- About This Document
- MPLS Basics
- Static LSP Configuration
- MPLS LDP Configuration
- Overview of MPLS LDP
- Understanding MPLS LDP
- Summary of MPLS LDP Configuration Tasks
- Licensing Requirements and Limitations for MPLS LDP
- Default Settings for MPLS LDP
- Configuring Basic Functions of MPLS LDP
- Configuring the LSR ID
- Enabling Global MPLS
- Enabling Global MPLS LDP
- Configuring LDP Sessions
- (Optional) Configuring an LDP Transport Address
- (Optional) Configuring Timers for LDP Session
- (Optional) Configuring the PHP Feature
- (Optional) Configuring an LDP Label Advertisement Mode
- (Optional) Configuring LDP to Automatically Trigger the Request in DoD Mode
- (Optional) Configuring LDP Loop Detection
- (Optional) Configuring MPLS MTU
- (Optional) Configuring the MPLS TTL Processing Mode
- (Optional) Configuring the LDP Label Policies
- (Optional) Disabling a Device from Distributing Labels to Remote Peers
- (Optional) Configuring a Policy for Triggering LDP LSP Establishment
- (Optional) Configuring Delayed Transmission of Label Withdraw Messages
- (Optional) Enabling LDP to Maintain a Session After Receiving Error TCP Packets
- Verifying the Configuration of Basic MPLS LDP Functions
- Configuring LDP Extensions for Inter-Area LSPs
- Configuring Static BFD to Detect an LDP LSP
- Configuring Dynamic BFD for LDP LSPs
- Configuring Synchronization Between LDP and IGP
- Enabling Synchronization Between LDP and IGP
- (Optional) Blocking Synchronization Between LDP and IS-IS on an Interface
- (Optional) Setting the Hold-down Timer Value
- (Optional) Setting the Hold-max-cost Timer Value
- (Optional) Setting the Delay Timer Value
- Verifying the Configuration of Synchronization Between LDP and IGP
- Configuring LDP FRR
- Configuring LDP GR
- Configuring LDP Security Mechanisms
- Configuring Non-labeled Public Network Routes to Be Iterated to LSPs
- Maintaining MPLS LDP
- Configuration Examples for MPLS LDP
- Example for Configuring Local LDP Sessions
- Example for Configuring Remote MPLS LDP Sessions
- Example for Configuring Coexistent Local and Remote LDP Session
- Example for Configuring Automatic Triggering of a Request for a Label Mapping Message in DoD Mode
- Example for Configuring a Policy for Triggering LDP LSP Establishment on the Ingress and Egress Nodes
- Example for Configuring a Policy for Triggering LDP LSP Establishment on the Transit Node
- Example for Disabling Devices from Distributing LDP Labels to Remote Peers
- Example for Configuring Static BFD to Detect LDP LSPs
- Example for Configuring Dynamic BFD to Detect LDP LSPs
- Example for Configuring Synchronization Between LDP and IGP
- Example for Configuring LDP GR
- Example for Configuring Manual LDP FRR
- Example for Configuring Auto LDP FRR
- Example for Configuring LDP Authentication
- Example for Configuring LDP GTSM
- Example for Configuring LDP Extension for Inter-Area LSP
- Troubleshooting MPLS LDP
- FAQ About MPLS
- MPLS QoS Configuration
- Overview of MPLS QoS
- Understanding MPLS QoS
- Application of MPLS QoS in the VPN Service
- Licensing Requirements and Limitations for MPLS QoS
- Default Settings for MPLS QoS
- Configuring the Mapping of the Precedence in the Public MPLS Tunnel Label
- Setting the DiffServ Mode Supported by MPLS VPNs
- Configuration Examples for MPLS QoS
- MPLS TE Configuration
- Overview of MPLS TE
- Understanding MPLS TE
- MPLS TE Application on an IP MAN
- Summary of MPLS TE Configuration Tasks
- Licensing Requirements and Limitations for MPLS TE
- Default Settings for MPLS TE
- Configuring a Static MPLS TE Tunnel
- Configuring a Dynamic MPLS TE Tunnel
- Enabling MPLS TE and RSVP-TE
- Configuring an MPLS TE Tunnel Interface
- (Optional) Configuring Link Bandwidth
- Advertising TE Link Information
- (Optional) Referencing the CR-LSP Attribute Template to Set Up a CR-LSP
- (Optional) Configuring Tunnel Constraints
- Configuring Path Calculation
- Verifying the Configuration of a Dynamic MPLS TE Tunnel
- Importing Traffic to an MPLS TE Tunnel
