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EOS 4.33.0F User Manual - Traffic Management 打印

Traffic Management

This chapter describes Arista’s Traffic Management, including configuration instructions and command descriptions. Topics covered by this chapter include:

Traffic Management Conceptual Overview

Traffic is managed through policy maps that apply data shaping methods to specific data streams. A policy map is a data structure that identifies specific data streams and then defines shaping parameters that modify packets within the streams. The switch defines four types of policies:
A policy map consists of classes. Each class contains an eponymous class map and traffic resolution commands.
  • A class map is a data structure that defines a data stream by specifying characteristics of data packets that comprise that stream. Each class map is typed as either QoS, control plane, or PBR and is available only to identically typed policy maps.
  • Traffic resolution commands specify data handling methods for traffic that matches a class map. Traffic resolution options vary by policy map type.

Data packets that enter an entity to which a policy map is assigned are managed with traffic resolution commands of the first class that matches the packets.

Control Plane Policies

The switch defines one control plane policy map named copp-system-policy. The copp-system-policy policy map is always applied to the control plane and cannot be removed from the switch. Other control plane policy maps cannot be added. Copp-system-policy consists of preconfigured classes, each containing a static class map and traffic resolution commands. Preconfigured classes cannot be removed from copp-system-policy.

Static class maps are provided by the switch and cannot be modified or deleted. The naming convention of static class maps is copp-system- name, where name differentiates the class maps. Static class maps have pre-defined internal conditions, are not based on ACLs, and are only listed in running-config as components of copp-system-policy. The sequence of static class maps in the policy map is not significant. Traffic resolution commands define minimum (bandwidth) and maximum (shape) transmission rates for data streams matching the corresponding class map.

Copp-system-policy can be modified through the following steps:
  1. Add classes consisting of an eponymous dynamic class map and traffic resolution commands.

    Dynamic class maps are user created, can be edited or deleted, filter traffic with a single IPv4 ACL, and are listed in running-config.

  2. Change traffic resolution commands for a preconfigured class.
These sections describe control plane traffic policy configuration procedures:

QoS Policies

QoS policy maps are user defined. The switch does not provide preconfigured QoS policy maps and in the default configuration, policy maps are not applied to any Ethernet or port channel interface. Policy maps and class maps are created and applied to interfaces through configuration commands.

A QoS policy map is composed of one or more classes. Each class contains an eponymous dynamic class map and traffic resolution commands. Dynamic class maps are user created, can be edited or deleted, filter traffic with a single IPv4 ACL, and are listed in running-config.

QoS traffic resolution commands perform one of the following:
  • Set the Layer 2 CoS field
  • Set the DSCP value in the ToS byte
  • Specify a traffic class queue
The last class in all QoS policy maps is class-default, which is composed as follows:
  • The class-default class map matches all traffic except IPv4 or IPv6 traffic and is not editable.
  • By default, class-default class contains no traffic resolution commands. Traffic resolution commands can be added through configuration commands.

Data packets that enter an interface to which a policy map is assigned are managed with traffic resolution commands that correspond to the first class that matches the packet.

These sections describe QoS traffic policy configuration procedures:

Segment Routing Traffic Engineering Policy (SR-TE)

Segment Routing Traffic Engineering Policy (SR-TE) policy uses Segment Routing (SR) to enable a headend to steer traffic along any path without maintaining per flow state in every node based on the policy. Configuring SR policy for the MPLS dataplane (SR-MPLS) for Type-1 SR policy segments with BGP and locally configured policies as sources of SR policy is available on DCS-7500 and DCS-7280 family of switches.

SR Policy Overview

SR Policy Identification
The following identifies an SR policy.
  • Endpoint: an IPv4 or IPv6 address which refers to the destination of the policy. (0/0, 0:: are allowed and called “null endpoints”)
  • Color: an unsigned 32-bit opaque numerical quantity. The semantic of a color is up to the operator. It can refer to, for instance, an application or a type of traffic (low latency) or a geographical location, etc.
SR Policy Constituents
The SR policy consists of candidate paths. Each candidate path has the following.
  • SID-lists (SLs): an ordered list of Segment Identifiers. (Each SID is a MPLS label in the MPLS instantiation of SR). An SL encodes one path from the headend to the destination. Each SL has an optional weight attached to it for the purpose of Unequal Cost Multipath (UCMP) traffic distribution. The default value for SL weight is 1.
  • Preference: an optional, unsigned 32-bit integer used in the candidate path selection algorithm to select the “active” candidate path. The default value for preference is 100.
  • Binding SID (BSID): an optional, SID.
    Note: In EOS, a BSID is mandatory for each candidate path.
SR Policy Sources
A headend learns SR policies using the following.
  • BGP
    • Single agent routing model (Ribd)
    • Multi-agent routing model
  • Local configuration using CLI
    • Single agent routing model (Ribd)
    • Multi-agent routing model
    • Openconfig YANG models
  • PCEP
    Note: PCEP is not supported in EOS.

Identity of a Candidate Path

A candidate path within an SR policy is identified by a 3-tuple of {Protocol-Origin, Originator, Discriminator}. In EOS, for locally configured policies:
  • the ASN in the Originator is set to 0.
  • the node address in the Originator is set to 0.0.0.0.
  • discriminator is set to the Preference configured.
    Note: EOS CLI allows configuring only one candidate path at a given preference and does not allow configuring the discriminator for a candidate path.

State of an SID List (SL)

The following describes the state of an SL.
  • Valid: the top label of the SL is resolvable within the LFIB to outgoing next hop(s), interface(s) and a label action.
  • Invalid: top label of the SL is not resolvable to outgoing next hop(s), interface(s) and a label action. An SL is also marked as invalid when the SL is resolvable, but the resolved labeled stack exceeds the platform’s maximum SID depth (SID), that is, exceeds the maximum number of labels the platform can push in to the outgoing packet.
    Note: The state is either valid or invalid.

State of a Candidate Path

The following describes the states of a candidate path.
  • Invalid: not eligible to participate in the best/active candidate path selection algorithm because of one of the reasons below.
    • all constituent SLs are invalid
    • Binding SID is not present
    • Binding SID is present but outside SRLB range
  • Valid: At least one SL is valid and has lost out to some other candidate path in the best / active candidate path selection algorithm.
  • Active: The candidate path is valid and is the winner in the best / active candidate path selection algorithm. The active candidate path is installed in the switch hardware and used for forwarding traffic.

State of an SR Policy

An SR policy is “valid” when at least one of its candidate paths is valid as described above. Otherwise, the SR policy is said to be “invalid”.

Resolution of an SL

An SL is resolved if the top label (first SID) can be resolved in the system Labeled FIB (LFIB) to yield a nexthop and outgoing interface(s). The other labels in the SID-List do not play a part in resolution.

Best Candidate Path (Active Candidate Path) Selection Algorithm

EOS overrides selection based on discriminator by retaining the current active candidate path even when current active path has a lower discriminator value. This reduces the active path flap when a new path is learnt of the same significance. The following is a summary of valid candidate paths ordering for a given policy.
  1. Candidate path with higher preference is chosen.
  2. Locally configured candidate path is chosen over BGP learnt path
  3. Lower originator is chosen.
    1. Lower AS number of Originator field is chosen
    2. Lower Node address of Originator field is chosen
  4. Current active candidate path is chosen

The following displays the reason for a path not getting selected as an active path for a specified policy.

switch# show traffic-engineering segment-routing policy endpoint <endpoint> color <color>

Binding SID

The use cases for Binding SID are the following.
  • Stitch together multiple domains
  • Stitch together different traffic tunnels
  • Overcome label stack imposition limitation in hardware.

BSID Conflict Handling

Examples

  1. (Between Policies): If the policy (E1, C1) becomes eligible to be active first then it would be installed in the LFIB and the policy (E2,C2) whose best path(CP1) is in conflict with the Policy (E1, C1) and will not become active.
    • Policy(E1, C1): CP1: Binding-SID 965536 (wins best path)
    • Policy(E2, C2): CP1: Binding-SID 965536 (wins best path)
    • CP2: Binding-SID 965537
  2. (with other Application): The SR-TE policies have the lowest preference when there is a conflict with any other application in EOS using the SRLB range. The candidate paths which have the binding-SID as that of an LFIB entry by another application (for example, static adjacency segment) will be kept as “invalid”.

In both the cases, when the conflict no longer exists, the candidate paths are re-evaluated and may become active.

BGP as a Source of Policies

SR Policies from a BGP peer (a controller, route reflector) is received for installation at the headend by EOS. It does not propagate the received policies to BGP peers nor does it originate SR Policies for transmission to BGP peers.

The following are supported over IPv4 or IPv6 peers which can be single hop or multi-hop iBGP or eBGP peers.

  1. SAFI 73 for AFI 1 and AFI 2: IPv4 and IPv6 policy endpoints, with the encoding defined in section 2.1 of Advertising Segment Routing Policies in BGP.
    Note: The nexthop address-family must match the AFI of the NLRI.
  2. Sub-TLVs of Tunnel Encapsulation TLV of type 15 (SR-TE Policy Type) of the Tunnel Encapsulation Path Attribute:
    1. Preference (Sub-TLV Type 12)
    2. Binding SID (Sub-TLV Type 13) of length 2 or 6 bytes
    3. Segment List (Sub-TLV Type 128). The following Segment List sub-TLVs are supported:
      1. Type 1 Segment (Sub-TLV type 1)
      2. Weight (Sub-TLV type 9)
    4. Explicit NULL Label Policy (Sub-TLV Type 14)
Note: All other sub-TLVs of the Tunnel Encapsulation TLV and Segment List sub-TLVs are ignored.

Route-Target and NO_ADVERTISE Community in SR-TE SAFI Updates

EOS implements the Acceptance and Usability checks as defined in sections 4.2.1 and 4.2.2 of the IETF draft Advertising Segment Routing Policies in BGP. However EOS skips matching the Route-Target with the router-ID of the headend if the SR-TE NLRI is tagged with NO_ADVERTISE community.

ECMP is not supported for SR-TE SAFI Paths

EOS does not support ECMP for BGP SR-TE SAFI. Only one best candidate path is chosen by BGP path selection and published to SR-TE Policy Agent for candidate path selection.
Note: ECMP of BGP next hops where each next hop resolves to an SR-TE policy is supported.

Path Selection within BGP

The IETF draft Advertising Segment Routing Policies in BGP supports passing multiple candidate paths from a single protocol source for an SR-TE policy path selection. Hence it includes a field distinguisher in the NLRI which can be unique for each controller to make BGP pass through the policies. However when multiple sources use the same distinguisher, BGP performs a path selection for the tuple: Endpoint, Color and Distinguisher. The best path for that tuple is published to the SR-TE Policy Agent for selecting an Active path. The best bgp-best-path selection applies to SR-TE SAFI as well.

Error Handling / Edge Cases

  • Weight 0: The IETF draft does not limit the range of SL weight to exclude weight 0. A SID-List with weight 0 is not used for forwarding so BGP module in EOS does not pass on SID-Lists with weight 0 to the SR-TE policy agent. Such SID-Lists will be visible in show bgp sr-te commands but not in show traffic-engineering segment-routing policy commands.
  • Empty SLs: Given the TLV encoding used to propagate SR Policies in BGP, it is possible to receive SID-Lists that have no SIDs (SID-Lists are empty). The BGP module in EOS does not pass such empty SID-Lists to SR-TE policy agent. Such SID-Lists will be visible in show bgp sr-te commands but not in show traffic-engineering segment-routing policy commands.
  • Non Type 1 segments: EOS supports only Type-1 segments. If a BGP update is received with a SID-List that has non Type-1 segments, the entire SID-List is ignored and BGP-4-SRTE_IGNORED_SEGMENT_LIST_UNSUPPORTED_SEGMENTS syslog is emitted. Such SID-Lists are not stored locally, and show bgp sr-te command does not display them.
    Note: The SID-Lists that are made up of all Type-1 segments are passed on to the SR-TE policy agent.

Steering Traffic into a Policy

Incoming label is BSID - “Labelled Steering”

At the headend when a packet is received with a label stack that has a BSID of an active CP of a valid SR Policy as the top label, the headend pops the label, and imposes the resolved label stack on the outgoing packet.

Example

Consider an SR Policy with an active candidate path with BSID 965536 and SL with label stack [965540, 900001, 900002]. Assume that 965540 is an IS-IS SR Adjacency SID. An incoming packet has label stack [965536, 100000] then the outgoing label stack is [900001, 900002, 100000].

Steering BGP learnt IP(v6) prefixes - “IP Steering”

Incoming label is BSID - “Labelled Steering”

At the headend, BGP IPv4 and IPv6 routes received with one or more extended color communities are recursively resolved through any active SR Policy that matches the BGP routes’ nexthop and color. When an IPv4 or IPv6 packet is received that is forwarded using this policy, the SL’s resolved label stack is imposed in the outgoing packet.

For BGP routes received with color community to be steered via an SR policy, the route’s nexthop must already be resolvable through IGP. If there is no resolving route in IGP, the route is considered unresolvable and will not be programmed in hardware even if there is a matching SR policy for the corresponding nexthop and color.

If there is no matching SR policy for the received BGP nexthop and color, the route will be resolved through the IGP route in IP RIB. If an active SR policy that matches the BGP nexthop and color gets instantiated at a later time, the BGP route will change from resolving through IGP to the new active SR policy.
Note: The recursion through SR policy is only applicable for BGP routes that are active in RIB.

Color only IP steering using CO bits

It is possible to relax the requirement of an exact match of the BGP route’s nexthop with the endpoint of the SR Policy using the “CO” (Color Only) bits in the color extended community. The “CO” bits are 2 reserved bits repurposed for color only steering as defined in section 3 of Advertising Segment Routing Policies in BGP. The exact match of the nexthop is done with the CO bits set to 00 or 11.

CO = 01 Steering: relaxes the nexthop to match the null endpoint of a policy. For a BGP route with nexthop N and color C, the following order is used for resolution. If there is no IGP route resolving the BGP nexthop, the route is not programmed in hardware.
  1. Active SR policy with endpoint N and color C
  2. Active SR policy with null endpoint (from the same AFI as the BGP route) and color C
  3. Active SR policy with null endpoint from any AFI and color C
  4. IGP route

CO = 10 Steering: in addition to the steps in CO = 01 steering, CO = 10 additionally relaxes the nexthop to match any endpoint. The following order is used for resolving a BGP route with nexthop N and color C. The behavior described is in accordance with section 8.8.1 of the IETF draft Segment Routing Policy for Traffic Engineering.

  1. Active SR policy with endpoint N and color C
  2. Active SR policy with null endpoint (from the same AFI as the BGP route) and color C
  3. Active SR policy with null endpoint from any AFI and color C
  4. Active SR policy for any endpoint from the same AFI as the BGP route and color C
  5. Active SR policy for any endpoint from any AFI and color C
  6. IGP route

ECMP of IPv4/IPv6 Prefixes that Resolve over SR-TE Policies

When multiple BGP paths of BGP unicast prefixes resolve through active SR policies form ECMP, the resulting FIB entry for the BGP route has an ECMP of segment list paths which is a union of all the segments-list entries present in each of the resolving SR policies for the BGP paths.

Example

The following table displays four paths for prefix 192.1.0.0/31, and each of the four paths resolves via SR-TE policies.

Table 1. List of Paths Resolved via SR-TE Policies
Path Nexthop Color Policy EP Policy Color Segment Lists Per SL Traffic Distribution
1 1.0.0.2 CO(00):1000 1.0.0.2 1000 [2500 500], Weight: 1

[2501 500], Weight: 2

 8.33%

16.66%
2 1.0.2.2 CO(00):2000 1.0.2.2 2000 [2502 500], Weight: 1

[2503 500], Weight: 1

 12.5%

12.5%
3 1.0.4.2 CO(00):3000 1.0.4.2 3000 [2504 500], Weight: 1

[2505 500], Weight: 1

 12.5%

12.5%
4 1.0.6.2 CO(00):4000 1.0.6.2 4000 [2506 500], Weight: 1

[2507 500], Weight: 1

 12.5%

12.5%

 
 B I    192.1.0.0/31 [200/0] via SR-TE Policy 1.0.4.2, color 3000
                             via SR-TE tunnel index 6, weight 1
                                via 1.0.4.2, Ethernet1, label 2505 500
                             via SR-TE tunnel index 5, weight 1
                                via 1.0.4.2, Ethernet1, label 2504 500
                          via SR-TE Policy 1.0.0.2, color 1000
                             via SR-TE tunnel index 2, weight 1
                                via 1.0.0.2, Ethernet2, label 2501 500
                             via SR-TE tunnel index 1, weight 1
                                via 1.0.0.2, Ethernet2, label 2500 500
                          via SR-TE Policy 1.0.2.2, color 2000
                             via SR-TE tunnel index 4, weight 1
                                via 1.0.2.2, Ethernet3, label 2503 500
                             via SR-TE tunnel index 3, weight 1
                                via 1.0.2.2, Ethernet3, label 2502 500
                          via SR-TE Policy 1.0.6.2, color 4000
                             via SR-TE tunnel index 8, weight 1
                                via 1.0.6.2, Ethernet6, label 2507 500
                             via SR-TE tunnel index 7, weight 1
                                via 1.0.6.2, Ethernet6, label 2506 500

The traffic distribution honors the weights of the SID-Lists. In the example, each of the four SR Policies will get 25% of the total traffic meant for prefix 192.1.0.0/31. Within each policy, the distribution is based on the weights of the SID-Lists.

ECMP Group when some BGP unicast paths resolve over SR Policies and some via non SR Policy IGP paths

If some BGP paths resolve via SR Policy paths and some BGP paths resolve via non SR Policy IGP, then the ECMP group formed programmed as the active route in FIB, only considers the SR Policy paths. ECMP in the FIB is not formed between paths that resolve over SR Policy and paths that resolve via non SR Policy IGP routes. In the example above, if SR Policy with endpoint 1.0.6.2 and color 4000 becomes inactive or is removed, the FIB path for 192.1.0.0/31 resolves via 3 SR Policies as shown below.
B I    192.1.0.0/31 [200/0] via SR-TE Policy 1.0.4.2, color 3000
                             via SR-TE tunnel index 6, weight 1
                                via 1.0.4.2, Ethernet1, label 2505 500
                             via SR-TE tunnel index 5, weight 1
                                via 1.0.4.2, Ethernet1, label 2504 500
                          via SR-TE Policy 1.0.0.2, color 1000
                             via SR-TE tunnel index 2, weight 1
                                via 1.0.0.2, Ethernet2, label 2501 500
                             via SR-TE tunnel index 1, weight 1
                                via 1.0.0.2, Ethernet2, label 2500 500
                          via SR-TE Policy 1.0.2.2, color 2000
                             via SR-TE tunnel index 4, weight 1
                                via 1.0.2.2, Ethernet3, label 2503 500
                             via SR-TE tunnel index 3, weight 1
                                via 1.0.2.2, Ethernet3, label 2502 500
Note: show ip bgp still shows a 4-way ECMP. The FIB paths switch to resolving via the (non SR Policy) IGP paths when there are no BGP paths in the ECMP group that resolve via an SR Policy.

UCMP of IPv4/IPv6 prefixes using LinkBandwidth (LBW) Extended Community that resolve over SR-TE policies not supported

When multiple BGP paths of BGP unicast prefixes resolve through active SR policies form ECMP, and the unicast paths also contain the LBW extended community, EOS does not form UCMP amongst the unicast paths. Only ECMP is formed at the unicast prefix level. The LBW is ignored the behavior is identical to the behavior explained in the previous section.

Resolution of BGP unicast prefixes that resolve over other BGP unicast prefixes resolved via SR Policies

A BGP unicast prefix P1, that is recursively resolved via another BGP prefix P2, such that P2 resolves via an SR Policy, then in the FIB, P1 is programmed with the resolved nexthop pointing to the non SR Policy resolution of P2. P1 does not use P2s SR Policy for forwarding.

Explicit Null Label Imposition

When the address family of the BGP unicast prefix is not the same as the address family of the endpoint of the SR Policy that the unicast prefixes resolves via, an explicit null label is automatically imposed in the outgoing label stack.

Example

If an IPv4 unicast prefix P1 resolves over a policy whose endpoint EP1 is an IPv6 address (this can happen due to color only CO=01/10 steering with P1 having an IPv4 nexthop) and the SR Policy had a SID-List whose resolved label stack is [1001, 1002, 1003], the outgoing packet is imposed with [1001, 1002, 1003, 2] where 0 is the IPv4 explicit null label.

If an IPv6 prefix P2, resolves over a policy whose endpoint EP2 is an IPv4 address (this can happen with color only CO=01/10 steering with P2 having a IPv6 nexthop) and the SR Policy had a SID-List whose resolved label stack is [1001, 1002, 1003], the outgoing packet is imposed with [1001, 1002, 1003, 2] where 2 is the IPv6 explicit null label.

The following table lists the configurations which result in having explicit-null label in the resolved label stack.

Table 2. Configurations resulting in Explicit-Null Label in Resolved Label Stack
ENLP configuration for the resolving SR Policy IPv4 Prefixes IPv6 Prefixes
None - -
IPv4 IPv4 explicit null appended to the end of label stack -
IPv6 - IPv6 explicit null appended to the end of label stack
Both IPv4 explicit null appended to the end of label stack IPv6 explicit null appended to the end of label stack
No/Default config (incase of BGP learnt policies ENLP Sub-TLV is not received) Resolving SR Policy has IPv4 Endpoint address:

No explicit-null

 Resolving SR Policy has IPv4 Endpoint address:

IPv6 explicit null appended to the end of label stack
Resolving SR Policy has IPv6 Endpoint address:

IPv4 explicit null appended to the end of label stack

 Resolving SR Policy has IPv6 Endpoint address:

No explicit-null

Traffic Accounting

All egress tunnel counters (MPLS/GRE/MPLSoGRE using SR-TE/Nexthop-group/BGP-LU tunnel types) share the same hardware resource.
  • 7280E/7500E systems: Up to 16k tunnels
  • 7280R/7500R systems: Up to 8k tunnels
Tunnel counters are allocated on a first-come, first-served basis. Configurations using GRE/MPLSoGRE, GRE, and MPLS further limit a maximum of 4k countable egress MPLS tunnels on 7280R/7500R.

