Table of Contents - JUNOS 9.4 Routing Protocols Configuration Guide

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About This Guide

Objectives

Audience

Supported Platforms

Using the Indexes

Using the Examples in This Manual

Documentation Conventions

List of Technical Publications

Documentation Feedback

Requesting Technical Support

Overview

Routing Protocols Concepts

Routing Databases

Routing Protocol Databases
JUNOS Routing Tables
Forwarding Tables
How the Routing and Forwarding Tables Are Synchronized

Configuring Interfaces

Route Preferences

Alternate and Tiebreaker Preferences
How the Active Route Is Determined
Multiple Active Routes
Default Route Preference Values

Equal-Cost Paths and Load Sharing

IPv6

IPv6 Standards

IPv6 Packet Headers

Header Structure
Extension Headers

IPv6 Addressing

Address Representation
Address Types
Address Scope
Address Structure

Complete Routing and Routing Protocol Configuration Statements

[edit logical-systems] Hierarchy Level
[edit protocols] Hierarchy Level
[edit routing-instances] Hierarchy Level
[edit routing-options] Hierarchy Level

Protocol-Independent Routing Properties

Protocol-Independent Routing Properties Overview

Protocol-Independent Routing Properties Configuration Statements
Minimum Protocol-Independent Routing Properties Configuration

Configuring Routing Tables and Routes

Creating Routing Tables

Example: Creating Routing Tables

Configuring Static Routes

Specifying the Destination of the Static Route

Specifying the Next Hop of the Static Route

Specifying an Independent Preference for a Static Route

Example: Configuring Independent Preferences for an IPv4 Static Route
Example: Configuring Independent Preferences for an IPv6 Static Route
Example: Configuring Independent Preferences for an Unnumbered Ethernet Interface

Specifying an LSP as the Next Hop for a Static Route

Installing a Static Route into More than One Routing Table

Examples: Installing a Static Route into More than One Routing Table

Configuring a Connectionless Network Services Static Route

Example: Configuring a Static CLNS Route

Specifying Static Route Options

Specifying the Route Metric
Specifying the Route Preference
Specifying Community Information
Specifying the AS Path
Specifying the OSPF Tag
Specifying Whether a Route Is Installed in the Forwarding Table
Specifying Whether the Route Is Permanently Installed in the Forwarding Table
Specifying Whether Inactive Routes Are Removed from the Routing or Forwarding Table
Specifying When the Route Can Be Readvertised
Specifying When the Route Can Be Resolved to a Prefix That Is Not Directly Connected
Configuring Bidirectional Forwarding Detection

Configuring a Default Route

Propagating Static Routes into Routing Protocols

Examples: Configuring Static Routes

Configuring Aggregate Routes

Specifying the Destination of the Aggregate Route

Specifying Aggregate Route Options

Specifying the Route Metric
Specifying the Route Preference
Specifying a Next Hop for a Route
Specifying Community Information
Specifying the AS Path
Specifying Which AS Numbers to Include in the Aggregate Route
Specifying the OSPF Tag
Specifying Whether Inactive Routes Are Removed from the Routing or Forwarding Table

Specifying Policy with Aggregate Routes

Advertising Aggregate Routes

Configuring Generated Routes

Specifying the Destination of a Generated Route

Specifying Generated Route Options

Specifying the Route Metric
Specifying the Route Preference
Specifying a Next Hop for a Route
Specifying Community Information
Specifying the AS Path
Specifying the OSPF Tag
Specifying Which AS Numbers to Include in the Generated Route
Specifying Whether Inactive Routes Are Removed from the Routing or Forwarding Table