- Adjusting RSVP-TE Signaling Parameters
- Configuring an RSVP Resource Reservation Style
- Enabling Reservation Confirmation Mechanism
- Configuring RSVP Timers
- Configuring RSVP-TE Refresh Mechanism
- Configuring RSVP Hello Extension
- Configuring the RSVP Message Format
- Configuring RSVP Authentication
- Verifying the Configuration of Adjusting RSVP-TE Signaling Parameters
- Adjusting the Path of a CR-LSP
- Configuring Tie-Breaking of CSPF
- Configuring Metrics for Path Calculation
- Configuring CR-LSP Hop Limit
- Configuring Route Pinning
- Configuring Administrative Group and Affinity Property
- Configuring SRLG
- Associating CR-LSP Establishment with the Overload Setting
- Configuring Failed Link Timer
- Configuring Flooding Threshold
- Verifying the Configuration of Adjusting the Path of a CR-LSP
- Adjusting the Establishment of an MPLS TE Tunnel
- Configuring Loop Detection
- Configuring Route Record and Label Record
- Configuring Re-optimization for CR-LSP
- Configuring Tunnel Reestablishment Parameters
- Configuring the RSVP Signaling Delay-Trigger Function
- Configuring the Tunnel Priority
- Verifying the Configuration of Adjusting the Establishment of an MPLS TE Tunnel
- Configuring CR-LSP Backup
- Configuring Manual TE FRR
- Configuring Auto TE FRR
- Enabling Auto TE FRR
- Enabling the TE FRR and Configuring the Auto Bypass Tunnel Attributes
- (Optional) Configuring a TE FRR Scanning Timer
- (Optional) Changing the PSB and RSB Timeout Multiplier
- (Optional) Configuring Auto Bypass Tunnel Re-Optimization
- (Optional) Configuring Interworking with a Non-Huawei Device
- Verifying the Auto TE FRR Configuration
- Configuring Association Between TE FRR and CR-LSP Backup
- Configuring a Tunnel Protection Group
- Configuring Dynamic BFD for RSVP
- Configuring Static BFD for CR-LSPs
- Configuring Dynamic BFD for CR-LSPs
- Configuring Static BFD for TE Tunnels
- Configuring RSVP GR
- Maintaining MPLS TE
- Verifying the Connectivity of the TE Tunnel
- Verifying a TE Tunnel By Using NQA
- Enabling the MPLS TE Trap Function
- Configuring Conditions That Trigger CSPF Resource Threshold-Reaching Alarms
- Clearing the Operation Information
- Verifying Information About TE
- Resetting the Tunnel Interface
- Resetting the RSVP Process
- Deleting or Resetting the Bypass Tunnel
- Configuration Examples for MPLS TE
- Example for Configuring a Static MPLS TE Tunnel
- Example for Configuring a Dynamic MPLS TE Tunnel
- Example for Setting Up CR-LSPs Using CR-LSP Attribute Templates
- Example for Configuring IGP Shortcut to Direct Traffic to an MPLS TE Tunnel
- Example for Configuring Forwarding Adjacency to Direct Traffic to an MPLS TE Tunnel
- Example for Setting Attributes for an MPLS TE Tunnel
- Example for Configuring Srefresh Based on Manual TE FRR
- Example for Configuring RSVP Authentication
- Example for Configuring RSVP Authentication Based on Manual TE FRR
- Example for Configuring SRLG Based on Auto TE FRR
- Example for Configuring SRLG Based on CR-LSP Hot Standby
- Example for Configuring CR-LSP Hot Standby
- Example for Configuring Manual TE FRR
- Example for Configuring Auto TE FRR
- Example for Configuring Card Removal Protection (Manual TE FRR)
- Example for Configuring Association Between TE FRR and CR-LSP Backup
- Example for Configuring an MPLS TE Tunnel Protection Group
- Example for Configuring Dynamic BFD for an MPLS TE Tunnel Protection Group
- Example for Configuring Static BFD for CR-LSPs
- Example for Configuring Dynamic BFD for CR-LSPs
- Example for Configuring RSVP GR
- MPLS OAM Configuration
- Seamless MPLS Configuration
- Overview of Seamless MPLS
- Understanding Seamless MPLS
- Application of Seamless MPLS in VPN
- Licensing Requirements and Limitations for Seamless MPLS
- Configuring Intra-AS Seamless MPLS
- Configuring Inter-AS Seamless MPLS
- Configuring Inter-AS Seamless MPLS Plus HVPN
- Configuring Dynamic BFD to Monitor a BGP Tunnel
- Verifying Connectivity and Reachability of Seamless MPLS Networks
- Configuration Examples for Seamless MPLS