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Table of Contents

About This Guide
Objectives
Audience
Supported Routing Platforms
Using the Indexes
Using the Examples in This Manual
Documentation Conventions
List of Technical Publications
Documentation Feedback
Requesting Technical Support
Network Interfaces, Class of Service, and Chassis
Channelized Intelligent Queuing Interfaces
Overview
System Requirements
Terms and Acronyms
Configuring Channelized IQ Interfaces
Configuring a Clear Channel on a Channelized IQ Interface
Configuring Single-Level Channels on a Channelized IQ Interface
Configuring Multilevel Channels on a Channelized IQ Interface
Channelized IQ Interface Configuration Examples
Example: Clear Channel Configuration for a Channelized OC12 IQ Interface
Verifying Your Work
Example: Complex Configuration for a Channelized OC12 IQ Interface
Verifying Your Work
Channelized OC12
SONET OC3
T3
Channelized T3
Channelized OC1
Channelized T1
T1
DS0
Example: Converting a Channelized OC12 IQ PIC to a Channelized STM4 IQ Interface
Verifying Your Work
Example: Channelized OC3 IQ Interface Configuration
Verifying Your Work
Channelized OC3
Channelized OC1
T3
Channelized T3
T1
Channelized T1
NxDS0
Clear Channel SONET OC3
Example: Channelized DS3 IQ Interface Configuration
Verifying Your Work
Example: Channelized T1 IQ Interface Configuration
Verifying Your Work
Example: Channelized STM1 IQ Interface Configuration
Verifying Your Work
Example: Channelized E1 IQ Interface Configuration
Verifying Your Work
Configuring Class of Service for Channelized IQ Interfaces
Configuring a Class-of-Service Scheduler Map
Associating the Scheduler with a DLCI on a Channelized IQ Interface
Class of Service for Channelized IQ Interfaces Example
Example: DLCI Class of Service on a Channelized IQ Interface Configuration
Verifying Your Work
For More Information
Revision History
Class of Service Using IPv6 DiffServ
Overview
System Requirements
Terms and Acronyms
Configuring CoS with IPv6 DiffServ
Configuring a Firewall Filter for an MF Classifier on Customer Interfaces
Applying the Firewall Filter to Customer Interfaces
Assigning Forwarding Classes to Output Queues
Configuring Rewrite Rules
Applying Rewrite Rules to an Interface
Configuring BA Classifiers
Applying a BA Classifier to an Interface
Configuring RED Drop Profiles
Configuring Schedulers
Configuring Scheduler Maps
Applying a Scheduler Map to an Interface
Class of Service with IPv6 DiffServ Example
Example: CoS with IPv6 DiffServ Configuration
Verifying Your Work
For More Information
Revision History
Routing Matrix
Overview
System Requirements
Terms and Acronyms
Configuring a Routing Matrix
Adjusting the Configuration to Accommodate Increased FPC Numbers
Configuring Groups to Support Routing Matrix Components
Configuring Protocols and Other Features
Option: Configuring Chassis-Specific Statements
Routing Matrix Configuration Example
Example: Routing Matrix Configuration
TX Matrix Platform—SCC
Verifying Your Work
Displaying the Software Version
Displaying Interfaces
Displaying Routes
Displaying Alarms and System Uptime
Displaying Chassis Hardware and Status
Other Miscellaneous Commands
Routing Matrix Hardware and Software Considerations
Identifying Routing Matrix Components
Viewing the Routing Matrix as a Single Routing Platform
Connecting to a Routing Matrix
Committing Configurations on a Routing Matrix
Upgrading the Software for a Routing Matrix
Managing System Processes in the Routing Matrix
Rebooting and Halting Routing Matrix Components
Enabling and Disabling Specific Routing Matrix Hardware Components
Managing Files on Routing Engines in a Routing Matrix
For More Information
Revision History
Source Class Usage
Overview
System Requirements
Terms and Acronyms
Configuring SCU
Configuring Route Filters and Source Classes in a Routing Policy
Applying the Policy to the Forwarding Table
