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List of Figures
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Figure
1: Routers in a VPN
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Figure
2: Logical Interface per Router in a
Virtual-Router Routing Instance
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Figure
3: BGP Route Target Filtering Enabled
for a Group of VPNs
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Figure
4: Network Topology of Site of Origin
Example
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Figure
5: Layer 2 VPN Connecting CE Routers
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Figure
6: Relationship Between the Site Identifier
and the Remote Site ID
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Figure
7: Example of a Simple Full-Mesh Layer
2 VPN Topology
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Figure
8: VPN Attributes and Route Distribution
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Figure
9: Overlapping Addresses Among Different
VPNs
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Figure
10: Route Distinguishers
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Figure
11: VRF Tables
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Figure
12: Route Distribution Within a VPN
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Figure
13: Distribution of Routes from CE Routers
to PE Routers
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Figure
14: Distribution of Routes Between PE
Routers
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Figure
15: Distribution of Routes from PE Routers
to CE Routers
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Figure
16: Using MPLS LSPs to Tunnel Between
PE Routers
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Figure
17: Label Stack
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Figure
18: Multicast Topology Overview
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Figure
19: OSPF Sham Link
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Figure
20: Layer 3 VPN Topology for ping and
traceroute Examples
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Figure
21: Example of a Simple VPN Topology
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Figure
22: Example of a Hub-and-Spoke VPN Topology
with One Interface
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Figure
23: Example of a Hub-and-Spoke
VPN Topology with Two Interfaces
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Figure
24: Route Distribution Between Two Spoke
Routers
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Figure
25: Example of an LDP-over-RSVP
VPN Topology
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Figure
26: Label Pushing and Popping
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Figure
27: Application-Based Layer 3 VPN Example
Configuration
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Figure
28: Example of a Configuration Using an
OSPF Domain ID
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Figure
29: Example of an Overlapping VPN Topology
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Figure
30: PE Routers A and D Connected by a
GRE Tunnel Interface
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Figure
31: GRE Tunnel Between the CE Router and
the PE Router
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Figure
32: ES Tunnel Interface (IPSec Tunnel)
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Figure
33: PE Router Does Not Provide Internet
Access
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Figure
34: PE Router Connects to a Router Connected
to the Internet
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Figure
35: Routing VPN and Internet Traffic Through
Different Interfaces
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Figure
36: Example of Internet Traffic Routed
Through Separate Interfaces
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Figure
37: VPN and Outgoing Internet Traffic
Routed Through the Same Interface and Return Internet Traffic Routed
Through a Different Interface
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Figure
38: Interface Configured to Carry Both
Internet and VPN Traffic
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Figure
39: VPN and Internet Traffic Routed Through
the Same Interface
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Figure
40: Internet Traffic Routed Through a
Separate NAT Device
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Figure
41: Internet Traffic Routed Through a
NAT Example Topology
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Figure
42: Internet Access Through a Hub CE Router
Performing NAT
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Figure
43: Internet Access Provided Through a
Hub CE Router
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Figure
44: Two Hub CE Routers Handling Internet
Traffic and NAT
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Figure
45: Flooding a Packet with an Unknown
Destination to All PE Routers in the VPLS Instance
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Figure
46: BGP and LDP Signaling for
a VPLS Routing Instance
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Figure
47: Flooding Unknown VPLS Traffic Using
Ingress Replication
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Figure
48: Flooding Unknown VPLS Traffic Using a Point-to-Multipoint
LSP
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Figure
49: Interprovider VPN Network Topology
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Figure
50: Carrier-of-Carriers VPN Architecture
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Figure
51: Network Topology of Interprovider
VPN Example
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Figure
52: Network Topology of Interprovider
VPN Example—Multihop MP-EBGP
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Figure
53: Carrier-of-Carriers VPN Example Network
Topology
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Figure
54: Components of a Layer 2 Circuit
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Figure
55: ATM Trunking on Layer 2 Circuits
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Figure
56: Layer 2 Circuits Using Protect Interfaces
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