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REP Overview
Resilient Ethernet
Protocol (REP) is a Cisco proprietary protocol that provides an alternative to
Spanning Tree Protocol (STP) to control network loops, handle link failures,
and improve convergence time. REP controls a group of ports connected in a
segment, ensures that the segment does not create any bridging loops, and
responds to link failures within the segment. REP provides a basis for
constructing more complex networks and supports VLAN load balancing.
Note
REP is supported on
Catalyst switches running IP Base, IP Services, or IP Lite licenses. REP is not
supported on the LAN Base license.
REP is supported only on Cisco
Catalyst 3560-CX switches.
A REP segment is a
chain of ports connected to each other and configured with a segment ID. Each
segment consists of standard (non-edge) segment ports and two user-configured
edge ports. A router can have no more than two ports that belong to the same
segment, and each segment port can have only one external neighbor. A segment
can go through a shared medium, but on any link only two ports can belong to
the same segment. REP is supported only on Trunk Ethernet Flow Point (EFP)
interfaces.
The figure below
shows an example of a segment consisting of six ports spread across four
switches. Ports E1 and E2 are configured as edge ports. When all ports are
operational (as in the segment on the left), a single port is blocked, shown by
the diagonal line. When there is a failure in the network, the blocked port
returns to the forwarding state to minimize network disruption.
The segment shown in
the figure above is an open segment; there is no connectivity between the two
edge ports. The REP segment cannot cause a bridging loop, and you can safely
connect the segment edges to any network. All hosts connected to routers inside
the segment have two possible connections to the rest of the network through
the edge ports, but only one connection is accessible at any time. If a failure
occurs on any segment or on any port on a REP segment, REP unblocks all ports
to ensure that connectivity is available through the other gateway.
The segment shown in
the figure below is a ring segment with both edge ports located on the same
router. With this configuration, you can create a redundant connection between
any two routers in the segment.
REP segments have the
following characteristics:
If all ports in a
segment are operational, one port (referred to as the
alternate
port) is in the blocked state for each VLAN. If VLAN load balancing is
configured, two ports in the segment control the blocked state of VLANs.
If one or more
ports in a segment is not operational, and cause a link failure, all ports
forward traffic on all VLANs to ensure connectivity.
In case of a link
failure, alternate ports are unblocked as quickly as possible. When the failed
link is up, a logically blocked port per VLAN is selected with minimal
disruption to the network.
You can construct
almost any type of network based on REP segments. REP also supports VLAN load
balancing, which is controlled by the primary edge port occurring at any port
in the segment.
In access ring
topologies, the neighboring switch might not support REP as shown in the figure
below. In this case, you can configure the non-REP facing ports (E1 and E2) as
edge no-neighbor ports. These ports inherit all properties of edge ports, and
you can configure them the same as any edge port, including configuring them to
send STP or REP topology change notices to the aggregation switch. In this
case, the STP topology change notice (TCN) that is sent is a multiple
spanning-tree (MST) STP message.
REP has these
limitations:
You must configure
each segment port; an incorrect configuration can cause forwarding loops in the
networks.
REP can manage
only a single failed port within the segment; multiple port failures within the
REP segment cause loss of network connectivity.
You should
configure REP only in networks with redundancy. Configuring REP in a network
without redundancy causes loss of connectivity.
Link
Integrity
REP does not use an end-to-end
polling function between edge ports to verify link integrity. It implements
local link failure detection. The REP Link Status Layer (LSL) detects its
REP-aware neighbor and establishes connectivity within the segment. All VLANs
are blocked on an interface until it detects the neighbor. After the neighbor
is identified, REP determines which neighbor port should become the alternate
port and which ports should forward traffic.
Each port in a segment has a unique port ID. The port ID format is
similar to that used by the spanning tree algorithm: a port number (unique on
the bridge), associated to a MAC address (unique in the network). When a
segment port is coming up, its LSL starts sending packets that include the
segment ID and the port ID. The port is declared as operational after it
performs a three-way handshake with a neighbor in the same segment.
