JUNOS 10.1 Network Interfaces Configuration Guide

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About This Guide
JUNOS Documentation and Release Notes
Objectives
Audience
Supported Routing Platforms
Using the Indexes
Using the Examples in This Manual
Documentation Conventions
Documentation Feedback
Requesting Technical Support
Network Interfaces Configuration Statements and Hierarchy
[edit chassis] Hierarchy Level
[edit interfaces] Hierarchy Level
[edit logical-systems] Hierarchy Level
[edit protocols connections] Hierarchy Level
[edit protocols dot1x] Hierarchy Level
[edit protocols iccp] Hierarchy Level
[edit protocols lacp] Hierarchy Level
[edit protocols oam] Hierarchy Level
[edit protocols ppp] Hierarchy Level
[edit protocols pppoe] Hierarchy Level
[edit protocols protection-group] Hierarchy Level
[edit protocols vrrp] Hierarchy Level
[edit system processes] Hierarchy Level
Understanding Router Interfaces
Router Interfaces Overview
Types of Interfaces Overview
Permanent Interfaces Overview
Understanding Management Ethernet Interfaces
Understanding Internal Ethernet Interfaces
Understanding Transient Interfaces
Understanding Services Interfaces
Container Interfaces Overview
Understanding Traditional APS Concept
Container Interfaces Concept
APS Support for Container-Based Interfaces
Autocopy of APS Parameters
Interface Encapsulations Overview
Interface Descriptors Overview
Interface Naming Overview
Physical Part of an Interface Name
Logical Part of an Interface Name
Separators in an Interface Name
Channel Part of an Interface Name
Interface Naming for a Routing Matrix Based on a TX Matrix Router
Interface Naming for a Routing Matrix Based on a TX Matrix Plus Router
Chassis Interface Naming
Examples: Interface Naming
Displaying Interface Configurations Overview
Interface and Router Clock Sources Overview
Interface and Router Clock Sources Description
Configuring an External Synchronization Interface
Configuring Physical Interface Properties
Physical Interface Configuration Statements Overview
Physical Interfaces Properties Statements List
Interface Ranges
Configuring Interface Ranges
Expanding Interface Range Member and Member Range Statements
Configuration Inheritance for Member Interfaces
Member Interfaces Inheriting Configuration from Configuration Groups
Interfaces Inheriting Common Configuration
Configuring Inheritance Range Priorities
Configuration Expansion Where Interface Range Is Used
Specifying an Aggregated Interface
Specifying a USB Modem Interface on J Series Routers
Specifying OC768-over-OC192 Mode
Adding an Interface Description to the Configuration
Example: Adding an Interface Description to the Configuration
Configuring the Link Characteristics
Configuring the Media MTU
Configuring Interface Encapsulation on Physical Interfaces
Configuring the Encapsulation on a Physical Interface
Encapsulation Capabilities
Example: Configuring the Encapsulation on a Physical Interface
Configuring the PPP Challenge Handshake Authentication Protocol
Assigning an Access Profile to an Interface
Configuring a Default CHAP Secret
Configuring the Local Name
Configuring Passive Mode
Example: Configuring the PPP Challenge Handshake Authentication Protocol
Configuring the PPP Password Authentication Protocol
Configuring the Local Name
Configuring the Local Password
Configuring Passive Mode
Example: Configuring PAP Authentication Protocol
Monitoring a PPP Session
Tracing Operations of the pppd Process
Configuring PPP Address and Control Field Compression
Configuring the PPP Protocol Field Compression
Configuring the Interface Speed
Management Ethernet Interface on M Series and T Series routers
Gigabit Ethernet Interfaces on J Series Routers
Fast Ethernet Interface
Tri-Rate Ethernet Copper Interface
SONET/SDH Interface
Configuring Keepalives
Configuring the Clock Source
Configuring the Router as a DCE
Configuring Receive and Transmit Leaky Bucket Properties
Configuring Accounting for the Physical Interface
Applying an Accounting Profile to the Physical Interface
Example: Applying an Accounting Profile to the Physical Interface
Interface Diagnostics
Configuring Loopback Testing
Interface Diagnostics
Starting and Stopping a BERT Test
Example: Configuring Bit Error Rate Testing
Tracing Operations of an Individual Router Interface
Damping Interface Transitions
Configuring Multiservice Physical Interface Properties
Enabling or Disabling SNMP Notifications on Physical Interfaces
Enabling Unidirectional Traffic Flow on Physical Interfaces
Disabling a Physical Interface
Example: Disabling a Physical Interface
Configuring Logical Interface Properties
Logical Interfaces Configuration Properties Overview
Logical Interfaces Configuration Statements
Logical Interfaces Statements List
Specifying the Logical Interface Number
Configuring Logical System Interface Properties
Example: Configuring Logical System Interface Properties
Adding a Logical Unit Description to the Configuration
Configuring a Point-to-Point Connection
Configuring a Multipoint Connection
Configuring Accounting for the Logical Interface
Applying an Accounting Profile to the Logical Interface
Example: Applying an Accounting Profile to the Logical Interface
Configuring the Interface Bandwidth
Enabling or Disabling SNMP Notifications on Logical Interfaces
Configuring Interface Encapsulation on Logical Interfaces
Configuring the Encapsulation on a Logical Interface
Configuring the LCP Configure-Request Maximum Sent
Configuring the NCP Configure-Request Maximum Sent
Configuring the PPP Restart Timers
Configuring the PPP Clear Loop Detected Timer
Configuring Dynamic Profiles for PPP
Configuring PPP CHAP Authentication
Configuring PPP PAP Authentication
Configuring a Default PAP Password
Configuring the Local Name
Configuring the Local Password
Configuring Passive Mode
Configuring Dynamic Call Admission Control
Example: Configuring Dynamic CAC
Disabling a Logical Interface
Configuring Protocol Family and Interface Address Properties
Protocol Family Configuration and Interface Address Statements
Configuring the Protocol Family
IPv6 Overview
IPv4-to-IPv6 Transition
VRRP Properties
Configuring the Interface Address
Configuring an Interface IPv4 Address
Configuring the Interface IPv6 Address
Configuring ICCP for MC-LAG
Configuring IPCP Options
Configuring an IP Address for an Interface
Negotiating an IP Address Assignment from the Remote End
Configuring an Interface to Be Unnumbered
Assigning a Destination Profile to the Remote End
Configuring an Unnumbered Interface
Configuring an Unnumbered Point-to-Point Interface
Example: Configuring an Unnumbered Point-to-Point Interface
Configuring an Unnumbered Ethernet or Demux Interface
Configuring a Preferred Source Address for Unnumbered Ethernet or Demux Interfaces
Configuring Static Routes on Unnumbered Ethernet Interfaces
Restrictions for Configuring Unnumbered Ethernet Interfaces
Example: Configuring an Unnumbered Ethernet Interface
Example: Configuring the Preferred Source Address for an Unnumbered Ethernet Interface
Example: Configuring an Unnumbered Ethernet Interface as the Next Hop for a Static Route
Setting the Protocol MTU
Disabling the Removal of Address and Control Bytes
Disabling the Transmission of Redirect Messages on an Interface
Configuring Default, Primary, and Preferred Addresses and Interfaces
Configuring the Primary Interface for the Router
Configuring the Primary Address for an Interface
Configuring the Preferred Address for an Interface
Applying Policers
Applying Aggregate Policers
Example: Applying Aggregate Policers
Applying Hierarchical Policers on Enhanced Intelligent Queuing PICs
Hierarchical Policer Overview
