show tag-switching forwarding-table 10.10.10.4 detail 
Local  Outgoing    Prefix            Bytes tag  Outgoing   Next Hop    
tag    tag or VC   or Tunnel Id      switched   interface              
21     22          10.10.10.4/32     12103      Se0/0.1    point2point  
        MAC/Encaps=4/8, MTU=1500, Tag Stack{22}
        30918847 00016000
    Per-packet load-sharing

You can also use the traceroute command, if the network does IP TTL propagation, to view the hops. Refer to Multiprotocol Label Switching on Cisco Routers for more information on the mpls ip ttl propagate command.

Pesaro# traceroute 10.10.10.4

Type escape sequence to abort.
Tracing the route to 10.10.10.4

  1 10.1.1.21 [MPLS: Label 25 Exp 0] 296 msec 256 msec 244 msec
  2 10.1.1.5 [MPLS: Label 22 Exp 0] 212 msec 392 msec 352 msec
  3 10.1.1.14 436 msec *  268 msec

Note: Exp 0 appears in the output if the experimental field is used for Quality of Service (QoS).

Troubleshoot

There is currently no specific troubleshooting information available for this configuration.

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