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| Title | Size | Download |
|---|---|---|
| 01-ACL commands | 211.40 KB |
display packet-filter statistics
display packet-filter statistics sum
packet-filter default hardware-count
ACL commands
acl
Use acl to create an ACL and enter its view, or enter the view of an existing ACL.
Use undo acl to delete the specified or all ACLs.
Syntax
acl [ ipv6 ] { advanced | basic } { acl-number | name acl-name } [ match-order { auto | config } ]
acl mac { acl-number | name acl-name } [ match-order { auto | config } ]
undo acl [ ipv6 ] { all | { advanced | basic } { acl-number | name acl-name } }
undo acl mac { all | acl-number | name acl-name }
Default
No ACLs exist.
Views
System view
Predefined user roles
network-admin
Parameters
ipv6: Specifies the IPv6 ACL type. To specify the IPv4 ACL type, do not use this keyword.
basic: Specifies the basic ACL type.
advanced: Specifies the advanced ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Assigns a number to the ACL. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Assigns a name to the ACL. The acl-name argument is a case-insensitive string of 1 to 63 characters. It must start with an English letter and to avoid confusion, it cannot be all.
match-order: Specifies the order in which ACL rules are compared against packets.
· auto: Compares ACL rules in depth-first order.
· config: Compares ACL rules in ascending order of rule ID. The rule with a smaller ID has a higher priority. If you do not specify a match order, the config order applies by default.
all: Specifies all ACLs of the specified type.
Usage guidelines
You can change the match order only for ACLs that do not contain any rules.
Matching packets are forwarded through slow forwarding if an ACL rule contains match criteria or has functions enabled in addition to the following match criteria and functions:
· Source and destination IP addresses.
· Source and destination ports.
· Transport layer protocol.
· ICMP or ICMPv6 message type, message code, and message name.
· VPN instance.
· Logging.
· Time range.
Slow forwarding requires packets to be sent to the control plane for forwarding entry calculation, which affects the device forwarding performance.
Examples
# Create IPv4 basic ACL 2000 and enter its view.
<Sysname> system-view
[Sysname] acl basic 2000
[Sysname-acl-ipv4-basic-2000]
# Create IPv4 basic ACL flow and enter its view.
<Sysname> system-view
[Sysname] acl basic name flow
[Sysname-acl-ipv4-basic-flow]
# Create IPv4 advanced ACL 3000 and enter its view.
<Sysname> system-view
[Sysname] acl advanced 3000
[Sysname-acl-ipv4-adv-3000]
# Create IPv6 basic ACL 2000 and enter its view.
<Sysname> system-view
[Sysname] acl ipv6 basic 2000
[Sysname-acl-ipv6-basic-2000]
# Create IPv6 basic ACL flow and enter its view.
<Sysname> system-view
[Sysname] acl ipv6 basic name flow
[Sysname-acl-ipv6-basic-flow]
# Create IPv6 advanced ACL abc and enter its view.
<Sysname> system-view
[Sysname] acl ipv6 advanced name abc
[Sysname-acl-ipv6-adv-abc]
# Create Layer 2 ACL 4000 and enter its view.
<Sysname> system-view
[Sysname] acl mac 4000
[Sysname-acl-mac-4000]
# Create Layer 2 ACL flow and enter its view.
<Sysname> system-view
[Sysname] acl mac name flow
[Sysname-acl-mac-flow]
Related commands
display acl
acl copy
Use acl copy to create an ACL by copying an ACL that already exists.
Syntax
acl [ ipv6 | mac ] copy { source-acl-number | name source-acl-name } to { dest-acl-number | name dest-acl-name }
Views
System view
Predefined user roles
network-admin
Parameters
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
source-acl-number: Specifies an existing source ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name source-acl-name: Specifies an existing source ACL by its name. The source-acl-name argument is a case-insensitive string of 1 to 63 characters.
dest-acl-number: Assigns a unique number to the new ACL. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name dest-acl-name: Assigns a unique name to the new ACL. The dest-acl-name argument is a case-insensitive string of 1 to 63 characters. It must start with an English letter and to avoid confusion, it cannot be all.
Usage guidelines
The new ACL and the source ACL must be the same type.
The new ACL has the same properties and content as the source ACL, but uses a different number or name from the source ACL.
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Examples
# Create IPv4 basic ACL 2002 by copying IPv4 basic ACL 2001.
<Sysname> system-view
[Sysname] acl copy 2001 to 2002
# Create IPv4 basic ACL paste by copying IPv4 basic ACL test.
<Sysname> system-view
[Sysname] acl copy name test to name paste
acl logging interval
Use acl logging interval to enable logging for packet filtering and set the interval.
Use undo acl logging interval to restore the default.
Syntax
acl logging interval interval
undo acl logging interval
Default
The interval is 0. The device does not generate log entries for packet filtering.
Views
System view
Predefined user roles
network-admin
Parameters
interval: Specifies the interval at which log entries are generated and output. It must be a multiple of 5, in the range of 0 to 1440 minutes. To disable the logging, set the value to 0.
Usage guidelines
The logging feature is available for IPv4 and IPv6 ACL rules that have the logging keyword.
You can configure the ACL module to generate log entries for packet filtering and output them to the information center at the output interval. The log entry records the number of matching packets and the matched ACL rules. When the first packet of a flow matches an ACL rule, the output interval starts, and the device immediately outputs a log entry for this packet. When the output interval ends, the device outputs a log entry for subsequent matching packets of the flow. For more information about the information center, see Network Management and Monitoring Configuration Guide.
Examples
# Configure the device to generate and output packet filtering log entries every 10 minutes.
<Sysname> system-view
[Sysname] acl logging interval 10
Related commands
rule (IPv4 advanced ACL view)
rule (IPv4 basic ACL view)
rule (IPv6 advanced ACL view)
rule (IPv6 basic ACL view)
acl trap interval
Use acl trap interval to enable SNMP notifications for packet filtering and set the interval.
Use undo acl interval to restore the default.
Syntax
acl trap interval interval
undo acl trap interval
Default
The interval is 0. The device does not generate SNMP notifications for packet filtering.
Views
System view
Predefined user roles
network-admin
Parameters
interval: Specifies the interval at which SNMP notifications are generated and output. It must be a multiple of 5, in the range of 0 to 1440 minutes. To disable SNMP notifications, set the value to 0.
Usage guidelines
The SNMP notifications feature is available for IPv4 and IPv6 ACL rules that have the logging keyword.
You can configure the ACL module to generate SNMP notifications for packet filtering and output them to the SNMP module at the output interval. The notification records the number of matching packets and the matched ACL rules. When the first packet of a flow matches an ACL rule, the output interval starts, and the device immediately outputs a notification for this packet. When the output interval ends, the device outputs a notification for subsequent matching packets of the flow. For more information about SNMP, see Network Management and Monitoring Configuration Guide.
Examples
# Configure the device to generate and output packet filtering SNMP notifications every 10 minutes.
<Sysname> system-view
[Sysname] acl trap interval 10
Related commands
rule (IPv4 advanced ACL view)
rule (IPv4 basic ACL view)
rule (IPv6 advanced ACL view)
rule (IPv6 basic ACL view)
description
Use description to configure a description for an ACL.
Use undo description to delete an ACL description.
Syntax
description text
undo description
Default
An ACL does not have a description.
Views
IPv4 basic/advanced ACL view
IPv6 basic/advanced ACL view
Layer 2 ACL view
Predefined user roles
network-admin
Parameters
text: Specifies a description, a case-sensitive string of 1 to 127 characters.
Examples
# Configure a description for IPv4 basic ACL 2000.
<Sysname> system-view
[Sysname] acl basic 2000
[Sysname-acl-ipv4-basic-2000] description This is an IPv4 basic ACL.
Related commands
display acl
display acl
Use display acl to display ACL configuration and match statistics.
Syntax
display acl [ ipv6 | mac ] { acl-number | all | name acl-name }
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
all: Specifies all ACLs of the specified type.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
Usage guidelines
This command displays ACL rules in config or auto order, whichever is configured.
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Examples
# Display configuration and match statistics for IPv4 basic ACL 2001.
<Sysname> display acl 2001
Basic IPv4 ACL 2001, 0 rule,
ACL's step is 5
Table 1 Command output
|
Field |
Description |
|
Basic IPv4 ACL 2001 |
Type and number of the ACL. The following field information is about IPv4 basic ACL 2001. |
|
X rules |
Number of rules that the ACL contains. |
|
ACL's step is 5 |
The rule numbering step is 5. |
display acl accelerate
Use display acl accelerate to display ACL acceleration status.
Syntax
display acl accelerate { summary [ ipv6 | mac ] | verbose [ ipv6 | mac ] { acl-number | name acl-name } slot slot-number }
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
summary: Displays summary information about ACL acceleration status.
verbose: Displays detailed information about ACL acceleration status.
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
slot slot-number: Specifies an IRF member device. The slot-number argument represents the ID of the IRF member device. The specified device must be the device where the acceleration chip resides.
Usage guidelines
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Examples
# Display summary information about ACL acceleration status.
<Sysname> display acl accelerate summary
Basic IPv4 ACL 2000
# Display detailed information about ACL acceleration status for the specified slot.
<Sysname> display acl accelerate verbose 2000 slot 1
Basic IPv4 ACL 2000.
rule 0 permit
rule 1 deny (failed)
Table 2 Command output
|
Field |
Description |
|
failed |
ACL acceleration for the rule failed, and the rule is not effective. |
display acl whitelist
Use display acl whitelist to display ACL rules in the dynamic whitelist.
Syntax
In standalone mode:
display acl whitelist [ ipv6 ] slot slot-number
In IRF mode:
display acl whitelist [ ipv6 ] chassis chassis-number slot slot-number
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
ipv6: Specifies the IPv6 dynamic whitelist. If you do not specify this keyword, the command displays ACL rules in the IPv4 dynamic whitelist.
slot slot-number: Specifies a card by its slot number. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. (In IRF mode.)
