Configuring HSRP

The Hot Standby Router Protocol (HSRP) is a First Hop Redundancy Protocol (FHRP) designed to allow for transparent failover of the first-hop IP device. HSRP provides high network availability by providing first-hop routing redundancy for IP hosts on networks configured with a default gateway IP address. HSRP is used in a group of routers for selecting an active device and a standby device. In a group of device interfaces, the active device is the device of choice for routing packets; the standby device is the device that takes over when the active device fails or when preset conditions are met.

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Restrictions for HSRP

  • HSRP is designed for use over multiaccess, multicast, or broadcast capable Ethernet LANs. HSRP is not intended as a replacement for existing dynamic protocols.

Information About HSRP

HSRP Operation

Most IP hosts have an IP address of a single device configured as the default gateway. When HSRP is used, the HSRP virtual IP address is configured as the host’s default gateway instead of the IP address of the device.

HSRP is useful for hosts that do not support a discovery protocol (such as ICMP Router Discovery Protocol [IRDP]) and cannot switch to a new device when their selected device reloads or loses power. Because existing TCP sessions can survive the failover, this protocol also provides a more transparent recovery for hosts that dynamically choose a next hop for routing IP traffic.

When HSRP is configured on a network segment, it provides a virtual MAC address and an IP address that is shared among a group of devices running HSRP. The address of this HSRP group is referred to as the virtual IP address. One of these devices is selected by the protocol to be the active device. The active device receives and routes packets destined for the MAC address of the group. For n devices running HSRP, n+ 1 IP and MAC addresses are assigned.

HSRP detects when the designated active device fails, at which point a selected standby device assumes control of the MAC and IP addresses of the Hot Standby group. A new standby device is also selected at that time.

HSRP uses a priority mechanism to determine which HSRP configured device is to be the default active device. To configure a device as the active device, you assign it a priority that is higher than the priority of all the other HSRP-configured devices. The default priority is 100, so if you configure just one device to have a higher priority, that device will be the default active device.

Devices that are running HSRP send and receive multicast UDP-based hello messages to detect device failure and to designate active and standby devices. When the active device fails to send a hello message within a configurable period of time, the standby device with the highest priority becomes the active device. The transition of packet forwarding functions between devices is completely transparent to all hosts on the network.

You can configure multiple Hot Standby groups on an interface, thereby making fuller use of redundant devices and load sharing.

The figure below shows a network configured for HSRP. By sharing a virtual MAC address and IP address, two or more devices can act as a single virtual router. The virtual device does not physically exist but represents the common default gateway for devices that are configured to provide backup to each other. You do not need to configure the hosts on the LAN with the IP address of the active device. Instead, you configure them with the IP address (virtual IP address) of the virtual device as their default gateway. If the active device fails to send a hello message within the configurable period of time, the standby device takes over and responds to the virtual addresses and becomes the active device, assuming the active device duties.

Figure 1. HSRP Topology

HSRP Version 2 Design

HSRP version 2 is designed to address the following restrictions in HSRP version 1:

  • In HSRP version 1, millisecond timer values are not advertised or learned. HSRP version 2 advertises and learns millisecond timer values. This change ensures stability of the HSRP groups in all cases.

  • In HSRP version 1, group numbers are restricted to the range from 0 to 255. HSRP version 2 expands the group number range from 0 to 4095.

  • HSRP version 2 provides improved management and troubleshooting. With HSRP version 1, you cannot use HSRP active hello messages to identify which physical device sent the message because the source MAC address is the HSRP virtual MAC address. The HSRP version 2 packet format includes a 6-byte identifier field that is used to uniquely identify the sender of the message. Typically, this field is populated with the interface MAC address.

  • The multicast address 224.0.0.2 is used to send HSRP hello messages. This address can conflict with Cisco Group Management Protocol (CGMP) leave processing.

Version 1 is the default version of HSRP.

HSRP version 2 uses the new IP multicast address 224.0.0.102 to send hello packets instead of the multicast address of 224.0.0.2, used by HSRP version 1. This new multicast address allows CGMP leave processing to be enabled at the same time as HSRP.

HSRP version 2 permits an expanded group number range, 0 to 4095, and consequently uses a new MAC address range 0000.0C9F.F000 to 0000.0C9F.FFFF. The increased group number range does not imply that an interface can, or should, support that many HSRP groups. The expanded group number range was changed to allow the group number to match the VLAN number on subinterfaces.

When the HSRP version is changed, each group will reinitialize because it now has a new virtual MAC address.

HSRP version 2 has a different packet format than HSRP version 1. The packet format uses a type-length-value (TLV) format. HSRP version 2 packets received by an HSRP version 1 device will have the type field mapped to the version field by HSRP version 1 and subsequently ignored.

The Gateway Load Balancing Protocol (GLBP) also addresses the same restrictions relative to HSRP version 1 that HSRP version 2 does. See the Configuring GLBP document for more information on GLBP.

Jitter timers

Jitter timers are used in HSRP. They are recommended for timers running on services that work realtime and scale. Jitter timers are intended to significantly improve the reliability of HSRP, and other FHRP protocols, by reducing the chance of bunching of HSRP groups operations, and thus help reduce CPU and network traffic spikes. In the case of HSRP, a given device may have up to 4000 operational groups configured. In order to distribute the load on the device and network, the HSRP timers use a jitter. A given timer instance may take up to 20% more than the configured value. For example, for a hold time set to 15 seconds, the actual hold time may take 18 seconds.

In HSRP, the Hello timer (which sends the Hello Packet) has a negative Jitter, while the Holddown timer (which checks for failure of a peer) has a positive jitter.

HSRP Configuration Changes

With CSCsv12265, an HSRP group may be configured with a virtual IP address that matches the subnet of an IP address of a secondary interface.

When the virtual IP address of an HSRP group is configured with the same network ID as a secondary interface IP address, the source address of HSRP messages is automatically set to the most appropriate interface address. This configuration change allows the following configuration:

interface Ethernet1/0
 ip address 192.168.1.1 255.255.255.0
 ip address 192.168.2.1 255.255.255.0 secondary
 standby 1 ip 192.168.1.254
 standby 1 priority 105
 standby 1 preempt
 standby 2 ip 192.168.2.254 !Same network ID as secondary interface 

Prior to CSCsv12265, an HSRP group remained in INIT state unless the HSRP virtual IP address had the same network ID as the primary interface address.

In addition, the following warning message is displayed if an HSRP group address is configured when no interface addresses are configured:

% Warning: address is not within a subnet on this interface

HSRP Benefits

Redundancy

HSRP employs a redundancy scheme that is time proven and deployed extensively in large networks.

Fast Failover

HSRP provides transparent fast failover of the first-hop device.

Preemption

Preemption allows a standby device to delay becoming active for a configurable amount of time.

Authentication

HSRP message digest 5 (MD5) algorithm authentication protects against HSRP-spoofing software and uses the industry-standard MD5 algorithm for improved reliability and security.

HSRP Groups and Group Attributes

You can use the CLI to apply group attributes to:

  • A single HSRP group—performed in interface configuration mode and applies to a group.

  • All groups on the interface—performed in interface configuration mode and applies to all groups on the interface.

  • All groups on all interfaces—performed in global configuration mode and applies to all groups on all interfaces.

HSRP Preemption

When a newly reloaded device becomes HSRP active, and there is already an HSRP active device on the network, HSRP preemption may appear to not function. HSRP preemption may appear not function correctly because the new HSRP active device did not receive any hello packets from the current HSRP active device, and the preemption configuration never factored into the new device's decision making.

HSRP may appear to not function on some larger hardware platforms where there can be a delay in an interface receiving packets.

In general, we recommend that all HSRP devices have the following configuration:

standby delay minimum 30 reload 60

The standby delay minimum reload interface configuration command delays HSRP groups from initializing for the specified time after the interface comes up.

This is a different command than the standby preempt delay interface configuration command, which enables HSRP preemption delay.

HSRP Priority and Preemption

Preemption enables the HSRP router with the highest priority to immediately become the active router. Priority is determined first by the configured priority value, and then by the IP address. In case of ties, the primary IP addresses are compared, and the higher IP address has priority. In each case, a higher value is of greater priority. If you do not use the standby preempt interface configuration command in the configuration for a router, that router will not become the active router, even if its priority is higher than all other routers.

A standby router with equal priority but a higher IP address will not preempt the active router.

When a router first comes up, it does not have a complete routing table. You can set a preemption delay that allows preemption to be delayed for a configurable time period. This delay period allows the router to populate its routing table before becoming the active router.

If preemption is not enabled, then a router may appear to preempt the active router if it does not receive any Hello messages from the active router.

How Object Tracking Affects the Priority of an HSRP Device

The priority of a device can change dynamically if it has been configured for object tracking and the object that is being tracked goes down. The tracking process periodically polls the tracked objects and notes any change of value. The changes in the tracked object are communicated to HSRP, either immediately or after a specified delay. The object values are reported as either up or down. Examples of objects that can be tracked are the line protocol state of an interface or the reachability of an IP route. If the specified object goes down, the HSRP priority is reduced. The HSRP device with the higher priority can become the active device if it has the standby preempt command configured.

HSRP Addressing

HSRP devices communicate between each other by exchanging HSRP hello packets. These packets are sent to the destination IP multicast address 224.0.0.2 (reserved multicast address used to communicate to all devices) on UDP port 1985. The active device sources hello packets from its configured IP address and the HSRP virtual MAC address while the standby device sources hellos from its configured IP address and the interface MAC address, which may or may not be the burned-in MAC address (BIA).

Because hosts are configured with their default gateway as the HSRP virtual IP address, hosts must communicate with the MAC address associated with the HSRP virtual IP address. This MAC address will be a virtual MAC address in the format of 0000.0C07.ACxy, where xy is the HSRP group number in hexadecimal based on the respective interface. For example, HSRP group one will use the HSRP virtual MAC address of 0000.0C07.AC01. Hosts on the adjoining LAN segment use the normal Address Resolution Protocol (ARP) process to resolve the associated MAC addresses.

HSRP version 2 uses the new IP multicast address 224.0.0.102 to send hello packets instead of the multicast address of 224.0.0.2, which is used by version 1. This new multicast address allows Cisco Group Management Protocol (CGMP) leave processing to be enabled at the same time as HSRP.

HSRP version 2 permits an expanded group number range, 0 to 4095, and consequently uses a new MAC address range 0000.0C9F.F000 to 0000.0C9F.FFFF.

HSRP Virtual MAC Addresses and BIA MAC Addresses

A device automatically generates a virtual MAC address for each HSRP device. However, some network implementations, such as Advanced Peer-to-Peer Networking (APPN), use the MAC address to identify the first hop for routing purposes. In this case, specify the virtual MAC address by using the standby mac-address command in the group; the virtual IP address is unimportant for these protocols.

The standby use-bia command was implemented to overcome the limitations of using a functional address for the HSRP MAC address on Token Ring interfaces. This command allows HSRP groups to use the burned-in MAC address of an interface instead of the HSRP virtual MAC address. When HSRP runs on a multiple-ring, source-routed bridging environment and the HSRP devices reside on different rings, configuring the standby use-bia command can prevent confusion about the routing information field (RFI).

The standby use-bia command is used for an interface and the standby mac-address command is used for an HSRP group.

HSRP Timers

Each HSRP device maintains three timers that are used for timing hello messages: an active timer, a standby timer, and a hello timer. When a timer expires, the device changes to a new HSRP state. Devices for which timer values are not configured can learn timer values from the active or standby device. The timers configured on the active device always override any other timer settings. All devices in a Hot Standby group should use the same timer values.

For HSRP version 1, nonactive devices learn timer values from the active device, unless millisecond timer values are being used. If millisecond timer values are being used, all devices must be configured with the millisecond timer values. This rule applies if either the hello time or the hold time is specified in milliseconds. This configuration is necessary because the HSRP hello packets advertise the timer values in seconds. HSRP version 2 does not have this limitation; it advertises the timer values in milliseconds.

Jitter timers

Jitter timers are used in HSRP. They are recommended for timers running on services that work realtime and scale. Jitter timers are intended to significantly improve the reliability of HSRP, and other FHRP protocols, by reducing the chance of bunching of HSRP groups operations, and thus help reduce CPU and network traffic spikes. In the case of HSRP, a given device may have up to 4000 operational groups configured. In order to distribute the load on the device and network, the HSRP timers use a jitter. A given timer instance may take up to 20% more than the configured value. For example, for a hold time set to 15 seconds, the actual hold time may take 18 seconds.

In HSRP, the Hello timer (which sends the Hello Packet) has a negative Jitter, while the Holddown timer (which checks for failure of a peer) has a positive jitter.

HSRP MAC Refresh Interval

When HSRP runs over FDDI, you can change the interval at which a packet is sent to refresh the MAC cache on learning bridges and switches. HSRP hello packets on FDDI interfaces use the burned-in address (BIA) instead of the MAC virtual address. Refresh packets keep the MAC cache on switches and learning bridges current. Refresh packets are also used for HSRP groups configured as multigroup slaves because these do not send regular Hello messages.

You can change the refresh interval on FDDI rings to a longer or shorter interval, thereby using bandwidth more efficiently. You can prevent the sending of any MAC refresh packets if you do not need them (if you have FDDI but do not have a learning bridge or switch).

HSRP Text Authentication

HSRP ignores unauthenticated HSRP protocol messages. The default authentication type is text authentication.

HSRP authentication protects against false HSRP hello packets causing a denial-of-service attack. For example, Device A has a priority of 120 and is the active device. If a host sends spoof HSRP hello packets with a priority of 130, then Device A stops being the active device. If Device A has authentication configured such that the spoof HSRP hello packets are ignored, Device A will remain the active device

HSRP packets will be rejected in any of the following cases:

  • The authentication schemes differ on the device and in the incoming packets.

  • Text authentication strings differ on the device and in the incoming packet.

HSRP MD5 Authentication

Before the introduction of HSRP MD5 authentication, HSRP authenticated protocol packets with a simple plain text string. HSRP MD5 authentication is an enhancement to generate an MD5 digest for the HSRP portion of the multicast HSRP protocol packet. This functionality provides added security and protects against the threat from HSRP-spoofing software.