A segment port does not become operational if:
No neighbor has the same segment ID.
More than one neighbor has the same segment ID.
The neighbor does not acknowledge the local port as a peer.
Each port creates an adjacency with its immediate neighbor. Once the
neighbor adjacencies are created, the ports negotiate to determine one blocked
port for the segment, the alternate port. All other ports become unblocked. By
default, REP packets are sent to a BPDU class MAC address. The packets can also
be sent to the Cisco multicast address, which is used only to send blocked port
advertisement (BPA) messages when there is a failure in the segment. The
packets are dropped by devices not running REP.
Fast
Convergence
REP runs on a physical
link basis and not on a per-VLAN basis. Only one hello message is required for
all VLANs, and it reduces the load on the protocol. We recommend that you
create VLANs consistently on all switches in a given segment and configure the
same allowed VLANs on the REP trunk ports. To avoid the delay introduced by
relaying messages in software, REP also allows some packets to be flooded to a
regular multicast address. These messages operate at the hardware flood layer
(HFL) and are flooded to the whole network, not just the REP segment. Switches
that do not belong to the segment treat them as data traffic. You can control
flooding of these messages by configuring an administrative VLAN for the whole
domain or for a particular segment.
The estimated
convergence recovery time on fiber interfaces is between 50 ms and 200 ms for
the local segment with 200 VLANs configured. Convergence for VLAN load
balancing is 300 ms or less.
VLAN Load
Balancing
One edge port in the REP segment acts as the primary edge port; and another as the secondary edge port. It is the primary
edge port that always participates in VLAN load balancing in the segment. REP VLAN balancing is achieved by blocking some
VLANs at a configured alternate port and all the other VLANs at the primary edge port. When you configure VLAN load balancing,
you can specify the alternate port in one of three ways:
By entering the port ID of the interface. To identify the port ID of a port in the segment, enter the show interface rep detail interface configuration command for the port.
By entering the preferred keyword to select the port that you previously configured as the preferred alternate port with the rep segmentsegment-idpreferred interface configuration command.
By entering the
neighbor offset number of a port in the segment, which identifies the
downstream neighbor port of an edge port. The neighbor offset number range is
–256 to +256; a value of 0 is invalid. The primary edge port has an offset
number of 1; positive numbers above 1 identify downstream neighbors of the
primary edge port. Negative numbers indicate the secondary edge port (offset
number -1) and its downstream neighbors.
Note
Configure offset numbers on the primary edge port by identifying a port’s downstream position from the primary (or secondary)
edge port. Never enter an offset value of 1 because that is the offset number of the primary edge port.
The following figure shows neighbor offset numbers for a segment, where E1 is the primary edge port and E2 is the secondary
edge port. The numbers inside the ring are numbers offset from the primary edge port; the numbers outside of the ring show
the offset numbers from the secondary edge port. Note that you can identify all the ports (except the primary edge port) by
either a positive offset number (downstream position from the primary edge port) or a negative offset number (downstream position
from the secondary edge port). If E2 became the primary edge port, its offset number would then be 1 and E1 would be -1.
When the REP segment is complete, all the VLANs are blocked. When you configure VLAN load balancing, you must also configure
triggers in one of two ways:
Manually trigger
VLAN load balancing at any time by entering the
rep preempt
segmentsegment-id
privileged EXEC command on the switch that has the primary edge port.
Configure a
preempt delay time by entering the rep preempt delayseconds
interface configuration command. After a link failure and recovery, VLAN load
balancing begins after the configured preemption time period elapses. Note that
the delay timer restarts if another port fails before the time has elapsed.
Note
When VLAN load
balancing is configured, it does not start working until triggered by either
manual intervention or a link failure and recovery.