Usage guidelines
For whitelist-based traffic policing, the system dynamically generates a whitelist according to existing TCP connections or other protocol sessions. The whitelist contains ACL rules used to match traffic. For information about the configuration command for whitelist-based traffic policing, see the qos car (control plane view) command in QoS commands.
Examples
# (In standalone mode.) Display ACL rules in the IPv4 dynamic whitelist for slot 1.
<Sysname> display acl whitelist slot 3
IPv4 ACL Whitelist, 5 rules
rule 0 permit tcp source 192.168.2.32 0 destination 192.168.2.88 0 source-port
eq 49906 destination-port eq telnet
rule 1 permit tcp source 192.168.2.31 0 destination 192.168.2.88 0 source-port
eq 1922 destination-port eq telnet
rule 2 permit tcp source 192.168.2.79 0 destination 192.168.2.88 0 source-port
eq 2226 destination-port eq telnet
rule 3 permit tcp source 192.168.2.39 0 destination 192.168.2.88 0 source-port
eq 51867 destination-port eq telnet
rule 4 permit tcp source 192.168.2.23 0 destination 192.168.2.88 0 source-port
eq 55115 destination-port eq telnet
Related commands
display qos car control-plane whitelist
qos car (control plane view)
display packet-filter
Use display packet-filter to display ACL application information for packet filtering.
Syntax
In standalone mode:
display packet-filter { { global | interface [ interface-type interface-number ] } [ inbound | outbound ] } [ slot slot-number ]
In IRF mode:
display packet-filter { { global | interface [ interface-type interface-number ]} [ inbound | outbound ] } [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
global: Specifies all physical interfaces.
interface [ interface-type interface-number ]: Specifies an interface by its type and number. If you do not specify an interface, this command displays ACL application information for packet filtering on all interfaces.
inbound: Specifies the inbound direction.
outbound: Specifies the outbound direction.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays ACL application information for packet filtering for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify a card, this command displays ACL application information for packet filtering for the global active MPU. (In IRF mode.)
Usage guidelines
If neither the inbound keyword nor the outbound keyword is specified, this command displays ACL application information for interface- or VLAN-based packet filtering in both directions.
Only the logical interfaces support chassis and slot.
Examples
# Display ACL application information for inbound packet filtering on GigabitEthernet 3/1/1.
<Sysname> display packet-filter interface gigabitethernet 3/1/1 inbound
Interface: GigabitEthernet3/1/1
Inbound policy:
IPv4 ACL 2001, Share-mode
IPv6 ACL 2002
MAC ACL 4003, Hardware-count
IPv4 ACL 2004, Hardware-count
IPv4 default action: Deny, Hardware-count
# Display ACL application information for inbound and outbound packet filtering on all physical interfaces.
<Sysname> display packet-filter global
Global:
Inbound policy:
IPv4 ACL 2001
IPv6 ACL 2001
MAC ACL 4001
IPv4 default action: Deny
IPv6 default action: Deny
MAC default action: Deny
Outbound policy:
MAC ACL 4001, Hardware-count
MAC default action: Deny
Table 3 Command output
|
Field |
Description |
|
Interface |
Interface to which the ACL applies. |
|
Global |
ACL application for packet filtering on all physical interfaces. |
|
Inbound policy |
ACL used for filtering incoming traffic. |
|
Outbound policy |
ACL used for filtering outgoing traffic. |
|
IPv4 ACL 2001 |
IPv4 basic ACL 2001 has been successfully applied. |
|
Share-mode |
Sharing mode for QoS and ACL resources. This field appears in the command output only if an ACL is applied with the share-mode keyword. |
|
Hardware-count |
ACL rule match counting in hardware has been successfully enabled. |
|
IPv4 default action |
Packet filter default action for packets that do not match any IPv4 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
|
IPv6 default action |
Packet filter default action for packets that do not match any IPv6 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
|
MAC default action |
Packet filter default action for packets that do not match any Layer 2 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
display packet-filter statistics
Use display packet-filter statistics to display packet filtering statistics and the default action statistics.
Syntax
In standalone mode:
display packet-filter statistics { { global | interface interface-type interface-number } { inbound | outbound } [ default | [ ipv6 | mac ] { acl-number | name acl-name } ] } [ brief ] [ slot slot-number ]
In IRF mode:
display packet-filter statistics { { global | interface interface-type interface-number } { inbound | outbound } [ default | [ ipv6 | mac ] { acl-number | name acl-name } ] } [ brief ] [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
global: Displays the statistics for all physical interfaces.
interface interface-type interface-number: Specifies an interface by its type and number.
inbound: Specifies the inbound direction.
outbound: Specifies the outbound direction.
default: Displays the default action statistics for packet filtering.
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
brief: Displays brief statistics.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays packet filtering statistics and the default action statistics for all cards.
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify a card, this command displays packet filtering statistics and the default action statistics for all cards on all member devices.
Usage guidelines
If default, acl-number, name acl-name, ipv6, or mac is not specified, this command displays packet filtering statistics for all ACLs.
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Only the logical interfaces support chassis and slot.
Examples
# Display packet filtering statistics for all ACLs on incoming packets of GigabitEthernet 3/1/1.
<Sysname> display packet-filter statistics interface gigabitethernet 3/1/1 inbound
Interface: GigabitEthernet3/1/1
Inbound policy:
IPv4 ACL 2001, Hardware-count
From 2011-06-04 10:25:21 to 2011-06-04 10:35:57
rule 0 permit source 2.2.2.2 0 (2 packets)
rule 5 permit source 1.1.1.1 0
rule 10 permit vpn-instance test (No resource)
Totally 2 packets permitted, 0 packets denied
Totally 100% permitted, 0% denied
IPv4 ACL 2002
MAC ACL 4000
From 2011-06-04 10:25:34 to 2011-06-04 10:35:57
rule 0 permit
IPv6 ACL 2000
IPv4 default action: Deny, Hardware-count
From 2011-06-04 10:25:21 to 2011-06-04 10:35:57
Totally 7 packets
IPv6 default action: Deny, Hardware-count
From 2011-06-04 10:25:41 to 2011-06-04 10:35:57
Totally 0 packets
MAC default action: Deny, Hardware-count
From 2011-06-04 10:25:34 to 2011-06-04 10:35:57
Totally 0 packets
# Display packet filtering statistics for all ACLs on incoming packets of VLAN-interface 1 on slot 2.
<Sysname> display packet-filter statistics interface vlan-interface 1 inbound slot 2
Interface: Vlan-interface1
Inbound policy:
IPv4 ACL 2001, Hardware-count
From 2011-06-04 10:25:21 to 2011-06-04 10:35:57
rule 0 permit source 2.2.2.2 0 (20 packets)
rule 5 permit source 1.1.1.1 0 (50 packets)
rule 10 permit vpn-instance test (30 packets)
Totally 100 packets permitted, 0 packets denied
Totally 100% permitted, 0% denied
Table 4 Command output
|
Field |
Description |
|
Interface |
Interface to which the ACL applies. |
|
Inbound policy |
ACL used for filtering incoming traffic. |
|
Outbound policy |
ACL used for filtering outgoing traffic. |
|
IPv4 ACL 2001 |
IPv4 basic ACL 2001 has been successfully applied. |
|
Hardware-count |
ACL rule match counting in hardware has been successfully enabled. |
|
From 2011-06-04 10:25:21 to 2011-06-04 10:35:57 |
Start time and end time of the statistics. |
|
2 packets |
Two packets matched the rule. This field is not displayed when no packets matched the rule. |
|
No resource |
Resources are not enough for counting matches for the rule. In packet filtering statistics, this field is displayed for a rule when resources are not sufficient for rule match counting. |
|
Totally 2 packets permitted, 0 packets denied |
Number of packets permitted and denied by the ACL. |
|
Totally 100% permitted, 0% denied |
Ratios of permitted and denied packets to all packets. |
|
IPv4 default action |
Packet filter default action for packets that do not match any IPv4 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
|
IPv6 default action |
Packet filter default action for packets that do not match any IPv6 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
|
MAC default action |
Packet filter default action for packets that do not match any Layer 2 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
|
Totally 7 packets |
The default action has been executed on seven packets. |
Related commands
reset packet-filter statistics
display packet-filter statistics sum
Use display packet-filter statistics sum to display accumulated packet filtering statistics for an ACL.
Syntax
display packet-filter statistics sum { inbound | outbound } [ ipv6 | mac ] { acl-number | name acl-name } [ brief ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
inbound: Specifies the inbound direction.
outbound: Specifies the outbound direction.
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
brief: Displays brief statistics.
Usage guidelines
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Examples
# Display accumulated packet filtering statistics for IPv4 basic ACL 2001 on incoming packets.
<Sysname> display packet-filter statistics sum inbound 2001
Sum:
Inbound policy:
IPv4 ACL 2001
rule 0 permit source 2.2.2.2 0 (2 packets)
rule 5 permit source 1.1.1.1 0
rule 10 permit vpn-instance test
Totally 2 packets permitted, 0 packets denied
Totally 100% permitted, 0% denied
# Display brief accumulated packet filtering statistics for IPv4 basic ACL 2000 on incoming packets.
<Sysname> display packet-filter statistics sum inbound 2000 brief
Sum:
Inbound policy:
IPv4 ACL 2000
Totally 2 packets permitted, 0 packets denied
Totally 100% permitted, 0% denied
Table 5 Command output
|
Field |
Description |
|
Sum |
Accumulated packet filtering statistics. |
|
Inbound policy |
Accumulated packet filtering statistics in the inbound direction. |
|
Outbound policy |
Accumulated packet filtering statistics in the outbound direction. |
|
IPv4 ACL 2001 |
Accumulated packet filtering statistics of IPv4 basic ACL 2001. |
|
2 packets |
Two packets matched the rule. This field is not displayed when no packets matched the rule. |
|
Totally 2 packets permitted, 0 packets denied |
Number of packets permitted and denied by the ACL. |
|
Totally 100% permitted, 0% denied |
Ratios of permitted and denied packets to all packets. |
Related commands
reset packet-filter statistics
display packet-filter verbose
Use display packet-filter verbose to display ACL application details for packet filtering.
