Configuring Control Plane Policing
This chapter contains information on how to protect your Catalyst 4000 family switch using control plane policing (CoPP). The information covered in this chapter is unique to the Catalyst 4500 series switches, and it supplements the network security information and procedures in Chapter 42 "Configuring Network Security with ACLs." This information also supplements the network security information and procedures in these publications:
•Cisco IOS Security Configuration Guide, Cisco IOS Release 12.4, at this URL:
http://www.cisco.com/en/US/docs/ios/security/configuration/guide/12_4/sec_12_4_book.html
•Cisco IOS Security Command Reference, Cisco IOS Release 12.4, at this URL:
http://www.cisco.com/en/US/docs/ios/security/command/reference/sec_book.html
This chapter includes the following major sections:
•About Control Plane Policing
•CoPP Default Configuration
•Configuring CoPP
•CoPP Configuration Guidelines and Restrictions
•Monitoring CoPP
Note For complete syntax and usage information for the switch commands used in this chapter, look at the Cisco Catalyst 4500 Series Switch Command Reference and related publications at this location:
http://www.cisco.com/en/US/products/hw/switches/ps4324/index.html
If the command is not found in the Catalyst 4500 Command Reference, it is located in the larger Cisco IOS library. Refer to the Catalyst 4500 Series Switch Cisco IOS Command Reference and related publications at this location:
http://www.cisco.com/en/US/products/ps6350/index.html
About Control Plane Policing
The control plane policing (CoPP) feature increases security on the Catalyst 4000 family switch by protecting the CPU from unnecessary or DoS traffic and giving priority to important control plane and management traffic. The Classification TCAM and QoS policers provide hardware support for CoPP. CoPP works with all supervisor engines supported by Cisco IOS Release 12.2(31)SG.
The traffic managed by the CPU is divided into three functional components or planes:
•Data plane
•Management plane
•Control plane
You can use CoPP to protect most of the CPU bound traffic and ensure routing stability, reachability and packet delivery. Most importantly, CoPP is often used to protect the CPU from the DoS attack. There is a list of pre-defined ACLs matching a selected set of Layer 2 and Layer 3 control plane packets. You can define your preferred policing parameters to each of these control packets but you cannot modify the matching criteria of these pre-defined ACLs. Following is the list of pre-defined ACLs:
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system-cpp-dot1x |
MAC DA = 0180.C200.0003 |
system-cpp-lldp |
MAC DA=0180.c200.000E |
system-cpp-mcast-cfm |
MAC DA=0100.0ccc.ccc0 - 0100.0ccc.ccc7 |
system-cpp-ucast-cfm |
MAC DA=0100.0ccc.ccc0 |
system-cpp-bpdu-range |
MAC DA = 0180.C200.0000 - 0180.C200.000F |
system-cpp-cdp |
MAC DA = 0100.0CCC.CCCC (UDLD/DTP/VTP/Pagp) |
system-cpp-sstp |
MAC DA = 0100.0CCC.CCCD |
system-cpp-cgmp |
MAC DA = 01-00-0C-DD-DD-DD |
system-cpp-hsrpv2 |
IP Protocol = UDP, IPDA = 224.0.0.102 |
system-cpp-ospf |
IP Protocol = OSPF, IPDA matches 224.0.0.0/24 |
system-cpp-igmp |
IP Protocol = IGMP, IPDA matches 224.0.0.0/3 |
system-cpp-pim |
IP Protocol = PIM, IPDA matches 224.0.0.0/24 |
system-cpp-all-systems-on-subnet |
IPDA = 224.0.0.1 |
system-cpp-all-routers-on-subnet |
IPDA = 224.0.0.2 |
system-cpp-ripv2 |
IPDA = 224.0.0.9 |
system-cpp-ip-mcast-linklocal |
IP DA = 224.0.0.0/24 |
system-cpp-dhcp-cs |
IP Protocol = UDP, L4SrcPort = 68, L4DstPort = 67 |
system-cpp-dhcp-sc |
IP Protocol = UDP, L4SrcPort = 67, L4DstPort = 68 |
system-cpp-dhcp-ss |
IP Protocol = UDP, L4SrcPort = 67, L4DstPort = 67 |
For the Data Plane and Management Plane traffic, you can define your own ACLs to match the traffic class that you want to police.
