08-ACL and QoS Configuration Guide

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01-ACL configuration
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Configuring ACLs

About ACLs

An access control list (ACL) is a set of rules for identifying traffic based on criteria such as source IP address, destination IP address, and port number. The rules are also called permit or deny statements.

ACLs are primarily used for packet filtering. You can also use ACLs in QoS, security, routing, and other modules for identifying traffic. The packet drop or forwarding decisions depend on the modules that use ACLs.

Numbering and naming ACLs

When creating an ACL, you must assign it a number or name for identification. You can specify an existing ACL by its number or name. Each ACL type has a unique range of ACL numbers.

For basic or advanced ACLs with the same number, you must use the ipv6 keyword to distinguish them. For ACLs with the same name, you must use the ipv6, mac, and user-defined keywords to distinguish them.

ACL types

Type

ACL number

IP version

Match criteria

Basic ACLs

2000 to 2999

IPv4

Source IPv4 address.

IPv6

Source IPv6 address.

Advanced ACLs

3000 to 3999

IPv4

Source IPv4 address, destination IPv4 address, packet priority, protocol number, and other Layer 3 and Layer 4 header fields.

IPv6

Source IPv6 address, destination IPv6 address, packet priority, protocol number, and other Layer 3 and Layer 4 header fields.

Layer 2 ACLs

4000 to 4999

IPv4 and IPv6

Layer 2 header fields, such as source and destination MAC addresses, 802.1p priority, and link layer protocol type.

User-defined ACLs

5000 to 5999

IPv4 and IPv6

User specified matching patterns in protocol headers.

Match order

The rules in an ACL are sorted in a specific order. When a packet matches a rule, the device stops the match process and performs the action defined in the rule. If an ACL contains overlapping or conflicting rules, the matching result and action to take depend on the rule order.

The following ACL match orders are available:

·     config—Sorts ACL rules in ascending order of rule ID. A rule with a lower ID is matched before a rule with a higher ID. If you use this method, check the rules and their order carefully.

 

 

NOTE:

The match order of user-defined ACLs can only be config.

·     auto—Sorts ACL rules in depth-first order. Depth-first ordering makes sure any subset of a rule is always matched before the rule. Table 1 lists the sequence of tie breakers that depth-first ordering uses to sort rules for each type of ACL.

Table 1 Sort ACL rules in depth-first order

ACL type

Sequence of tie breakers

IPv4 basic ACL

1.     VPN instance.

2.     More 0s in the source IPv4 address wildcard (more 0s means a narrower IPv4 address range).

3.     Rule configured earlier.

IPv4 advanced ACL

4.     VPN instance.

5.     Specific protocol number.

6.     More 0s in the source IPv4 address wildcard mask.

7.     More 0s in the destination IPv4 address wildcard.

8.     Narrower TCP/UDP service port number range.

9.     Rule configured earlier.

IPv6 basic ACL

10.     VPN instance.

11.     Longer prefix for the source IPv6 address (a longer prefix means a narrower IPv6 address range).

12.     Rule configured earlier.

IPv6 advanced ACL

13.     VPN instance.

14.     Specific protocol number.

15.     Longer prefix for the source IPv6 address.

16.     Longer prefix for the destination IPv6 address.

17.     Narrower TCP/UDP service port number range.

18.     Rule configured earlier.

Layer 2 ACL

19.     More 1s in the source MAC address mask (more 1s means a smaller MAC address).

20.     More 1s in the destination MAC address mask.

21.     Rule configured earlier.

A wildcard mask, also called an inverse mask, is a 32-bit binary number represented in dotted decimal notation. In contrast to a network mask, the 0 bits in a wildcard mask represent "do care" bits, and the 1 bits represent "don't care" bits. If the "do care" bits in an IP address are identical to the "do care" bits in an IP address criterion, the IP address matches the criterion. All "don't care" bits are ignored. The 0s and 1s in a wildcard mask can be noncontiguous. For example, 0.255.0.255 is a valid wildcard mask.

Rule numbering

ACL rules can be manually numbered or automatically numbered. This section describes how automatic ACL rule numbering works.

Rule numbering step

If you do not assign an ID to the rule you are creating, the system automatically assigns it a rule ID. The rule numbering step sets the increment by which the system automatically numbers rules. For example, the default ACL rule numbering step is 5. If you do not assign IDs to rules you are creating, they are automatically numbered 0, 5, 10, 15, and so on. The wider the numbering step, the more rules you can insert between two rules.