Syntax
In standalone mode:
display packet-filter verbose { { global | interface interface-type interface-number } { inbound | outbound } [ [ ipv6 | mac ] { acl-number | name acl-name } ] } [ slot slot-number ]
In IRF mode:
display packet-filter verbose { { global | interface interface-type interface-number } { inbound | outbound } [ [ ipv6 | mac ] { acl-number | name acl-name } ] } [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
global: Specifies all physical interfaces.
interface interface-type interface-number: Specifies an interface by its type and number. The chassis chassis-number and slot slot-number options are not available for an Ethernet interface.
inbound: Specifies the inbound direction.
outbound: Specifies the outbound direction.
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays ACL application details for packet filtering for the active MPU. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify a card, this command displays ACL application details for packet filtering for the global active MPU. (In IRF mode.)
Usage guidelines
If acl-number, name acl-name, ipv6, or mac is not specified, this command displays application details of all ACLs for packet filtering.
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Only the logical interfaces support chassis and slot.
Examples
# Display application details of all ACLs for inbound packet filtering on GigabitEthernet 3/1/1.
<Sysname> display packet-filter verbose interface gigabitethernet 3/1/1 inbound
Interface: GigabitEthernet3/1/1
Inbound policy:
IPv4 ACL 2001, Hardware-count
rule 0 permit
rule 5 permit source 1.1.1.1 0
rule 10 permit vpn-instance test
IPv4 ACL 2002 (Failed), Hardware-count
IPv6 ACL 2000, Hardware-count
rule 0 permit
MAC ACL 4000, Hardware-count
IPv4 default action: Deny, Hardware-count
IPv6 default action: Deny, Hardware-count
MAC default action: Deny, Hardware-count
# Display application details of all ACLs for inbound packet filtering on all physical interfaces.
<Sysname> display packet-filter verbose global inbound
Global:
Inbound policy:
IPv4 ACL 2001
rule 0 permit
rule 5 permit source 1.1.1.1 0 (Failed)
rule 10 permit vpn-instance test (Failed)
IPv4 ACL 2002 (Failed)
IPv6 ACL 2000, Hardware-count
MAC ACL 4000, Hardware-count
rule 0 permit
IPv4 default action: Deny
IPv6 default action: Deny
MAC default action: Deny
Table 6 Command output
|
Field |
Description |
|
Interface |
Interface to which the ACL applies. |
|
Global |
ACL application details for packet filtering on all physical interfaces. |
|
Inbound policy |
ACL used for filtering incoming traffic. |
|
Outbound policy |
ACL used for filtering outgoing traffic. |
|
IPv4 ACL 2001 |
IPv4 basic ACL 2001 has been successfully applied. |
|
IPv4 ACL 2002 (Failed) |
The device has failed to apply IPv4 basic ACL 2002. |
|
Hardware-count |
ACL rule match counting in hardware has been successfully enabled. |
|
rule 5 permit source 1.1.1.1 0 (Failed) |
The device has failed to apply rule 5. |
|
IPv4 default action |
Packet filter default action for packets that do not match any IPv4 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
|
IPv6 default action |
Packet filter default action for packets that do not match any IPv6 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
|
MAC default action |
Packet filter default action for packets that do not match any Layer 2 ACLs: · Deny—The default action deny has been successfully applied for packet filtering. · Permit—The default action permit has been successfully applied for packet filtering. · Hardware-count—The hardware-count feature has been successfully applied for the default action for packet filtering. |
display qos-acl resource
Use display qos-acl resource to display QoS and ACL resource usage.
Syntax
In standalone mode:
display qos-acl resource [ slot slot-number ]
In IRF mode:
display qos-acl resource [ chassis chassis-number slot slot-number ]
Views
Any view
Predefined user roles
network-admin
network-operator
Parameters
slot slot-number: Specifies a card by its slot number. If you do not specify a card, this command displays ACL QoS and ACL resource usage for all cards. (In standalone mode.)
chassis chassis-number slot slot-number: Specifies a card on an IRF member device. The chassis-number argument represents the member ID of the IRF member device. The slot-number argument represents the slot number of the card. If you do not specify a card, this command displays QoS and ACL resource usage for all cards. (In IRF mode.)
Usage guidelines
This command does not display any usage data if the specified card does not support counting QoS and ACL resources.
Examples
# Display QoS and ACL resource usage.
<Sysname> display qos-acl resource
Interfaces: GE2/0/1 to GE2/0/48 (slot 2)
---------------------------------------------------------------------
Type Total Reserved Configured Remaining Usage
---------------------------------------------------------------------
VFP ACL 2048 512 0 1536 25%
IFP ACL 8192 4096 3 4093 50%
IFP Meter 4096 2048 1 2047 50%
IFP Counter 4096 2048 2 2046 50%
EFP ACL 1024 0 0 1024 0%
EFP Meter 512 0 0 512 0%
EFP Counter 512 0 0 512 0%
Interfaces: GE3/1/1 to GE3/1/48 (slot 3)
---------------------------------------------------------------------
Type Total Reserved Configured Remaining Usage
---------------------------------------------------------------------
IPv4Acl 65536 0 1 65535 0%
IPv6Acl 16384 0 0 16384 0%
Car&Cnt 32768 0 0 32768 0%
InBRAS Stat 65536 0 0 65536 0%
OutBRAS Stat 65536 0 0 65536 0%
TCPCar 16384 0 0 16384 0%
Car Prof 220 0 0 220 0%
Sampler 32768 0 0 32768 0%
INQPPB 65536 0 0 65536 0%
Table 7 Command output
|
Field |
Description |
|
Interfaces |
Interface range for the resources. |
|
Type |
Resource type: · VFP ACL—ACL resources for marking the local QoS ID before Layer 2 forwarding. · IFP ACL—Inbound ACL resources. · IFP Meter—Inbound traffic policing resources. · IFP Counter—Inbound traffic accounting resources. · EFP ACL—Outbound ACL resources. · EFP Meter—Outbound traffic policing resources. · EFP Counter—Outbound traffic accounting resources. · IPv4Acl—IPv4 ACL rule resources. · IPv6Acl—IPv6 ACL rule resources. · Car&Cnt—Counter resources used by ACL resources. · InBRAS Stat—Inbound BRAS counter resources. · OutBRAS Stat—Outbound BRAS counter resources. · TCPCar—TCP connection counter resources. · Car Prof—Rate limit template resources. · Sampler—Sampler counter resources. · INQPPB—Inbound QPPB entry resources. |
|
Total |
Total number of resources. |
|
Reserved |
Number of reserved resources. |
|
Configured |
Number of resources that has been applied. |
|
Remaining |
Number of resources that you can apply. |
|
Usage |
Configured and reserved resources as a percentage of total resources. If the percentage is not an integer, this field displays the integer part. For example, if the actual usage is 50.8%, this field displays 50%. |
packet-filter
Use packet-filter to apply an ACL to an interface to filter packets.
Use undo packet-filter to remove an ACL from an interface.
Syntax
packet-filter [ ipv6 | mac ] { acl-number | name acl-name } { inbound | outbound } [ hardware-count ] [ share-mode ]
undo packet-filter [ ipv6 | mac ] { acl-number | name acl-name } { inbound | outbound }
Default
No ACL is applied to an interface to filter packets.
Views
Interface view
Predefined user roles
network-admin
Parameters
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
inbound: Filters incoming packets.
outbound: Filters outgoing packets.
hardware-count: Enables counting ACL rule matches performed in hardware. If you do not specify this keyword, rule matches for the ACL are not counted in hardware.
share-mode: Applies the ACL in sharing mode. By default, an ACL is applied in non-sharing mode.
Usage guidelines
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
The hardware-count keyword in this command enables match counting for all rules in an ACL, and the counting keyword in the rule command enables match counting specific to rules.
To disable ACL rule match counting in hardware when resources are insufficient, you must execute the undo packet-filter command and then reconfigure the packet-filter command without specifying the hardware-count keyword.
To disable ACL rule match counting in hardware when resources are sufficient, you can directly reconfigure the packet-filter command without specifying the hardware-count keyword.
If you specify the share-mode keyword when applying an ACL to an interface, follow these restrictions and guidelines:
· All interfaces on an interface module with the ACL applied in one direction share one QoS and ACL resource.
If the share-mode keyword is not specified, each interface uses one QoS and ACL resource in one direction.
· You cannot specify the share-mode keyword when applying a QoS policy to the same direction of the interface. For more information about applying a QoS policy to an interface, see the qos apply policy (interface view) command in QoS policy commands.
· You can apply multiple ACLs to one direction of an interface. However, you can apply only one ACL with the share-mode keyword specified to one direction of an interface.
Only CSPEX cards (except CSPEX-1204 and CSPEX-1104-E) and CEPC cards support the share-mode keyword.
The display packet-filter statistics command output for an interface also contains statistics for all interfaces that share the QoS and ACL resource with the interface.
You cannot change the sharing mode dynamically after an ACL is applied to an interface. To change the sharing mode for an applied ACL, you must remove the ACL from the interface, and then reapply the ACL with or without the share-mode keyword specified.
Examples
# Apply IPv4 basic ACL 2001 to filter incoming traffic on GigabitEthernet 1/1/0.
<Sysname> system-view
[Sysname] interface gigabitethernet 1/1/0
[Sysname-GigabitEthernet1/1/0] packet-filter 2001 inbound
# Apply IPv4 basic ACL 2001 to filter incoming traffic on GigabitEthernet 3/1/1, and enable counting ACL rule matches performed in hardware.