FEC Optimizations

The hardware FEC usage could be reduced as the underlying FEC is shared among different routes.
  • Programming of the active candidate path of an SR-TE policy in hardware is shared between the BSID route and IP steering route.
  • If all of the following conditions are met, ISIS-SR MPLS routes and tunnel entries directly point to the next hop FEC generated by the routing agent (IGP FEC).
    • All the next hops of the MPLS route either point to pop or forward (i.e. swapping to the same label) label action.
    • The switch is either a 7280 or a 7500 platform.
  • The corresponding SR-TE policy BSID routes (and corresponding Segment List tunnels) that resolve over ISIS-SR MPLS routes, will directly point to the IGP FEC.

Configuring SR-TE

The following commands start the SrTePolicy agent and enter the switch into the Traffic Engineering configuration sub-mode.
switch(config)# router traffic-engineering
switch(config-te)# segment-routing
Note: The agent must be running even if the only source of policies is BGP.
Static Policy Configuration
The following commands set the policy using endpoint and color value, and define the BSID for the policy.
switch(config-te-sr)# policy endpoint v4Address|v6Address color color-value
switch(config-te-sr-policy)# binding-sid mpls-label
switch(config-te-sr-policy)# path-group preference value
The following commands enter the policy path configuration sub mode, and adds a segment list to the candidate path.
switch(config-te-sr-policy)# path-group preference value
switch(config-te-sr-policy-path)# segment-list label-stack label1 label2 … weight value
Note: The default weight value is 1. Adding weight is optional. Repear the configuration statement for multiple segment lists per candidate path.
The following commands configures a null label policy.
switch(config-te-sr-policy-path)# explicit-null [none|ipv4|ipv6|both]
Note: The null label policy configuration is optional.

BGP configuration for SR-TE SAFI

The following commands configures a BGP router to activate a neighbor to negotiate and accept SR-TE address-family with this peer.
switch(config)# router bgp <as>
switch(config-router-bgp)# address-family ipv4|ipv6 sr-te
switch(config-router-bgp-af-srte)# neighbor neighbor activate
The following command configures an inbound route-map to filter or modify attributes on incoming SR-TE prefixes from the peer.
switch(config-router-bgp-af-srte)# neighbor neighbor route-map routeMapName in

Configuring Egress SR-TE Traffic Accounting

The following command enables egress traffic accounting for SR policies (also known as MPLS tunnels).
switch(config)# hardware counter feature mpls tunnel
The following command displays current status of the MPLS counters.
switch#show hardware counter feature
Feature            Direction        Counter Resource (Engine)
------------------ ---------------- --------------------------
ACL-IPv4           out              Jericho: 2, 3
ACL                in               Jericho: 4, 5, 6, 7
MPLS tunnel        out              Jericho: 8, 9
The following command disables egress traffic accounting for SR policies.
switch(config)# no hardware counter feature mpls tunnel
The following command displays a summary information of SR-TE SAFI.
switch# show bgp sr-te summary
BGP summary information for VRF default
Router identifier 100.1.1.2, local AS number 100
Neighbor Status Codes: m - Under maintenance
  Neighbor         V  AS           MsgRcvd   MsgSent  InQ OutQ  Up/Down State  PfxRcd PfxAcc
  100.1.1.1        4  100              407       413    0    0 00:18:57 Estab  1      1
  1000::1          4  100              407       413    0    0 00:18:57 Estab  1      1
The following command displays a summary information of candidate paths received from neighbors which have negotiated AFI=1 for SR-TE SAFI.
switch# show bgp sr-te ipv4 summary
BGP summary information for VRF default
Router identifier 100.1.1.2, local AS number 100
Neighbor Status Codes: m - Under maintenance
  Neighbor    V  AS   MsgRcvd  MsgSent InQ OutQ  Up/Down  State  PfxRcd PfxAcc
  100.1.1.1   4  100  407      413     0   0     00:18:57 Estab  0      0
The following command displays a summary information of candidate paths received from neighbors which have negotiated AFI=2 for SR-TE SAFI.
switch# show bgp sr-te ipv6 summary
BGP summary information for VRF default
Router identifier 100.1.1.2, local AS number 100
Neighbor Status Codes: m - Under maintenance
  Neighbor     V  AS   MsgRcvd  MsgSent InQ OutQ  Up/Down  State  PfxRcd PfxAcc
  1000::1      4  100  407      413     0   0     00:18:57 Estab  0      0
The following command displays all the SR-TE candidate paths.
switch# show bgp sr-te
BGP routing table information for VRF default
Router identifier 100.1.1.1, local AS number 100
Policy status codes: * - valid, > - active, E - ECMP head, e - ECMP
                    c - Contributing to ECMP
Origin codes: i - IGP, e - EGP, ? - incomplete
AS Path Attributes: Or-ID - Originator ID, C-LST - Cluster List, LL Nexthop - Link Local Nexthop

     Endpoint    Color   Distinguisher   Next Hop    Metric  LocPref Weight  Path
*>   133.1.1.1   0       1               130.1.1.3   0       100     0       ?
*>   133.1.1.1   0       2               130.1.1.3   0       100     0       ?
*>   1330::1     0       1               1300::3     0       100     0       ?
*>   1330::1     0       2               1300::3     0       100     0       ?
The following command displays all the SR-TE candidate paths with IPv4 endpoints.
switch# show bgp sr-te ipv4
BGP routing table information for VRF default
Router identifier 100.1.1.1, local AS number 100
Policy status codes: * - valid, > - active, E - ECMP head, e - ECMP
                    c - Contributing to ECMP
Origin codes: i - IGP, e - EGP, ? - incomplete
AS Path Attributes: Or-ID - Originator ID, C-LST - Cluster List, LL Nexthop - Link Local Nexthop

     Endpoint   Color   Distinguisher   Next Hop    Metric  LocPref Weight  Path
*>   133.1.1.1  0       1               130.1.1.3   0       100     0       ?
*>   133.1.1.1  0       2               130.1.1.3   0       100     0       ?
The following command displays all the SR-TE candidate paths with IPv6 endpoints.
switch# show bgp sr-te ipv6
BGP routing table information for VRF default
Router identifier 100.1.1.1, local AS number 100
Policy status codes: * - valid, > - active, E - ECMP head, e - ECMP
                    c - Contributing to ECMP
Origin codes: i - IGP, e - EGP, ? - incomplete
AS Path Attributes: Or-ID - Originator ID, C-LST - Cluster List, LL Nexthop - Link Local Nexthop

     Endpoint   Color   Distinguisher   Next Hop   Metric  LocPref Weight  Path
*>   1330::1    0       1               1300::3    0       100     0       ?
*>   1330::1    0       2               1300::3    0       100     0       ?
The following command displays information about a specific candidate path.
switch# show bgp sr-te endpoint 133.1.1.1 color 0 distinguisher 1
BGP routing table information for VRF default
Router identifier 100.1.1.1, local AS number 100
BGP routing table entry for Endpoint: 133.1.1.1 Color: 0 Distinguisher: 1
 Paths: 1 available
  Local
    130.1.1.3 from 100.1.1.2 (100.1.1.2)
      Origin INCOMPLETE, metric 0, localpref 100, IGP metric 0, weight 0, 
      received 00:01:29 ago, valid, internal, best
      Community: no-advertise
      Rx SAFI: SR TE Policy
The following command displays information about a specific candidate path including the contents of the Tunnel encapsulation path attribute TLV of type SR policy.
switch# show bgp sr-te endpoint 133.1.1.1 color 0 distinguisher 1 detail
BGP routing table information for VRF default
Router identifier 100.1.1.1, local AS number 100
BGP routing table entry for Endpoint: 133.1.1.1 Color: 0 Distinguisher: 1
 Paths: 1 available
  Local
    130.1.1.3 from 100.1.1.2 (100.1.1.2)
      Origin INCOMPLETE, metric 0, localpref 100, IGP metric 0, weight 0, 
      received 00:01:29 ago, valid, internal, best
      Community: no-advertise
      Rx SAFI: SR TE Policy
      Tunnel encapsulation attribute: SR Policy
         Preference: 200
         Binding SID: 965536
         Explicit null label policy: IPv4
         Segment-List: Label Stack: [ 16004 16003 ], Weight: 10
         Segment-List: Label Stack: [ 2000 3000 ]
The following command displays information about SR candidate paths received from the specified neighbor. The “policies” keyword displays only the candidate paths that are accepted. “received-policies” additionally also displays the rejected candidate paths.
switch# show bgp neighbors 100.1.1.2 ipv4 sr-te policies
BGP routing table information for VRF default
Router identifier 100.1.1.1, local AS number 100
Policy status codes: * - valid, > - active
Origin codes: i - IGP, e - EGP, ? - incomplete
AS Path Attributes: Or-ID - Originator ID, C-LST - Cluster List, LL Nexthop - Link Local Nexthop

     Endpoint   Color   Distinguisher   Next Hop    Metric  LocPref Weight  Path
*>   133.1.1.1  0       1               133.1.1.3   0       100     0       ?
*>   133.1.1.1  0       2               133.1.1.3   0       100     0       ?
The following command displays information about SR candidate paths received from the specified neighbor along with the contents of the Tunnel Encapsulation path attribute’s TLV of type SR Policy. The policies keyword displays only the candidate paths that are accepted. received-policies additionally also displays the rejected candidate paths..
switch# show bgp neighbors 100.1.1.2 ipv4 sr-te policies detail
BGP routing table information for VRF default
Router identifier 100.1.1.1, local AS number 100
BGP routing table entry for Endpoint: 133.1.1.1 Color: 0 Distinguisher: 2
 Paths: 1 available
  Local
    130.1.1.3 from 100.1.1.2 (100.1.1.2)
      Origin INCOMPLETE, metric 0, localpref 100, IGP metric 0, weight 0, 
      received 00:01:29 ago, invalid, internal
      Rx SAFI: SR TE Policy
      Tunnel encapsulation attribute: SR Policy
         Preference: 200
         Binding SID: 965536
         Explicit null label policy: IPv4
         Segment-List: Label Stack: [ 16004 16003 ], Weight: 10
         Segment-List: Label Stack: [ 2000 3000 ]

PBR Policies

Policy-Based Routing (PBR) allows the operator to specify the next hop for selected incoming packets on an L3 interface, overriding the routing table. Incoming packets are filtered through a policy map referencing one or more ACLs, and matching packets are routed to the next hop specified.

A PBR policy map is composed of one or more classes and can include next-hop information for each class. It can also include single-line raw match statements, which have the appearance and function of a single line from an ACL. Each class contains an eponymous class map. Class maps are user-created, can be edited or deleted, filter traffic using IPv4 ACLs, and are listed in running-config.

These sections describe PBR policy configuration procedures:

Traffic Management Configuration Arad Platform Switches

Traffic policies are implemented by policy maps, which are applied to the control plane, or to L3 interfaces for Policy-Based Routing (PBR). Policy maps contain classes, which are composed of class maps and traffic resolution commands.

Traffic Management Conceptual Overview describes traffic policies.

Configuring Control Plane Traffic PoliciesArad Platform Switches

Default control plane traffic policies are implemented automatically without user intervention. These policies are modified by associating traffic resolution commands with static classes that comprise the control plane policy map.

Static Class Maps

Control plane traffic policies utilize static class maps, which are provided by the switch, are not editable, and cannot be deleted.

Editing the Policy Map

The only control plane policy map is copp-system-policy, which cannot be deleted. In its default form, copp-system-policy consists of the classes listed in class (policy-map (control-plane) Arad). Although the underlying class map of each class cannot be edited, the traffic resolution commands can be adjusted. The default classes cannot be removed from the policy map and their sequence within the policy map is not editable.

Policy maps are modified in policy-map configuration mode. The policy-map type copp command enters policy-map configuration mode.

Example

This command enters policy-map configuration mode for editing copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)#

The class (policy-map (control-plane) Arad) command enters policy-map-class configuration mode, where traffic resolution commands are modified for the configuration mode class.

Example

This command enters policy-map-class configuration mode for the copp-system-lacp static class.
switch(config-pmap-copp-system-policy)# class copp-system-lacp
switch(config-pmap-c-copp-system-policy-copp-system-lacp)#

Two traffic resolution commands determine bandwidth parameters for class traffic:

Example

These commands configure a bandwidth range of 2000 to 4000 kilobits per seconds (kbps) for traffic filtered by the copp-system-lacp class map:
switch(config-pmap-c-copp-system-policy-copp-system-lacp)# bandwidth kbps 2000
switch(config-pmap-c-copp-system-policy-copp-system-lacp)# shape kbps 4000
switch(config-pmap-c-copp-system-policy-copp-system-lacp)#

Policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the saved version of policy map. The show pending command displays the modified policy map.

Example

These commands exit policy-map-class configuration mode, display the pending policy-map, then exit policy-map configuration mode, which saves the altered policy map to running-config.
switch(config-pmap-c-copp-system-policy-copp-system-lacp)# exit
switch(config-pmap-copp-system-policy)# show pending
policy-map type copp copp-system-policy
  class copp-system-bpdu

  class copp-system-lldp

  class copp-system-lacp
    shape kbps 4000
    bandwidth kbps 2000

  class copp-system-l3ttl1

  class copp-system-l3slowpath


switch(config-pmap-copp-system-policy)# exit
switch(config)#

Applying Policy Maps to the Control Plane

The copp-system-policy policy map is always applied to the control plane. No commands are available to add or remove this assignment.

Displaying Policy Maps

The show policy-map interface type qos command displays the configured values of the policy maps classes and the number of packets filtered and dropped as a result of the class maps.

Example
These commands exit policy-map-class configuration mode, display the pending policy-map, then exit policy-map configuration mode, which saves the altered policy map to running-config.
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy
  Hardware programming status: InProgress

  Class-map: copp-system-mlag (match-any)
       shape : 10000001 kbps
       bandwidth : 10000001 kbps
      Out Packets : 0
      Drop Packets : 0

  Class-map: copp-system-bpdu (match-any)
       shape : 2604 kbps
       bandwidth : 1302 kbps
      Out Packets : 0
      Drop Packets : 0

  Class-map: copp-system-lacp (match-any)
       shape : 4230 kbps
       bandwidth : 2115 kbps
      Out Packets : 0
      Drop Packets : 0

switch(config)#

switch(config-pmap-c-copp-system-policy-copp-system-lacp)# exit

Configuring QoS Traffic Policies Arad Platform Switches

QoS traffic policies are implemented by creating class maps and policy maps, then applying the policy maps to Ethernet and port channel interfaces.

Creating Class Maps

QoS traffic policies utilize dynamic class maps that are created and modified in class-map configuration mode. The class-map type qos command enters class-map configuration mode.

Example

This command enters class-map configuration mode to create QoS class map named Q-CMap_1.
switch(config)# class-map type qos match-any Q-CMap_1
switch(config-cmap-Q-CMap_1)#

A class map contains one IPv4 access control list (ACL). The match ip access-group command assigns an ACL to the class map. Subsequent match commands replace the existing match command. Class maps filter traffic only on ACL permit rules. Deny ACL rules are disregarded.

Example

This command adds the IPv4 ACL named ACL_1 to the class map.
switch(config-cmap-Q-CMap_1)# match ip access-group ACL_1
switch(config-cmap-Q-CMap_1)#

Class-map configuration mode is a group-change mode. Changes made in a group-change mode are saved by exiting the mode. The show active command displays the saved version of class map. The show pending command displays the unsaved class map.

Example

The show active command indicates that the configuration mode class map is not stored in running-config. The show pending command displays the class map to be stored upon exiting class-map configuration mode.
switch(config-cmap-Q-CMap_1)# show active
switch(config-cmap-Q-CMap_1)# show pending
class-map type qos match-any Q-CMap_1
   match ip access-group ACL_1

switch(config-cmap-Q-CMap_1)#

The exit command returns the switch to global configuration mode and saves pending class map changes. The abort command returns the switch to global configuration mode and discards pending changes.

Example

This command exits class-map configuration mode and stores pending changes to running-config.
switch(config-cmap-CP-CMAP_1)# exit
switch(config)# show class-map type control-plane CP-CMAP_1
  Class-map: CP-CMAP_1 (match-any)
    Match: ip access-group name ACLv4_1
switch(config)#

Creating Policy Maps

Policy maps are created and modified in policy-map configuration mode. The policy-map type quality-of-service command enters policy-map configuration mode.

Example

This command places the switch in policy-map configuration mode and creates a QoS policy map named Q-PMAP_1.
switch(config)# policy-map type quality-of-service Q-PMAP_1
switch(config-pmap-Q-PMAP_1)#

Policy map are edited by adding or removing classes. A class automatically contains its eponymous class map; traffic resolution commands are added or edited in policy-map-class configuration mode. The below command adds a class to the configuration mode policy map and places the switch in policy-map-class configuration mode, where traffic resolution commands are added to the class.

Example

This command adds the Q-CMap_1 class to the Q-PMAP_1 policy map and places the switch in policy-map-class configuration mode.
switch(config-pmap-Q-PMAP_1)# class Q-CMap_1
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)#
The set cos commands configure traffic resolution methods for data that passes the class map:
  • set cos sets the Layer 2 CoS field.
  • set dscp sets the DSCP value in the ToS byte.
  • set traffic class specifies a traffic class queue.

Example

These commands configure the policy map to set the CoS field 7 on packets filtered by the class map, then assigns those packets to traffic class 4.
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# set cos 7
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# set traffic-class 4
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)#

Policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active and show pending commands display the saved and modified policy map versions, respectively.

Example

These commands exit policy-map-class configuration mode, display the pending policy-map, then exit policy-map configuration mode to save the altered policy map to running-config.
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# exit
switch(config-pmap-Q-PMAP_1)# show pending
policy-map type quality-of-service Q-PMAP_1
  class Q-CMap_1
    set cos 7
    set traffic-class 4

  class class-default

switch(config-pmap-Q-PMAP_1)# exit
switch(config)#

The last class in all QoS policy maps is class-default. The class-default class map matches all traffic except IPv4 or IPv6 traffic and provides no traffic resolution commands. The class-default class map is not editable; traffic resolution commands can be added to the class-default class.

To modify traffic resolution commands for the class-default class, enter policy-map-class configuration mode for the class, then enter the desired set commands.

Example

These commands enter policy-map-class configuration mode for class-default, configures the stream to enter traffic class 2, and saves the altered policy map to running-config.
switch(config)# policy-map type quality-of-service Q-PMap_1
switch(config-pmap-Q-PMap_1)# class class-default
switch(config-pmap-c-Q-PMap_1-class-default)# set traffic-class 2
switch(config-pmap-c-Q-PMap_1-class-default)# exit
switch(config-pmap-Q-PMap_1)# exit
switch(config)# show policy-map type qos Q-PMap_1
Service-policy Q-PMap_1

  Class-map: Q-CMap_1 (match-any)
    Match: ipv6 access-group name ACLv6_1
       set cos 7
       set traffic-class 4

  Class-map: class-default (match-any)
       set traffic-class 2

switch(config)#

Applying Policy Maps to an Interface

The service-policy type qos (Interface mode) command applies a specified policy map to the configuration mode interface.

These commands apply PMAP-1 policy map to interfaceEthernet 8.
switch(config)# interface ethernet 8
switch(config-if-Et8)# show active
switch(config-if-Et8)# service-policy input PMAP-1
switch(config-if-Et8)# show active
interface Ethernet8
   service-policy type qos input PMAP-1
switch(config-if-Et8)#

Configuring PBR Policies Arad Platform Switches

Policy-Based Routing (PBR) is implemented by creating class maps and policy maps, then applying the policy maps to Ethernet interfaces, port channel interfaces or switch virtual interfaces (SVIs).

Creating PBR Class Maps

PBR policies utilize class maps that are created and modified in the class-map configuration mode. The class-map type pbr command enters the class-map configuration mode.

Example

This command enters the class-map configuration mode to create a PBR class map named CMAP1.
switch(config)# class-map type pbr match-any CMAP1
switch(config-cmap-PBR-CMAP1)#
A class map contains one or more access control lists (ACLs). The match (policy-map (pbr)) command assigns an ACL to the class map. Subsequent match commands add additional ACLs to the class map. Class maps filter traffic only on ACL permit rules. Deny ACL rules are disregarded; if a class map includes ACLs with deny rules, the configuration reverts to its previous state.

Example

This command adds the ACL named ACL1 to the class map.
switch(config-cmap-PBR-CMAP1)# match ip access-group ACL1
switch(config-cmap-PBR-CMAP1)#

The class-map configuration mode is a group-change mode. Changes made in a group-change mode are saved by exiting the mode. The show active command displays the saved version of class map.

The show active command indicates that the configuration mode class map is not stored in running-config. 
switch(config-cmap-PBR-CMAP1)# show active
switch(config-cmap-PBR-CMAP1)#

The exit command returns the switch to the global configuration mode and saves pending class map changes. The abort command returns the switch to the global configuration mode and discards pending changes.

Example

This command exits class-map configuration mode and stores pending changes to running-config.
switch(config-cmap-PBR-CMAP1)# exit
switch(config)# show class-map type pbr CMAP1
class-map type pbr match-any CMAP1
   10 match ip access-group ACL1
switch(config)#

Creating PBR Policy Maps

Policy maps are created and modified in policy-map configuration mode. The policy-map type pbr command enters the policy-map configuration mode.

Example

This command enters the policy-map configuration mode for creating a PBR policy map named PMAP1.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)#

Policy map are edited by adding or removing classes. A class automatically contains its eponymous class map; next-hop commands are added or edited in the policy-map-class configuration mode. The class (policy-map (pbr)) command adds a class to the configuration mode policy map and places the switch in the policy-map-class configuration mode, where next-hop commands are added to the class.

Example
  • This command adds the CMAP1 class to the policy map and places the switch into the policy-map-class configuration mode.
    switch(config-pmap-PMAP1)# class CMAP1
switch(config-pmap-c-PMAP1-CMAP1)#

    The set nexthop (policy-map-class pbr) command configures the next hop for data that passes the class map.

  • This command configures the policy map to set the next hop to 10.12.0.5 on packets filtered by the class map.
    switch(config-pmap-c-PMAP1-CMAP1)# set nexthop 10.12.0.5
switch(config-pmap-c-PMAP1-CMAP1)#

    The set nexthop-group (policy-map-class(pbr) Arad) command configures a nexthop group as the next hop for data that passes the class map.

  • These commands configure the policy map PMAP1 to set the next hop to a nexthop group named GROUP1 for traffic defined by class map CMAP1. 
    switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)# class CMAP1
switch(config-pmap-c-PMAP1-CMAP1)# set nexthop-group GROUP1
switch(config-pmap-c-PMAP1-CMAP1)#

    The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the currently saved map version.