By introducing a gap between rules rather than contiguously numbering rules, you have the flexibility of inserting rules in an ACL. This feature is important for a config-order ACL, where ACL rules are matched in ascending order of rule ID.

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 or start rule ID 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 0, 2, 4, 6, and 8.

Automatic rule numbering and renumbering

The ID automatically assigned to an ACL rule takes the nearest higher multiple of the numbering step to the current highest rule ID, starting with 0.

For example, if the step is 5, and there are five rules numbered 0, 5, 9, 10, and 12, the newly defined rule is numbered 15. If the ACL does not contain a rule, the first rule is numbered 0.

Whenever the step changes, the rules are renumbered, starting from 0. For example, changing the step from 5 to 2 renumbers rules 5, 10, 13, and 15 as rules 0, 2, 4, and 6.

For an ACL of the match order auto, rules are sorted in depth-first order, and are renumbered based on the match order. For example, rules are in the match order of 0, 10, and 5. Changing the numbering step to 2 renumbers rules 0, 10, and 5 (not 0, 5, and 10) as rules 0, 2, 4.

Fragment filtering with ACLs

Traditional packet filtering matches only first fragments of packets, and allows all subsequent non-first fragments to pass through. Attackers can fabricate non-first fragments to attack networks.

To avoid risks, the ACL feature is designed as follows:

·     Filters all fragments by default, including non-first fragments.

·     Allows for matching criteria modification for efficiency. For example, you can configure the ACL to filter only non-first fragments.

Restrictions and guidelines: ACL configuration

·     If you create a numbered ACL, you can enter the view of the ACL by using either of the following commands:

¡     acl [ ipv6 ] number acl-number.

¡     acl { [ ipv6 ] { advanced | basic } | mac | user-defined } acl-number.

·     If you create a ACL by using the acl [ ipv6 ] number acl-number name acl-name command, you can enter the view of the ACL by using either of the following commands:

¡     acl [ ipv6 ] name acl-name (for only basic ACLs and advanced ACLs).

¡     acl [ ipv6 ] number acl-number [ name acl-name ].

¡     acl { [ ipv6 ] { advanced | basic } | mac | user-defined } name acl-name.

·     If you create a named ACL by using the acl { [ ipv6 ] { advanced | basic } | mac | user-defined } name acl-name command, you can enter the view of the ACL by using either of the following commands:

¡     acl [ ipv6 ] name acl-name (for only basic ACLs and advanced ACLs).

¡     acl { [ ipv6 ] { advanced | basic } | mac | user-defined } name acl-name.

·     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.

ACL tasks at a glance

To configure an ACL, perform the following tasks:

·     Configure ACLs according to the characteristics of the packets to be matched

¡     Configuring a basic ACL

¡     Configuring an advanced ACL

¡     Configuring a Layer 2 ACL

¡     Configuring a user-defined ACL

·     (Optional.) Copying an ACL

·     (Optional.) Configuring the QoS and ACL resource hardware mode

·     (Optional.) Configuring packet filtering with ACLs

Configuring a basic ACL

About basic ACLs

Basic ACLs match packets based only on source IP addresses.

Configuring an IPv4 basic ACL

1.     Enter system view.

system-view

2.     Create an IPv4 basic ACL and enter its view. Choose one option as needed:

¡     Create an IPv4 basic ACL by specifying an ACL number.

acl number acl-number [ name acl-name ] [ match-order { auto | config } ]

¡     Create an IPv4 basic ACL by specifying the basic keyword.

acl basic { acl-number | name acl-name } [ match-order { auto | config } ]

3.     (Optional.) Configure a description for the IPv4 basic ACL.

description text

By default, an IPv4 basic ACL does not have a description.

4.     (Optional.) Set the rule numbering step.

step step-value [ start start-value ]

By default, the rule numbering step is 5 and the start rule ID is 0.

5.     Create or edit a rule.

rule [ rule-id ] { deny | permit } [ counting | fragment | logging| source { source-address source-wildcard | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *

The logging keyword takes effect only when the module (for example, packet filtering) that uses the ACL supports logging.

6.     (Optional.) Add or edit a rule comment.

rule rule-id comment text

By default, no rule comment is configured.