When VLAN load balancing is triggered, the primary edge port sends out a message to alert all the interfaces in the segment
about the preemption. When the secondary port receives the message, the message is sent to the network to notify the alternate
port to block the set of VLANs specified in the message and to notify the primary edge port to block the remaining VLANs.
You can also configure a particular port in the segment to block all the VLANs. Only the primary edge port initiates VLAN
load balancing, which is not possible if the segment is not terminated by an edge port on each end. The primary edge port
determines the local VLAN load-balancing configuration.
Reconfigure the primary edge port to reconfigure load balancing. When you change the load-balancing configuration, the primary
edge port waits for the rep preempt segment command or for the configured preempt delay period after a port failure and recovery, before executing the new configuration.
If you change an edge port to a regular segment port, the existing VLAN load-balancing status does not change. Configuring
a new edge port might cause a new topology configuration.
Spanning Tree
Interaction
REP does not interact with STP or
with the Flex Link feature, but can coexist with both. A port that belongs to a
segment is removed from spanning tree control and STP BPDUs are not accepted or
sent from segment ports. Therefore, STP cannot run on a segment.
To migrate from an STP ring configuration to REP segment configuration,
begin by configuring a single port in the ring as part of the segment and
continue by configuring contiguous ports to minimize the number of segments.
Each segment always contains a blocked port, so multiple segments means
multiple blocked ports and a potential loss of connectivity. When the segment
has been configured in both directions up to the location of the edge ports,
you then configure the edge ports.
REP Ports
REP segments consists of Failed,
Open, or Alternate ports.
A port configured as a regular segment port starts as a failed port.
After the neighbor adjacencies are determined, the port transitions
to alternate port state, blocking all VLANs on the interface. Blocked port
negotiations occur and when the segment settles, one blocked port remains in
the alternate role and all other ports become open ports.
When a failure occurs in a link, all ports move to the failed state.
When the alternate port receives the failure notification, it changes to the
open state, forwarding all VLANs.
A regular segment port converted to an edge port, or an edge port
converted to a regular segment port, does not always result in a topology
change. If you convert an edge port into a regular segment port, VLAN load
balancing is not implemented unless it has been configured. For VLAN load
balancing, you must configure two edge ports in the segment.
A segment port that is reconfigured as a spanning tree port restarts
according the spanning tree configuration. By default, this is a designated
blocking port. If PortFast is configured or if STP is disabled, the port goes
into the forwarding state.
How to Configure
REP
A segment is a
collection of ports connected one to the other in a chain and configured with a
segment ID. To configure REP segments, you configure the REP administrative
VLAN (or use the default VLAN 1) and then add the ports to the segment using
interface configuration mode. You should configure two edge ports in the
segment, with one of them the primary edge port and the other by default the
secondary edge port. A segment has only one primary edge port. If you configure
two ports in a segment as the primary edge port, for example, ports on
different switches, the REP selects one of them to serve as the segment primary
edge port. You can also optionally configure where to send segment topology
change notices (STCNs) and VLAN load balancing.
Default REP
Configuration
REP is disabled on all interfaces.
When enabled, the interface is a regular segment port unless it is configured
as an edge port.
When REP is enabled, the sending of segment topology change notices
(STCNs) is disabled, all VLANs are blocked, and the administrative VLAN is VLAN
1.
When VLAN load balancing is enabled, the default is manual preemption
with the delay timer disabled. If VLAN load balancing is not configured, the
default after manual preemption is to block all VLANs at the primary edge port.
REP Configuration
Guidelines
Follow these
guidelines when configuring REP:
We recommend that
you begin by configuring one port and then configure contiguous ports to
minimize the number of segments and the number of blocked ports.
If more than two
ports in a segment fail when no external neighbors are configured, one port
goes into a forwarding state for the data path to help maintain connectivity
during configuration. In the
showrepinterface command output, the Port Role for this
port shows as “Fail Logical Open”; the Port Role for the other failed port
shows as “Fail No Ext Neighbor”. When the external neighbors for the failed
ports are configured, the ports go through the alternate port state transitions
and eventually go to an open state or remain as the alternate port, based on
the alternate port selection mechanism.