MD5 authentication provides greater security than the alternative plain text authentication scheme. MD5 authentication allows each HSRP group member to use a secret key to generate a keyed MD5 hash that is part of the outgoing packet. A keyed hash of an incoming packet is generated and if the hash within the incoming packet does not match the generated hash, the packet is ignored.

The key for the MD5 hash can be either given directly in the configuration using a key string or supplied indirectly through a key chain.

HSRP has two authentication schemes:

  • Plain text authentication

  • MD5 authentication

HSRP authentication protects against false HSRP hello packets causing a denial-of-service attack. For example, Device A has a priority of 120 and is the active device. If a host sends spoof HSRP hello packets with a priority of 130, then Device A stops being the active device. If Device A has authentication configured such that the spoof HSRP hello packets are ignored, Device A will remain the active device.

HSRP packets will be rejected in any of the following cases:

  • The authentication schemes differ on the device and in the incoming packets.

  • MD5 digests differ on the device and in the incoming packet.

  • Text authentication strings differ on the device and in the incoming packet.

HSRP Support for IPv6

Most IPv4 hosts have a single router’s IP address configured as the default gateway. When HSRP is used, then the HSRP virtual IP address is configured as the host’s default gateway instead of the router’s IP address. Simple load sharing may be achieved by using two HSRP groups and configuring half the hosts with one virtual IP address and half the hosts with the other virtual IP address.

In contrast, IPv6 hosts learn of available IPv6 routers through IPv6 neighbor discovery Router Advertisement (RA) messages. These are multicast periodically, or may be solicited by hosts. HSRP is designed to provide only a virtual first hop for IPv6 hosts.

An HSRP IPv6 group has a virtual MAC address that is derived from the HSRP group number, and a virtual IPv6 link-local address that is, by default, derived from the HSRP virtual MAC address. HSRP IPv6 uses the MAC address range 0005.73A0.0000 to 0005.73A0.0FFF. Periodic RAs are sent for the HSRP virtual IPv6 link-local address when the HSRP group is active. These RAs stop after a final RA is sent when the group leaves the active state.

Periodic RAs for the interface link-local address stop after a final RA is sent while at least one virtual IPv6 link-local address is configured on the interface. No restrictions occur for the interface IPv6 link-local address other than that mentioned for the RAs. Other protocols continue to receive and send packets to this address.

HSRP uses a priority mechanism to determine which HSRP configured router is to be the default active router. To configure a router as the active router, you assign it a priority that is higher than the priority of all the other HSRP-configured routers. The default priority is 100, so if you configure just one router to have a higher priority, that router will be the default active router.

For more information see the "Configuring First Hop Redundancy Protocols in IPv6" chapter of the Cisco IOS IPv6 Configuration Guide.

HSRP Messages and States

Devices configured with HSRP exchange three types of multicast messages:

  • Coup—When a standby device wants to assume the function of the active device, it sends a coup message.

  • Hello—The hello message conveys to other HSRP device the HSRP priority and state information of the device.

  • Resign—A device that is the active device sends this message when it is about to shut down or when a device that has a higher priority sends a hello or coup message.

At any time, a device configured with HSRP is in one of the following states:

  • Active—The device is performing packet-transfer functions.

  • Init or Disabled—The device is not yet ready or able to participate in HSRP, possibly because the associated interface is not up. HSRP groups configured on other devices on the network that are learned via snooping are displayed as being in the Init state. Locally configured groups with an interface that is down or groups without a specified interface IP address appear in the Init state.

  • Learn—The device has not determined the virtual IP address and has not yet seen an authenticated hello message from the active device. In this state, the device still waits to hear from the active device.

  • Listen—The device is receiving hello messages.

  • Speak—The device is sending and receiving hello messages.

  • Standby—The device is prepared to assume packet-transfer functions if the active device fails.

HSRP uses logging Level 5 for syslog messages related to HSRP state changes to allow logging of an event without filling up the syslog buffer on the device with low-priority Level 6 messaging.

HSRP Group Linking to IP Redundancy Clients

HSRP provides stateless redundancy for IP routing. HSRP by itself is limited to maintaining its own state. Linking an IP redundancy client to an HSRP group provides a mechanism that allows HSRP to provide a service to client applications so they can implement stateful failover.

IP redundancy clients are other Cisco IOS processes or applications that use HSRP to provide or withhold a service or resource dependent upon the state of the group.

HSRP groups have a default name of hsrp-interface-group so specifying a group name is optional. For example, Group 1 on Ethernet0/0 has a default group name of "hsrp-Et0/0-1."

HSRP Object Tracking

Object tracking separates the tracking mechanism from HSRP and creates a separate standalone tracking process that can be used by any other process as well as HSRP. The priority of a device can change dynamically when it has been configured for object tracking and the object that is being tracked goes down. Examples of objects that can be tracked are the line protocol state of an interface or the reachability of an IP route. If the specified object goes down, the HSRP priority is reduced.

A client process such as HSRP, Virtual Router Redundancy Protocol (VRRP), or Gateway Load Balancing Protocol (GLBP) can register its interest in tracking objects and then be notified when the tracked object changes state.

For more information about object tracking, see the "Configuring Enhanced Object Tracking" document.

HSRP Group Shutdown

The FHRP—HSRP Group Shutdown feature enables you to configure an HSRP group to become disabled (its state changed to Init) instead of having its priority decremented when a tracked object goes down. Use the standby track command with the shutdown keyword to configure HSRP group shutdown.

If an object is already being tracked by an HSRP group, you cannot change the configuration to use the HSRP Group Shutdown feature. You must first remove the tracking configuration using the no standby track command and then reconfigure it using the standby track command with the shutdown keyword.

HSRP Support for ICMP Redirect Messages

By default, HSRP filtering of Internet Control Message Protocol (ICMP) redirect messages is enabled on devices running HSRP.

ICMP is a network layer Internet protocol that provides message packets to report errors and other information relevant to IP processing. ICMP can send error packets to a host and can send redirect packets to a host.

When HSRP is running, preventing hosts from discovering the interface (or real) IP addresses of devices in the HSRP group is important. If a host is redirected by ICMP to the real IP address of a device, and that device later fails, then packets from the host will be lost.

ICMP redirect messages are automatically enabled on interfaces configured with HSRP. This functionality works by filtering outgoing ICMP redirect messages through HSRP, where the next hop IP address may be changed to an HSRP virtual IP address.

ICMP Redirects to Active HSRP Devices

The next-hop IP address is compared to the list of active HSRP devices on that network; if a match is found, then the real next-hop IP address is replaced with a corresponding virtual IP address and the redirect message is allowed to continue.

If no match is found, then the ICMP redirect message is sent only if the device corresponding to the new next hop IP address is not running HSRP. Redirects to passive HSRP devices are not allowed (a passive HSRP device is a device running HSRP, but which contains no active HSRP groups on the interface).

For optimal operation, every device in a network that is running HSRP should contain at least one active HSRP group on an interface to that network. Every HSRP device need not be a member of the same group. Each HSRP device will snoop on all HSRP packets on the network to maintain a list of active devices (virtual IP addresses versus real IP addresses).

Consider the network shown in the figure below, which supports the HSRP ICMP redirection filter.

Figure 2. Network Supporting the HSRP ICMP Redirection Filter

If the host wants to send a packet to another host on Net D, then it first sends it to its default gateway, the virtual IP address of HSRP group 1.

The following is the packet received from the host:

dest MAC         = HSRP group 1 virtual MAC
source MAC       = Host MAC
dest IP          = host-on-netD IP
source IP        = Host IP

Device R1 receives this packet and determines that device R4 can provide a better path to Net D, so it prepares to send a redirect message that will redirect the host to the real IP address of device R4 (because only real IP addresses are in its routing table).

The following is the initial ICMP redirect message sent by device R1:

dest MAC         = Host MAC
source MAC       = router R1 MAC
dest IP          = Host IP
source IP        = router R1 IP
gateway to use   = router R4 IP

Before this redirect occurs, the HSRP process of device R1 determines that device R4 is the active HSRP device for group 3, so it changes the next hop in the redirect message from the real IP address of device R4 to the virtual IP address of group 3. Furthermore, it determines from the destination MAC address of the packet that triggered the redirect message that the host used the virtual IP address of group 1 as its gateway, so it changes the source IP address of the redirect message to the virtual IP address of group 1.

The modified ICMP redirect message showing the two modified fields (*) is as follows:

dest MAC         = Host MAC
source MAC       = router R1 MAC
dest IP          = Host IP
source IP*       = HSRP group 1 virtual IP
gateway to use*  = HSRP group 3 virtual IP

This second modification is necessary because hosts compare the source IP address of the ICMP redirect message with their default gateway. If these addresses do not match, the ICMP redirect message is ignored. The routing table of the host now consists of the default gateway, virtual IP address of group 1, and a route to Net D through the virtual IP address of group 3.

ICMP Redirects to Passive HSRP Devices

ICMP redirects to passive HSRP devices are not permitted. Redundancy may be lost if hosts learn the real IP addresses of HSRP devices.

In the "Network Supporting the HSRP ICMP Redirection Filter" figure, redirection to device R8 is not allowed because R8 is a passive HSRP device. In this case, packets from the host to Net D will first go to device R1 and then be forwarded to device R4; that is, they will traverse the network twice.

A network configuration with passive HSRP devices is considered a misconfiguration. For HSRP ICMP redirection to operate optimally, every device on the network that is running HSRP should contain at least one active HSRP group.

ICMP Redirects to Non-HSRP Devices

ICMP redirects to devices not running HSRP on their local interface are permitted. No redundancy is lost if hosts learn the real IP address of non-HSRP devices.

In the "Network Supporting the HSRP ICMP Redirection Filter" figure, redirection to device R7 is allowed because R7 is not running HSRP. In this case, the next hop IP address is unchanged. The source IP address is changed dependent upon the destination MAC address of the original packet. You can specify the no standby redirect unknown command to stop these redirects from being sent.

Passive HSRP Advertisement Messages

Passive HSRP devices send out HSRP advertisement messages both periodically and when entering or leaving the passive state. Thus, all HSRP devices can determine the HSRP group state of any HSRP device on the network. These advertisements inform other HSRP devices on the network of the HSRP interface state, as follows:

  • Active—Interface has at least one active group. A single advertisement is sent out when the first group becomes active.

  • Dormant—Interface has no HSRP groups. A single advertisement is sent once when the last group is removed.

  • Passive—Interface has at least one nonactive group and no active groups. Advertisements are sent out periodically.

You can adjust the advertisement interval and hold-down time using the standby redirect timers command.

ICMP Redirects Not Sent

If the HSRP device cannot uniquely determine the IP address used by the host when it sends the packet that caused the redirect, the redirect message will not be sent. The device uses the destination MAC address in the original packet to make this determination. In certain configurations, such as the use of the standby use-bia interface configuration command specified on an interface, redirects cannot be sent. In this case, the HSRP groups use the interface MAC address as their virtual MAC address. The device now cannot determine if the default gateway of the host is the real IP address or one of the HSRP virtual IP addresses that are active on the interface.

The IP source address of an ICMP packet must match the gateway address used by the host in the packet that triggered the ICMP packet, otherwise the host will reject the ICMP redirect packet. An HSRP device uses the destination MAC address to determine the gateway IP address of the host. If the HSRP device is using the same MAC address for multiple IP addresses, uniquely determining the gateway IP address of the host is not possible, and the redirect message is not sent.

The following is sample output from the debug standby events icmp EXEC command if HSRP could not uniquely determine the gateway used by the host:

10:43:08: HSRP: ICMP redirect not sent to 10.0.0.4 for dest 10.0.1.2
10:43:08: HSRP: could not uniquely determine IP address for mac 00d0.bbd3.bc22

HSRP Support for MPLS VPNs

HSRP support for a Multiprotocol Label Switching (MPLS) VPN interface is useful when an Ethernet LAN is connected between two provider edge (PE) devices with either of the following conditions:

  • A customer edge (CE) device with a default route to the HSRP virtual IP address

  • One or more hosts with the HSRP virtual IP address configured as the default gateway

Each VPN is associated with one or more VPN routing and forwarding (VRF) instances. A VRF consists of the following elements:

  • IP routing table

  • Cisco Express Forwarding table

  • Set of interfaces that use the Cisco Express Forwarding forwarding table

  • Set of rules and routing protocol parameters to control the information in the routing tables

VPN routing information is stored in the IP routing table and the Cisco Express Forwarding table for each VRF. A separate set of routing and Cisco Express Forwarding tables is maintained for each VRF. These tables prevent information from being forwarded outside a VPN and also prevent packets that are outside a VPN from being forwarded to a device within the VPN.

HSRP adds ARP entries and IP hash table entries (aliases) using the default routing table instance. However, a different routing table instance is used when VRF forwarding is configured on an interface, causing ARP and ICMP echo requests for the HSRP virtual IP address to fail.

HSRP support for MPLS VPNs ensures that the HSRP virtual IP address is added to the correct IP routing table and not to the default routing table.

HSRP Multiple Group Optimization

The configuration of many hundreds of subinterfaces on the same physical interface, with each subinterface having its own HSRP group, can cause the processes of negotiation and maintenance of multiple HSRP groups to have a detrimental impact on network traffic and CPU utilization.

Only one HSRP group is required on a physical interface for the purposes of electing active and standby devices. This group is known as the master group. Other HSRP groups may be created on each subinterface and linked to the master group via the group name. These linked HSRP groups are known as client or slave groups.

The HSRP group state of the client groups follows that of the master group. Client groups do not participate in any sort of device election mechanism.

Client groups send periodic messages in order to refresh their virtual MAC addresses in switches and learning bridges. The refresh message may be sent at a much lower frequency compared with the protocol election messages sent by the master group.

HSRP—ISSU

The In Service Software Upgrade (ISSU) process allows Cisco software to be updated or otherwise modified while packet forwarding continues. In most networks, planned software upgrades are a significant cause of downtime. ISSU allows Cisco software to be modified while packet forwarding continues, which increases network availability and reduces downtime caused by planned software upgrades.

For detailed information about ISSU, see the Cisco IOS In Service Software Upgrade Process document in the High Availability Configuration Guide.