Hierarchical Policing Characteristics
Configuring Hierarchical Policers
Configuring a Single-Rate Two-Color Policer
Configuring a Single-Rate Tricolor Policer
Configuring a Single-Rate Color-Blind Policer
Configuring a Single-Rate Color-Aware Policer
Configuring a Two-Rate Tricolor Marker Policer
Applying a Filter to an Interface
Defining Interface Groups in Firewall Filters
Filter-Based Forwarding on the Output Interface
Example: Applying a Filter to an Interface
Configuring Unicast RPF
Configuring Unicast RPF Strict Mode
Configuring Unicast RPF Loose Mode
Unicast RPF and Default Routes
Unicast RPF Behavior with a Default Route
Unicast RPF Behavior Without a Default Route
Unicast RPF with Routing Asymmetry
Configuring Unicast RPF on a VPN
Example: Configuring Unicast RPF on a VPN
Example: Configuring Unicast RPF
Enabling Source Class and Destination Class Usage
Examples: Enabling Source Class and Destination Class Usage
Configuring Circuit and Translational Cross-Connects
Circuit and Translational Cross-Connects Overview
Defining the Encapsulation for Switching Cross-Connects
Configuring PPP or Cisco HDLC Circuits
Configuring ATM Circuits
Configuring Frame Relay Circuits
Configuring Ethernet CCC Circuits
Configuring Ethernet VLAN Circuits
Defining the Connection for Switching Cross-Connects
Configuring MPLS for Switching Cross-Connects
Configuring IS-IS or MPLS Traffic for TCC Interfaces
Configuring ATM-to-Ethernet Interworking
Enabling ATM-to-Ethernet Interworking
Configuring the ATM-to-Ethernet Interworking Ethernet Interface
Configuring the ATM-to-Ethernet Interworking Ethernet Encapsulation
Configuring the ATM-to-Ethernet Interworking Outer VLAN Identifier
Configuring the ATM-to-Ethernet Interworking Inner VLAN Identifier Range
Configuring the ATM-to-Ethernet Interworking Physical Interface VPI
Configuring the ATM-to-Ethernet Interworking ATM Logical Interface
Configuring the ATM-to-Ethernet Interworking Protocol Family
Configuring the ATM-to-Ethernet Interworking Logical Interface VPI
Configuring the ATM-to-Ethernet Interworking Logical Interface VCI
Examples: Configuring Switching Cross-Connects
Example: Configuring a CCC over Frame Relay Encapsulated Interface
Example: Configuring a TCC
Example: Configuring CCC over Aggregated Ethernet
Example: Configuring a Remote LSP CCC over Aggregated Ethernet
Example: Configuring ATM-to-Ethernet Interworking
Tracing Interface Operations
Tracing Interface Operations Overview
Tracing Operations of an Individual Router Interface
Tracing Operations of the Interface Process
Displaying the Internal Ethernet Interface
Internal Ethernet Interface Overview
Displaying the Internal Ethernet Interface for M Series, MX Series, and Most T Series Routers
Displaying Internal Ethernet Interfaces for a Routing Matrix with a TX Matrix Plus Router
Configuring Discard Interfaces
Discard Interfaces Overview
Example: Discard Interface
Configuring IP Demultiplexing Interfaces
IP Demultiplexing Interface Overview
Configuring an IP Demultiplexing Interface
Configuring an IP Demux Underlying Interface
Specifying the Demux Underlying Interface
Configuring IP Demux Prefixes
Configuring MAC Address Validation on Static Demux Interfaces
Example: Configuring a Demux Interface
Configuring the Loopback Interface
Configuring the Loopback Interface
Example: Configuring the Loopback Interface
Configuring Serial Interfaces
Serial Interfaces Overview
Example: Physical Interface Configuration Statements for Serial Interfaces
Configuring the Serial Line Protocol
Serial Interface Default Settings
EIA-530 Interface Default Settings
V.35 Interface Default Settings
X.21 Interface Default Settings
Invalid Serial Interface Statements
Invalid EIA-530 Interface Statements
Invalid V.35 interface Statements
Invalid X.21 Interface Statements
Configuring the Serial Clocking Mode
Inverting the Serial Interface Transmit Clock
Configuring the DTE Clock Rate
Configuring the Serial Idle Cycle Flag
Configuring the Serial Signal Handling
Configuring the Serial DTR Circuit
Configuring Serial Signal Polarities
Configuring Serial Loopback Capability
Example: Configuring Serial Loopback Capability
Configuring Serial Line Encoding
Configuring ATM Interfaces
ATM Interfaces Overview
ATM1 Physical and Logical Configuration Statement Hierarchies
ATM2 IQ Physical and Logical Configuration Statement Hierarchies
Supported Features on ATM1 and ATM2 IQ Interfaces
Configuring Communication with Directly Attached ATM Switches and Routers
Example: Configuring Communication with Directly Attached ATM Switches and Routers
Enabling ILMI for Cell Relay
Example: Enabling ILMI for Cell Relay
Enabling Passive Monitoring on ATM Interfaces
Removing MPLS Labels from Incoming Packets
Configuring the ATM PIC Type
Example: Configuring the ATM PIC Type
Configuring ATM Cell-Relay Promiscuous Mode
Examples: Configuring ATM Cell-Relay Promiscuous Mode
Configuring the Maximum Number of ATM1 VCs on a VP
Configuring Layer 2 Circuit Transport Mode
Examples: Configuring IQ Layer 2 Circuit Transport Mode
Configuring Layer 2 Circuit Cell-Relay Promiscuous Mode
Example: Configuring Layer 2 Circuit Cell-Relay Promiscuous Mode
Configuring Layer 2 Circuit Trunk Mode Scheduling
Example: Configuring Layer 2 Circuit Trunk Mode Scheduling
Configuring CoS Queues in Layer 2 Circuit Trunk Mode
Example: Configuring CoS Queues in Layer 2 Circuit Trunk Mode
Configuring the Layer 2 Circuit Cell-Relay Cell Maximum
Class-Based Cell Bundling
Configuring the OAM F4 Cell Flows
Defining Virtual Path Tunnels
Configuring a Point-to-Point ATM1 or ATM2 IQ Connection
Configuring a Point-to-Multipoint ATM1 or ATM2 IQ Connection
Configuring a Multicast-Capable ATM1 or ATM2 IQ Connection
Configuring Inverse ATM1 or ATM2 ARP
Defining the ATM Traffic-Shaping Profile
Configuring ATM CBR
Configuring ATM2 IQ Real-Time VBR
Configuring ATM VBR
Specifying ATM1 Shaping Values
Example: Specifying ATM1 Shaping Values
Specifying ATM2 IQ Shaping Values
Configuring the ATM1 Queue Length
Configuring the ATM2 IQ EPD Threshold
Example: Configuring the ATM2 IQ EPD Threshold
Configuring Two EPD Thresholds per Queue
Configuring the ATM2 IQ Transmission Weight
Defining the ATM OAM F5 Loopback Cell Period
Configuring the ATM OAM F5 Loopback Cell Threshold
Configuring ATM Interface Encapsulation
Configuring an ATM1 Cell-Relay Circuit
Example: Configuring an ATM1 Cell-Relay Circuit
Configuring PPP over ATM2 Encapsulation
Example: Configuring PPP over ATM2 IQ Encapsulation
Configuring E3 and T3 Parameters on ATM Interfaces
Configuring SONET/SDH Parameters on ATM Interfaces
Configuring ATM2 IQ VC Tunnel CoS Components
Configuring Linear RED Profiles
Configuring an ATM Scheduler Map
Enabling Eight Queues on ATM2 IQ Interfaces
Example: Enabling Eight Queues on T Series, M120, and M320 Platforms
Configuring VC CoS Mode
Enabling the PLP Setting to Be Copied to the CLP Bit
Configuring ATM CoS on the Logical Interface
Example: Configuring ATM2 IQ VC Tunnel CoS Components
Example: Configuring ATM1 Interfaces
Example: Configuring ATM2 IQ Interfaces
Configuring ATM-over-ADSL Interfaces
ATM-over-ADSL Overview
Configuring Physical ATM Interfaces and Logical Interface Properties for ADSL
Configuring the ATM-over-ADSL Virtual Path Identifier
Configuring the ATM-over-ADSL Physical Interface Operating Mode
Configuring the ATM-over-ADSL Physical Interface Encapsulation Type
Configuring the ATM-over-ADSL Logical Interface Encapsulation Type
Configuring the ATM-over-ADSL Protocol Family
Configuring the ATM-over-ADSL Virtual Channel Identifier
Configuring ATM-over-SHDSL Interfaces
ATM-over-SHDSL Overview
Configuring ATM Mode for SHDSL Overview
Configuring ATM Mode on the PIM
