Information About ACLs
An access control list (ACL) is an ordered set of rules that you can use to filter traffic. Each rule specifies a set of conditions that a packet must satisfy to match the rule. When the switch determines that an ACL applies to a packet, it tests the packet against the conditions of all rules. The first match determines whether the packet is permitted or denied. If there is no match, the switch applies the applicable default rule. The switch continues processing packets that are permitted and drops packets that are denied.
You can use ACLs to protect networks and specific hosts from unnecessary or unwanted traffic. For example, you could use ACLs to disallow HTTP traffic from a high-security network to the Internet. You could also use ACLs to allow HTTP traffic but only to specific sites, using the IP address of the site to identify it in an IP ACL.
IP ACL Types and Applications
The Cisco Nexus device supports IPv4, IPv6, and MAC ACLs for security traffic filtering. The switch allows you to use IP access control lists (ACLs) as port ACLs, VLAN ACLs, and Router ACLs as shown in the following table.
Application |
Supported Interfaces |
Types of ACLs Supported |
||
---|---|---|---|---|
Port ACL |
An ACL is considered a port ACL when you apply it to one of the following:
When a port ACL is applied to a trunk port, the ACL filters traffic on all VLANs on the trunk port. |
IPv4 ACLs IPv6 ACLs MAC ACLs |
||
Router ACL |
|
IPv4 ACLs IPv6 ACLs |
||
VLAN ACL (VACL) |
An ACL is a VACL when you use an access map to associate the ACL with an action and then apply the map to a VLAN. |
IPv4 ACLs MAC ACLs |
||
VTY ACL |
VTYs |
IPv4 ACLs IPv6 ACLs |
Application Order
-
Port ACL
-
Ingress VACL
-
Ingress Router ACL
-
Egress Router ACL
-
Egress VACL
Rules
You can create rules in access-list configuration mode by using the permit or deny command. The switch allows traffic that matches the criteria in a permit rule and blocks traffic that matches the criteria in a deny rule. You have many options for configuring the criteria that traffic must meet in order to match the rule.
Source and Destination
In each rule, you specify the source and the destination of the traffic that matches the rule. You can specify both the source and destination as a specific host, a network or group of hosts, or any host.
Protocols
IPv4, IPv6, and MAC ACLs allow you to identify traffic by protocol. For your convenience, you can specify some protocols by name. For example, in an IPv4 ACL, you can specify ICMP by name.
You can specify any protocol by the integer that represents the Internet protocol number. For example, you can use 115 to specify Layer 2 Tunneling Protocol (L2TP) traffic.
Implicit Rules
IP and MAC ACLs have implicit rules, which means that although these rules do not appear in the running configuration, the switch applies them to traffic when no other rules in an ACL match.
All IPv4 ACLs include the following implicit rule:
deny ip any any
This implicit rule ensures that the switch denies unmatched IP traffic.
All IPv6 ACLs include the following implicit rule:
deny ipv6 any any
Additional Filtering Options
You can identify traffic by using additional options. IPv4 ACLs support the following additional filtering options:
-
Layer 4 protocol
-
TCP and UDP ports
-
ICMP types and codes
-
IGMP types
-
Precedence level
-
Differentiated Services Code Point (DSCP) value
-
TCP packets with the ACK, FIN, PSH, RST, SYN, or URG bit set
-
Established TCP connections
-
Layer 4 protocol
-
Authentication Header Protocol
-
Encapsulating Security Payload
-
Payload Compression Protocol
-
Stream Control Transmission Protocol (SCTP)
-
SCTP, TCP, and UDP ports
-
ICMP types and codes
-
IGMP types
-
Flow label
-
DSCP value
-
TCP packets with the ACK, FIN, PSH, RST, SYN, or URG bit set
-
Established TCP connections
-
Packet length
-
Layer 3 protocol
-
VLAN ID
-
Class of Service (CoS)
Sequence Numbers
The Cisco Nexus device supports sequence numbers for rules. Every rule that you enter receives a sequence number, either assigned by you or assigned automatically by the device. Sequence numbers simplify the following ACL tasks:
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Adding new rules between existing rules—By specifying the sequence number, you specify where in the ACL a new rule should be positioned. For example, if you need to insert a rule between rules numbered 100 and 110, you could assign a sequence number of 105 to the new rule.
-
Removing a rule—Without using a sequence number, removing a rule requires that you enter the whole rule, as follows:
switch(config-acl)# no permit tcp 10.0.0.0/8 any
However, if the same rule had a sequence number of 101, removing the rule requires only the following command:
switch(config-acl)# no 101
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Moving a rule—With sequence numbers, if you need to move a rule to a different position within an ACL, you can add a second instance of the rule using the sequence number that positions it correctly, and then you can remove the original instance of the rule. This action allows you to move the rule without disrupting traffic.
If you enter a rule without a sequence number, the device adds the rule to the end of the ACL and assigns a sequence number that is 10 greater than the sequence number of the preceding rule to the rule. For example, if the last rule in an ACL has a sequence number of 225 and you add a rule without a sequence number, the device assigns the sequence number 235 to the new rule.