SSO HSRP

SSO HSRP alters the behavior of HSRP when a device with redundant Route Processors (RPs) is configured for stateful switchover (SSO) redundancy mode. When an RP is active and the other RP is standby, SSO enables the standby RP to take over if the active RP fails.

With this functionality, HSRP SSO information is synchronized to the standby RP, allowing traffic that is sent using the HSRP virtual IP address to be continuously forwarded during a switchover without a loss of data or a path change. Additionally, if both RPs fail on the active HSRP device, then the standby HSRP device takes over as the active HSRP device.

The feature is enabled by default when the redundancy mode of operation is set to SSO.

SSO Dual-Route Processors and Cisco Nonstop Forwarding

SSO functions in networking devices (usually edge devices) that support dual RPs. SSO provides RP redundancy by establishing one of the RPs as the active processor and the other RP as the standby processor. SSO also synchronizes critical state information between the RPs so that network state information is dynamically maintained between RPs.

SSO is generally used with Cisco nonstop forwarding (NSF). Cisco NSF enables forwarding of data packets to continue along known routes while the routing protocol information is being restored following a switchover. With NSF, users are less likely to experience service outages.

HSRP and SSO Working Together

The SSO HSRP feature enables the Cisco IOS HSRP subsystem software to detect that a standby RP is installed and the system is configured in SSO redundancy mode. Further, if the active RP fails, no change occurs to the HSRP group itself and traffic continues to be forwarded through the current active gateway device.

Prior to introduction of the SSO HSRP feature, when the primary RP of the active device failed, it would stop participating in the HSRP group and trigger another switch in the group to take over as the active HSRP switch.

SSO HSRP is required to preserve the forwarding path for traffic destined to the HSRP virtual IP address through an RP switchover.

Configuring SSO on the edge device enables the traffic on the Ethernet links to continue during an RP failover without the Ethernet traffic switching over to an HSRP standby device (and then back, if preemption is enabled).


Note


You may want to disable SSO HSRP by using the no standby sso command if you have LAN segments that should switch HSRP traffic to a redundant device while SSO maintains traffic flow for other connections.


HSRP BFD Peering

The HSRP BFD Peering feature introduces Bidirectional Forwarding Detection (BFD) in the Hot Standby Router Protocol (HSRP) group member health monitoring system. HSRP supports BFD as a part of the HSRP group member health monitoring system. Without BFD, HSRP runs as a process in a multiprocess system and cannot be guaranteed to be scheduled in time to service large numbers of groups with hello and hold timers, in milliseconds. BFD runs as a pseudopreemptive process and can therefore be guaranteed to run when required. Only one BFD session between two devices can provide early failover notification for multiple HSRP groups.

This feature is enabled by default. The HSRP standby device learns the real IP address of the HSRP active device from the HSRP hello messages. The standby device registers as a BFD client and asks to be notified if the active device becomes unavailable. When BFD determines that the connections between standby and active devices has failed, it will notify HSRP on the standby device which will immediately take over as the active device.

BFD provides a low-overhead, short-duration method of detecting failures in the forwarding path between two adjacent devices, including the interfaces, data links, and forwarding planes. BFD is a detection protocol that you enable at the interface and routing protocol levels. Cisco supports the BFD asynchronous mode, which depends on the sending of BFD control packets between two systems to activate and maintain BFD neighbor sessions between devices. Therefore, to create a BFD session, you must configure BFD on both systems (or BFD peers). When BFD is enabled on the interfaces and at the device level for HSRP, a BFD session is created, BFD timers are negotiated, and the BFD peers will begin to send BFD control packets to each other at the negotiated interval.

BFD provides fast BFD peer failure detection times independently of all media types, encapsulations, topologies, and routing protocols such as, Border Gateway Protocol (BGP), Enhanced Interior Gateway Routing Protocol (EIGRP), Hot Standby Router Protocol (HSRP), Intermediate System To Intermediate System (IS-IS), and Open Shortest Path First (OSPF). By sending rapid failure detection notices to the routing protocols in the local device to initiate the routing table recalculation process, BFD contributes to greatly reduce overall network convergence time. The figure below shows a simple network with two devices running HSRP and BFD.

Figure 3. HSRP BFD Peering

For more information about BFD, see the IP Routing: BFD Configuration Guide.

HSRP MIB Traps

HSRP MIB supports Simple Network Management Protocol (SNMP) Get operations, to allow network devices to get reports about HSRP groups in a network from the network management station.

Enabling HSRP MIB trap support is performed through the CLI, and the MIB is used for getting the reports. A trap notifies the network management station when a device leaves or enters the active or standby state. When an entry is configured from the CLI, the RowStatus for that group in the MIB immediately goes to the active state.

Cisco software supports a read-only version of the MIB, and set operations are not supported.

This functionality supports four MIB tables, as follows:

  • cHsrpGrpEntry table defined in CISCO-HSRP-MIB.my

  • cHsrpExtIfTrackedEntry, defined in CISCO-HSRP-EXT-MIB.my

  • cHsrpExtSecAddrEntry, defined in CISCO-HSRP-EXT-MIB.my

  • cHsrpExtIfEntry defined in CISCO-HSRP-EXT-MIB.my

The cHsrpGrpEntry table consists of all the group information defined in RFC 2281, Cisco Hot Standby Router Protocol; the other tables consist of the Cisco extensions to RFC 2281, which are defined in CISCO-HSRP-EXT-MIB.my.

How to Configure HSRP

Enabling HSRP

Perform this task to enable HSRP.

The standby ip interface configuration command activates HSRP on the configured interface. If an IP address is specified, that address is used as the virtual IP address for the Hot Standby group. For HSRP to elect a designated device, you must configure the virtual IP address for at least one of the devices in the group; it can be learned on the other devices in the group.

Before You Begin

You can configure many attributes in HSRP such as authentication, timers, priority, and preemption. You should configure the attributes before enabling the HSRP group. This practice avoids authentication error messages and unexpected state changes in other routers that can occur if the group is enabled first and then there is a long enough delay (one or two hold times) before the other attribues are configured.

We recommend that you always specify an HSRP IP address.

SUMMARY STEPS

    1.    enable

    2.    configure terminal

    3.    interface type number

    4.    ip address ip-address mask

    5.    standby [group-number] ip [ip-address [secondary]]

    6.    end

    7.    show standby [all] [brief]

    8.    show standby type number [group-number | all] [brief]


DETAILED STEPS
     Command or ActionPurpose
    Step 1 enable


    Example:
    Device> enable
     

    Enables privileged EXEC mode.

    • Enter your password if prompted.

     
    Step 2 configure terminal


    Example:
    Device# configure terminal
     

    Enters global configuration mode.

     
    Step 3 interface type number


    Example:
    Device(config)# interface GigabitEthernet 0/0/0
     

    Configures an interface type and enters interface configuration mode.

     
    Step 4 ip address ip-address mask


    Example:
    Device(config-if)# ip address 172.16.6.5 255.255.255.0
     

    Configures an IP address for an interface.

     
    Step 5 standby [group-number] ip [ip-address [secondary]]


    Example:
    Device(config-if)# standby 1 ip 172.16.6.100
     
    Activates HSRP.
    • If you do not configure a group number, the default group number is 0. The group number range is from 0 to 255 for HSRP version 1 and from 0 to 4095 for HSRP version 2.

    • The value for the ip-address argument is the virtual IP address of the virtual device. For HSRP to elect a designated device, you must configure the virtual IP address for at least one of the devices in the group; it can be learned on the other devices in the group.

     
    Step 6 end


    Example:
    Device(config-if)# end
     

    Returns to privileged EXEC mode.

     
    Step 7 show standby [all] [brief]


    Example:
    Device# show standby
     

    (Optional) Displays HSRP information.

    • This command displays information for each group. The all option displays groups that are learned or that do not have the standby ip command configured.

     
    Step 8 show standby type number [group-number | all] [brief]


    Example:
    Device# show standby GigabitEthernet 0
     

    (Optional) Displays HSRP information about specific groups or interfaces.

     

    Delaying the Initialization of HSRP on an Interface

    The standby delay command is used to delay HSRP initialization either after a reload and/or after an interface comes up. This configuration allows the interface and device time to settle down after the interface up event and helps prevent HSRP state flapping.

    We recommend that you use the standby minimum reload command if the standby timers command is configured in milliseconds or if HSRP is configured on a VLAN interface.

    SUMMARY STEPS

      1.    enable

      2.    configure terminal

      3.    interface type number

      4.    ip address ip-address mask

      5.    standby delay minimum min-seconds reload reload-seconds

      6.    standby [group-number ] ip [ip-address [secondary]]

      7.    end

      8.    show standby delay [typenumber]


    DETAILED STEPS
       Command or ActionPurpose
      Step 1 enable


      Example:
      Device> enable
       

      Enables privileged EXEC mode.

      • Enter your password if prompted.

       
      Step 2 configure terminal


      Example:
      Device# configure terminal
       

      Enters global configuration mode.

       
      Step 3 interface type number


      Example:
      Device(config)# interface GigabitEthernet 1/0/0
       

      Configures an interface type and enters interface configuration mode.

       
      Step 4 ip address ip-address mask


      Example:
      Device(config-if)# ip address 10.0.0.1 255.255.255.0
       

      Specifies an IP address for an interface.

       
      Step 5 standby delay minimum min-seconds reload reload-seconds


      Example:
      Device(config-if)# standby delay minimum 30 reload 60
       

      (Optional) Configures the delay period before the initialization of HSRP groups.

      • The min-seconds value is the minimum time (in seconds) to delay HSRP group initialization after an interface comes up. This minimum delay period applies to all subsequent interface events.

      • The reload-seconds value is the time period to delay after the device has reloaded. This delay period applies only to the first interface-up event after the device has reloaded.

      Note   

      The recommended min-seconds value is 30 and the recommended reload-seconds value is 60.

       
      Step 6 standby [group-number ] ip [ip-address [secondary]]


      Example:
      Device(config-if)# standby 1 ip 10.0.0.3 255.255.255.0
       

      Activates HSRP.

       
      Step 7 end


      Example:
      Device(config-if)# end
       

      Returns to privileged EXEC mode.

       
      Step 8 show standby delay [typenumber]


      Example:
      Device# show standby delay
       

      (Optional) Displays HSRP information about delay periods.

       

      Configuring HSRP Priority and Preemption

      SUMMARY STEPS

        1.    enable

        2.    configure terminal

        3.    interface type number

        4.    ip address ip-address mask

        5.    standby [group-number] priority priority

        6.    standby [group-number] preempt [delay {minimum | reload | sync} seconds]

        7.    standby [group-number] ip ip-address [secondary]]

        8.    end

        9.    show standby [all] [brief]

        10.    show standby type number [group-number | all] [brief]


      DETAILED STEPS
         Command or ActionPurpose
        Step 1 enable


        Example:
        Device> enable
         

        Enables privileged EXEC mode.

        • Enter your password if prompted.

         
        Step 2 configure terminal


        Example:
        Device# configure terminal
         

        Enters global configuration mode.

         
        Step 3 interface type number


        Example:
        Device(config)# interface GigabitEthernet0/0/0
         

        Configures an interface type and enters interface configuration mode.

         
        Step 4 ip address ip-address mask


        Example:
        Device(config-if)# ip address 10.0.0.1 255.255.255.0
         

        Specifies an IP address for an interface.

         
        Step 5 standby [group-number] priority priority


        Example:
        Device(config-if)# standby 1 priority 110
         

        Configures HSRP priority.

        • The default priority is 100.

         
        Step 6 standby [group-number] preempt [delay {minimum | reload | sync} seconds]


        Example:
        Device(config-if)# standby 1 preempt delay minimum 380
         

        Configures HSRP preemption and preemption delay.

        • The default delay period is 0 seconds; if the device wants to preempt, it will do so immediately. By default, the device that comes up later becomes the standby.

         
        Step 7 standby [group-number] ip ip-address [secondary]]


        Example:
        Device(config-if)# standby 1 ip 10.0.0.3 255.255.255.0
         

        Activates HSRP.

         
        Step 8 end


        Example:
        Device(config-if)# end
         

        Returns to privileged EXEC mode.

         
        Step 9 show standby [all] [brief]


        Example:
        Device# show standby
         

        (Optional) Displays HSRP information.

        • This command displays information for each group. The all option displays groups that are learned or that do not have the standby ip command configured.

         
        Step 10 show standby type number [group-number | all] [brief]


        Example:
        Device# show standby GigabitEthernet 0/0/0
         

        (Optional) Displays HSRP information about specific groups or interfaces.

         

        Configuring HSRP Object Tracking

        Perform this task to configure HSRP to track an object and change the HSRP priority based on the state of the object.

        Each tracked object is identified by a unique number that is specified on the tracking CLI. Client processes use this number to track a specific object.

        SUMMARY STEPS

          1.    enable

          2.    configure terminal

          3.    track object-number interface type number {line-protocol | ip routing}

          4.    exit

          5.    interface type number

          6.    standby [group-number] track object-number [decrement priority-decrement] [shutdown]

          7.    standby [group-number] ip [ip-address [secondary]]

          8.    end

          9.    show track [object-number | brief] [interface [brief] | ip route [brief] | resolution | timers]


        DETAILED STEPS
           Command or ActionPurpose
          Step 1 enable


          Example:
          Device> enable
           

          Enables privileged EXEC mode.

          • Enter your password if prompted.

           
          Step 2 configure terminal


          Example:
          Device# configure terminal
           

          Enters global configuration mode.

           
          Step 3 track object-number interface type number {line-protocol | ip routing}


          Example:
          Device(config)# track 100 interface GigabitEthernet 0/0/0 line-protocol
           

          Configures an interface to be tracked and enters tracking configuration mode.

           
          Step 4 exit


          Example:
          Device(config-track)# exit
           

          Returns to global configuration mode.

           
          Step 5 interface type number


          Example:
          Device(config)# interface GigabitEthernet 0/0/0
           

          Configures an interface type and enters interface configuration mode.

           
          Step 6 standby [group-number] track object-number [decrement priority-decrement] [shutdown]


          Example:
          Device(config-if)# standby 1 track 100 decrement 20
           

          Configures HSRP to track an object and change the Hot Standby priority on the basis of the state of the object.