Enabling Accounting on Inbound and Outbound Interfaces
SCU Configuration Example
Example: SCU Configuration
Verifying Your Work
Configuring SCU with Layer 3 VPNs
Configuring Input SCU on the vt Interface of the Egress PE Router
Mapping the SCU-Enabled vt Interface to the VRF Instance
Configuring SCU on the Output Interface
SCU with Layer 3 VPNs Configuration Example
Example: SCU in a Layer 3 VPN Configuration
Verifying Your Work
Configuring Accounting Profiles with SCU
Configuring Standard SCU
Associating an Accounting Profile with SCU Classes
Verifying Your Work
For More Information
Revision History
MPLS Applications
GMPLS
Overview
System Requirements
Terms and Acronyms
GMPLS Phase 2 Implementation
GMPLS Operation
Configuring GMPLS
Configuring Link Management Protocol Traffic Engineering Links
Configuring Link Management Protocol Peers
Configuring Peer Interfaces in OSPF and RSVP
Establishing GMPLS LSP Path Information
Defining GMPLS Label-Switched Paths
Discovering Local Identifiers and Configuring Remote Identifiers
Option: Tearing Down GMPLS LSPs Gracefully
Option: Allowing Nonpacket GMPLS LSPs to Establish a Path Through JUNOS-Based Routers
Option: Selecting the Peer Model or the Overlay Model for GMPLS
Option: GMPLS Graceful Restart
Option: Configuring an LMP Control Channel
Option: Configuring GMPLS Support for Unnumbered Links
GMPLS Configuration Examples
Example: GMPLS Configuration
Verifying Your Work
Router A Status
Router C Status
Example: LMP Control Channel Configuration
Verifying Your Work
Router 1 Status
Router 4 Status
For More Information
Revision History
Connecting IPv6 Islands with IPv4 MPLS
Overview
System Requirements
Terms and Acronyms
Configuring an IPv4 MPLS Tunnel to Carry IPv6 Traffic
Configuring IPv6 on the Customer and Core-Facing Interfaces
Configuring MPLS and RSVP from PE Router to PE Router to Create a Tunnel
Enabling IPv6 Tunneling in MPLS
Configuring Multiprotocol BGP to Carry IPv6 Traffic
IPv6 Traffic on an IPv4 MPLS Tunnel Example
Example: Connecting IPv6 Islands over an MPLS Tunnel Configuration
Verifying Your Work
Router CE1 Status
Router PE1 Status
Router PE2 Status
Router CE2 Status
For More Information
Revision History
Multiple Instances for Label Distribution Protocol
Overview
System Requirements
Terms and Acronyms
Configuring Multiple-Instance LDP
Configuring a Master LDP Instance
Configuring a VRF-Based LDP Instance
Multiple-Instance LDP Configuration Example
Example: Multiple-Instance LDP Configuration
Verifying Your Work
Router CE3 Status
Router PE3 Status
Router CE1 Status
Router PE1 Status
Router PE2 Status
Router CE2 Status
Router PE4 Status
Router CE4 Status
For More Information
Revision History
MPLS LSP Link Protection and Node-Link Protection
Overview
Link Protection
Node-Link Protection
System Requirements
Terms and Acronyms
Configuring MPLS LSP Link Protection or Node-Link Protection
Configuring Link Protection or Node-Link Protection on the LSP
Configuring Link Protection on the RSVP Interfaces Traversed by the LSP
Option: Configuring Multiple Bypass LSPs, Manual Bypass LSPs, and Link Protection Priority
Option: Adding Class of Service to a Link-Protected LSP or a Bypass LSP
Option: Using Enhanced Operational Mode Commands and System Log Messages
MPLS LSP Link Protection or Node-Link Protection Configuration Examples
Example: MPLS LSP Link Protection Configuration
Verifying Your Work
Case 1: Normal Operation
Case 2: When the Link from Router 1 to Router 3 Is Disabled
Case 3: When the Link from Router 3 to Router 2 Is Disabled
Example: Node-Link Protection Configuration
Verifying Your Work
For More Information
Revision History
RSVP LSP Tunnels
Overview
System Requirements
Terms and Acronyms
RSVP LSP Tunneling Operation
Configuring an RSVP LSP Tunnel
Configuring Link Management Protocol Traffic Engineering Links
Configuring Link Management Protocol Peers
