Configuring DHCP Features and IP Source Guard


This chapter describes how to configure DHCP snooping and the option-82 data insertion features on the Catalyst 3750 switch. It also describes how to configure the IP source guard feature. Unless otherwise noted, the term switch refers to a standalone switch and to a switch stack.


Note For complete syntax and usage information for the commands used in this chapter, see the command reference for this release, and see the "DHCP Commands" section in the Cisco IOS IP Command Reference, Volume 1 of 3: Addressing and Services, Release 12.2 from the Cisco.com page under Documentation > Cisco IOS Software > 12.2 Mainline > Command References.


This chapter consists of these sections:

Understanding DHCP Features

Configuring DHCP Features

Displaying DHCP Snooping Information

Understanding IP Source Guard

Configuring IP Source Guard

Displaying IP Source Guard Information

Understanding DHCP Features

DHCP is widely used in LAN environments to dynamically assign host IP addresses from a centralized server, which significantly reduces the overhead of administration of IP addresses. DHCP also helps conserve the limited IP address space because IP addresses no longer need to be permanently assigned to hosts; only those hosts that are connected to the network consume IP addresses.

These sections contain this information:

DHCP Server

DHCP Relay Agent

DHCP Snooping

Option-82 Data Insertion

DHCP Snooping and Switch Stacks

Cisco IOS DHCP Server Database

DHCP Snooping Binding Database

For information about the DHCP client, see the "Configuring DHCP" section of the "IP Addressing and Services" section of the Cisco IOS IP Configuration Guide, Release 12.2 from the Cisco.com page under Documentation > Cisco IOS Software > 12.2 Mainline > Configuration Guides.

DHCP Server

The DHCP server assigns IP addresses from specified address pools on a switch or router to DHCP clients and manages them. If the DHCP server cannot give the DHCP client the requested configuration parameters from its database, it forwards the request to one or more secondary DHCP servers defined by the network administrator.

DHCP Relay Agent

A DHCP relay agent is a Layer 3 device that forwards DHCP packets between clients and servers. Relay agents forward requests and replies between clients and servers when they are not on the same physical subnet. Relay agent forwarding is different from the normal Layer 2 forwarding, in which IP datagrams are switched transparently between networks. Relay agents receive DHCP messages and generate new DHCP messages to send on output interfaces.

DHCP Snooping

DHCP snooping is a DHCP security feature that provides network security by filtering untrusted DHCP messages and by building and maintaining a DHCP snooping binding database, also referred to as a DHCP snooping binding table. For more information about this database, see the "Displaying DHCP Snooping Information" section.

DHCP snooping acts like a firewall between untrusted hosts and DHCP servers. You use DHCP snooping to differentiate between untrusted interfaces connected to the end user and trusted interfaces connected to the DHCP server or another switch.


Note For DHCP snooping to function properly, all DHCP servers must be connected to the switch through trusted interfaces.


An untrusted DHCP message is a message that is received from outside the network or firewall. When you use DHCP snooping in a service-provider environment, an untrusted message is sent from a device that is not in the service-provider network, such as a customer's switch. Messages from unknown devices are untrusted because they can be sources of traffic attacks.

The DHCP snooping binding database has the MAC address, the IP address, the lease time, the binding type, the VLAN number, and the interface information that corresponds to the local untrusted interfaces of a switch. It does not have information regarding hosts interconnected with a trusted interface.

In a service-provider network, a trusted interface is connected to a port on a device in the same network. An untrusted interface is connected to an untrusted interface in the network or to an interface on a device that is not in the network.

When a switch receives a packet on an untrusted interface and the interface belongs to a VLAN in which DHCP snooping is enabled, the switch compares the source MAC address and the DHCP client hardware address. If the addresses match (the default), the switch forwards the packet. If the addresses do not match, the switch drops the packet.

The switch drops a DHCP packet when one of these situations occurs:

A packet from a DHCP server, such as a DHCPOFFER, DHCPACK, DHCPNAK, or DHCPLEASEQUERY packet, is received from outside the network or firewall.

A packet is received on an untrusted interface, and the source MAC address and the DHCP client hardware address do not match.

The switch receives a DHCPRELEASE or DHCPDECLINE broadcast message that has a MAC address in the DHCP snooping binding database, but the interface information in the binding database does not match the interface on which the message was received.