CoPP uses MQC to define traffic classification criteria and to specify the configurable policy actions for the classified traffic. MQC uses class maps to define packets for a particular traffic class. After you have classified the traffic, you can create policy maps to enforce policy actions for the identified traffic. The control-plane global configuration command allows the CoPP service policy to be directly attached to the control plane.
The only policy-map that you can attach to the control-plane is system-cpp-policy. It must contain the pre-defined class-maps in the pre-defined order at the beginning of the policy map. The best way to create the system-cpp-policy policy-map is through the global macro system-cpp.
The system-cpp-policy contains the pre-defined class maps for the control plane traffic. The names of all system defined CoPP class maps and their matching ACLs contain the prefix "system-cpp-". By default, no action is specified for each traffic class. You can define your own class maps matching CPU bound data plane and management plane traffic. You can add your defined class maps to the system-cpp-policy policy-map.
CoPP Default Configuration
CoPP is disabled by default.
Configuring CoPP
This section includes the following tasks:
•Configure CoPP for Control Plane Traffic
•Configure CoPP for Data Plane and Management Plane Traffic
Configure CoPP for Control Plane Traffic
To configure CoPP for Control Plane traffic, perform this task:
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Step 1 |
Switch# config terminal |
Enters global configuration mode. |
Step 2 |
Switch(config)# macro global apply system-cpp |
(Optional) Creates the system-cpp-policy policy-map and attaches it to the control-plane. |
Step 3 |
Switch(config)# policy-map system-cpp-policy
Switch(config-pmap)# class
{system-cpp-dot1x | system-cpp-bpdu-range |
system-cpp-cdp | service | system-cpp-sstp
| system-cpp-cgmp | system-cpp-ospf |
system-cpp-igmp | system-cpp-pim |
system-cpp-all-systems-on-subnet |
system-cpp-all-routers-on-subnet |
system-cpp-ripv2 | system-cpp-hsrpv2 |
system-cpp-ip-mcast-linklocal |
system-cpp-dhcp-cs | system-cpp-dhcp-sc |
system-cpp-dhcp-ss}
Switch(config-pmap-c)# police [aggregate
name] rate burst [conform-action {drop |
transmit}] [{exceed-action {drop |
transmit}}]}
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Associates actions to one or multiple system defined control plane traffic in the service policy map. Repeat this step if necessary. |
Step 4 |
Switch# show policy-map system-cpp-policy |
(Optional) Verifies the configuration |
The following example shows how to police CDP packets:
Enter configuration commands, one per line. End with CNTL/Z.
Switch(config)# macro global apply system-cpp
Switch(config)# policy-map system-cpp-policy
Switch(config-pmap)# class system-cpp-cdp
Switch(config-pmap-c)# police 32000 1000 conform-action transmit exceed-action drop
Switch(config-pmap-c)# end
Switch# show policy-map system-cpp-policy
Policy Map system-cpp-policy
Class system-cpp-bpdu-range
police 32000 bps 1000 byte conform-action transmit exceed-action drop *
Class system-cpp-all-systems-on-subnet
Class system-cpp-all-routers-on-subnet
Class system-cpp-ip-mcast-linklocal
Configure CoPP for Data Plane and Management Plane Traffic
To configure CoPP for Data Plane and Management Plane traffic, perform this task:
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Step 1 |
Switch# config terminal |
Enters global configuration mode. |
Step 2 |
Switch(config)# macro global apply system-cpp |
(Optional) Attaches the system-cpp-policy policy-map to the control-plane. |
Step 3 |
Switch(config)# {ip | mac} access-list extended {access-list-name}
For an ip access list, issue
Switch(config-ext-nacl)#{permit|deny}
{protocol} source {source-wildcard}
destination {destination-wildcard}
For a mac access list, issue
Switch(config-ext-macl)#{permit|deny}
source {source-wildcard} destination
{destination-wildcard} [protocol-family]
Switch(config)# access-list
{access-list-name} {permit | deny}
{type-code wild-mask | address mask}