  • These commands exits the policy-map-class configuration mode, then exits the policy-map configuration mode to save the altered policy map to running-config.
    switch(config-pmap-c-PMAP1-CMAP1)# exit
switch(config-pmap-PMAP1)# exit
switch(config)#

Applying a PBR Policy Map to an Interface

The service-policy type pbr (Interface mode) command applies the specified PBR policy map to the configuration mode interface. Only one PBR service policy is supported per interface.

These commands apply the PMAP1 PBR policy map to interface ethernet 8.
switch(config)# interface ethernet 8
switch(config-if-Et8)# service-policy type pbr input PMAP1
switch(config-if-Et8)#

Hardware Decapsulation

When hardware decapsulation takes place, PBR policy maps on Arad platform switches match on outer packet headers (i.e., they match based on the attributes of the packet before it is decapsulated).

Traffic Management Configuration FM6000 Platform Switches

Traffic policies are implemented by policy maps, which are applied to the control plane or an interface. Policy maps contain classes, which are composed of class maps and traffic resolution commands. Traffic Management Conceptual Overview describes traffic policies.

FM6000 platform switches support the following traffic policies:
  • Control plane policies manage control plane traffic.
  • QoS traffic policies manage traffic on Ethernet and port channel interfaces.
These sections describe the construction and application of policy maps on FM6000 platform switches:

Configuring Control Plane Traffic PoliciesFM6000 Platform Switches

Default control plane traffic policies are implemented automatically without user intervention. These policies are modified by associating traffic resolution commands with static classes that comprise the control plane policy map.

Static Class Maps

Control plane traffic policies utilize static class maps, which are provided by the switch, are not editable, and cannot be deleted.

Editing the Policy Map

The only control plane policy map is copp-system-policy, which cannot be deleted. In its default form, copp-system-policy consists of the classes listed in copp-system-policy default classes: FM6000 Platform Switches. Although the underlying class map of each class cannot be edited, the traffic resolution commands can be adjusted. The default classes cannot be removed from the policy map and their sequence within the policy map is not editable.

Table 3. Copp-system-policy Default Classes: FM6000 Platform Switches
Class Name shape (pps) bandwidth (pps)
copp-system-arp 10000 1000
copp-system-default 8000 1000
copp-system-ipmcrsvd 10000 1000
copp-system-ipmcmiss 10000 1000
copp-system-igmp 10000 1000
copp-system-l2rsvd 10000 10000
copp-system-l3slowpath 10000 1000
copp-system-pim-ptp 10000 1000
copp-system-ospf-isis 10000 1000
copp-system-selfip 5000 5000
copp-system-selfip-tc6to7 5000 5000
copp-system-sflow 25000 1000

Policy maps are modified in the policy-map configuration mode. The policy-map type copp command enters the policy-map configuration mode.

Example

This command enters the policy-map configuration mode for editing copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)#

The class (policy-map (control-plane) FM6000) command enters the policy-map-class configuration mode, where traffic resolution commands are modified for the configuration mode class.

Example

This command enters the policy-map-class configuration mode for the copp-system-arp static class.
switch(config-pmap-copp-system-policy)# class copp-system-arp
switch(config-pmap-c-copp-system-policy-copp-system-arp)#
Two traffic resolution commands determine bandwidth parameters for class traffic:

Example

These commands configure a bandwidth range of 2000 to 4000 packets per seconds (pps) for traffic filtered by the copp-system-arp class map:
switch(config-pmap-c-copp-system-policy-copp-system-arp)# bandwidth pps 2000
switch(config-pmap-c-copp-system-policy-copp-system-arp)# shape pps 4000
switch(config-pmap-c-copp-system-policy-copp-system-arp)#

The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the saved version of policy map. The show pending command displays the modified policy map.

Example

These commands exit the policy-map-class configuration mode, display the pending policy-map, then exits the policy-map configuration mode, which saves the altered policy map to running-config.
switch(config-pmap-c-copp-system-policy-CP-CMAP_1)# exit
switch(config-pmap-copp-system-policy)# show pending
policy-map type copp copp-system-policy
  class CP-CMAP_1
    shape pps 4000
    bandwidth pps 2000

  class copp-system-bpdu

  class copp-system-lldp

  class copp-system-lacp

  class copp-system-arp



  class copp-system-arpresolver

  class copp-system-default

switch(config-pmap-copp-system-policy)#exit
switch(config)#

Applying Policy Maps to the Control Plane

The copp-system-policy policy map is always applied to the control plane. No commands are available to add or remove this assignment.

Configuring QoS Traffic Policies FM6000 Platform Switches

QoS traffic policies are implemented by creating class maps and policy maps, then applying the policy maps to Ethernet and port channel interfaces.

Creating Class Maps

QoS traffic policies utilize dynamic class maps that are created and modified in the class-map configuration mode. The class-map type qos command enters the class-map configuration mode.

Example

This command enters the class-map configuration mode to create QoS class map named Q-CMap_1.
switch(config)# class-map type qos match-any Q-CMap_1
switch(config-cmap-Q-CMap_1)#

A class map contains one IPv4 access control list (ACL). The match (class-map (qos) FM6000) command assigns an ACL to the class map. Subsequent match commands replace the existing match command. Class maps filter traffic only on ACL permit rules. Deny ACL rules are disregarded.

Example

This command adds the IPv4 ACL named ACL_1 to the class map.
switch(config-cmap-Q-CMap_1)# match ip access-group ACL_1
switch(config-cmap-Q-CMap_1)#

The class-map configuration mode is a group-change mode. Changes made in a group-change mode are saved by exiting the mode. The show active command displays the saved version of class map. The show pending command displays the unsaved class map.

Example

The show active command indicates that the configuration mode class map is not stored in running-config. The show pending command displays the class map to be stored upon exiting the class-map configuration mode.
switch(config-cmap-Q-CMap_1)# show active
switch(config-cmap-Q-CMap_1)# show pending
class-map type qos match-any Q-CMap_1
   match ip access-group ACL_1

switch(config-cmap-Q-CMap_1)#

The exit command returns the switch to the global configuration mode and saves pending class map changes. The abort command returns the switch to the global configuration mode and discards pending changes.

Example

This command exits the class-map configuration mode and stores pending changes to running-config.
switch(config-cmap-CP-CMAP_1)# exit
switch(config)# show class-map type control-plane CP-CMAP_1
  Class-map: CP-CMAP_1 (match-any)
    Match: ip access-group name ACLv4_1
switch(config)#

Creating Policy Maps

Policy maps are created and modified in the policy-map configuration mode. The policy-map type quality-of-service command enters the policy-map configuration mode.

Example

This command places the switch in the policy-map configuration mode and creates a QoS policy map named Q-PMAP_1.
switch(config)# policy-map type quality-of-service Q-PMAP_1
switch(config-pmap-Q-PMAP_1)#

Policy map are edited by adding or removing classes. A class automatically contains its eponymous class map; traffic resolution commands are added or edited in the policy-map-class configuration mode. The class (policy-map (qos) FM6000) command adds a class to the configuration mode policy map and places the switch in the policy-map-class configuration mode, where traffic resolution commands are added to the class.

Example

This command adds the Q-CMap_1 class to the Q-PMAP_1 policy map and places the switch in the policy-map-class configuration mode.
switch(config-pmap-Q-PMAP_1)# class Q-CMap_1
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)#
set (policy-map-class (qos) FM6000) commands configure traffic resolution methods for data that passes the class map:
  • set cos sets the Layer 2 CoS field.
  • set dscp sets the DSCP value in the ToS byte.
  • set traffic class specifies a traffic class queue.

Example

These commands configure the policy map to set the CoS field 7 on packets filtered by the class map, then assigns those packets to traffic class 4.
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# set cos 7
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# set traffic-class 4
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)#

The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active and show pending commands display the saved and modified policy map versions, respectively.

Example

These commands exit the policy-map-class configuration mode, display the pending policy-map, then exits the policy-map configuration mode to save the altered policy map to running-config.
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# exit
switch(config-pmap-Q-PMAP_1)# show pending
policy-map type quality-of-service Q-PMAP_1
  class Q-CMap_1
    set cos 7
    set traffic-class 4

  class class-default

switch(config-pmap-Q-PMAP_1)# exit
switch(config)#

The last class in all QoS policy maps is class-default. The class-default class map matches all traffic except IPv4 or IPv6 traffic and provides no traffic resolution commands. The class-default class map is not editable; traffic resolution commands can be added to the class-default class.

To modify traffic resolution commands for the class-default class, enter the policy-map-class configuration mode for the class, then enter the desired set commands.

Example

These commands enter the policy-map-class configuration mode for class-default, configures the stream to enter traffic class 2, and saves the altered policy map to running-config.
switch(config)# policy-map type quality-of-service Q-PMap_1
switch(config-pmap-Q-PMap_1) #class class-default
switch(config-pmap-c-Q-PMap_1-class-default)# set traffic-class 2
switch(config-pmap-c-Q-PMap_1-class-default)# exit
switch(config-pmap-Q-PMap_1)# exit
switch(config)# show policy-map type qos Q-PMap_1
Service-policy Q-PMap_1

  Class-map: Q-CMap_1 (match-any)
    Match: ipv6 access-group name ACLv6_1
       set cos 7
       set traffic-class 4

  Class-map: class-default (match-any)
       set traffic-class 2

switch(config)#

Applying Policy Maps to an Interface

The service-policy type qos (Interface mode) command applies a specified policy map to the configuration mode interface.

These commands apply PMAP-1 policy map to interface ethernet 8.
switch(config)# interface ethernet 8
switch(config-if-Et8)# show active
switch(config-if-Et8)# service-policy input PMAP-1
switch(config-if-Et8)# show active
interface Ethernet8
   service-policy type qos input PMAP-1
switch(config-if-Et8)#

Configuring PBR Policies FM6000 Platform Switches

Policy-Based Routing (PBR) is implemented by creating class maps and policy maps, then applying the policy maps to Ethernet interfaces, port channel interfaces or Switch Virtual Interfaces (SVIs).

Creating PBR Class Maps

PBR policies utilize class maps that are created and modified in the class-map configuration mode. The class-map type pbr command enters the class-map configuration mode.

Example

This command enters the class-map configuration mode to create a PBR class map named CMAP1.
switch(config)# class-map type pbr match-any CMAP1
switch(config-cmap-PBR-CMAP1)#

A class map contains one or more IPv4 access control lists (ACLs). The match (policy-map (pbr)) command assigns an ACL to the class map. Subsequent match commands add additional ACLs to the class map. Class maps filter traffic only on ACL permit rules. Deny ACL rules are disregarded; if a class map includes ACLs with deny rules, the configuration reverts to its previous state.

On FM6000 platform switches, counters are not supported, so a counters per-entry (ACL configuration modes) command in an ACL is ignored.

Example

This command adds the IPv4 ACL named ACL1 to the class map.
switch(config-cmap-PBR-CMAP1)# match ip access-group ACL1
switch(config-cmap-PBR-CMAP1)#

The class-map configuration mode is a group-change mode. Changes made in a group-change mode are saved by exiting the mode. The show active command displays the saved version of class map.

The show active command indicates that the configuration mode class map is not stored in running-config. 
switch(config-cmap-PBR-CMAP1)# show active
switch(config-cmap-PBR-CMAP1)#

The exit command returns the switch to global configuration mode and saves pending class map changes. The abort command returns the switch to global configuration mode and discards pending changes.

Example

This command exits the class-map configuration mode and stores pending changes to running-config.
switch(config-cmap-PBR-CMAP1)# exit
switch(config)# show class-map type pbr CMAP1
class-map type pbr match-any CMAP1
   10 match ip access-group ACL1
switch(config)#

Creating PBR Policy Maps

Policy maps are created and modified in the policy-map configuration mode. The policy-map type pbr command enters the policy-map configuration mode.

Example

This command enters the policy-map configuration mode for creating a PBR policy map named PMAP1.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)#

Policy map are edited by adding or removing classes. A class automatically contains its eponymous class map; next-hop commands are added or edited in the policy-map-class configuration mode. The class (policy-map (pbr)) command adds a class to the configuration mode policy map and places the switch in the policy-map-class configuration mode, where next-hop commands are added to the class.

Examples
  • This command adds the CMAP1 class to the policy map and places the switch in the policy-map-class configuration mode.
    switch(config-pmap-PMAP1)# class CMAP1
switch(config-pmap-c-PMAP1-CMAP1)#

    The set nexthop (policy-map-class pbr) command configures the next hop for data that passes the class map.

  • This command configures the policy map to set the next hop to 10.12.0.5 on packets filtered by the class map.
    switch(config-pmap-c-PMAP1-CMAP1)# set nexthop 10.12.0.5
switch(config-pmap-c-PMAP1-CMAP1)#

    The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the currently saved map version.

Example
These commands exits the policy-map-class configuration mode, then exits the policy-map configuration mode to save the altered policy map to running-config.
switch(config-pmap-c-PMAP1-CMAP1)# exit
switch(config-pmap-PMAP1)# exit
switch(config)#

Applying a PBR Policy Map to an Interface

The service-policy type pbr (Interface mode) command applies the specified PBR policy map to the configuration mode interface. Only one PBR service policy is supported per interface.

These commands apply the PMAP1 PBR policy map to interface ethernet 8.
switch(config)# interface ethernet 8
switch(config-if-Et8)# service-policy type pbr input PMAP1
switch(config-if-Et8)#

Hardware Decapsulation

When hardware decapsulation takes place, PBR policy maps on FM6000 platform switches match on outer packet headers (i.e., they match based on the attributes of the packet before it is decapsulated).

Traffic Management Configuration Petra Platform Switches

Traffic policies are implemented by policy maps, which are applied to the control plane. Policy maps contain classes, which are composed of class maps and traffic resolution commands. QoS traffic policies are not supported on 7500 Series switches.

Traffic Management Conceptual Overview describes traffic policies.

Configuring Control Plane Traffic PoliciesPetra Platform Switches

Default control plane traffic policies are implemented automatically without user intervention. These policies are modified by associating traffic resolution commands with static classes that comprise the control plane policy map.

Static Class Maps

Control plane traffic policies utilize static class maps, which are provided by the switch, are not editable, and cannot be deleted.

Editing the Policy Map

The only control plane policy map is copp-system-policy, which cannot be deleted. In its default form, copp-system-policy consists of the classes listed in copp-system-policy default classes: Petra Platform Switches. Although the underlying class map of each class cannot be edited, the traffic resolution commands can be adjusted. The default classes cannot be removed from the policy map and their sequence within the policy map is not editable.

Table 4. copp-system-policy default classes: Petra Platform Switches
Class Name shape (kbps) bandwidth (kbps)
copp-system-bpdu 2500 1250
copp-system-default 2500 250
copp-system-igmp 2500 250
copp-system-ipbroadcast 2500 250
copp-system-ipmc 2500 250
copp-system-ipmcmiss 2500 250
copp-system-ipmcrsvd 2500 250
copp-system-ipunicast NO LIMIT 250
copp-system-l3destmiss 2500 250
copp-system-l3slowpath 2500 250
copp-system-l3ttl0 2500 250
copp-system-l3ttl1 2500 250
copp-system-lacp 2500 1250
copp-system-lldp 2500 250
copp-system-unicast-arp 2500 250

Policy maps are modified in the policy-map configuration mode. The policy-map type copp command enters the policy-map configuration mode.

Example
This command enters the policy-map configuration mode for editing copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)#

The class (policy-map (control-plane) Petra) command enters the policy-map-class configuration mode, where traffic resolution commands are modified for the configuration mode class.

Example

  • This command enters the policy-map-class configuration mode for the copp-system-lldp static class.
    switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)#
Two traffic resolution commands determine bandwidth parameters for class traffic:
Example
These commands configure a bandwidth range of 2000 to 4000 kilobits per seconds (kbps) for traffic filtered by the copp-system-arp class map:
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# bandwidth kbps 2000
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# shape kbps 4000
switch(config-pmap-c-copp-system-policy-copp-system-lldp)#

The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the saved version of policy map. The show pending command displays the configured policy map.

Petra platform switches do not support all discrete rate values. When a bandwidth or shape command specifies a value that is not supported, the switch converts the rate to the next highest discrete value that it supports. The show policy-map interface type qos command displays the converted rate and not the user configured rate.

Example
These commands exits the policy-map-class configuration mode, display the pending policy-map, then exits the policy-map configuration mode, which saves the altered policy map to running-config.
switch(config-pmap-c-copp-system-policy-copp-system-lacp)# exit
switch(config-pmap-copp-system-policy)# show pending
policy-map type copp copp-system-policy
  class copp-system-bpdu

  class copp-system-lldp
    shape kbps 4000
    bandwidth kbps 2000

  class copp-system-lacp

switch(config-pmap-copp-system-policy)#exit
switch(config)#

Changes are saved with the exit command or discarded with the abort command. The show active command displays the saved version of policy map. The show pending command displays the modified policy map.

Displaying Policy Maps

The show policy-map interface type qos command displays the traffic resolution rates of the policy maps classes and the number of packets filtered and dropped as a result of the class maps. The shape and bandwidth rates may differ from configured values, because the switch does not support all discrete rate values.

Example

These commands exits the policy-map-class configuration mode, display the pending policy-map, then exits the policy-map configuration mode, which saves the altered policy map to running-config.
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy
  Hardware programming status: InProgress

  Class-map: copp-system-mlag (match-any)
       shape : 10000001 kbps
       bandwidth : 10000001 kbps
      Out Packets : 0
      Drop Packets : 0

  Class-map: copp-system-lacp (match-any)
       shape : 2604 kbps
       bandwidth : 1302 kbps
      Out Packets : 0
      Drop Packets : 0

switch(config)#

Applying Policy Maps to the Control Plane

The copp-system-policy policy map is always applied to the control plane. No commands are available to add or remove this assignment.

Configuring QoS Traffic Policies Petra Platform Switches

QoS traffic policies are not supported on Petra platform switches.

Configuring PBR Policies Petra Platform Switches

PBR policies are not supported on Petra platform switches.

Traffic Management Configuration Trident Platform Switches

Traffic policies are implemented by policy maps, which are applied to the control plane or an interface. Policy maps contain classes, which are composed of class maps and traffic resolution commands. Traffic Management Conceptual Overview describes traffic policies.

Trident platform switches support the following traffic policies:
  • Control plane policies manage control plane traffic.
  • QoS traffic policies manage traffic on Ethernet and port channel interfaces.
These sections describe the construction and application of policy maps:

Configuring Control Plane Traffic PoliciesTrident Platform Switches

Default control plane traffic policies are implemented automatically without user intervention. These policies are modified by creating class maps and editing the policy map to include the new class maps.

Creating Class Maps

Control plane traffic policies utilize static and dynamic class maps. Static class maps are provided by the switch, are not editable, and cannot be deleted. Dynamic class maps are created and modified in the class-map configuration mode. The class-map type copp command enters the class-map configuration mode.

Example

This command enters the class-map configuration mode for creating or editing a control plane dynamic class map named CP-CMAP_1.
switch(config)# class-map type copp match-any CP-CMAP_1
switch(config-cmap-CP-CMAP_1)#

Class maps contain one IPv4 or IPv6 access control list (ACL). The match (class-map (control-plane) Trident) command assigns an ACL to the class map. Subsequent match commands replace the existing match command. Class maps filter traffic only on ACL permit rules. Deny ACL rules are disregarded.

Example

This command assigns the IPv4 ACL named ACLv4_1 to the class map.
switch(config-cmap-CP-CMAP_1)# match ip access-group ACLv4_1
switch(config-cmap-CP-CMAP_1)#

The class-map configuration mode is a group-change mode. Changes are saved by exiting the mode. The show active command displays the saved version of class map. The show pending command displays the unsaved class map.

Example

The show active command indicates that the configuration mode class map is not stored in running-config. The show pending command displays the class map to be stored upon exiting the class-map configuration mode.
switch(config-cmap-CP-CMAP_1)# show active
switch(config-cmap-CP-CMAP_1)# show pending
class-map type copp match-any CP-CMAP_1
   match ip access-group ACLv4_1

switch(config-cmap-CP-CMAP_1)#

The exit command returns the switch to the global configuration mode and saves pending class map changes. The abort command returns the switch to the global configuration mode and discards pending class map changes.

Example

This command exits the class-map configuration mode and stores pending changes to running-config.
switch(config-cmap-CP-CMAP_1)# exit
switch(config)# show class-map type control-plane CP-CMAP_1
  Class-map: CP-CMAP_1 (match-any)
    Match: ip access-group name ACLv4_1
switch(config)#

Editing the Policy Map

The only control plane policy map is copp-system-policy, which cannot be deleted. In its default form, copp-system-policy consists of the classes listed in copp-system-policy default classes: Trident Platform Switches. Although the underlying class map of each class cannot be edited, the traffic resolution commands can be adjusted. The default classes cannot be removed from the policy map and their sequence within the policy map is not editable.

Table 5. copp-system-policy default classes: Trident Platform Switches
Class Name shape (pps) bandwidth (pps)
copp-system-bpdu 5000 5000
copp-system-lacp 5000 5000
copp-system-selfip-tc6to7 5000 5000
copp-system-selfip 5000 5000
copp-system-tc6to7 10000 1000
copp-system-lldp 10000 1000
copp-system-ipmcrsvd 10000 1000
copp-system-igmp 10000 1000
copp-system-ipmcmiss 10000 1000
copp-system-glean 10000 1000
copp-system-tc3to5 10000 1000
copp-system-arp 10000 1000
copp-system-arpresolver 10000 1000
copp-system-l3destmiss 10000 1000
copp-system-l3slowpath 10000 1000
copp-system-l3ttl1 10000 1000
copp-system-default 8000 1000
copp-system-acllog 10000 1000
copp-system-sflow 25000 0

Policy maps are modified in the policy-map configuration mode. The policy-map type copp command enters the policy-map configuration mode.

Example

This command enters the policy-map configuration mode for editing copp-system-policy.
switch(config)#policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)#

Dynamic classes are inserted in front of the static classes. Classes automatically contain their eponymous class map; traffic resolution commands are created or edited in the policy-map-class configuration mode. The class (policy-map (control-plane) Trident) command adds a class to the policy map and places the switch in the policy-map-class configuration mode, where traffic resolution commands are added to the class.