Configuring an IPv6 basic ACL

1.     Enter system view.

system-view

2.     Create an IPv6 basic ACL view and enter its view. Choose one option as needed:

¡     Create an IPv6 basic ACL by specifying an ACL number.

acl ipv6 number acl-number [ name acl-name ] [ match-order { auto | config } ]

¡     Create an IPv6 basic ACL by specifying the basic keyword.

acl ipv6 basic { acl-number | name acl-name } [ match-order { auto | config } ]

3.     (Optional.) Configure a description for the IPv6 basic ACL.

description text

By default, an IPv6 basic ACL does not have a description.

4.     (Optional.) Set the rule numbering step.

step step-value [ start start-value ]

By default, the rule numbering step is 5 and the start rule ID is 0.

5.     Create or edit a rule.

rule [ rule-id ] { deny | permit } [ counting | fragment | logging| routing [ type routing-type ] | source { source-address source-prefix | source-address/source-prefix | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *

The logging keyword takes effect only when the module (for example, packet filtering) that uses the ACL supports logging.

6.     (Optional.) Add or edit a rule comment.

rule rule-id comment text

By default, no rule comment is configured.

Configuring an advanced ACL

About advanced ACLs

Advanced ACLs match packets based on the following criteria:

·     Source IP addresses.

·     Destination IP addresses.

·     Packet priorities.

·     Local QoS IDs.

·     Protocol types.

·     Other protocol header information, such as TCP/UDP source and destination port numbers, TCP flags, ICMP message types, and ICMP message codes.

·     Encapsulation types.

·     Inner source IPv4 addresses.

·     Inner destination IPv4 addresses.

·     Inner protocol types.

·     Other inner protocol header information, such as inner TCP/UDP source and destination port numbers.

Compared to basic ACLs, advanced ACLs allow more flexible and accurate filtering.

Configuring an IPv4 advanced ACL

1.     Enter system view.

system-view

2.     Create an IPv4 advanced ACL and enter its view. Choose one option as needed:

¡     Create a numbered IPv4 advanced ACL by specifying an ACL number.

acl number acl-number [ name acl-name ] [ match-order { auto | config } ]

¡     Create an IPv4 advanced ACL by specifying the advanced keyword.

acl advanced { acl-number | name acl-name } [ match-order { auto | config } ]

3.     (Optional.) Configure a description for the IPv4 advanced ACL.

description text

By default, an IPv4 advanced ACL does not have a description.

4.     (Optional.) Set the rule numbering step.

step step-value [ start start-value ]

By default, the rule numbering step is 5 and the start rule ID is 0.

5.     Create or edit a rule.

¡     Create or edit a rule for matching non-encapsulated packets.

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 { dest-address dest-wildcard | any } | { { precedence precedence | tos tos } * | { precedence precedence | ecn ecn } * | { dscp dscp | ecn ecn } * } | fragment | icmp-type { icmp-type [ icmp-code ] | icmp-message } | logging | qos-local-id local-id-value | source { source-address source-wildcard | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *

¡     Create or edit a rule for matching encapsulated packets.

rule [ rule-id ] { deny | permit } vxlan [ destination { dest-address dest-wildcard | any } | source { source-address source-wildcard | any } | source-port operator port1 [ port2 ] | vxlan-id vxlan-id ] * inner-protocol inner-protocol [ counting | inner-destination { dest-address dest-wildcard | any } | inner-established | inner-source { source-address source-wildcard | any } | logging | time-range time-range-name ] *

 

Parameter

Description

vxlan

Matches VXLAN packets by both outer and inner packet information.

The logging keyword takes effect only when the module (for example, packet filtering) that uses the ACL supports logging.

6.     (Optional.) Add or edit a rule comment.

rule rule-id comment text

By default, no rule comment is configured.

Configuring an IPv6 advanced ACL

1.     Enter system view.

system-view

2.     Create an IPv6 advanced ACL and enter its view. Choose one option as needed:

¡     Create a numbered IPv6 advanced ACL by specifying an ACL number.

acl ipv6 number acl-number [ name acl-name ] [ match-order { auto | config } ]

¡     Create an IPv6 advanced ACL by specifying the advanced keyword.

acl ipv6 advanced { acl-number | name acl-name } [ match-order { auto | config } ]

3.     (Optional.) Configure a description for the IPv6 advanced ACL.

description text

By default, an IPv6 advanced ACL does not have a description.