          • By default, the priority of the device is decreased by 10 if a tracked object goes down. Use the decrement priority-decrement keyword and argument combination to change the default behavior.

          • When multiple tracked objects are down and priority-decrement values have been configured, these configured priority decrements are cumulative. If tracked objects are down, but none of them were configured with priority decrements, the default decrement is 10 and it is cumulative.

          • Use the shutdown keyword to disable the HRSP group on the device when the tracked object goes down.

          Note   

          If an object is already being tracked by an HSRP group, you cannot change the configuration to use the HSRP Group Shutdown feature. You must first remove the tracking configuration using the no standby track command and then reconfigure it using the standby track command with the shutdown keyword.

           
          Step 7 standby [group-number] ip [ip-address [secondary]]


          Example:
          Device(config-if)# standby 1 ip 10.10.10.0
           
          Activates HSRP.
          • The default group number is 0. The group number range is from 0 to 255 for HSRP version 1 and from 0 to 4095 for HSRP version 2.

           
          Step 8 end


          Example:
          Device(config-if)# end
           

          Returns to privileged EXEC mode.

           
          Step 9 show track [object-number | brief] [interface [brief] | ip route [brief] | resolution | timers]


          Example:
          Device# show track 100 interface
           

          Displays tracking information.

           

          Configuring HSRP MD5 Authentication Using a Key String


          Note


          Text authentication cannot be combined with MD5 authentication for an HSRP group at any one time. When MD5 authentication is configured, the text authentication field in HSRP hello messages is set to all zeroes on transmit and ignored on receipt, provided the receiving device also has MD5 authentication enabled.



          Note


          If you are changing a key string in a group of devices, change the active device last to prevent any HSRP state change. The active device should have its key string changed no later than one hold-time period, specified by the standy timers interface configuration command, after the nonactive devices. This procedure ensures that the nonactive devices do not time out the active device.


          SUMMARY STEPS

            1.    enable

            2.    configure terminal

            3.    terminal interface type number

            4.    ip address ip-address mask [secondary]

            5.    standby [group-number] priority priority

            6.    standby [group-number] preempt [delay {minimum | reload | sync} seconds]

            7.    standby [group-number] authentication md5 key-string [0 | 7] key [timeout seconds]

            8.    standby [group-number] ip [ip-address] [secondary]]

            9.    Repeat Steps 1 through 8 on each device that will communicate.

            10.    end

            11.    show standby


          DETAILED STEPS
             Command or ActionPurpose
            Step 1 enable


            Example:
            Device> enable
             

            Enables privileged EXEC mode.

            • Enter your password if prompted.

             
            Step 2 configure terminal


            Example:
            Device# configure terminal
             

            Enters global configuration mode.

             
            Step 3 terminal interface type number


            Example:
            Device(config)# interface GigabitEthernet 0/0/0
             

            Configures an interface type and enters interface configuration mode.

             
            Step 4 ip address ip-address mask [secondary]


            Example:
            Device(config-if)# ip address 10.0.0.1 255.255.255.0
             

            Specifies a primary or secondary IP address for an interface.

             
            Step 5 standby [group-number] priority priority


            Example:
            Device(config-if)# standby 1 priority 110
             

            Configures HSRP priority.

             
            Step 6 standby [group-number] preempt [delay {minimum | reload | sync} seconds]


            Example:
            Device(config-if)# standby 1 preempt 
             

            Configures HSRP preemption.

             
            Step 7 standby [group-number] authentication md5 key-string [0 | 7] key [timeout seconds]


            Example:
            Device(config-if)# standby 1 authentication md5 key-string d00b4r987654321a timeout 30
             

            Configures an authentication string for HSRP MD5 authentication.

            • The key argument can be up to 64 characters in length. We recommended that at least 16 characters be used.

            • No prefix to the key argument or specifying 0 means the key will be unencrypted.

            • Specifying 7 means the key will be encrypted. The key-string authentication key will automatically be encrypted if the service password-encryption global configuration command is enabled.

            • The timeout value is the period of time that the old key string will be accepted to allow configuration of all routers in a group with a new key.

             
            Step 8 standby [group-number] ip [ip-address] [secondary]]


            Example:
            Device(config-if)# standby 1 ip 10.0.0.3
             

            Activates HSRP.

             
            Step 9 Repeat Steps 1 through 8 on each device that will communicate.  

             
            Step 10 end


            Example:
            Device(config-if)# end 
             

            Returns to privileged EXEC mode.

             
            Step 11 show standby


            Example:
            Device# show standby
             

            (Optional) Displays HSRP information.

            • Use this command to verify your configuration. The key string or key chain will be displayed if configured.

             

            Configuring HSRP MD5 Authentication Using a Key Chain

            Perform this task to configure HSRP MD5 authentication using a key chain. Key chains allow a different key string to be used at different times according to the key chain configuration. HSRP will query the appropriate key chain to obtain the current live key and key ID for the specified key chain.

            SUMMARY STEPS

              1.    enable

              2.    configure terminal

              3.    key chain name-of-chain

              4.    key key-id

              5.    key-string string

              6.    exit

              7.    exit

              8.    interface type number

              9.    ip address ip-address mask [secondary]

              10.    standby [group-number] priority priority

              11.    standby [group-number] preempt [delay {minimum | reload | sync} seconds]

              12.    standby [group-number] authentication md5 key-chain key-chain-name

              13.    standby [group-number] ip [ip-address [secondary]]

              14.    Repeat Steps 1 through 12 on each device that will communicate.

              15.    end

              16.    show standby


            DETAILED STEPS
               Command or ActionPurpose
              Step 1 enable


              Example:
              Device> enable
               

              Enables privileged EXEC mode.

              • Enter your password if prompted.

               
              Step 2 configure terminal


              Example:
              Device# configure terminal
               

              Enters global configuration mode.

               
              Step 3 key chain name-of-chain


              Example:
              Device(config)# key chain hsrp1
               

              Enables authentication for routing protocols, identifies a group of authentication keys, and enters key-chain configuration mode.

               
              Step 4 key key-id


              Example:
              Device(config-keychain)# key 100
               

              Identifies an authentication key on a key chain and enters key-chain key configuration mode.

              • The value for thekey-id argument must be a number.

               
              Step 5 key-string string


              Example:
              Device(config-keychain-key)# key-string mno172
               

              Specifies the authentication string for a key.

              • The value for the string argument can be 1 to 80 uppercase or lowercase alphanumeric characters; the first character cannot be a numeral

               
              Step 6 exit


              Example:
              Device(config-keychain-key)# exit
               

              Returns to key-chain configuration mode.

               
              Step 7 exit


              Example:
              Device(config-keychain)# exit
               

              Returns to global configuration mode.

               
              Step 8 interface type number


              Example:
              Device(config)# interface GigabitEthernet 0/0/0
               

              Configures an interface type and enters interface configuration mode.

               
              Step 9 ip address ip-address mask [secondary]


              Example:
              Device(config-if)# ip address 10.21.8.32 255.255.255.0
               

              Specifies a primary or secondary IP address for an interface.

               
              Step 10 standby [group-number] priority priority


              Example:
              Device(config-if)# standby 1 priority 110
               

              Configures HSRP priority.

               
              Step 11 standby [group-number] preempt [delay {minimum | reload | sync} seconds]


              Example:
              Device(config-if)# standby 1 preempt 
               

              Configures HSRP preemption.

               
              Step 12 standby [group-number] authentication md5 key-chain key-chain-name


              Example:
              Device(config-if)# standby 1 authentication md5 key-chain hsrp1
               

              Configures an authentication MD5 key chain for HSRP MD5 authentication.

              • The key chain name must match the name specified in Step 3.

               
              Step 13 standby [group-number] ip [ip-address [secondary]]


              Example:
              Device(config-if)# standby 1 ip 10.21.8.12
               

              Activates HSRP.

               
              Step 14 Repeat Steps 1 through 12 on each device that will communicate.  

               
              Step 15 end


              Example:
              Device(config-if)# end 
               

              Returns to privileged EXEC mode.

               
              Step 16 show standby


              Example:
              Device# show standby
               

              (Optional) Displays HSRP information.

              • Use this command to verify your configuration. The key string or key chain will be displayed if configured.

               

              Troubleshooting HSRP MD5 Authentication

              Perform this task if HSRP MD5 authentication is not operating correctly.

              SUMMARY STEPS

                1.    enable

                2.    debug standby errors


              DETAILED STEPS
                 Command or ActionPurpose
                Step 1 enable


                Example:
                Device> enable
                 

                Enables privileged EXEC mode.

                • Enter your password if prompted.

                 
                Step 2 debug standby errors


                Example:
                Device# debug standby errors
                 

                Displays error messages related to HSRP.

                • Error messages will be displayed for each packet that fails to authenticate, so use this command with care.

                 

                Examples

                In the following example, Device A has MD5 text string authentication configured, but Device B has the default text authentication:

                Device# debug standby errors
                
                A:Jun 16 12:14:50.337:HSRP:Et0/1 Grp 0 Auth failed for Hello pkt from 10.21.0.5, MD5 confgd but no tlv
                B:Jun 16 12:16:34.287:HSRP:Et0/1 Grp 0 Auth failed for Hello pkt from 10.21.0.4, Text auth failed
                

                In the following example, both Device A and Device B have different MD5 authentication strings:

                Device# debug standby errors
                
                A:Jun 16 12:19:26.335:HSRP:Et0/1 Grp 0 Auth failed for Hello pkt from 10.21.0.5, MD5 auth failed
                B:Jun 16 12:18:46.280:HSRP:Et0/1 Grp 0 Auth failed for Hello pkt from 10.21.0.4, MD5 auth failed

                Configuring HSRP Text Authentication

                SUMMARY STEPS

                  1.    enable

                  2.    configure terminal

                  3.    interface type number

                  4.    ip address ip-address mask [secondary]

                  5.    standby [group-number] priority priority

                  6.    standby [group-number] preempt [delay {minimum | reload | sync} seconds]

                  7.    standby [group-number] authentication text string

                  8.    standby [group-number] ip [ip-address [secondary]]

                  9.    Repeat Steps 1 through 8 on each device that will communicate.

                  10.    end

                  11.    show standby


                DETAILED STEPS
                   Command or ActionPurpose
                  Step 1 enable


                  Example:
                  Device> enable
                   

                  Enables privileged EXEC mode.

                  • Enter your password if prompted.

                   
                  Step 2 configure terminal


                  Example:
                  Device# configure terminal
                   

                  Enters global configuration mode.

                   
                  Step 3 interface type number


                  Example:
                  Device(config)# interface GigabitEthernet 0/0/0
                   

                  Configures an interface type and enters interface configuration mode.

                   
                  Step 4 ip address ip-address mask [secondary]


                  Example:
                  Device(config-if)# ip address 10.0.0.1 255.255.255.0
                   

                  Specifies a primary or secondary IP address for an interface.

                   
                  Step 5 standby [group-number] priority priority


                  Example:
                  Device(config-if)# standby 1 priority 110
                   

                  Configures HSRP priority.

                   
                  Step 6 standby [group-number] preempt [delay {minimum | reload | sync} seconds]


                  Example:
                  Device(config-if)# standby 1 preempt 
                   

                  Configures HSRP preemption.

                   
                  Step 7 standby [group-number] authentication text string


                  Example:
                  Device(config-if)# standby 1 authentication text authentication1
                   

                  Configures an authentication string for HSRP text authentication.

                  • The default string is cisco.

                   
                  Step 8 standby [group-number] ip [ip-address [secondary]]


                  Example:
                  Device(config-if)# standby 1 ip 10.0.0.3
                   

                  Activates HSRP.

                   
                  Step 9 Repeat Steps 1 through 8 on each device that will communicate.  

                  --

                   
                  Step 10 end


                  Example:
                  Device(config-if)# end 
                   

                  Returns to privileged EXEC mode.

                   
                  Step 11 show standby


                  Example:
                  Device# show standby
                   

                  (Optional) Displays HSRP information.

                  • Use this command to verify your configuration. The key string or key chain will be displayed if configured.

                   

                  Configuring HSRP Timers


                  Note


                  We recommend configuring a minimum hello-time value of 250 milliseconds and a minimum hold-time value of 800 milliseconds.


                  You can use the standby delay command to allow the interface to come up completely before HSRP initializes.
                  SUMMARY STEPS

                    1.    enable

                    2.    configure terminal

                    3.    interface type number

                    4.    ip address ip-address mask [secondary]]

                    5.    standby [group-number] timers [msec] hellotime [msec] holdtime

                    6.    standby [group-number] ip [ip-address [secondary]]


                  DETAILED STEPS
                     Command or ActionPurpose
                    Step 1 enable


                    Example:
                    Device> enable
                     

                    Enables privileged EXEC mode.

                    • Enter your password if prompted.

                     
                    Step 2 configure terminal


                    Example:
                    Device# configure terminal
                     

                    Enters global configuration mode.

                     
                    Step 3 interface type number


                    Example:
                    Device(config)# interface Gigabit Ethernet 0/0/1
                     

                    Configures an interface type and enters interface configuration mode.

                     
                    Step 4 ip address ip-address mask [secondary]]


                    Example:
                    Device(config-if)# ip address 10.0.0.1 255.255.255.0
                     

                    Specifies a primary or secondary IP address for an interface.

                     
                    Step 5 standby [group-number] timers [msec] hellotime [msec] holdtime


                    Example:
                    Device(config-if)# standby 1 timers 5 15
                     

                    Configures the time between hello packets and the time before other devices declare the active Hot Standby or standby device to be down.

                     
                    Step 6 standby [group-number] ip [ip-address [secondary]]


                    Example:
                    Device(config-if)# standby 1 ip 10.0.0.3
                     

                    Activates HSRP.

                     

                    Configuring an HSRP MAC Refresh Interval

                    SUMMARY STEPS

                      1.    enable

                      2.    configure terminal

                      3.    interface type number

                      4.    ip address ip-address mask [secondary]

                      5.    standby mac-refresh seconds

                      6.    standby [group-number] ip [ip-address [secondary]]


                    DETAILED STEPS
                       Command or ActionPurpose
                      Step 1 enable


                      Example:
                      Device> enable
                       

                      Enables privileged EXEC mode.