Configuring Peer Interfaces in OSPF and RSVP
Establishing FA-LSP Path Information
Defining Label-Switched Paths for the FA-LSP
Creating End-to-End LSPs to Traverse the FA-LSP
Option: Tearing Down RSVP LSPs Gracefully
RSVP LSP Tunnel Configuration Example
Example: RSVP LSP Tunnel Configuration
Verifying Your Work
Router 0
Router 1
For More Information
Revision History
Simplified Interinstance Route Sharing
Overview
System Requirements
Terms and Acronyms
Simplified Interinstance Configuration
Instance Export Using an IGP Export Policy
Configuring Overlapping VPNs
Example: Overlapping VPNs Configuration
Verifying Your Work
Router PE1 Status
Configuring Nonforwarding Instances
Example: Nonforwarding Instances Configuration
Verifying Your Work
Router PE2 Status
Router CE3 Status
For More Information
Revision History
Routing Protocols
Logical Systems
Overview
System Requirements
Terms and Acronyms
Configuring Logical Systems
Configuring Logical System Administrators (Master Administrator)
Configuring Interfaces (Master Administrator)
Assigning Logical Interfaces to the Logical System (Master or Logical System Administrator)
Configuring Protocols, Routing, and Policy Statements for the Logical System (Master or Logical System Administrator)
Configuring Other Logical System Statements
Logical System Configuration Example
Example: Logical System Configuration
Verifying Your Work
Router CE1 Status
Router CE2 Status
Router CE3 Status
Router PE1 Status: Main Router
Router PE1 Status: LS1
Router PE1 Status: LS2
Router P0 Status: Main Router
Router P0 Status: LS1
Router P0 Status: LS2
Router PE2 Status: Main Router
Router PE2 Status: LS1
Router PE2 Status: LS2
Router CE5 Status
Router CE6 Status
Router CE7 Status
Logical System Administrator Verification Output
Verifying Routing Instance Connectivity
For More Information
Revision History
OSPF Version 3 for IPv6
Overview
System Requirements
Terms and Acronyms
Configuring OSPFv3 for IPv6
Configuring OSPFv3 as the Routing Protocol
Configuring Interfaces in OSPFv3 Areas
OSPFv3 for IPv6 Configuration Example
Configuring Virtual Links for OSPFv3
Example: OSPFv3 for IPv6 Configuration
Verifying Your Work
Router 0 Status
Router 1 Status
Router 2 Status
Router 3 Status
Router 4 Status
Router 5 Status
For More Information
Revision History
Multitopology Routing
Overview
System Requirements
Terms and Acronyms
Configuring Multitopology Routing
Configuring Topologies
Configuring Filter-Based Forwarding
Configuring BGP for Multitopology Routing
Configuring an Interior Gateway Protocol
Option: Configuring OSPF for Multitopology Routing
Option: Configuring Static Routes for Multitopology Routing
Option: Configuring Route Resolution Policy
Multitopology Routing Configuration Example
Example: Multitopology Routing Configuration
Verifying Your Work
For More Information
Revision History
Services Interfaces
Flow Monitoring
Overview
Passive Flow Monitoring
Active Flow Monitoring
System Requirements
Passive Flow Monitoring
Active Flow Monitoring
Active Flow Monitoring
Terms and Acronyms
Configuring Passive Flow Monitoring
Monitoring Traffic with a VRF Instance and a Monitoring Group
Specifying a Firewall Filter to Select Traffic to Monitor
Configuring Input Interfaces, Monitoring Services Interfaces, and Export Interfaces
Establishing a VRF Instance for the Monitored Traffic
Configuring a Monitoring Group to Send Traffic to the Flow Server
Configuring Policy Options
Option: Stripping MPLS Labels on ATM, Ethernet-Based, and SONET/SDH Interfaces
Copying and Redirecting Traffic with Port Mirroring and Filter-Based Forwarding
Specifying Port Mirroring Input and Output
Creating a Firewall Filter to Split the Port-Mirrored Traffic into Different Instances
Applying the Firewall Filter to a Tunnel PIC Interface
Using Filter-Based Forwarding to Export Monitored Traffic to Multiple Destinations
