Mpls management workflow – Cisco 12000/10700 V3.1.1 User Manual

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Cisco 12000/10700 v3.1.1 Router Manager User Guide

OL-4455-01

Chapter 15 MPLS Management

MPLS Management Workflow

The significant difference between MPLS and traditional WAN technologies is the way labels are
assigned and the capability to carry a stack of labels attached to a packet. The concept of a label stack
enables new applications, such as Traffic Engineering (TE), Virtual Private Networks (VPN), fast
rerouting around link and node failures, and so on.

Packet forwarding in MPLS is in stark contrast to today’s connection less network environment, where
each packet is analyzed on a hop-by-hop basis, its Layer 3 header is checked, and an independent
forwarding decision is made based on the information extracted from a network layer routing algorithm.

A router supporting MPLS is a Label Switch Router, or LSR. An edge node is an LSR connecting to a
non-LSR. An ingress LSR is the one by which a packet enters the MPLS network, an egress LSR is one
by which a packet leaves the MPLS network. Labels are small identifiers placed in the traffic. They are
inserted by the ingress LSR, and ultimately removed by the egress LSR (so nothing will remain to
perplex the non-MPLS devices outside the MPLS network). For IP-based MPLS, some bytes are inserted
prior to the IP header. For ATM, the VPI/VCI addressing is the label. For Frame Relay, the DLCI is the
label.

MPLS technology also helps deliver highly scalable, differentiated end-to-end IP services with simpler
configuration, management, and provisioning for both Internet providers and subscribers.

The Cisco 12000/10720 Router Manager focuses on providing basic troubleshooting capabilities for
MPLS configuration set-up in the Cisco 12000 and 10720 Series Routers. The Cisco 12000/10720
Router Manager provides the following MPLS functionality:

Fault Management for LSR Interfaces, Label Distribution Protocol (LDP) entities and MPLS
tunnels.

Performance Management for MPLS enabled interfaces.

Creation and association of VRFs.

Fault Management for VRFs.

MPLS trap management.

MPLS Management Workflow

The MPLS Management workflows covered in this chapter are:

MPLS Forwarding Information

Fault Management for MPLS LSR Interfaces

MPLS Interface Status

MPLS Interface Information

Performance Management for MPLS LSR Interfaces

MPLS Interface Performance

Fault Management for MPLS LDP

MPLS LDP Entity Status Window

MPLS LDP Hello Adjacencies

MPLS LDP Peer Status

Fault Management for MPLS Traffic Engineering

MPLS Tunnel Information

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