- Introduction
- aaa accounting through clear ipv6 mobile home-agents
- clear ipv6 mobile traffic through debug bgp vpnv6 unicast
- debug crypto ipv6 ipsec through debug ipv6 pim
- debug ipv6 pim df-election through ip http server
- ip mroute-cache through ipv6 general-prefix
- ipv6 hello-interval eigrp through ipv6 mld static-group
- ipv6 mobile home-agent (global configuration) through ipv6 ospf database-filter all out
- ipv6 ospf dead-interval through ipv6 split-horizon eigrp
- ipv6 summary-address eigrp through mpls ldp router-id
- mpls traffic-eng auto-bw timers through route-map
- router-id (IPv6) through show bgp ipv6 labels
- show bgp ipv6 neighbors through show crypto isakmp peers
- show crypto isakmp policy through show ipv6 eigrp neighbors
- show ipv6 eigrp topology through show ipv6 nat statistics
- show ipv6 nat translations through show ipv6 protocols
- show ipv6 rip through snmp-server host
- snmp-server user through vrf forwarding
- ipv6 hello-interval eigrp
- ipv6 hold-time eigrp
- ipv6 hop-limit
- ipv6 host
- ipv6 icmp error-interval
- ipv6 inspect
- ipv6 inspect alert-off
- ipv6 inspect audit trail
- ipv6 inspect max-incomplete high
- ipv6 inspect max-incomplete low
- ipv6 inspect name
- ipv6 inspect one-minute high
- ipv6 inspect one-minute low
- ipv6 inspect routing-header
- ipv6 inspect tcp idle-time
- ipv6 inspect tcp max-incomplete host
- ipv6 inspect tcp synwait-time
- ipv6 inspect udp idle-time
- ipv6 local policy route-map
- ipv6 local pool
- ipv6 mfib
- ipv6 mfib-cef
- ipv6 mfib cef output
- ipv6 mfib fast
- ipv6 mfib forwarding
- ipv6 mfib hardware-switching
- ipv6 mfib-mode centralized-only
- ipv6 mld access-group
- ipv6 mld explicit-tracking
- ipv6 mld host-proxy
- ipv6 mld host-proxy interface
- ipv6 mld join-group
- ipv6 mld limit
- ipv6 mld query-interval
- ipv6 mld query-max-response-time
- ipv6 mld query-timeout
- ipv6 mld router
- ipv6 mld snooping
- ipv6 mld snooping explicit-tracking
- ipv6 mld snooping last-member-query-interval
- ipv6 mld snooping limit
- ipv6 mld snooping mrouter
- ipv6 mld snooping querier
- ipv6 mld snooping report-suppression
- ipv6 mld ssm-map enable
- ipv6 mld ssm-map query dns
- ipv6 mld ssm-map static
- ipv6 mld state-limit
- ipv6 mld static-group
ipv6 hello-interval eigrp
To configure the hello interval for the Enhanced Interior Gateway Routing Protocol (EIGRP) for IPv6 routing process designated by an autonomous system number, use the ipv6 hello-interval eigrp command in interface configuration mode. To restore the default value, use the no form of this command.
ipv6 hello-interval eigrp as-number seconds
no ipv6 hello-interval eigrp as-number seconds
Syntax Description
as-number |
Autonomous system number. |
seconds |
Hello interval, in seconds. The range is from 1 to 65535. |
Command Default
For low-speed, nonbroadcast multiaccess (NBMA) networks, the default hello interval is 60 seconds.
For all other networks, the default hello interval is 5 seconds.
Command Modes
Interface configuration
Command History
Usage Guidelines
The default of 60 seconds applies only to low-speed, NBMA media. Low speed is considered to be a rate of T1 or slower, as specified with the bandwidth interface configuration command. Note that for the purposes of EIGRP for IPv6, Frame Relay and Switched Multimegabit Data Service (SMDS) networks may be considered to be NBMA. These networks are considered NBMA if the interface has not been configured to use physical multicasting; otherwise, they are considered not to be NBMA.
Examples
The following example sets the hello interval for Ethernet interface 0 to 10 seconds on autonomous system 1:
interface ethernet 0
ipv6 hello-interval eigrp 1 10
Related Commands
ipv6 hold-time eigrp
To configure the hold time for a particular Enhanced Interior Gateway Routing Protocol (EIGRP) for IPv6 routing process designated by the autonomous system number, use the ipv6 hold-time eigrp command in interface configuration mode. To restore the default value, use the no form of this command.
ipv6 hold-time eigrp as-number seconds
no ipv6 hold-time eigrp as-number seconds
Syntax Description
as-number |
Autonomous system number. |
seconds |
Hello interval, in seconds. The range is from 1 to 65535. |
Command Default
For low-speed, nonbroadcast multiaccess (NBMA) networks, the default hold-time interval is
180 seconds.
For all other networks, the default hold-time interval is 15 seconds.
Command Modes
Interface configuration
Command History
Usage Guidelines
On very congested and large networks, the default hold time might not be sufficient time for all routers and access servers to receive hello packets from their neighbors. In this case, you may want to increase the hold time.
Cisco recommends that the hold time be at least three times the hello interval. If a router does not receive a hello packet within the specified hold time, routes through this router are considered unavailable.
Increasing the hold time delays route convergence across the network.
The default of 180 seconds hold time and 60 seconds hello interval apply only to low-speed, NBMA media. Low speed is considered to be a rate of T1 or slower, as specified with the bandwidth command.
Examples
The following example sets the hold time for Ethernet interface 0 to 40 seconds for AS 1:
interface ethernet 0
ipv6 hold-time eigrp 1 40
Related Commands
ipv6 hop-limit
To configure the maximum number of hops used in router advertisements and all IPv6 packets that are originated by the router, use the ipv6 hop-limit command in global configuration mode. To return the hop limit to its default value, use the no form of this command.
ipv6 hop-limit value
no ipv6 hop-limit value
Syntax Description
value |
The maximum number of hops. The acceptable range is from 1 to 255. |
Command Default
The default is 64 hops.
Command Modes
Global configuration
Command History
Examples
The following example configures a maximum number of 15 hops for router advertisements and all IPv6 packets that are originated from the router:
Router(config)# ipv6 hop-limit 15
ipv6 host
To define a static host name-to-address mapping in the host name cache, use the ipv6 host command in global configuration mode. To remove the host name-to-address mapping, use the no form of this command.
ipv6 host name [port] ipv6-address1 [ipv6-address2...ipv6-address4]
no ipv6 host name
Syntax Description
Command Default
Static host name-to-address mapping in the host name cache is not defined.
The default Telnet port is 23.
Command Modes
Global configuration
Command History
Usage Guidelines
The ipv6 host command is similar to the ip host command, except that it is IPv6-specific.
The first character of the name can be either a letter or a number. If you use a number, the operations you can perform (such as ping) are limited.
Examples
The following example defines two static mappings:
Router(config)# ipv6 host cisco-sj 2001:0DB8:1::12
Router(config)# ipv6 host cisco-hq 2002:C01F:768::1 2001:0DB8:1::12
Related Commands
|
|
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show hosts |
Displays the default domain name, the style of name lookup service, a list of name server hosts, and the cached list of host names and addresses. |
ipv6 icmp error-interval
To configure the interval and bucket size for IPv6 Internet Control Message Protocol (ICMP) error messages, use the ipv6 icmp error-interval command in global configuration mode. To return the interval to its default setting, use the no form of this command.
ipv6 icmp error-interval milliseconds [bucketsize]
no ipv6 icmp error-interval
Syntax Description
Command Default
ICMP rate limiting is enabled by default. To disable ICMP rate limiting, set the interval to zero.
The time interval between tokens placed in the bucket is 100 milliseconds.
The maximum number of tokens stored in the bucket is 10.
Command Modes
Global configuration
Command History
Usage Guidelines
Use the ipv6 icmp error-interval command to limit the rate at which IPv6 ICMP error messages are sent. A token bucket algorithm is used with one token representing one IPv6 ICMP error message. Tokens are placed in the virtual bucket at a specified interval until the maximum number of tokens allowed in the bucket is reached.
The milliseconds argument specifies the time interval between tokens arriving in the bucket. The optional bucketsize argument is used to define the maximum number of tokens allowed in the bucket. Tokens are removed from the bucket when IPv6 ICMP error messages are sent, which means that if the bucketsize is set to 20, a rapid succession of 20 IPv6 ICMP error messages can be sent. When the bucket is empty of tokens, IPv6 ICMP error messages are not sent until a new token is placed in the bucket.
Use the show ipv6 traffic command to display IPv6 ICMP rate-limited counters.
Examples
The following example shows an interval of 50 milliseconds and a bucket size of 20 tokens being configured for IPv6 ICMP error messages:
ipv6 icmp error-interval 50 20
Related Commands
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show ipv6 traffic |
Displays statistics about IPv6 traffic. |
ipv6 inspect
To apply a set of inspection rules to an interface, use the ipv6 inspect command in interface configuration mode. To remove the set of rules from the interface, use the no form of this command.
ipv6 inspect inspection-name {in | out}
no ipv6 inspect inspection-name {in | out}
Syntax Description
inspection-name |
Identifies which set of inspection rules to apply. |
in |
Applies the inspection rules to inbound traffic. |
out |
Applies the inspection rules to outbound traffic. |
Command Default
If no set of inspection rules is applied to an interface, no traffic will be inspected by Context-Based Access Control (CBAC).