Configuring a Routing Table Group to Add Interface Routes into the Forwarding Instance
Option: Using an ES PIC to Send Traffic to a Packet Analyzer
Option: Applying a Firewall Filter to an Output Interface
Using a Flow Collector Interface to Process and Export Multiple Flow Records
Using a Dynamic Flow Capture Interface to Monitor Traffic On Demand
Configuring the Capture Group
Configuring the Content Destination
Configuring the Control Source
Configuring the Dynamic Flow Capture Interface
Option: Configuring Thresholds
Option: Configuring System Logging
Option: Monitoring Dynamic Flow Capture by Using SNMP
Hardware and Software Considerations
Passive Flow Monitoring Configuration Examples
Example: Passive Flow Monitoring Configuration
Verifying Your Work
Example: Flow Collector Interface Configuration
Verifying Your Work
Example: Dynamic Flow Capture Configuration
Router 1
Verifying Your Work
Router 1
Configuring Active Flow Monitoring
Defining a Firewall Filter to Select Traffic for Active Flow Monitoring
Configuring the Interfaces That Will Be Actively Monitored
Enabling the Monitoring Services, Adaptive Services, or Multiservices Interfaces and the Export Interface
Collecting Flow Records
Collecting Flow Records with a Sampling Group
Collecting Flow Records with an Accounting Group
Replicating Routing Engine-Based Sampling to Multiple Flow Servers
Collecting Flow Records with a Template
Routing Engine-Based Sampling to Multiple Flow Servers
Replicating Version 9 Flow Aggregation to Multiple Flow Servers
Option: Configuring an Aggregate Export Timer
Option: Configuring Port Mirroring
Option: Configuring Port Mirroring with Filter-Based Forwarding and a Monitoring Group
Option: Sending Traffic to Multiple Export Interfaces by Using Next-Hop Groups
Option: Using the Flow-Tap Application to Send Packets to a Mediation Device
Flow-Tap Architecture
Configuring the Flow-Tap Interface
Configuring Flow-Tap Security Properties
Flow-Tap Application Restrictions
Example: Flow-Tap Configuration
Active Flow Monitoring Configuration Examples
Example: Sampling Configuration
Verifying Your Work
Example: Sampling and Discard Accounting Configuration
Verifying Your Work
Example: Multiple Port Mirroring with Next-Hop Groups Configuration
Flow Monitoring Output Formats
Version 5 Formats and Fields
Version 8 Formats and Fields
Version 9 Formats and Fields
For More Information
Revision History
IPSec
Overview
IPSec-Enabled PICs
Authentication Algorithms
Encryption Algorithms
IPSec Protocols
Security Associations
IPSec Modes
Digital Certificates
Service Sets
System Requirements
Terms and Acronyms
Configuring IPSec
Considering General IPSec Issues
Configuring Security Associations
Configuring Manual SAs
Configuring IKE Dynamic SAs
Using a Filter to Select Traffic to Be Secured
Applying the Filter or Service Set to the Interface Receiving Traffic to Be Secured
Option: Using Digital Certificates
Configuring a CA Profile
Configuring a Certificate Revocation List
Requesting a CA Digital Certificate
Generating a Private/Public Key Pair
Generating and Enrolling a Local Digital Certificate
Applying the Local Digital Certificate to an IPSec Configuration
Configuring Automatic Reenrollment of Digital Certificates
Monitoring and Clearing Digital Certificates
Option: Using Filter-Based Forwarding to Select Traffic to Be Secured
Option: Using IPSec with a Layer 3 VPN
Option: Securing BGP Sessions with Transport Mode
Option: Securing OSPFv3 Networks with Transport Mode
Option: Securing OSPFv2 Networks with Transport Mode
Option: Monitoring IPSec by Using SNMP
Option: Configuring IPSec Dynamic Endpoints
Dynamic Endpoint Tunnel Architecture
Authentication Process
Dynamic Implicit Rules
Reverse Route Insertion
Configuring an IKE Access Profile
Configuring the Service Set
Configuring the Interface Identifier
Option: Configuring Multiple Routed Tunnels in a Single Next-Hop Service Set
