16-High Availability Configuration Guide

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07-BFD configuration
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Configuring BFD

About BFD

Bidirectional forwarding detection (BFD) provides a general-purpose, standard, medium- and protocol-independent fast failure detection mechanism. It can detect and monitor the connectivity of forwarding paths to detect communication failures quickly so that measures can be taken to ensure service continuity and enhance network availability.

BFD can uniformly and quickly detect the failures of the bidirectional forwarding paths between two devices for upper-layer protocols such as routing protocols. The hello mechanism used by upper-layer protocols needs seconds to detect a link failure, while BFD can provide detection measured in milliseconds.

Single-hop detection and multihop detection

BFD can be used for single-hop and multihop detections.

·     Single-hop detection—Detects the IP connectivity between two directly connected systems.

·     Multihop detection—Detects any of the paths between two systems. These paths have multiple hops, and might overlap.

BFD session modes

BFD sessions use echo packets and control packets.

Echo packet mode

Echo packets are encapsulated into UDP packets with port number 3785.

The local end of the link sends echo packets to establish BFD sessions and monitor link status. The peer end does not establish BFD sessions and only forwards the packets back to the originating end. If the local end does not receive echo packets from the peer end within the detection time, it considers the session to be down.

In echo packet mode, BFD supports multihop detection only for MPLS TE tunnel and VXLAN tunnel scenarios. Both BFD sessions for single-hop detection and BFD sessions for multihop detection are independent of the operating mode.

Control packet mode

Control packets are encapsulated into UDP packets with port number 3784 for single-hop detection or port number 4784 for multihop detection.

The two ends of the link negotiate the establishment of BFD sessions by using the session parameters carried in control packets. Session parameters include session discriminators, desired minimum packet sending and receiving intervals, and local BFD session state.

Before a BFD session is established, BFD has two operating modes—active and passive.

·     Active mode—BFD actively sends BFD control packets regardless of whether any BFD control packet is received from the peer.

·     Passive mode—BFD does not send control packets until a BFD control packet is received from the peer.

At least one end must operate in active mode for a BFD session to be established.

After a BFD session is established, the two ends can operate in the following BFD operating modes:

·     Asynchronous mode—The device periodically sends BFD control packets. The device considers that the session is down if it does not receive any BFD control packets within a specific interval.

·     Demand mode—The device periodically sends BFD control packets with the D bit set. If the peer end is operating in Asynchronous mode (default), the peer end stops sending BFD control packets after receiving control packets with the D bit set. In this case, BFD detects only the connectivity from the local end to the peer end. If the peer end does not receive control packets within the detection time, the session is declared down. If the peer end is operating in Demand mode, both ends stop sending BFD control packets. The system uses other mechanisms such as Hello mechanism and hardware detection to detect links. The Demand mode can be used to reduce the overhead when a large number of BFD sessions exist.

Supported features

Features

Reference

Static routing

IS-IS

OSPF

RIP

BGP

IP fast reroute (FRR)

Layer 3—IP Routing Configuration Guide

IPv6 static routing

OSPFv3

Layer 3—IP Routing Configuration Guide

PIM

IP Multicast Configuration Guide

RSVP

MPLS

MPLS L3VPN

MPLS OAM

MPLS Configuration Guide

Track

"Configuring Track"

Ethernet link aggregation

Layer 2—LAN Switching Configuration Guide

 

Protocols and standards

·     RFC 5880, Bidirectional Forwarding Detection (BFD)

·     RFC 5881, Bidirectional Forwarding Detection (BFD) for IPv4 and IPv6 (Single Hop)

·     RFC 5882, Generic Application of Bidirectional Forwarding Detection (BFD)

·     RFC 5883, Bidirectional Forwarding Detection (BFD) for Multihop Paths

·     RFC 5884, Bidirectional Forwarding Detection (BFD) for MPLS Label Switched Paths (LSPs)

·     RFC 5885, Bidirectional Forwarding Detection (BFD) for the Pseudowire Virtual Circuit Connectivity Verification (VCCV)

·     RFC 7130, Bidirectional Forwarding Detection (BFD) on Link Aggregation Group (LAG) Interfaces

Restrictions and guidelines: BFD configuration

·     By default, the device runs BFD version 1 and is compatible with BFD version 0. You cannot change the BFD version to 0 through commands. When the peer device runs BFD version 0, the local device automatically switches to BFD version 0.