Command Modes
Interface configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
Use this command to apply a set of inspection rules to an interface.
Typically, if the interface connects to the external network, you apply the inspection rules to outbound traffic; alternately, if the interface connects to the internal network, you apply the inspection rules to inbound traffic.
If you apply the rules to outbound traffic, then return inbound packets will be permitted if they belong to a valid connection with existing state information. This connection must be initiated with an outbound packet.
If you apply the rules to inbound traffic, then return outbound packets will be permitted if they belong to a valid connection with existing state information. This connection must be initiated with an inbound packet.
Examples
The following example applies a set of inspection rules named "outboundrules" to an external interface's outbound traffic. This causes inbound IP traffic to be permitted only if the traffic is part of an existing session, and to be denied if the traffic is not part of an existing session.
interface serial0
ipv6 inspect outboundrules out
Related Commands
|
|
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ipv6 inspect name |
Defines a set of inspection rules. |
ipv6 inspect alert-off
To disable Context-based Access Control (CBAC) alert messages, which are displayed on the console, use the ipv6 inspect alert off command in global configuration mode. To enable Cisco IOS firewall alert messages, use the no form of this command.
ipv6 inspect alert-off
no ipv6 inspect alert-off
Syntax Description
This command has no arguments or keywords.
Command Default
Alert messages are displayed.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Examples
The following example turns off CBAC alert messages:
ipv6 inspect alert-off
Related Commands
ipv6 inspect audit trail
To turn on Context-based Access Control (CBAC) audit trail messages, which will be displayed on the console after each Cisco IOS firewall session closes, use the ipv6 inspect audit trail command in global configuration mode. To turn off Cisco IOS firewall audit trail message, use the no form of this command.
ipv6 inspect audit trail
no ipv6 inspect audit trail
Syntax Description
This command has no arguments or keywords.
Command Default
Audit trail messages are not displayed.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
Use this command to turn on CBAC audit trail messages.
Examples
The following example turns on CBAC audit trail messages:
ipv6 inspect audit trail
Afterward, audit trail messages such as the following are displayed:
%FW-6-SESS_AUDIT_TRAIL: tcp session initiator (192.168.1.13:33192) sent 22 bytes -- responder (192.168.129.11:25) sent 208 bytes
%FW-6-SESS_AUDIT_TRAIL: ftp session initiator 192.168.1.13:33194) sent 336 bytes -- responder (192.168.129.11:21) sent 325 bytes
These messages are examples of audit trail messages. To determine which protocol was inspected, refer to the responder's port number. The port number follows the responder's IP address.
Related Commands
|
|
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ipv6 inspect alert-off |
Disables CBAC alert messages. |
ipv6 inspect name |
Applies a set of inspection rules to an interface. |
ipv6 inspect max-incomplete high
To define the number of existing half-open sessions that will cause the software to start deleting half-open sessions, use the ipv6 inspect max-incomplete high command in global configuration mode. To reset the threshold to the default of 500 half-open sessions, use the no form of this command.
ipv6 inspect max-incomplete high number
no ipv6 inspect max-incomplete high
Syntax Description
Command Default
The default is 500 half-open sessions.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
An unusually high number of half-open sessions (either absolute or measured as the arrival rate) could indicate that a denial-of-service attack is occurring. For TCP, "half-open" means that the session has not reached the established state. For User Datagram Protocol, "half-open" means that the firewall has detected traffic from one direction only.
Context-based Access Control (CBAC) measures both the total number of existing half-open sessions and the rate of session establishment attempts. Both TCP and UDP half-open sessions are counted in the total number and rate measurements. Measurements are made once a minute.
When the number of existing half-open sessions rises above a threshold (the max-incomplete high number), the software will delete half-open sessions as required to accommodate new connection requests. The software will continue to delete half-open requests as necessary, until the number of existing half-open sessions drops below another threshold (the max-incomplete low number).
The global value specified for this threshold applies to all TCP and UDP connections inspected by CBAC.
Examples
The following example causes the software to start deleting half-open sessions when the number of existing half-open sessions rises above 900, and to stop deleting half-open sessions when the number drops below 800:
ipv6 inspect max-incomplete high 900
ipv6 inspect max-incomplete low 800
Related Commands
ipv6 inspect max-incomplete low
To define the number of existing half-open sessions that will cause the software to stop deleting half-open sessions, use the ipv6 inspect max-incomplete low command in global configuration mode. To reset the threshold to the default of 400 half-open sessions, use the no form of this command.
ipv6 inspect max-incomplete low number
no ipv6 inspect max-incomplete low
Syntax Description
Command Default
The default is 400 half-open sessions.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
An unusually high number of half-open sessions (either absolute or measured as the arrival rate) could indicate that a denial-of-service attack is occurring. For TCP, "half-open" means that the session has not reached the established state. For User Datagram Protocol, "half-open" means that the firewall has detected traffic from one direction only.
Context-based Access Control (CBAC) measures both the total number of existing half-open sessions and the rate of session establishment attempts. Both TCP and UDP half-open sessions are counted in the total number and rate measurements. Measurements are made once a minute.
When the number of existing half-open sessions rises above a threshold (the max-incomplete high number), the software will delete half-open sessions as required to accommodate new connection requests. The software will continue to delete half-open requests as necessary, until the number of existing half-open sessions drops below another threshold (the max-incomplete low number).
The global value specified for this threshold applies to all TCP and UDP connections inspected by CBAC.
Examples
The following example causes the software to start deleting half-open sessions when the number of existing half-open sessions rises above 900, and to stop deleting half-open sessions when the number drops below 800:
ipv6 inspect max-incomplete high 900
ipv6 inspect max-incomplete low 800
Related Commands
ipv6 inspect name
To define a set of ipv6 inspection rules, use the ipv6 inspect name command in global configuration mode. To remove the inspection rule for a protocol or to remove the entire set of inspection rules, use the no form of this command.
ipv6 inspect name inspection-name protocol [alert {on | off}] [audit-trail {on | off}] [timeout seconds]
no ipv6 inspect name inspection-name [protocol]
Syntax Description
Command Default
No set of inspection rules is defined.
Command Modes
Global configuration
Command History
|
|
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12.3(7)T |
This command was introduced. |
12.3(11)T |
FTP protocol support was added. |
Usage Guidelines
To define a set of inspection rules, enter this command for each protocol that you want the Cisco IOS firewall to inspect, using the same inspection-name. Give each set of inspection rules a unique inspection-name, which should not exceed the 16-character limit. Define either one or two sets of rules per interface—you can define one set to examine both inbound and outbound traffic, or you can define two sets: one for outbound traffic and one for inbound traffic.
To define a single set of inspection rules, configure inspection for all the desired application-layer protocols, and for TCP, UDP, or Internet Control Message Protocol (ICMP) as desired. This combination of TCP, UDP, and application-layer protocols join together to form a single set of inspection rules with a unique name. (There are no application-layer protocols associated with ICMP.)
To remove the inspection rule for a protocol, use the no form of this command with the specified inspection name and protocol. To remove the entire set of named inspection rules, use the no form of this command with the specified inspection name.
In general, when inspection is configured for a protocol, return traffic entering the internal network will be permitted only if the packets are part of a valid, existing session for which state information is being maintained.
TCP and UDP Inspection
You can configure TCP and UDP inspection to permit TCP and UDP packets to enter the internal network through the firewall, even if the application-layer protocol is not configured to be inspected. However, TCP and UDP inspection do not recognize application-specific commands, and therefore might not permit all return packets for an application, particularly if the return packets have a different port number from the previous exiting packet.
Any application-layer protocol that is inspected will take precedence over the TCP or UDP packet inspection. For example, if inspection is configured for FTP, all control channel information will be recorded in the state table, and all FTP traffic will be permitted back through the firewall if the control channel information is valid for the state of the FTP session. The fact that TCP inspection is configured is irrelevant.
With TCP and UDP inspection, packets entering the network must exactly match an existing session: the entering packets must have the same source or destination addresses and source or destination port numbers as the exiting packet (but reversed). Otherwise, the entering packets will be blocked at the interface.
ICMP Inspection
An ICMP inspection session is on the basis of the source address of the inside host that originates the ICMP packet. Dynamic access control lists (ACLs) are created for return ICMP packets of the allowed types (destination unreachable, echo-reply, time-exceeded, and packet too big) for each session. There are no port numbers associated with an ICMP session, and the permitted IP address of the return packet is wild-carded in the ACL. The wild-card address is because the IP address of the return packet cannot be known in advance for time-exceeded and destination-unreachable replies. These replies can come from intermediate devices rather than the intended destination.
FTP Inspection
Cisco IOS Firewall uses layer 7 support for application modules such as FTP.
Cisco IOS IPv6 Firewall uses RFC 2428 to garner IPv6 addresses and corresponding ports. If an address other than an IPv6 address is present, the FTP data channel is not opened.
IPv6-specific port-to-application mapping (PAM) provides FTP inspection. PAM translates TCP or UDP port numbers into specific network services or applications. By mapping port numbers to network services or applications, an administrator can force firewall inspection on custom configurations not defined by well-known ports. PAM delivers with the standard well-known ports defined as defaults.