Configuring SHDSL Operating Mode on an ATM Physical Interface
Configuring Encapsulation on the ATM Physical Interface
Configuring Logical Interface Properties
Example: Configuring an ATM-over-SHDSL Interface
Verifying an ATM-over-SHDSL Interface Configuration
Configuring Frame Relay
Frame Relay Overview
Configuring Frame Relay Interface Encapsulation
Configuring the Frame Relay Encapsulation on a Physical Interface
Example: Configuring the Encapsulation on a Physical Interface
Configuring the Frame Relay Encapsulation on a Logical Interface
Configuring Frame Relay Control Bit Translation
Configuring the Media MTU on Frame Relay Interfaces
Setting the Protocol MTU with Frame Relay Encapsulation
Configuring Frame Relay Keepalives
Configuring Tunable Keepalives for Frame Relay LMI
Configuring Inverse Frame Relay ARP
Configuring the Router as a DCE with Frame Relay Encapsulation
Configuring Frame Relay DLCIs
Configuring a Point-to-Point Frame Relay Connection
Configuring a Point-to-Multipoint Frame Relay Connection
Configuring a Multicast-Capable Frame Relay Connection
Channelized Interfaces
Channelized Interfaces Overview
Channelized Interface Capabilities
Data-Link Connection Identifiers on Channelized Interfaces
Clock Sources on Channelized Interfaces
Channelized E1 and T1 PIM Properties
Channelized IQ and IQE Interfaces Properties
Structure of Channelized IQ and Channelized IQE PICs
Configuring Channelized OC48/STM16 IQE Interfaces
Channelized OC48/STM16 IQE Interfaces Overview
Configuring Channelized OC48/STM16 IQE Interfaces in SONET Mode
Configuring OC12 Interfaces
Example: Configuring OC12 Interfaces
Configuring OC3 Interfaces
Example: Configuring OC3 Interfaces
Configuring T3 Interfaces
Example: Configuring T3 Interfaces
Configuring T1 Interfaces
Example: Configuring T1 Interfaces
Configuring Fractional T1 Interfaces
Example: Configuring Fractional T1 Interfaces
Configuring NxDS0 Interfaces
Example: Configuring NxDS0 Interfaces
Configuring Channelized OC48/STM16 IQE Interfaces (SDH Mode)
Configuring a Channelized OC48/STM16 IQE PIC for SDH Mode
Configuring Clear Channel STM1 and STM4 Interfaces
Configuring Channelized AU-4 Interfaces
Example: Configuring Channelized AU-4 Interfaces
Configuring E3 Interfaces
Example: Configuring E3 Interfaces
Configuring E1 or Channelized E1 Interfaces
Example: Configuring E1 and Channelized E1 Interfaces
Configuring NxDS0 IQE Interfaces
Example: Configuring NxDS0 IQE Interfaces
Configuring T3 or Channelized T3 Interfaces
Example: Configuring T3 or Channelized T3 Interfaces
Configuring T1 or Channelized T1 Interfaces
Example: Configuring T1 or Channelized T1 Interfaces
Configuring Link PIC Failover on Channelized OC48/STM16 IQE Interfaces
Example: Configuring Channelized OC48 Interfaces with Partitioned Channels
Configuring Channelized OC12/STM4 Interfaces
Channelized OC12/STM4 IQ and IQE Interfaces Overview
Channelization of OC12/STM4 IQ and Channelized OC12/STM4 IQE PICs (SONET Mode)
Channelization of OC12/STM4 IQE PIC (SDH Mode)
Channelization of OC12/STM4 IQ PIC (SDH Mode)
Channelization of OC12 PIC (SONET Mode)
Configuring Channelized OC12/STM4 IQ and IQE Interfaces (SONET Mode)
Configuring an OC12/STM4 Interface
Configuring T3 Interfaces
Example: Configuring T3 Interfaces
Configuring OC3 Interfaces
Example: Configuring OC3 Interfaces
Configuring T1 Interfaces on COC12 IQ and IQE Interfaces
Example: Configuring T1 Interfaces
Configuring NxDS0 Interfaces
Example: Configuring NxDS0 Interfaces
Configuring Fractional T1 Interfaces
Example: Configuring Fractional T1 Interfaces
Configuring Channelized OC12/STM4 IQE Interfaces (SDH Mode)
Configuring Channelized OC12/STM4 IQE PICs for SDH Mode
Configuring an Unpartitioned SDH (VC-4-4C) Interface on a Channelized OC12/STM4 IQE PIC
Example: Configuring an Unpartitioned SDH (VC-4-4C) Interface
Configuring SDH (VC-4) Interfaces on Channelized OC12/STM4 IQE PICs
Example: Configuring SDH (VC-4) Interfaces
Configuring Channelized AU-4 Interfaces
Example: Configuring Channelized AU-4 Interfaces
Configuring E3 Interfaces
Example: Configuring E3 Interfaces
Configuring E1 or Channelized E1 Interfaces
Example: Configuring E1 or Channelized CE1 Interfaces
Configuring NxDS0 Interfaces on Channelized OC12/STM4 IQE PICs
Example: Configuring NxDS0 Interfaces
Configuring Channelized OC12/STM4 IQ Interfaces (SDH Mode)
Configuring Channelized OC12/STM4 IQ PICs for SDH Mode
Configuring an Unpartitioned SDH (VC-4-4C) Interface on a Channelized OC12/STM4 IQ PIC
Example: Configuring an Unpartitioned SDH (VC-4-4C) Interface
Configuring SDH (VC-4) Interfaces on Channelized OC12/STM4 IQ PICs
Example: Configuring SDH (VC-4) Interfaces
Configuring Channelized AU-4 Interfaces
Example: Configuring Channelized AU-4 Interfaces
Configuring T3 or Channelized T3 Interfaces Under Channelized AU-4 Interfaces
Example: Configuring T3 or Channelized T3 Interfaces
Configuring T1 or Channelized T1 Interfaces Under Channelized AU-4 Interfaces
Example: Configuring T1 or Channelized T1 Interfaces Under Channelized AU-4 Interfaces
Configuring T1 or Channelized T1 Interfaces Under Channelized T3 Interfaces
Example: Configuring T1 or Channelized T1 Interfaces Under Channelized T3 Interfaces
Configuring NxDS0 Interfaces on Channelized OC12/STM4 IQ PICs
Example: Configuring NxDS0 Interfaces
Configuring Channelized OC12 Interfaces
Example: Configuring Channelized OC12 Interfaces
Configuring Link PIC Failover on Channelized OC12/STM4 IQ and IQE Interfaces
Example: Configuring a Channelized OC12 IQ Interface as an Unpartitioned Clear Channel
Example: Configuring Channelized OC12 Interfaces with Partitioned Channels
Configuring Channelized OC3 IQ and IQE Interfaces
Channelized OC3 IQ and IQE Overview
Partitions, OC Slices, Interface Types, and Time Slots
Configuring a Clear Channel on Channelized OC3 IQ and IQE PICs
Configuring T3 Interfaces on IQ and IQE Interfaces
Example: Configuring T3 Interfaces
Configuring T1 and NxDS0 Interfaces
Example: Configuring T1 and NxDS0 Interfaces
Example: Setting Remote Loopback and Running BERT Tests on NxDS0 Interfaces
Configuring Fractional T1 IQ Interfaces
Example: Configuring Fractional T1 IQ Interfaces
Configuring Link PIC Failover on Channelized OC3 IQ and IQE Interfaces
Configuring Channelized STM1 Interfaces
Channelized STM1 Interfaces Overview
Configuring Channelized STM1 IQ and IQE Interfaces
Configuring an STM1 IQ or STM1 IQE Interface
Configuring E1 IQ and IQE Interfaces
Example: Configuring E1 IQ and IQE Interfaces
Configuring Fractional E1 IQ and IQE Interfaces
Example: Configuring Fractional E1 Interfaces
Configuring an NxDS0 IQ Interface
Example: Configuring an NxDS0 IQ Interface
Example: Configuring Channelized STM1 IQ and IQE Interfaces
Configuring Channelized STM1 Interfaces
Configuring Channelized STM1 Interface Properties
Configuring Virtual Tributary Mapping of Channelized STM1 Interfaces
Configuring Link PIC Failover on Channelized STM1 Interfaces
Example: Configuring Channelized STM1 Interfaces
Configuring Channelized T3 Interfaces
Configuring Channelized T3 IQ Interfaces
Configuring T3 IQ Interfaces
Configuring T1 IQ Interfaces
Example: Configuring T1 IQ and IQE Interfaces
Configuring Fractional T1 IQ and IQE Interfaces
Example: Configuring Fractional T1 IQ Interfaces
Configuring an NxDS0 IQ Interface
Example: Configuring an NxDS0 IQ Interface
Configuring Channelized DS3-to-DS0 Interfaces
Configuring Channelized DS3-to-DS1 Interfaces
Example: Configuring Channelized T3 IQ Interfaces
Examples: Configuring Channelized DS3-to-DS0 Interfaces
Examples: Configuring Channelized DS3-to-DS1 Interfaces
Configuring Channelized T1 Interfaces