·     After a BFD session is established, the two ends negotiate BFD parameters, including minimum sending interval, minimum receiving interval, initialization mode, and packet authentication, by exchanging negotiation packets. They use the negotiated parameters without affecting the session status.

·     BFD session flapping might occur on an aggregate interface with member ports on different IRF member devices. When the master device, which receives and sends BFD packets, is removed or restarted, a subordinate device might not immediately take over. For example, a subordinate device will not take over when the subordinate device has a short detection time or a large number of BFD sessions. (In IRF mode.)

Configuring BFD sessions in echo packet mode

About this task

A static BFD session can be created manually by using the bfd static command or created dynamically when an application module collaborates with BFD.

Restrictions and guidelines

If you also configure uRPF on the device, follow these restrictions and guidelines:

·     For the collaboration between an application module and a BFD session in echo packet mode, use an ACL for uRPF to permit echo packets from the peer device. Without the ACL configuration, uRPF will drop these echo packets.

·     For a static BFD session, make sure the source IPv4/IPv6 address specified in the session can pass the uRPF check. If the source IPv4/IPv6 address cannot pass the check, uRPF will drop the echo packets from the peer device.

For more information about uRPF, see Security Configuration Guide.

Creating a static BFD session

About this task

A static BFD session in echo packet mode can be used to perform single-hop detection and multihop detection.

Restrictions and guidelines

You need to create a static BFD session in echo packet mode on only the local device to perform detection.

When creating a static BFD session, you must specify a peer IPv4 or IPv6 address. The system checks only the format of the IP address but not its correctness. If the peer IPv4 or IPv6 address is incorrect, the static BFD session cannot be established.

Different static BFD sessions cannot have the same local discriminator.

As a best practice, specify the source IP address for echo packets when creating a static BFD session. If you do not specify the source IP address, the device uses the IP address specified in the bfd echo-source-ip or bfd echo-source-ipv6 command as the source IP address of echo packets.

Creating a static BFD session for single-hop detection

1.     Enter system view.

system-view

2.     Configure the source IP address of echo packets.

¡     Configure the source IP address of echo packets.

bfd echo-source-ip ip-address

By default, no source IPv4 address is configured for echo packets.

As a best practice, do not configure the source IPv4 address to be on the same network segment as any local interface's IPv4 address. If you configure such a source IPv4 address, a large number of ICMP redirect packets might be sent from the peer, resulting in link congestion.

¡     Configure the source IPv6 address of echo packets.

bfd echo-source-ipv6 ipv6-address

By default, no source IPv6 address is configured for echo packets.

The source IPv6 address of echo packets can only be a global unicast address.

3.     Create a static BFD session and enter static BFD session view.

IPv4:

bfd static session-name [ peer-ip ipv4-address interface interface-type interface-number destination-ip ipv4-address [ source-ip ipv4-address ] one-arm-echo discriminator { local local-value | auto } ]

IPv6:

bfd static session-name [ peer-ipv6 ipv6-address interface interface-type interface-number  destination-ipv6 ipv6-address [ source-ipv6 ipv6-address ] one-arm-echo discriminator { local local-value | auto } ]

Creating a static BFD session for multihop detection

1.     Enter system view.

system-view

2.     Configure the source IP address of echo packets.

¡     Configure the source IP address of echo packets.

bfd echo-source-ip ip-address

By default, no source IPv4 address is configured for echo packets.

As a best practice, do not configure the source IPv4 address to be on the same network segment as any local interface's IPv4 address. If you configure such a source IPv4 address, a large number of ICMP redirect packets might be sent from the peer, resulting in link congestion.

¡     Configure the source IPv6 address of echo packets.

bfd echo-source-ipv6 ipv6-address

By default, no source IPv6 address is configured for echo packets.

The source IPv6 address of echo packets can only be a global unicast address.

3.     Create a static BFD session and enter static BFD session view.

IPv4:

bfd static session-name [ peer-ip ipv4-address [ vpn-instance vpn-instance-name ] destination-ip ipv4-address [ source-ip ipv4-address ] one-arm-echo discriminator { local local-value | auto } ]

IPv6:

bfd static session-name [ peer-ipv6 ipv6-address [ vpn-instance vpn-instance-name ] destination-ipv6 ipv6-address [ source-ipv6 ipv6-address ] one-arm-echo discriminator { local local-value | auto } ]

Configuring BFD session parameters for single-hop detection

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Set the minimum interval for receiving BFD echo packets.

bfd min-echo-receive-interval interval

The default setting varies by device model. For more information, see the command reference.