4.     (Optional.) Set the rule numbering step.

step step-value [ start start-value ]

By default, the rule numbering step is 5 and the start rule ID is 0.

5.     Create or edit a rule.

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 { dest-address dest-prefix | dest-address/dest-prefix | any } | | { dscp dscp | ecn ecn-value } * | flow-label flow-label-value | fragment  | icmp6-type { icmp6-type icmp6-code | icmp6-message } | logging| qos-local-id local-id-value | routing [ type routing-type ] | hop-by-hop [ type hop-type ] | source { source-address source-prefix | source-address/source-prefix | any } | time-range time-range-name | vpn-instance vpn-instance-name ] *

The logging keyword takes effect only when the module (for example, packet filtering) that uses the ACL supports logging.

6.     (Optional.) Add or edit a rule comment.

rule rule-id comment text

By default, no rule comment is configured.

Configuring a Layer 2 ACL

About Layer 2 ACLs

Layer 2 ACLs, also called Ethernet frame header ACLs, match packets based on Layer 2 Ethernet header fields, such as:

·     Source MAC address.

·     Destination MAC address.

·     802.1p priority (VLAN priority).

·     Link layer protocol type.

·     Encapsulation type.

·     Inner source MAC address.

·     Inner destination MAC address.

·     Inner link layer protocol type.

Procedure

1.     Enter system view.

system-view

2.     Create a Layer 2 ACL and enter its view. Choose one option as needed:

¡     Create a Layer 2 ACL by specifying an ACL number.

acl number acl-number [ name acl-name ] [ match-order { auto | config } ]

¡     Create a Layer 2 ACL by specifying the mac keyword.

acl mac { acl-number | name acl-name } [ match-order { auto | config } ]

3.     (Optional.) Configure a description for the Layer 2 ACL.

description text

By default, a Layer 2 ACL does not have a description.

4.     (Optional.) Set the rule numbering step.

step step-value [ start start-value ]

By default, the rule numbering step is 5 and the start rule ID is 0.

5.     Create or edit a rule.

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 ] *

6.     (Optional.) Add or edit a rule comment.

rule rule-id comment text

By default, no rule comment is configured.

Configuring a user-defined ACL

About user-defined ACLs

User-defined ACLs allow you to customize rules based on information in protocol headers. You can define a user-defined ACL to match packets. A specific number of bytes after an offset (relative to the specified header) are compared against a match pattern after being ANDed with a match pattern mask.

Procedure

1.     Enter system view.

system-view

2.     Create a user-defined ACL and enter its view. Choose one option as needed:

¡     Create a user-defined ACL by specifying an ACL number.

acl number acl-number [ name acl-name ]

¡     Create a user-defined ACL by specifying the user-defined keyword.

acl user-defined { acl-number | name acl-name }

3.     (Optional.) Configure a description for the user-defined ACL.

description text

By default, a user-defined ACL does not have a description.

4.     Create or edit a rule.

Command set 1:

rule [ rule-id ] { deny | permit } [ { { ipv4 | l2 | l4 }rule-string rule-mask offset }&<1-8> ] [ counting | time-range time-range-name ] *

Command set 2:

rule [ rule-id ] { deny | permit } [ ipv6-protocol ] protocol [ destination { dest-address dest-wildcard | any } | destination-port { operator port1 [ port2 ] } | dscp dscp | source { source-address source-wildcard | any } | source-port { operator port1 [ port2 ] } | udf-format ] * [ { { ipv4 | l2 | l4 | l5 } rule-string rule-mask offset }&<1-8> ] [ counting | time-range time-range-name ] *

5.     (Optional.) Add or edit a rule comment.

rule rule-id comment text

By default, no rule comment is configured.

Copying an ACL

About copying an ACL

You can create an ACL by copying an existing ACL (source ACL). The new ACL (destination ACL) has the same properties and content as the source ACL, but uses a different number or name than the source ACL.

Restrictions and guidelines

To successfully copy an ACL, make sure:

·     The destination ACL is the same type as the source ACL.

·     The source ACL already exists, but the destination ACL does not.