Table 31 describes the transport-layer and network-layer protocols.
|
|
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ICMP |
icmp |
TCP |
tcp |
UDP |
udp |
FTP |
ftp |
Use of the timeout Keyword
If you specify a timeout for any of the transport-layer or application-layer protocols, the timeout will override the global idle timeout for the interface to which the set of inspection rules is applied.
If the protocol is TCP or a TCP application-layer protocol, the timeout will override the global TCP idle timeout. If the protocol is UDP or a UDP application-layer protocol, the timeout will override the global UDP idle timeout.
If you do not specify a timeout for a protocol, the timeout value applied to a new session of that protocol will be taken from the corresponding TCP or UDP global timeout value valid at the time of session creation.
The default ICMP timeout is deliberately short (10 seconds) due to the security hole that is opened by allowing ICMP packets with a wild-carded source address back into the inside network. The timeout will occur 10 seconds after the last outgoing packet from the originating host. For example, if you send a set of 10 ping packets spaced one second apart, the timeout will expire in 20 seconds or 10 seconds after the last outgoing packet. However, the timeout is not extended for return packets. If a return packet is not seen within the timeout window, the hole will be closed and the return packet will not be allowed in. Although the default timeout can be made longer if desired, it is recommended that this value be kept relatively short.
Examples
The following example causes the software to inspect TCP sessions and UDP sessions:
ipv6 inspect name myrules tcp
ipv6 inspect name myrules udp audit-trail on
Related Commands
ipv6 inspect one-minute high
To define the rate of new unestablished sessions that will cause the software to start deleting half-open sessions, use the ipv6 inspect one-minute high command in global configuration mode. To reset the threshold to the default of 500 half-open sessions, use the no form of this command.
ipv6 inspect one-minute high number
no ipv6 inspect one-minute high
Syntax Description
Command Default
The default is 500 half-open sessions.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
An unusually high number of half-open sessions (either absolute or measured as the arrival rate) could indicate that a denial-of-service attack is occurring. For TCP, "half-open" means that the session has not reached the established state. For User Datagram Protocol, "half-open" means that the firewall has detected traffic from one direction only.
Context-based Access Control (CBAC) measures both the total number of existing half-open sessions and the rate of session establishment attempts. Both TCP and UDP half-open sessions are included in the total number and rate measurements. Measurements are made once a minute.
When the rate of new connection attempts rises above a threshold (the one-minute high number), the software will delete half-open sessions as required to accommodate new connection attempts. The software will continue to delete half-open sessions as necessary, until the rate of new connection attempts drops below another threshold (the one-minute low number). The rate thresholds are measured as the number of new session connection attempts detected in the last one-minute sample period. (The rate is calculated as an exponentially-decayed rate.)
The global value specified for this threshold applies to all TCP and UDP connections inspected by CBAC.
Examples
The following example causes the software to start deleting half-open sessions when more than 1000 session establishment attempts have been detected in the last minute, and to stop deleting half-open sessions when fewer than 950 session establishment attempts have been detected in the last minute:
ipv6 inspect one-minute high 1000
ipv6 inspect one-minute low 950
Related Commands
ipv6 inspect one-minute low
To define the rate of new unestablished TCP sessions that will cause the software to stop deleting half-open sessions, use the ipv6 inspect one-minute low command in global configuration mode. To reset the threshold to the default of 400 half-open sessions, use the no form of this command.
ipv6 inspect one-minute low number
no ipv6 inspect one-minute low
Syntax Description
Command Default
The default is 400 half-open sessions.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
An unusually high number of half-open sessions (either absolute or measured as the arrival rate) could indicate that a denial-of-service attack is occurring. For TCP, "half-open" means that the session has not reached the established state. For User Datagram Protocol, "half-open" means that the firewall has detected traffic from one direction only.
Context-based Access Control (CBAC) measures both the total number of existing half-open sessions and the rate of session establishment attempts. Both TCP and UDP half-open sessions are included in the total number and rate measurements. Measurements are made once a minute.
When the rate of new connection attempts rises above a threshold (the one-minute high number), the software will delete half-open sessions as required to accommodate new connection attempts. The software will continue to delete half-open sessions as necessary, until the rate of new connection attempts drops below another threshold (the one-minute low number). The rate thresholds are measured as the number of new session connection attempts detected in the last one-minute sample period. (The rate is calculated as an exponentially decayed rate.)
The global value specified for this threshold applies to all TCP and UDP connections inspected by CBAC.
Examples
The following example causes the software to start deleting half-open sessions when more than 1000 session establishment attempts have been detected in the last minute, and to stop deleting half-open sessions when fewer than 950 session establishment attempts have been detected in the last minute:
ipv6 inspect one-minute high 1000
ipv6 inspect one-minute low 950
Related Commands
ipv6 inspect routing-header
To specify whether Context-based Access Control (CBAC) should inspect packets containing an IPv6 routing header, use the ipv6 inspect routing-header command. To drop packets containing an IPv6 routing header, use the no form of this command.
ipv6 inspect routing-header
no ipv6 inspect routing-header
Syntax Description
This command has no arguments or keywords.
Command Default
Packets containing IPv6 routing header are dropped.
Command Modes
Global configuration
Command History
|
|
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12.3(7)T |
This command was introduced. |
Usage Guidelines
An IPv6 source uses the routing header to list one or more intermediate nodes to be visited between the source and destination of the packet. The Cisco IOS firewall uses this header to retrieve the destination host address. Cisco IOS firewall will establish the appropriate inspection session based on the retrieved address from the routing header.
The originating node lists all intermediate nodes that the packet must traverse. The source and destination address pair in the IPv6 header identifies the hop between the originating node and the first intermediate node. Once the first intermediate node receives the packet, it looks for a routing header. If the routing header is present, the next intermediate node address is swapped with the destination address in the IPv6 header and the packet is forwarded to the next intermediate node. This sequence continues for each intermediate node listed in the routing until no more entries exist in the routing header. The last entry in the routing header is the final destination address.
Examples
The following example causes the software to inspect TCP sessions and UDP sessions:
ip inspect routing-header
Related Commands
ipv6 inspect tcp idle-time
To specify the TCP idle timeout (the length of time a TCP session will still be managed while there is no activity), use the ipv6 inspect tcp idle-time command in global configuration mode. To reset the timeout to the default of 3600 seconds (1 hour), use the no form of this command.
ipv6 inspect tcp idle-time seconds
no ipv6 inspect tcp idle-time
Syntax Description
seconds |
Specifies the length of time, in seconds, for which a TCP session will still be managed while there is no activity. The default is 3600 seconds (1 hour). |
Command Default
The default is 3600 seconds (1 hour)
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
When the software detects a valid TCP packet that is the first in a session, and if Context-based Access Control (CBAC) inspection is configured for the packet's protocol, the software establishes state information for the new session.
If the software detects no packets for the session for a time period defined by the TCP idle timeout, the software will not continue to manage state information for the session.
The global value specified for this timeout applies to all TCP sessions inspected by CBAC. This global value can be overridden for specific interfaces when you define a set of inspection rules with the
ipv6 inspect name (global configuration) command.
Note This command does not affect any of the currently defined inspection rules that have explicitly defined timeouts. Sessions created based on these rules still inherit the explicitly defined timeout value. If you change the TCP idle timeout with this command, the new timeout will apply to any new inspection rules you define or to any existing inspection rules that do not have an explicitly defined timeout. That is, new sessions based on these rules (having no explicitly defined timeout) will inherit the global timeout value. |
Examples
The following example sets the global TCP idle timeout to 1800 seconds (30 minutes):
ipv6 inspect tcp idle-time 1800
The following example sets the global TCP idle timeout back to the default of 3600 seconds (one hour):
no ipv6 inspect tcp idle-time
Related Commands
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ipv6 inspect name |
Defines a set of IPv6 inspection rules. |
ipv6 inspect tcp max-incomplete host
To specify threshold and blocking time values for TCP host-specific denial-of-service detection and prevention, use the ipv6 inspect tcp max-incomplete host command in global configuration mode. To reset the threshold and blocking time to the default values, use the no form of this command.
ipv6 inspect tcp max-incomplete host number block-time minutes
no ipv6 inspect tcp max-incomplete host
Syntax Description
Command Default
The default is 50 half-open sessions and 0 minutes.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
An unusually high number of half-open sessions with the same destination host address could indicate that a denial-of-service attack is being launched against the host. For TCP, "half-open" means that the session has not reached the established state.
Whenever the number of half-open sessions with the same destination host address rises above a threshold (the max-incomplete host number), the software will delete half-open sessions according to one of the following methods:
•If the block-time minutes timeout is 0 (the default):
The software will delete the oldest existing half-open session for the host for every new connection request to the host. This ensures that the number of half-open sessions to a given host will never exceed the threshold.
•If the block-time minutes timeout is greater than 0:
The software will delete all existing half-open sessions for the host, and then block all new connection requests to the host. The software will continue to block all new connection requests until the block-time expires.
The software also sends syslog messages whenever the max-incomplete host number is exceeded and when blocking of connection initiations to a host starts or ends.