In addition, the device allows you to reassign sequence numbers to rules in an ACL. Resequencing is useful when an ACL has rules numbered contiguously, such as 100 and 101, and you need to insert one or more rules between those rules.
Logical Operators and Logical Operation Units
IP ACL rules for TCP and UDP traffic can use logical operators to filter traffic based on port numbers.
The Cisco Nexus device stores operator-operand couples in registers called logical operation units (LOUs) to perform operations (greater than, less than, not equal to, and range) on the TCP and UDP ports specified in an IP ACL.
Note |
The range operator is inclusive of boundary values. |
These LOUs minimize the number of ternary content addressable memory (TCAM) entries needed to perform these operations. A maximum of two LOUs are allowed for each feature on an interface. For example an ingress RACL can use two LOUs, and a QoS feature can use two LOUs. If an ACL feature requires more than two arithmetic operations, the first two operations use LOUs, and the remaining access control entries get expanded.
The following guidelines determine when the device stores operator-operand couples in LOUs:
-
If the operator or operand differs from other operator-operand couples that are used in other rules, the couple is stored in an LOU.
For example, the operator-operand couples "gt 10" and "gt 11" would be stored separately in half an LOU each. The couples "gt 10" and "lt 10" would also be stored separately.
-
Whether the operator-operand couple is applied to a source port or a destination port in the rule affects LOU usage. Identical couples are stored separately when one of the identical couples is applied to a source port and the other couple is applied to a destination port.
For example, if a rule applies the operator-operand couple "gt 10" to a source port and another rule applies a "gt 10" couple to a destination port, both couples would also be stored in half an LOU, resulting in the use of one whole LOU. Any additional rules using a "gt 10" couple would not result in further LOU usage.
Statistics and ACLs
The device can maintain global statistics for each rule that you configure in IPv4, IPv6, and MAC ACLs. If an ACL is applied to multiple interfaces, the maintained rule statistics are the sum of packet matches (hits) on all the interfaces on which that ACL is applied.
Note |
The device does not support interface-level ACL statistics. |
For each ACL that you configure, you can specify whether the device maintains statistics for that ACL, which allows you to turn ACL statistics on or off as needed to monitor traffic filtered by an ACL or to help troubleshoot the configuration of an ACL.
The device does not maintain statistics for implicit rules in an ACL. For example, the device does not maintain a count of packets that match the implicit deny ip any any rule at the end of all IPv4 ACLs. If you want to maintain statistics for implicit rules, you must explicitly configure the ACL with rules that are identical to the implicit rules.
Licensing Requirements for ACLs
The following table shows the licensing requirements for this feature:
Product |
License Requirement |
---|---|
Cisco NX-OS |
No license is required to use ACLs. |
Prerequisites for ACLs
IP ACLs have the following prerequisites:
-
You must be familiar with IP addressing and protocols to configure IP ACLs.
-
You must be familiar with the interface types that you want to configure with ACLs.
VACLs have the following prerequisite:
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Ensure that the IP ACL or MAC ACL that you want to use in the VACL exists and is configured to filter traffic in the manner that you need for this application.
Guidelines and Limitations for ACLs
IP ACLs have the following configuration guidelines and limitations:
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We recommend that you perform ACL configuration using the Session Manager. This feature allows you to verify ACL configuration and confirm that the resources required by the configuration are available prior to committing them to the running configuration. This is especially useful for ACLs that include more than about 1000 rules.
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When you apply an ACL that uses time ranges, the device updates the ACL entries whenever a time range referenced in an ACL entry starts or ends. Updates that are initiated by time ranges occur on a best-effort priority. If the device is especially busy when a time range causes an update, the device may delay the update by up to a few seconds.
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To apply an IP ACL to a VLAN interface, you must have enabled VLAN interfaces globally.
MAC ACLs have the following configuration guidelines and limitations:
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MAC ACLs apply to ingress traffic only.
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ACL statistics are not supported if the DHCP snooping feature is enabled.
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For M1 Series modules, the mac packet-classify command enables a MAC ACL for port and VLAN policies.
VACLs have the following configuration guidelins:
-
We recommend that you perform ACL configurations using the Session Manager. This feature allows you to verify ACL configuration and confirm that the resources required by the configuration are available prior to committing them to the running configuration.
-
ACL statistics are not supported if the DHCP snooping feature is enabled.
Default ACL Settings
The following table lists the default settings for IP ACLs parameters.
Parameters |
Default |
---|---|
IP ACLs |
No IP ACLs exist by default. |
ACL rules |
Implicit rules apply to all ACLs . |
The following table lists the default settings for MAC ACLs parameters.
Parameters |
Default |
---|---|
MAC ACLs |
No MAC ACLs exist by default. |
ACL rules |
Implicit rules apply to all ACLs . |
The following table lists the default settings for VACL parameters.
Parameters |
Default |
---|---|
VACLs |
No IP ACLs exist by default. |
ACL rules |
Implicit rules apply to all ACLs. |