                      • Enter your password if prompted.

                       
                      Step 2 configure terminal


                      Example:
                      Device# configure terminal
                       

                      Enters global configuration mode.

                       
                      Step 3 interface type number


                      Example:
                      Device(config)# interface GigabitEthernet 0/0/1
                       

                      Configures an interface type and enters interface configuration mode.

                       
                      Step 4 ip address ip-address mask [secondary]


                      Example:
                      Device(config-if)# ip address 10.0.0.1 255.255.255.0
                       

                      Specifies a primary or secondary IP address for an interface.

                       
                      Step 5 standby mac-refresh seconds


                      Example:
                      Device(config-if)# standby mac-refresh 100
                       

                      Changes the interval at which packets are sent to refresh the MAC cache when HSRP is running over FDDI.

                      • This command applies to HSRP running over FDDI only.

                       
                      Step 6 standby [group-number] ip [ip-address [secondary]]


                      Example:
                      Device(config-if)# standby 1 ip 10.0.0.3
                       

                      Activates HSRP.

                       

                      Configuring Multiple HSRP Groups for Load Balancing

                      Perform this task to configure multiple HSRP groups for load balancing.

                      Multiple HSRP groups enable redundancy and load-sharing within networks and allow redundant devices to be more fully utilized. A device actively forwarding traffic for one HSRP group can be in standby or in the listen state for another group.

                      If two devices are used, then Device A would be configured as active for group 1 and standby for group 2. Device B would be standby for group 1 and active for group 2. Fifty percent of the hosts on the LAN would be configured with the virtual IP address of group 1 and the remaining hosts would be configured with the virtual IP address of group 2. See the Example: Multiple HSRP for Load Balancing section for a diagram and configuration example.

                      SUMMARY STEPS

                        1.    enable

                        2.    configure terminal

                        3.    interface type number

                        4.    ip address ip-address mask [secondary]

                        5.    standby [group-number] priority priority

                        6.    standby [group-number] preempt [delay {minimum | reload | sync} delay]

                        7.    standby [group-number] ip [ip-address] secondary]

                        8.    On the same device, repeat Steps 5 through 7 to configure the device attributes for different standby groups.

                        9.    exit

                        10.    Repeat Steps 3 through 9 on another device.


                      DETAILED STEPS
                         Command or ActionPurpose
                        Step 1 enable


                        Example:
                        Device> enable
                         

                        Enables privileged EXEC mode.

                        • Enter your password if prompted.

                         
                        Step 2 configure terminal


                        Example:
                        Device# configure terminal
                         

                        Enters global configuration mode.

                         
                        Step 3 interface type number


                        Example:
                        Device(config)# interface GigabitEthernet 0/0/0
                         

                        Configures an interface type and enters interface configuration mode.

                         
                        Step 4 ip address ip-address mask [secondary]


                        Example:
                        Device(config-if)# ip address 10.0.0.1 255.255.255.0
                         

                        Specifies a primary or secondary IP address for an interface.

                         
                        Step 5 standby [group-number] priority priority


                        Example:
                        Device(config-if)# standby 1 priority 110
                         

                        Configures HSRP priority.

                         
                        Step 6 standby [group-number] preempt [delay {minimum | reload | sync} delay]


                        Example:
                        Device(config-if)# standby 1 preempt 
                         

                        Configures HSRP preemption.

                         
                        Step 7 standby [group-number] ip [ip-address] secondary]


                        Example:
                        Device(config-if)# standby 1 ip 10.0.0.3
                         

                        Activates HSRP.

                         
                        Step 8 On the same device, repeat Steps 5 through 7 to configure the device attributes for different standby groups.  

                        For example, Device A can be configured as an active device for group 1 and be configured as an active or standby device for another HSRP group with different priority and preemption values.

                         
                        Step 9 exit


                        Example:
                        Device(config-if)# exit
                         

                        Exits to global configuration mode.

                         
                        Step 10 Repeat Steps 3 through 9 on another device.  

                        Configures multiple HSRP and enables load balancing on another device.

                         

                        Improving CPU and Network Performance with HSRP Multiple Group Optimization

                        Perform this task to configure multiple HSRP client groups.

                        The standby follow command configures an HSRP group to become a slave of another HSRP group.

                        HSRP client groups follow the master HSRP with a slight, random delay so that all client groups do not change at the same time.

                        Use the standby mac-refresh seconds command to directly change the HSRP client group refresh interval. The default interval is 10 seconds and can be configured to as much as 255 seconds.


                        Note


                        • Client or slave groups must be on the same physical interface as the master group.
                        • A client group takes its state from the group it is following. Therefore, the client group does not use its timer, priority, or preemption settings. A warning is displayed if these settings are configured on a client group:
                        Device(config-if)# standby 1 priority 110
                        %Warning: This setting has no effect while following another group.
                        Device(config-if)# standby 1 timers 5 15
                            % Warning: This setting has no effect while following another group.
                        Device(config-if)# standby 1 preempt delay minimum 300
                            % Warning: This setting has no effect while following another group.

                        Before You Begin

                        Configure the HSRP master group using the steps in the Configuring Multiple HSRP Groups for Load Balancing section.

                        SUMMARY STEPS

                          1.    enable

                          2.    configure terminal

                          3.    interface type number

                          4.    ip address ip-address mask [secondary]

                          5.    standby mac-refresh seconds

                          6.    standby group-number follow group-name

                          7.    exit

                          8.    Repeat Steps 3 through 6 to configure additional HSRP client groups.


                        DETAILED STEPS
                           Command or ActionPurpose
                          Step 1 enable


                          Example:
                          Device> enable
                           

                          Enables privileged EXEC mode.

                          • Enter your password if prompted.

                           
                          Step 2 configure terminal


                          Example:
                          Device# configure terminal
                           

                          Enters global configuration mode.

                           
                          Step 3 interface type number


                          Example:
                          Device(config)# interface GigabitEthernet 0/0/0
                           

                          Configures an interface type and enters interface configuration mode.

                           
                          Step 4 ip address ip-address mask [secondary]


                          Example:
                          Device(config-if)# ip address 10.0.0.1 255.255.255.0
                           

                          Specifies a primary or secondary IP address for an interface.

                           
                          Step 5 standby mac-refresh seconds


                          Example:
                          Device(config-if)# standby mac-refresh 30
                           

                          Configures the HSRP client group refresh interval.

                           
                          Step 6 standby group-number follow group-name


                          Example:
                          Device(config-if)# standby 1 follow HSRP1
                           

                          Configures an HSRP group as a client group.

                           
                          Step 7 exit


                          Example:
                          Device(config-if)# exit
                           

                          Exits to global configuration mode.

                           
                          Step 8 Repeat Steps 3 through 6 to configure additional HSRP client groups.  

                          Configures multiple HSRP client groups.

                           

                          Enabling HSRP Support for ICMP Redirect Messages

                          By default, HSRP filtering of ICMP redirect messages is enabled on devices running HSRP. Perform this task to reenable this feature on your device if it is disabled.

                          SUMMARY STEPS

                            1.    enable

                            2.    configure terminal

                            3.    interface type number

                            4.    standby redirect [timers advertisement holddown] [unknown]

                            5.    end

                            6.    show standby redirect [ip-address] [interface-type interface-number] [active] [passive] [timers]


                          DETAILED STEPS
                             Command or ActionPurpose
                            Step 1 enable


                            Example:
                            Device> enable
                             

                            Enables privileged EXEC mode.

                            • Enter your password if prompted.

                             
                            Step 2 configure terminal


                            Example:
                            Device# configure terminal
                             

                            Enters global configuration mode.

                             
                            Step 3 interface type number


                            Example:
                            Device(config)# interface GigabitEthernet 0/0/0
                             

                            Configures an interface type and enters interface configuration mode.

                             
                            Step 4 standby redirect [timers advertisement holddown] [unknown]


                            Example:
                            Device(config-if)# standby redirect
                             

                            Enables HSRP filtering of ICMP redirect messages.

                            • You can also use this command in global configuration mode, which enables HSRP filtering of ICMP redirect messages on all interfaces configured for HSRP.

                             
                            Step 5 end


                            Example:
                            Device(config-if)# end
                             

                            Returns to privileged EXEC mode.

                             
                            Step 6 show standby redirect [ip-address] [interface-type interface-number] [active] [passive] [timers]


                            Example:
                            Device# show standby redirect
                             

                            (Optional) Displays ICMP redirect information on interfaces configured with HSRP.

                             

                            Configuring HSRP Virtual MAC Addresses or BIA MAC Addresses


                            Note


                            You cannot use the standby use-bia and standby mac-address commands in the same configuration; they are mutually exclusive.

                            The standby use-bia command has the following disadvantages:

                            • When a device becomes active the virtual IP address is moved to a different MAC address. The newly active device sends a gratuitous ARP response, but not all host implementations handle the gratuitous ARP correctly.

                            • Proxy ARP does not function when the standby use-bia command is configured. A standby device cannot cover for the lost proxy ARP database of the failed device.


                            SUMMARY STEPS

                              1.    enable

                              2.    configure terminal

                              3.    interface type number

                              4.    ip address ip-address mask [secondary]

                              5.    Enter one of the following commands:

                              • standby [group-number] mac-address mac-address
                              • or
                              • standby use-bia [scope interface]
                              • or

                              6.    standby [group-number] ip [ip-address [secondary]]


                            DETAILED STEPS
                               Command or ActionPurpose
                              Step 1 enable


                              Example:
                              Device> enable
                               

                              Enables privileged EXEC mode.

                              • Enter your password if prompted.

                               
                              Step 2 configure terminal


                              Example:
                              Device# configure terminal
                               

                              Enters global configuration mode.

                               
                              Step 3 interface type number


                              Example:
                              Device(config)# interface GigabitEthernet 0/0/0
                               

                              Configures an interface type and enters interface configuration mode.

                               
                              Step 4 ip address ip-address mask [secondary]


                              Example:
                              Device(config-if)# ip address 172.16.6.5 255.255.255.0
                               

                              Configures an IP address for an interface.

                               
                              Step 5Enter one of the following commands:
                              • standby [group-number] mac-address mac-address
                              • or
                              • standby use-bia [scope interface]
                              • or


                              Example:
                              Device(config-if)# standby 1 mac-address 5000.1000.1060


                              Example:
                              Device(config-if)# standby use-bia
                               

                              Specifies a virtual MAC address for HSRP.

                              • This command cannot be used on a Token Ring interface.

                              or

                              Configures HSRP to use the burned-in address of the interface as its virtual MAC address.

                              • The scope interface keywords specify that the command is configured just for the subinterface on which it was entered, instead of the major interface.

                               
                              Step 6 standby [group-number] ip [ip-address [secondary]]


                              Example:
                              Device(config-if)# standby 1 ip 172.16.6.100
                               

                              Activates HSRP.

                               

                              Linking IP Redundancy Clients to HSRP Groups

                              Before You Begin

                              Within the client application, you must first specify the same name as configured in the standby name command.

                              SUMMARY STEPS

                                1.    enable

                                2.    configure terminal

                                3.    interface type number

                                4.    ip address ip-address mask

                                5.    standby [group-number] name [redundancy-name]

                                6.    standby [group-number] ip [ip-address [secondary]]


                              DETAILED STEPS
                                 Command or ActionPurpose
                                Step 1 enable


                                Example:
                                Device> enable
                                 

                                Enables privileged EXEC mode.

                                • Enter your password if prompted.

                                 
                                Step 2 configure terminal


                                Example:
                                Device# configure terminal
                                 

                                Enters global configuration mode.

                                 
                                Step 3 interface type number


                                Example:
                                Device(config)# interface Ethernet 0/1
                                 

                                Configures an interface type and enters interface configuration mode.

                                 
                                Step 4 ip address ip-address mask


                                Example:
                                Device(config-if)# ip address 10.0.0.1 255.255.255.0
                                 

                                Specifies an IP address for an interface.

                                 
                                Step 5 standby [group-number] name [redundancy-name]


                                Example:
                                Device(config-if)# standby 1 name HSRP-1
                                 

                                Configures the name of the standby group.

                                • HSRP groups have a default name of hsrp-interface-group so specifying a group name is optional.

                                 
                                Step 6 standby [group-number] ip [ip-address [secondary]]


                                Example:
                                Device(config-if)# standby 1 ip 10.0.0.11
                                 

                                Activates HSRP.

                                 

                                Changing to HSRP Version 2

                                HSRP version 2 was introduced to prepare for further enhancements and to expand the capabilities beyond what is possible with HSRP version 1. HSRP version 2 has a different packet format than HSRP version 1.


                                Note


                                • HSRP version 2 is not available for ATM interfaces running LAN emulation.
                                • HSRP version 2 will not interoperate with HSRP version 1. An interface cannot operate both version 1 and version 2 because both versions are mutually exclusive. However, the different versions can be run on different physical interfaces of the same device. You cannot change from version 2 to version 1 if you have configured groups above the group number range allowed for version 1 (0 to 255).

                                SUMMARY STEPS

                                  1.    enable

                                  2.    configure terminal

                                  3.    interface type number

                                  4.    ip address ip-address mask

                                  5.    standby version {1 | 2}

                                  6.    standby [group-number] ip [ip-address [secondary]]

                                  7.    end

                                  8.    show standby


                                DETAILED STEPS
                                   Command or ActionPurpose
                                  Step 1 enable


                                  Example:
                                  Device> enable
                                   

                                  Enables privileged EXEC mode.

                                  • Enter your password if prompted.

                                   
                                  Step 2 configure terminal


                                  Example:
                                  Device# configure terminal
                                   

                                  Enters global configuration mode.

                                   
                                  Step 3 interface type number


                                  Example:
                                  Device(config)# interface vlan 400
                                   

                                  Configures an interface type and enters interface configuration mode.

                                   
                                  Step 4 ip address ip-address mask


                                  Example:
                                  Device(config-if)# ip address 10.10.28.1 255.255.255.0
                                   

                                  Sets an IP address for an interface.

                                   
                                  Step 5 standby version {1 | 2}


                                  Example:
                                  Device(config-if)# standby version 2 
                                   

                                  Changes the HSRP version.