REP ports must be
Layer 2 IEEE 802.1Q or Trunk ports.
We recommend that
you configure all trunk ports in the segment with the same set of allowed
VLANs.
Be careful when
configuring REP through a Telnet connection. Because REP blocks all VLANs until
another REP interface sends a message to unblock it. You might lose
connectivity to the router if you enable REP in a Telnet session that accesses
the router through the same interface.
You cannot run
REP and STP or REP and Flex Links on the same segment or interface.
If you connect an
STP network to a REP segment, be sure that the connection is at the segment
edge. An STP connection that is not at the edge could cause a bridging loop
because STP does not run on REP segments. All STP BPDUs are dropped at REP
interfaces.
You must configure all trunk ports in the segment with the same set
of allowed VLANs, or a misconfiguration occurs.
If REP is enabled
on two ports on a switch, both ports must be either regular segment ports or
edge ports. REP ports follow these rules:
There is no limit to the number of REP ports on a switch;
however, only two ports on a switch can belong to the same REP segment.
If only one port on a switch is configured in a segment, the
port should be an edge port.
If two ports on a switch belong to the same segment, they must
be both edge ports, both regular segment ports, or one regular port and one
edge no-neighbor port. An edge port and regular segment port on a switch cannot
belong to the same segment.
If two ports on a switch belong to the same segment and one is
configured as an edge port and one as a regular segment port (a
misconfiguration), the edge port is treated as a regular segment port.
REP interfaces
come up in a blocked state and remain in a blocked state until they are safe to
be unblocked. You need to be aware of this status to avoid sudden connection
losses.
REP sends all LSL PDUs in untagged frames on the native VLAN. The
BPA message sent to the Cisco multicast address is sent on the administration
VLAN, which is VLAN 1 by default.
You can configure how long a REP interface remains up without
receiving a hello from a neighbor. You can use therep lsl-age-timer
value interface configuration command to set the time from 120 ms to 10000 ms.
The LSL hello timer is then set to the age-timer value divided by 3. In normal
operation, three LSL hellos are sent before the age timer on the peer switch
expires and checks forhello messages.
EtherChannel port channel interfaces do not support LSL
age-timer values less than 1000 ms. If you try to configure a value less than
1000 ms on a port channel, you receive an error message and the command is
rejected.
REP ports cannot
be configured as one of the following port types:
Switched Port Analyzer
(SPAN) destination port
Tunnel port
Access port
REP is supported on EtherChannels, but not on an individual port
that belongs to an EtherChannel.
There can be a
maximum of 64 REP segments per switch.
Configuring the REP
Administrative VLAN
To avoid the delay
introduced by relaying messages in the software for link-failure or by
VLAN-blocking notifications during load balancing, the REP floods packets to a
regular multicast address at the hardware flood layer (HFL). These messages are
flooded to the whole network, not just the REP segment. You can control
flooding of these messages by configuring an administrative VLAN for the whole
domain or for a particular segment.
Follow these
guidelines when configuring the REP administrative VLAN:
If you do not
configure an administrative VLAN, the default is VLAN 1.
We can configure
one admin VLAN on the switch for all segments or we can configure admin VLANS
per segment.
The
administrative VLAN cannot be the RSPAN VLAN.
To configure the REP
administrative VLAN, follow these steps, beginning in privileged EXEC mode:
SUMMARY STEPS
configureterminal
repadminvlanvlan-idsegmentsegment-id
end
show interface[ interface-id] rep
detail
copy running-config startup config
DETAILED STEPS
Command or Action
Purpose
Step 1
configureterminal
Example:
SwitchDevice# configure terminal
Enters global
configuration mode.
Step 2
repadminvlanvlan-idsegmentsegment-id
Example:
SwitchDevice(config)# rep admin vlan 2 segment 2
Specifies the
administrative VLAN. The range is 2 to 4094. The default is VLAN 1.