Channelized T1 IQ and IQE Interfaces Overview
Configuring Channelized T1 IQ and IQE Interfaces
Configuring T1 IQ and IQE Interfaces
Configuring Fractional T1 IQ and IQE Interfaces
Example: Configuring Fractional T1 IQ and IQE Interfaces
Configuring NxDS0 IQ and IQE Interfaces
Example: Configuring an NxDS0 IQ or IQE Interface
Configuring Payload Loopback
Configuring Channelized T1 Interface Properties
Example: Configuring Channelized T1 IQ and IQE Interfaces
Configuring Channelized E1 Interfaces
Channelized E1 IQ and IQE Interfaces Overview
Configuring Channelized E1 IQ and IQE Interfaces
Configuring E1 IQ and IQE Interfaces
Configuring Fractional E1 IQ and IQE Interfaces
Example: Configuring Fractional E1 IQ and IQE Interfaces
Configuring NxDS0 IQ and IQE Interfaces
Example: Configuring an NxDS0 IQ or IQE Interface
Configuring Channelized E1 Interfaces
Configuring Channelized E1 Interface Properties
Example: Configuring Channelized E1 IQ or IQE Interfaces
Example: Configuring Channelized E1 Interfaces
Configuring Channelized E1 PRI and T1 PRI Interfaces
Channelized E1 PRI and T1 PRI Overview
Configuring a Clear Channel on a Dual-Port Channelized T1-E1 PIM
Configuring a Channelized T1/E1 Interface to Drop and Insert Time Slots
Configuring Primary Rate Interfaces
Allocating B-Channels for Dialout
Configuring PRI Interfaces
Example: Configuring a Channelized T1 Interface as Primary Rate Interface
Circuit Emulation PICs Overview
Mobile Backhaul and Circuit Emulation Overview
Mobile Backhaul Application Overview
Understanding Circuit Emulation PIC Types
Understanding Circuit Emulation PIC Clocking Features
Understanding T1 and E1 Options Exceptions on Circuit Emulation PICs
Displaying Information About Circuit Emulation PICs
Configuring SAToP Support on Circuit Emulation PICs
Configuring SAToP on 4-port Channelized OC3/STM1 Circuit Emulation PICs
Configuring SONET/SDH Framing Mode at the PIC Level
Configuring SONET/SDH Framing Mode at the Port Level
Configuring COC3 Ports Down to T1 Channels
Configuring CSTM1 Ports Down to E1 Channels
Configuring SAToP Emulation on T1/E1 Interfaces on Circuit Emulation PICs
Setting the Emulation Mode
Configuring SAToP Emulation on T1/E1 Interfaces
Setting the Encapsulation Mode
T1/E1 Loopback Support
T1 FDL Support
Setting the SAToP Options
Pseudowire Interface Configuration
Configuring ATM Support on Circuit Emulation PICs
ATM Support on Circuit Emulation PICs Overview
Configuring the 12-Port Channelized T1/E1 Circuit Emulation PIC Operating Mode
T1/E1 Mode Selection
12-Port Channelized T1/E1 Circuit Emulation PIC Configuration Statements
Configuring the 4-Port Channelized COC3/STM1 Circuit Emulation PIC Operating Mode
T1/E1 Mode Selection
Configuring a Port for SONET or SDH Mode on a 4-Port Channelized COC3/STM1 Circuit Emulation PIC
Configuring an ATM Interface on a COC1
ATM IMA Configuration Overview
IMA Version
IMA Groups
Group Frame Size
IMA Clock Mode
IMA Group Symmetry
Minimum Active Links
State Transition Variables: Alpha, Beta, and Gamma
IMA Link Addition and Deletion
IMA Test Pattern Procedure
Per-PIC Limit on the Number of Links
IMA Group Alarms and Group Defects
IMA Link Alarms and Link Defects
IMA Group Statistics
IMA Link Statistics
IMA Clocking
Configuring ATM IMA
Creating the IMA Groups (ATM Interfaces)
Linking Constituents to Form Group and T1/E1 Options
ATM Options and Encapsulations and Families
IMA Link Options
IMA Group Options
Configuring ATM Pseudowires
Cell Relay Mode (atm-l2circuit-mode cell)
Configuring VP or Port Promiscuous Mode
Configuring AAL5 SDU Mode (atm-l2circuit-mode aal5)
ATM OAM
VP Pseudowires (CCC Encapsulation)
Port Pseudowires (CCC Encapsulation)
VC Pseudowires (CCC Encapsulation)
Scaling
Congestion Control
QoS/Shaping
Configuring the PIC Type
Configuring Layer 2 Circuit and Layer 2 VPN Pseudowires
Supported Interface Configurations
ATM Limitations
Configuring E1 Interfaces
E1 Interfaces Overview
Configuring E1 Physical Interface Properties
Configuring E1 BERT Properties
Configuring the E1 Frame Checksum
Configuring E1 Framing
Configuring the E1 Idle Cycle Flag
Configuring E1 Data Inversion
Configuring E1 Loopback Capability
Example: Configuring E1 Loopback Capability
Configuring E1 Start and End Flags
Configuring Fractional E1 Time Slots
Example: Configuring Fractional E1 Time Slots
Configuring E3 Interfaces
E3 Interfaces Overview
Configuring E3 Physical Interface Properties
Configuring E3 BERT Properties
Configuring the E3 CSU Compatibility Mode
Configuring the E3 Frame Checksum
Configuring the E3 Idle Cycle Flag
Configuring E3 Data Inversion
Configuring E3 Loopback Capability
Example: Configuring E3 Loopback Capability
Configuring E3 HDLC Payload Scrambling
Configuring the E3 Start and End Flags
Configuring E3 IQ and IQE Unframed Mode
Configuring T1 Interfaces
T1 Interfaces Overview
Configuring T1 Physical Interface Properties
Configuring T1 BERT Properties
Configuring the T1 Buildout
Configuring T1 Byte Encoding
Configuring T1 CRC Error Major Alarm Thresholds
Configuring T1 CRC Error Minor Alarm Thresholds
Configuring T1 Data Inversion
Configuring the T1 Frame Checksum
Configuring the T1 Remote Loopback Response
Configuring T1 Framing
Configuring T1 Line Encoding
Configuring T1 Loopback Capability
Configuring the T1 Idle Cycle Flag
Configuring T1 Start and End Flags
Configuring Fractional T1 Time Slots
Example: Configuring Fractional T1 Time Slots
Configuring T3 Interfaces
T3 Interfaces Overview
Configuring T3 Physical Interface Properties
Configuring T3 BERT Properties
Disabling T3 C-Bit Parity Mode
Configuring the T3 CSU Compatibility Mode
Configuring the T3 Frame Checksum
Configuring the T3 FEAC Response
Configuring the T3 Idle Cycle Flag
Configuring the T3 Line Buildout
Configuring the Channelized T3 Loop Timing
Configuring T3 Loopback Capability
Configuring T3 HDLC Payload Scrambling
Configuring T3 Start and End Flags
Examples: Configuring T3 Interfaces
Configuring Ethernet Interfaces
Ethernet Interfaces Overview
Configuring Ethernet Physical Interface Properties
Configuring J Series Services Router Switching Interfaces
Example: Configuring J Series Services Router Switching Interfaces
MX Series Router Interface Identifiers
Enabling Ethernet MAC Address Filtering
Filtering Specific MAC Addresses
Configuring Ethernet Loopback Capability
Configuring Flow Control
Ignoring Layer 3 Incomplete Errors
Configuring the Link Characteristics on Ethernet Interfaces
Configuring Gratuitous ARP
Adjusting the ARP Aging Timer
Configuring the Interface Speed on Ethernet Interfaces
Configuring the Ingress Rate Limit
Configuring Weighted Random Early Detection
Configuring 802.1Q VLANs
802.1Q VLANs Overview
Configuring Dynamic 802.1Q VLANs
802.1Q VLAN IDs and Ethernet Interface Types
Enabling VLAN Tagging
Configuring Single-Tag Framing
Configuring Dual Tagging
Configuring Mixed Tagging
Configuring Mixed Tagging Support for Untagged Packets
Example: Configuring Mixed Tagging
Example: Configuring Mixed Tagging to Support Untagged Packets
Binding VLAN IDs to Logical Interfaces
Binding VLAN IDs to Logical Interfaces Overview
Binding a VLAN ID to a Logical Interface
Binding a VLAN ID to a Single-Tag Logical Interface
Binding a VLAN ID to a Dual-Tag Logical Interface
Binding a Range of VLAN IDs to a Logical Interface
Binding a Range of VLAN IDs to a Single-Tag Logical Interface
Binding a Range of VLAN IDs to a Dual-Tag Logical Interface
Example: Binding Ranges VLAN IDs to Logical Interfaces
Binding a List of VLAN IDs to a Logical Interface
Binding a List of VLAN IDs to a Single-Tag Logical Interface
Binding a List of VLAN IDs to a Dual-Tag Logical Interface