4.     Set the detection time multiplier.

bfd detect-multiplier value

The default setting is 5.

Configuring BFD session parameters for multihop detection

1.     Enter system view.

system-view

2.     Set the minimum interval for receiving BFD echo packets.

bfd multi-hop min-echo-receive-interval interval

The default setting varies by device model. For more information, see the command reference.

3.     Set the detection time multiplier.

bfd multi-hop detect-multiplier value

The default setting is 5.

Configuring BFD sessions in control packet mode

About BFD session creation methods

BFD sessions in control packet mode can be created statically or established dynamically.

BFD sessions are distinguished by the local discriminator and remote discriminator in control packets. The main difference between a statically created session and a dynamically established session is that they obtain the local discriminator and remote discriminator in different ways.

·     The local discriminator and remote discriminator of a static BFD session are specified manually in the bfd static command or in features associated with BFD.

·     The local discriminator of a dynamic BFD session is assigned by the device, and the remote discriminator is obtained during BFD session negotiation. A created session without manually specified local and remote discriminators is a dynamic BFD session.

Restrictions and guidelines

BFD version 0 does not support the following commands:

·     bfd session init-mode.

·     bfd authentication-mode.

·     bfd demand enable.

·     bfd echo enable.

Configuring a static BFD session

About this task

A static BFD session can be used for single-hop detection and multihop detection.

Restrictions and guidelines for static BFD session configuration

If a static BFD session is created on the remote end, the static BFD session must be created on the local end.

When creating a static BFD session, you must specify a peer IPv4 or IPv6 address. The system checks only the format of the IP address but not its correctness. If the peer IPv4 or IPv6 address is incorrect, the static BFD session cannot be established.

Different static BFD sessions cannot have the same local discriminator.

Creating a static BFD session for single-hop detection of network layer connectivity

1.     Enter system view.

system-view

2.     Create a static BFD session and enter static BFD session view.

IPv4:

bfd static session-name peer-ip ipv4-address interface interface-type interface-number source-ip ipv4-address discriminator local local-value remote remote-value

For a static BFD session to be established, specify the IPv4 address of the peer interface where the static BFD session resides for the peer-ip ipv4-address option. Specify the IPv4 address of the local interface where the static BFD session resides for the source-ip ipv4-address option.

IPv6:

bfd static session-name peer-ipv6 ipv6-address interface interface-type interface-number source-ipv6 ipv6-address discriminator local local-value remote remote-value

For a static BFD session to be established, specify the IPv6 address of the peer interface where the static BFD session resides for the peer-ipv6 ipv6-address option. Specify the IPv6 address of the local interface where the static BFD session resides for the source-ipv6 ipv6-address option.

Creating a static BFD session for single-hop detection of data link layer connectivity

1.     Enter system view.

system-view

2.     Create a static BFD session and enter static BFD session view.

bfd static session-name peer-ip default-ip interface interface-type interface-number source-ip ip-address discriminator local discr-value remote discr-value

For a static BFD session to be established, specify the IPv6 address of the local interface where the static BFD session resides for the source-ip ip-address option.

3.     (Optional.) Associate the interface state with the static BFD session.

process-interface-status

By default, the state of a static BFD session does not affect the state of the data link layer of the interface.

4.     (Optional.) Configure the timer that delays reporting the first static BFD session establishment failure to the data link layer.

first-fail-timer seconds

By default, the first static BFD session establishment failure is not reported to the data link layer.

This command takes effect only after you configure the process-interface-status command.

5.     (Optional.) Enable special processing for the static BFD session.

special-processing [ admin-down | authentication-change | session-up ] *

By default, all types of special processing are disabled for a static BFD session.

Creating a static BFD session for multihop detection

1.     Enter system view.

system-view

2.     Create a static BFD session and enter static BFD session view.

IPv4:

bfd static session-name peer-ip ipv4-address [ vpn-instance vpn-instance-name ] source-ip ipv4-address discriminator local local-value remote remote-value

For a static BFD session to be established, specify the IPv4 address of the peer interface where the static BFD session resides for the peer-ip ipv4-address option. Specify the IPv4 address of the local interface where the static BFD session resides for the source-ip ipv4-address option.