Example

This command adds the CP-CMAP_1 class to the copp-system-policy policy map and places the switch in the policy-map-class configuration mode.
switch(config-pmap-copp-system-policy)#class CP-CMAP_1
switch(config-pmap-c-copp-system-policy-CP-CMAP_1)#
Two traffic resolution commands determine bandwidth parameters for class traffic:

Example

These commands configure a bandwidth range of 2000 to 4000 packets per seconds (pps) for traffic filtered by the CP-CMAP_1 class map:
switch(config-pmap-c-copp-system-policy-CP-CMAP_1)# bandwidth pps 2000
switch(config-pmap-c-copp-system-policy-CP-CMAP_1)# shape pps 4000
switch(config-pmap-c-copp-system-policy-CP-CMAP_1)#

Example

The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the saved version of policy map. The show pending command displays the modified policy map.

Example

These commands exits the policy-map-class configuration mode, display the pending policy-map, then exits the policy-map configuration mode, which saves the altered policy map to running-config.
switch(config-pmap-c-copp-system-policy-CP-CMAP_1)# exit
switch(config-pmap-copp-system-policy)# show pending
policy-map type copp copp-system-policy
  class CP-CMAP_1
    shape pps 4000
    bandwidth pps 2000

  class copp-system-bpdu

  class copp-system-lldp

  class copp-system-lacp

  class copp-system-arp

  class copp-system-arpresolver

  class copp-system-default

switch(config-pmap-copp-system-policy)# exit
switch(config)#

Example

To modify traffic resolution commands for a static class, enter the policy-map-class configuration mode for the class, then enter the desired bandwidth and shape commands.

Example

These commands enters the policy-map-class configuration mode for copp-system-bpdu class, change the bandwidth range for the class, then save the altered policy map to running-config.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-bpdu
switch(config-pmap-c-copp-system-policy-copp-system-bpdu)# shape pps 200
switch(config-pmap-c-copp-system-policy-copp-system-bpdu)# bandwidth pps 100
switch(config-pmap-c-copp-system-policy-copp-system-bpdu)# exit
switch(config-pmap-copp-system-policy)# show pending
policy-map type copp copp-system-policy
  class CP-CMAP_1
    shape pps 4000
    bandwidth pps 2000

  class copp-system-bpdu
    shape pps 200
    bandwidth pps 100

  class copp-system-lldp

switch(config-pmap-copp-system-policy)# exit
switch(config)#

Applying Policy Maps to the Control Plane

The copp-system-policy policy map is always applied to the control plane. No commands are available to add or remove this assignment.

Configuring QoS Traffic Policies Trident Platform Switches

QoS traffic policies are implemented by creating class maps and policy maps, then applying the policy maps to Ethernet and port channel interfaces.

Creating Class Maps

QoS traffic policies utilize dynamic class maps that are created and modified in the class-map configuration mode. The class-map type qos command enters the class-map configuration mode.

Example

This command enters the class-map configuration mode to create QoS class map named Q-CMap_1.
switch(config)# class-map type qos match-any Q-CMap_1
switch(config-cmap-Q-CMap_1)#

A class map contains one IPv4 or IPv6 Access Control List (ACL). The match (class-map (qos) Trident) command assigns an ACL to the class map. Subsequent match commands replace the existing match command. Class maps filter traffic only on ACL permit rules. Deny ACL rules are disregarded.

Example

This command adds the IPv6 ACL named ACLv6_1 to the class map.
switch(config-cmap-Q-CMap_1)# match ipv6 access-group ACLv6_1
switch(config-cmap-Q-CMap_1)#

The class-map configuration mode is a group-change mode. Changes made in a group-change mode are saved by exiting the mode. The show active command displays the saved version of class map. The show pending command displays the unsaved class map.

Example

The show active command indicates that the configuration mode class map is not stored in running-config. The show pending command displays the class map to be stored upon exiting the class-map configuration mode.
switch(config-cmap-Q-CMap_1)# show active
switch(config-cmap-Q-CMap_1)# show pending
class-map type qos match-any Q-CMap_1
   match ipv6 access-group ACLv6_1

switch(config-cmap-Q-CMap_1)#

The exit command returns the switch to global configuration mode and saves pending class map changes. The abort command returns the switch to global configuration mode and discards pending class map changes.

Example

This command exits the class-map configuration mode and stores pending changes to running-config.
switch(config-cmap-CP-CMAP_1)# exit
switch(config)# show class-map type control-plane CP-CMAP_1
  Class-map: CP-CMAP_1 (match-any)
    Match: ip access-group name ACLv4_1
switch(config)#

Creating Policy Maps

Policy maps are created and modified in the policy-map configuration mode. The policy-map type quality-of-service command enters the policy-map configuration mode.

Example

This command enters the policy-map configuration mode for creating a QoS policy map named Q-PMAP_1.
switch(config)# policy-map type quality-of-service Q-PMAP_1
switch(config-pmap-Q-PMAP_1)#

Policy maps are edited by adding or removing classes. A class automatically contains its eponymous class map; traffic resolution commands are added or edited in the policy-map-class configuration mode. The class (policy-map (qos) Trident) command adds a class to the configuration mode policy map and places the switch in the policy-map-class configuration mode, where traffic resolution commands are added to the class.

Example

This command adds the Q-CMap_1 class to the Q-PMAP_1 policy map and places the switch in the policy-map-class configuration mode.
switch(config-pmap-Q-PMAP_1)# class Q-CMap_1
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)#
The set (policy-map-class (qos) Trident) command configures traffic resolution methods for data that passes the class map:
  • set cos sets the layer 2 CoS field.
  • set dscp sets the DSCP value in the ToS byte.
  • set traffic class specifies a traffic class queue.

Example

These commands configure the policy map to set CoS field 7 on packets filtered by the class map, then assigns those packets to traffic class 4.
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# set cos 7
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# set traffic-class 4
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)#

The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active and show pending commands display the saved and modified policy map versions, respectively.

Example

These commands exit the policy-map-class configuration mode, display the pending policy-map, then exits the policy-map configuration mode to save the altered policy map to running-config.
switch(config-pmap-c-Q-PMAP_1-Q-CMap_1)# exit
switch(config-pmap-Q-PMAP_1)# show pending
policy-map type quality-of-service Q-PMAP_1
  class Q-CMap_1
    set cos 7
    set traffic-class 4

  class class-default

switch(config-pmap-Q-PMAP_1)# exit
switch(config)#

The last class in all QoS policy maps is class-default. The class-default class map matches all traffic except IPv4 or IPv6 traffic and provides no traffic resolution commands. The class-default class map is not editable; traffic resolution commands can be added to the class-default class.

To modify traffic resolution commands for the class-default class, enter the policy-map-class configuration mode for the class, then enter the desired set commands.

Example

These commands enters the policy-map-class configuration mode for class-default, configures the stream to enter traffic class 2, and saves the altered policy map to running-config.
switch(config)# policy-map type quality-of-service Q-PMap_1
switch(config-pmap-Q-PMap_1)# class class-default
switch(config-pmap-c-Q-PMap_1-class-default)# set traffic-class 2
switch(config-pmap-c-Q-PMap_1-class-default)# exit
switch(config-pmap-Q-PMap_1)# exit
switch(config)# show policy-map type qos Q-PMap_1
Service-policy Q-PMap_1

  Class-map: Q-CMap_1 (match-any)
    Match: ipv6 access-group name ACLv6_1
       set cos 7
       set traffic-class 4

  Class-map: class-default (match-any)
       set traffic-class 2

switch(config)#

Applying Policy Maps to an Interface

The service-policy type qos (Interface mode) command applies a specified policy map to the configuration mode interface.

Example

These commands apply PMAP-1 policy map to interface ethernet 8.
switch(config)# interface ethernet 8
switch(config-if-Et8)# show active
switch(config-if-Et8)# service-policy input PMAP-1
switch(config-if-Et8)# show active
interface Ethernet8
   service-policy type qos input PMAP-1
switch(config-if-Et8)#

Configuring PBR Policies Trident Platform Switches

Policy-Based Routing (PBR) is implemented by creating class maps and policy maps, then applying the policy maps to Ethernet interfaces, port channel interfaces or Switch Virtual Interfaces (SVIs).

Creating PBR Class Maps

PBR policies utilize class maps that are created and modified in the class-map configuration mode. The class-map type pbr command enters the class-map configuration mode.

Example

This command enters the class-map configuration mode to create a PBR class map named CMAP1.
switch(config)# class-map type pbr match-any CMAP1
switch(config-cmap-PBR-CMAP1)#

A class map contains one or more Access Control Lists (ACLs). The match (policy-map (pbr)) command assigns an ACL to the class map. Subsequent match commands add additional ACLs to the class map. Class maps filter traffic only on ACL permit rules. Deny ACL rules are disregarded; if a class map includes ACLs with deny rules, the configuration reverts to its previous state.

Examples

  • This command adds the ACL named ACL1 to the class map.
    switch(config-cmap-PBR-CMAP1)# match ip access-group ACL1
switch(config-cmap-PBR-CMAP1)#

The class-map configuration mode is a group-change mode. Changes made in a group-change mode are saved by exiting the mode. The show active command displays the saved version of class map.

  • The show active command indicates that the configuration mode class map is not stored in running-config. 
    switch(config-cmap-PBR-CMAP1)# show active
switch(config-cmap-PBR-CMAP1)#

The exit command returns the switch to global configuration mode and saves pending class map changes. The abort command returns the switch to global configuration mode and discards pending changes.

Example

This command exits the class-map configuration mode and stores pending changes to running-config.
switch(config-cmap-PBR-CMAP1)# exit
switch(config)# show class-map type pbr CMAP1
class-map type pbr match-any CMAP1
   10 match ip access-group ACL1
switch(config)#

Creating PBR Policy Maps

Policy maps are created and modified in the policy-map configuration mode. The policy-map type pbr command enters policy-map configuration mode.

Example

This command enters the policy-map configuration mode for creating a PBR policy map named PMAP1.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)#

Policy map are edited by adding or removing classes. A class automatically contains its eponymous class map; next-hop commands are added or edited in the policy-map-class configuration mode. The class (policy-map (pbr)) command adds a class to the configuration mode policy map and places the switch in the policy-map-class configuration mode, where next-hop commands are added to the class.

Example
  • This command adds the CMAP1 class to the policy map and places the switch in the policy-map-class configuration mode.
    switch(config-pmap-PMAP1)# class CMAP1
switch(config-pmap-c-PMAP1-CMAP1)#
  • The set nexthop (policy-map-class pbr) command configures the next hop for data that passes the class map.This command configures the policy map to set the next hop to 10.12.0.5 on packets filtered by the class map.
    switch(config-pmap-c-PMAP1-CMAP1)# set nexthop 10.12.0.5
switch(config-pmap-c-PMAP1-CMAP1)#
  • The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the currently saved map version.These commands exits the policy-map-class configuration mode, then exits the policy-map configuration mode to save the altered policy map to running-config.
    switch(config-pmap-c-PMAP1-CMAP1)# exit
switch(config-pmap-PMAP1)# exit
switch(config)#

Applying a PBR Policy Map to an Interface

The service-policy type pbr (Interface mode) command applies the specified PBR policy map to the configuration mode interface. Only one PBR service policy is supported per interface.
  • These commands apply the PMAP1 PBR policy map to interface ethernet 8.
    switch(config)# interface ethernet 8
switch(config-if-Et8)# service-policy type pbr input PMAP1
switch(config-if-Et8)#

Hardware Decapsulation

When hardware decapsulation takes place, PBR policy maps on Trident platform switches match on inner packet headers (i.e., they match based on the attributes of the decapsulated packet).

Traffic Management Configuration Trident II Platform Switches

Traffic policies are implemented by policy maps, which are applied to the control plane or an interface. Policy maps contain classes, which are composed of class maps and traffic resolution commands. Traffic Management Conceptual Overview describes traffic policies.

Trident platform switches support the following traffic policies:
  • Control plane policies manage control plane traffic.
  • QoS traffic policies manage traffic on Ethernet and port channel interfaces.

Configuring Control Plane Traffic PoliciesTrident II Platform Switches

Default control plane traffic policies are implemented automatically without user intervention. These policies are modified by associating traffic resolution commands with static classes that comprise the control plane policy map.

Static Class Maps

Control plane traffic policies utilize static class maps, which are provided by the switch, are not editable, and cannot be deleted.

Editing the Policy Map

The only control plane policy map is copp-system-policy, which cannot be deleted. In its default form, copp-system-policy consists of the classes listed in copp-system-policy default classes: Trident II Platform Switches. Although the underlying class map of each class cannot be edited, the traffic resolution commands can be adjusted. The default classes cannot be removed from the policy map and their sequence within the policy map is not editable.

Table 6. copp-system-policy default classes: Trident II Platform Switches
Class Name shape (pps) bandwidth (pps)
copp-system-acllog 1000 10000
copp-system-arp 1000 10000
copp-system-arpresolver 1000 10000
copp-system-bfd 5000 10000
copp-system-bgp 5000 5000
copp-system-bpdu 5000 5000
copp-system-default 1000 8000
copp-system-glean 1000 10000
copp-system-igmp 1000 10000
copp-system-ipmcmiss 1000 10000
copp-system-ipmcrsvd 1000 10000
copp-system-l3destmiss 1000 10000
copp-system-l3slowpath 1000 10000
copp-system-l3ttl1 1000 10000
copp-system-lacp 5000 5000
copp-system-lldp 1000 10000
copp-system-mlag 5000 5000
copp-system-selfip 5000 5000
copp-system-selfip-tc6to7 5000 5000
copp-system-sflow 0 25024
copp-system-tc3to5 1000 10000
copp-system-tc6to7 1000 10000
copp-system-urm 1000 10000

Policy maps are modified in the policy-map configuration mode. The policy-map type copp command enters the policy-map configuration mode.

Example

This command enters the policy-map configuration mode for editing copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)#

Example

The class (policy-map (control-plane) Trident II) command enters the policy-map-class configuration mode, where traffic resolution commands are modified for the configuration mode class.

Example

This command enters the policy-map-class configuration mode for the copp-system-lacp static class.
switch(config-pmap-copp-system-policy)# class copp-system-lacp
switch(config-pmap-c-copp-system-policy-copp-system-lacp)#
Two traffic resolution commands determine bandwidth parameters for class traffic:

Example

These commands configure a bandwidth range of 2000 to 4000 packets per seconds (pps) for traffic filtered by the copp-system-lacp class map:
switch(config-pmap-c-copp-system-policy-copp-system-lacp)# bandwidth pps 2000
switch(config-pmap-c-copp-system-policy-copp-system-lacp)# shape pps 4000
switch(config-pmap-c-copp-system-policy-copp-system-lacp)#

Example

The policy-map and policy-map-class configuration modes are group-change modes. Changes are saved with the exit command or discarded with the abort command. The show active command displays the saved version of policy map. The show pending command displays the modified policy map.

Example

These commands exits the policy-map-class configuration mode, display the pending policy-map, then exit policy-map configuration mode, which saves the altered policy map to running-config.
switch(config-pmap-c-copp-system-policy-copp-system-lacp)# exit
switch(config-pmap-copp-system-policy)# show pending
policy-map type copp copp-system-policy
  class copp-system-bpdu

  class copp-system-lldp

  class copp-system-lacp
    shape pps 4000
    bandwidth pps 2000

  class copp-system-arp

switch(config-pmap-copp-system-policy)#exit
switch(config)#

Applying Policy Maps to the Control Plane

The copp-system-policy policy map is always applied to the control plane. No commands are available to add or remove this assignment.

Traffic Management Configuration Commands

Traffic Policy (Control Plane) Configuration Commands

Traffic Policy (PBR) Configuration Commands

CPU Traffic Policy Command

Traffic Policy (QoS) Configuration Commands

Traffic Policy Display and Utility Commands

action set-ttl

The TTL action is effective only when it is configured along with a set nexthop or nexthop-group action. The TCAM profile has the set-ttl-3b or set-ttl action in the pbr ip and pbr ipv6 features, such as in the tc-counters system profile.

Command Mode

For IP

TCAM feature PBR IP configuration mode.

For IPv6

TCAM feature PBR IPv6 configuration mode.

Command Syntax

action set-time [set-ttl | set-ttl-3b]

no action set-time [set-ttl | set-ttl-3b]

default action set-time [set-ttl | set-ttl-3b]

Parameters

  • set-ttl Set time to live.
  • set-ttl-3bSet 3-bit time to live.

Example

In the following example, for IP, the action sets the time to live for the next hop. 

(config)# hardware tcam
(config-tcam)# profile pbr-set-ttl copy default
(config-tcam-profile-pbr-set-ttl)# feature pbr ip
(config-tcam-feature-pbr-ip)# action set-ttl

In the following example, for IPv6, the action sets the time to live for the next hop group.

config)# hardware tcam
(config-tcam)# profile pbr-set-ttl copy default
(config-tcam-profile-pbr-set-ttl)# feature pbr ip
(config-tcam-feature-pbr-ip)# feature pbr ipv6
(config-tcam-feature-pbr-ipv6)# action set-ttl

bandwidth (policy-map-class (control-plane)Arad)

The bandwidth command specifies the minimum bandwidth for traffic filtered by the configuration mode policy map class.

The no bandwidth and default bandwidth commands remove the minimum bandwidth guarantee for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration

accessed through class (policy-map (control-plane) Arad)

Command Syntax

bandwidth kbps kilobits

no bandwidth

default bandwidth

Parameters

kilobits Minimum data rate in kilobits per second. Value ranges from 1 to 10000000.

Related Commands

Static Classes Default Bandwidth

Arad platform switches define these default bandwidths for control plane static classes:
  • copp-system-bgp 250 copp-system-l3lpmoverflow 250
  • copp-system-bpdu 1250 copp-system-l3slowpath 250
  • copp-system-default 250 copp-system-l3ttl1 250
  • copp-system-ipbroadcast 250 copp-system-lacp 1250
  • copp-system-ipmc 250 copp-system-linklocal 250
  • copp-system-ipmcmiss 250 copp-system-lldp 250
  • copp-system-ipunicast 250 copp-system-mlag 250
  • copp-system-l2broadcast 250 copp-system-multicastsnoop 250
  • copp-system-l2unicast 250 copp-system-OspfIsis 250
  • copp-system-l3destmiss 250 copp-system-sflow 250

Example

These commands configure the minimum bandwidth of 500 kbps for data traffic specified by the class map copp-system-lldp of the default control-plane policy map. 
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# bandwidth kbps 500
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy
  Hardware programming status: InProgress

  Class-map: copp-system-lldp (match-any)
       shape : 2500 kbps
       bandwidth : 500 kbps
      Out Packets : 0
      Drop Packets : 0

switch(config)#

bandwidth (policy-map-class (control-plane)FM6000)

The bandwidth command specifies the minimum bandwidth for traffic filtered by the configuration mode policy map class.

The no bandwidth and default bandwidth commands remove the minimum bandwidth guarantee for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration

accessed through class (policy-map (control-plane) FM6000)

Command Syntax

bandwidth pps packets

no bandwidth

default bandwidth

Parameters

packets Minimum data rate in packets per second. Value ranges from 1 to 100000.

Related Commands

Static Classes Default Bandwidth

FM6000 platform switches define these default bandwidths for control plane static classes:
  • copp-system-arp 1000 copp-system-l3slowpath 1000
  • copp-system-default 1000 copp-system-pim-ptp 1000
  • copp-system-ipmcrsvd 1000 copp-system-ospf-isis 1000
  • copp-system-ipmcmiss 1000 copp-system-selfip 5000
  • copp-system-igmp 1000 copp-system-selfip-tc6to7 5000
  • copp-system-l2rsvd 10000 copp-system-sflow 1000

Example

These commands configure the minimum bandwidth of 1000 packets per second for data traffic specified by the class map PMAP-1 in the policy map named copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class PMAP-1
switch(config-pmap-c-copp-system-policy-PMAP-1)# bandwidth pps 1000
switch(config-pmap-c-copp-system-policy-PMAP-1)#

bandwidth (policy-map-class (control-plane)Helix)

The bandwidth command specifies the minimum bandwidth for traffic filtered by the configuration mode policy map class.

The no bandwidth and default bandwidth commands remove the minimum bandwidth guarantee for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration

accessed through class (policy-map (control-plane) Helix)

Command Syntax

bandwidth pps packets

no bandwidth

default bandwidth

Parameters

packets Minimum data rate in packets per second. Value ranges from 1 to 100000.

Related Commands

Static Classes Default Bandwidth

Helix platform switches define these default bandwidths for control plane static classes:
  • copp-system-acllog 1000 copp-system-l3ttl1 1000
  • copp-system-arp 1000 copp-system-lacp 5000
  • copp-system-arpresolver 1000 copp-system-lldp 1000
  • copp-system-bfd 5000 copp-system-mlag 5000
  • copp-system-bgp 5000 copp-system-OspfIsis 5000
  • copp-system-bpdu 5000 copp-system-selfip 5000
  • copp-system-default 1000 copp-system-selfip-tc6to7 5000
  • copp-system-glean 1000 copp-system-sflow 0
  • copp-system-igmp 1000 copp-system-tc3to5 1000
  • copp-system-ipmcmiss 1000 copp-system-tc6to7 1000
  • copp-system-ipmcrsvd 1000 copp-system-urm 1000
  • copp-system-l3destmiss 1000 copp-system-vrrp 1000
  • copp-system-l3slowpath 1000

Example

These commands configure the minimum bandwidth of 500 packets per second for data traffic specified by the class map copp-system-lldp.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# bandwidth pps 500
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map interface control-plan copp-system-policy
Service-policy input: copp-system-policy
  Number of units programmed: 4
  Hardware programming status: Successful

  Class-map: copp-system-lldp (match-any)
       shape : 10000 pps
       bandwidth : 500 pps
      Out Packets : 304996
      Drop Packets : 0

switch(config)#

bandwidth (policy-map-class (control-plane)Petra)

The bandwidth command specifies the minimum bandwidth for traffic filtered by the configuration mode policy map class.

The no bandwidth and default bandwidth commands remove the minimum bandwidth guarantee for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration

accessed through class (policy-map (control-plane) Petra)

Command Syntax

bandwidth kbps kilobits

no bandwidth

default bandwidth

Parameters

kbits Minimum data rate in kilobits per second. Value ranges from 1 to 10000000.