Specifying Policy with Generated Routes

Configuring Martian Addresses

Adding Martian Addresses
Deleting Martian Addresses

Configuring a Flow Route

Configuring the Match Condition
Configuring the Action
Validating Flow Routes

Applying a Filter to a Forwarding Table

Configuring Other Protocol-Independent Routing Properties

Configuring the AS Number

Configuring the Router Identifier

Configuring AS Confederation Members

Configuring Route Recording for Flow Aggregation

Creating Routing Table Groups

Examples: Creating Routing Table Groups

Configuring How Interface Routes Are Imported into Routing Tables

Configuring Multicast Scoping

Example: Configuring Multicast Scoping

Enabling Multicast on an Interface

Configuring Additional Source-Specific Multicast Groups

Configuring Multicast Forwarding Cache Limits

Configuring Per-Packet Load Balancing

Examples: Configuring Per-Packet Load Balancing

Configuring Unicast Reverse-Path-Forwarding Check

Example: Configuring Unicast RPF

Configuring Graceful Restart

Configuring a Route Distinguisher

Configuring a Dynamic Tunnel

Configuring Logging for the Routing Protocol Process

Examples: Configuring Logging for the Routing Protocol Process

Configuring Route Resolution

Enabling an Indirect Next Hop

Enabling Nonstop Routing

Tracing Global Routing Protocol Operations

Examples: Tracing Global Routing Protocol Operations

Disabling Distributed Periodic Packet Management on the Packet Forwarding Engine

Enabling Source Routing

Configuring a Timer to Delay Multiple Exit Discriminator IGP Updates

Logical System Overview

Overview

Logical Systems and Virtual Routers

Logical System Configuration Statements

Minimum Logical System Configuration

Logical System Configuration Guidelines

Configuring a Logical System

Logical Systems Configuration Statement

logical-systems

Summary of Protocol-Independent Routing Properties Configuration Statements

autonomous-system

bfd-liveness-detection

destination-networks

independent-domain

indirect-next-hop

interface (Multicast via Static Routes)
interface (Multicast Scoping)

med-igp-update-interval

metric

metric (Aggregate, Generated, or Static Route)
metric (Qualified Next Hop on Static Route)

p2mp-lsp-next-hop

qualified-next-hop

rib (General)
rib (Route Resolution)

rib-group

rib-groups

route-distinguisher-id

unicast-reverse-path

Routing Instances

Routing Instances Overview

Routing Instances Configuration Guidelines

Configuring Routing Instances

Routing Instances Minimum Configuration

BGP
IS-IS
Layer 2 VPN
LDP
MSDP
Multiprotocol BGP-Based Multicast VPNs
OSPF
OSPFv3
PIM
RIP
VPLS

Configuring Multiple Instances of BGP

Example: Configuring Multiple Instances of BGP

Configuring Multiple Instances of IS-IS

Example: Configuring Multiple Routing Instances of IS-IS

Configuring Multiple Instances of LDP

Configuring Multiple Instances of MSDP

Configuring Multiple Instances of OSPF

Example: Configuring Multiple Routing Instances of OSPF

Configuring Multiple Instances of PIM

Configuring Multiple Instances of RIP

Configuring an Instance

Configuring VPNs

Configuring a Virtual Switch

Configuring an Instance Type

Configuring a VRF Routing Instance
Configuring a Non-VPN VRF Routing Instance
Configuring a VPLS Routing Instance

Configuring a Route Distinguisher

Configuring Filter-Based Forwarding

Configuring Class-of-Service-Based Forwarding

Configuring Secondary VRF Import and Export Policy

Configuring Policy-Based Export for Routing Instances

Example: Configuring Policy-Based Export for an Overlapping VPN
Example: Configuring Policy-Based Export for a Nonforwarding Instance

Configuring a VRF Table Label

Configuring a VRF Target

Configuring an OSPF Domain ID

Examples: Configuring an OSPF Domain ID

Configuring Route Limits for Routing Tables

Configuring an Independent AS Domain

Summary of Routing Instances Configuration Statements

description
forwarding-options
instance-type
interface
no-vrf-advertise
protocols
route-distinguisher
routing-instances
routing-options
vrf-export
vrf-import
vrf-table-label
vrf-target

Multitopology Routing

Multitopology Routing Overview

Routing Table Naming Conventions for Multitopology Routing
Routing Protocol Support for Multitopology Routing
Filter-Based Forwarding Support
Multitopology Routing Standards

Configuring Multitopology Routing

Configuring Topologies

Configuring Multitopology Routing in OSPF

Configuring Topologies and SPF Options for MT-OSPF
Configuring a Prefix Export Limit for MT-OSPF
Configuring a Topology to Appear Overloaded
Configuring Interface Properties for MT-OSPF
Disabling MT-OSPF on an OSPF Interface
Disabling MT-OSPF on a Virtual Link
Advertising MPLS Label-Switched Paths into MT-OSPF
Configuring Other MT-OSPF Properties