Procedure

1.     Enter system view.

system-view

2.     Copy an existing ACL to create a new ACL.

acl [ ipv6 | mac | user-defined ] copy { source-acl-number | name source-acl-name } to { dest-acl-number | name dest-acl-name }

Configuring the QoS and ACL resource hardware mode

About this task

Different chips produce different packet matching results for QoS and ACL resources. Perform this task to enhance matching capabilities of QoS and ACL resources.

Restrictions and guidelines

This feature is supported only in Release 6555P02 and later.

This feature occupies more QoS and ACL resources when an ACL is applied.

Procedure

1.     Enter system view.

system-view

2.     Configure the QoS and ACL resource hardware mode.

qos-acl resource hardware-mode hardware-mode-value

By default, no QoS and ACL resource hardware mode is configured.

Configuring packet filtering with ACLs

About packet filtering with ACLs

This section describes procedures for using an ACL to filtering packets. For example, you can apply an ACL to an interface to filter incoming or outgoing packets.

Applying an ACL to an interface for packet filtering

Restrictions and guidelines

To the same direction of an interface, you can apply a maximum of four ACLs: one IPv4 ACL, one IPv6 ACL, one Layer 2 ACL, and one user-defined ACL.

You can use the packet-filter command in VLAN interface view or use the packet-filter vlan-interface command in system view to configure packet filtering in one direction of a VLAN interface. You cannot configure both of them in the same direction of a VLAN interface.

The term "interface" in this section collectively refers to Layer 2 Ethernet interfaces, Layer 2 aggregate interfaces, Layer 3 Ethernet interfaces, Layer 3 Ethernet subinterfaces, Layer 3 aggregate interfaces, VLAN interfaces, and VSI interfaces. You can use the port link-mode command to configure an Ethernet port as a Layer 2 or Layer 3 interface (see Layer 2LAN Switching Configuration Guide).

For information about VSI interfaces, see VXLAN Configuration Guide.

You cannot apply an ACL to the outbound direction of a Layer 2 aggregate interface, Layer 3 aggregate interface, or VSI interface.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Apply an ACL to the interface to filter packets.

packet-filter [ ipv6 | mac | user-defined ] { acl-number | name acl-name } { inbound | outbound } [ hardware-count ] [ share-mode ] [ vxlan-inner ]

By default, an interface does not filter packets.

Applying an ACL to a list of VLAN interfaces for packet filtering

Restrictions and guidelines

You can apply only one ACL to the same direction of VLAN interfaces.

Do not enable the packet filtering continuous mode after applying an ACL to a list of VLAN interfaces. If you enable the packet filtering continuous mode, packet filtering on the list of VLAN interfaces becomes invalid.

You can use the packet-filter command in VLAN interface view or use the packet-filter vlan-interface command in system view to configure packet filtering in one direction of a VLAN interface. You cannot configure both of them in the same direction of a VLAN interface.

Repeating this command with one ACL for the same direction adds new VLAN interfaces to the list of VLAN interfaces:

·     If you specify the hardware-count keyword the first time you configure this command, you must specify this keyword when repeating this command.

·     If you do not specify the hardware-count keyword the first time you configure this command, do not specify this keyword when repeating this command.

Procedure

1.     Enter system view.

system-view

2.     Apply an ACL to a list of VLAN interfaces to filter packets.

packet-filter [ ipv6 | mac | user-defined ] { acl-number | name acl-name } vlan-interface vlan-interface-list { inbound | outbound } [ hardware-count ]

By default, the system does not filter packets on a VLAN interface.

Applying an ACL to an Ethernet service instance for packet filtering

Restrictions and guidelines

For information about configuring Ethernet service instances, see VXLAN Configuration Guide.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Create an Ethernet service instance and enter Ethernet service instance view.

service-instance instance-id

4.     Apply an ACL to the Ethernet service instance.

packet-filter [ ipv6 | mac | user-defined ] { acl-number | name acl-name } { inbound | outbound } [ hardware-count ]

By default, the system does not filter packets on an Ethernet service instance.

Configuring the applicable scope of packet filtering on a VLAN interface

About applicable scope of packet filtering on a VLAN interface

You can configure the packet filtering on a VLAN interface to filter the following packets:

·     Packets forwarded at Layer 3 by the VLAN interface.

·     All packets, including packets forwarded at Layer 3 by the VLAN interface and packets forwarded at Layer 2 by the physical ports associated with the VLAN interface.