Example: Binding Lists of VLAN IDs to Logical Interfaces
Configuring VLAN Encapsulation
Example: Configuring VLAN Encapsulation on a Gigabit Ethernet Interface
Example: Configuring VLAN Encapsulation on an Aggregated Ethernet Interface
Configuring Extended VLAN Encapsulation
Example: Configuring Extended VLAN Encapsulation on a Gigabit Ethernet Interface
Example: Configuring Extended VLAN Encapsulation on an Aggregated Ethernet Interface
Guidelines for Configuring VLAN ID List-Bundled Logical Interfaces That Connect CCCs
Guidelines for Configuring Physical Link-Layer Encapsulation to Support CCCs
Guidelines for Configuring Logical Link-Layer Encapsulation to Support CCCs
Configuring a Layer 2 VPN Routing Instance on a VLAN-Bundled Logical Interface
Configuring a VLAN-Bundled Logical Interface
Specifying the Interface Over Which VPN Traffic Travels to the CE Router
Specifying the Interface to Handle Traffic for a CCC
Configuring a Layer 2 Circuit on a VLAN-Bundled Logical Interface
Configuring a VLAN-Bundled Logical Interface
Specifying the Interface to Handle Traffic for a CCC Connected to the Layer 2 Circuit
Example: Configuring a Layer 2 VPN Routing Instance on a VLAN-Bundled Logical Interface
Example: Configuring a Layer 2 Circuit on a VLAN-Bundled Logical Interface
Configuring a Logical Interface for Access Mode
Example: Configuring a Logical Interface for Access Mode
Configuring a Logical Interface for Trunk Mode
Configuring the VLAN ID List for a Trunk Interface
Configuring a Trunk Interface on a Bridge Network
Configuring Aggregated Ethernet Interfaces
Aggregated Ethernet Interfaces Overview
Platform Support for Aggregated Ethernet Interfaces
Configuration Guidelines for Aggregated Ethernet Interfaces
Configuring an Aggregated Ethernet Interface
Deleting an Aggregated Ethernet Interface
Configuring Multi-Chassis Link Aggregation
Configuring Aggregated Ethernet Link Protection
Configuring Link Protection for Aggregated Ethernet Interfaces
Configuring Primary and Backup Links for Link Aggregated Ethernet Interfaces
Reverting Traffic to a Primary Link When Traffic is Passing Through a Backup Link
Disabling Link Protection for Aggregated Ethernet Interfaces
Configuring the Number of Aggregated Ethernet Interfaces on the Device
Configuring Aggregated Ethernet LACP
Configuring the LACP Interval
Configuring LACP Link Protection
Enabling LACP Link Protection
Configuring LACP System Priority
Configuring LACP Port Priority
Tracing LACP Operations
Example: Configuring Aggregated Ethernet LACP
Configuring Untagged Aggregated Ethernet Interfaces
Example: Configuring Untagged Aggregated Ethernet Interfaces
Configuring Aggregated Ethernet Link Speed
Configuring Aggregated Ethernet Minimum Links
Configuring Hierarchical Scheduler on Aggregated Ethernet Interfaces Without Link Protection
Configuring Symmetrical Load Balancing on an 802.3ad Link Aggregation Group on MX Series Routers
Symmetrical Load Balancing on an 802.3ad LAG on MX Series Routers Overview
Configuring Symmetric Load Balancing on an 802.3ad LAG on MX Series Routers
Example Configurations
Example Configurations of Chassis Wide Settings
Example Configurations of Per–Packet-Forwarding-Engine Settings
Stacking and Rewriting Gigabit Ethernet VLAN Tags
Stacking and Rewriting Gigabit Ethernet VLAN Tags Overview
Stacking and Rewriting Gigabit Ethernet VLAN Tags
Configuring Frames with Particular TPIDs to Be Processed as Tagged Frames
Configuring Stacked VLAN Tagging
Configuring Dual VLAN Tags
Configuring Inner and Outer TPIDs and VLAN IDs
Stacking a VLAN Tag
Removing a VLAN Tag
Removing the Outer and Inner VLAN Tags
Removing the Outer VLAN Tag and Rewriting the Inner VLAN Tag
Stacking Two VLAN Tags
Rewriting the VLAN Tag on Tagged Frames
Rewriting a VLAN Tag on Untagged Frames
Rewriting a VLAN Tag and Adding a New Tag
Rewriting the Inner and Outer VLAN Tags
Examples: Stacking and Rewriting Gigabit Ethernet IQ VLAN Tags
Configuring Layer 2 Bridging Interfaces
Layer 2 Bridging Interfaces Overview
Configuring Layer 2 Bridging Interfaces
Example: Configuring Layer 2 Bridging Interfaces
Configuring TCC and Layer 2.5 Switching
TCC and Layer 2.5 Switching Overview
Configuring VLAN TCC Encapsulation
Configuring Ethernet TCC
Example: Configuring an Ethernet TCC or Extended VLAN TCC
Configuring Static ARP Table Entries
Static ARP Table Entries Overview
Configuring Static ARP Table Entries
Example: Configuring Static ARP Table Entries
Configuring Unrestricted Proxy ARP
Unrestricted Proxy ARP Overview
Configuring Unrestricted Proxy ARP
Configuring MAC Address Validation on Static Ethernet Interfaces
MAC Address Validation on Static Ethernet Interfaces Overview
Configuring MAC Address Validation on Static Ethernet Interfaces
Example of Strict MAC Validation on a Static Ethernet Interface
Enabling Passive Monitoring on Ethernet Interfaces
Passive Monitoring on Ethernet Interfaces Overview
Enabling Passive Monitoring on Ethernet Interfaces
Configuring IEEE 802.1ag OAM Connectivity-Fault Management
IEEE 802.1ag OAM Connectivity Fault Management Overview
Connectivity Fault Management Key Elements
Creating the Maintenance Domain
Configuring the Maintenance Domain Name Format
Configuring the Maintenance Domain Level
Configuring Maintenance Intermediate Points
Configuring MIP for Bridge Domains of a Virtual Switch
Configuring the Maintenance Domain Routing Instances Bridge Domain
Configuring the Maintenance Domain Routing Instance
Configuring the Maintenance Domain Instance
Configuring the Maintenance Domain MIP Half Function
Creating a Maintenance Association
Continuity Check Protocol
Configuring the Continuity Check
Configuring the Continuity Check Hold Interval
Configuring the Continuity Check Interval
Configuring the Continuity Check Loss Threshold
Configuring a Maintenance Endpoint
Enabling Maintenance Endpoint Automatic Discovery
Configuring the Maintenance Endpoint Direction
Configuring the Maintenance Endpoint Interface
Configuring the Maintenance Endpoint Priority
Configuring the Maintenance Endpoint Lowest Priority Defect
Configuring a Remote Maintenance Endpoint
Configuring a Remote Maintenance Endpoint Action Profile
Configuring a Connectivity Fault Management Action Profile
Configuring the Action of a CFM Action Profile
Configuring the Default Actions of a CFM Action Profile
Configuring a CFM Action Profile Event
Configuring Linktrace Protocol in CFM
Configuring the Linktrace Path Age Timer
Configuring the Linktrace Database Size
Configuring Ethernet Local Management Interface
Ethernet Local Management Interface Overview
Configuring the Ethernet Local Management Interface
Configuring an OAM Protocol (CFM)
Assigning the OAM Protocol to an EVC
Enabling E-LMI on an Interface and Mapping CE VLAN IDs to an EVC
Example E-LMI Configuration
Configuring PE1
Configuring PE2
Configuring Two UNIs Sharing the Same EVC
Configuring Port Status TLV and Interface Status TLV
TLVs Overview
Various TLVs for CFM PDUs
Support for Additional Optional TLVs
Port Status TLV
Configuring Port Status TLV
Displaying the Received Port Status TLV
Displaying the Transmitted Port Status TLV
Interface Status TLV
Configuring Interface Status TLV
Displaying the Received Interface Status TLV
Displaying the Transmitted Interface Status TLV
MAC Status Defects
Configuring Remote MEP Action Profile Support
Monitoring a Remote MEP Action Profile
Configuring M120 and MX Series Routers for CCC Encapsulated Packets
IEEE 802.1ag CFM OAM Support for CCC Encapsulated Packets Overview
CFM Features Supported on Layer 2 VPN Circuits
Configuring CFM for CCC Encapsulated Packets
Configuring Rate Limiting of Ethernet OAM Messages
Configuring ITU-T Y.1731 Ethernet Service OAM