Configuring Multitopology Routing in Static Routes

Configuring Multitopology Routing in BGP

BGP Route Resolution in Multitopology Routing

Configuring Filter-Based Forwarding for Multitopology Routing

Summary of Multitopology Routing Configuration Statements

topology (Filter-Based Forwarding)
topology (Multitopology Routing)
topology (OSPF)
topology (OSPF Interface)

topology-id

Interior Gateway Protocols

IS-IS Overview

IS-IS Standards

IS-IS Terminology

ISO Network Addresses

IS-IS Packets

Persistent Route Reachability

IS-IS Extensions to Support Traffic Engineering

Configuring IS-IS IGP Shortcuts

IS-IS Extensions to Support Route Tagging

IS-IS Configuration Guidelines

Minimum IS-IS Configuration

Configuring IS-IS Authentication

Configuring Interface-Specific Properties

Enabling Checksum

Configuring the CSNP Interval

Configuring Mesh Groups

Modifying the Interface Metric

Modifying the Maximum Number of Areas Advertised

Enabling Wide Metrics for Traffic Engineering

Configuring Route Preferences

Configuring a Prefix Export Limit

Configuring IS-IS Levels on an Interface

Disabling IS-IS on a Level

Example: Disabling IS-IS on a Level

Advertising Interface Addresses Without Running IS-IS

Configuring Authentication for Hello Packets

Modifying the Hello Interval

Modifying the Hold-Time Value

Modifying the IS-IS Metric

Modifying the Traffic Engineering Metric

Configuring the Priority for Becoming the Designated Router

Configuring the Router to Advertise Without Running IS-IS

Modifying the LSP Interval

Configuring Label Distribution Protocol Synchronization

Modifying the LSP Lifetime

Advertising Label-Switched Paths into IS-IS

Configuring the Router to Appear Overloaded

Configuring SPF Options for IS-IS

Configuring Graceful Restart

IS-IS and Multipoint Configurations

Configuring Point-to-Point Interfaces

Configuring IS-IS Traffic Engineering Attributes

Configuring IS-IS to Use IGP Shortcuts
Configuring IS-IS to Ignore the Metric of RSVP Label-Switched Paths
Disabling IS-IS Support for Traffic Engineering
Installing IPv4 Routes into the Multicast Routing Table

Configuring the BFD Protocol

Configuring Loose Authentication Check

Disabling Adjacency Hold-Down Timers

Configuring Hello Packet Padding

Configuring Support for Connectionless Network Services

Example: Configuring CLNS for IS-IS

Disabling IS-IS

Disabling IPv4 Routing

Disabling IPv6 Routing

Configuring IS-IS Routing Policy

Examples: Configuring IS-IS Routing Policy

Configuring IS-IS Multicast Topologies

Example: Configuring IS-IS Multicast Topologies

Configuring IS-IS IPv6 Unicast Topologies

Installing a Default Route to the Nearest Level 1/Level 2 Router

Tracing IS-IS Protocol Traffic

Examples: Tracing IS-IS Protocol Traffic

Summary of IS-IS Configuration Statements

authentication-key

authentication-type

bfd-liveness-detection

disable (IS-IS)
disable (LDP Synchronization)

export

external-preference

family

graceful-restart

hello-authentication-key

hello-authentication-type

hello-interval

hello-padding

hold-time

hold-time (IS-IS)
hold-time (LDP Synchronization)

ignore-attached-bit

ignore-lsp-metrics

interface

ipv4-multicast

ipv4-multicast-metric

ipv6-multicast

ipv6-multicast-metric

ipv6-unicast

ipv6-unicast-metric

isis

label-switched-path

ldp-synchronization

level

level (Global IS-IS)
level (IS-IS Interfaces)

loose-authentication-check

multicast-rpf-routes

no-adjacency-holddown

no-authentication-check

no-csnp-authentication

no-hello-authentication

no-ipv4-multicast

no-ipv4-routing

no-ipv6-multicast

no-ipv6-routing

no-ipv6-unicast

no-psnp-authentication

no-unicast-topology

prefix-export-limit

priority

reference-bandwidth

traffic-engineering

wide-metrics-only

ES-IS Overview

Overview

ES-IS Configuration Guidelines

Minimum ES-IS Configuration
Configuring ES-IS on an Interface
Configuring the Hello Interval
Configuring the End System Configuration Timer
Configuring Graceful Restart for ES-IS
Configuring the Preference Value for ES-IS
Tracing ES-IS Protocol Traffic