Related Commands

Static Classes Default Bandwidth

Petra platform switches define these default bandwidths for control plane static classes:
  • copp-system-bpdu 1250 copp-system-l3destmiss 250
  • copp-system-default 250 copp-system-l3slowpath 250
  • copp-system-igmp 250 copp-system-l3ttl0 250
  • copp-system-ipbroadcast 250 copp-system-l3ttl1 250
  • copp-system-ipmc 250 copp-system-lacp 1250
  • copp-system-ipmcmiss 250 copp-system-lldp 250
  • copp-system-ipmcrsvd 250 copp-system-unicast-arp 250
  • copp-system-ipunicast 250

Guidelines

Petra does not support all discrete rate values. When a specified discrete value is not supported, the switch converts the rate to the next highest discrete value that it supports. The show command displays the converted rate and not the user-configured rate.

Example

These commands configure a minimum bandwidth of 500 kbps for data traffic specified by the class map copp-system-lldp of the default control-plane policy map. Because the switch does not support the discrete value of 500 kbps, it converts the bandwidth up to 651 kbps.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# bandwidth kbps 500
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy
  Hardware programming status: InProgress

  Class-map: copp-system-lldp (match-any)
       shape : 2766 kbps
       bandwidth : 651 kbps
      Out Packets : 0
      Drop Packets : 0

switch(config)#

bandwidth (policy-map-class (control-plane)Trident II)

The bandwidth command specifies the minimum bandwidth for traffic filtered by the configuration mode policy map class.

The no bandwidth and default bandwidth commands remove the minimum bandwidth guarantee for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration

accessed through class (policy-map (control-plane) Trident II).

Command Syntax

bandwidth pps packets

no bandwidth

default bandwidth

Parameters

packets Minimum data rate in packets per second. Value ranges from 1 to 100000.

Related Commands

Static Classes Default Bandwidth

Trident II platform switches define these default bandwidths for control plane static classes:
  • copp-system-acllog 1000 copp-system-l3slowpath 1000
  • copp-system-arp 1000 copp-system-l3ttl1 1000
  • copp-system-arpresolver 1000 copp-system-lacp 5000
  • copp-system-bfd 5000 copp-system-lldp 1000
  • copp-system-bgp 5000 copp-system-mlag 5000
  • copp-system-bpdu 5000 copp-system-selfip 5000
  • copp-system-default 1000 copp-system-selfip-tc6to7 5000
  • copp-system-glean 1000 copp-system-sflow 0
  • copp-system-igmp 1000 copp-system-tc3to5 1000
  • copp-system-ipmcmiss 1000 copp-system-tc6to7 1000
  • copp-system-ipmcrsvd 1000 copp-system-urm 1000
  • copp-system-l3destmiss 1000

Example

These commands configure the minimum bandwidth of 500 packets per second for data traffic specified by the class map copp-system-lldp.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# bandwidth pps 500
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map interface control-plan copp-system-policy
Service-policy input: copp-system-policy
  Number of units programmed: 4
  Hardware programming status: Successful

  Class-map: copp-system-lldp (match-any)
       shape : 10000 pps
       bandwidth : 500 pps
      Out Packets : 304996
      Drop Packets : 0

switch(config)#

bandwidth (policy-map-class (control-plane)Trident)

The bandwidth command specifies the minimum bandwidth for traffic filtered by the configuration mode policy map class.

The no bandwidth and default bandwidth commands remove the minimum bandwidth guarantee for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration

accessed through class (policy-map (control-plane) Trident).

Command Syntax

bandwidth pps packets

no bandwidth

default bandwidth

Parameters

packets Minimum data rate in packets per second. Value ranges from 1 to 100000.

Related Commands

Static Classes Default Bandwidth

Trident platform switches define these default bandwidths for control plane static classes:
  • copp-system-arp 1000 copp-system-lldp 1000
  • copp-system-arpresolver 1000 copp-system-l3destmiss 1000
  • copp-system-bpdu 5000 copp-system-l3slowpath 1000
  • copp-system-default 1000 copp-system-l3ttl1 1000
  • copp-system-glean 1000 copp-system-selfip 5000
  • copp-system-igmp 1000 copp-system-selfip-tc6to7 5000
  • copp-system-ipmcmiss 1000 copp-system-sflow 0
  • copp-system-ipmcrsvd 1000 copp-system-tc6to7 1000
  • copp-system-lacp 5000 copp-system-tc3to5 1000

Example

These commands configure the minimum bandwidth of 1000 packets per second for data traffic specified by the class map PMAP-1 in the policy map named copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class PMAP-1
switch(config-pmap-c-copp-system-policy-PMAP-1)# bandwidth pps 1000
switch(config-pmap-c-copp-system-policy-PMAP-1)#

class (policy-map (control-plane) Arad)

The class command places the switch in policy-map-class (control plane) configuration mode, which is a group change mode for changing bandwidth and shape parameters associated with a specified class. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. The control plane policy map contains 20 static classes. Each class contains an eponymous class map and may contain bandwidth and shape commands.
  • The class map identifies a data stream.
  • bandwidth command defines the streams minimum transmission rate through the control plane.
  • shape command defines the streams maximum transmission rate through the control plane.

Static class maps identify a data stream by definition. Each data packet is managed by commands of the first class whose map matches the packets content. Dynamic classes are not supported for control plane policing on Arad platform switches.

Each class corresponds to a transmission queue. Queue scheduling is round-robin until bandwidth rate for a queue is exceeded. Scheduling becomes strict-priority with CPU queue number determining priority until the shape rate is reached. Packets are dropped after the shape rate is exceeded.

The exit command returns the switch to policy-map configuration mode. Saving policy-map-class changes also require an exit from policy-map mode, which saves pending policy-map-class and policy-map changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove policy-map-class commands for the specified class assignment from the policy map.

Command Mode

Policy-Map (control plane) configuration accessed through policy-map type copp command.

Command Syntax

class class_name

no class class_name

default class class_name

Parameters

class_name name of the class.

Static Classes

Arad platform switches provide the following static control plane classes:
  • copp-system-bgp copp-system-l2broadcast copp-system-linklocal
  • copp-system-bpdu copp-system-l2unicast copp-system-lldp
  • copp-system-default copp-system-l3destmiss copp-system-mlag
  • copp-system-ipbroadcast copp-system-l3lpmoverflow copp-system-multicastsnoop
  • copp-system-ipmc copp-system-l3slowpath copp-system-OspfIsis
  • copp-system-ipmcmiss copp-system-l3ttl1 copp-system-sflow
  • copp-system-ipunicast copp-system-lacp
Commands Available in Policy-map-class (control plane) Configuration Mode

Related Commands

policy-map type copp places switch in policy-map (control plane) configuration mode.

Example

These commands enters policy-map-class configuration mode to modify the shape, bandwidth parameters associated with the static class named copp-system-lldp. 
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)#

class (policy-map (control-plane) FM6000)

The class command places the switch in policy-map-class (control plane) configuration mode, which is a group change mode for changing bandwidth and shape parameters associated with a specified class. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. The control plane policy map contains 12 static classes. Each class contains an eponymous class map and may contain bandwidth and shape commands.
  • The class map identifies a data stream.
  • bandwidth command defines the streams minimum transmission rate through the control plane.
  • shape command defines the streams maximum transmission rate through the control plane.

Static class maps identify a data stream by definition. Each data packet is managed by commands of the first class whose map matches the packets content. Dynamic classes are not supported for control plane policing on FM6000 platform switches.

Each class corresponds to a transmission queue. Queue scheduling is round-robin until bandwidth rate for a queue is exceeded. Scheduling becomes strict-priority with CPU queue number determining priority until the shape rate is reached. Packets are dropped after the shape rate is exceeded.

The exit command returns the switch to policy-map configuration mode. Saving policy-map-class changes also require an exit from policy-map mode, which saves pending policy-map-class and policy-map changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove policy-map-class commands for the specified class assignment from the policy map. The class is removed from the policy map if it is a dynamic class.

Command Mode

Policy-Map (control plane) configuration accessed through policy-map type copp command.

Command Syntax

class class_name

no class class_name

default class class_name

Parameters

class_name name of the class.

Static Classes

FM6000 platform switches provide the following static control plane classes:
  • copp-system-arp copp-system-igmp copp-system-PimPtp
  • copp-system-default copp-system-l2rsvd copp-system-selfip
  • copp-system-ipmcmiss copp-system-l3slowpath copp-system-selfip-tc6to7
  • copp-system-ipmcrsvd copp-system-OspfIsis copp-system-sflow
Commands Available in Policy-map-class (control plane) Configuration Mode

Related Commands

policy-map type copp places switch in policy-map (control plane) configuration mode.

Example

These commands enters policy-map-class configuration mode to modify the shape, bandwidth parameters associated with the static class named copp-system-arp. 
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-arp
switch(config-pmap-c-copp-system-policy-copp-system-arp)#

class (policy-map (control-plane) Helix)

The class command places the switch in policy-map-class (control plane) configuration mode, which is a group change mode for changing bandwidth and shape parameters associated with a specified class. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. The control plane policy map contains 23 static classes. Each class contains an eponymous class map and may contain bandwidth and shape commands.
  • The class map identifies a data stream.
  • bandwidth command defines the streams minimum transmission rate through the control plane.
  • shape command defines the streams maximum transmission rate through the control plane.

Static class maps identify a data stream by definition. Each data packet is managed by commands of the first class whose map matches the packets content. Dynamic classes are not supported for control plane policing on Helix platform switches.

Each class corresponds to a transmission queue. Queue scheduling is strict-priority; CPU queue number determines priority until the shape rate is reached. Packets are dropped after the shape rate is exceeded.

The exit command returns the switch to policy-map configuration mode. Saving policy-map-class changes also require an exit from policy-map mode, which saves the pending policy-map-class and policy-map changes to running-config and returns the switch to global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the policy-map-class commands for the specified class assignment from the policy map.

Command Mode

Policy-Map (control plane) configuration accessed through policy-map type copp command.

Command Syntax

class class_name

no class class_name

default class class_name

Parameters

class_name name of the class.

Static Classes

Helix platform switches provide the following static control plane classes:
  • copp-system-acllog copp-system-ipmcmiss copp-system-OspfIsis
  • copp-system-arp copp-system-ipmcrsvd copp-system-selfip
  • copp-system-arpresolver copp-system-l3destmiss copp-system-selfip-tc6to7
  • copp-system-bfd copp-system-l3slowpath copp-system-sflow
  • copp-system-bgp copp-system-l3ttl1 copp-system-tc3to5
  • copp-system-bpdu copp-system-lacp copp-system-tc6to7
  • copp-system-default copp-system-lldp copp-system-urm
  • copp-system-glean copp-system-lldp copp-system-vrrp
  • copp-system-igmp copp-system-lldp
Commands Available in Policy-map-class (control plane) Configuration Mode

Related Commands

policy-map type copp places switch in policy-map (control plane) configuration mode.

Example

These commands enters policy-map-class configuration mode to modify the shape, bandwidth parameters associated with the static class named copp-system-arp. 
switch(config)# policy-map
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)#

class (policy-map (control-plane) Petra)

The class command places the switch in policy-map-class (control plane) configuration mode, which is a group change mode for changing bandwidth and shape parameters associated with a specified class. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. The control plane policy map contains 15 static classes. Each class contains an eponymous class map and may contain bandwidth and shape commands.
  • The class map identifies a data stream.
  • bandwidth command defines the streams minimum transmission rate through the control plane.
  • shape command defines the streams maximum transmission rate through the control plane.

Static class maps identify a data stream by definition. Each data packet is managed by commands of the first class whose map matches the packets content. Dynamic classes are not supported for control plane policing on Petra platform switches.

Each class corresponds to a transmission queue. Queue scheduling is round-robin until bandwidth rate for a queue is exceeded. Scheduling becomes strict-priority with CPU queue number determining priority until the shape rate is reached. Packets are dropped after the shape rate is exceeded.

The exit command returns the switch to policy-map configuration mode. Saving the policy-map-class changes also require an exit from policy-map mode, which saves the pending policy-map-class and policy-map changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the policy-map-class commands for the specified class assignment from the policy map.

Command Mode

Policy-Map (control plane) configuration accessed through policy-map type copp command.

Command Syntax

class class_name

no class class_name

default class class_name

Parameters

class_name name of the class.

Static Classes

Petra platform switches provide the following static control plane classes:
  • copp-system-bpdu copp-system-ipmcmiss copp-system-l3ttl0
  • copp-system-default copp-system-ipmcrsvd copp-system-l3ttl1
  • copp-system-igmp copp-system-ipunicast copp-system-lacp
  • copp-system-ipbroadcast copp-system-l3destmiss copp-system-lldp
  • copp-system-ipmc copp-system-l3slowpath copp-system-unicast-arp
Commands Available in Policy-map-class (control plane) Configuration Mode

Related Commands

policy-map type copp places switch in policy-map (control plane) configuration mode.

Example

These commands enters policy-map-class configuration mode to modify the shape, bandwidth parameters associated with the static class named copp-system-lldp. 
switch(config)# policy-map
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)#

class (policy-map (control-plane) Trident II)

The class command places the switch in policy-map-class (control plane) configuration mode, which is a group change mode for changing bandwidth and shape parameters associated with a specified class. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. The control plane policy map contains 23 static classes. Each class contains an eponymous class map and may contain bandwidth and shape commands.

  • The class map identifies a data stream.
  • bandwidth command defines the streams minimum transmission rate through the control plane.
  • shape command defines the streams maximum transmission rate through the control plane.

Static class maps identify a data stream by definition. Each data packet is managed by commands of the first class whose map matches the packets content. Dynamic classes are not supported for control plane policing on Trident II platform switches.

Each class corresponds to a transmission queue. Queue scheduling is strict-priority; CPU queue number determines priority until the shape rate is reached. Packets are dropped after the shape rate is exceeded.

The exit command returns the switch to the policy-map configuration mode. Saving the policy-map-class changes also require an exit from the policy-map mode, which saves the pending policy-map-class and policy-map changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the policy-map-class commands for the specified class assignment from the policy map.

Command Mode

Policy-Map (control plane) configuration accessed through policy-map type copp command.

Command Syntax

class class_name

no class class_name

default classclass_name

Parameters

class_name name of the class.

Static Classes

Trident II platform switches provide the following static control plane classes:
  • copp-system-acllog copp-system-igmp copp-system-mlag
  • copp-system-arp copp-system-ipmcmiss copp-system-selfip
  • copp-system-arpresolver copp-system-ipmcrsvd copp-system-selfip-tc6to7
  • copp-system-bfd copp-system-l3destmiss copp-system-sflow
  • copp-system-bgp copp-system-l3slowpath copp-system-tc3to5
  • copp-system-bpdu copp-system-l3ttl1 copp-system-tc6to7
  • copp-system-default copp-system-lacp copp-system-urm
  • copp-system-glean copp-system-lldp
Commands Available in Policy-map-class (control plane) Configuration Mode

Related Commands

policy-map type copp places switch in policy-map (control plane) configuration mode.

Example

These commands enters the policy-map-class configuration mode to modify the shape, bandwidth parameters associated with the static class named copp-system-arp. 
switch(config)# policy-map
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)#

class (policy-map (control-plane) Trident)

The class command places the switch in policy-map-class (control plane) configuration mode, which is a group change mode for changing bandwidth and shape parameters associated with a specified class. The command adds the specified class to the policy map if it was not previously included. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. The control plane policy map contains 18 static classes and up to 30 dynamic classes. Dynamic classes contain an eponymous class map. All classes may contain bandwidth and shape commands.
  • The class map identifies a data stream.
  • bandwidth command defines the streams minimum transmission rate through the control plane.
  • shape command defines the streams maximum transmission rate through the control plane.

Dynamic class maps identify a data stream with an ACL assigned by match (class-map (control-plane) Trident). Static class maps identify a data stream by definition. Each data packet is managed by commands of the first class whose map matches the packets content.

Static classes are provided with the switch and cannot be removed from the policy map or modified by the class command. Dynamic classes are user defined and added to the policy map by this command. Dynamic classes are always placed in front of the static classes. Bandwidth and shape parameters are editable for all classes.

Each class corresponds to a transmission queue. Queue scheduling is round-robin until bandwidth rate for a queue is exceeded. Scheduling becomes strict-priority with CPU queue number determining priority until the shape rate is reached. Packets are dropped after the shape rate is exceeded.

The exit command returns the switch to policy-map configuration mode. Saving the policy-map-class changes also require an exit from policy-map mode, which saves the pending policy-map-class and policy-map changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the policy-map-class commands for the specified class assignment from the policy map. The class is removed from the policy map if it is a dynamic class.

Command Mode

Policy-Map (control plane) configuration accessed through policy-map type copp command.

Command Syntax

class class_name [PLACEMENT]

no class class_name [PLACEMENT]

default class class_name [PLACEMENT]

Parameters
  • class_name name of the class.
  • PLACEMENT Specifies the classs map placement. Configurable only for dynamic classes.
    • no parameter New classes are placed between the dynamic and static classes. Previously defined classes retain their current policy map placement.
    • insert-before dynamic_class Class is inserted in front of the specified dynamic class.

Static Classes

Trident switches provide the following static control plane classes:
  • copp-system-acllog copp-system-ipmcmiss copp-system-lldp
  • copp-system-arp copp-system-ipmcrsvd copp-system-selfip
  • copp-system-arpresolver copp-system-l3destmiss copp-system-selfip-tc6to7
  • copp-system-bpdu copp-system-l3slowpath copp-system-sflow
  • copp-system-glean copp-system-l3ttl1 copp-system-tc3to5
  • copp-system-igmp copp-system-lacp copp-system-tc6to7
Commands Available in Policy-map-class (control plane) Configuration Mode
Related Commands

Example

These commands add CM-1 class to the copp-system-policy policy map. 
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class CM-1
switch(config-pmap-c-copp-system-policy-CM-1)#

class (policy-map (pbr)

The class (policy-map (pbr) command places the switch in policy-map-class (pbr) configuration mode, which is a group change mode that modifies the specified class of the configuration mode Policy-Based Routing (PBR) policy map. The command adds the class to the policy map if it was not previously included in the policy map. All changes in a group change mode edit session are pending until the mode is exited, and can be canceled by using the abort command.

A PBR policy map is an ordered list of classes. Each class contains an eponymous class map and can contain set commands to specify next hop. Classes without set commands translate to no action being performed on that class of packets.
  • The class map identifies a data stream through ACLs. Class maps are configured in the class-map (pbr) configuration mode.
  • Set commands can be used to specify the next hop for a given class. Set commands are configured in policy-map-class (pbr) configuration mode.

PBR policy maps can also contain one or more raw match statements which filter incoming traffic without using ACLs. Data packets are managed by commands of the first class or raw match statement matching the packets contents.

The exit command returns the switch to the policy-map (pbr) configuration mode. However, saving the policy-map-class changes also requires an exit from policy-map (pbr) configuration mode. This saves all the pending policy map and policy-map-class changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the class assignment from the configuration mode policy map by deleting the corresponding class configuration from running-config.

Command Mode

Policy-Map (pbr) Configuration accessed through policy-map type pbr.

Command Syntax

[sequence_number] class class_name

no [sequence_number] class class_name

default [sequence_number] class class_name

no [sequence_number]

default [sequence_number]

Parameters
  • sequence_number Sequence number (1 to 4294967295) assigned to the rule. If no number is entered, the number is derived by adding 10 to the number of the policy maps last numbered line. To increase the distance between existing entries, use the resequence command.
  • class_name name of the class.
Commands Available in Policy-map-class (pbr) Configuration Mode
  • set nexthop (policy-map-class pbr) sets next hop for the class.
  • exit saves pending class changes and returns switch to policy-map (pbr) configuration mode.
  • abort discards pending class changes and returns switch to policy-map (pbr) configuration mode.
Related Commands

Example

These commands add the CMAP1 class map to the PMAP1 policy map, then place the switch in policy-map-class configuration mode where the next hops can be assigned to the class. Changes will not take effect until both modes are exited.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)# class CMAP1
switch(config-pmap-c-PMAP1-CMAP1)#

class (policy-map (qos) FM6000)

The class command places the switch in policy-map-class (qos) configuration mode, which is a group change mode that modifies the specified class of the configuration mode policy map. The command adds the class to the policy map if it was not previously included in the policy map. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. Each class contains an eponymous class map and at least one set command:
  • The class map identifies a data stream through an ACL. Class maps are configured in the class-map (qos) configuration mode.
  • Set commands either modify a packets content (CoS or DSCP fields) or assigns it to a traffic class queue. Set commands are configured in the policy-map-class (qos) configuration mode.

    Data packets are managed by commands of the first class whose map matches the packets content.

The exit command returns the switch to the policy-map configuration mode. However, saving policy-map-class changes also require an exit from the policy-map mode. This saves all pending policy map and policy-map-class changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the class assignment from the configuration mode policy map by deleting the corresponding class configuration from running-config.

Command Mode

Policy-Map (qos) Configuration accessed through policy-map type quality-of-service.

Command Syntax

class class_name [PLACEMENT]

no class class_name [PLACEMENT]

default class class_name [PLACEMENT]

Parameters
  • class_name name of the class.
  • PLACEMENT Specifies the map placement within the list of class maps.
    • no parameter Class is placed at the top of the list.
    • insert-before existing_class Class is inserted in front of the specified class.
Commands Available in Policy-map-class (qos) Configuration Mode
  • set (policy-map-class (qos) FM6000)
  • exit saves pending class changes and returns switch to policy-map (qos) configuration mode.
  • abort discards pending class changes and returns switch to policy-map (qos) configuration mode.

Related Commands

Example

These commands add the CMAP_1 class map to the PMAP_1 policy map, then places the switch in the policy-map-class configuration mode.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)#

class (policy-map (qos) Helix)

The class command places the switch in the policy-map-class (QoS) configuration mode, which is a group change mode that modifies the specified class of the configuration mode policy map. The command adds the class to the policy map if it was not previously included in the policy map. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. Each class contains an eponymous class map and at least one set command:
  • The class map identifies a data stream through an ACL. Class maps are configured in the class-map (qos) configuration mode.
  • Set commands either modify a packets content (CoS or DSCP fields) or assigns it to a traffic class queue. Set commands are configured in the policy-map-class (qos) configuration mode.

    Data packets are managed by commands of the first class whose map matches the packets content.