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Defines ACLs to match traffic: •permit - sets the conditions under which a packet passes a named ACL •deny - sets the conditions under which a packet does not pass a name ACL Note You must configure ACLs in most cases to identify the important or unimportant traffic. •type-code - 16-bit hexadecimal number written with a leading 0x; for example, 0x6000. Specify either a Link Service Access Point (LSAP) type code for 802-encapsulated packets or a SNAP type code for SNAP-encapsulated packets. (LSAP, sometimes called SAP, refers to the type codes found in the DSAP and SSAP fields of the 802 header.) •wild-mask - 16-bit hexadecimal number whose ones bits correspond to bits in the type-code argument. The wild-mask indicates which bits in the type-code argument should be ignored when making a comparison. (A mask for a DSAP/SSAP pair should always be 0x0101 because these two bits are used for purposes other than identifying the SAP code.) •address - 48-bit Token Ring address written as a dotted triple of four-digit hexadecimal numbers. This field is used for filtering by vendor code. •mask - 48-bit Token Ring address written as a dotted triple of four-digit hexadecimal numbers. The ones bits in mask are the bits to be ignored in address. This field is used for filtering by vendor code. |
Step 4 |
Switch(config)# class-map
{traffic-class-name}
Switch(config-cmap)# match access-group
{access-list-number | name
{access-list-name}}
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Defines the packet classification criteria. Use the match statements to identify the traffic associated with the class. |
Step 5 |
Switch(config-cmap)# exit
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Returns to global configuration mode. |
Step 6 |
Switch(config)# policy-map
system-cpp-policy
Switch(config-pmap)# class <class-map-name>
Switch(config-pmap-c)# police
[aggregate name] rate burst
[conform-action {drop | transmit}]
[{exceed-action {drop | transmit}}]
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Adds the traffic classes to the CoPP policy-map. Uses the police statement to associate actions to the traffic class. |
Step 7 |
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Returns to privileged EXEC mode. |
Step 8 |
Switch# show policy-map system-cpp-policy
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Verifies your entries. |
The following example shows how to configure trusted hosts with source addresses 10.1.1.1 and 10.1.1.2 to forward Telnet packets to the control plane without constraint, while allowing all remaining Telnet packets to be policed at the specific rate (this example assumes the global qos is enabled and the system-cpp-policy policy-map has been created):
Enter configuration commands, one per line. End with CNTL/Z.
Switch(config)# macro global apply system-cpp
! Allow 10.1.1.1 trusted host traffic.
Switch(config)# access-list 140 deny tcp host 10.1.1.1 any eq telnet
! Allow 10.1.1.2 trusted host traffic.
Switch(config)# access-list 140 deny tcp host 10.1.1.2 any eq telnet
! Rate limit all other Telnet traffic.
Switch(config)# access-list 140 permit tcp any any eq telnet
! Define class-map "telnet-class."
Switch(config)# class-map telnet-class
Switch(config-cmap)# match access-group 140
Switch(config-cmap)# exit
! Add the class-map "telnet-class" to "system-cpp-policy" and define ! the proper action
Switch(config)# policy-map system-cpp-policy
Switch(config-pmap)# class telnet-class
Switch(config-pmap-c)# police 80000 1000 conform transmit exceed drop
Switch(config-pmap-c)# exit
Switch(config-pmap)# exit
! Verify the above configuration steps
Switch# show policy-map system-cpp-policy
Policy Map system-cpp-policy
Class system-cpp-bpdu-range
police 32000 bps 1000 byte conform-action transmit exceed-action drop
Class system-cpp-all-systems-on-subnet
Class system-cpp-all-routers-on-subnet
Class system-cpp-ip-mcast-linklocal
police 8000 bps 1000 byte conform-action drop exceed-action drop
CoPP Configuration Guidelines and Restrictions
When configuring CoPP, follow these guidelines and restrictions:
•Only ingress CoPP is supported. So only input keyword is supported in control-plane related CLIs.
•Use the system defined class maps for policing control plane traffic.
•System-defined class maps cannot be used in policy-maps for regular QoS.
•Use ACLs and class-maps to identify data plane and management plane traffic that are handled by CPU. User-defined class maps should be added to the system-cpp-policy policy-map for CoPP.
•The policy-map named system-cpp-policy is dedicated for CoPP.
•The default system-cpp-policy map does not define actions for the system-defined class maps, which means no policing.
•The only action supported in system-cpp-policy policy-map is police.
•Do not use the log keyword in the CoPP policy ACLs.