Summary of ES-IS Configuration Statements

disable
end-system-configuration-timer
esis
graceful-restart
hello-interval
interface
preference
traceoptions

OSPF Overview

OSPF Protocol Overview

OSPF Version 3

OSPF Standards

OSPF Area Terminology

Areas
Area Border Routers
Backbone Areas
AS Boundary Routers
Stub Areas
Not-So-Stubby Areas
Transit Areas

OSPF Routing Algorithm

OSPF Packets

OSPF Packet Header
Hello Packets
Database Description Packets
Link-State Request Packets
Link-State Update Packets
Link-State Acknowledgment Packets
Link-State Advertisement Packet Types

External Metrics

Designated Router

OSPF Extensions to Support Traffic Engineering

Configuring OSPF IGP Shortcuts

OSPF Configuration Guidelines

Minimum OSPF Configuration

Configuring the Backbone Area and Other Areas

Configuring the Backbone Area

Configuring a Nonbackbone Area

Configuring a Stub Area

Configuring a Not-So-Stubby Area

Configuring an OSPF Virtual Link

Example: Configuring an OSPF Virtual Link

Disabling NSSA Support on an ASBR ABR

Disabling Compatibility with RFC 1583

Configuring OSPF on Router Interfaces

Configuring an Interface on a Broadcast or Point-to-Point Network
Configuring an Interface on a Point-to-Multipoint Network
Configuring an Interface on a Nonbroadcast, Multiaccess Network
Configuring an OSPF Demand Circuit Interface

Configuring Multiarea Adjacency in OSPFv2

Configuring Multiple Address Families for OSPFv3

Configuring Authentication for OSPFv2

Example: Configuring IPsec Authentication for an OSPFv2 Interface
Example: Configuring a Transition of MD5 Keys
Example: Configuring MD5 Authentication

Configuring Authentication for OSPFv3

Configuring a Prefix Export Limit

Configuring the Priority for Becoming the Designated Router

Configuring Route Summarization

Modifying the Interface Metric

Configuring Route Preferences

Configuring OSPF Timers

Modifying the Hello Interval
Controlling the LSA Retransmission Interval
Modifying the Router Dead Interval
Specifying the Transit Delay

Configuring the BFD Protocol

Configuring Label Distribution Protocol Synchronization with the IGP

Configuring Graceful Restart

Configuring SPF Options for OSPF

Advertising Interface Addresses Without Running OSPF

Configuring OSPF Passive Traffic Engineering Mode

Advertising Label-Switched Paths into OSPF

Configuring the Router to Appear Overloaded

Enabling OSPF Traffic Engineering Support

Example: Enabling OSPF Traffic Engineering Support

Modifying the Traffic Engineering Metric

Configuring OSPF Routing Policy

Configuring Import and Export Policies for Network Summaries
Configuring Priority for Prefixes in Import Policy
Example: Configuring a Route Filter Policy to Specify Priority for Prefixes Learned Through OSPF

Configuring OSPF Routing Table Groups

Configuring a Sham Link

Configuring a Peer Interface

Tracing OSPF Protocol Traffic

Examples: Tracing OSPF Protocol Traffic

Summary of OSPF Configuration Statements

area

area-range

authentication

bfd-liveness-detection

disable (LDP Synchronization)
disable (OSPF)

domain-id

domain-vpn-tag

export

external-preference

graceful-restart

hello-interval

hold-time

ignore-lsp-metrics

import

inter-area-prefix-export

inter-area-prefix-import

interface

interface-type

ipsec-sa

label-switched-path

ldp-synchronization

lsp-metric-into-summary

network-summary-export

network-summary-import

prefix-export-limit

priority

realm

reference-bandwidth

retransmit-interval

rib-group

route-type-community

traffic-engineering

traffic-engineering (OSPF)
traffic-engineering (Passive TE Mode)

transit-delay

transmit-interval

type-7

virtual-link

RIP Overview

Protocol Overview
RIP Standards
RIP Packets

RIP Configuration Guidelines

Minimum RIP Configuration

Defining RIP Global Properties

Defining RIP Neighbor Properties

Configuring Authentication

Modifying the Incoming Metric

Configuring RIP Timers

Configuring the Number of Route Entries in an Update Message

Accepting Packets Whose Reserved Fields Are Nonzero

Configuring Update Messages

Configuring Routing Table Groups

Applying Import Policy

Configuring Group-Specific Properties

Applying Export Policy
Controlling Route Preference
Modifying the Outgoing Metric