IPv6:

bfd static session-name peer-ipv6 ipv6-address [ vpn-instance vpn-instance-name ] source-ipv6 ipv6-address discriminator local local-value remote remote-value

For a static BFD session to be established, specify the IPv6 address of the peer interface where the static BFD session resides for the peer-ipv6 ipv6-address option. Specify the IPv6 address of the local interface where the static BFD session resides for the source-ipv6 ipv6-address option.

Configuring BFD session parameters for single-hop detection

1.     Enter system view.

system-view

2.     Specify the mode for establishing a BFD session.

bfd session init-mode { active | passive }

By default, active is specified.

3.     Enter interface view or static BFD session view.

¡     Enter interface view.

interface interface-type interface-number

¡     Enter static BFD session view.

bfd static session-name

The static BFD session must already exist.

4.     (Optional.) Configure the authentication mode for single-hop control packets.

bfd authentication-mode { hmac-md5 | hmac-mmd5 | hmac-msha1 | hmac-sha1 | m-md5 | m-sha1 | md5 | sha1 | simple } key-id { cipher cipher-string | plain plain-string }

By default, single-hop BFD packets are not authenticated.

5.     Enable the Demand BFD session mode.

bfd demand enable

By default, the BFD session is in Asynchronous mode.

6.     Set the minimum interval for transmitting single-hop BFD control packets.

bfd min-transmit-interval interval

Support for this command depends on the device model. For more information, see the command reference.

7.     Set the minimum interval for receiving single-hop BFD control packets.

bfd min-receive-interval interval

Support for this command depends on the device model. For more information, see the command reference.

8.     Set the single-hop detection time multiplier.

bfd detect-multiplier value

The default setting is 5.

9.     (Optional.) Set the delay timer for BFD to notify upper-layer protocols of session establishment failures.

bfd init-fail-timer seconds

By default, BFD does not notify upper-layer protocols of session establishment failures.

Configuring BFD session parameters for multihop detection

1.     Enter system view.

system-view

2.     Specify the mode for establishing a BFD session.

bfd session init-mode { active | passive }

By default, active is specified.

3.     Configure the authentication mode for multihop BFD control packets.

bfd multi-hop authentication-mode { m-md5 | m-sha1 | md5 | sha1 | simple } key-id { cipher cipher-string | plain plain-string }

By default, no authentication is performed.

4.     Configure the destination port number for multihop BFD control packets.

bfd multi-hop destination-port port-number

The default setting is 4784.

5.     Set the multihop detection time multiplier.

bfd multi-hop detect-multiplier value

The default setting is 5.

6.     Set the minimum interval for receiving multihop BFD control packets.

bfd multi-hop min-receive-interval interval

Support for this command depends on the device model. For more information, see the command reference.

7.     Set the minimum interval for transmitting multihop BFD control packets.

bfd multi-hop min-transmit-interval interval

Support for this command depends on the device model. For more information, see the command reference.

8.     (Optional.) Set the delay timer for BFD to notify upper-layer protocols of session establishment failures.

bfd init-fail-timer seconds

By default, BFD does not notify upper-layer protocols of session establishment failures.

Enabling the echo function

About this task

This function enables the local system to periodically send echo packets to the remote system. The remote system loops back the echo packets to the local system without processing them. If the local system does not receive the looped-back echo packets, it declares the BFD session down.

This function is supported only for single-hop detection.

Restrictions and guidelines

This function does not take effect on BFD sessions associated with interface states.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view or static BFD session view.

¡     Enter interface view.

interface interface-type interface-number

¡     Enter static BFD session view.

bfd static session-name

The static BFD session must be an existing session used to detect data link layer connectivity.

3.     Enable the echo function.

bfd echo [ receive | send ] enable

By default, the echo function is disabled.

Associating the interface state with BFD

About this task

By creating a BFD session for single-hop detection through exchange of BFD control packets, this feature implements fast link detection. When BFD detects a link fault, it sets the link layer protocol state to DOWN(BFD). This behavior helps applications relying on the link layer protocol state achieve fast convergence. The source IP address of control packets is specified manually, and the destination IP address is fixed at 224.0.0.184. As a best practice, specify the IP address of the interface as the source IP address. If the interface does not have an IP address, specify a unicast IP address other than 0.0.0.0 as the source IP address.

You can associate the state of the following interfaces with BFD:

·     Layer 3 Ethernet interfaces and subinterfaces. For BFD detection to take effect, do not configure this feature on both a Layer 3 Ethernet interface and its subinterface.