Ethernet Frame Delay Measurements Overview
ITU-T Y.1731 Frame Delay Measurement Feature
Ethernet CFM
Ethernet Frame Delay Measurement
One-Way Ethernet Frame Delay Measurement
1DM Transmission
1DM Reception
One-Way ETH-DM Statistics
One-Way ETH-DM Frame Counts
Synchronization of System Clocks
Two-Way Ethernet Frame Delay Measurement
DMM Transmission
DMR Transmission
DMR Reception
Two-Way ETH-DM Statistics
Two-Way ETH-DM Frame Counts
Choosing Between One-Way and Two-Way ETH-DM
Restrictions for Ethernet Frame Delay Measurement
Guidelines for Configuring Routers to Support an ETH-DM Session
Configuration Requirements for ETH-DM
Configuration Options for ETH-DM
Guidelines for Starting an ETH-DM Session
ETH-DM Session Prerequisites
ETH-DM Session Parameters
Restrictions for an ETH-DM Session
Guidelines for Managing ETH-DM Statistics and ETH-DM Frame Counts
ETH-DM Statistics
ETH-DM Statistics Retrieval
ETH-DM Frame Counts
ETH-DM Frame Count Retrieval
Frame Counts Stored in CFM Databases
One-Way ETH-DM Frame Counts
Two-Way ETH-DM Frame Counts
Configuring Routers to Support an ETH-DM Session
Configuring MEP Interfaces
Ensuring that Distributed ppm Is Not Disabled
Enabling the Hardware-Assisted Timestamping Option
Starting an ETH-DM Session
Using the monitor ethernet delay-measurement Command
Starting a One-Way ETH-DM Session
Starting a Two-Way ETH-DM Session
Managing ETH-DM Statistics and ETH-DM Frame Counts
Displaying ETH-DM Statistics Only
Displaying ETH-DM Statistics and Frame Counts
Displaying ETH-DM Frame Counts for MEPs by Enclosing CFM Entity
Displaying ETH-DM Frame Counts for MEPs by Interface or Domain Level
Clearing ETH-DM Statistics and Frame Counts
Example: One-Way Ethernet Frame Delay Measurement
Description of the Example One-Way Frame Delay Measurement
Routers Used in This Example
ETH-DM Frame Counts for this Example
ETH-DM Statistics for this Example
Steps for the Example One-Way Frame Delay Measurement
Configuring IEEE 802.1x Port-Based Network Access Control
IEEE 802.1x Port-Based Network Access Control Overview
Understanding the Administrative State of the Authenticator Port
Understanding the Administrative Mode of the Authenticator Port
Configuring the Authenticator
Viewing the dot1x Configuration
Configuring IEEE 802.3ah OAM Link-Fault Management
IEEE 802.3ah OAM Link-Fault Management Overview
Configuring IEEE 802.3ah OAM Link-Fault Management
Enabling IEEE 802.3ah OAM Support
Configuring Link Discovery
Configuring the OAM PDU Interval
Configuring the OAM PDU Threshold
Configuring Threshold Values for Local Fault Events on an Interface
Disabling the Sending of Link Event TLVs
Detecting Remote Faults
Configuring an OAM Action Profile
Specifying the Actions to Be Taken for Link-Fault Management Events
Monitoring the Loss of Link Adjacency
Monitoring Protocol Status
Configuring Threshold Values for Fault Events in an Action Profile
Applying an Action Profile
Setting a Remote Interface into Loopback Mode
Enabling Remote Loopback Support on the Local Interface
Example: Configuring IEEE 802.3ah OAM Support on an Interface
Configuring VRRP and VRRP for IPv6
VRRP and VRRP for IPv6 Overview
Configuring VRRP and VRRP for IPv6
Configuring Gigabit Ethernet Accounting and Policing
Gigabit Ethernet Accounting and Policing Overview
Configuring Gigabit Ethernet Policers
Configuring a Policer
Specifying an Input Priority Map
Specifying an Output Priority Map
Applying a Policer
Configuring MAC Address Filtering
Example: Configuring Gigabit Ethernet Policers
Configuring Gigabit Ethernet Two-Color and Tricolor Policers
Configuring a Policer
Applying a Policer
Example: Configuring and Applying a Policer
Configuring MAC Address Accounting
Configuring Gigabit Ethernet Autonegotiation
Gigabit Ethernet Autonegotiation Overview
Configuring Gigabit Ethernet Autonegotiation
Configuring Gigabit Ethernet Autonegotiation with Remote Fault
Configuring Flow Control
Configuring Autonegotiation Speed on MX Series Routers
Displaying Autonegotiation Status
Configuring Gigabit Ethernet OTN Options
Gigabit Ethernet OTN Options Configuration Overview
Gigabit Ethernet OTN Options
Configuring the Management Ethernet Interface
Management Ethernet Interface Overview
Configuring a Consistent Management IP Address
Configuring the MAC Address on the Management Ethernet Interface
Configuring 10-port 10-Gigabit Oversubscribed Ethernet PICs
10-port 10-Gigabit Oversubscribed Ethernet PIC Overview
Configuring Line Rate Mode on 10-port 10-Gigabit Oversubscribed Ethernet PIC
Example: Handling Oversubscription on 10-port 10-Gigabit Oversubscribed Ethernet PIC
Configuring the 10-Gigabit Ethernet DWDM Interface Wavelength
10-Gigabit Ethernet DWDM Interface Wavelength Overview
Configuring the 10-Gigabit Ethernet DWDM Interface Wavelength
Configuring 10-Gigabit Ethernet Framing
10-Gigabit Ethernet Framing Overview
Configuring 10-Gigabit Ethernet Framing
Configuring 10-Gigabit Ethernet Notification of Link Down Alarm
10-Gigabit Ethernet Notification of Link Down Alarm Overview
Configuring 10-Gigabit Ethernet Notification of Link Down Alarm
Configuring 10-Gigabit Ethernet Notification of Link Down for Optics Alarms
10-Gigabit Ethernet Notification of Link Down for Optics Options Overview
Configuring 10-Gigabit Ethernet Link Down Notification for Optics Options Alarm or Warning
Configuring Point-to-Point Protocol over Ethernet
PPPoE Overview
PPPoE Interfaces
Ethernet Interface
PPPoE Stages
PPPoE Discovery Stage
PPPoE Session Stage
Optional CHAP Authentication
Understanding PPPoE Service Name Tables
Interaction Among PPPoE Clients and Routers During the Discovery Stage
Components of PPPoE Service Name Tables
Benefits of Configuring PPPoE Service Name Tables
Configuring PPPoE
Setting the Appropriate Encapsulation on the PPPoE Interface
Configuring PPPoE Encapsulation on an Ethernet Interface
Configuring PPPoE Encapsulation on an ATM-over-ADSL Interface
Configuring a PPPoE Interface
Configuring the PPPoE Underlying Interface
Identifying the Access Concentrator
Configuring the PPPoE Automatic Reconnect Wait Timer
Configuring the PPPoE Service Name
Configuring the PPPoE Server Mode
Configuring the PPPoE Client Mode
Configuring the PPPoE Source and Destination Addresses
Deriving the PPPoE Source Address From a Specified Interface
Configuring the PPPoE IP Address by Negotiation
Configuring the Protocol MTU PPPoE
Example: Configuring a PPPoE Client Interface on a J Series Services Router
Example: Configuring a PPPoE Server Interface on an M120 or M320 Router
Disabling the Sending of PPPoE Keepalive Messages
Configuring PPPoE Service Name Tables
Creating a Service Name Table
Configuring the Action Taken When the Client Request Includes an Empty Service Name Tag
Assigning a Service to a Service Name Table and Configuring the Action Taken When the Client Request Includes a Non-zero Service Name Tag
Assigning an ACI/ARI Pair to a Service Name and Configuring the Action Taken When the Client Request Includes ACI/ARI Information
Assigning a Service Name Table to a PPPoE Underlying Interface
Example: Configuring a PPPoE Service Name Table
Tracing PPPoE Operations
Configuring the PPPoE Trace Log Filename
Configuring the Number and Size of PPPoE Log Files
Configuring Access to the PPPoE Log File
Configuring a Regular Expression for PPPoE Lines to Be Logged
Configuring the PPPoE Tracing Flags
Troubleshooting PPPoE Service Name Tables
Verifying a PPPoE Configuration
Configuring Ethernet Ring Protection Switching
Ethernet Ring Protection Switching Overview
Understanding Ethernet Ring Protection Switching Functionality
Acronyms
Ring Nodes
Ring Node States
Failure Detection
Logical Ring