                                   
                                  Step 6 standby [group-number] ip [ip-address [secondary]]


                                  Example:
                                  Device(config-if)# standby 400 ip 10.10.28.5
                                   

                                  Activates HSRP.

                                  • The group number range for HSRP version 2 is 0 through 4095. The group number range for HSRP version 1 is 0 through 255.

                                   
                                  Step 7 end


                                  Example:
                                  Device(config-if)# end
                                   

                                  Ends the current configuration session and returns to privileged EXEC mode.

                                   
                                  Step 8 show standby


                                  Example:
                                  Device# show standby
                                   

                                  (Optional) Displays HSRP information.

                                  • HSRP version 2 information will be displayed if configured.

                                   

                                  Enabling SSO Aware HSRP

                                  The SSO aware HSRP is enabled by default when the redundancy mode is set to SSO. Perform this task to reenable HSRP to be SSO aware if it has been disabled.


                                  Note


                                  You may want to disable SSO HSRP by using the no standby sso command if you have LAN segments that should switch HSRP traffic to a redundant device while SSO maintains traffic flow for other connections.


                                  SUMMARY STEPS

                                    1.    enable

                                    2.    configure terminal

                                    3.    redundancy

                                    4.    mode sso

                                    5.    exit

                                    6.    no standby sso

                                    7.    standby sso

                                    8.    end


                                  DETAILED STEPS
                                     Command or ActionPurpose
                                    Step 1 enable


                                    Example:
                                    Device> enable
                                     

                                    Enables privileged EXEC mode.

                                    • Enter your password if prompted.

                                     
                                    Step 2 configure terminal


                                    Example:
                                    Device# configure terminal
                                     

                                    Enters global configuration mode.

                                     
                                    Step 3 redundancy


                                    Example:
                                    Device(config)# redundancy
                                     

                                    Enters redundancy configuration mode.

                                     
                                    Step 4 mode sso


                                    Example:
                                    Device(config-red)# mode sso
                                     

                                    Enables the redundancy mode of operation to SSO.

                                    • HSRP is SSO aware on interfaces that are configured for HSRP and the standby RP is automatically reset.

                                     
                                    Step 5 exit


                                    Example:
                                    Device(config-red)# exit
                                     

                                    Exits redundancy configuration mode.

                                     
                                    Step 6 no standby sso


                                    Example:
                                    Device(config)# no standby sso
                                     

                                    Disables HSRP SSO mode for all HSRP groups.

                                     
                                    Step 7 standby sso


                                    Example:
                                    Device(config)# standby sso
                                     

                                    Enables the SSO HSRP feature if you have disabled the functionality.

                                     
                                    Step 8 end


                                    Example:
                                    Device(config)# end
                                     

                                    Ends the current configuration session and returns to privileged EXEC mode.

                                     

                                    Verifying SSO Aware HSRP

                                    To verify or debug HSRP SSO operation, perform the following steps from the active RP console.

                                    SUMMARY STEPS

                                      1.    show standby

                                      2.    debug standby events ha


                                    DETAILED STEPS
                                      Step 1   show standby

                                      Use the show standby command to display the state of the standby RP, for example:



                                      Example:
                                      Device# show standby 
                                      
                                      GigabitEthernet0/0/0 - Group 1
                                       State is Active (standby RP)
                                       Virtual IP address is 10.1.0.7
                                       Active virtual MAC address is unknown
                                        Local virtual MAC address is 000a.f3fd.5001 (bia)
                                       Hello time 1 sec, hold time 3 sec
                                       Authentication text “authword”
                                       Preemption enabled
                                       Active router is unknown
                                       Standby router is unknown
                                       Priority 110 (configured 120)
                                        Track object 1 state Down decrement 10
                                       Group name is “name1” (cfgd)
                                      
                                      Step 2   debug standby events ha

                                      Use thedebug standby events ha command to display the active and standby RPs, for example:



                                      Example:
                                      Device# debug standby events ha
                                      
                                      !Active RP
                                      *Apr 27 04:13:47.755: HSRP: Gi0/0/1 Grp 101 RF Encode state Listen into sync buffer
                                      *Apr 27 04:13:47.855: HSRP: CF Sync send ok
                                      *Apr 27 04:13:57.755: HSRP: Gi0/0/1 Grp 101 RF Encode state Speak into sync buffer
                                      *Apr 27 04:13:57.855: HSRP: CF Sync send ok
                                      *Apr 27 04:14:07.755: HSRP: Gi0/0/1 Grp 101 RF Encode state Standby into sync buffer
                                      *Apr 27 04:14:07.755: HSRP: Gi0/0/1 Grp 101 RF Encode state Active into sync buffer
                                      *Apr 27 04:14:07.863: HSRP: CF Sync send ok
                                      *Apr 27 04:14:07.867: HSRP: CF Sync send ok
                                      !Standby RP
                                      *Apr 27 04:11:21.011: HSRP: RF CF client 32, entity 0 got msg len 24
                                      *Apr 27 04:11:21.011: HSRP: Gi0/0/1 Grp 101 RF sync state Init -> Listen
                                      *Apr 27 04:11:31.011: HSRP: RF CF client 32, entity 0 got msg len 24
                                      *Apr 27 04:11:31.011: HSRP: Gi0/0/1 Grp 101 RF sync state Listen -> Speak
                                      *Apr 27 04:11:41.071: HSRP: RF CF client 32, entity 0 got msg len 24
                                      *Apr 27 04:11:41.071: HSRP: RF CF client 32, entity 0 got msg len 24
                                      *Apr 27 04:11:41.071: HSRP: Gi0/0/1 Grp 101 RF sync state Speak -> Standby
                                      *Apr 27 04:11:41.071: HSRP: Gi0/0/1 Grp 101 RF sync state Standby -> Active
                                      

                                      Enabling HSRP MIB Traps

                                      SUMMARY STEPS

                                        1.    enable

                                        2.    configure terminal

                                        3.    snmp-server enable traps hsrp

                                        4.    snmp-server host host community-string hsrp


                                      DETAILED STEPS
                                         Command or ActionPurpose
                                        Step 1 enable


                                        Example:
                                        Device> enable
                                         

                                        Enables privileged EXEC mode.

                                        • Enter your password if prompted.

                                         
                                        Step 2 configure terminal


                                        Example:
                                        Device# configure terminal
                                         

                                        Enters global configuration mode.

                                         
                                        Step 3 snmp-server enable traps hsrp


                                        Example:
                                        Device(config)# snmp-server enable traps hsrp
                                         

                                        Enables the device to send SNMP traps and informs, and HSRP notifications.

                                         
                                        Step 4 snmp-server host host community-string hsrp


                                        Example:
                                        Device(config)# snmp-server host myhost.comp.com public hsrp
                                         

                                        Specifies the recipient of an SNMP notification operation, and that HSRP notifications be sent to the host.

                                         

                                        Configuring BFD Session Parameters on an Interface

                                        Perform this task to configure Bidirectional Forwarding Detection (BFD) on an interface by setting the baseline BFD session parameters on the interface. Repeat the steps in this task for each interface on which you want to run BFD sessions to BFD neighbors.

                                        SUMMARY STEPS

                                          1.    enable

                                          2.    configure terminal

                                          3.    interface type number

                                          4.    bfd interval milliseconds min_rx milliseconds multiplier interval-multiplier

                                          5.    end


                                        DETAILED STEPS
                                           Command or ActionPurpose
                                          Step 1 enable


                                          Example:
                                          Device> enable
                                           

                                          Enables privileged EXEC mode.

                                          • Enter your password if prompted.

                                           
                                          Step 2 configure terminal


                                          Example:
                                          Device# configure terminal
                                           

                                          Enters global configuration mode.

                                           
                                          Step 3 interface type number


                                          Example:
                                          Device(config)# interface FastEthernet 6/0
                                           

                                          Enters interface configuration mode.

                                           
                                          Step 4 bfd interval milliseconds min_rx milliseconds multiplier interval-multiplier


                                          Example:
                                          Device(config-if)# bfd interval 50 min_rx 50 multiplier 5
                                           

                                          Enables BFD on the interface.

                                           
                                          Step 5 end


                                          Example:
                                          Device(config-if)# end
                                           

                                          Exits interface configuration mode.

                                           

                                          Configuring HSRP BFD Peering

                                          Perform this task to enable Hot Standby Router Protocol (HSRP) Bidirectional Forwarding Detection (BFD) peering. Repeat the steps in this task for each interface over which you want to run BFD sessions to HSRP peers.

                                          HSRP supports BFD peering by default. If HSRP BFD peering is disabled, you can reenable it at the device level to enable BFD support globally for all interfaces or you can reenable it on a per-interface basis at the interface level.

                                          Before You Begin

                                          Before you proceed with this task:

                                          • HSRP must be running on all participating devices.

                                          • Cisco Express Forwarding must be enabled.

                                          SUMMARY STEPS

                                            1.    enable

                                            2.    configure terminal

                                            3.    ip cef [distributed]

                                            4.    interface type number

                                            5.    ip address ip-address mask

                                            6.    standby [group-number] ip [ip-address [secondary]]

                                            7.    standby bfd

                                            8.    exit

                                            9.    standby bfd all-interfaces

                                            10.    exit

                                            11.    show standby [neighbors]


                                          DETAILED STEPS
                                             Command or ActionPurpose
                                            Step 1 enable


                                            Example:
                                            Device> enable
                                             

                                            Enables privileged EXEC mode.

                                            • Enter your password if prompted.

                                             
                                            Step 2 configure terminal


                                            Example:
                                            Device# configure terminal
                                             

                                            Enters global configuration mode.

                                             
                                            Step 3 ip cef [distributed]


                                            Example:
                                            Device(config)# ip cef
                                             

                                            Enables Cisco Express Forwarding or distributed Cisco Express Forwarding.

                                             
                                            Step 4 interface type number


                                            Example:
                                            Device(config)# interface FastEthernet 6/0
                                             

                                            Enters interface configuration mode.

                                             
                                            Step 5 ip address ip-address mask


                                            Example:
                                            Device(config-if)# ip address 10.0.0.11 255.255.255.0
                                             

                                            Configures an IP address for the interface.

                                             
                                            Step 6 standby [group-number] ip [ip-address [secondary]]


                                            Example:
                                            Device(config-if)# standby 1 ip 10.0.0.11
                                             

                                            Activates HSRP.

                                             
                                            Step 7 standby bfd


                                            Example:
                                            Device(config-if)# standby bfd
                                             

                                            (Optional) Enables HSRP support for BFD on the interface.

                                             
                                            Step 8 exit


                                            Example:
                                            Device(config-if)# exit
                                             

                                            Exits interface configuration mode.

                                             
                                            Step 9 standby bfd all-interfaces


                                            Example:
                                            Device(config)# standby bfd all-interfaces
                                             

                                            (Optional) Enables HSRP support for BFD on all interfaces.

                                             
                                            Step 10 exit


                                            Example:
                                            Device(config)# exit
                                             

                                            Exits global configuration mode.

                                             
                                            Step 11 show standby [neighbors]


                                            Example:
                                            Device# show standby neighbors
                                             

                                            (Optional) Displays information about HSRP support for BFD.

                                             

                                            Verifying HSRP BFD Peering

                                            To verify Hot Standby Router Protocol (HSRP) Bidirectional Forwarding Detection (BFD) peering, use any of the following optional commands.

                                            SUMMARY STEPS

                                              1.    show standby

                                              2.    show standby brief

                                              3.    show standby neighbors [type number]

                                              4.    show bfd neighbors

                                              5.    show bfd neighbors details


                                            DETAILED STEPS
                                              Step 1   show standby

                                              Use the show standby command to display HSRP information.



                                              Example:
                                              Device# show standby
                                              
                                              FastEthernet2/0 - Group 1
                                                State is Active
                                                  2 state changes, last state change 00:08:06
                                                Virtual IP address is 10.0.0.11
                                                Active virtual MAC address is 0000.0c07.ac01
                                                  Local virtual MAC address is 0000.0c07.ac01 (v1 default)
                                                Hello time 3 sec, hold time 10 sec
                                                  Next hello sent in 2.772 secs
                                                Preemption enabled
                                                Active router is local
                                                Standby router is 10.0.0.2, priority 90 (expires in 8.268 sec)
                                                  BFD enabled ! 
                                                Priority 110 (configured 110)
                                                  Group name is "hsrp-Fa2/0-1" (default)
                                              
                                              Step 2   show standby brief

                                              Use the show standby brief command to display HSRP standby device information in brief.



                                              Example:
                                              Device# show standby brief
                                              
                                              Interface   Grp  Pri P State   Active  Standby                     Virtual IP
                                              
                                              Et0/0       4    120 P Active  local   172.24.1.2                  172.24.1.254
                                              Et1/0       6    120 P Active  local   FE80::A8BB:CCFF:FE00:3401   FE80::5:73FF:FEA0:6 
                                              
                                              
                                              Step 3   show standby neighbors [type number]

                                              Use the show standby neighbors command to display information about HSRP peer devices on an interface.



                                              Example:
                                              Device1# show standby neighbors
                                              
                                              HSRP neighbors on FastEthernet2/0
                                                  10.1.0.22
                                                  No active groups
                                                  Standby groups: 1
                                                  BFD enabled !
                                              
                                              Device2# show standby neighbors
                                              
                                              HSRP neighbors on FastEthernet2/0
                                                  10.0.0.2
                                                  Active groups: 1
                                                  No standby groups
                                                  BFD enabled !
                                              
                                              Step 4   show bfd neighbors

                                              Use the show bfd neighbors command to display a line-by-line listing of existing Bidirectional Forwarding Detection (BFD) adjacencies.



                                              Example:
                                              Device# show bfd neighbors
                                              
                                              IPv6 Sessions
                                              
                                              NeighAddr                              LD/RD         RH/RS     State     Int
                                              
                                              FE80::A8BB:CCFF:FE00:3401               4/3          Up        Up        Et1/0
                                              FE80::A8BB:CCFF:FE00:3401               4/3          Up        Up        Et1/0
                                              
                                              
                                              Step 5   show bfd neighbors details

                                              Use the details keyword to display BFD protocol parameters and timers for each neighbor.