<Sysname> system-view
[Sysname] interface gigabitethernet 3/1/1
[Sysname-GigabitEthernet3/1/1] packet-filter 2001 inbound hardware-count
# Apply IPv4 basic ACL 2001 in sharing mode to filter outgoing traffic on GigabitEthernet 3/1/1, and enable counting ACL rule matches performed in hardware.
<Sysname> system-view
[Sysname] interface gigabitethernet 3/1/1
[Sysname-GigabitEthernet3/1/1] packet-filter 2001 inbound hardware-count share-mode
display packet-filter
display packet-filter statistics
display packet-filter verbose
packet-filter default deny
Use packet-filter default deny to set the packet filtering default action to deny. The packet filter denies packets that do not match any ACL rule.
Use undo packet-filter default deny to restore the default.
Syntax
packet-filter default deny
undo packet-filter default deny
Default
The packet filtering default action is permit. The packet filter permits packets that do not match any ACL rule.
Views
System view
Predefined user roles
network-admin
Usage guidelines
The packet filter applies the default action to all ACL applications for packet filtering. The default action appears in the display command output for packet filtering.
Examples
# Set the packet filter default action to deny.
<Sysname> system-view
[Sysname] packet-filter default deny
Related commands
display packet-filter
display packet-filter statistics
display packet-filter verbose
packet-filter default hardware-count
Use packet-filter default hardware-count to enable hardware-count for the packet filtering default action.
Use undo packet-filter default hardware-count to disable hardware-count for the packet filtering default action.
Syntax
packet-filter default { inbound | outbound } hardware-count
undo packet-filter default { inbound | outbound } hardware-count
Default
Hardware-count is disabled for the packet filtering default action.
Views
Interface view
Predefined user roles
network-admin
Parameters
inbound: Specifies the incoming packets.
outbound: Specifies the outgoing packets.
Usage guidelines
To enable hardware-count for the packet filtering default action on an interface, make sure you have applied ACLs to the interface for packet filtering.
Examples
# Set the packet filtering default action to deny. Apply IPv4 basic ACL 2001 to GigabitEthernet 3/1/1 for filtering incoming packets, and enable hardware-count for the packet filtering default action on GigabitEthernet 3/1/1.
<Sysname> system-view
[Sysname] packet-filter default deny
[Sysname] interface gigabitethernet 3/1/1
[Sysname-GigabitEthernet3/1/1] packet-filter 2001 inbound
[Sysname-GigabitEthernet3/1/1] packet-filter default inbound hardware-count
Related commands
packet-filter
packet-filter default deny
display packet-filter
display packet-filter statistics
packet-filter global
Use packet-filter global to apply an ACL to filter packets globally.
Use undo packet-filter global to remove an ACL for global packet filtering.
Syntax
packet-filter [ ipv6 | mac ] { acl-number | name acl-name } global { inbound | outbound } [ hardware-count ]
undo packet-filter [ ipv6 | mac ] { acl-number | name acl-name } global { inbound | outbound }
Default
No ACL is applied to filter packets globally.
Views
System view
Predefined user roles
network-admin
Parameters
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
global: Specifies all physical interfaces.
inbound: Filters incoming packets.
outbound: Filters outgoing packets.
hardware-count: Enables counting ACL rule matches performed in hardware. If you do not specify this keyword, rule matches for the ACL are not counted in hardware.
Usage guidelines
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
The hardware-count keyword in this command enables match counting for all rules in an ACL, and the counting keyword in the rule command enables match counting specific to rules.
To disable ACL rule match counting in hardware when resources are insufficient, you must execute the undo packet-filter command and then reconfigure the packet-filter command without specifying the hardware-count keyword.
To disable ACL rule match counting in hardware when resources are sufficient, you can directly reconfigure the packet-filter command without specifying the hardware-count keyword.
Examples
# Apply IPv4 basic ACL 2001 to filter incoming traffic on all physical interfaces, and enable counting ACL rule matches performed in hardware.
<Sysname> system-view
[Sysname] packet-filter 2001 global inbound hardware-count
Related commands
display packet-filter
display packet-filter statistics
display packet-filter verbose
reset acl counter
Use reset acl counter to clear statistics for ACLs.
Syntax
reset acl [ ipv6 | mac ] counter { acl-number | all | name acl-name }
Views
User view
Predefined user roles
network-admin
Parameters
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
all: Clears statistics for all ACLs of the specified type.
name acl-name: Clears statistics of an ACL specified by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
Usage guidelines
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Examples
# Clear statistics for IPv4 basic ACL 2001.
<Sysname> reset acl counter 2001
Related commands
display acl
reset packet-filter statistics
Use reset packet-filter statistics to clear the packet filtering statistics, accumulated statistics, and default action statistics for an ACL.
Syntax
reset packet-filter statistics { { global | interface [ interface-type interface-number ] } { inbound | outbound } [ default | [ ipv6 | mac ] { acl-number | name acl-name } ] }
Views
User view
Predefined user roles
network-admin
Parameters
global: Specifies all physical interfaces.
interface [ interface-type interface-number ]: Specifies an interface by its type and number. If you do not specify an interface, this command clears packet filtering statistics for all interfaces.
inbound: Specifies the inbound direction.
outbound: Specifies the outbound direction.
default: Clears the default action statistics for packet filtering.
ipv6: Specifies the IPv6 ACL type.
mac: Specifies the Layer 2 ACL type.
acl-number: Specifies an ACL by its number. The following are available value ranges:
· 2000 to 2999 for basic ACLs.
· 3000 to 3999 for advanced ACLs.
· 4000 to 4999 for Layer 2 ACLs.
name acl-name: Specifies an ACL by its name. The acl-name argument is a case-insensitive string of 1 to 63 characters.
Usage guidelines
If default, acl-number, name acl-name, ipv6, or mac is not specified, this command clears the packet filtering statistics for all ACLs.
To specify the IPv4 ACL type, do not specify the ipv6 or mac keyword.
Examples
# Clear IPv4 basic ACL 2001 statistics for inbound packet filtering on GigabitEthernet 3/1/1.
<Sysname> reset packet-filter statistics interface gigabitethernet 3/1/1 inbound 2001
Related commands
display packet-filter statistics
display packet-filter statistics sum
rule (IPv4 advanced ACL view)
Use rule to create or edit an IPv4 advanced ACL rule.
Use undo rule to delete an entire IPv4 advanced ACL rule or some attributes in the rule.
Syntax
rule [ rule-id ] { deny | permit } protocol [ { { ack ack-value | fin fin-value | psh psh-value | rst rst-value | syn syn-value | urg urg-value } * | established } | counting | destination { object-group address-group-name | dest-address dest-wildcard | any } | destination-port { object-group port-group-name | operator port1 [ port2 ] } | { dscp dscp1 [ to dscp2 ] | { precedence precedence | tos tos } * } | fragment | icmp-type { icmp-type [ icmp-code ] | icmp-message } | logging | source { object-group address-group-name | source-address source-wildcard | any } | source-port { object-group port-group-name | operator port1 [ port2 ] } | time-range time-range-name | [ user-group group-name | user-group-any ] | vpn-instance vpn-instance-name ] *
undo rule rule-id [ { { ack | fin | psh | rst | syn | urg } * | established } | counting | destination | destination-port | { dscp | { precedence | tos } * } | fragment | icmp-type | logging | source | source-port | time-range | [ user-group | user-group-any ] | vpn-instance ] *
undo rule { deny | permit } protocol [ { { ack ack-value | fin fin-value | psh psh-value | rst rst-value | syn syn-value | urg urg-value } * | established } | counting | destination { object-group address-group-name | dest-address dest-wildcard | any } | destination-port { object-group port-group-name | operator port1 [ port2 ] } | { dscp dscp1 [ to dscp2 ] | { precedence precedence | tos tos } * } | fragment | icmp-type { icmp-type [ icmp-code ] | icmp-message } | logging | source { object-group address-group-name | source-address source-wildcard | any } | source-port { object-group port-group-name | operator port1 [ port2 ] } | time-range time-range-name | [ user-group group-name | user-group-any ] | vpn-instance vpn-instance-name ] *
Default
No IPv4 advanced ACL rules exist.
Views
IPv4 advanced ACL view
Predefined user roles
network-admin
Parameters
rule-id: Specifies a rule ID in the range of 0 to 65534. If you do not specify a rule ID when creating an ACL rule, the system automatically assigns it a rule ID. This rule ID is the nearest higher multiple of the numbering step to the current highest rule ID, starting from 5. For example, if the rule numbering step is 5 and the current highest rule ID is 28, the rule is numbered 30.
deny: Denies matching packets to pass.
permit: Allows matching packets to pass.
protocol: Specifies one of the following values:
· A protocol number in the range of 0 to 255.
· A protocol by its name: gre (47), icmp (1), igmp (2), ip, ipinip (4), ospf (89), tcp (6), or udp (17). The ip keyword specifies all protocols.
Table 8 describes the parameters that you can specify regardless of the value for the protocol argument.