Procedure

1.     Enter system view.

system-view

2.     Create a VLAN interface and enter its view.

interface vlan-interface vlan-interface-id

If the VLAN interface already exists, you directly enter its view.

By default, no VLAN interface exists.

3.     Specify the applicable scope of packet filtering on the VLAN interface.

packet-filter filter  [ route | all ]

By default, the packet filtering filters packets forwarded at Layer 3.

Configuring logging and SNMP notifications for packet filtering

About configuring logging and SNMP notifications for packet filtering

You can configure the ACL module to generate log entries or SNMP notifications for packet filtering and output them to the information center or SNMP module at the output interval. The log entry or 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 log entry or notification for this packet. When the output interval ends, the device outputs a log entry or notification for subsequent matching packets of the flow.

For more information about the information center and SNMP, see Network Management and Monitoring Configuration Guide.

Procedure

1.     Enter system view.

system-view

2.     Set the interval for outputting packet filtering logs or notifications.

acl { logging | trap } interval interval

The default setting is 0 minutes. By default, the device does not generate log entries or SNMP notifications for packet filtering.

Setting the packet filtering default action

1.     Enter system view.

system-view

2.     Set the packet filtering default action to deny.

packet-filter default deny

By default, the packet filter permits packets that do not match any ACL rule to pass.

Enabling hardware-count for the packet filtering default action on an interface

About hardware-count for the packet filtering default action

When you enable hardware-count for the packet filtering default action on an interface, the interface counts how many times the packet filtering default action is performed.

To enable the hardware-count feature for the packet filtering default action on an interface, make sure you have applied ACLs to the interface for packet filtering.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Enable hardware-count for the packet filtering default action on the interface.

packet-filter default { inbound | outbound } hardware-count

By default, hardware-count is disabled for the packet filtering default action.

Enabling hardware-count for the packet filtering default action for an Ethernet service instance

About hardware-count for the packet filtering default action

When you enable hardware-count for the packet filtering default action on an Ethernet service instance, the Ethernet service instance counts how many times the packet filtering default action is performed.

To enable the hardware-count feature for the packet filtering default action on an Ethernet service instance, make sure you have applied ACLs to the Ethernet service instance for packet filtering.

Restrictions and guidelines

For information about configuring Ethernet service instances, see VXLAN Configuration Guide or EVPN Configuration Guide.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

¡     Enter Layer 2 Ethernet interface view.

interface interface-type interface-number

¡     Enter Layer 2 aggregate interface view.

interface bridge-aggregation interface-number

3.     Create an Ethernet service instance and enter Ethernet service instance view.

service-instance instance-id

4.     Enable hardware-count for the packet filtering default action for the Ethernet service instance.

packet-filter default { inbound | outbound } hardware-count

By default, hardware-count is disabled for the packet filtering default action.

Ignoring the permit flag added by packet filtering

About ignoring the permit flag added by packet filtering

Packets matching an ACL permit statement in a packet filter are permitted to pass through and marked with a permit flag. Packets with a permit flag are not dropped by a discard action in a QoS policy (for example, a CAR discard action).

This feature allows the device to drop packets with a permit flag by using a discard action in a QoS policy.

Restrictions and guidelines

The permit flag is effective only on the local device.

Procedure

1.     Enter system view.

system-view

2.     Ignore the permit flag added by packet filtering.

packet-filter permit-flag ignore

By default, the permit flag added by packet filtering is not ignored.

Display and maintenance commands for ACL

Execute display commands in any view and reset commands in user view.

 

Task

Command

Display ACL configuration and match statistics.

display acl [ ipv6 | mac | user-defined ] { acl-number | all | name acl-name }

Display ACL application information for packet filtering.

display packet-filter { interface [ interface-type interface-number ] | l2vpn-ac [ interface interface-type interface-number [ service-instance instance-id ] ] | vlan-interface } [ inbound | outbound ] [ slot slot-number  ]

Display match statistics for packet filtering ACLs.

display packet-filter statistics { interface interface-type interface-number | l2vpn-ac interface interface-type interface-number service-instance instance-id | vlan-interface } { inbound | outbound } [ default | [ ipv6 | mac | user-defined ] { acl-number | name acl-name } ] [ brief ]

Display the accumulated statistics for packet filtering ACLs.