The global values specified for the threshold and blocking time apply to all TCP connections inspected by Context-based Access Control (CBAC).
Examples
The following example changes the max-incomplete host number to 40 half-open sessions, and changes the block-time timeout to 2 minutes (120 seconds):
ipv6 inspect tcp max-incomplete host 40 block-time 120
The following example resets the defaults (50 half-open sessions and 0 seconds):
no ipv6 inspect tcp max-incomplete host
Related Commands
ipv6 inspect tcp synwait-time
To define how long the software will wait for a TCP session to reach the established state before dropping the session, use the ipv6 inspect tcp synwait-time command in global configuration mode. To reset the timeout to the default of 30 seconds, use the no form of this command.
ipv6 inspect tcp synwait-time seconds
no ipv6 inspect tcp synwait-time
Syntax Description
Command Default
The default is 30 seconds.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
Use this command to define how long Cisco IOS software will wait for a TCP session to reach the established state before dropping the session. The session is considered to have reached the established state after the session's first SYN bit is detected.
The global value specified for this timeout applies to all TCP sessions inspected by Context-based Access Control (CBAC).
Examples
The following example changes the "synwait" timeout to 20 seconds:
ipv6 inspect tcp synwait-time 20
The following example changes the "synwait" timeout back to the default (30 seconds):
no ipv6 inspect tcp synwait-time
Related Commands
|
|
---|---|
ipv6 inspect udp idle-time |
Specifies the User Datagram Protocol idle timeout (the length of time for which a UDP "session" will still be managed while there is no activity). |
ipv6 inspect udp idle-time
To specify the User Datagram Protocol idle timeout (the length of time for which a UDP "session" will still be managed while there is no activity), use the ipv6 inspect udp idle-time command in global configuration mode. To reset the timeout to the default of 30 seconds, use the no form of this command.
ipv6 inspect udp idle-time seconds
no ipv6 inspect udp idle-time
Syntax Description
seconds |
Specifies the length of time a UDP "session" will still be managed while there is no activity. The default is 30 seconds. Value range is 1 through 2147483 |
Command Default
The default is 30 seconds.
Command Modes
Global configuration
Command History
|
|
---|---|
12.3(7)T |
This command was introduced. |
Usage Guidelines
When the software detects a valid UDP packet, if Context-based Access Control (CBAC) inspection is configured for the packet's protocol, the software establishes state information for a new UDP "session." Because UDP is a connectionless service, there are no actual sessions, so the software approximates sessions by examining the information in the packet and determining if the packet is similar to other UDP packets (for example, it has similar source or destination addresses) and if the packet was detected soon after another similar UDP packet.
If the software detects no UDP packets for the UDP session for the a period of time defined by the UDP idle timeout, the software will not continue to manage state information for the session.
The global value specified for this timeout applies to all UDP sessions inspected by CBAC. This global value can be overridden for specific interfaces when you define a set of inspection rules with the
ipv6 inspect name command.
Note This command does not affect any of the currently defined inspection rules that have explicitly defined timeouts. Sessions created based on these rules still inherit the explicitly defined timeout value. If you change the UDP idle timeout with this command, the new timeout will apply to any new inspection rules you define or to any existing inspection rules that do not have an explicitly defined timeout. That is, new sessions based on these rules (having no explicitly defined timeout) will inherit the global timeout value. |
Examples
The following example sets the global UDP idle timeout to 120 seconds (2 minutes):
ipv6 inspect udp idle-time 120
The following example sets the global UDP idle timeout back to the default of 30 seconds:
no ipv6 inspect udp idle-time
ipv6 local policy route-map
To configure policy-based routing (PBR) for IPv6 for packets generated by the router, use the ipv6 local policy route-map command in global configuration mode. To disable local policy routing, use the no form of this command.
ipv6 local policy route-map route-map-name
no ipv6 local policy route-map route-map-name
Syntax Description
route-map-name |
Name of the route map to use for local PBR. The name must match a route-map-name value specified by a route-map command. |
Command Default
Packets that are generated by the router are not policy routed.
Command Modes
Global configuration
Command History
Usage Guidelines
Packets that are generated by the router are not normally policy routed. However, you can use the ipv6 local policy route-map command to policy route such packets. You might enable local PBR if you want packets originated at the router to take a route other than the obvious shortest path.
The ipv6 local policy route-map command identifies a route map to use for local PBR. The route-map commands each have a list of match and set commands associated with them. The match commands specify the match criteria, which are the conditions under which packets should be policy routed. The set commands specify the set actions, which are the particular policy routing actions to perform if the criteria enforced by the match commands are met. The no ipv6 local policy route-map command deletes the reference to the route map and disables local policy routing.
Examples
In the following example, packets with a destination IPv6 address matching that allowed by access list pbr-src-90 are sent to the router at IPv6 address 2003:1::95:
ipv6 access-list src-90
permit ipv6 host 2003::90 2001:1000::/64
route-map pbr-src-90 permit 10
match ipv6 address src-90
set ipv6 next-hop 2003:1::95
ipv6 local policy route-map pbr-src-90
Related Commands
ipv6 local pool
To configure a local IPv6 prefix pool, use the ipv6 local pool configuration command with the prefix pool name. To disband the pool, use the no form of this command.
ipv6 local pool poolname prefix/prefix-length assigned-length [shared] [cache-size size]
no ipv6 local pool poolname
Syntax Description
Command Default
No pool is configured.
Command Modes
Global configuration
Command History
|
|
---|---|
12.2(13)T |
This command was introduced. |
Usage Guidelines
All pool names must be unique.
IPv6 prefix pools have a function similar to IPv4 address pools. Contrary to IPv4, a block of addresses (an address prefix) are assigned and not single addresses.
Prefix pools are not allowed to overlap.
Once a pool is configured, it cannot be changed. To change the configuration, the pool must be removed and recreated. All prefixes already allocated will also be freed.
Examples
This example shows the creation of an IPv6 prefix pool:
Router (config)# ipv6 local pool pool1 2001:0DB8::/29 64
Router# show ipv6 local pool
Pool Prefix Free In use
pool1 2001:0DB8::/29 65516 20
Related Commands
ipv6 mfib
To reenable IPv6 multicast forwarding on the router, use the ipv6 mfib command in global configuration mode. To disable IPv6 multicast forwarding on the router, use the no form of this command.
ipv6 mfib
no ipv6 mfib
Syntax Description
The command has no arguments or keywords.
Command Default
Multicast forwarding is enabled automatically when IPv6 multicast routing is enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
After a user has enabled the ipv6 multicast-routing command, IPv6 multicast forwarding is enabled. Because IPv6 multicast forwarding is enabled by default, use the no form of the ipv6 mfib command to disable IPv6 multicast forwarding.
Examples
The following example disables multicast forwarding on the router:
no ipv6 mfib
Related Commands
|
|
---|---|
ipv6 multicast-routing |
Enables multicast routing using PIM and MLD on all IPv6-enabled interfaces of the router and enables multicast forwarding. |
ipv6 mfib-cef
To enable Multicast Forwarding Information Base (MFIB) Cisco Express Forwarding-based (interrupt level) IPv6 multicast forwarding for outgoing packets on a specific interface, use the ipv6 mfib-cef command in interface configuration mode. To disable CEF-based IPv6 multicast forwarding, use the no form of this command.
ipv6 mfib-cef
no ipv6 mfib-cef
Syntax Description
This command has no arguments or keywords.
Command Default
This command is enabled.
Command Modes
Interface configuration
Command History
|
|
---|---|
12.2(18)SXE |
This command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
Cisco Express Forwarding-based (interrupt level) IPv6 multicast forwarding is enabled by default when you enable Cisco Express Forwarding-based IPv6 multicast routing.
Use the show ipv6 mfib interface command to display the multicast forwarding interface status.
Examples
This example shows how to enable Cisco Express Forwarding-based IPv6 multicast forwarding:
Router(config-if)# ipv6 mfib-cef
This example shows how to disable Cisco Express Forwarding-based IPv6 multicast forwarding:
Router(config-if)# no ipv6 mfib-cef
Related Commands
|
|
---|---|
show ipv6 mfib interface |
Displays information about IPv6 multicast-enabled interfaces and their forwarding status. |
ipv6 mfib cef output
To enable Multicast Forwarding Information Base (MFIB) interrupt-level IPv6 multicast forwarding of outgoing packets on a specific interface, use the ipv6 mfib cef output command in interface configuration mode. To disable MFIB interrupt-level IPv6 multicast forwarding, use the no form of this command.
ipv6 mfib cef output
no ipv6 mfib cef output
Syntax Description
This command has no arguments or keywords.
Command Default
Cisco Express Forwarding-based forwarding is enabled by default on interfaces that support it.
Command Modes
Interface configuration
Command History
Usage Guidelines
After a user has enabled the ipv6 multicast-routing command, MFIB interrupt switching is enabled to run on every interface. Use the no form of the ipv6 mfib cef output command to disable interrupt-switching on a specific interface.
Use the show ipv6 mfib interface command to display the multicast forwarding status of interfaces.