The exit command returns the switch to the policy-map configuration mode. However, saving policy-map-class changes also require an exit from the policy-map mode. This saves all the pending policy map and policy-map-class changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the class assignment from the configuration mode policy map by deleting the corresponding class configuration from running-config.

Command Mode

Policy-Map (qos) Configuration accessed through policy-map type quality-of-service command.

Command Syntax

class class_name [PLACEMENT]

no class class_name [PLACEMENT]

default class class_name [PLACEMENT]

Parameters
  • class_name name of the class.
  • PLACEMENT Specifies the map placement within the list of class maps.
    • no parameter Class is placed at the top of the list.
    • insert-before existing_class Class is inserted in front of the specified class.
Commands Available in Policy-map-class (QoS) Configuration Mode
  • set (policy-map-class (qos) Helix)
  • exit saves pending class changes and returns switch to policy-map (qos) configuration mode.
  • abort discards pending class changes and returns switch to policy-map (qos) configuration mode.
Related Commands

Example

These commands add the CMAP_1 class map to the PMAP_1 policy map, then places the switch in policy-map-class configuration mode.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)#

class (policy-map (qos) Trident II)

The class command places the switch in the policy-map-class (QoS) configuration mode, which is a group change mode that modifies the specified class of the configuration mode policy map. The command adds the class to the policy map if it was not previously included in the policy map. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. Each class contains an eponymous class map and at least one set command:
  • The class map identifies a data stream through an ACL. Class maps are configured in class-map (qos) configuration mode.
  • Set commands either modify a packets content (CoS or DSCP fields) or assigns it to a traffic class queue. Set commands are configured in policy-map-class (qos) configuration mode.

Data packets are managed by commands of the first class whose map matches the packets content.

The exit command returns the switch to the policy-map configuration mode. However, saving the policy-map-class changes also require an exit from the policy-map mode. This saves all the pending policy map and policy-map-class changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the class assignment from the configuration mode policy map by deleting the corresponding class configuration from running-config.

Command Mode

Policy-Map (qos) Configuration accessed through policy-map type quality-of-service command.

Command Syntax

class class_name [PLACEMENT]

no class class_name [PLACEMENT]

default class class_name [PLACEMENT]

Parameters
  • class_name name of the class.
  • PLACEMENT Specifies the map placement within the list of class maps.
    • no parameter Class is placed at the top of the list.
    • insert-before existing_class Class is inserted in front of the specified class.
Commands Available in Policy-map-class (qos) Configuration Mode
  • set (policy-map-class (qos) Trident II)
  • exit saves pending class changes and returns switch to policy-map (qos) configuration mode.
  • abort discards pending class changes and returns switch to policy-map (qos) configuration mode.
Related Commands

Example

These commands add the CMAP_1 class map to the PMAP_1 policy map, then places the switch in policy-map-class configuration mode.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)#

class (policy-map (qos) Trident)

The class command places the switch in policy-map-class (qos) configuration mode, which is a group change mode that modifies the specified class of the configuration mode policy map. The command adds the class to the policy map if it was not previously included in the policy map. All changes in a group change mode edit session are pending until the end of the session.

A policy map is an ordered list of classes. Each class contains an eponymous class map and at least one set command:
  • The class map identifies a data stream through an ACL. Class maps are configured in class-map (qos) configuration mode.
  • Set commands either modify a packets content (CoS or DSCP fields) or assigns it to a traffic class queue. Set commands are configured in policy-map-class (qos) configuration mode.

    Data packets are managed by commands of the first class whose map matches the packets content.

The exit command returns the switch to policy-map configuration mode. However, saving policy-map-class changes also require an exit from policy-map mode. This saves all the pending policy map and policy-map-class changes to running-config and returns the switch to the global configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no class and default class commands remove the class assignment from the configuration mode policy map by deleting the corresponding class configuration from running-config.

Command Mode

Policy-Map (qos) Configuration accessed through policy-map type quality-of-service command.

Command Syntax

class class_name [PLACEMENT]

no class class_name [PLACEMENT]

default class class_name [PLACEMENT]

Parameters
  • class_name name of the class.
  • PLACEMENT Specifies the map placement within the list of class maps.
    • no parameter Class is placed at the top of the list.
    • insert-before existing_class Class is inserted in front of the specified class.
Commands Available in Policy-map-class (qos) Configuration Mode
  • set (policy-map-class (qos) Trident)
  • exit saves pending class changes and returns switch to policy-map (qos) configuration mode.
  • abort discards pending class changes and returns switch to policy-map (qos) configuration mode.
Related Commands

Example

These commands add the CMAP_1 class map to the PMAP_1 policy map, then places the switch in policy-map-class configuration mode.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)#

class-map type copp

The class-map type copp command places the switch in Class-Map (control plane) configuration mode, which is a group change mode that modifies a control-plane dynamic class map. A dynamic class map is a data structure that uses Access Control Lists (ACLs) to define a data stream by specifying characteristics of data packets that comprise that stream. Control-plane policy maps use class maps to specify which control plane traffic is controlled by policy map criteria.

The exit command saves pending class map changes to running-config and returns the switch to the global configuration mode. Class map changes are also saved by entering a different configuration mode. The abort command discards pending changes and returns the switch to the global configuration mode.

The no class-map type copp and default class-map type copp commands delete the specified class map by removing the corresponding class-map type copp command and its associated configuration.

Command Mode

Global Configuration

Command Syntax

class-map type copp match-any class_name

no class-map type copp [match-any] class_name

default class-map type copp [match-any] class_name

Parameters

class_name Name of class map.

Commands Available in Class-Map (Control Plane) Configuration Mode

match (class-map (control-plane) Trident)

Related Commands

Example

This command creates the control plane class map named CP-MAP-1 and places the switch in class-map configuration mode.
switch(config)# class-map type copp match-any CP-CMAP-1
switch(config-cmap-CP-CMAP-1)#

class-map type pbr

The class-map type pbr command places the switch in the class-map (pbr) configuration mode for the specified class map, and creates the class map if one does not already exist. The class-map (PBR) configuration mode is a group change mode that modifies a class map for Policy-Based Routing (PBR). PBR class maps contain one or more match statements which filter incoming traffic using ACLs. PBRs can then use these class maps to set next-hop IP addresses for the traffic that matches them. (Classes without set commands translate to no action being performed on that class of packets.)

The exit command saves pending class map changes to running-config, then returns the switch to the global configuration mode. Class map changes are also saved by directly entering a different configuration mode. The abort command discards pending changes and returns the switch to the global configuration mode.

The no class-map type pbr and default class-map type pbr commands delete the specified class map by removing the corresponding class-map type pbr command and its associated configuration.

Command Mode

Global Configuration

Command Syntax

class-map type pbr match-any map_name

no class-map type pbr match-any map_name

default class-map type pbr match-any map_name

Parameters

map_name Name of class map.
Commands Available in Class-Map (PBR) configuration mode
Related Commands

Example

This command creates the PBR class map named MAP1 and places the switch in class-map (pbr) configuration mode where match criteria can be configured for the class.
switch(config)# class-map type pbrmatch-any MAP1
switch(config-cmap-MAP1)#

class-map type qos

The class-map type qos command places the switch in the class-map (QoS) configuration mode, which is a group change mode that modifies a QoS dynamic class map. A dynamic class map is a data structure that uses Access Control Lists (ACLs) to define a data stream by specifying characteristics of data packets that comprise that stream. QoS policy maps use class maps to specify the traffic (to which the policy map is assigned) that is transformed by policy map criteria.

The exit command saves pending class map changes to running-config, then returns the switch to the global configuration mode. Class map changes are also saved by entering a different configuration mode. The abort command discards pending changes and returns the switch to the global configuration mode.

The no class-map type qos and default class-map type qos commands delete the specified class map by removing the corresponding class-map type qos command and its associated configuration. The class-map and class-map type qos commands are equivalent.

Command Mode

Global Configuration

Command Syntax

class-map [type qos] match-any class_name

no class-map [type qos] match-any class_name

default class-map [type qos] match-any class_name

Parameters

class_name Name of class map.

Commands Available in Class-Map (QoS) Configuration Mode
Conditions

class-map map_name and class-map type qos map_name are identical commands.

Related Commands

Example

This command creates the QoS class map named MAP-1 and places the switch in class-map configuration mode.
switch(config)# class-map type qos match-any MAP-1
switch(config-cmap-MAP-1)#

clear policy-map counters

The clear policy-map command resets the specified policy map counters to zero. Policy map counters record the quantity of packets that are filtered by the ACLs that comprise a specified policy map.

Command Mode

Privileged EXEC

Command Syntax

clear policy-map INTERFACE_NAME counters MAP_NAME

Parameters
  • INTERFACE_NAME Interface for which command clears table counters. Options include:
    • interface control-plane Control plane.
  • MAP_NAME Policy map for which command clears counters. Options include:
    • copp-system-policy Name of only policy map supported for the control plane.

feature pbr

Policy-Based Routing (PBR) is a feature that is applied on IPv4 or IPv6 routable ports, to preferentially route packets. Forwarding is based on a policy that is enforced at the ingress of the applied interface and overrides normal routing decisions. In addition to matches on regular ACLs, PBR policy-maps can also include “raw match” statements that look like a single entry of an ACL as a convenience for users.

Configuration Mode

For IP:

TCAM PBR profile set TTL configuration mode.

For IPv6:

TCAM feature PBR IP configuration mode.

Command Syntax

For IP:

feature pbr ip [copy]

no feature pbr ip [copy]

default featue pbr ip[copy]

For IPv6:

feature pbr ipv6[copy | bank]

no feature pbr ipv6 [copy | bank]

default featue pbr ipv6 [copy | bank]

Parameters

For IP:

copyCopy a feature from a TCAM profile.

For IPv6:

  • copyCopy a feature from a TCAM profile.
  • bankTCAM banks to reserve.

Example

In the following example, the PBR is configured on an IP routable port.

(config)# hardware tcam
(config-tcam)# profile pbr-set-ttl copy default
(config-tcam-profile-pbr-set-ttl)# feature pbr ip

In the following example, the PBR is configured on an IPv6 routable port.

(config)# hardware tcam
(config-tcam)# profile pbr-set-ttl copy default
(config-tcam-profile-pbr-set-ttl)# feature pbr ip
(config-tcam-feature-pbr-ip)# feature pbr ipv6

feature traffic-policy cpu

The feature traffic-policy cpu command configures the CPU traffic policy features for the IPv4 and IPv6 traffic in user-defined TCAM profile.

The no feature traffic-policy cpu and default feature traffic-policy cpu commands remove the CPU policy configurations from running-config.

Command Mode

Hardware TCAM

Command Syntax

feature traffic-policy cpu [ipv4 | ipv6]

no feature traffic-policy cpu [ipv4 | ipv6]

default feature traffic-policy cpu [ipv4 | ipv6]

Parameters
  • ipv4 CPU traffic policy for IPv4 traffic.
  • ipv6 CPU traffic policy for IPv6 traffic.

Example

These commands places the switch in the hardware TCAM profile mode and configures the CPU traffic policy features for IPv4 traffic in the TCAM profile test.
switch(config)# hardware tcam 
switch(config-hw-tcam)# profile test
switch(config-hw-tcam-profile-test)# feature traffic-policy cpu ipv4

feature traffic-policy port

The feature traffic-policy port command configures the port-related traffic policy features for the IPv4 and IPv6 traffic in user-defined TCAM profile.

The no feature traffic-policy port and default feature traffic-policy port commands remove the CPU policy configurations from running-config.

Command Mode

Hardware TCAM

Command Syntax

feature traffic-policy port [ipv4 | ipv6]

no feature traffic-policy port [ipv4 | ipv6]

default feature traffic-policy port [ipv4 | ipv6]

Parameters
  • ipv4 port traffic policy for IPv4 traffic.
  • ipv6 port traffic policy for IPv6 traffic.

Example

These commands places the switch in the hardware TCAM profile mode and configures the port traffic policy features for IPv4 traffic in the TCAM profile test.
switch(config)# hardware tcam 
switch(config-hw-tcam)# profile test
switch(config-hw-tcam-profile-test)# feature traffic-policy port ipv4

match (class-map (control-plane) Helix)

The match command assigns an ACL to the configuration mode class map. A class map can contain only one ACL. Class maps only use permit rules to filter data; deny rules are ignored. The command accepts IPv4 and IPv4 standard ACLs.

A class map is assigned to a policy map by the class (policy-map (control-plane) Helix) command.

The class map (control plane) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Command Mode

Class-Map (control plane) configuration accessed through class-map type copp command.

Command Syntax

match ip access-group list_name

no match ip access-group list_name

default match ip access-group list_name

Parameters

list_name name of ACL assigned to class map.
Related Commands
  • class-map type copp places the switch in the class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (control-plane) Helix) assigns a class map to a policy map.

Guidelines

Static class maps cannot be modified by this command.

Match statements are saved to running-config only upon exiting class-map (control plane) configuration mode.

Example

These commands add the IP ACL list_1 to the map_1 class map, then saves the command by exiting class-map mode.
switch(config)# class-map type copp map_1
switch(config-cmap-map_1)# match ip access-group list_1
switch(config-cmap-map_1)# exit
switch(config)#

match (class-map (control-plane) Trident II)

The match command assigns an ACL to the configuration mode class map. A class map can contain only one ACL. Class maps only use permit rules to filter data; deny rules are ignored. The command accepts IPv4 and IPv4 standard ACLs.

A class map is assigned to a policy map by the class (policy-map (control-plane) Trident II) command.

The class map (control plane) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Command Mode

Class-Map (control plane) configuration accessed through class-map type copp command.

Command Syntax

list_name

list_name

list_name

Parameters

list_name name of ACL assigned to class map.
Related Commands
  • class-map type copp places the switch in the class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (control-plane) Trident II) assigns a class map to a policy map.

Guidelines

Static class maps cannot be modified by this command.

Match statements are saved to running-config only upon exiting class-map (control plane) configuration mode.

Example

These commands add the IP ACL list_1 to the map_1 class map, then saves the command by exiting class-map mode.
switch(config)# class-map type copp map_1
switch(config-cmap-map_1)# match ip access-group list_1
switch(config-cmap-map_1)# exit
switch(config)#

match (class-map (control-plane) Trident)

The match command assigns an ACL to the configuration mode class map. A class map can contain only one ACL. Class maps only use permit rules to filter data; deny rules are ignored. The command accepts IPv4, IPv6, IPv4 standard, and IPv6 standard ACLs.

A class map is assigned to a policy map by the class (policy-map (control-plane) Trident) command.

Class map (control plane) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Command Mode

Class-Map (control plane) configuration accessed through class-map type copp command

Command Syntax

match IP_VERSION access-group list_name

no match IP_VERSION access-group list_name

default match IP_VERSION access-group list_name

Parameters
  • IP_VERSION IP version of the specified ACL. Options include:
    • ipv4 IPv4.
    • ipv6 IPv6.
  • list_name name of ACL assigned to class map.
Related Commands
  • class-map type copp places the switch in class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (control-plane) Trident) assigns a class map to a policy map.

Guidelines

Static class maps cannot be modified by this command.

Match statements are saved to running-config only upon exiting class-map (control plane) configuration mode.

Example

These commands add the IPv4 ACL names list_1 to the map_1 class map, then saves the command by exiting class-map mode.
switch(config)# class-map type copp map_1
switch(config-cmap-map_1)# match ip access-group list_1
switch(config-cmap-map_1)# exit
switch(config)#

match (class-map (pbr))

The match command assigns ACLs to the configuration mode Policy-Based Routing (PBR) class map. The command accepts IPv4, IPv4 standard, IPv6 and IPv6 standard ACLs.

Class map (pbr) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Note: PBR ACLs use only permit rules to filter data; if there are deny rules in an ACL used by PBR, the configuration will be reverted.

Command Mode

Class-map (pbr) configuration accessed through class-map type pbr command.

Command Syntax

[sequence_number] match [ip | ipv6] access-group list_name

no [sequence_number] match [ip | ipv6] access-group list_name

default [sequence_number] [ip | ipv6] access-group list_name

no [sequence_number]

default [sequence_number]

Parameters

  • sequence_number Sequence number (1 to 4294967295) assigned to the rule. If no number is entered, the number is derived by adding 10 to the number of the class maps last numbered line. To increase the distance between existing entries, use the resequence command.
  • list_name name of ACL assigned to class map.
Related Commands
  • class-map type pbr places the switch in the class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (pbr)) assigns a class map to a policy map.

Example

These commands add the IPv4 ACL named list1 to the map1 class map, then save the change by exiting class-map mode.
switch(config)# class-map type pbr map1
switch(config-cmap-map1)# match ip access-group list1
switch(config-cmap-map1)# exit
switch(config)#

match (class-map (qos) FM6000)

The match command assigns an ACL to the configuration mode class map. A class map can contain only one ACL. Class maps only use permit rules to filter data; deny rules are ignored. The command accepts IPv4 and IPv4 standard ACLs.

The class map (qos) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Command Mode

Class-map (qos) configuration accessed through class-map type qos command.

Command Syntax

match IP_VERSION access-group list_name

no match IP_VERSION access-group list_name

default match IP_VERSION access-group list_name

Parameters
  • IP_VERSION IP version of the specified ACL. Options include:
    • ipv4 IPv4.
  • list_name name of ACL assigned to class map.
Related Commands
  • class-map type qos places the switch in the class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (qos) FM6000) assigns a class map to a policy map.

Example

These commands add the IPv4 ACL named list_1 to the map_1 class map, then saves the command by exiting class-map mode.
switch(config)# class-map type qos map_1
switch(config-cmap-map_1)# match ip access-group list_1
switch(config-cmap-map_1)# exit
switch(config)#

match (class-map (qos) Helix)

The match command assigns an ACL to the configuration mode class map. A class map can contain only one ACL. Class maps only use permit rules to filter data; deny rules are ignored. The command accepts IPv4, IPv4 standard, IPv6, and IPv6 standard ACLs.

the class map (QoS) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Command Mode

Class-Map (QoS) configuration accessed through class-map type qos command.

Command Syntax

match IP_VERSION access-group list_name

no match IP_VERSION access-group list_name

default match IP_VERSION access-group list_name

Parameters
  • IP_VERSION IP version of the specified ACL. Options include:
    • ipv4 IPv4.
    • ipv6 IPv6.
  • list_name name of ACL assigned to class map.
Related Commands
  • class-map type qos places the switch in the class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (qos) Helix) assigns a class map to a policy map.

Example

These commands add the IPv4 ACL named list_1 to the map_1 class map, then saves the command by exiting class-map mode.
switch(config)# class-map type qos map_1
switch(config-cmap-map_1)# match ip access-group list_1
switch(config-cmap-map_1)# exit
switch(config)#

match (class-map (qos) Trident II)

The match command assigns an ACL to the configuration mode class map. A class map can contain only one ACL. Class maps only use permit rules to filter data; deny rules are ignored. The command accepts IPv4, IPv4 standard, IPv6, and IPv6 standard ACLs.

The class map (QoS) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Command Mode

The class-map (qos) configuration accessed through class-map type qos command.

Command Syntax

IP_VERSION list_name

IP_VERSION list_name

IP_VERSION list_name

Parameters
  • IP_VERSION IP version of the specified ACL. Options include:
    • ipv4 IPv4.
    • ipv6 IPv6.
  • list_name name of ACL assigned to class map.
Related Commands
  • class-map type qos places the switch in the class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (qos) Trident) assigns a class map to a policy map.

Example

These commands add the IPv4 ACL named list_1 to the map_1 class map, then saves the command by exiting class-map mode.
switch(config)# class-map type qos map_1
switch(config-cmap-map_1)# match ip access-group list_1
switch(config-cmap-map_1)# exit
switch(config)#

match (class-map (qos) Trident)

The match command assigns an ACL to the configuration mode class map. A class map can contain only one ACL. Class maps only use permit rules to filter data; deny rules are ignored. The command accepts IPv4, IPv4 standard, IPv6, and IPv6 standard ACLs.

Class map (QoS) configuration mode is a group change mode. Match statements are not saved to running-config until the edit session is completed by exiting the mode.

The no match and default match commands remove the match statement from the configuration mode class map by deleting the corresponding command from running-config.

Command Mode

Class-Map (qos) configuration accessed through class-map type qos command.

Command Syntax

match IP_VERSION access-group list_name

no match IP_VERSION access-group list_name

default match IP_VERSION access-group list_name

Parameters
  • IP_VERSION IP version of the specified ACL. Options include:
    • ipv4 IPv4.
    • ipv6 IPv6.
  • list_name name of ACL assigned to class map.
Related Commands
  • class-map type qos places the switch in the class-map configuration mode.
  • exit saves pending class map changes, then returns the switch to the global configuration mode.
  • abort discards pending class map changes, then returns the switch to the global configuration mode.
  • class (policy-map (qos) Trident) assigns a class map to a policy map.

Example

These commands add the IPv4 ACL named list_1 to the map_1 class map, then saves the command by exiting class-map mode.
switch(config)# class-map type qos map_1
switch(config-cmap-map_1)# match ip access-group list_1
switch(config-cmap-map_1)# exit
switch(config)#

match (policy-map (pbr))

The match command creates a policy map clause entry that specifies one filtering condition. When a packet matches the filtering criteria, its next hop is set as specified. When a packets properties do not equal the statement parameters, the packet is evaluated against the next clause or class map in the policy map, as determined by sequence number. If all clauses fail to set a next hop for the packet, the packet is routed according to the FIB.

The no match and default match commands remove the match statement from the configuration mode policy map by deleting the corresponding command from running-config.

Command Mode

Policy-Map (pbr) Configuration accessed through policy-map type pbr command.

Command Syntax

[sequence_number] match ip SOURCE_ADDR DEST_ADDR [set nexthop [recursive] NH-addr_1 [NH-addr_2] ... [NH-addr_n]]

no match ip SOURCE_ADDR DEST_ADDR [set nexthop [recursive] NH-addr_1 [NH-addr_2] ... [NH-addr_n]]

default match match ip SOURCE_ADDR DEST_ADDR [set nexthop [recursive] NH-addr_1 [NH-addr_2] ... [NH-addr_n]]

no SEQ_NUM

default SEQ_NUM

Parameters
  • sequence_number Sequence number assigned to the rule. If no number is entered, the number is derived by adding 10 to the number of the policy maps last numbered line. To increase the distance between existing entries, use the resequence command.
  • SOURCE_ADDR and DEST_ADDR source and destination address filters. Options include:
    • network_addr subnet address (CIDR or address-mask).
    • any packets from or to all addresses are matched.
    • host ip_addr IP address (dotted decimal notation).