A DHCP relay agent forwards a DHCP packet that includes a relay-agent IP address that is not 0.0.0.0, or the relay agent forwards a packet that includes option-82 information to an untrusted port.

If the switch is an aggregation switch supporting DHCP snooping and is connected to an edge switch that is inserting DHCP option-82 information, the switch drops packets with option-82 information when packets are received on an untrusted interface. If DHCP snooping is enabled and packets are received on a trusted port, the aggregation switch does not learn the DHCP snooping bindings for connected devices and cannot build a complete DHCP snooping binding database.

When option-82 information is inserted by an edge switch in software releases earlier than Cisco IOS Release 12.2(25)SEA, you cannot configure DHCP snooping on an aggregation switch because the DHCP snooping bindings database is not properly populated. You also cannot configure IP source guard and dynamic Address Resolution Protocol (ARP) inspection on the switch unless you use static bindings or ARP access control lists (ACLs).

In Cisco IOS Release 12.2(25)SEA or later, when an aggregation switch can be connected to an edge switch through an untrusted interface and you enter the ip dhcp snooping information option allow-untrusted global configuration command, the aggregation switch accepts packets with option-82 information from the edge switch. The aggregation switch learns the bindings for hosts connected through an untrusted switch interface. The DHCP security features, such as dynamic ARP inspection or IP source guard, can still be enabled on the aggregation switch while the switch receives packets with option-82 information on untrusted input interfaces to which hosts are connected. The port on the edge switch that connects to the aggregation switch must be configured as a trusted interface.

Option-82 Data Insertion

In residential, metropolitan Ethernet-access environments, DHCP can centrally manage the IP address assignments for a large number of subscribers. When the DHCP option-82 feature is enabled on the switch, a subscriber device is identified by the switch port through which it connects to the network (in addition to its MAC address). Multiple hosts on the subscriber LAN can be connected to the same port on the access switch and are uniquely identified.


Note The DHCP option-82 feature is supported only when DHCP snooping is globally enabled and on the VLANs to which subscriber devices using this feature are assigned.


Figure 22-1 is an example of a metropolitan Ethernet network in which a centralized DHCP server assigns IP addresses to subscribers connected to the switch at the access layer. Because the DHCP clients and their associated DHCP server do not reside on the same IP network or subnet, a DHCP relay agent (the Catalyst switch) is configured with a helper address to enable broadcast forwarding and to transfer DHCP messages between the clients and the server.

Figure 22-1 DHCP Relay Agent in a Metropolitan Ethernet Network

When you enable the DHCP snooping information option 82 on the switch, this sequence of events occurs:

The host (DHCP client) generates a DHCP request and broadcasts it on the network.

When the switch receives the DHCP request, it adds the option-82 information in the packet. By default, the remote-ID suboption is the switch MAC address, and the circuit-ID suboption is the port identifier, vlan-mod-port, from which the packet is received. Beginning with Cisco IOS Release 12.2(25)SEE, you can configure the remote ID and circuit ID. For information on configuring these suboptions, see the "Enabling DHCP Snooping and Option 82" section.

If the IP address of the relay agent is configured, the switch adds this IP address in the DHCP packet.

The switch forwards the DHCP request that includes the option-82 field to the DHCP server.

The DHCP server receives the packet. If the server is option-82-capable, it can use the remote ID, the circuit ID, or both to assign IP addresses and implement policies, such as restricting the number of IP addresses that can be assigned to a single remote ID or circuit ID. Then the DHCP server echoes the option-82 field in the DHCP reply.

The DHCP server unicasts the reply to the switch if the request was relayed to the server by the switch. The switch verifies that it originally inserted the option-82 data by inspecting the remote ID and possibly the circuit ID fields. The switch removes the option-82 field and forwards the packet to the switch port that connects to the DHCP client that sent the DHCP request.

In the default suboption configuration, when the described sequence of events occurs, the values in these fields in Figure 22-2 do not change:

Circuit-ID suboption fields

Suboption type

Length of the suboption type

Circuit-ID type

Length of the circuit-ID type

Remote-ID suboption fields

Suboption type

Length of the suboption type

Remote-ID type

Length of the remote-ID type

In the port field of the circuit-ID suboption, the port numbers start at 3. For example, on a switch with 24 10/100 ports and small form-factor pluggable (SFP) module slots, port 3 is the Fast Ethernet x/0/1 port, port 4 is the Fast Ethernet x/0/2 port, and so forth, where x is the stack member number. Port 27 is the SFP module slot x/0/1, and so forth.