Examples
The following example disables MFIB interrupt switching on Fast Ethernet interface 1/0:
Router(config)# interface FastEthernet 1/0
Router(config-if)# no ipv6 mfib cef output
Related Commands
ipv6 mfib fast
Note Effective in Cisco IOS Release 12.3(4)T, the ipv6 mfib fast command is replaced by the ipv6 mfib cef output command. See the ipv6 mfib cef output command for more information. |
To enable Multicast Forwarding Information Base (MFIB) interrupt-level IPv6 multicast forwarding of outgoing packets on a specific interface, use the ipv6 mfib fast command in interface configuration mode. To disable MFIB interrupt-level IPv6 multicast forwarding, use the no form of this command.
ipv6 mfib fast
no ipv6 mfib fast
Syntax Description
This command has no arguments or keywords.
Command Default
Cisco Express Forwarding-based forwarding is enabled by default on interfaces that support it.
Command Modes
Interface configuration
Command History
Usage Guidelines
After a user has enabled the ipv6 multicast-routing command, MFIB interrupt switching is enabled to run on every interface. Use the no form of the ipv6 mfib fast command to disable interrupt-switching on a specific interface.
Use the show ipv6 mfib interface command to display the multicast forwarding status of interfaces.
Examples
The following example disables MFIB interrupt switching on Fast Ethernet interface 1/0:
Router(config)# interface FastEthernet 1/0
Router(config-if)# no ipv6 mfib fast
Related Commands
ipv6 mfib forwarding
To enable IPv6 multicast forwarding of packets received from a specific interface on the router, use the ipv6 mfib forwarding command in interface configuration mode. To disable IPv6 multicast forwarding of packets received from a specific interface, use the no form of this command.
ipv6 mfib forwarding
no ipv6 mfib forwarding
Syntax Description
This command has no arguments or keywords.
Command Default
Multicast forwarding is enabled automatically when IPv6 multicast routing is enabled.
Command Modes
Interface configuration
Command History
Usage Guidelines
The no ipv6 mfib forwarding command is used to disable multicast forwarding of packets received from a specified interface, although the specified interface on the router will still continue to receive multicast packets destined for applications on the router itself.
Because multicast forwarding is enabled automatically when IPv6 multicast routing is enabled, the ipv6 mfib forwarding command is used to reenable multicast forwarding of packets if it has been previously disabled.
Examples
The following example shows how to disable multicast forwarding of packets from Ethernet 1/1:
Router(config) interface Ethernet1/1
Router(config-if) no ipv6 mfib forwarding
Related Commands
|
|
---|---|
ipv6 mfib |
Reenables IPv6 multicast forwarding on the router. |
ipv6 mfib hardware-switching
To configure Multicast Forwarding Information Base (MFIB) hardware switching for IPv6 multicast packets on a global basis, use the ipv6 mfib hardware-switching command in global configuration mode. To disable this function, use the no form of this command.
ipv6 mfib hardware-switching [connected | issu-support | replication-mode ingress | shared-tree | uplink]
no ipv6 mfib hardware-switching [connected | issu-support | replication-mode ingress | shared-tree | uplink]
Syntax Description
Defaults
This command is enabled with the connected and replication-mode ingress keywords.
Command Modes
Global configuration (config)
Command History
Usage Guidelines
You must enter the ipv6 mfib hardware-switching uplink command to enable IPv6 multicast hardware switching on the standby Supervisor Engine 720-10GE.
Note The system message "PSTBY-2-CHUNKPARTIAL: Attempted to destroy partially full chunk, chunk 0xB263638, chunk name: MET FREE POOL" is displayed on the Supervisor Engine if both the fabric switching-mode allow dcef-only and ipv6 mfib hardware-switching uplink commands are configured. The router will ignore the command configured last. |
The ipv6 mfib hardware-switching uplink command ensures support of IPv6 multicast on standby uplink ports on systems that are configured with a Supervisor Engine 720-10GE only. You must reboot the system for this command to take effect. The MET space is halved on both the supervisor engines and the C+ modules.
Enabling the ipv6 mfib hardware-switching issu-support command will consume one Switched Port Analyzer (SPAN) session. This command will be effective if the image versions on the active and standby supervisors are different. If the command is not enabled, then the IPv6 multicast traffic ingressing and egressing from standby uplinks will be affected. This command is NVGENed. This command should be configured only once and preferably before performing the In-Service Software Upgrade (ISSU) load version process.
Note After completing the ISSU process, the administrator should disable the configured ipv6 mfib hardware-switching issu-support command. |
Examples
The following example shows how to prevent the installation of the subnet entries on a global basis:
Router(config)# ipv6 mfib hardware-switching
The following example shows how to set the hardware replication mode to ingress:
Router(config)# ipv6 mfib hardware-switching replication-mode ingress
The following example shows how to enable IPv6 multicast on standby uplink ports on systems that are configured with a Supervisor Engine 720-10GE only:
Router(config)# ipv6 mfib hardware-switching uplink
Router(config)# end
Router# reload
Related Commands
ipv6 mfib-mode centralized-only
To disable distributed forwarding on a distributed platform, use the ipv6 mfib-mode centralized-only command in global configuration mode. To reenable multicast forwarding, use the no form of this command.
ipv6 mfib-mode centralized-only
no ipv6 mfib-mode centralized-only
Syntax Description
This command has no arguments or keywords.
Command Default
Multicast distributed forwarding is enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
Distributed forwarding is enabled by default when the ipv6 multicast-routing, ipv6 cef distributed, and the ipv6 mfib commands are enabled. The ipv6 mfib-mode centralized-only command disables distributed forwarding. All multicast forwarding is performed centrally.
Examples
The following example reenables distributed forwarding:
ipv6 mfib-mode centralized-only
ipv6 mld access-group
To perform IPv6 multicast receiver access control, use the ipv6 mld access-group command in interface configuration mode. To stop using multicast receiver access control, use the no form of this command.
ipv6 mld access-group access-list-name
no ipv6 mld access-group access-list-name
Syntax Description
access-list-name |
A standard IPv6 named access list that defines the multicast groups and sources to allow or deny. |
Command Default
All groups and sources are allowed.
Command Modes
Interface configuration
Command History
Usage Guidelines
The ipv6 mld access-group command is used for receiver access control and to check the groups and sources in Multicast Listener Discovery (MLD) reports against the access list. The ipv6 mld access-group command also limits the state created by MLD reports. Because Cisco supports MLD version 2, the ipv6 mld access-group command allows users to limit the list of groups a receiver can join. You can also use this command to allow or deny sources used to join Source Specific Multicast (SSM) channels.
If a report (S1, S2...Sn, G) is received, the group (0, G) is first checked against the access list. If the group is denied, the entire report is denied. If the report is allowed, each individual (Si, G) is checked against the access list. State is not created for the denied sources.
Examples
The following example creates an access list called acc-grp-1 and denies all the state for group ff04::10:
Router(config)# ipv6 access-list acc-grp-1
Router(config-ipv6-acl)# deny ipv6 any host ff04::10
Router(config-ipv6-acl)# permit ipv6 any any
Router(config-ipv6-acl)# interface ethernet 0/0
Router(config-if)# ipv6 mld access-group acc-grp-1
The following example creates an access list called acc-grp-1 and permits all the state for only group ff04::10:
Router(config)# ipv6 access-list acc-grp-1
Router(config-ipv6-acl)# permit ipv6 any host ff04::10
Router(config-ipv6-acl)# interface ethernet 0/0
Router(config-if)# ipv6 mld access-group acc-grp-1
The following example permits only EXCLUDE(G,{}) reports. This example converts EXCLUDE(G,{S1, S2..Sn}) into EXCLUDE(G,{}):
Router(config)# ipv6 access-list acc-grp-1
Router(config-ipv6-acl)# permit ipv6 host :: host ff04::10
Router(config-ipv6-acl)# deny ipv6 any host ff04::10
Router(config-ipv6-acl)# permit ipv6 any any
Router(config-ipv6-acl)# interface ethernet 0/0
Router(config-if)# ipv6 mld access-group acc-grp-1
The following example filters a particular source 100::1 for a group ff04::10:
Router(config)# ipv6 access-list acc-grp-1
Router(config-ipv6-acl)# deny ipv6 host 100::1 host ff04::10
Router(config-ipv6-acl)# permit ipv6 any host ff04::10
Router(config-ipv6-acl)# interface ethernet 0/0
Router(config-if)# ipv6 mld access-group acc-grp-1
ipv6 mld explicit-tracking
To enable explicit tracking of hosts, use the ipv6 mld explicit-tracking command in interface configuration mode. To disable this function, use the no form of this command.
ipv6 mld explicit-tracking access-list-name
no ipv6 mld explicit-tracking access-list-name
Syntax Description
access-list-name |
A standard IPv6 named access list that defines the multicast groups and sources to allow or deny. |
Command Default
Explicit tracking is disabled.
Command Modes
Interface configuration
Command History
Usage Guidelines
When explicit tracking is enabled, the fast leave mechanism can be used with Multicast Listener Discovery (MLD) version 2 host reports. The access-list-name argument specifies a named IPv6 access list that can be used to specify the group ranges for which a user wants to apply explicit tracking.