                                              Example:
                                              Device# show bfd neighbors details
                                              
                                              OurAddr       NeighAddr     LD/RD  RH/RS   Holdown(mult)  State     Int
                                              10.0.0.2      10.0.0.1       5/0    Down      0    (0 )   Down      Fa2/0
                                              Local Diag: 0, Demand mode: 0, Poll bit: 0
                                              MinTxInt: 1000000, MinRxInt: 1000000, Multiplier: 3
                                              Received MinRxInt: 0, Received Multiplier: 0
                                              Holdown (hits): 0(0), Hello (hits): 1000(55)
                                              Rx Count: 0, Rx Interval (ms) min/max/avg: 0/0/0 last: 3314120 ms ago
                                              Tx Count: 55, Tx Interval (ms) min/max/avg: 760/1000/872 last: 412 ms ago
                                              Registered protocols: HSRP !
                                              Last packet: Version: 1            - Diagnostic: 0
                                                           State bit: AdminDown  - Demand bit: 0
                                                           Poll bit: 0           - Final bit: 0
                                                           Multiplier: 0         - Length: 0
                                                           My Discr.: 0          - Your Discr.: 0
                                                           Min tx interval: 0    - Min rx interval: 0
                                                           Min Echo interval: 0

                                              Configuration Examples for HSRP

                                              Example: Configuring HSRP Priority and Preemption

                                              In the following example, Device A is configured to be the active device for group 1 because it has the higher priority and standby device for group 2. Device B is configured to be the active device for group 2 and standby device for group 1.

                                              Device A Configuration

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.1.0.21 255.255.0.0
                                              Device(config-if)# standby 1 priority 110
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 ip 10.1.0.1
                                              Device(config-if)# standby 2 priority 95
                                              Device(config-if)# standby 2 preempt
                                              Device(config-if)# standby 2 ip 10.1.0.2
                                              

                                              Device B Configuration

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.1.0.22 255.255.0.0
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 priority 105
                                              Device(config-if)# standby 1 ip 10.1.0.1
                                              Device(config-if)# standby 2 priority 110
                                              Device(config-if)# standby 2 preempt
                                              Device(config-if)# standby 2 ip 10.1.0.2
                                              

                                              Example: Configuring HSRP Object Tracking

                                              In the following example, the tracking process is configured to track the IP-routing capability of serial interface 1/0. HSRP on Gigabit Ethernet interface 0/0/0 then registers with the tracking process to be informed of any changes to the IP-routing state of serial interface 1/0. If the IP state on serial interface 1/0 goes down, the priority of the HSRP group is reduced by 10.

                                              If both serial interfaces are operational, Device A will be the HSRP active device because it has the higher priority. However, if IP routing on serial interface 1/0 in Device A fails, the HSRP group priority will be reduced and Device B will take over as the active device, thus maintaining a default virtual gateway service to hosts on the 10.1.0.0 subnet.

                                              Device A Configuration

                                              Device(config)# track 100 interface serial 1/0/0 ip routing
                                              !
                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.1.0.21 255.255.0.0
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 priority 110
                                              Device(config-if)# standby 1 track 100 decrement 10
                                              Device(config-if)# standby 1 ip 10.1.0.1
                                              

                                              Device B Configuration

                                              Device(config)# track 100 interface serial 1/0/0 ip routing
                                              !
                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.1.0.22 255.255.0.0
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 priority 105
                                              Device(config-if)# standby 1 track 100 decrement 10
                                              Device(config-if)# standby 1 ip 10.1.0.1
                                              

                                              Example: Configuring HSRP Group Shutdown

                                              In the following example, the tracking process is configured to track the IP-routing capability of Gigabit Ethernet interface 0/0/0. HSRP on Gigabit Ethernet interface 0/0/1 then registers with the tracking process to be informed of any changes to the IP-routing state of Gigabit Ethernet interface 0/0/0. If the IP state on Gigabit Ethernet interface 0/0/0 goes down, the HSRP group is disabled.

                                              If both Gigabit Ethernet interfaces are operational, Device A will be the HSRP active device because it has the higher priority. However, if IP routing on Gigabit Ethernet interface 0/0/0 in Device A fails, the HSRP group will be disabled and Device B will take over as the active device, thus maintaining a default virtual gateway service to hosts on the 10.1.0.0 subnet.

                                              Device A Configuration

                                              Device(config)# track 100 interface GigabitEthernet 0/0/0 ip routing 
                                              !
                                              Device(config)# interface GigabitEthernet 0/0/1
                                              Device(config-if)# ip address 10.1.0.21 255.255.0.0
                                              Device(config-if)# standby 1 ip 10.1.0.1
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 priority 110
                                              Device(config-if)# standby 1 track 100 shutdown
                                              

                                              Device B Configuration

                                              Device(config)# track 100 interface GigabitEthernet 0/0/0 ip routing 
                                              !
                                              Device(config)# interface GigabitEthernet 0/0/1
                                              Device(config-if)# ip address 10.1.0.22 255.255.0.0
                                              Device(config-if)# standby 1 ip 10.1.0.1
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 priority 105
                                              Device(config-if)# standby 1 track 100 shutdown
                                              

                                              If an object is already being tracked by an HSRP group, you cannot change the configuration to use the HSRP Group Shutdown feature. You must first remove the tracking configuration using the no standby track command and then reconfigure it using the standby track command with the shutdown keyword.

                                              The following example shows how to change the configuration of a tracked object to include the HSRP Group Shutdown feature:

                                              Device(config)# no standby 1 track 100 decrement 10
                                              Device(config)# standby 1 track 100 shutdown
                                              

                                              Example: Configuring HSRP MD5 Authentication Using Key Strings

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# standby 1 priority 110
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 authentication md5 key-string 54321098452103ab timeout 30
                                              Device(config-if)# standby 1 ip 10.21.0.10
                                              

                                              Example: Configuring HSRP MD5 Authentication Using Key Chains

                                              In the following example, HSRP queries the key chain “hsrp1” to obtain the current live key and key ID for the specified key chain:

                                              Device(config)# key chain hsrp1
                                              Device(config-keychain)# key 1
                                              Device(config-keychain-key)# key-string 54321098452103ab
                                              Device(config-keychain-key)# exit
                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# standby 1 priority 110
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 authentication md5 key-chain hsrp1
                                              Device(config-if)# standby 1 ip 10.21.0.10
                                              

                                              Example: Configuring HSRP MD5 Authentication Using Key Strings and Key Chains

                                              The key ID for key-string authentication is always zero. If a key chain is configured with a key ID of zero, then the following configuration will work:

                                              Device 1

                                              Device(config)# key chain hsrp1
                                              Device(config-keychain)# key 0
                                              Device(config-keychain-key)# key-string 54321098452103ab
                                              Device(config-keychain-key)# exit
                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# standby 1 authentication md5 key-chain hsrp1
                                              Device(config-if)# standby 1 ip 10.21.0.10
                                              

                                              Device 2

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# standby 1 authentication md5 key-string 54321098452103ab
                                              Device(config-if)# standby 1 ip 10.21.0.10
                                              

                                              Example: Configuring HSRP Text Authentication

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# standby 1 priority 110
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 authentication text company2
                                              Device(config-if)# standby 1 ip 10.21.0.10
                                              

                                              Example: Configuring Multiple HSRP Groups for Load Balancing

                                              You can use HSRP or multiple HSRP groups when you configure load sharing. In the figure below, half of the clients are configured for Router A, and half of the clients are configured for Router B. Together, the configuration for Routers A and B establish two Hot Standby groups. For group 1, Router A is the default active router because it has the assigned highest priority, and Router B is the standby router. For group 2, Router B is the default active router because it has the assigned highest priority, and Router A is the standby router. During normal operation, the two routers share the IP traffic load. When either router becomes unavailable, the other router becomes active and assumes the packet-transfer functions of the router that is unavailable. The standby preempt interface configuration command is necessary so that if a router goes down and then comes back up, preemption occurs and restores load sharing.

                                              Figure 4. HSRP Load Sharing Example

                                              The following example shows Router A configured as the active router for group 1 with a priority of 110 and Router B configured as the active router for group 2 with a priority of 110. The default priority level is 100. Group 1 uses a virtual IP address of 10.0.0.3 and Group 2 uses a virtual IP address of 10.0.0.4.

                                              Router A Configuration

                                              Router(config)# hostname RouterA
                                              !
                                              Router(config)# interface GigabitEthernet 0/0/0
                                              Router(config-if)# ip address 10.0.0.1 255.255.255.0
                                              Router(config-if)# standby 1 priority 110
                                              Router(config-if)# standby 1 preempt
                                              Router(config-if)# standby 1 ip 10.0.0.3
                                              Router(config-if)# standby 2 preempt
                                              Router(config-if)# standby 2 ip 10.0.0.4
                                              

                                              Router B Configuration

                                              Router(config)# hostname RouterB
                                              !
                                              Router(config)# interface GigabitEthernet 0/0/0
                                              Router(config-if)# ip address 10.0.0.2 255.255.255.0
                                              Router(config-if)# standby 1 preempt
                                              Router(config-if)# standby 1 ip 10.0.0.3
                                              Router(config-if)# standby 2 priority 110
                                              Router(config-if)# standby 2 preempt
                                              Router(config-if)# standby 2 ip 10.0.0.4
                                              

                                              Example: Improving CPU and Network Performance with HSRP Multiple Group Optimization

                                              The following example shows how to configure an HSRP client and master group:

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# no shutdown
                                              Device(config-if)# standby mac-refresh 30  
                                              ! Client Hello message interval
                                              !
                                              Device(config)# interface GigabitEthernet 0/0/1
                                              Device(config-if)# no shutdown
                                              Device(config-if)# ip vrf forwarding VRF2
                                              Device(config-if)# ip address 10.0.0.100 255.255.0.0
                                              Device(config-if)# standby 1 ip 10.0.0.254
                                              Device(config-if)# standby 1 priority 110
                                              Device(config-if)# standby 1 preempt
                                              Device(config-if)# standby 1 name HSRP1   
                                              !Server group
                                              !
                                              Device(config)# interface GigabitEthernet 0/0/2
                                              Device(config-if)# no shutdown
                                              Device(config-if)# ip vrf forwarding VRF3
                                              Device(config-if)# ip address 10.0.0.100 255.255.0.0
                                              Device(config-if)# standby 2 ip 10.0.0.254
                                              Device(config-if)# standby 2 follow HSRP1   
                                              ! Client group
                                              !
                                              Device(config)# interface GigabitEthernet 0/0/3
                                              Device(config-if)# no shutdown
                                              Device(config-if)# ip vrf forwarding VRF4
                                              Device(config-if)# ip address 10.0.0.100 255.255.0.0
                                              Device(config-if)# standby 2 ip 10.0.0.254
                                              Device(config-if)# standby 2 follow HSRP1   
                                              ! Client group

                                              Example: Configuring HSRP Support for ICMP Redirect Messages

                                              Device A Configuration—Active for Group 1 and Standby for Group 2

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.0.0.10 255.0.0.0
                                              Device(config-if)# standby redirect
                                              Device(config-if)# standby 1 priority 120 
                                              Device(config-if)# standby 1 preempt delay minimum 20
                                              Device(config-if)# standby 1 ip 10.0.0.1
                                              Device(config-if)# standby 2 priority 105 
                                              Device(config-if)# standby 2 preempt delay minimum 20
                                              Device(config-if)# standby 2 ip 10.0.0.2
                                              

                                              Device B Configuration—Standby for Group 1 and Active for Group 2

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.0.0.11 255.0.0.0
                                              Device(config-if)# standby redirect
                                              Device(config-if)# standby 1 priority 105 
                                              Device(config-if)# standby 1 preempt delay minimum 20
                                              Device(config-if)# standby 1 ip 10.0.0.1
                                              Device(config-if)# standby 2 priority 120 
                                              Device(config-if)# standby 2 preempt delay minimum 20
                                              Device(config-if)# standby 2 ip 10.0.0.2
                                              

                                              Example: Configuring HSRP Virtual MAC Addresses and BIA MAC Address

                                              In an Advanced Peer-to-Peer Networking (APPN) network, an end node is typically configured with the MAC address of the adjacent network node. In the following example, if the end nodes are configured to use 4000.1000.1060, HSRP group 1 is configured to use the same MAC address:

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.0.0.1
                                              Device(config-if)# standby 1 mac-address 4000.1000.1060
                                              Device(config-if)# standby 1 ip 10.0.0.11
                                              

                                              In the following example, the burned-in address of Token Ring interface 3/0 will be the virtual MAC address mapped to the virtual IP address:

                                              Device(config)# interface token 3/0
                                              Device(config-if)# standby use-bia
                                              

                                              Note


                                              You cannot use the standby use-bia command and the standby mac-address command in the same configuration.


                                              Example: Linking IP Redundancy Clients to HSRP Groups

                                              The following example shows HSRP support for a static Network Address Translation (NAT) configuration. The NAT client application is linked to HSRP via the correlation between the name specified by the standby name command. Two devices are acting as HSRP active and standby, and the NAT inside interfaces are HSRP enabled and configured to belong to the group named “group1.”