To specify the
administrative VLAN per segment, enter the
rep admin vlanvlan-idsegmentsegment-id command in the global configuration
mode.
To set the admin
VLAN to 1, enter the
no rep admin
vlan global configuration command.
Step 3
end
Example:
SwitchDevice(config-if)# end
Returns to
privileged EXEC mode.
Step 4
show interface[ interface-id] rep
detail
Example:
SwitchDevice# show interface gigabitethernet1/1 rep detail
Verifies the
configuration on one of the REP interfaces.
Step 5
copy running-config startup config
Example:
SwitchDevice# copy running-config startup config
(Optional) Saves
your entries in the switch startup configuration file.
Configuring REP
Interfaces
For the REP
operation, you must enable REP on each segment interface and identify the
segment ID. This task is required and must be done before other REP
configurations. You must also configure a primary and secondary edge port on
each segment. All other steps are optional.
Follow these steps
to enable and configure REP on an interface:
Specifies the
interface, and enter interface configuration mode. The interface can be a
physical Layer 2 interface or a port channel (logical interface). The
port-channel range is 1 to 48.
Enables REP on
the interface and identifies a segment number. The segment ID range is from 1
to 1024. These optional keywords are available:
Note
You must
configure two edge ports, including one primary edge port for each segment.
(Optional)
edge—Configures
the port as an edge port. Each segment has only two edge ports. Entering the
edge without
the
primary keyword
configures the port as the secondary edge port.
(Optional)
primary—Configures the port as the primary edge
port, the port on which you can configure VLAN load balancing.
(Optional)
no-neighbor—configures a port with no external REP neighbors
as an edge port. The port inherits all properties of edge ports, and you can
configure them the same as any edge port.
Note
Although each
segment can have only one primary edge port, if you configure edge ports on two
different switches and enter the
primary keyword
on both switches, the configuration is valid. However, REP selects only one of
these ports as the segment primary edge port. You can identify the primary edge
port for a segment by entering the
showreptopology privileged EXEC command.
(Optional)
preferred—Indicates that the port is the preferred
alternate port or the preferred port for VLAN load balancing.
Note
Configuring a
port as preferred does not guarantee that it becomes the alternate port; it
merely gives the port a slight edge over equal contenders. The alternate port
is usually a previously failed port.
(Optional)
Configures VLAN load balancing on the primary edge port, identifies the REP
alternate port in one of three ways, and configures the VLANs to be blocked on
the alternate port.
idport-id—identifies the alternate port by port ID.
The port ID is automatically generated for each port in the segment. You can
view interface port IDs by entering the
showinterfacetype numberrep [detail] privileged EXEC command.
neighbor_offset—number to identify the alternate
port as a downstream neighbor from an edge port. The range is from -256 to 256,
with negative numbers indicating the downstream neighbor from the secondary
edge port. A value of
0 is invalid.
Enter
-1 to
identify the secondary edge port as the alternate port. See
Neighbor Offset Numbers in a Segment for an example of neighbor offset
numbering.
Note
Because you
enter this command at the primary edge port (offset number 1), you cannot enter
an offset value of 1 to identify an alternate port.
preferred—selects the regular segment port
previously identified as the preferred alternate port for VLAN load balancing.
vlanvlan-list—blocks one VLAN or a range of VLANs.
vlanall— blocks
all VLANs.
Note
Enter this
command only on the REP primary edge port.
Step 8
reppreemptdelayseconds
(Optional)
Configures a preempt time delay.
Use this
command if you want VLAN load balancing to automatically trigger after a link
failure and recovery.
The time
delay range is between15 to 300 seconds. The default is manual preemption with
no time delay.
Note
Enter this
command only on the REP primary edge port.
Step 9
rep lsl-age-timervalue
(Optional)
Configures a time (in milliseconds) for which the REP interface remains up
without receiving a hello from a neighbor.