FDB Flush
Traffic Blocking and Forwarding
RAPS Message Blocking and Forwarding
Dedicated Signaling Control Channel
RAPS Message Termination
Manual Switch
Nonrevertive Switch
Multiple Rings
Node ID
Bridge Domains with the Ring Port
Configuring Ethernet Ring Protection Switching
Example: Ethernet Ring Protection Switching Configuration
Example Ethernet Configurations
Example: Configuring Fast Ethernet Interfaces
Example: Configuring Gigabit Ethernet Interfaces
Example: Configuring Aggregated Ethernet Interfaces
Example: Configuring Aggregated Ethernet Link Protection
Configuring ISDN Interfaces
ISDN Interfaces Overview
Configuring ISDN Services Physical and Logical Interface Properties
Configuring ISDN Physical Interface Properties
Configuring an ISDN Interface to Screen Incoming Calls
Configuring ISDN Logical Interface Properties
Configuring an ISDN Dialer Interface as a Backup Interface
Example: Configuring an ISDN Interface as the Backup Interface
Applying the Dial-on-Demand Dialer Filter to the Dialer Interfaces
Example: Applying the Dialer Filter
Configuring Bandwidth on Demand
Configuring the Dialer Interface
Configuring the ISDN Interface
Example: Configuring Bandwidth on Demand
Configuring Dial-In and Callback
Configuring Dial-In
Disabling Dial-In
Configuring Callback
Example: Configuring Dial-In and Callback
Configuring Dialer Watch
Configuring the Dialer Interface
Configuring the Physical Interface
Example: Configuring Dialer Watch
Example: Complete ISDN Called-Calling Router Configuration
Disabling ISDN Processes
Configuring SONET/SDH Interfaces
SONET/SDH Interfaces Overview
Configuring SONET/SDH Physical Interface Properties
Configuring SONET/SDH Framing
Configuring SONET/SDH Interface Speed
Configuring SONET/SDH Header Byte Values
Configuring an Incrementing STM ID
Configuring the SONET/SDH Frame Checksum
Configuring Channelized IQ and IQE SONET/SDH Loop Timing
Configuring SONET/SDH Loopback Capability
Example: Configuring SONET/SDH Loopback Capability
Configuring the SONET/SDH Path Trace Identifier
Configuring SONET/SDH HDLC Payload Scrambling
Configuring SONET/SDH RFC 2615 Support
Configuring SONET/SDH Defect Triggers to Be Ignored
Configuring SONET/SDH Defect Hold Times
Example: Configuring SONET/SDH Defects to Be Ignored
Configuring Virtual Tributary Mapping
Configuring APS and MSP
Configuring Basic APS Support
Example: Configuring Basic APS Support
Configuring Container Interfaces
Configuring APS Using a Container Interface with ATM Encapsulation
Configuring APS Using a Container Interface with ATM Encapsulation
Viewing the APS Container Interface Configuration
Configuring Switching Between the Working and Protect Circuits
Configuring Revertive Mode
Configuring Unidirectional Switching Mode Support
Configuring APS Timers
Configuring Link PIC Redundancy
Example: Configuring Link PIC Redundancy
Configuring APS Load Sharing Between Circuit Pairs
Example: Configuring APS Load Sharing Between Circuit Pairs
Configuring SONET Options for 10-Gigabit Ethernet Interfaces
Configuring the Media MTU on SONET/SDH Interfaces
Enabling Passive Monitoring on SONET/SDH Interfaces
Removing MPLS Labels from Incoming Packets
Configuring the Clock Source on SONET/SDH Interfaces
Configuring Receive and Transmit Leaky Bucket Properties on SONET/SDH Interfaces
Damping Interface Transitions on SONET/SDH Interfaces
Configuring Interface Encapsulation on SONET/SDH Interfaces
Configuring the Encapsulation on a Physical SONET/SDH Interface
Example: Configuring the Encapsulation on a Physical SONET/SDH Interface
Configuring the Encapsulation on a Logical SONET/SDH Interface
Example: Configuring SONET/SDH Interfaces
Configuring Aggregated SONET/SDH Interfaces
Configuring SONET/SDH Link Aggregation
Configuring Aggregated SONET/SDH Link Speed
Configuring Aggregated SONET/SDH Minimum Links
Configuring Filters or Sampling on Aggregated SONET/SDH Links
Examples: Configuring Filters or Sampling on Aggregated SONET/SDH Links
Example: Configuring Aggregated SONET/SDH Interfaces
Summary of Interface Configuration Statements
802.3ad
accept
accept-source-mac
access-concentrator
access-profile
accounting
accounting-profile
acfc
acknowledge-retries
acknowledge-timer
action
action (OAM)
action (Policer)
action-profile
action-profile (Applying to CFM)
action-profile (Defining for CFM)
action-profile (Defining for LFM)
action-red-differential-delay
activation-delay
activation-priority
address
advertise-interval
age
agent-specifier
aggregate
aggregate (Gigabit Ethernet CoS Policer)
aggregate (Hierarchical Policer)
aggregate (SONET/SDH)
aggregate-ports
aggregated-ether-options
aggregated-sonet-options
alarm
allow-any-vci
allow-fragmentation
allow-remote-loopback
annex
apply-action-profile
aps
arp
asynchronous-notification
atm-encapsulation
atm-options
atm-scheduler-map
authentication
authentication-key
authentication-profile-name
authenticator
auto-configure
auto-discovery
auto-negotiation
auto-negotiation (Gigabit Ethernet)
auto-negotiation (J Series uPIM)
auto-reconnect
backup-destination
backup-interface
backup-options
bandwidth
bandwidth-limit
bandwidth-limit (Hierarchical Policer)
bandwidth-limit (Policer for Gigabit Ethernet Interfaces)
bchannel-allocation
bearer-bandwidth-limit
bert-algorithm
bert-error-rate
bert-period
bridge-domain
broadcast
buildout
buildout (E3 or T3 over ATM Interfaces)
buildout (T1 Interfaces)
bundle
burst-size-limit
burst-size-limit (Hierarchical Policer)
burst-size-limit (Policer for Gigabit Ethernet Interfaces)
byte-encoding
bytes
callback
callback-wait-period
caller
calling-number
cbit-parity
cbr
cell-bundle-size
chap
chap-secret
circuit-type
cisco-interoperability
classifier
clear-dont-fragment-bit
client
clock-rate
clocking
clocking-mode
compatibility-mode
compression
compression (PPP Properties)
compression (Voice Services)
compression-device
connections
connectivity-fault-management
container-devices
container-list
container-options
container-type
continuity-check
control-channel
control-polarity
control-signal
copy-tos-to-outer-ip-header
core-dump
crc-major-alarm-threshold
crc-minor-alarm-threshold
cts
cts-polarity
current
data-input
dcd
dcd-polarity
dce
dce-options
deactivation-delay
default-actions
default-chap-secret
default-pap-password
delimiter
demux-destination
demux-destination (Underlying Interface)
demux-destination (Demux Interface)
demux-options
demux-source
demux-source (Demux Interface)
demux-source (Underlying Interface)
demux0
description
destination
destination (IPCP)
destination (Routing Instance)
destination (Tunnels)
destination-class-usage
destination-profile
dial-options
dial-string
dialer
dialer-options
dialin
direction
disable
disable (Interface)
disable (Link Protection)
disable-mlppp-inner-ppp-pfc
dlci
do-not-fragment
domain-name
dot1x
down-count
drop-timeout
ds0-options
dsl-options
dsr
dsr-polarity
dte-options
dtr
dtr-circuit
dtr-polarity
dump-on-flow-control
dynamic-call-admission-control
dynamic-profile
dynamic-profile (Stacked VLAN)
dynamic-profile (VLAN)
e1-options
e3-options
east-interface
empty-service
encapsulation
encapsulation (Container Interface)
encapsulation (Logical Interface)
encapsulation (Physical Interface)
encoding
epd-threshold
epd-threshold (Logical Interface)
epd-threshold (Physical Interface)
es-options
ethernet
ethernet-policer-profile
ethernet-ring
ethernet-switch-profile
eui-64
evcs
event
event-thresholds
f-max-period
facility-override
failover-delay
family
fastether-options
fcs
feac-loop-respond
filter
flexible-vlan-tagging
flow-control
force
forwarding-class
forwarding-class (ATM2 IQ Scheduler Maps)
forwarding-class (Gigabit Ethernet IQ Classifier)
fragment-threshold