                                              Active Device Configuration

                                              Device(config)# interface BVI 10 
                                              Device(config-if)# ip address 192.168.5.54 255.255.255.255.0 
                                              Device(config-if)# no ip redirects 
                                              Device(config-if)# ip nat inside 
                                              Device(config-if)# standby 10 ip 192.168.5.30 
                                              Device(config-if)# standby 10 priority 110 
                                              Device(config-if)# standby 10 preempt 
                                              Device(config-if)# standby 10 name group1 
                                              Device(config-if)# standby 10 track Ethernet 2/1 
                                              ! 
                                              ! 
                                              Device(config)# ip default-gateway 10.0.18.126 
                                              Device(config)# ip nat inside source static 192.168.5.33 10.10.10.5 redundancy group1 
                                              Device(config)# ip classless 
                                              Device(config)# ip route 10.10.10.0 255.255.255.0 Ethernet 2/1 
                                              Device(config)# ip route 172.22.33.0 255.255.255.0 Ethernet 2/1 
                                              Device(config)# no ip http server 
                                              

                                              Standby Device Configuration

                                              Device(config)# interface BVI 10 
                                              Device(config-if)# ip address 192.168.5.56 255.255.255.255.0 
                                              Device(config-if)# no ip redirects 
                                              Device(config-if)# ip nat inside 
                                              Device(config-if)# standby 10 priority 95 
                                              Device(config-if)# standby 10 preempt 
                                              Device(config-if)# standby 10 name group1 
                                              Device(config-if)# standby 10 ip 192.168.5.30 
                                              Device(config-if)# standby 10 track Ethernet 3/1 
                                              Device(config-if)# exit 
                                              Device(config)# ip default-gateway 10.0.18.126 
                                              Device(config)# ip nat inside source static 192.168.5.33 3.3.3.5 redundancy group1
                                              Device(config)# ip classless 
                                              Device(config)# ip route 10.0.32.231 255.255.255 Ethernet 3/1 
                                              Device(config)# ip route 10.10.10.0 255.255.255.0 Ethernet 3/1 
                                              Device(config)# no ip http server 
                                              

                                              Example: Configuring HSRP Version 2

                                              The following example shows how to configure HSRP version 2 on an interface with a group number of 350:

                                              Device(config)# interface vlan 350
                                              Device(config-if)# standby version 2
                                              Device(config-if)# standby 350 priority 110 
                                              Device(config-if)# standby 350 preempt 
                                              Device(config-if)# standby 350 timers 5 15
                                              Device(config-if)# standby 350 ip 172.20.100.10 
                                              

                                              Example: Enabling SSO-Aware HSRP

                                              The following example shows how to set the redundancy mode to SSO. HSRP is automatically SSO-aware when this mode is enabled.

                                              Device(config)# redundancy
                                              Device(config-red)# mode sso
                                              

                                              If SSO HSRP is disabled using the no standby sso command, you can reenable it as shown in the following example:

                                              Device(config)# interface GigabitEthernet 1/0/0
                                              Device(config-if)# ip address 10.1.1.1 255.255.0.0
                                              Device(config-if)# standby priority 200 
                                              Device(config-if)# standby preempt
                                              Device(config-if)# standby sso
                                              

                                              Example: Enabling HSRP MIB Traps

                                              The following examples show how to configure HSRP on two devices and enable the HSRP MIB trap support functionality. As in many environments, one device is preferred as the active one. To configure a device’s preference as the active device, configure the device at a higher priority level and enable preemption. In the following example, the active device is referred to as the primary device. The second device is referred to as the backup device:

                                              Device A

                                              Device(config)# interface GigabitEthernet 0/0/0
                                              Device(config-if)# ip address 10.1.1.1 255.255.0.0
                                              Device(config-if)# standby priority 200 
                                              Device(config-if)# standby preempt
                                              Device(config-if)# standby ip 10.1.1.3
                                              Device(config-if)# exit
                                              Device(config)# snmp-server enable traps hsrp
                                              Device(config)# snmp-server host yourhost.cisco.com public hsrp
                                              

                                              Device B

                                              Device(config)#interface GigabitEthernet 1/0/0
                                              Device(config-if)# ip address 10.1.1.2 255.255.0.0
                                              Device(config-if)#  standby priority 101
                                              Device(config-if)# standby ip 10.1.1.3
                                              Device(config-if)# exit
                                              Device(config)# snmp-server enable traps hsrp
                                              Device(config)# snmp-server host myhost.cisco.com public hsrp
                                              

                                              Example: HSRP BFD Peering

                                              Hot Standby Router Protocol (HSRP) supports Bidirectional Forwarding Detection (BFD) as a part of the HSRP group member health monitoring system. Without BFD, HSRP runs as a process in a multiprocess system and cannot be guaranteed to be scheduled in time to service large numbers of groups with millisecond hello and hold timers. BFD runs as a pseudo-preemptive process and can therefore, be guaranteed to run when required. Only one BFD session between two devices can provide early failover notification for multiple HSRP groups.

                                              In the following example, the standby bfd and the standby bfd all-interfaces commands are not displayed. HSRP support for BFD is enabled by default when BFD is configured on a device or an interface by using the bfd interval command. The standby bfd and standby bfd all-interfaces commands are needed only if BFD has been manually disabled on a device or an interface.

                                              Device A

                                              DeviceA(config)# ip cef
                                              DeviceA(config)# interface FastEthernet2/0
                                              DeviceA(config-if)#  no shutdown
                                              DeviceA(config-if)# ip address 10.0.0.2 255.0.0.0
                                              DeviceA(config-if)# ip router-cache cef
                                              DeviceA(config-if)# bfd interval 200 min_rx 200 multiplier 3
                                              DeviceA(config-if)# standby 1 ip 10.0.0.11
                                              DeviceA(config-if)# standby 1 preempt
                                              DeviceA(config-if)# standby 1 priority 110
                                              DeviceA(config-if)# standby 2 ip 10.0.0.12
                                              DeviceA(config-if)# standby 2 preempt
                                              DeviceA(config-if)# standby 2 priority 110
                                              

                                              Device B

                                              DeviceB(config)# interface FastEthernet2/0
                                              DeviceB(config-if)# ip address 10.1.0.22 255.255.0.0
                                              DeviceB(config-if)# no shutdown
                                              DeviceB(config-if)# bfd interval 200 min_rx 200 multiplier 3
                                              DeviceB(config-if)# standby 1 ip 10.0.0.11
                                              DeviceB(config-if)# standby 1 preempt
                                              DeviceB(config-if)# standby 1 priority 90
                                              DeviceB(config-if)# standby 2 ip 10.0.0.12
                                              DeviceB(config-if)# standby 2 preempt
                                              DeviceB(config-if)# standby 2 priority 80
                                              

                                              Additional References

                                              Related Documents

                                              Related Topic

                                              Document Title

                                              Cisco IOS commands

                                              Cisco IOS Master Commands List, All Releases

                                              HSRP commands: complete command syntax, command mode, command history, defaults, usage guidelines, and examples

                                              Cisco IOS First Hop redundancy Protocols Command Reference

                                              HSRP for IPv6

                                              “HSRP for IPv6” module

                                              Troubleshooting HSRP

                                              Hot Standby Router Protocol: Frequently Asked Questions

                                              Standards

                                              Standards

                                              Title

                                              No new or modified standards are supported by this feature, and support for existing standards has not been modified by this feature.

                                              --

                                              MIBs

                                              MIBs

                                              MIBs Link

                                              CISCO-HSRP-MIB CISCO-HSRP-EXT-MIB

                                              To locate and download MIBs for selected platforms, Cisco software releases, and feature sets, use Cisco MIB Locator found at the following URL:

                                              http:/​/​www.cisco.com/​go/​mibs

                                              RFCs

                                              RFCs

                                              Title

                                              RFC 792

                                              Internet Control Message Protocol

                                              RFC 1828

                                              IP Authentication Using Keyed MD5

                                              RFC 2281

                                              Cisco Hot Standby Router Protocol

                                              Technical Assistance

                                              Description

                                              Link

                                              The Cisco Support and Documentation website provides online resources to download documentation, software, and tools. Use these resources to install and configure the software and to troubleshoot and resolve technical issues with Cisco products and technologies. Access to most tools on the Cisco Support and Documentation website requires a Cisco.com user ID and password.

                                              http:/​/​www.cisco.com/​cisco/​web/​support/​index.html

                                              Feature Information for HSRP

                                              The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.

                                              Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to www.cisco.com/​go/​cfn. An account on Cisco.com is not required.

                                              Table 1 Feature Information for HSRP

                                              Feature Name

                                              Releases

                                              Feature Information

                                              FHRP—HSRP BFD Peering

                                              15.2(1)S

                                              The FHRP—HSRP BFD Peering feature introduces BFD in the HSRP group member health monitoring system. Previously, group member monitoring relied exclusively on HSRP multicast messages, which are relatively large and consume CPU memory to produce and check. In architectures where a single interface hosts a large number of groups, there is a need for a protocol with low CPU memory consumption and processing overhead. BFD addresses this issue and offers sub second health monitoring (failure detection in milliseconds) at a relatively low CPU impact.

                                              The following commands were introduced or modified by this feature: debug standby events neighbor,show standby,show standby neighbors,standby bfd, standby bfd all-interfaces.

                                              FHRP—HSRP Group Shutdown

                                              15.2(1)S

                                              The FHRP—HSRP Group Shutdown feature enables you to configure an HSRP group to become disabled (its state changed to Init) instead of having its priority decremented when a tracked object goes down.

                                              The following commands were modified by this feature:standby track, show standby.

                                              FHRP—HSRP Multiple Group Optimization

                                              15.2(1)S

                                              FHRP—HSRP Multiple Group Optimization feature improves the negotiation and maintenance of multiple HSRP groups configured on a subinterface. Only one HSRP group is required on a physical interface for the purposes of electing active and standby routers. This group is known as the master group. Other HSRP groups may be created on each subinterface and linked to the master group via the group name. These linked HSRP groups are known as client or slave groups.

                                              The following commands were introduced or modified by this feature: standby follow, show standby.

                                              FHRP—HSRP Support for IPv6

                                              15.2(1)S

                                              Support for IPv6 was added.

                                              For more information see the "Configuring First Hop Redundancy Protocols in IPv6" module of the Cisco IOS IPv6 Configuration Guide.

                                              HSRP—ISSU

                                              15.2(1)S

                                              The HSRP--ISSU feature enables support for ISSU in HSRP.

                                              The In Service Software Upgrade (ISSU) process allows Cisco IOS software to be updated or otherwise modified while packet forwarding continues. In most networks, planned software upgrades are a significant cause of downtime. ISSU allows Cisco IOS software to be modified while packet forwarding continues, which increases network availability and reduces downtime caused by planned software upgrades. This document provides information about ISSU concepts and describes the steps taken to perform ISSU in a system.

                                              For more information about this feature, see the "Cisco IOS In Service Software Upgrade Process" module in the Cisco IOS High Availability Configuration Guide. There are no new or modified commands for this feature.

                                              HSRP MD5 Authentication

                                              15.2(1)S

                                              Prior to the introduction of the HSRP MD5 Authentication feature, HSRP authenticated protocol packets with a simple plain text string. The HSRP MD5 Authentication feature is an enhancement to generate an MD5 digest for the HSRP portion of the multicast HSRP protocol packet. This feature provides added security and protects against the threat from HSRP-spoofing software.

                                              The following commands were introduced or modified by this feature: show standby, standby authentication.

                                              HSRP Support for ICMP Redirects

                                              15.2(1)S

                                              The HSRP support for ICMP Redirects feature enables ICMP redirection on interfaces configured with HSRP.

                                              The following commands were introduced or modified by this feature:

                                              debug standby event , debug standby events icmp,show standby,standby redirects

                                              HSRP Support for MPLS VPNs

                                              15.2(1)S

                                              HSRP support for a Multiprotocol Label Switching (MPLS) Virtual Private Network (VPN) interface is useful when an Ethernet LAN is connected between two provider edge (PE) routers with either of the following conditions:

                                              There are no new or modified commands for this feature.

                                              HSRP Version 2

                                              15.2(1)S

                                              HSRP Version 2 feature was introduced to prepare for further enhancements and to expand the capabilities beyond what is possible with HSRP version 1. HSRP version 2 has a different packet format than HSRP version 1.

                                              The following commands were introduced or modified by this feature: show standby, standby ip, standby version.

                                              SSO—HSRP

                                              15.2(1)S

                                              The SSO—HSRP feature alters the behavior of HSRP when a router with redundant RPs is configured for SSO. When an RP is active and the other RP is standby, SSO enables the standby RP to take over if the active RP fails.

                                              The following commands were introduced or modified by this feature: debug standby events, standby sso.

                                              Glossary

                                              ARP—Address Resolution Protocol (ARP). ARP performs a required function in IP routing. ARP finds the hardware address, also known as Media Access Control (MAC) address, of a host from its known IP address. ARP maintains a cache (table) in which MAC addresses are mapped to IP addresses. ARP is part of all Cisco IOS systems running IP.

                                              active device—The primary device in an HSRP group that is currently forwarding packets for the virtual device.

                                              active RP—The active RP that controls the system, provides network services, runs the routing protocols, and presents the system management interface.

                                              client group—An HSRP group that is created on a subinterface and linked to the master group via the group name.

                                              HSRP—Hot Standby Router Protocol. Protocol that provides high network availability and transparent network-topology changes. HSRP creates a router group with a lead device that services all packets sent to the HSRP address. The lead device is monitored by other devices in the group, and if it fails, one of these standby HSRP devices inherits the lead position and the HSRP group address.

                                              ISSU—In Service Software Upgrade. A process that allows Cisco IOS software to be updated or otherwise modified while packet forwarding continues. In most networks, planned software upgrades are a significant cause of downtime. ISSU allows Cisco IOS software to be modified while packet forwarding continues, which increases network availability and reduces downtime caused by planned software upgrades.

                                              master group—An HSRP group that is required on a physical interface for the purposes of electing active and standby devices.

                                              RF—Redundancy Facility. A structured, functional interface used to notify its clients of active and standby state progressions and events.

                                              RP—Route Processor. A generic term for the centralized control unit in a chassis.

                                              RPR—Route Processor Redundancy. RPR provides an alternative to the High System Availability (HSA) feature. HSA enables a system to reset and use a standby Route Processor (RP) if the active RP fails. Using RPR, you can reduce unplanned downtime because RPR enables a quicker switchover between an active and standby RP if the active RP experiences a fatal error.

                                              RPR+—An enhancement to RPR in which the standby RP is fully initialized.

                                              standby group—The set of devices participating in HSRP that jointly emulate a virtual device.

                                              standby device—The backup device in an HSRP group.

                                              standby RP—The backup RP.

                                              switchover—An event in which system control and routing protocol execution are transferred from the active RP to the standby RP. Switchover may be a manual operation or may be induced by a hardware or software fault. Switchover may include transfer of the packet forwarding function in systems that combine system control and packet forwarding in an indivisible unit.

                                              virtual IP address—The default gateway IP address configured for an HSRP group.

                                              virtual MAC address—For Ethernet and FDDI, the automatically generated MAC address when HSRP is configured. The standard virtual MAC address used is: 0000.0C07.ACxy, where xy is the group number in hexadecimal. The functional address is used for Token Ring. The virtual MAC address is different for HSRP version 2.