Configuring Graceful Restart

Configuring the BFD Protocol

Disabling Strict Address Check

Tracing RIP Protocol Traffic

Example: Tracing RIP Protocol Traffic

Example: Configuring RIP

Summary of RIP Configuration Statements

any-sender
authentication-key
authentication-type
bfd-liveness-detection
check-zero
export
graceful-restart
group
holddown
import
message-size
metric-in
metric-out
neighbor
no-check-zero
preference
receive
rib-group
rip
route-timeout
send
traceoptions
update-interval

RIPng Overview

RIPng Overview
RIPng Standards
RIPng Packets

RIPng Configuration Guidelines

Minimum RIPng Configuration

Defining RIPng Global Properties

Defining RIPng Neighbor Properties

Modifying the Incoming Metric

Configuring RIPng Timers

Configuring Update Messages

Applying Import Policy

Configuring Group-Specific Properties

Applying Export Policy
Controlling Route Preference
Modifying the Outgoing Metric

Configuring Graceful Restart

Tracing RIPng Protocol Traffic

Example: Configuring RIPng

Summary of RIPng Configuration Statements

export
graceful-restart
group
holddown
import
metric-in
metric-out
neighbor
preference
receive
ripng
route-timeout
send
traceoptions
update-interval

ICMP Router Discovery Overview

ICMP Router Discovery Standards
Operation of a Router Discovery Server
Router Advertisement Messages

ICMP Router Discovery Configuration Guidelines

Minimum Router Discovery Server Configuration

Configuring the Addresses to Include in Router Advertisements

Configuring the Frequency of Router Advertisements

Modifying the Router Advertisement Lifetime

Tracing ICMP Protocol Traffic

Example: Tracing ICMP Protocol Traffic

Summary of ICMP Router Discovery Configuration Statements

address
advertise
broadcast
disable
ignore
ineligible
interface
lifetime
max-advertisement-interval
min-advertisement-interval
multicast
priority
router-discovery
traceoptions

Neighbor Discovery Overview

Neighbor Discovery Standards

Router Discovery

Address Resolution
Redirect

Neighbor Discovery Configuration Guidelines

Minimum Neighbor Discovery Configuration

Configuring Router Advertisement on an Interface

Configuring the Hop Limit

Modifying the Default Router Lifetime

Enabling Stateful Autoconfiguration

Configuring the Frequency of Router Advertisements

Modifying the Reachable Time Limit

Modifying the Frequency of Neighbor Solicitation Messages

Configuring Prefix Information

Setting the Prefix for Onlink Determination
Setting the Prefix for Stateless Address Autoconfiguration
Configuring the Preferred Lifetime
Configuring the Valid Lifetime

Tracing Router Advertisement Traffic

Summary of Neighbor Discovery Router Advertisement Configuration Statements

autonomous
current-hop-limit
default-lifetime
interface
managed-configuration
max-advertisement-interval
min-advertisement-interval
no-autonomous
no-managed-configuration
no-on-link
no-other-stateful-configuration
on-link
other-stateful-configuration
preferred-lifetime
prefix
reachable-time
retransmit-timer
router-advertisement
traceoptions
valid-lifetime

Secure Neighbor Discovery Configuration Guidelines

Enabling Secure Neighbor Discovery

Configuring Cryptographic Address Parameters

Specifying the Pathname for the Key File
Specifying the RSA Key Length

Configuring Timestamp Parameters

Tracing Secure Neighbor Discovery Traffic

Summary of Secure Neighbor Discovery Configuration Statements

cryptographic-address
key-length
key-pair
neighbor-discovery
secure
security-level
timestamp
traceoptions

BGP

BGP Overview

BGP Standards

Autonomous Systems

AS Paths and Attributes

External and Internal BGP

BGP Routes

BGP Messages

Open Messages
Update Messages
Keepalive Messages
Notification Messages

BGP Configuration Guidelines

Minimum BGP Configuration

Enabling BGP

Specifying the Local Router’s AS Number

Defining an AS Confederation and Its Members

Assigning a BGP Identifier

Defining BGP Global Properties

Defining BGP Groups and Peers

Defining a Group with Static Peers

Example: Defining a Large Number of Groups with Static Peers
Example: Defining a Small Number of Groups with Static Peers for Better Scalability