      Source and destination subnet addresses support discontiguous masks.

  • recursive enables recursive next hop resolution.
  • NH_addr IP address of next hop. If multiple addresses are entered, they are treated as an ECMP group.
Related Commands

Example

These commands create a match rule in policy map PMAP1 which sets the next hop to 192.168.3.5 for packets received from 172.16.0.0/12 regardless of their destination, then exit the mode to save the changes.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)# match ip 172.16.0.0/12 any set nexthop 192.163.3.5 
switch(config-pmap-PMAP1)# exit
switch(config)#

platform arad tcam counters feature

The platform arad tcam counters feature command enables incrementing PBR hardware counters corresponding to ACL. If counters for PBR are enabled, then counters for ACL will be automatically disabled in all cases. If counters for ACL are enabled, then counters for PBR will be automatically disabled in all cases.

The no platform arad tcam counters feature command disables PBR/ACL counters selection. The default platform arad tcam counters feature commands resets the default behavior.

Command Mode

Global Configuration

Command Syntax

platform arad tcam counters feature [OPTIONS]

no platform arad tcam counters feature [OPTIONS]

default platform arad tcam counters feature [OPTIONS]

Parameters

OPTIONS Assign the TCAM counters feature. Options include:
  • pbr assign the TCAM counters feature PBR hardware counters.
  • acl assign the TCAM counters feature ACL hardware counters.
Example
  • This command enables incrementing ACL hardware counters selection.
    switch(config)# platform arad tcam counters feature acl
switch(config)#
  • This command disables incrementing ACL hardware counters selection.
    switch(config)# no platform arad tcam counters feature acl
switch(config)#

policy-map type copp

The policy-map type copp command places the switch in the policy-map (control plane) configuration mode, which is a group change mode that modifies a control-plane policy map. A policy map is a data structure that consists of class maps that identify a specific data stream and specify bandwidth and shaping parameters that controls its transmission. Control plane policy maps are applied to the control plane to manage traffic.

The copp-system-policy policy map is supplied with the switch and is always applied to the control plane. The copp-system-policy is the only valid control plane policy map.

The exit command saves pending policy map changes to running-config and returns the switch to the global configuration mode. Policy map changes are also saved by entering a different configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no policy-map type copp and default policy-map type copp commands delete the specified policy map by removing the corresponding policy-map type copp command and its associated configuration.

Command Mode

Global Configuration

Command Syntax

policy-map type copp copp-system-policy

no policy-map type copp copp-system-policy

default policy-map type copp copp-system-policy

The copp-system-policy is supplied with the switch and is the only valid control plane policy map.

Commands Available in Policy-Map Configuration Mode

Related Commands

class-map type copp enters the control-plane class-map configuration mode for modifying a control-plane dynamic class map.

Only Helix and Trident platform switches support dynamic classes for control plane policing.

Example

This command places the switch in the policy-map configuration mode to edit the copp-system-policy policy map.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)#

policy-map type pbr

The policy-map type pbr command places the switch in policy-map (pbr) configuration mode, which is a group change mode that modifies a Policy-Based Routing (PBR) policy map. The command also creates the specified policy map if it does not already exist. A PBR policy map is a data structure that consists of class maps that identify specific packets and the next hops for those packets. Policy maps are applied to Ethernet or port channel interfaces to manage traffic.

The exit command saves pending policy map changes to running-config and returns the switch to the global configuration mode. Policy map changes are also saved by entering a different configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no policy-map type pbr and default policy-map type pbr commands delete the specified policy map by removing the corresponding policy-map type pbr command and its associated configuration.

Command Mode

Global Configuration

Command Syntax

policy-map type pbr map_name

no policy-map type pbr map_name

default policy-map type pbr map_name

Parameters

map_name Name of policy map.
Commands Available in Policy-Map Configuration Mode
Related Commands

Example

This command creates the PBR policy map named PMAP1 and places the switch in policy-map configuration mode.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)#

policy-map type quality-of-service

The policy-map type quality-of-service command places the switch in the policy-map (QoS) configuration mode, which is a group change mode that modifies a QoS policy map. A policy map is a data structure that consists of class maps that identify a specific data stream and shaping parameters that controls its transmission. Policy maps are applied to Ethernet or port channel interfaces to manage traffic.

The exit command saves pending policy map changes to running-config and returns the switch to the global configuration mode. Policy map changes are also saved by entering a different configuration mode. The abort command discards pending changes, returning the switch to the global configuration mode.

The no policy-map type quality-of-service and default policy-map type quality-of-service commands delete the specified policy map by removing the corresponding policy-map type quality-of-service command and its associated configuration. The policy-map and policy-map type quality-of-service commands are equivalent.

Command Mode

Global Configuration

Command Syntax

policy-map type quality-of-service map_name

no policy-map type quality-of-service map_name

default policy-map type quality-of-service map_name

Parameters

map_name Name of policy map.
Commands Available in Policy-Map Configuration Mode

Conditions

policy-map map_name and policy-map type quality-of-service map_name are identical commands.

Related Commands

Example

This command creates the QoS policy map named PMAP-1 and places the switch in the policy-map configuration mode.
switch(config)# policy-map PMAP-1
switch(config-pmap-PMAP-1)#

policy-map type quality-of-service policer

The policy-map type quality-of-service policer copy command is used to copy an existing QoS policy map to the policy map policer.

The policy-map type quality-of-service policer drop counter command is used to enable drop counters for the QoS policy map policer.

The no policy-map type quality-of-service policer and default policy-map type quality-of-service policer commands delete the policy map policer by removing the corresponding policy-map type quality-of-service policer command and its associated configuration.

The no policy-map type quality-of-service policer drop counter and default policy-map type quality-of-service policer drop counter commands disable drop counters for the policy map policer.

Command Mode

Global Configuration

Command Syntax

policy-map type quality-of-service policer copy map_name

policy-map type quality-of-service policer drop counter

no policy-map type quality-of-service policer

default policy-map type quality-of-service policer

Parameters

map_name Name of policy map to copy.
Related Commands

Example

This command copies the QoS policy map named PMAP-1 to the policy map policer.
switch(config)#policy-map type quality-of-service policer copy PMAP-1
switch(config-pmap-PMAP-1)#
This command enables drop counters for the QoS policy map policer.
switch(config)#policy-map type quality-of-service policer drop counter
switch(config)#

resequence (class-map (pbr))

The resequence command assigns sequence numbers to rules in the configuration mode class map. Command parameters specify the number of the first rule and the numeric interval between consecutive rules. Once changed, rule numbers persist unless changed again using the resequence command, but the interval used for numbering new rules reverts to 10 on the exiting class-map (pbr) configuration mode.

Maximum rule sequence number is 4294967295.

Command Mode

Class-Map (PBR) Configuration accessed through class-map type pbr command.

Command Syntax

resequence [start_num [inc_num]]

Parameters
  • start_num sequence number assigned to the first rule. Default is 10.
  • inc_num numeric interval between consecutive rules. Default is 10.

Example

The resequence command renumbers the rules in CMAP1, starting the first command at number 100 and incrementing subsequent lines by 20.
switch(config)# class-map type pbr match-any CMAP1
switch(config-cmap-CMAP1)# show active
class-map type pbr match-any CMAP1
10 match ip access-group group1
20 match ip access-group group2
30 match ip access-group group3
switch(config-cmap-CMAP1)# resequence 100 20
switch(config-cmap-CMAP1)# exit
switch(config)# class-map type pbr match-any CMAP1
switch(config-cmap-CMAP1)# show active
class-map type pbr match-any CMAP1
100 match ip access-group group1
120 match ip access-group group2
140 match ip access-group group3

resequence (policy-map (pbr))

The resequence command assigns sequence numbers to rules in the configuration mode policy map. Command parameters specify the number of the first rule and the numeric interval between consecutive rules. Once changed, rule numbers persist unless changed again using the resequence command, but the interval used for numbering new rules reverts to 10 on the exiting policy-map (pbr) configuration mode.

Maximum rule sequence number is 4294967295.

Command Mode

Policy-Map (PBR) Configuration accessed through policy-map type pbr command

Command Syntax

resequence [start_num [inc_num]]

Parameters
  • start_num sequence number assigned to the first rule. Default is 10.
  • inc_num numeric interval between consecutive rules. Default is 10.

Example

The resequence command renumbers the rules in PMAP1, starting the first command at number 100 and incrementing subsequent lines by 20.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)# show active
policy-map type pbr PMAP1
10 class CMAP1
set nexthop 172.16.1.1
20 class CMAP2
set nexthop 172.16.2.2
30 class CMAP3
set nexthop 172.16.3.3
switch(config-pmap-PMAP1)# resequence 100 20
switch(config-pmap-PMAP1)# exit
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)# show active
class-map type pbr PMAP1
100 class CMAP1
set nexthop 172.16.1.1
120 class CMAP2
set nexthop 172.16.2.2
140 class CMAP3
set nexthop 172.16.3.3
switch(config-pmap-PMAP1)#

service-policy type pbr (Interface mode)

The service-policy pbr command applies the specified Policy-Based Routing (PBR) policy map to the configuration mode interface. A PBR policy map is a data structure that consists of class maps that identify specific packets and the next hops for those packets. Policy maps are applied to Ethernet or port channel interfaces to manage traffic. Only one service policy is supported per interface.

The no service-policy pbr and default service-policy pbr commands remove the service policy assignment from the configuration mode interface by deleting the corresponding service-policy pbr command from running-config.

Command Mode

Interface-Ethernet Configuration

Interface-Port-Channel Configuration

Interface-VLAN Configuration

Command Syntax

service-policy type pbr TRAFFIC_DIRECTION map_name

no service-policy type pbr TRAFFIC_DIRECTION map_name

default service-policy type pbr TRAFFIC_DIRECTION map_name

Parameters
  • TRAFFIC_DIRECTION IP address or peer group name. Values include:
    • input Policy map applies to inbound packet streams.
  • map_name Name of policy map.

Guidelines

A policy map that is attached to a port channel interface takes precedence for member interfaces of the port channel over their individual interface Ethernet configuration. Members that are removed from a port channel revert to the policy map implementation specified by its interface Ethernet configuration.

Related Commands

policy-map type pbr

Example

This command applies the PBR policy map PMAP1 to interface Ethernet 8.
switch# config
switch(config)# interface ethernet 8
switch(config-if-Et8)# service-policy type pbr input PMAP1
switch(config-if-Et8)#

service-policy type qos (Interface mode)

The service-policy command applies a specified policy map to the configuration mode interface. A policy map is a data structure that identifies data traffic through class maps, then specifies actions to classify the traffic (by setting the traffic class), mark the traffic (by setting the cos and dscp values), and police the traffic (by setting the police rate) through data packet field modifications.

The no service-policy and default service-policy commands remove the service policy assignment from the configuration mode interface by deleting the corresponding service-policy command from running-config.

Command Mode

Interface-Ethernet Configuration

Interface-Port-Channel Configuration

Interface-VLAN Configuration

Command Syntax

service-policy [type qos] TRAFFIC_DIRECTION map_name

no service-policy [type qos] TRAFFIC_DIRECTION map_name

default service-policy [type qos] TRAFFIC_DIRECTION map_name

Parameters
  • type qos Parameter has no functional effect.
  • TRAFFIC_DIRECTION Direction of data stream to which command applies. Options include:
    • input Policy map applies to inbound packet streams.
    • map_name Name of policy map.

Guidelines

A policy map that is attached to a port channel interface takes precedence for member interfaces of the port channel over their individual interface Ethernet configuration. Members that are removed from a port channel revert to the policy map implementation specified by its interface Ethernet configuration.

DCS-7500E and DCS-7280E limitations:

  • A maximum of 31 QoS service policies per chip may be applied on L3 interfaces.
  • Applying different QoS service policies to an SVI and its member interfaces causes unpredictable behavior.
  • When an SVI on which QoS service policies are applied experiences partial failure due to limited hardware resources, a forwarding agent restart causes unpredictable behavior.
  • Policy-map programming may fail when QoS service policies are applied on two SVIs if an event causes a member interface to switch membership from one to the other. To change the VLAN membership of an interface in this case, remove the interface from one VLAN before adding it to the other.
  • Outgoing COS rewrite is not supported.
  • QoS policy-map counters are not supported.

DCS-7010, DCS-7050, DCS-7050X, DCS-7250X, and DCS-7300X limitations:

  • When the same policy map is applied to multiple SVIs, TCAM resources are not shared.
  • A policy map applied to an SVI results in TCAM allocation on all chips whether SVI members are present or not.
  • Applying different QoS service policies to an SVI and its member interfaces causes unpredictable behavior.

Related Commands

policy-map type quality-of-service

Example

This command applies the PMAP-1 policy map to interface ethernet 8.
switch# config
switch(config)# interface ethernet 8
switch(config-if-Et8)# show active
switch(config-if-Et8)# service-policy input PMAP-1
switch(config-if-Et8)# show active
interface Ethernet8
   service-policy type qos input PMAP-1
switch(config-if-Et8)#

set (policy-map-class (qos)FM6000)

The set command specifies traffic resolution methods for traffic defined by its associated class map in its configuration mode policy map class. Three set statements are available for each class:

  • cos Sets the Layer 2 class of service field.
  • dscp Sets the differentiated services code point value in the type of service (ToS) byte.
  • traffic-class Sets the traffic class queue for data packets.

Each type of set command can be assigned to a class, allowing for the simultaneous modification of both (cos, dscp) fields and assignment to a traffic class.

The no set and default set commands remove the specified data action from the class map by deleting the associated set command from running-config.

Command Mode

Policy-map-class (qos) configuration

accessed through class (policy-map (qos) FM6000) command.

Command Syntax

set QOS_TYPE value

no set QOS_TYPE

default set QOS_TYPE

Parameters
  • QOS_TYPE Specifies the data stream resolution method. Valid options include:
    • cos Layer 2 class of service field of outbound packet is modified.
    • dscp Differentiated services code point value in the ToS byte is modified.
    • traffic-class Data stream is assigned to a traffic class queue.
  • value Specifies the data field value or traffic class queue. Valid data range depends on QOS_TYPE.
    • QOS_TYPE is cos Value ranges from 0 to 7.
    • QOS_TYPE is dscp Value ranges from 0 to 63.
    • QOS_TYPE is traffic-class Value ranges from 0 to 7.
Related Commands

Example

These commands configure the policy map to set CoS field 7 to data traffic specified by the class map CMAP-1, then assigns that data to traffic class queue 4.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)# set cos 7
switch(config-pmap-c-PMAP-1-CMAP-1)# set traffic-class 4
switch(config-pmap-c-PMAP-1-CMAP-1)#

set (policy-map-class (qos)Helix)

The set command specifies traffic resolution methods for traffic defined by its associated class map in its configuration mode policy map class. Three set statements are available for each class:

  • cos Sets the Layer 2 class of service field.
  • dscp Sets the differentiated services code point value in the type of service (ToS) byte.
  • traffic-class Sets the traffic class queue for data packets.

Each type of set command can be assigned to a class, allowing for the simultaneous modification of both (cos, dscp) fields and assignment to a traffic class.

The no set and default set commands remove the specified data action from the class map by deleting the associated set command from running-config.

Command Mode

Policy-map-class (qos) configuration accessed through class (policy-map (qos) Helix) command.

Command Syntax

set QOS_TYPE value

no set QOS_TYPE

default set QOS_TYPE

Parameters
  • QOS_TYPE Specifies the data stream resolution method. Valid options include:
    • cos Layer 2 class of service field of outbound packet is modified.
    • dscp Differentiated services code point value in the ToS byte is modified.
    • traffic-class Data stream is assigned to a traffic class queue.
  • value Specifies the data field value or traffic class queue. Valid data range depends on QOS type.
    • QOS_TYPE is cos Value ranges from 0 to 7.
    • QOS_TYPE is dscp Value ranges from 0 to 63.
    • QOS_TYPE is traffic-class Value ranges from 0 to 7.
Related Commands

Example

These commands configure the policy map to set CoS field 7 to data traffic specified by the class map CMAP-1, then assigns that data to traffic class queue 4.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)# set cos 7
switch(config-pmap-c-PMAP-1-CMAP-1)# set traffic-class 4
switch(config-pmap-c-PMAP-1-CMAP-1)#

set (policy-map-class (qos)Trident II)

The set command specifies traffic resolution methods for traffic defined by its associated class map in its configuration mode policy map class. Three set statements are available for each class:

  • cos Sets the Layer 2 class of service field.
  • dscp Sets the differentiated services code point value in the type of service (ToS) byte.
  • traffic-class Sets the traffic class queue for data packets.

Each type of set command can be assigned to a class, allowing for the simultaneous modification of both (cos, dscp) fields and assignment to a traffic class.

The no set and default set commands remove the specified data action from the class map by deleting the associated set command from running-config.

Command Mode

Policy-map-class (qos) configuration accessed through class (policy-map (qos) Trident) command.

Command Syntax

set QOS_TYPE value

no set QOS_TYPE

default set QOS_TYPE

Parameters
  • QOS_TYPE Specifies the data stream resolution method. Valid options include:
    • cos Layer 2 class of service field of outbound packet is modified.
    • dscp Differentiated services code point value in the ToS byte is modified.
    • traffic-class Data stream is assigned to a traffic class queue.
  • value Specifies the data field value or traffic class queue. Valid data range depends on QOS type.
    • QOS_TYPE is cos Value ranges from 0 to 7.
    • QOS_TYPE is dscp Value ranges from 0 to 63.
    • QOS_TYPE is traffic-class Value ranges from 0 to 7.
Related Commands

Example

These commands configure the policy map to set CoS field 7 to data traffic specified by the class map CMAP-1, then assigns that data to traffic class queue 4.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)# set cos 7
switch(config-pmap-c-PMAP-1-CMAP-1)# set traffic-class 4
switch(config-pmap-c-PMAP-1-CMAP-1)#

set (policy-map-class (qos)Trident)

The set command specifies traffic resolution methods for traffic defined by its associated class map in its configuration mode policy map class. Three set statements are available for each class:

  • cos Sets the Layer 2 class of service field.
  • dscp Sets the differentiated services code point value in the type of service (ToS) byte.
  • traffic-class Sets the traffic class queue for data packets.

Each type of set command can be assigned to a class, allowing for the simultaneous modification of both (cos, dscp) fields and assignment to a traffic class.

The no set and default set commands remove the specified data action from the class map by deleting the associated set command from running-config.

Command Mode

Policy-map-class (qos) configuration accessed through class (policy-map (qos) Trident) command.

Command Syntax

set QOS_TYPE value

no set QOS_TYPE

default set QOS_TYPE

Parameters
  • QOS_TYPE Specifies the data stream resolution method. Valid options include:
    • cos Layer 2 class of service field of outbound packet is modified.
    • dscp Differentiated services code point value in the ToS byte is modified.
    • traffic-class Data stream is assigned to a traffic class queue.
  • value Specifies the data field value or traffic class queue. Valid data range depends on QOS type.
    • QOS_TYPE is cos Value ranges from 0 to 7.
    • QOS_TYPE is dscp Value ranges from 0 to 63.
    • QOS_TYPE is traffic-class Value ranges from 0 to 7.
Related Commands

Example

These commands configure the policy map to set CoS field 7 to data traffic specified by the class map CMAP-1, then assigns that data to traffic class queue 4.
switch(config)# policy-map type quality-of-service PMAP-1
switch(config-pmap-PMAP-1)# class CMAP-1
switch(config-pmap-c-PMAP-1-CMAP-1)# set cos 7
switch(config-pmap-c-PMAP-1-CMAP-1)# set traffic-class 4
switch(config-pmap-c-PMAP-1-CMAP-1)#

set nexthop (policy-map-class pbr)

The set nexthop command specifies the next hop for traffic defined by its associated class map in its configuration mode policy map class.

The no set nexthop and default set nexthop commands remove the specified action from the class map by deleting the associated set nexthop command from running-config.

Command Mode

Policy-map-class (pbr) configuration accessed through class (policy-map (pbr)) command.

Command Syntax

set nexthop [recursive] NH-addr_1 [NH-addr_2] ... [NH-addr_n]

no set nexthop [recursive]

default set nexthop [recursive]

Parameters
  • recursive enables recursive next hop resolution.
  • NH_addr IP address of next hop. If multiple addresses are entered, they are treated as an ECMP group.
Related Commands

Example

These 192.168.5.3 commands configure the policy map PMAP1 to set the next hop to for traffic defined by class map CMAP1.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)# class CMAP1
switch(config-pmap-c-PMAP1-CMAP1)# set nexthop 192.168.5.3
switch(config-pmap-c-PMAP1-CMAP1)#

set nexthop-group (policy-map-class(pbr) Arad)

The set nexthop-group command specifies a nexthop group as the next hop for traffic defined by its associated class map in its configuration mode policy map class.

The no set nexthop-group and default set nexthop-group commands remove the specified action from the class map by deleting the associated set nexthop-group command from running-config.

Command Mode

Policy-map-class (pbr) configuration accessed through class (policy-map (pbr)) command.

Command Syntax

set nexthop-group group_name

no set nexthop-group group_name

default set nexthop-group group_name

Parameters

group_name name of ECMP group to use as next hop.

Related Commands

Example

These commands configure the policy map PMAP1 to set the next hop to a nexthop group named GROUP1 for traffic defined by class map CMAP1.
switch(config)# policy-map type pbr PMAP1
switch(config-pmap-PMAP1)# class CMAP1
switch(config-pmap-c-PMAP1-CMAP1)# set nexthop-group GROUP1
switch(config-pmap-c-PMAP1-CMAP1)#

shape (policy-map-class (control-plane)Arad)

The shape command specifies the maximum bandwidth for traffic filtered by the configuration mode policy map class.

The no shape and default shape commands remove the maximum bandwidth restriction for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration accessed through class (policy-map (control-plane) Arad)

Command Syntax

Parameters

kilobits Maximum data rate in kilobits per second. Value ranges from 1 to 10000000.