Table 8 Match criteria and other rule information for IPv4 advanced ACL rules
|
Parameters |
Function |
Description |
|
source { object-group address-group-name | source-address source-wildcard | any } |
Specifies source IPv4 addresses. |
The address-group-name argument specifies an object group of source IPv4 addresses. The source-address source-wildcard arguments specify a source IPv4 address and a wildcard mask in dotted decimal notation. An all-zero wildcard mask represents a host address. The any keyword specifies any source IPv4 addresses. |
|
destination { object-group address-group-name | dest-address dest-wildcard | any } |
Specifies destination IPv4 addresses. |
The address-group-name argument specifies an object group of destination IPv4 addresses. The dest-address dest-wildcard arguments specify a destination IPv4 address and a wildcard mask in dotted decimal notation. An all-zero wildcard mask represents a host address. The any keyword represents any destination IPv4 addresses. |
|
counting |
Counts the times that the rule is matched. |
The counting keyword enables match counting specific to rules, and the hardware-count keyword in the packet-filter command enables match counting in hardware for all rules in an ACL. If the counting keyword is not specified, matches for the rule are not counted. |
|
precedence precedence |
Specifies an IP precedence value. |
The precedence argument can be a number in the range of 0 to 7, or in words: routine (0), priority (1), immediate (2), flash (3), flash-override (4), critical (5), internet (6), or network (7). |
|
tos tos |
Specifies a ToS preference. |
The tos argument can be a number in the range of 0 to 15, or in words: max-reliability (2), max-throughput (4), min-delay (8), min-monetary-cost (1), or normal (0). |
|
dscp dscp1 [ to dscp2 ] |
Specifies a DSCP priority. |
The DSCP value can be a number in the range of 0 to 63, or in words: af11 (10), af12 (12), af13 (14), af21 (18), af22 (20), af23 (22), af31 (26), af32 (28), af33 (30), af41 (34), af42 (36), af43 (38), cs1 (8), cs2 (16), cs3 (24), cs4 (32), cs5 (40), cs6 (48), cs7 (56), default (0), or ef (46). The to dscp2 option is used to specify a DSCP value range. The value for the dscp2 argument must be greater than or equal to the value for the dscp1 argument. |
|
fragment |
Applies the rule only to fragments. |
If you do not specify this keyword, the rule applies to all fragments and non-fragments. CSPC cards and CMPE-1104 cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, and CSPC-GP24GE8XP2L-E) do not support the this keyword. |
|
logging |
Logs matching packets. |
This feature requires that the module (for example, packet filtering) that uses the ACL supports logging. |
|
time-range time-range-name |
Specifies a time range for the rule. |
The time-range-name argument is a case-insensitive string of 1 to 32 characters. It must start with an English letter. If the time range is not configured, the system creates the rule. However, the rule using the time range can take effect only after you configure the time range. For more information about time range, see ACL and QoS Configuration Guide. |
|
user-group group-name |
Matches packets from users in a user group. |
The group-name argument represents the user group name, a case-insensitive string of 1 to 32 characters. For more information about user groups, see AAA in BRAS Services Configuration Guide. This option takes effect in ACLs used by QoS policy, packet filtering, and policy-based routing. This option takes effect on PPPoE, IPoE, and portal online users. |
|
user-group-any |
Matches packets from users in any user group. |
This option takes effect in ACLs used by QoS policy, packet filtering, and policy-based routing. This option takes effect on PPPoE, IPoE, and portal online users. |
|
vpn-instance vpn-instance-name |
Applies the rule to an MPLS L3VPN instance. |
The vpn-instance-name argument is a case-sensitive string of 1 to 31 characters. If you do not specify a VPN instance, the rule applies to both non-VPN packets and VPN packets. CSPC cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, and CSPC-GP24GE8XP2L-E) and CMPE-1104 cards do not support the vpn-instance keyword in the outbound direction. |
If the protocol argument is tcp (6) or udp (17), set the parameters shown in Table 9.
Table 9 TCP/UDP-specific parameters for IPv4 advanced ACL rules
|
Parameters |
Function |
Description |
|
source-port { object-group port-group-name | operator port1 [ port2 ] } |
Specifies UDP or TCP source ports. |
The port-group-name argument specifies an object group of ports. The operator argument can be lt (lower than), gt (greater than), eq (equal to), neq (not equal to), or range (inclusive range). The port1 and port2 arguments are TCP or UDP port numbers in the range of 0 to 65535. The port2 argument is needed only when the operator argument is range. TCP port numbers can be represented as: chargen (19), bgp (179), cmd (514), daytime (13), discard (9), dns (53), domain (53), echo (7), exec (512), finger (79), ftp (21), ftp-data (20), gopher (70), hostname (101), irc (194), klogin (543), kshell (544), login (513), lpd (515), nntp (119), pop2 (109), pop3 (110), smtp (25), sunrpc (111), tacacs (49), talk (517), telnet (23), time (37), uucp (540), whois (43), and www (80). UDP port numbers can be represented as: biff (512), bootpc (68), bootps (67), discard (9), dns (53), dnsix (90), echo (7), mobilip-ag (434), mobilip-mn (435), nameserver (42), netbios-dgm (138), netbios-ns (137), netbios-ssn (139), ntp (123), rip (520), snmp (161), snmptrap (162), sunrpc (111), syslog (514), tacacs-ds (65), talk (517), tftp (69), time (37), who (513), and xdmcp (177). |
|
destination-port { object-group port-group-name | operator port1 [ port2 ] } |
Specifies UDP or TCP destination ports. |
|
|
{ ack ack-value | fin fin-value | psh psh-value | rst rst-value | syn syn-value | urg urg-value } * |
Specifies TCP flags including ACK, FIN, PSH, RST, SYN, and URG. |
Parameters specific to TCP. The value for each argument can be 0 (flag bit not set) or 1 (flag bit set). The TCP flags in a rule are ANDed or ORed. For example, a rule configured with ack 0 psh 1 matches packets that have the ACK flag bit not set and the PSH flag bit set. |
|
established |
Specifies the flags for indicating the established status of a TCP connection. |
Parameter specific to TCP. The rule matches TCP connection packets with the ACK or RST flag bit set. |
If the protocol argument is icmp (1), set the parameters shown in Table 10.
Table 10 ICMP-specific parameters for IPv4 advanced ACL rules
|
Parameters |
Function |
Description |
|
icmp-type { icmp-type icmp-code | icmp-message } |
Specifies the ICMP message type and code. |
The icmp-type argument is in the range of 0 to 255. The icmp-code argument is in the range of 0 to 255. The icmp-message argument specifies a message name. Supported ICMP message names and their corresponding type and code values are listed in Table 11. |
Table 11 ICMP message names supported in IPv4 advanced ACL rules
|
ICMP message name |
ICMP message type |
ICMP message code |
|
echo |
8 |
0 |
|
echo-reply |
0 |
0 |
|
fragmentneed-DFset |
3 |
4 |
|
host-redirect |
5 |
1 |
|
host-tos-redirect |
5 |
3 |
|
host-unreachable |
3 |
1 |
|
information-reply |
16 |
0 |
|
information-request |
15 |
0 |
|
net-redirect |
5 |
0 |
|
net-tos-redirect |
5 |
2 |
|
net-unreachable |
3 |
0 |
|
parameter-problem |
12 |
0 |
|
port-unreachable |
3 |
3 |
|
protocol-unreachable |
3 |
2 |
|
reassembly-timeout |
11 |
1 |
|
source-quench |
4 |
0 |
|
source-route-failed |
3 |
5 |
|
timestamp-reply |
14 |
0 |
|
timestamp-request |
13 |
0 |
|
ttl-exceeded |
11 |
0 |
Usage guidelines
Within an ACL, the permit or deny statement of each rule must be unique. If the rule you are creating or editing has the same deny or permit statement as another rule in the ACL, the rule will not be created or changed.
The object group you specify when creating or editing a rule must already exist. Otherwise, the rule will not be created or changed.
You can edit ACL rules only when the match order is config.
CSPC cards and CMPE-1104 cards do not support the neq operator.
An object group in a rule does not take effect if the object group does not contain objects.
The counting keyword in this command enables match counting specific to rules, and the hardware-count keyword in the packet-filter command enables match counting for all rules in an ACL.
To view the existing IPv4 basic and advanced ACL rules, use the display acl all command.
The undo rule rule-id command without any optional parameters deletes an entire rule. If you specify optional parameters, the undo rule rule-id command deletes the specified attributes for the rule.
The undo rule { deny | permit } command can only be used to delete an entire rule. You must specify all the attributes of the rule for the command.
Examples
# Create an IPv4 advanced ACL rule to permit TCP packets with the destination port 80 from 129.9.0.0/16 to 202.38.160.0/24.
<Sysname> system-view
[Sysname] acl advanced 3000
[Sysname-acl-ipv4-adv-3000] rule permit tcp source 129.9.0.0 0.0.255.255 destination 202.38.160.0 0.0.0.255 destination-port eq 80
# Create IPv4 advanced ACL rules to permit all IP packets but the ICMP packets destined for 192.168.1.0/24.
<Sysname> system-view
[Sysname] acl advanced 3001
[Sysname-acl-ipv4-adv-3001] rule deny icmp destination 192.168.1.0 0.0.0.255
[Sysname-acl-ipv4-adv-3001] rule permit ip
# Create IPv4 advanced ACL rules to permit inbound and outbound FTP packets.
<Sysname> system-view
[Sysname] acl advanced 3002
[Sysname-acl-ipv4-adv-3002] rule permit tcp source-port eq ftp
[Sysname-acl-ipv4-adv-3002] rule permit tcp source-port eq ftp-data
[Sysname-acl-ipv4-adv-3002] rule permit tcp destination-port eq ftp
[Sysname-acl-ipv4-adv-3002] rule permit tcp destination-port eq ftp-data
# Create IPv4 advanced ACL rules to permit inbound and outbound SNMP and SNMP trap packets.
<Sysname> system-view
[Sysname] acl advanced 3003
[Sysname-acl-ipv4-adv-3003] rule permit udp source-port eq snmp
[Sysname-acl-ipv4-adv-3003] rule permit udp source-port eq snmptrap
[Sysname-acl-ipv4-adv-3003] rule permit udp destination-port eq snmp
[Sysname-acl-ipv4-adv-3003] rule permit udp destination-port eq snmptrap
# Create an IPv4 advanced ACL rule to permit IPv4 packets from any user group.
<Sysname> system-view
[Sysname] acl advanced 3004
[Sysname-acl-ipv4-adv-3004] rule permit ip user-group-any
# Create an IPv4 advanced ACL rule to permit IPv4 packets from users in the user group users.
<Sysname> system-view
[Sysname] acl advanced 3004
[Sysname-acl-ipv4-adv-3004] rule permit ip user-group users
Related commands
acl
acl logging interval
display acl
step
time-range
rule (IPv4 basic ACL view)
Use rule to create or edit an IPv4 basic ACL rule.