Defining a Group with Dynamic Peers

Defining the Group Type

Specifying the Peer’s AS Number

Defining Group Properties

Defining Peer Properties

Examples: Enabling BGP

Modifying the Hold-Time Value

Configuring MTU Discovery

Configuring Graceful Restart

Advertising an Explicit Null Label

Configuring Aggregate Labels for VPNs

Configuring Authentication

Applying IPsec Security Association

Opening a Peer Connection Passively

Configuring the Local IP Address

Configuring the Multiple Exit Discriminator Metric

Defining a MED Metric Directly
Using Routing Policy to Define a MED Metric
Examples: Configuring the MED Metric

Controlling the Aggregator Path Attribute

Configuring an EBGP Multihop Session

Configuring a Single-Hop EBGP Peer to Accept a Remote Next Hop

Example: Configure an Import Routing Policy for an EBGP Peer to Accept a Remote Next Hop

Configuring the BGP Local Preference

Controlling Route Preference

Examples: Controlling Route Preference

Configuring Routing Table Path Selection

Example: Always Comparing MEDs

Configuring BGP to Select Multiple BGP Paths

Configuring a Local AS

Examples: Configuring a Local AS

Removing Private AS Numbers from AS Paths

Configuring Route Reflection

Examples: Configuring Route Reflection

Enabling Route Flap Damping

Enabling Multiprotocol BGP

Limiting the Number of Prefixes Received on a BGP Peering Session
Limiting the Number of Prefixes Accepted on a BGP Peering Session
Configuring BGP Routing Table Groups
Resolving Routes to PE Routers Located in Other ASs
Allowing Labeled and Unlabeled Routes

Enabling BGP to Carry Flow-Specification Routes

Configuring Flow-Specification Routes for IPv4 Unicast
Configuring Flow-Specification Routes for Layer 3 VPNs

Enabling BGP to Carry Connectionless Network Services Routes

Example: Enabling CLNS Between Two Routers
Example: Configuring CLNS Within a VPN

Enabling Route Target Filtering

Configuring Prefix-Based Outbound Route Filtering

Enabling Layer 2 VPN and VPLS Signaling

Configuring BGP Routing Policy

Applying Routing Policy

Applying Policies to Routes Being Imported into the Routing Table from BGP
Applying Policies to Routes Being Exported from the Routing Table into BGP

Setting BGP to Advertise Inactive Routes

Configuring BGP to Advertise the Best External Route to Internal Peers

Configuring How Often BGP Exchanges Routes with the Routing Table

Disabling Suppression of Route Advertisements

Configuring EBGP Peering Using IPv6 Link-Local Address

Configuring IPv6 BGP Routes over IPv4 Transport

Example: Configuring IPv6 BGP Routes over IPv4 Transport

Configuring BGP to Log System Log Messages

Describing BGP Router Configuration

Blocking Nonpeer TCP Connection Attempts

Applying BGP Export Policy to VRF Routes

Enabling Next-Hop Reachability Information

Configuring the BFD Protocol

Configuring the Segment Size for TCP

Tracing BGP Protocol Traffic

Examples: Tracing BGP Protocol Traffic

Summary of BGP Configuration Statements

accept-remote-nexthop
accepted-prefix-limit
advertise-external
advertise-inactive
advertise-peer-as
aggregate-label
allow
as-override
authentication-algorithm
authentication-key
authentication-key-chain
authentication-key-chains
bfd-liveness-detection
bgp
bgp-orf-cisco-mode
cluster
damping
description
disable
explicit-null
export
family
flow
graceful-restart
group
hold-time
import
include-mp-next-hop
ipsec-sa
iso-vpn
keep
labeled-unicast
local-address
local-as
local-interface
local-preference
log-updown
metric-out
mtu-discovery
multihop
multipath
neighbor
no-advertise-peer-as
no-aggregator-id
no-client-reflect
no-validate
out-delay
outbound-route-filter
passive
path-selection
peer-as
preference
prefix-limit
remove-private
resolve-vpn
rib
rib-group
route-target
tcp-mss
traceoptions
type
vpn-apply-export

Indexes

Index
Index of Statements and Commands

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