Related Commands

Static Classes Default Shape

Arad platform switches define these default shapes for static classes:
  • copp-system-bgp 2500 copp-system-l3lpmoverflow 2500
  • copp-system-bpdu 2500 copp-system-l3slowpath 2500
  • copp-system-default 2500 copp-system-l3ttl1 2500
  • copp-system-ipbroadcast 2500 copp-system-lacp 2500
  • copp-system-ipmc 2500 copp-system-linklocal 2500
  • copp-system-ipmcmiss 2500 copp-system-lldp 2500
  • copp-system-ipunicast NO LIMIT copp-system-mlag 2500
  • copp-system-l2broadcast 2500 copp-system-multicastsnoop 2500
  • copp-system-l2unicast NO LIMIT copp-system-OspfIsis 2500
  • copp-system-l3destmiss 2500 copp-system-sflow 2500

Example

These commands configure the maximum bandwidth of 2000 kbps for data traffic specified by the class map copp-system-lldp of the default control-plane policy map.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# shape kbps 2000
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy

  Class-map: copp-system-lldp (match-any)
       shape : 2000 kbps
       bandwidth : 250 kbps
      Out Packets : 0
      Drop Packets : 0

switch(config)#

shape (policy-map-class (control-plane)FM6000)

The shape command specifies the maximum bandwidth for traffic filtered by the configuration mode policy map class.

The no shape and default shape commands remove the maximum bandwidth restriction for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration accessed through class (policy-map (control-plane) FM6000).

Command Syntax

shape pps packets

no shape

default shape

Parameters

packets Maximum data rate in packets per second. Value ranges from 1 to 100000.

Related Commands

Static Classes Default Shape

FM6000 platform switches define these default shapes for static classes:
  • copp-system-arp 10000 copp-system-l3slowpath 10000
  • copp-system-default 8000 copp-system-pim-ptp 10000
  • copp-system-ipmcrsvd 10000 copp-system-ospf-isis 10000
  • copp-system-ipmcmiss 10000 copp-system-selfip 5000
  • copp-system-igmp 10000 copp-system-selfip-tc6to7 5000
  • copp-system-l2rsvd 10000 copp-system-sflow 25000

Example

These commands configure a maximum bandwidth of 5000 packets per second for data traffic specified by the class map PMAP-1 in the policy map named copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class PMAP-1
switch(config-pmap-c-copp-system-policy-PMAP-1)# shape pps 5000
switch(config-pmap-c-copp-system-policy-PMAP-1)#

shape (policy-map-class (control-plane)Helix)

The shape command specifies the maximum bandwidth for traffic filtered by the configuration mode policy map class.

The no shape and default shape commands remove the maximum bandwidth restriction for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration accessed through class (policy-map (control-plane) Helix).

Command Syntax

shape pps packets

no shape

default shape

Parameters

packets Maximum data rate in packets per second. Value ranges from 1 to 100000.

Static Classes Default Shape

Trident platform switches define these default shapes for static classes:
  • copp-system-acllog 10000 copp-system-l3ttl1 10000
  • copp-system-arp 10000 copp-system-lacp 5000
  • copp-system-arpresolver 10000 copp-system-lldp 10000
  • copp-system-bfd 10000 copp-system-mlag 5000
  • copp-system-bgp 5000 copp-system-OspfIsis 10000
  • copp-system-bpdu 5000 copp-system-selfip 5000
  • copp-system-default 8000 copp-system-selfip-tc6to7 5000
  • copp-system-glean 10000 copp-system-sflow 25024
  • copp-system-igmp 10000 copp-system-tc3to5 10000
  • copp-system-ipmcmiss 10000 copp-system-tc6to7 10000
  • copp-system-ipmcrsvd 10000 copp-system-urm 10000
  • copp-system-l3destmiss 10000 copp-system-vrrp 5000
  • copp-system-l3slowpath 10000
Related Commands

Example

These commands configure a maximum bandwidth of 5000 packets per second for data traffic specified by the copp-system-lldp of the default control-plane policy map.
switch(config)# policy-map type control-plan copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# shape pps 5000
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy

  Class-map: copp-system-lldp (match-any)
       shape : 5000 pps
       bandwidth : 500 pps
      Out Packets : 305961
      Drop Packets : 0

switch(config)#

shape (policy-map-class (control-plane)Petra)

The shape command specifies the maximum bandwidth for traffic filtered by the configuration mode policy map class.

The no shape and default shape commands remove the maximum bandwidth restriction for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration accessed through class (policy-map (control-plane) Petra)

Command Syntax

shape kbps kilobits

no shape

default shape

Parameters

kilobits Maximum data rate in kilobits per second. Value ranges from 1 to 10000000.

Related Commands

Static Classes Default Shape

Petra platform switches define these default shapes for static classes:
  • copp-system-bpdu 2500 copp-system-l3destmiss 2500
  • copp-system-default 2500 copp-system-l3slowpath 2500
  • copp-system-igmp 2500 copp-system-l3ttl0 2500
  • copp-system-ipbroadcast 2500 copp-system-l3ttl1 2500
  • copp-system-ipmc 2500 copp-system-lacp 2500
  • copp-system-ipmcmiss 2500 copp-system-lldp 2500
  • copp-system-ipmcrsvd 2500 copp-system-unicast-arp 2500
  • copp-system-ipunicast No Limit

Guidelines

Petra does not support all discrete rate values. When a specified discrete value is not supported, the switch converts the rate to the next highest discrete value that it supports. The show command displays the converted rate and not the user-configured rate.

Example

These commands configure the maximum bandwidth of 2000 kbps for data traffic specified by the class map copp-system-lldp of the default control-plane policy map. Because the switch does not support the discrete value of 2000 kbps, it converts the bandwidth up to 2115 kbps.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# shape kbps 2000
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy

  Class-map: copp-system-lldp (match-any)
       shape : 2115 kbps
       bandwidth : 325 kbps
      Out Packets : 0
      Drop Packets : 0

switch(config)#

shape (policy-map-class (control-plane)Trident II)

The shape command specifies the maximum bandwidth for traffic filtered by the configuration mode policy map class.

The no shape and default shape commands remove the maximum bandwidth restriction for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration accessed through class (policy-map (control-plane) Trident II).

Command Syntax

shape pps packets

no shape

default shape

Parameters

packets Maximum data rate in packets per second. Value ranges from 1 to 100000.

Static Classes Default Shape

Trident II platform switches define these default shapes for static classes:
  • copp-system-acllog 10000 copp-system-l3slowpath 10000
  • copp-system-arp 10000 copp-system-l3ttl1 10000
  • copp-system-arpresolver 10000 copp-system-lacp 5000
  • copp-system-bfd 10000 copp-system-lldp 10000
  • copp-system-bgp 5000 copp-system-mlag 5000
  • copp-system-bpdu 5000 copp-system-selfip 5000
  • copp-system-default 8000 copp-system-selfip-tc6to7 5000
  • copp-system-glean 10000 copp-system-sflow 25024
  • copp-system-igmp 10000 copp-system-tc3to5 10000
  • copp-system-ipmcmiss 10000 copp-system-tc6to7 10000
  • copp-system-ipmcrsvd 10000 copp-system-urm 10000
Related Commands

Example

These commands configure a maximum bandwidth of 5000 packets per second for data traffic specified by the copp-system-lldp of the default control-plane policy map.
switch(config)# policy-map type control-plan copp-system-policy
switch(config-pmap-copp-system-policy)# class copp-system-lldp
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# shape pps 5000
switch(config-pmap-c-copp-system-policy-copp-system-lldp)# exit
switch(config-pmap-copp-system-policy)# exit
switch(config)# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy

  Class-map: copp-system-lldp (match-any)
       shape : 5000 pps
       bandwidth : 500 pps
      Out Packets : 305961
      Drop Packets : 0

switch(config)#

shape (policy-map-class (control-plane)Trident)

The shape command specifies the maximum bandwidth for traffic filtered by the configuration mode policy map class.

The no shape and default shape commands remove the maximum bandwidth restriction for the configuration mode class by deleting the corresponding bandwidth command from running-config.

Command Mode

Policy-map-class (control plane) configuration accessed through class (policy-map (control-plane) Trident).

Command Syntax

shape pps packets

no shape

default shape

Parameters

packets Maximum data rate in packets per second. Value ranges from 1 to 100000.

Static Classes Default Shape

Trident platform switches define these default shapes for static classes:
  • copp-system-arp 10000 copp-system-lldp 10000
  • copp-system-arpresolver 10000 copp-system-l3destmiss 10000
  • copp-system-bpdu 5000 copp-system-l3slowpath 10000
  • copp-system-default 8000 copp-system-l3ttl1 10000
  • copp-system-glean 10000 copp-system-selfip 5000
  • copp-system-igmp 10000 copp-system-selfip-tc6to7 5000
  • copp-system-ipmcmiss 10000 copp-system-sflow 25000
  • copp-system-ipmcrsvd 10000 copp-system-tc3to5 10000
  • copp-system-lacp 5000 copp-system-tc6to7 10000
Related Commands

Example

These commands configure a maximum bandwidth of 5000 packets per second for data traffic specified by the class map PMAP-1 in the policy map named copp-system-policy.
switch(config)# policy-map type copp copp-system-policy
switch(config-pmap-copp-system-policy)# class PMAP-1
switch(config-pmap-c-copp-system-policy-PMAP-1)# shape pps 5000
switch(config-pmap-c-copp-system-policy-PMAP-1)

show class-map type control-plane

The show class-map command displays contents of available control-plane class maps. Control-plane class maps can be added to the copp-system-policy policy map. Control-plane class maps can be static class maps defined by the system or dynamic maps created in class-map configuration mode.

Dynamic class maps are composed of statements that match IPv4 access control lists. Static class maps are defined by the switch and cannot be altered.

Command Mode

EXEC

Command Syntax

show class-map type control-plane [MAP_NAME]

Parameters

MAP_NAME Name of class map displayed by the command. Options include:
  • no parameter Command displays all control plane class maps.
  • name_text Command displays specified control-plane class maps.
Related Command

Example

This command displays the available control plane class maps.
switch# show class-map type control-plane
  Class-map: CM-CP1 (match-any)
    Match: ip access-group name LIST-CP1
  Class-map: copp-system-acllog (match-any)
  Class-map: copp-system-arp (match-any)
  Class-map: copp-system-arpresolver (match-any)
  Class-map: copp-system-bpdu (match-any)
  Class-map: copp-system-glean (match-any)
  Class-map: copp-system-igmp (match-any)
  Class-map: copp-system-ipmcmiss (match-any)
  Class-map: copp-system-ipmcrsvd (match-any)
  Class-map: copp-system-l3destmiss (match-any)
  Class-map: copp-system-l3slowpath (match-any)
  Class-map: copp-system-l3ttl1 (match-any)
  Class-map: copp-system-lacp (match-any)
  Class-map: copp-system-lldp (match-any)
  Class-map: copp-system-selfip (match-any)
  Class-map: copp-system-selfip-tc6to7 (match-any)
  Class-map: copp-system-sflow (match-any)
  Class-map: copp-system-tc3to5 (match-any)
  Class-map: copp-system-tc6to7 (match-any)
switch>

show class-map type pbr

The show class-map command displays contents of all available Policy-Based Routing (PBR) class maps, or of a specified PBR class map. PBR class maps are used by PBR policy maps. PBR class maps are dynamic maps that are created in class-map-configuration mode. Dynamic class maps are composed of statements that match IPv4 or IPv6 access control lists.

Command Mode

EXEC

Command Syntax

show class-map type pbr [map_name]

Parameters

map_name Name of class map displayed by the command. If no parameter is entered, command show all available PBR class maps.

Related Command

show policy-map type pbr displays PBR policy maps.

Example

This command displays the contents of the PBR class map CMAP1.
switch# show class-map type pbr CMAP1
  Class-map: CMAP1 (match-any)
    Match: 10 ip access-group PBRgroup1
    Match: 20 ip access-group PBRgroup2
    Match: 30 ip access-group PBRgroup3
switch>

show class-map type qos

The show class-mapcommand displays contents of all available QoS class maps. QoS class maps are used by QoS policy maps. QoS class maps are dynamic maps that are created in class-map configuration mode. Dynamic class maps are composed of statements that match IPv4 or IPv6 access control lists.

Command Mode

EXEC

Command Syntax

show class-map [type qos][MAP_NAME]

Parameters

MAP_NAME Name of class map displayed by the command.
  • no parameter Command displays all QoS class maps.
  • name_text Command displays specified QoS class maps.

show class-map and show class-map type qos are identical commands.

Related Command

show class-map type control-plane displays control plane class maps.

Example

This command displays the available QoS class maps.
switch# show class-map type qos
  Class-map: CM-Q1 (match-any)
    Match: ipv6 access-group name LIST-1
  Class-map: CM-Q2 (match-any)
    Match: ip access-group name LIST-2
switch>

show policy-map copp

The show policy-map copp command displays contents of the control-plane policy map. Control-plane policy maps are applied to the control plane, and copp-system-policy is the only supported policy map.

Command Mode

EXEC

Command Syntax

show policy-map copp copp-system-policy

Example

This command displays the contents and throughput of the policy map applied to the control plane.
switch# show policy-map copp copp-system-policy
Service-policy input: copp-system-policy
  Number of units programmed: 1
  Hardware programming status: Successful

  Class-map: copp-system-bpdu (match-any)
       shape : 5000 pps
       bandwidth : 5000 pps
      Out Packets : 2
      Drop Packets : 0

  Class-map: copp-system-lacp (match-any)
       shape : 5000 pps
       bandwidth : 5000 pps
      Out Packets : 0
      Drop Packets : 0

switch>

show policy-map interface type qos counters

The show policy-map interface command displays the quantity of packets that are filtered by ACLs applied to a interface.

Command Mode

EXEC

Command Syntax

show policy-map [INTERFACE_NAME][type qos][TRAFFIC] counters

Parameters
  • INTERFACE_NAME Filters policy map list by interfaces. Options include:
    • no parameter Displays data for all configured interfaces.
    • interface ethernet e_range Ethernet ports for which command displays policy maps.
    • interface port-channel p_range Port channels for which command displays policy maps.
  • TRAFFIC Filters policy maps by the traffic they manage. Options include:
    • no parameter Policy maps that manage interfaces ingress traffic (same as input option).
    • input Policy maps that manage interfaces ingress traffic.

Example

This command displays the policy maps applied to interfaces Ethernet 7 and 8.
switch# show policy-map interface ethernet 7-8
Service-policy input: PMAP-1
  Hardware programming status: Successful

  Class-map: cmap-1 (match-any)
    Match: ip access-group name LIST-2
       set cos 6

  Class-map: class-default (match-any)

Service-policy input: PMAP-2
  Hardware programming status: Successful

  Class-map: cmap-2 (match-any)
    Match: ip access-group name LIST-2
       set dscp 10

  Class-map: class-default (match-any)

switch#

show policy-map interface type qos

The show policy-map interface command displays contents of the policy maps applied to specified interfaces or to the control plane.

Command Mode

EXEC

Command Syntax

show policy-map interface INTERFACE_NAME [type qos] [TRAFFIC]

Parameters
  • INTERFACE_NAME Filters policy map list by interfaces. Options include:
    • ethernet e_range Ethernet ports for which command displays policy maps.
    • port-channel p_range Port channels for which command displays policy maps.
  • TRAFFIC Filters policy maps by the traffic they manage. Options include:
    • no parameter Policy maps that manage interfaces ingress traffic (same as input option).
    • input Policy maps that manage interfaces ingress traffic.

Example

This command displays the policy maps applied to interfaces Ethernet 7 and 8.
switch# show policy-map interface ethernet 7-8
Service-policy input: PMAP-1
  Hardware programming status: Successful

  Class-map: cmap-1 (match-any)
    Match: ip access-group name LIST-2
       set cos 6

  Class-map: class-default (match-any)

Service-policy input: PMAP-2
  Hardware programming status: Successful

  Class-map: cmap-2 (match-any)
    Match: ip access-group name LIST-2
       set dscp 10

  Class-map: class-default (match-any)

switch#

show policy-map type copp

The show policy-map type copp command displays contents of control plane policy maps. Control-plane policy maps are applied to the control plane; copp-system-policy is the only supported policy map.

Command options filter the output to display contents of all policy maps, contents of a specified policy map, or contents of a single class map within a specified policy map.

Command Mode

EXEC

Command Syntax

show policy-map type copp copp-system-policy [CMAP_NAME]

Parameters

CMAP_NAME Name of class map displayed by the command.
  • no parameter Command displays all class maps in specified policy map.
  • class_name Command displays specified class map.

Example

This command displays the contents of the copp-system-bpdu class map in the copp-system-policy policy maps.
switch# show policy-map type copp copp-system-policy class copp-system-bpdu
  Class-map: copp-system-bpdu (match-any)
       shape : 5000 pps
       bandwidth : 5000 pps

switch>

show policy-map type pbr

The show policy-map pbr command displays contents of Policy-Based Routing (PBR) policy maps. PBR policy maps are applied to Ethernet interfaces, port channel interfaces or switch virtual interfaces (SVIs).

Command options filter the output to either display contents of all policy maps, contents of a specified policy map, or summary contents of all or a specified policy map.

Command Mode

EXEC

Command Syntax

show policy-map type pbr [PMAP_NAME][DATA_LEVEL]

Parameters
  • PMAP_NAME Name of policy map displayed by the command.
    • no parameter Command displays all policy maps.
    • policy_map Command displays specified policy map.
  • DATA_LEVEL Type of information the command displays. Values include:
    • no parameter Command displays all class maps in specified policy map.
    • summary Command displays summary data for the specified policy map.

Example

This command displays the contents of all PBR policy maps in running-config.
switch# show policy-map type pbr
Service policy PMAP1
Configured on:
Applied on:
10: Class-map: CMAP1 (match-any)
Match: 10 ip access-group PBRgroup1
Match: 20 ip access-group PBRgroup2
Match: 30 ip access-group PBRgroup3
Configured actions: set nexthop 172.16.10.12
20: Class-map: CMAP2 (match-any)
Match: 10 ip access-group PBRgroup1
Match: 10 ip access-group PBRgroup4
Match: 20 ip access-group PBRgroup5
Configured actions: set nexthop 192.168.15.15
switch#

show policy-map type qos counters

The show policy-map counters command displays the quantity of packets that are filtered by the ACLs that comprise a specified QoS policy map.

Command Mode

EXEC

Command Syntax

show policy-map [type qos] pmap_name [TRAFFIC] counters [INFO_LEVEL]

Parameters
  • pmap_name Name of policy map displayed by the command.
  • TRAFFIC Filters policy maps by the traffic they manage. Options include:
    • no parameter Policy maps that manage interfaces ingress traffic (same as input option).
    • input Policy maps that manage interfaces ingress traffic.
  • INFO_LEVEL amount of information that is displayed. Options include:
    • no parameter displays summarized information about the policy map.
    • detail displays detailed policy map information.

show policy-map type qos

The show policy-map qos command displays contents of QoS policy maps. QoS policy maps are applied to Ethernet or port channel interfaces.

Command options filter the output to either display contents of all policy maps, contents of a specified policy map, or contents of a single class map within a specified policy map.

Command Mode

EXEC

Command Syntax

show policy-map [type qos][PMAP_NAME [CMAP_NAME]]

Parameters
  • PMAP_NAME Name of policy map displayed by the command.
    • no parameter Command displays all policy maps.
    • policy_map Command displays specified policy map.
  • CMAP_NAME Name of class map displayed by the command. This option is available only when the command includes a policy map name.
    • no parameter Command displays all class maps in specified policy map.
    • class_name Command displays specified class map.

Example

This command displays the contents of all QoS policy maps in running-config.
switch# show policy-map type qos
Service-policy input: PMAP-1
  Hardware programming status: Successful

  Class-map: xeter (match-any)
    Match: ip access-group name LIST-1
       set cos 6

  Class-map: class-default (match-any)

Service-policy PMAP-2

  Class-map: class-default (match-any)

switch#

show traffic-policy

The show traffic-policy command displays traffic policy information on the interface.

Command Mode

EXEC

Command Syntax

show traffic-policy NAME interface

show traffic-policy interface [DETAILS]

Parameters

DETAILS   Details requested. Options include:
  • summary   Display summary information about the policy.
    • errors Display all configured remote grantees, associated profile name and latest update.
    • details Display all interfaces on which the policy has been configured.
Examples
  • This command displays the sumary information configured on the switch interfaces.
    switch(config-traffic-policies)# show traffic-policy interface summary
Traffic policy samplePolicy
   Configured on interfaces: Ethernet1/1, Ethernet2/1, Ethernet3/1, ...
   Applied on interfaces for IPv4 traffic: Ethernet1/1, Ethernet2/1, Ethernet3/1, ...
   Applied on interfaces for IPv6 traffic:
   Total number of rules configured: 3
      match SIMPLE ipv4
      match ipv4-all-default ipv4
      match ipv6-all-default ipv6
  • This command displays information about the traffic policy named samplePolicy.
    switch(config-traffic-policies)# show traffic-policy samplePolicy interface
Traffic policy samplePolicy
   Configured on interfaces: Ethernet1/1, Ethernet2/1, Ethernet3/1, ...
   Applied on interfaces for IPv4 traffic: Ethernet1/1, Ethernet2/1, Ethernet3/1, ...
   Applied on interfaces for IPv6 traffic:
   Total number of rules configured: 3
      match SIMPLE ipv4
         Source prefix: 192.0.2.0/24
                        198.51.100.0/24
         Destination prefix: 203.0.113.0/24
         Protocol: tcp
            Source port: 50-100
                         110-200
         Actions: Drop
      match ipv4-all-default ipv4
      match ipv6-all-default ipv6
  • This command displays all interfaces on which samplePolicy has been configured.
    switch(config-traffic-policies)# show traffic-policy interface detail
Traffic policy samplePolicy
   Configured on interfaces: Ethernet1/1, Ethernet2/1, Ethernet3/1, Ethernet4/1
   Applied on interfaces for IPv4 traffic: Ethernet1/1, Ethernet2/1, Ethernet3/1, Ethernet4/1
   Applied on interfaces for IPv6 traffic:
   Total number of rules configured: 3
      match SIMPLE ipv4
         Source prefix: 192.0.2.0/24
                        198.51.100.0/24
         Destination prefix: 203.0.113.0/24
         Protocol: tcp
            Source port: 50-100
                         110-200
         Actions: Drop
      match ipv4-all-default ipv4
      match ipv6-all-default ipv6
  • This command displays installation errors for a match statement. The example has no errors.
    switch(config-traffic-policies)# show traffic-policy interface errors
Traffic policy samplePolicy
   Failed on interface for IPv4 traffic:
   Failed on interface for IPv6 traffic:
..