·     Layer 3 aggregate interfaces, Layer 3 aggregate subinterfaces, and member ports (Layer 3 Ethernet interfaces only) in a Layer 3 aggregation group. For BFD detection to take effect, do not configure this feature on any two of the interface types at the same time.

·     VLAN interfaces.

Restrictions and guidelines

The echo function does not take effect on BFD sessions associated with interface states.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Associate the interface state with BFD.

bfd detect-interface source-ip ip-address [ discriminator local local-value remote remote-value ] [ template template-name ]

By default, the interface state is not associated with BFD. BFD does not set the link layer protocol of the interface to DOWN(BFD) state when detecting a failure.

4.     (Optional.) Configure the timer that delays reporting the first BFD session establishment failure to the data link layer.

bfd detect-interface first-fail-timer seconds

By default, the first BFD session establishment failure is not reported to the data link layer.

5.     (Optional.) Enable special processing for BFD sessions.

bfd detect-interface special-processing [ admin-down | authentication-change | session-up ] *

By default, all types of special processing are disabled for BFD sessions.

Configuring a BFD template

About this task

Perform this task to specify BFD parameters in a template for sessions without next hops. You can configure BFD parameters for LSPs and PWs through a BFD template.

Procedure

1.     Enter system view.

system-view

2.     Create a BFD template and enter BFD template view.

bfd template template-name

3.     (Optional.) Configure the authentication mode for BFD control packets.

bfd authentication-mode { hmac-md5 | hmac-mmd5 | hmac-msha1 | hmac-sha1 | m-md5 | m-sha1 | md5 | sha1 | simple } key-id { cipher cipher-string | plain plain-string }

By default, no authentication is performed.

4.     Set the detection time multiplier.

bfd detect-multiplier value

The default setting is 5.

5.     Set the minimum interval for receiving BFD echo packets.

bfd min-echo-receive-interval interval

Support for this command depends on the device model. For more information, see the command reference.

6.     Set the minimum interval for receiving BFD control packets.

bfd min-receive-interval interval

Support for this command depends on the device model. For more information, see the command reference.

7.     Set the minimum interval for transmitting BFD control packets.

bfd min-transmit-interval interval

Support for this command depends on the device model. For more information, see the command reference.

Enabling SNMP notifications for BFD

About this task

To report critical BFD events to an NMS, enable SNMP notifications for BFD. For BFD event notifications to be sent correctly, you must also configure SNMP as described in Network Management and Monitoring Configuration Guide.

Procedure

1.     Enter system view.

system-view

2.     Enable SNMP notifications for BFD.

snmp-agent trap enable bfd

By default, SNMP notifications are enabled for BFD.

Display and maintenance commands for BFD

Execute the display command in any view and the reset command in user view.

 

Task

Command

Display BFD session information.

display bfd session [ discriminator local local-value | static session-name | verbose ]

display bfd session [ [ dynamic ] [ control | echo ] [ ip ] [ state { down | admin-down | init | up } ] [ discriminator remote remote-value ] [ peer-ip ipv4-address [ vpn-instance vpn-instance-name ] ] [ verbose ] ]

display bfd session [ [ dynamic ] [ control | echo ] [ ipv6 ] [ state { down | admin-down | init | up } ] [ discriminator remote remote-value ] [ peer-ipv6 ipv6-address [ vpn-instance vpn-instance-name ] ] [ verbose ] ]

display bfd session [ [ dynamic ] [ control | echo ] [ lsp | te | pw ] [ state { down | admin-down | init | up } ] [ discriminator remote remote-value ] [ [ peer-ip ipv4-address [ vpn-instance vpn-instance-name ] ] | [ peer-ipv6 ipv6-address [ vpn-instance vpn-instance-name ] ] ] [ verbose ] ]

display bfd session [ [ static ] [ ip ] [ state { down | admin-down | init | up } ] [ discriminator remote remote-value ] [ peer-ip ipv4-address [ vpn-instance vpn-instance-name ] ] [ verbose ]

display bfd session [ [ static ] [ ipv6 ] [ state { down | admin-down | init | up } ] [ discriminator remote remote-value ] [ peer-ipv6 ipv6-address [ vpn-instance vpn-instance-name ] ] [ verbose ]

Clear BFD session statistics.

reset bfd session statistics

 

 

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