•Both MAC and IP ACLs can be used to define data plane and management plane traffic classes. But if a packet also matches a pre-defined ACL for the control plane traffic, the police action (or no police action) of the control plane class will be taken as the control plane classes appear above user-defined classes in the service policy. This is the same MQC semantic.
•The exceeding action policed-dscp-transmit is not supported for CoPP.
Monitoring CoPP
You can enter the show policy-map control-plane command for developing site-specific policies, monitoring statistics for the control plane policy, and troubleshooting CoPP. This command displays dynamic information about the actual policy applied including rate information and the number of bytes (and packets) that conformed or exceeded the configured policies both in hardware and in software.
The output of the show policy-map control-plane command is as follows:
Switch# show policy-map control-plane
Service-policy input: system-cpp-policy
Class-map: system-cpp-dot1x (match-all)
Match: access-group name system-cpp-dot1x
Class-map: system-cpp-bpdu-range (match-all)
Match: access-group name system-cpp-bpdu-range
* Class-map: system-cpp-cdp (match-all)
Match: access-group name system-cpp-cdp
Conform: 22960 bytes Exceed: 0 bytes
Class-map: system-cpp-sstp (match-all)
Match: access-group name system-cpp-sstp
Class-map: system-cpp-cgmp (match-all)
Match: access-group name system-cpp-cgmp
Class-map: system-cpp-hsrpv2 (match-all)
Match: access-group name system-cpp-hsrpv2
Class-map: system-cpp-ospf (match-all)
Match: access-group name system-cpp-ospf
Class-map: system-cpp-igmp (match-all)
Match: access-group name system-cpp-igmp
Class-map: system-cpp-pim (match-all)
Match: access-group name system-cpp-pim
Class-map: system-cpp-all-systems-on-subnet (match-all)
Match: access-group name system-cpp-all-systems-on-subnet
Class-map: system-cpp-all-routers-on-subnet (match-all)
Match: access-group name system-cpp-all-routers-on-subnet
Class-map: system-cpp-ripv2 (match-all)
Match: access-group name system-cpp-ripv2
Class-map: system-cpp-ip-mcast-linklocal (match-all)
Match: access-group name system-cpp-ip-mcast-linklocal
Class-map: system-cpp-dhcp-cs (match-all)
Match: access-group name system-cpp-dhcp-cs
Class-map: system-cpp-dhcp-sc (match-all)
Match: access-group name system-cpp-dhcp-sc
Class-map: system-cpp-dhcp-ss (match-all)
Match: access-group name system-cpp-dhcp-ss
* Class-map: telnet-class (match-all)
Conform: 0 bytes Exceed: 0 bytes*
Class-map: class-default (match-any)
To clear the counters on the control-plane, enter the clear control-plane * command:
Switch# clear control-plane *
To display all the CoPP access list information, enter the show access-lists command:
Switch# show access-lists
Extended IP access list system-cpp-all-routers-on-subnet
10 permit ip any host 224.0.0.2
Extended IP access list system-cpp-all-systems-on-subnet
10 permit ip any host 224.0.0.1
Extended IP access list system-cpp-dhcp-cs
10 permit udp any eq bootpc any eq bootps Extended IP access list
10 permit udp any eq bootps any eq bootpc Extended IP access list
10 permit udp any eq bootps any eq bootps Extended IP access list
10 permit igmp any 224.0.0.0 31.255.255.255 Extended IP access list
system-cpp-ip-mcast-linklocal
10 permit ip any 224.0.0.0 0.0.0.255 Extended IP access list
10 permit ospf any 224.0.0.0 0.0.0.255 Extended IP access list
10 permit pim any 224.0.0.0 0.0.0.255 Extended IP access list
10 permit ip any host 224.0.0.9
Extended MAC access list system-cpp-bpdu-range
permit any 0180.c200.0000 0000.0000.000f Extended MAC access list
permit any host 0100.0ccc.cccc
Extended MAC access list system-cpp-cgmp
permit any host 0100.0cdd.dddd
Extended MAC access list system-cpp-dot1x
permit any host 0180.c200.0003
permit any host 0100.0ccc.cccd
To display one CoPP access list, enter the show access-lists system-cpp-cdp command:
Switch# show access-list system-cpp-cdp
Extended MAC access list system-cpp-cdp
permit any host 0100.0ccc.cccc