display packet-filter statistics sum { inbound | outbound } [ ipv6 | mac | user-defined ] { acl-number | name acl-name } [ brief ]

Display detailed ACL packet filtering information.

display packet-filter verbose { interface interface-type interface-number | l2vpn-ac interface interface-type interface-number service-instance instance-id | vlan-interface } { inbound | outbound } [ [ ipv6 | mac | user-defined ] { acl-number | name acl-name } ] [ slot slot-number ]

Display QoS and ACL resource usage.

display qos-acl resource [ advanced-mode ] [ slot slot-number ]

Clear ACL statistics.

reset acl [ ipv6 | mac | user-defined ] counter { acl-number | all | name acl-name }

Clear match statistics for packet filtering ACLs.

reset packet-filter statistics { interface [ interface-type interface-number ] | l2vpn-ac [ interface interface-type interface-number service-instance instance-id ] | vlan-interface } { inbound | outbound } [ default | [ ipv6 | mac | user-defined ] { acl-number | name acl-name } ]

ACL configuration examples

Example: Configuring interface-based packet filter

Network configuration

A company interconnects its departments through the device. Configure a packet filter to:

·     Permit access from the President's office at any time to the financial database server.

·     Permit access from the Finance department to the database server only during working hours (from 8:00 to 18:00) on working days.

·     Deny access from any other department to the database server.

Figure 1 Network diagram

Procedure

# Create a periodic time range from 8:00 to 18:00 on working days.

<Device> system-view

[Device] time-range work 08:0 to 18:00 working-day

# Create an IPv4 advanced ACL numbered 3000.

[Device] acl advanced 3000

# Configure a rule to permit access from the President's office to the financial database server.

[Device-acl-ipv4-adv-3000] rule permit ip source 192.168.1.0 0.0.0.255 destination 192.168.0.100 0

# Configure a rule to permit access from the Finance department to the database server during working hours.

[Device-acl-ipv4-adv-3000] rule permit ip source 192.168.2.0 0.0.0.255 destination 192.168.0.100 0 time-range work

# Configure a rule to deny access to the financial database server.

[Device-acl-ipv4-adv-3000] rule deny ip source any destination 192.168.0.100 0

[Device-acl-ipv4-adv-3000] quit

# Apply IPv4 advanced ACL 3000 to filter outgoing packets on interface Twenty-FiveGigE 1/0/1.

[Device] interface twenty-fivegige 1/0/1

[Device-Twenty-FiveGigE1/0/1] packet-filter 3000 outbound

[Device-Twenty-FiveGigE1/0/1] quit

Verifying the configuration

# Verify that a PC in the Finance department can ping the database server during working hours. (All PCs in this example use Windows XP).

C:\> ping 192.168.0.100

 

Pinging 192.168.0.100 with 32 bytes of data:

 

Reply from 192.168.0.100: bytes=32 time=1ms TTL=255

Reply from 192.168.0.100: bytes=32 time<1ms TTL=255

Reply from 192.168.0.100: bytes=32 time<1ms TTL=255

Reply from 192.168.0.100: bytes=32 time<1ms TTL=255

 

Ping statistics for 192.168.0.100:

    Packets: Sent = 4, Received = 4, Lost = 0 (0% loss),

Approximate round trip times in milli-seconds:

    Minimum = 0ms, Maximum = 1ms, Average = 0ms

# Verify that a PC in the Marketing department cannot ping the database server during working hours.

C:\> ping 192.168.0.100

 

Pinging 192.168.0.100 with 32 bytes of data:

 

Request timed out.

Request timed out.

Request timed out.

Request timed out.

 

Ping statistics for 192.168.0.100:

    Packets: Sent = 4, Received = 0, Lost = 4 (100% loss),

# Display configuration and match statistics for IPv4 advanced ACL 3000 on the device during working hours.

[Device] display acl 3000

Advanced IPv4 ACL 3000, 3 rules,

ACL's step is 5

 rule 0 permit ip source 192.168.1.0 0.0.0.255 destination 192.168.0.100 0

 rule 5 permit ip source 192.168.2.0 0.0.0.255 destination 192.168.0.100 0 time-range work (Active)

 rule 10 deny ip destination 192.168.0.100 0

The output shows that rule 5 is active. Rule 5 and rule 10 have been matched four times as the result of the ping operations.