The range is
from 120 to 10000 ms in 40-ms increments. The default is 5000 ms (5 seconds).
Note
EtherChannel port channel interfaces do not support LSL
age-timer values less than 1000 ms.
Both
ports on the link should have the same LSL-age configured to avoid link flaps.
Step 10
end
Returns to
privileged EXEC mode.
Step 11
showinterface[ interface-id] rep [detail]
(Optional)
Displays the REP interface configuration.
Step 12
copyrunning-configstartup-config
(Optional)
Saves your entries in the router startup configuration file.
Setting Manual
Preemption for VLAN Load Balancing
If you do not enter
therep preempt delayseconds rep
preempt delay seconds interface configuration command on the primary edge port
to configure a preemption time delay, the default is to manually trigger VLAN
load balancing on the segment. Be sure that all other segment configuration has
been completed before manually preempting VLAN load balancing. When you enter
the
rep preempt delaysegment-id
command, a confirmation message appears before the command is executed because
preemption can cause network disruption.
SUMMARY STEPS
rep preempt segmentsegment-id
show rep topologysegment-id
DETAILED STEPS
Command or Action
Purpose
Step 1
rep preempt segmentsegment-id
Manually
triggers VLAN load balancing on the segment.
You will need to
confirm the command before it is executed.
Step 2
show rep topologysegment-id
Displays REP
topology information.
Configuring SNMP
Traps for REP
You can configure
the router to send REP-specific traps to notify the Simple Network Management
Protocol (SNMP) server of link operational status changes and any port role
changes.
SUMMARY STEPS
configureterminal
snmpmibreptrap-ratevalue
end
showrunning-config
copyrunning-configstartup-config
DETAILED STEPS
Command or Action
Purpose
Step 1
configureterminal
Example:
Switch# configure terminal
Enters global
configuration mode.
Step 2
snmpmibreptrap-ratevalue
Example:
Switch(config)# snmp mib rep trap-rate 500
Enables the
switch to send REP traps, and sets the number of traps sent per second.
Enter the
number of traps sent per second. The range is from 0 to 1000. The default is 0
(no limit imposed; a trap is sent at every occurrence).
Step 3
end
Example:
Switch(config)# end
Returns to
privileged EXEC mode.
Step 4
showrunning-config
Example:
Switch# show running-config
(Optional)
Displays the running configuration, which can be used to verify the REP trap
configuration.
Step 5
copyrunning-configstartup-config
Example:
Switch# copy running-config startup-config
(Optional)
Saves your entries in the switch startup configuration file.
Monitoring
REP
SUMMARY STEPS
show interface[ interface-id] rep[ detail]
show rep topology[ segmentsegment-_id] [ archive] [ detail]
DETAILED STEPS
Command or Action
Purpose
Step 1
show interface[ interface-id] rep[ detail]
Displays REP configuration and
status for an interface or for all interfaces.
This example shows
how to configure the administrative VLAN as VLAN 100 and verify the
configuration by entering the
show interface rep
detailshow interface rep detail command on one of the REP
interfaces:
The following example shows how to create an administrative VLAN per
segment. Here VLAN 2 is configured as the administrative VLAN only for REP
segment 2. All remaining segments that are not configured otherwise will, by
default, have VLAN 1 as the administrative VLAN.
This example shows
how to configure an interface as the primary edge port for segment 1, to send
STCNs to segments 2 through 5, and to configure the alternate port as the port
with port ID 0009001818D68700 to block all VLANs after a preemption delay of 60
seconds after a segment port failure and recovery. The interface is configured
to remain up for 6000 milliseconds without receiving a hello from a neighbor.
This example shows
how to configure the VLAN blocking configuration shown in the figure below. The
alternate port is the neighbor with neighbor offset number 4. After manual
preemption, VLANs 100 to 200 are blocked at this port, and all other VLANs are
blocked at the primary edge port E1 (Gigabit Ethernet port 1/1).