IPSec Configuration Examples
Example: ES PIC Manual SA Configuration
Verifying Your Work
Router 1
Router 2
Router 3
Router 4
Example: AS PIC Manual SA Configuration
Verifying Your Work
Router 1
Router 2
Router 3
Example: ES PIC IKE Dynamic SA Configuration
Verifying Your Work
Router 1
Router 2
Router 3
Router 4
Example: AS PIC IKE Dynamic SA Configuration
Verifying Your Work
Router 1
Router 2
Router 3
Router 4
Example: IKE Dynamic SA Between an AS PIC and an ES PIC Configuration
Verifying Your Work
Router 1
Router 2
Router 3
Router 4
Example: AS PIC IKE Dynamic SA with Digital Certificates Configuration
Verifying Your Work
Router 1
Router 2
Router 3
Router 4
Example: Dynamic Endpoint Tunneling Configuration
Verifying Your Work
For More Information
Revision History
VPNs
Layer 2 Circuits
Overview
System Requirements
Terms and Acronyms
Configuring Layer 2 Circuits
Configuring an Interface Encapsulation on CE-Facing Interfaces
Configuring CCC Encapsulation on CE-Facing Ethernet Interfaces
Configuring CCC Encapsulation on CE-Facing SONET/SDH Interfaces
Configuring a CCC Encapsulation and a Layer 2 Circuit Mode on CE-Facing ATM2 IQ Interfaces
Configuring the MPLS Family on Core Interfaces
Configuring Layer 2 Circuits
Configuring LDP and an IGP to Transport Layer 2 Circuits
Option: Applying Traffic Engineering to a Layer 2 Circuit
Option: Mapping Layer 2 Protocol Control Information into a Layer 2 Circuit
Option: Configuring APS for Layer 2 Circuits
Option: Configuring Layer 2 Circuit Trunk Mode on ATM2 IQ Interfaces
Option: Reserving LSP Bandwidth for a Layer 2 Circuit
Option: Selecting an MTU for a Layer 2 Circuit
Option: Configuring Local Interface Switching for a Layer 2 Circuit
Option: Configuring Layer 2 Circuits Simultaneously over RSVP and LDP LSPs
Layer 2 Circuit Configuration Examples
Example: Ethernet-Based Layer 2 Circuit Configuration
Verifying Your Work
Router PE1 Status
Router P0 Status
Router PE2 Status
Example: SONET/SDH-Based Layer 2 Circuit Configuration
Verifying Your Work
Example: ATM2 IQ-Based Layer 2 Circuit Configuration
Verifying Your Work
Example: Layer 2 Circuit Traffic Engineering over Multiple LSPs Configuration
Verifying Your Work
Example: APS for a Layer 2 Circuit Configuration
Verifying Your Work
For More Information
Revision History
Multicast over Layer 3 VPNs
Overview
Multiprotocol BGP-Based Multicast VPNs: Next-Generation
Dual PIM Multicast VPNs: Draft Rosen
System Requirements for Multiprotocol BGP-Based Multicast VPNs: Next-Generation
System Requirements for Dual PIM Multicast VPNs: Draft Rosen
Terms and Acronyms
Configuring Multiprotocol BGP-Based Multicast VPNs: Next-Generation
Creating a Unique Logical Loopback Interface for the Routing Instance
Configuring Interfaces for Layer 3 VPNs
Configuring BGP, MPLS, RSVP, and an IGP on the PE and Core Routers
Creating a Routing Instance for Multiprotocol BGP-Based Multicast VPN
Option: Configuring Sender and Receiver Sites
Option: Specifying Route Targets
Configuring Provider Tunnels
Enabling Multicast VPN in BGP
Configuring Traffic Engineering Point-to-Multipoint LSPs in Provider Tunnels
Configuring the Master PIM Instance on the PE Router
Configuring the Router’s IPv4 Bootstrap Router Priority
Multiprotocol BGP Multicast VPNs Example
Verifying Your Work
show mvpn c-multicast
show mvpn instance
show mvpn neighbor
Step-by-Step Multicast VPN Configuration Example
Dual PIM Draft Rosen Multicast VPN Operation
Configuring Draft-Rosen Multicast VPNs
Configuring BGP, MPLS, RSVP, and an IGP on the PE and Core Routers
Creating a Unique Logical Loopback Interface for the Routing Instance
Configuring the Master PIM Instance on the PE Router
Configuring PIM and the VPN Group Address in a Routing Instance
Option: Configuring PIM Sparse Mode Graceful Restart for a Layer 3 VPN
Option: Configuring Multicast Distribution Trees for Data