Examples
The following example shows how to enable MLD explicit tracking on an access list named list1:
ipv6 mld explicit-tracking list1
ipv6 mld host-proxy
To enable the Multicast Listener Discovery (MLD) proxy feature, use the ipv6 mld host-proxy command in global configuration mode. To disable support for this feature, use the no form of this command.
ipv6 mld host-proxy [group-acl]
no ipv6 mld host-proxy
Syntax Description
group-acl |
(Optional) Group access list (ACL). |
Command Default
The MLD proxy feature is not enabled.
Command Modes
Global configuration (config)
Command History
|
|
---|---|
15.1(2)T |
This command was introduced. |
Usage Guidelines
Use the ipv6 mld host-proxy command to enable the MLD proxy feature. If the group-acl argument is specified, the MLD proxy feature is supported for the multicast route entries that are permitted by the group ACL. If the group-acl argument is not provided, the MLD proxy feature is supported for all multicast routes present in multicast routing table.
Only one group ACL is configured at a time. Users can modify the group ACL by entering this command using a different group-acl argument.
Examples
The following example enables the MLD proxy feature for the multicast route entries permitted by the group ACL named "proxy-group":
Router(config)# ipv6 mld host-proxy proxy-group
Related Commands
|
|
---|---|
ipv6 mld host-proxy interface |
Enables the MLD proxy feature on a specified interface on an RP. |
show ipv6 mld host-proxy |
Displays IPv6 MLD host proxy information. |
ipv6 mld host-proxy interface
To enable the Multicast Listener Discovery (MLD) proxy feature on a specified interface on a Route Processor (RP), use the ipv6 mld host-proxy interface command in global configuration mode. To disable the MLD proxy feature on a RP, use the no form of this command.
ipv6 mld host-proxy interface [group-acl]
no ipv6 mld host-proxy interface
Syntax Description
group-acl |
(Optional) Group access list (ACL). |
Command Default
The MLD proxy feature is not enabled on the RP.
Command Modes
Global configuration (config)
Command History
|
|
---|---|
15.1(2)T |
This command was introduced. |
Usage Guidelines
Use the ipv6 mld host-proxy interface command to enable the MLD proxy feature on a specified interface on an RP. If a router is acting as an RP for an multicast-route proxy entry, it generates an MLD report on the specified host-proxy interface. Only one interface can be configured as a host-proxy interface, and the host-proxy interface can be modified by using this command with a different interface name.
If a router is not acting as an RP, enabling this command does not have any effect, nor will it generate an error or warning message.
Examples
The following example specifies Ethernet 0/0 as the host-proxy interface:
Router (config)# ipv6 mld host-proxy interface Ethernet 0/0
Related Commands
|
|
---|---|
ipv6 mld host-proxy |
Enables the MLD proxy feature. |
show ipv6 mld host-proxy |
Displays IPv6 MLD host proxy information. |
ipv6 mld join-group
To configure Multicast Listener Discovery (MLD) reporting for a specified group and source, use the ipv6 mld join-group command in interface configuration mode. To cancel reporting and leave the group, use the no form of this command.
ipv6 mld join-group [group-address] [[include | exclude] {source-address | source-list [acl]}
no ipv6 mld join-group [group-address] [[include | exclude] {source-address | source-list [acl]}
Syntax Description
Command Default
If a source is specified and no mode is specified, the default is to include the source.
Command Modes
Interface configuration
Command History
Usage Guidelines
The ipv6 mld join-group command configures MLD reporting for a specified source and group. The packets that are addressed to a specified group address will be passed up to the client process in the router. The packets will be forwarded out the interface depending on the normal Protocol Independent Multicast (PIM) activity.
The source-list keyword and acl argument may be used to include or exclude multiple sources for the same group. Each source is included in the access list in the following format:
permit ipv6 host source any
If the ipv6 mld join-group command is repeated for the same group, only the most recent command will take effect. For example, if you enter the following commands, only the second command is saved and will appear in the MLD cache:
Router(config-if)# ipv6 mld join-group ff05::10 include 2000::1
Router(config-if)# ipv6 mld join-group ff05::10 include 2000::2
Examples
The following example configures MLD reporting for specific groups:
Router(config-if)# ipv6 mld join-group ff04::10
Related Commands
|
|
---|---|
no ipv6 mld router |
Disables MLD router-side processing on a specified interface. |
ipv6 mld limit
To limit the number of Multicast Listener Discovery (MLD) states on a per-interface basis, use the ipv6 mld limit command in interface configuration mode. To disable a configured MLD state limit, use the no form of this command.
ipv6 mld limit number [except access-list]
no ipv6 mld limit number [except access-list]
Syntax Description
Command Default
No default number of MLD limits is configured. You must configure the number of maximum MLD states allowed per interface on a router when you configure this command.
Command Modes
Interface configuration
Command History
Usage Guidelines
Use the ipv6 mld limit command to configure a limit on the number of MLD states resulting from MLD membership reports on a per-interface basis. Membership reports sent after the configured limits have been exceeded are not entered in the MLD cache, and traffic for the excess membership reports is not forwarded.
Use the ipv6 mld state-limit command in global configuration mode to configure the global MLD state limit.
Per-interface and per-system limits operate independently of each other and can enforce different configured limits. A membership state will be ignored if it exceeds either the per-interface limit or global limit.
If you do not configure the except access-list keyword and argument, all MLD states are counted toward the configured cache limit on an interface. Use the except access-list keyword and argument to exclude particular groups or channels from counting toward the MLD cache limit. An MLD membership report is counted against the per-interface limit if it is permitted by the extended access list specified by the except access-list keyword and argument.
Examples
The following example shows how to limit the number of MLD membership reports on Ethernet interface 0:
interface ethernet 0
ipv6 mld limit 100
The following example shows how to limit the number of MLD membership reports on Ethernet interface 0. In this example, any MLD membership reports from access list cisco1 do not count toward the configured state limit:
interface ethernet 0
ipv6 mld limit 100 except cisco1
Related Commands
|
|
---|---|
ipv6 mld access-group |
Enables the user to perform IPv6 multicast receiver access control. |
ipv6 mld state-limit |
Limits the number of MLD states on a global basis. |
ipv6 mld query-interval
To configure the frequency at which the Cisco IOS software sends Multicast Listener Discovery (MLD) host-query messages, use the ipv6 mld query-interval command in interface configuration mode. To return to the default frequency, use the no form of this command.
ipv6 mld query-interval seconds
no ipv6 mld query-interval
Syntax Description
seconds |
Frequency, in seconds, at which to send MLD host-query messages. It can be a number from 0 to 65535. The default is 125 seconds. |
Command Default
The default is 125 seconds.
Command Modes
Interface configuration
Command History
Usage Guidelines
Multicast routers send host membership query messages (host-query messages) to discover which multicast groups have members on the router's attached networks. Hosts respond with MLD report messages indicating that they want to receive multicast packets for specific groups (that is, indicating that the host wants to become a member of the group).
The designated router for a LAN is the only router that sends MLD host-query messages.
The query interval is calculated as query timeout = (2 x query interval) + query-max-response-time / 2. If the ipv6 mld query-interval command is configured to be 60 seconds and the ipv6 mld query-max-response-time command is configured to be 20 seconds, then the ipv6 mld command should be configured to be 130 seconds or higher.
This command works with the ipv6 mld query-max-response-time and ipv6 mld commands. If you change the default value for the ipv6 mld query-interval command, make sure the changed value works correctly with these two commands.
Caution Changing the default value may severely impact multicast forwarding. |
Examples
The following example sets the MLD query interval to 60 seconds:
Router(config)# interface FastEthernet 1/0
Router(config-if)# ipv6 mld query-interval 60
Related Commands
ipv6 mld query-max-response-time
To configure the maximum response time advertised in Multicast Listener Discovery (MLD) queries, use the ipv6 mld query-max-response-time command in interface configuration mode. To restore the default value, use the no form of this command.
ipv6 mld query-max-response-time seconds
no ipv6 mld query-max-response-time
Syntax Description
seconds |
Maximum response time, in seconds, advertised in MLD queries. The default value is 10 seconds. |
Command Default
The default is 10 seconds.
Command Modes
Interface configuration
Command History
Usage Guidelines
This command controls how much time the hosts have to answer an MLD query message before the router deletes their group. Configuring a value of fewer than 10 seconds enables the router to prune groups faster.
Note If the hosts do not respond fast enough, they might be pruned inadvertently. Therefore, the hosts must know to respond faster than 10 seconds (or the value you configure). |
The query interval is calculated as query timeout = (2 x query interval) + query-max-response-time / 2. If the ipv6 mld query-interval command is configured to be 60 seconds and the ipv6 mld query-max-response-time command is configured to be 20 seconds, then the ipv6 mld command should be configured to be 130 seconds or higher.
This command works with the ipv6 mld query-interval and ipv6 mld commands. If you change the default value for the ipv6 mld query-max-response-time command, make sure the changed value works correctly with these two commands.
Caution Changing the default value may severely impact multicast forwarding. |
Examples
The following example configures a maximum response time of 20 seconds:
Router(config)# interface FastEthernet 1/0
Router(config-if)# ipv6 mld query-max-response-time 20
Related Commands
ipv6 mld query-timeout
To configure the timeout value before the router takes over as the querier for the interface, use the ipv6 mld query-timeout command in interface configuration mode. To restore the default value, use the no form of this command.
ipv6 mld query-timeout seconds
no ipv6 mld query-timeout
Syntax Description
seconds |
Number of seconds that the router waits after the previous querier has stopped querying and before it takes over as the querier. |
Command Default
The default is 255 seconds.