Use undo rule to delete an entire IPv4 basic ACL rule or some attributes in the rule.
Syntax
rule [ rule-id ] { deny | permit } [ counting | fragment | logging | source { object-group address-group-name | source-address source-wildcard | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *
undo rule rule-id [ counting | fragment | logging | source | time-range | vpn-instance ] *
undo rule { deny | permit } [ counting | fragment | logging | source { object-group address-group-name | source-address source-wildcard | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *
Default
No IPv4 basic ACL rules exist.
Views
IPv4 basic ACL view
Predefined user roles
network-admin
Parameters
rule-id: Specifies a rule ID in the range of 0 to 65534. If you do not specify a rule ID when creating an ACL rule, the system automatically assigns it a rule ID. This rule ID is the nearest higher multiple of the numbering step to the current highest rule ID, starting from 5. For example, if the rule numbering step is 5 and the current highest rule ID is 28, the rule is numbered 30.
deny: Denies matching packets to pass.
permit: Allows matching packets to pass.
counting: Counts the times that the rule is matched. If you do not specify this keyword, matches for the rule are not counted.
fragment: Applies the rule only to fragments. If you do not specify this keyword, the rule applies to both fragments and non-fragments. CSPC cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, and CSPC-GP24GE8XP2L-E) and CMPE-1104 cards do not support this keyword.
logging: Logs matching packets. This feature is available only when the application module (for example, packet filtering) that uses the ACL supports the logging feature.
source { object-group address-group-name | source-address source-wildcard | any }: Matches source IPv4 addresses. The object-group address-group-name option specifies an object group of source IPv4 addresses. The source-address and source-wildcard arguments specify a source IPv4 address and a wildcard mask in dotted decimal notation. A wildcard mask of all zeros represents a host address. The any keyword represents any source IPv4 addresses.
time-range time-range-name: Specifies a time range for the rule. The time-range-name argument is a case-insensitive string of 1 to 32 characters. It must start with an English letter. If the time range is not configured, the system creates the rule. However, the rule using the time range can take effect only after you configure the time range. For more information about time range, see ACL and QoS Configuration Guide.
vpn-instance vpn-instance-name: Applies the rule to an MPLS L3VPN instance. The vpn-instance-name argument is a case-sensitive string of 1 to 31 characters. If you do not specify a VPN instance, the rule applies to both non-VPN packets and VPN packets. CSPC cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, CSPC-GP24GE8XP2L-E) and CMPE-1104 cards do not support the vpn-instance keyword in the outbound direction.
Usage guidelines
Within an ACL, the permit or deny statement of each rule must be unique. If the rule you are creating or editing has the same deny or permit statement as another rule in the ACL, the rule will not be created or changed.
The object group you specify when creating or editing a rule must already exist. Otherwise, the rule will not be created or changed.
You can edit ACL rules only when the match order is config.
An object group in a rule does not take effect if the object group does not contain objects.
The counting keyword in this command enables match counting specific to rules, and the hardware-count keyword in the packet-filter command enables match counting for all rules in an ACL.
To view the existing IPv4 basic and advanced ACL rules, use the display acl all command.
The undo rule rule-id command without any optional parameters deletes an entire rule. If you specify optional parameters, the undo rule rule-id command deletes the specified attributes for a rule.
The undo rule { deny | permit } command can only be used to delete an entire rule. You must specify all the attributes of the rule for the command.
Examples
# Create a rule in IPv4 basic ACL 2000 to deny the packets from any source IP subnet but 10.0.0.0/8, 172.17.0.0/16, or 192.168.1.0/24.
<Sysname> system-view
[Sysname] acl basic 2000
[Sysname-acl-ipv4-basic-2000] rule permit source 10.0.0.0 0.255.255.255
[Sysname-acl-ipv4-basic-2000] rule permit source 172.17.0.0 0.0.255.255
[Sysname-acl-ipv4-basic-2000] rule permit source 192.168.1.0 0.0.0.255
[Sysname-acl-ipv4-basic-2000] rule deny source any
Related commands
acl
acl logging interval
display acl
step
time-range
rule (IPv6 advanced ACL view)
Use rule to create or edit an IPv6 advanced ACL rule.
Use undo rule to delete an entire IPv6 advanced ACL rule or some attributes in the rule.
Syntax
rule [ rule-id ] { deny | permit } protocol [ { { ack ack-value | fin fin-value | psh psh-value | rst rst-value | syn syn-value | urg urg-value } * | established } | counting | destination { object-group address-group-name | dest-address dest-prefix | dest-address/dest-prefix | any } | destination-port { object-group port-group-name | operator port1 [ port2 ] } | dscp dscp | flow-label flow-label-value | fragment | icmp6-type { icmp6-type icmp6-code | icmp6-message } | logging | routing [ type routing-type ] | hop-by-hop [ type hop-type ] | source { object-group address-group-name | source-address source-prefix | source-address/source-prefix | any } | source-port { object-group port-group-name | operator port1 [ port2 ] } | time-range time-range-name | [ user-group group-name | user-group-any ] | vpn-instance vpn-instance-name ] *
undo rule rule-id [ { { ack | fin | psh | rst | syn | urg } * | established } | counting | destination | destination-port | dscp | flow-label | fragment | icmp6-type | logging | routing | hop-by-hop | source | source-port | time-range | [ user-group | user-group-any ] | vpn-instance ] *
undo rule { deny | permit } protocol [ { { ack ack-value | fin fin-value | psh psh-value | rst rst-value | syn syn-value | urg urg-value } * | established } | counting | destination { object-group address-group-name | dest-address dest-prefix | dest-address/dest-prefix | any } | destination-port { object-group port-group-name | operator port1 [ port2 ] } | dscp dscp | flow-label flow-label-value | fragment | icmp6-type { icmp6-type icmp6-code | icmp6-message } | logging | routing [ type routing-type ] | hop-by-hop [ type hop-type ] | source { object-group address-group-name | source-address source-prefix | source-address/source-prefix | any } | source-port { object-group port-group-name | operator port1 [ port2 ] } | time-range time-range-name | [ user-group group-name | user-group-any ] | vpn-instance vpn-instance-name ] *
Default
No IPv6 advanced ACL rules exist.
Views
IPv6 advanced ACL view
Predefined user roles
network-admin
Parameters
rule-id: Specifies a rule ID in the range of 0 to 65534. If you do not specify a rule ID when creating an ACL rule, the system automatically assigns it a rule ID. This rule ID is the nearest higher multiple of the numbering step to the current highest rule ID, starting from 5. For example, if the rule numbering step is 5 and the current highest rule ID is 28, the rule is numbered 30.
deny: Denies matching packets to pass.
permit: Allows matching packets to pass.
protocol: Specifies one of the following values:
· A protocol number in the range of 0 to 255.
· A protocol name: gre (47), icmpv6 (58), ipv6, ipv6-ah (51), ipv6-esp (50), ospf (89), tcp (6), or udp (17). The ipv6 keyword specifies all protocols.
Table 12 describes the parameters that you can specify regardless of the value for the protocol argument.
Table 12 Match criteria and other rule information for IPv6 advanced ACL rules
|
Parameters |
Function |
Description |
|
source { object-group address-group-name | source-address source-prefix | source-address/source-prefix | any } |
Specifies source IPv6 addresses. |
The address-group-name argument specifies an object group of source IPv6 addresses. The source-address argument specifies an IPv6 source address. The source-prefix argument specifies a prefix length in the range of 1 to 128. The any keyword represents any IPv6 source addresses. |
|
destination { object-group address-group-name | dest-address dest-prefix | dest-address/dest-prefix | any } |
Specifies destination IPv6 addresses. |
The address-group-name argument specifies an object group of destination IPv6 addresses. The dest-address argument specifies a destination IPv6 address. The dest-prefix argument specifies a prefix length in the range of 1 to 128. The any keyword represents any IPv6 destination addresses. |
|
counting |
Counts the times that the rule is matched. |
The counting keyword enables match counting specific to rules, and the hardware-count keyword in the packet-filter ipv6 command enables match counting in hardware for all rules in an ACL. If the counting keyword is not specified, matches for the rule are not counted. |
|
dscp dscp |
Specifies a DSCP preference. |
The dscp argument can be a number in the range of 0 to 63, or in words, af11 (10), af12 (12), af13 (14), af21 (18), af22 (20), af23 (22), af31 (26), af32 (28), af33 (30), af41 (34), af42 (36), af43 (38), cs1 (8), cs2 (16), cs3 (24), cs4 (32), cs5 (40), cs6 (48), cs7 (56), default (0), or ef (46). |
|
flow-label flow-label-value |
Specifies a flow label value in an IPv6 packet header. |
The flow-label-value argument is in the range of 0 to 1048575. |
|
fragment |
Applies the rule only to fragments. |
If you do not specify this keyword, the rule applies to all fragments and non-fragments. |
|
logging |
Logs matching packets. |
This feature requires that the module (for example, packet filtering) that uses the ACL supports logging. |
|
routing [ type routing-type ] |
Specifies an IPv6 routing header type. |
routing-type: Value of the IPv6 routing header type, in the range of 0 to 255. If you specify the type routing-type option, the rule applies to the specified type of IPv6 routing header. If you do not specify the type routing-type option, the rule applies to all types of IPv6 routing headers. |
|
hop-by-hop [ type hop-type ] |
Specifies an IPv6 Hop-by-Hop Options header type. |
hop-type: Value of the IPv6 Hop-by-Hop Options header type, in the range of 0 to 255. If you specify the type hop-type option, the rule applies to the specified type of IPv6 Hop-by-Hop Options header. If you do not specify the type hop-type option, the rule applies to all types of IPv6 Hop-by-Hop Options header. |
|
time-range time-range-name |
Specifies a time range for the rule. |
The time-range-name argument is a case-insensitive string of 1 to 32 characters. It must start with an English letter. If the time range is not configured, the system creates the rule. However, the rule using the time range can take effect only after you configure the time range. For more information about time range, see ACL and QoS Configuration Guide. |
|
user-group group-name |
Matches packets from users in a user group. |
The group-name argument represents the user group name, a case-insensitive string of 1 to 32 characters. For more information about user groups, see AAA in BRAS Services Configuration Guide. This option takes effect in ACLs used by QoS policy, packet filtering, and policy-based routing. This option takes effect on PPPoE, IPoE, and portal online users. |
|
user-group-any |
Matches packets from users in any user group. |
This option takes effect in ACLs used by QoS policy, packet filtering, and policy-based routing. This option takes effect on PPPoE, IPoE, and portal online users. |
|
qos-local-id local-id-value |
Specifies a local QoS ID. |
The value range for the local-id-value argument is 1 to 4095. |
|
vpn-instance vpn-instance-name |
Applies the rule to an MPLS L3VPN instance. |
The vpn-instance-name argument is a case-sensitive string of 1 to 31 characters. If you do not specify a VPN instance, the rule applies to both non-VPN packets and VPN packets. CSPC cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, and CSPC-GP24GE8XP2L-E) and CMPE-1104 cards do not support the vpn-instance keyword in the outbound direction. |
If the protocol argument is tcp (6) or udp (17), set the parameters shown in Table 13.