frame-error
frame-period
frame-period-summary
framing
framing (E1, E3, and T1 Interfaces)
framing (10-Gigabit Ethernet Interfaces)
framing (SONET and SDH Interfaces)
gigether-options
gratuitous-arp-reply
guard-interval
hardware-assisted-timestamping
hello-timer
hierarchical-policer
hierarchical-schedulers
high-plp-max-threshold
high-plp-threshold
hold-interval
hold-interval (OAM)
hold-interval (Protection Group)
hold-time
hold-time (APS)
hold-time (Physical Interface)
hold-time (SONET/SDH Defect Triggers)
host
idle-cycle-flag
idle-timeout
ieee802.1p
if-exceeding
ignore
ignore-all
ignore-l3-incompletes
ilmi
ima-group-options
ima-link-options
inactivity-timeout
incoming-called-number
incoming-map
indication
indication-polarity
ingress-rate-limit
init-command-string
initial-route-check
inner-tag-protocol-id
inner-vlan-id
inner-vlan-id-range
input
input-list
input-policer
input-priority-map
input-three-color
input-vlan-map
input-vlan-map (Aggregated Ethernet)
input-vlan-map (Gigabit Ethernet IQ)
instance
interface
interface (Hierarchical CoS Schedulers)
interface (IEEE 802.1x)
interface (IEEE 802.1ag OAM Connectivity-Fault Management)
interface (OAM Link-Fault Management)
interface-down
interface-mode
interface-name
interface-range
interface-set
interface-set (Ethernet Interfaces)
interface-set (IP Demux Interfaces)
interface-status-tlv
interface-switch
interface-type
interfaces
interleave-fragments
interval
inverse-arp
invert-data
ipsec-sa
isdn-options
keep-address-and-control
keepalives
key
l2tp-interface-id
lacp
lacp (802.3ad)
lacp (Aggregated Ethernet)
layer2-policer
lcp-max-conf-req
lcp-restart-timer
level
line-encoding
line-protocol
line-rate
linear-red-profile
linear-red-profiles
link-adjacency-loss
link-discovery
link-down
link-event-rate
link-fault-management
link-layer-overhead
link-mode
link-protection
link-speed
link-speed (Aggregated Ethernet)
link-speed (Aggregated SONET/SDH)
linktrace
lmi
lmi (Frame Relay)
lmi (Ethernet OAM)
lmi-type
load-interval
load-threshold
local-name
local-password
lockout
log-prefix
logical-interface-policer
logical-systems
long-buildout
loop-timing
loopback
loopback (ADSL, DS0, E1/E3, SONET/SDH, SHDSL, and T1/T3)
loopback (Aggregated Ethernet, Fast Ethernet, and Gigabit Ethernet)
loopback (Serial)
loopback-clear-timer
loss-priority
loss-threshold
low-plp-max-threshold
low-plp-threshold
lowest-priority-defect
lsq-failure-options
mac
mac-address
mac-address (Accept Source Mac)
mac-address (VLAN and Stacked VLAN Interfaces)
mac-learn-enable
mac-validate
maintenance-association
maintenance-domain
master-only
maximum-contexts
maximum-requests
maximum-vcs
mc-ae
member-interface-speed
member-interface-type
mep
minimum-links
mip-half-function
mlfr-uni-nni-bundle-options
mode
modem-options
monitor-session
mpls
mrru
mtu
multicast-dlci
multicast-vci
multicast-only
multilink-max-classes
multipoint
multipoint-destination
multiservice-options
n391
n392
n393
name-format
native-vlan-id
ncp-max-conf-req
ncp-restart-timer
negotiate-address
negotiation-options
neighbor
no-allow-link-events
no-asynchronous-notification
no-auto-mdix
no-auto-negotiation
no-cbit-parity
no-core-dump
no-feac-loop-respond
no-flow-control
no-gratuitous-arp-reply
no-gratuitous-arp-request
no-keepalives
no-long-buildout
no-loopback
no-mac-learn-enable
no-partition
no-payload-scrambler
no-redirects
no-source-filtering
no-syslog
no-termination-request
no-translate-discard-eligible
no-translate-fecn-and-becn
no-unframed
no-z0-increment
node-id
non-revertive
oam
oam-liveness
oam-period
oc-slice
open-timeout
operating-mode
optics-options
option-82
otn-options
output
output-list
output-policer
output-priority-map
output-three-color
output-vlan-map
output-vlan-map (Aggregated Ethernet)
output-vlan-map (Gigabit Ethernet IQ)
overflow
overflow (Receive Bucket)
overflow (Transmit Bucket)
paired-group
pap
pap-password
partition
passive
passive (CHAP)
passive (PAP)
passive-monitor-mode
password
path-database-size
path-trace
payload-scrambler
payload-size
pdu-interval
pdu-threshold
peer-unit
per-unit-scheduler
performance-monitoring
periodic
pfc
pic-type
plp-to-clp
plp1
point-to-point
policer
policer (CFM Firewall)
policer (CFM Global)
policer (CFM Session)
policer (CoS)
policer (Interface)
policer (MAC)
pool
pop
pop-all-labels
pop-pop
pop-swap
port
port-priority
port-status-tlv
post-service-filter
ppp-options
pppoe-options
pppoe-underlying-options
preferred
preferred-source-address
premium
premium (Hierarchical Policer)
premium (Output Priority Map)
premium (Policer)
preserve-interface
primary
primary (Address on Interface)
primary (AS PIC or Multiservices PIC Interfaces)
priority
priority (OAM Connectivity-Fault Management)
priority (Schedulers)
promiscuous-mode
protect-circuit
protection-group
protocol-down
protocols
proxy
proxy-arp
push
push-push
queue-depth
queue-length
queues
quiet-period
radius-realm
ranges
ranges (Dynamic Stacked VLAN)
ranges (Dynamic VLAN)
rate
reassemble-packets
reauthentication
receive-bucket
receive-options-packets
receive-ttl-exceeded
red-differential-delay
redial-delay
redundancy-options
remote
remote-loopback
remote-loopback-respond
remote-mep
request
required-depth
restore-interval
retries
revert-time
revertive
rfc-2615
ring-protection-link-end
ring-protection-link-owner
routing-instance
rpf-check
rtp
rts
rts-polarity
rtvbr
sampling
satop-options
scheduler-maps
schedulers
secondary
send-critical-event
serial-options
server
server-timeout
service
service (Logical Interfaces)
service (PPPoE)
service-domain
service-filter
service-name
service-name-table
service-name-tables
service-set
services
services-options
shaping
shdsl-options
short-name-format
short-sequence
snext
snr-margin
sonet-options
source
source-address-filter
source-class-usage
source-filtering
speed
speed (Ethernet)
speed (MX Series DPC)
speed (SONET/SDH)
spid1
spid2
stacked-vlan-ranges
stacked-vlan-tagging
start-end-flag
static-tei-val
supplicant
supplicant-timeout
swap
swap-push
swap-swap
switch-options
switch-port
switch-type
switching-mode
symbol-period
syslog
syslog (Interfaces)
syslog (Monitoring)
syslog (OAM Action)
system-priority
t1-options
t310
t391
t392
t3-options
tag-protocol-id
tag-protocol-id (TPIDs Expected to Be Sent or Received)
tag-protocol-id (TPID to Rewrite)
tei-option
then
threshold
timeslots
tm
tm-polarity
traceoptions
traceoptions (ICCP)
traceoptions (Individual Interfaces)
traceoptions (Interface Process)
traceoptions (LACP)
traceoptions (PPP Process)
traceoptions (PPPoE)
translate-discard-eligible
translate-fecn-and-becn
transmit-bucket
transmit-clock
transmit-period
transmit-weight
transmit-weight (ATM2 IQ CoS Forwarding Class)
transmit-weight (ATM2 IQ Virtual Circuit)
traps
trigger
trigger-link-failure
trunk-bandwidth
trunk-id
ttl
tunnel
underlying-interface
unframed
unidirectional
unit
unnumbered-address
unnumbered-address (Demux)
unnumbered-address (Ethernet)
unnumbered-address (PPP)
up-count
user-prefix
username-include
vbr
vc-cos-mode
vci
vci-range
virtual-switch
vlan-id
vlan-id (Logical Port in Bridge Domain)
vlan-id (Outer VLAN ID)
vlan-id (VLAN ID to Be Bound to a Logical Interface)
vlan-id (VLAN ID to Rewrite)
vlan-id-list
vlan-id-list (Ethernet VLAN Circuit)
vlan-id-list (Interface in Bridge Domain)
vlan-id-range
vlan-ranges
vlan-rewrite
vlan-tagging
vlan-tags
vlan-tags (Dual-Tagged Logical Interface)
vlan-tags (Stacked VLAN Tags)
vlan-tags-outer
vlan-vci-tagging
vpi
vpi (ATM CCC Cell-Relay Promiscuous Mode)
vpi (Define Virtual Path)
vpi (Logical Interface and Interworking)
vtmapping
warning
watch-list
wavelength
west-interface
working-circuit
yellow-differential-delay
z0-increment
Index
Index
Index of Statements and Commands