Command Modes
Interface configuration
Command History
Usage Guidelines
The query interval is calculated as query timeout = (2 x query interval) + query-max-response-time / 2. If the ipv6 mld query-interval command is configured to be 60 seconds and the ipv6 mld query-max-response-time command is configured to be 20 seconds, then the ipv6 mld query-timeout command should be configured to be 130 seconds or higher.
This command works with the ipv6 mld query-interval and ipv6 mld query-max-response-time commands. If you change the default value for the ipv6 mld query-timeout command, make sure the changed value works correctly with these two commands.
Caution Changing the default value may severely impact multicast forwarding. |
Examples
The following example configures the router to wait 130 seconds from the time it received the last query before it takes over as the querier for the interface:
Router(config)# interface FastEthernet 1/0
Router(config-if)# ipv6 mld query-timeout 130
Related Commands
ipv6 mld router
To enable Multicast Listener Discovery (MLD) group membership message processing and routing on a specified interface, use the ipv6 mld router command in interface configuration mode. To disable MLD group membership message processing and routing on a specified interface, use the no form of the command.
ipv6 mld router
no ipv6 mld router
Syntax Description
This command has no arguments or keywords.
Command Default
MLD message processing and egress routing of multicast packets is enabled on the interface.
Command Modes
Interface configuration
Command History
Usage Guidelines
When the ipv6 multicast-routing command is configured, MLD group membership message processing is enabled on every interface. The no ipv6 mld router command prevents forwarding (routing) of multicast packets to the specified interface and disables static multicast group configuration on the specified interface.
The no ipv6 mld router command also disables MLD group membership message processing on a specified interface. When MLD group membership message processing is disabled, the router stops sending MLD queries and stops keeping track of MLD members on the LAN.
If the ipv6 mld join-group command is also configured on an interface, it will continue with MLD host functionality and will report group membership when an MLD query is received.
MLD group membership processing is enabled by default. The ipv6 multicast-routing command does not enable or disable MLD group membership message processing.
Examples
The following example disables MLD group membership message processing on an interface and disables routing of multicast packets to that interface:
Router(config)# interface FastEthernet 1/0
Router(config-if)# no ipv6 mld router
Related Commands
ipv6 mld snooping
To enable Multicast Listener Discovery version 2 (MLDv2) protocol snooping globally, use the ipv6 mld snooping command in global configuration mode. To disable the MLDv2 snooping globally, use the no form of this command.
ipv6 mld snooping
no ipv6 mld snooping
Syntax Description
This command has no arguments or keywords.
Command Default
This command is enabled.
Command Modes
Global configuration
Command History
|
|
---|---|
12.2(18)SXE |
This command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
MLDv2 snooping is supported on the Supervisor Engine 720 with all versions of the Policy Feature Card 3 (PFC3).
To use MLDv2 snooping, configure a Layer 3 interface in the subnet for IPv6 multicast routing or enable the MLDv2 snooping querier in the subnet.
Examples
This example shows how to enable MLDv2 snooping globally:
Router(config)# ipv6 mld snooping
Related Commands
|
|
---|---|
show ipv6 mld snooping |
Displays MLDv2 snooping information. |
ipv6 mld snooping explicit-tracking
To enable explicit host tracking, use the ipv6 mld snooping explicit-tracking command in interface configuration mode. To disable explicit host tracking, use the no form of this command.
ipv6 mld snooping explicit-tracking
no ipv6 mld snooping explicit-tracking
Syntax Description
This command has no arguments or keywords.
Command Default
Explicit host tracking is enabled.
Command Modes
Interface configuration
Command History
|
|
---|---|
12.2(18)SXE |
This command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
Explicit host tracking is supported only with Internet Group Management Protocol Version 3 (IGMPv3) hosts.
When you enable explicit host tracking and the Cisco 7600 series router is working in proxy-reporting mode, the router may not be able to track all the hosts that are behind a VLAN interface. In proxy-reporting mode, the Cisco 7600 series router forwards only the first report for a channel to the router and suppresses all other reports for the same channel.
With IGMPv3 proxy reporting, the Cisco 7600 series router does proxy reporting for unsolicited reports and reports that are received in the general query interval.
Proxy reporting is turned on by default. When you disable proxy reporting, the Cisco 7600 series router works in transparent mode and updates the IGMP snooping database as it receives reports and forwards this information to the upstream router. The router can then explicitly track all reporting hosts.
Disabling explicit tracking disables fast-leave processing and proxy reporting.
IGMPv3 supports explicit host tracking of membership information on any port. The explicit host-tracking database is used for fast-leave processing for IGMPv3 hosts, proxy reporting, and statistics collection. When you enable explicit host tracking on a VLAN, the IGMP snooping software processes the IGMPv3 report that it receives from a host and builds an explicit host-tracking database that contains the following information:
•The port that is connected to the host.
•The channels that are reported by the host.
•The filter mode for each group that are reported by the host.
•The list of sources for each group that are reported by the hosts.
•The router filter mode of each group.
•The list of hosts for each group that request the source.
Examples
This example shows how to enable explicit host tracking:
Router(config-if)# ipv6 mld snooping explicit-tracking
Related Commands
|
|
---|---|
ipv6 mld snooping limit |
Configures the MLDv2 limits. |
show ipv6 mld snooping |
Displays MLDv2 snooping information. |
ipv6 mld snooping last-member-query-interval
To configure the last member query interval for Multicast Listener Discovery Version 2 (MLDv2) snooping, use the ipv6 mld snooping last-member-query-interval command in interface configuration. To return to the default settings, use the no form of this command.
ipv6 mld snooping last-member-query-interval interval
no ipv6 mld snooping last-member-query-interval
Syntax Description
interval |
Interval for the last member query; valid values are from 100 to 900 milliseconds in multiples of 100 milliseconds. |
Command Default
The default is 1000 milliseconds (1 second).
Command Modes
Interface configuration
Command History
Usage Guidelines
When a multicast host leaves a group, the host sends an IGMP leave. To check if this host is the last to leave the group, an IGMP query is sent out when the leave is seen and a timer is started. If no reports are received before the timer expires, the group record is deleted.
The interval is the actual time that the Cisco 7600 series router waits for a response for the group-specific query.
If you enter an interval that is not a multiple of 100, the interval is rounded to the next lowest multiple of 100. For example, if you enter 999, the interval is rounded down to 900 milliseconds.
If you enable IGMP fast-leave processing and you enter the no ipv6 mld snooping last-member-query-interval command, the interval is set to 0 seconds; fast-leave processing always assumes a higher priority.
Even though the valid interval range is 100 to 1000 milliseconds, you cannot enter a value of 1000. If you want this value, you must enter the no ipv6 mld snooping last-member-query-interval command and return to the default value (1000 milliseconds).
Examples
This example shows how to configure the last member query interval to 200 milliseconds:
Router(config-if)#
ipv6 mld snooping last-member-query-interval 200
Router(config-if)#
Related Commands
|
|
---|---|
show ipv6 mld snooping |
Displays MLDv2 snooping information. |
ipv6 mld snooping limit
To configure Multicast Listener Discovery version 2 (MLDv2) protocol limits, use the ipv6 mld snooping limit command in global configuration mode. To return to the default settings, use the no form of this command.
ipv6 mld snooping limit {l2-entry-limit max-entries | rate pps | track max-entries}
no ipv6 mld snooping limit {l2-entry-limit | rate | track}
Syntax Description
Command Default
The max-entries argument default is 32000.
Command Modes
Global configuration
Command History
|
|
---|---|
12.2(18)SXE |
This command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
This command is not supported on Cisco 7600 series routers that are configured with a Supervisor Engine 2.
Each entry in the explicit-tracking database is identified by the source IP, group IP, port, VLAN, and reporter IP.
When you set the max-entries argument to 0, explicit-tracking is disabled.
When the explicit-tracking database exceeds the configured max-entries value, a system logging message is generated.
When you reduce the max-entries argument, the explicit-tracking database does not decrease in size immediately. The explicit-tracking database gradually shrinks as reporters time out.
Examples
This example shows how to set the maximum number of Layer 2 entries that can be installed by MLD snooping:
Router(config)#
ipv6 mld snooping limit l2-entry-limit 100000
This example shows how to set the rate limit for incoming MLDv2-snooping packets:
Router(config)#
ipv6 mld snooping limit rate 200
This example shows how to configure the maximum number of entries in the explicit-tracking database:
Router(config)#
ipv6 mld snooping limit track 20000
This example shows how to disable software rate limiting:
Router(config)#
no ipv6 mld snooping limit rate
Related Commands
|
|
---|---|
ipv6 mld snooping explicit tracking |
Enables explicit host tracking. |
ipv6 mld snooping mrouter
To configure a Layer 2 port as a multicast router port, use the ipv6 mld snooping mrouter command in interface configuration mode.
ipv6 mld snooping mrouter interface type slot/port
Syntax Description
interface type |
Specifies the interface type: valid values are ethernet, fastethernet, gigabitethernet, or tengigabitethernet. |
slot/port |
Module and port number. The slash mark is required. |
Command Default
No defaults are configured.