Table 13 TCP/UDP-specific parameters for IPv6 advanced ACL rules
|
Parameters |
Function |
Description |
|
source-port { object-group port-group-name | operator port1 [ port2 ] } |
Specifies UDP or TCP source ports. |
The port-group-name argument specifies an object group of ports. The operator argument can be lt (lower than), gt (greater than), eq (equal to), neq (not equal to), or range (inclusive range). The port1 and port2 arguments are TCP or UDP port numbers in the range of 0 to 65535. The port2 argument is needed only when the operator argument is range. TCP port numbers can be represented as: chargen (19), bgp (179), cmd (514), daytime (13), discard (9), dns (53), domain (53), echo (7), exec (512), finger (79), ftp (21), ftp-data (20), gopher (70), hostname (101), irc (194), klogin (543), kshell (544), login (513), lpd (515), nntp (119), pop2 (109), pop3 (110), smtp (25), sunrpc (111), tacacs (49), talk (517), telnet (23), time (37), uucp (540), whois (43), and www (80). UDP port numbers can be represented as: biff (512), bootpc (68), bootps (67), discard (9), dns (53), dnsix (90), echo (7), mobilip-ag (434), mobilip-mn (435), nameserver (42), netbios-dgm (138), netbios-ns (137), netbios-ssn (139), ntp (123), rip (520), snmp (161), snmptrap (162), sunrpc (111), syslog (514), tacacs-ds (65), talk (517), tftp (69), time (37), who (513), and xdmcp (177). |
|
destination-port { object-group port-group-name | operator port1 [ port2 ] } |
Specifies UDP or TCP destination ports. |
|
|
{ ack ack-value | fin fin-value | psh psh-value | rst rst-value | syn syn-value | urg urg-value } * |
Specifies TCP flags, including ACK, FIN, PSH, RST, SYN, and URG. |
Parameters specific to TCP. The value for each argument can be 0 (flag bit not set) or 1 (flag bit set). The TCP flags in a rule are ANDed or ORed. For example, a rule configured with ack 0 psh 1 matches packets that have the ACK flag bit not set and the PSH flag bit set. |
|
established |
Specifies the flags for indicating the established status of a TCP connection. |
Parameter specific to TCP. The rule matches TCP connection packets with the ACK or RST flag bit set. |
If the protocol argument is icmpv6 (58), set the parameters shown in Table 14.
Table 14 ICMPv6-specific parameters for IPv6 advanced ACL rules
|
Parameters |
Function |
Description |
|
icmp6-type { icmp6-type icmp6-code | icmp6-message } |
Specifies the ICMPv6 message type and code. |
The icmp6-type argument is in the range of 0 to 255. The icmp6-code argument is in the range of 0 to 255. The icmp6-message argument specifies a message name. Supported ICMP message names and their corresponding type and code values are listed in Table 15. |
Table 15 ICMPv6 message names supported in IPv6 advanced ACL rules
|
ICMPv6 message name |
ICMPv6 message type |
ICMPv6 message code |
|
echo-reply |
129 |
0 |
|
echo-request |
128 |
0 |
|
err-Header-field |
4 |
0 |
|
frag-time-exceeded |
3 |
1 |
|
hop-limit-exceeded |
3 |
0 |
|
host-admin-prohib |
1 |
1 |
|
host-unreachable |
1 |
3 |
|
neighbor-advertisement |
136 |
0 |
|
neighbor-solicitation |
135 |
0 |
|
network-unreachable |
1 |
0 |
|
packet-too-big |
2 |
0 |
|
port-unreachable |
1 |
4 |
|
redirect |
137 |
0 |
|
router-advertisement |
134 |
0 |
|
router-solicitation |
133 |
0 |
|
unknown-ipv6-opt |
4 |
2 |
|
unknown-next-hdr |
4 |
1 |
Usage guidelines
Within an ACL, the permit or deny statement of each rule must be unique. If the rule you are creating or editing has the same deny or permit statement as another rule in the ACL, the rule will not be created or changed.
The object group you specify when creating or editing a rule must already exist. Otherwise, the rule will not be created or changed.
You can edit ACL rules only when the match order is config.
An IPv6 advanced ACL used to match the extension headers of IPv6 packets cannot match the IPv6 packets that have more than two extension headers or have the Encapsulating Security Payload Header.
CSPC cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, CSPC-GP24GE8XP2L-E) and CMPE-1104 cards do not support the neq operator.
An object group in a rule does not take effect if the object group does not contain objects.
If an IPv6 advanced ACL is for outbound QoS traffic classification or outbound packet filtering, do not specify the routing or flow-label keyword.
The counting keyword in this command enables match counting specific to rules, and the hardware-count keyword in the packet-filter command enables match counting for all rules in an ACL.
To view the existing IPv6 basic and advanced ACL rules, use the display acl ipv6 all command.
The undo rule rule-id command without any optional parameters deletes an entire rule. If you specify optional parameters, the undo rule rule-id command deletes the specified attributes for a rule.
The undo rule { deny | permit } command can only be used to delete an entire rule. You must specify all the attributes of the rule for the command.
Examples
<Sysname> system-view
[Sysname] acl ipv6 advanced 3000
[Sysname-acl-ipv6-adv-3000] rule permit tcp source 2030:5060::/64 destination fe80:5060::/96 destination-port eq 80
# Create IPv6 advanced ACL rules to permit all IPv6 packets but the ICMPv6 packets destined for FE80:5060:1001::/48.
<Sysname> system-view
[Sysname] acl ipv6 advanced 3001
[Sysname-acl-ipv6-adv-3001] rule deny icmpv6 destination fe80:5060:1001:: 48
[Sysname-acl-ipv6-adv-3001] rule permit ipv6
# Create IPv6 advanced ACL rules to permit inbound and outbound FTP packets.
<Sysname> system-view
[Sysname] acl ipv6 advanced 3002
[Sysname-acl-ipv6-adv-3002] rule permit tcp source-port eq ftp
[Sysname-acl-ipv6-adv-3002] rule permit tcp source-port eq ftp-data
[Sysname-acl-ipv6-adv-3002] rule permit tcp destination-port eq ftp
[Sysname-acl-ipv6-adv-3002] rule permit tcp destination-port eq ftp-data
# Create IPv6 advanced ACL rules to permit inbound and outbound SNMP and SNMP trap packets.
<Sysname> system-view
[Sysname] acl ipv6 advanced 3003
[Sysname-acl-ipv6-adv-3003] rule permit udp source-port eq snmp
[Sysname-acl-ipv6-adv-3003] rule permit udp source-port eq snmptrap
[Sysname-acl-ipv6-adv-3003] rule permit udp destination-port eq snmp
[Sysname-acl-ipv6-adv-3003] rule permit udp destination-port eq snmptrap
# Create IPv6 advanced ACL 3004, and configure two rules: one permits packets with the Hop-by-Hop Options header type as 5, and the other one denies packets with other Hop-by-Hop Options header types.
<Sysname> system-view
[Sysname] acl ipv6 advanced 3004
[Sysname-acl-ipv6-adv-3004] rule permit ipv6 hop-by-hop type 5
[Sysname-acl-ipv6-adv-3004] rule deny ipv6 hop-by-hop
# Create an IPv6 advanced ACL rule to permit IPv6 packets from users in the user group users.
<Sysname> system-view
[Sysname] acl ipv6 advanced 3005
[Sysname-acl-ipv6-adv-3005] rule permit ipv6 user-group users
# Create an IPv6 advanced ACL rule to permit IPv6 packets from any user group.
<Sysname> system-view
[Sysname] acl ipv6 advanced 3005
[Sysname-acl-ipv6-adv-3005] rule permit ipv6 user-group-any
Related commands
acl
acl logging interval
display acl
step
time-range
rule (IPv6 basic ACL view)
Use rule to create or edit an IPv6 basic ACL rule.
Use undo rule to delete an entire IPv6 basic ACL rule or some attributes in the rule.
Syntax
rule [ rule-id ] { deny | permit } [ counting | fragment | logging | routing [ type routing-type ] | source { object-group address-group-name | source-address source-prefix | source-address/source-prefix | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *
undo rule rule-id [ counting | fragment | logging | routing | source | time-range | vpn-instance ] *
undo rule { deny | permit } [ counting | fragment | logging | routing [ type routing-type ] | source { object-group address-group-name | source-address source-prefix | source-address/source-prefix | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *
Default
No IPv6 basic ACL rules exist.