Option: Configuring MSDP Within a Layer 3 VPN
Draft-Rosen Multicast VPNs Examples
Example: Basic IPv4 Multicast over a Layer 3 VPN Configuration
Verifying Your Work
RP Information
PIM Information Prior to Multicast Transmission
Successful PIM Join Verification
Example: IPv4 Multicast with Interprovider VPNs Configuration
Verifying Your Work
Router CE0 Status
Router PE0 Status
Router P0 Status
Router P1 Status
Router PE1 Status
Router CE1 Status
For More Information
Revision History
Translational Cross-Connect and Layer 2.5 VPNs
Overview
System Requirements
Terms and Acronyms
Configuring TCC Interface Switching
Defining the Encapsulation for Layer 2 TCC Switching
Configuring Ethernet Encapsulation with Remote and Proxy ARP Addresses
Configuring Extended VLAN Encapsulation with Remote and Proxy ARP Addresses
Option: Configuring Static ARP on the Ethernet Neighbor Instead of Proxy ARP
Defining the Connection for Layer 2 TCC Switching
Configuring MPLS
TCC Configuration Examples
Example: PPP to ATM TCC Configuration
Verifying Your Work
Example: Frame Relay to Fast Ethernet TCC Configuration
Verifying Your Work
Configuring Layer 2.5 VPNs
Configuring the Encapsulation on Interfaces Participating in the Layer 2.5 VPN
Configuring the Layer 2.5 VPN
Option: Configuring ISO or MPLS Traffic on T-series and M320 Routers
Layer 2.5 VPN Configuration Example
Example: Layer 2.5 VPN Configuration
Verifying Your Work
Router PE1 Status
Router PE2 Status
Router P Status
For More Information
Revision History
Virtual Private LAN Service
Overview
System Requirements
Terms and Acronyms
Configuring VPLS
Required Configurations for VPLS
Configuring Routing Protocols on the PE and Core Routers
Configuring VPLS Encapsulation on CE-Facing Interfaces
Configuring a Signaling Protocol for VPLS
Configuring LDP Signaling for VPLS
Configuring a VPLS Instance with BGP Signaling
Configuring Interworking between BGP Signaling and LDP Signaling in VPLS Instances
Configuring Multihoming on a VPLS Border Router
VPLS Options for BGP Signaling
Option: Selecting an LSP for the VPLS Routing Instance to Traverse
Option: Configuring VPLS Multihoming with BGP Signaling
Option: Configuring VPLS Traffic Flooding over a Point-to-Multipoint LSP
Option: Configuring Automatic Site Selection
VPLS Options for BGP and LDP Signaling
Option: Configuring VPLS to Use LSI Interfaces
Option: Configuring Tunnel Services on MX-series Routers
Optional: Configuring Integrated Routing and Bridging in a VPLS Instance (MX-series Routers Only)
Optional: Configuring VLAN IDs in a VPLS Instance (MX-series Routers Only)
Option: Applying VPLS Policers and Filters
Option: Enabling VPLS Class of Service
Option: Enabling VPLS Graceful Restart
Option: Clearing MAC Addresses and Modifying the VPLS Table Timeout Interval
Option: Configuring VPLS Interinstance Bridging and Routing
Option: Selecting Interfaces to Process VPLS Traffic
Option: Limiting the Number of MAC Addresses Learned on an Interface
Option: Optimizing VPLS Traffic Flows
Option: Aggregated Interfaces for VPLS
Option: Configuring VPLS Graceful Routing Engine Switchover
Option: Configuring VPLS Nonstop Active Routing
Enabling Nonstop Active Routing
Synchronizing the Routing Engine Configuration
Verifying VPLS Nonstop Active Routing Operation
Tracing VPLS Nonstop Active Routing Synchronization Events
Example: Configuring Nonstop Active Routing
Option: Configuring the Spanning Tree Protocol and VPLS on MX-series Routers
Filtering Layer 2 Packets in a VPLS Instance (MX-series Routers Only)
VPLS Configuration Examples
Example: VPLS Configuration (BGP Signaling)
Verifying Your Work
Example: VPLS Configuration (BGP and LDP Interworking)
Verifying Your Work
Example: Configuring Inter-AS VPLS with MAC Processing at the ASBR
For More Information
Revision History
Index
Index
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