Command Modes
Interface configuration
Command History
|
|
---|---|
12.2(18)SXE |
This command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Examples
This example shows how to configure a Layer 2 port as a multicast router port:
Router(config-if)# ipv6 mld snooping mrouter interface fastethernet 5/6
Related Commands
|
|
---|---|
mac-address-table static |
Adds static entries to the MAC address table. |
show ipv6 mld snooping |
Displays MLDv2 snooping information. |
ipv6 mld snooping querier
To enable the Multicast Listener Discovery version 2 (MLDv2) snooping querier, use the ipv6 mld snooping querier command in interface configuration mode. To disable the MLDv2 snooping querier, use the no form of this command.
ipv6 mld snooping querier
no ipv6 mld snooping querier
Syntax Description
This command has no arguments or keywords.
Command Default
This command is disabled.
Command Modes
Interface configuration
Command History
|
|
---|---|
12.2(18)SXE |
This command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
You must configure an IPv6 address on the VLAN interface. When this feature is enabled, the MLDv2 snooping querier uses the IPv6 address as the query source address.
If there is no IPv6 address configured on the VLAN interface, the MLDv2 snooping querier does not start. The MLDv2 snooping querier disables itself if the IPv6 address is cleared. When this feature is enabled, the MLDv2 snooping querier restarts if you configure an IPv6 address.
The MLDv2 snooping querier:
•Does not start if it detects MLDv2 traffic from an IPv6 multicast router.
•Starts after 60 seconds if it detects no MLDv2 traffic from an IPv6 multicast router.
•Disables itself if it detects MLDv2 traffic from an IPv6 multicast router.
You can enable the MLDv2 snooping querier on all the Catalyst 6500 series switches in the VLAN that support it. One switch is elected as the querier.
Examples
This example shows how to enable the MLDv2 snooping querier on VLAN 200:
Router(config)# interface vlan 200
Router(config-if)# ipv6 mld snooping querier
Related Commands
|
|
---|---|
show ipv6 mld snooping |
Displays MLDv2 snooping information. |
ipv6 mld snooping report-suppression
To enable Multicast Listener Discovery version 2 (MLDv2) report suppression on a VLAN, use the ipv6 mld snooping report-suppression command in interface configuration mode. To disable report suppression on a VLAN, use the no form of this command.
ipv6 mld snooping report-suppression
no ipv6 mld snooping report-suppression
Syntax Description
This command has no arguments or keywords.
Command Default
This command is enabled.
Command Modes
Interface configuration
Command History
|
|
---|---|
12.2(18)SXE |
This command was introduced on the Supervisor Engine 720. |
12.2(33)SRA |
This command was integrated into Cisco IOS Release 12.2(33)SRA. |
Usage Guidelines
You must enable explicit tracking before enabling report suppression.
This command is supported on VLAN interfaces only.
Examples
This example shows how to enable explicit host tracking:
Router(config-if)# ipv6 mld snooping report-suppression
ipv6 mld ssm-map enable
To enable the Source Specific Multicast (SSM) mapping feature for groups in the configured SSM range, use the ipv6 mld ssm-map enable command in global configuration mode. To disable this feature, use the no form of this command.
ipv6 mld [vrf vrf-name] ssm-map enable
no ipv6 mld [vrf vrf-name] ssm-map enable
Syntax Description
vrf vrf-name |
(Optional) Specifies a virtual routing and forwarding (VRF) configuration. |
Command Default
The SSM mapping feature is not enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
The ipv6 mld ssm-map enable command enables the SSM mapping feature for groups in the configured SSM range. When the ipv6 mld ssm-map enable command is used, SSM mapping defaults to use the Domain Name System (DNS).
SSM mapping is applied only to received Multicast Listener Discovery (MLD) version 1 or MLD version 2 membership reports.
Examples
The following example shows how to enable the SSM mapping feature:
Router(config)# ipv6 mld ssm-map enable
Related Commands
ipv6 mld ssm-map query dns
To enable Domain Name System (DNS)-based Source Specific Multicast (SSM) mapping, use the ipv6 mld ssm-map query dns command in global configuration mode. To disable DNS-based SSM mapping, use the no form of this command.
ipv6 mld [vrf vrf-name] ssm-map query dns
no ipv6 mld [vrf vrf-name] ssm-map query dns
Syntax Description
vrf vrf-name |
(Optional) Specifies a virtual routing and forwarding (VRF) configuration. |
Command Default
DNS-based SSM mapping is enabled by default when the SSM mapping feature is enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
DNS-based SSM mapping is enabled by default when the SSM mapping feature is enabled using the ipv6 mld ssm-map enable command. If DNS-based SSM mapping is disabled by entering the no version of the ipv6 mld ssm-map query dns command, only statically mapped SSM sources configured by the ipv6 mld ssm-map static command will be determined.
For DNS-based SSM mapping to succeed, the router needs to find at least one correctly configured DNS server.
Examples
The following example enables the DNS-based SSM mapping feature:
ipv6 mld ssm-map query dns
Related Commands
ipv6 mld ssm-map static
To configure static Source Specific Multicast (SSM) mappings, use the ipv6 mld ssm-map static command in global configuration mode. To disable this feature, use the no form of this command.
ipv6 mld [vrf vrf-name] ssm-map static access-list source-address
no ipv6 mld [vrf vrf-name] ssm-map static access-list source-address
Syntax Description
Command Default
The SSM mapping feature is not enabled.
Command Modes
Global configuration
Command History
Usage Guidelines
Use the ipv6 mld ssm-map static command to configure static SSM mappings. If SSM mapping is enabled and the router receives a Multicast Listener Discovery (MLD) membership for group G in the SSM range, the router tries to determine the source addresses associated with G by checking the ipv6 mld ssm-map static command configurations.
If group G is permitted by the access list identified by the access-list argument, then the specified source address is used. If multiple static SSM mappings have been configured using the ipv6 mld ssm-map static command and G is permitted by multiple access lists, then the source addresses of all matching access lists will be used (the limit is 20).
If no static SSM mappings in the specified access lists match the MLD membership, SSM mapping queries the Domain Name System (DNS) for address mapping.
Examples
The following example enables the SSM mapping feature and configures the groups identified in the access list named SSM_MAP_ACL_2 to use source addresses 2001:0DB8:1::1 and 2001:0DB8:1::3:
ipv6 mld ssm-map enable
ipv6 mld ssm-map static SSM_MAP_ACL_2 2001:0DB8:1::1
ipv6 mld ssm-map static SSM_MAP_ACL_2 2001:0DB8:1::3
ipv6 mld ssm-map query dns
Related Commands
ipv6 mld state-limit
To limit the number of Multicast Listener Discovery (MLD) states globally, use the ipv6 mld state-limit command in global configuration mode. To disable a configured MLD state limit, use the no form of this command.
ipv6 mld state-limit number
no ipv6 mld state-limit number
Syntax Description
number |
Maximum number of MLD states allowed on a router. The valid range is from 1 to 64000. |
Command Default
No default number of MLD limits is configured. You must configure the number of maximum MLD states allowed globally on a router when you configure this command.
Command Modes
Global configuration
Command History
Usage Guidelines
Use the ipv6 mld state-limit command to configure a limit on the number of MLD states resulting from MLD membership reports on a global basis. Membership reports sent after the configured limits have been exceeded are not entered in the MLD cache and traffic for the excess membership reports is not forwarded.
Use the ipv6 mld limit command in interface configuration mode to configure the per-interface MLD state limit.
Per-interface and per-system limits operate independently of each other and can enforce different configured limits. A membership state will be ignored if it exceeds either the per-interface limit or global limit.
Examples
The following example shows how to limit the number of MLD states on a router to 300:
ipv6 mld state-limit 300
Related Commands
ipv6 mld static-group
To statically forward traffic for the multicast group onto a specified interface and cause the interface to behave as if a Multicast Listener Discovery (MLD) joiner were present on the interface, use the ipv6 mld static-group command in interface configuration mode. To stop statically forwarding traffic for the specific multicast group, use the no form of this command.
ipv6 mld static-group [group-address] [[include | exclude] {source-address | source-list [acl]}
no ipv6 mld static-group [group-address] [[include | exclude] {source-address | source-list [acl]}
Syntax Description
Command Default
If no mode is specified for the source, use of the include keyword is the default.
Command Modes
Interface configuration
Command History
Usage Guidelines
The ipv6 multicast-routing command must be configured for the ipv6 mld static-group command to be effective.
When the ipv6 mld static-group command is enabled, packets to the group are either fast-switched or hardware-switched, depending on the platform. Unlike what happens when using the ipv6 mld join-group command, a copy of the packet is not sent to the process level.
An access list can be specified to include or exclude multiple sources for the same group. Each source is included in the access list in the following format:
permit ipv6 host source any
Note Using the ipv6 mld static-group command is not sufficient to allow traffic to be forwarded onto the interface. Other conditions, such as the absence of a route, the router not being the designated router, or losing an assert, can cause the router not to forward traffic even if the ipv6 mld static-group command is configured. |
Examples
The following example statically forward traffic for the multicast group onto the specified interface:
ipv6 mld static-group ff04::10 include 100::1