Views
IPv6 basic ACL view
Predefined user roles
network-admin
Parameters
rule-id: Specifies a rule ID in the range of 0 to 65534. If you do not specify a rule ID when creating an ACL rule, the system automatically assigns it a rule ID. This rule ID is the nearest higher multiple of the numbering step to the current highest rule ID, starting from 5. For example, if the rule numbering step is 5 and the current highest rule ID is 28, the rule is numbered 30.
deny: Denies matching packets to pass.
permit: Allows matching packets to pass.
counting: Counts the times that the rule is matched. If you do not specify this keyword, matches for the rule are not counted.
fragment: Applies the rule only to fragments. If you do not specify this keyword, the rule applies to both fragments and non-fragments. CSPC cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, and CSPC-GP24GE8XP2L-E) and CMPE-1104 cards do not support this keyword.
logging: Logs matching packets. This feature is available only when the application module (for example, packet filtering) that uses the ACL supports the logging feature.
routing [ type routing-type ]: Applies the rule to the specified type of IPv6 routing header or all types of IPv6 routing headers. The routing-type argument specifies the value of the IPv6 routing header type, in the range of 0 to 255. If you do not specify the type routing-type option, the rule applies to all types of IPv6 routing headers.
source { object-group address-group-name | source-address source-prefix | source-address/source-prefix | any }: Matches source IPv6 addresses. The object-group address-group-name option specifies an object group of source IPv6 addresses. The source-address argument specifies a source IPv6 address. The source-prefix argument specifies an address prefix length in the range of 1 to 128. The any keyword represents any IPv6 source addresses.
time-range time-range-name: Specifies a time range for the rule. The time-range-name argument is a case-insensitive string of 1 to 32 characters. It must start with an English letter. If the time range is not configured, the system creates the rule. However, the rule using the time range can take effect only after you configure the time range. For more information about time range, see ACL and QoS Configuration Guide.
vpn-instance vpn-instance-name: Applies the rule to an MPLS L3VPN instance. The vpn-instance-name argument is a case-sensitive string of 1 to 31 characters. If you do not specify a VPN instance, the rule applies to both non-VPN packets and VPN packets. CSPC cards (except CSPC-GE16XP4L-E, CSPC-GE24L-E, and CSPC-GP24GE8XP2L-E) and CMPE-1104 cards do not support the vpn-instance keyword in the outbound direction.
Usage guidelines
Within an ACL, the permit or deny statement of each rule must be unique. If the rule you are creating or editing has the same deny or permit statement as another rule in the ACL, the rule will not be created or changed.
The object group you specify when creating or editing a rule must already exist. Otherwise, the rule will not be created or changed.
You can edit ACL rules only when the match order is config.
An object group in a rule does not take effect if the object group does not contain objects.
The counting keyword in this command enables match counting specific to rules, and the hardware-count keyword in the packet-filter ipv6 command enables match counting for all rules in an ACL.
To view the existing IPv6 basic and advanced ACL rules, use the display acl ipv6 all command.
The undo rule rule-id command without any optional parameters deletes an entire rule. If you specify optional parameters, the undo rule rule-id command deletes the specified attributes for a rule.
The undo rule { deny | permit } command can only be used to delete an entire rule. You must specify all the attributes of the rule for the command.
Examples
# Create an IPv6 basic ACL rule to deny the packets from any source IP subnet but 1001::/16, 3124:1123::/32, or FE80:5060:1001::/48.
<Sysname> system-view
[Sysname] acl ipv6 basic 2000
[Sysname-acl-ipv6-basic-2000] rule permit source 1001:: 16
[Sysname-acl-ipv6-basic-2000] rule permit source 3124:1123:: 32
[Sysname-acl-ipv6-basic-2000] rule permit source fe80:5060:1001:: 48
[Sysname-acl-ipv6-basic-2000] rule deny source any
Related commands
acl
acl logging interval
display acl
step
time-range
rule (Layer 2 ACL view)
Use rule to create or edit a Layer 2 ACL rule.
Use undo rule to delete an entire Layer 2 ACL rule or some attributes in the rule.
Syntax
rule [ rule-id ] { deny | permit } [ cos dot1p | counting | dest-mac dest-address dest-mask | { lsap lsap-type lsap-type-mask | type protocol-type protocol-type-mask } | source-mac source-address source-mask | time-range time-range-name ] *
undo rule rule-id [ counting | time-range ] *
undo rule { deny | permit } [ cos dot1p | counting | dest-mac dest-address dest-mask | { lsap lsap-type lsap-type-mask | type protocol-type protocol-type-mask } | source-mac source-address source-mask | time-range time-range-name ] *
Default
No Layer 2 ACL rules exist.
Views
Predefined user roles
network-admin
Parameters
rule-id: Specifies a rule ID in the range of 0 to 65534. If you do not specify a rule ID when creating an ACL rule, the system automatically assigns it a rule ID. This rule ID is the nearest higher multiple of the numbering step to the current highest rule ID, starting from 5. For example, if the rule numbering step is 5 and the current highest rule ID is 28, the rule is numbered 30.
deny: Denies matching packets to pass.
permit: Allows matching packets to pass.
cos dot1p: Matches an 802.1p priority. The 802.1p priority can be specified by one of the following values:
· A priority number in the range of 0 to 7.
· A priority name: best-effort (0), background (1), spare (2), excellent-effort (3), controlled-load (4), video (5), voice (6), or network-management (7).
counting: Counts the times that the rule is matched. If you do not specify this keyword, matches for the rule are not counted.
dest-mac dest-address dest-mask: Matches a destination MAC address range. The dest-address and dest-mask arguments represent a destination MAC address and a mask in the H-H-H format.
lsap lsap-type lsap-type-mask: Matches the DSAP and SSAP fields in LLC encapsulation. The lsap-type argument is a hexadecimal number that represents the encapsulation format. The value range for the lsap-type argument is 0 to ffff. The lsap-type-mask argument is a hexadecimal number that represents the LSAP mask. The value range for the lsap-type-mask argument is 0 to ffff.
type protocol-type protocol-type-mask: Matches link layer protocols. The protocol-type argument is a hexadecimal number that represents a protocol type in Ethernet_II and Ethernet_SNAP frames. The value range for the protocol-type argument is 0 to ffff. The protocol-type-mask argument is a hexadecimal number that represents a protocol type mask. The value range for the protocol-type-mask argument is 0 to ffff.
source-mac source-address source-mask: Matches a source MAC address range. The source-address argument represents a source MAC address, and the source-mask argument represents a mask in the H-H-H format.
time-range time-range-name: Specifies a time range for the rule. The time-range-name argument is a case-insensitive string of 1 to 32 characters. It must start with an English letter. If the time range is not configured, the system creates the rule. However, the rule using the time range can take effect only after you configure the time range. For more information about time range, see ACL and QoS Configuration Guide.
Usage guidelines
Within an ACL, the permit or deny statement of each rule must be unique. If the rule you are creating or editing has the same deny or permit statement as another rule in the ACL, the rule will not be created or changed.
You can edit ACL rules only when the match order is config.
The counting keyword in this command enables match counting specific to rules, and the hardware-count keyword in the packet-filter command enables match counting for all rules in an ACL.
To view the existing Layer 2 ACL rules, use the display acl mac all command.
The undo rule rule-id command without any optional parameters deletes an entire rule. If you specify optional parameters, the undo rule rule-id command deletes the specified attributes for the rule.
The undo rule { deny | permit } command can only be used to delete an entire rule. You must specify all the attributes of the rule for the command.
Examples
# Create a rule in Layer 2 ACL 4000 to permit ARP packets and deny RARP packets.
<Sysname> system-view
[Sysname] acl mac 4000
[Sysname-acl-mac-4000] rule permit type 0806 ffff
[Sysname-acl-mac-4000] rule deny type 8035 ffff
Related commands
acl
display acl
step
time-range
rule comment
Use rule comment to configure a comment for an ACL rule.
Use undo rule comment to delete an ACL rule comment.
Syntax
rule rule-id comment text
undo rule rule-id comment
Default
An ACL rule does not have a comment.
Views
IPv4 basic/advanced ACL view
IPv6 basic/advanced ACL view
Layer 2 ACL view
Predefined user roles
network-admin
Parameters
rule-id: Specifies an ACL rule ID in the range of 0 to 65534. The ACL rule must already exist.
text: Specifies a comment about the ACL rule, a case-sensitive string of 1 to 127 characters.
Usage guidelines
This command adds a comment to a rule if the rule does not have a comment. It modifies the comment for a rule if the rule already has a comment.
Examples
# Create a rule for IPv4 basic ACL 2000, and add a comment about the rule.
<Sysname> system-view
[Sysname] acl basic 2000
[Sysname-acl-ipv4-basic-2000] rule 0 deny source 1.1.1.1 0
[Sysname-acl-ipv4-basic-2000] rule 0 comment This rule is used on gigabitethernet 3/1/1.
Related commands
display acl
step
Use step to set a rule numbering step for an ACL.
Use undo step to restore the default.
Syntax
step step-value
undo step
Default
The rule numbering step for an ACL is 5, and the start rule ID is 5.
Views
IPv4 basic/advanced ACL view
IPv6 basic/advanced ACL view
Layer 2 ACL view
Predefined user roles
network-admin
Parameters
step-value: Specifies the ACL rule numbering step in the range of 1 to 20.
Usage guidelines
The rule numbering step sets the increment by which the system numbers rules automatically. If you do not specify a rule ID when creating an ACL rule, the system automatically assigns it a rule ID. This rule ID is the nearest higher multiple of the numbering step to the current highest rule ID, starting from the start rule ID. For example, if the rule numbering step is 5 and the current highest rule ID is 12, the rule is numbered 15.
The wider the numbering step, the more rules you can insert between two rules. Whenever the step changes, the rules are renumbered, starting from the start rule ID. For example, if there are five rules numbered 0, 5, 9, 10, and 15, changing the step from 5 to 2 causes the rules to be renumbered 5, 7, 9, 11, and 13.
Examples
# Set the rule numbering step to 2 for IPv4 basic ACL 2000.
<Sysname> system-view
[Sysname] acl basic 2000
[Sysname-acl-ipv4-basic-2000] step 2
Related commands
display acl