Figure 22-2 shows the packet formats for the remote-ID suboption and the circuit-ID suboption when the default suboption configuration is used. For the circuit-ID suboption, the module number corresponds to the switch number in the stack. The switch uses the packet formats when you globally enable DHCP snooping and enter the ip dhcp snooping information option global configuration command.

Figure 22-2 Suboption Packet Formats

Figure 22-3 shows the packet formats for user-configured remote-ID and circuit-ID suboptions The switch uses these packet formats when DHCP snooping is globally enabled and when the ip dhcp snooping information option format remote-id global configuration command and the ip dhcp snooping vlan information option format-type circuit-id string interface configuration command are entered.

The values for these fields in the packets change from the default values when you configure the remote-ID and circuit-ID suboptions:

Circuit-ID suboption fields

The circuit-ID type is 1.

The length values are variable, depending on the length of the string that you configure.

Remote-ID suboption fields

The remote-ID type is 1.

The length values are variable, depending on the length of the string that you configure.

Figure 22-3 User-Configured Suboption Packet Formats

Cisco IOS DHCP Server Database

During the DHCP-based autoconfiguration process, the designated DHCP server uses the Cisco IOS DHCP server database. It has IP addresses, address bindings, and configuration parameters, such as the boot file.

An address binding is a mapping between an IP address and a MAC address of a host in the Cisco IOS DHCP server database. You can manually assign the client IP address, or the DHCP server can allocate an IP address from a DHCP address pool. For more information about manual and automatic address bindings, see the "Configuring DHCP" chapter of the Cisco IOS IP Configuration Guide,
Release 12.2
from the Cisco.com page under Documentation > Cisco IOS Software > 12.2 Mainline > Configuration Guides.

DHCP Snooping Binding Database

When DHCP snooping is enabled, the switch uses the DHCP snooping binding database to store information about untrusted interfaces. The database can have up to 8192 bindings.

Each database entry (binding) has an IP address, an associated MAC address, the lease time (in hexadecimal format), the interface to which the binding applies, and the VLAN to which the interface belongs. The database agent stores the bindings in a file at a configured location. At the end of each entry is a checksum that accounts for all the bytes from the start of the file through all the bytes associated with the entry. Each entry is 72 bytes, followed by a space and then the checksum value.

To keep the bindings when the switch reloads, you must use the DHCP snooping database agent. If the agent is disabled, dynamic ARP inspection or IP source guard is enabled, and the DHCP snooping binding database has dynamic bindings, the switch loses its connectivity. If the agent is disabled and only DHCP snooping is enabled, the switch does not lose its connectivity, but DHCP snooping might not prevent DHCP spoofing attacks.

When reloading, the switch reads the binding file to build the DHCP snooping binding database. The switch updates the file when the database changes.

When a switch learns of new bindings or when it loses bindings, the switch immediately updates the entries in the database. The switch also updates the entries in the binding file. The frequency at which the file is updated is based on a configurable delay, and the updates are batched. If the file is not updated in a specified time (set by the write-delay and abort-timeout values), the update stops.

This is the format of the file with bindings:

<initial-checksum> 
TYPE DHCP-SNOOPING 
VERSION 1 
BEGIN 
<entry-1> <checksum-1> 
<entry-2> <checksum-1-2> 
... 
... 
<entry-n> <checksum-1-2-..-n> 
END 

Each entry in the file is tagged with a checksum value that the switch uses to verify the entries when it reads the file. The initial-checksum entry on the first line distinguishes entries associated with the latest file update from entries associated with a previous file update.

This is an example of a binding file:

2bb4c2a1
TYPE DHCP-SNOOPING
VERSION 1
BEGIN
192.1.168.1 3 0003.47d8.c91f 2BB6488E Fa1/0/4 21ae5fbb
192.1.168.3 3 0003.44d6.c52f 2BB648EB Fa1/0/4 1bdb223f
192.1.168.2 3 0003.47d9.c8f1 2BB648AB Fa1/0/4 584a38f0
END

When the switch starts and the calculated checksum value equals the stored checksum value, the switch reads entries from the binding file and adds the bindings to its DHCP snooping binding database. The switch ignores an entry when one of these situations occurs:

The switch reads the entry and the calculated checksum value does not equal the stored checksum value. The entry and the ones following it are ignored.

An entry has an expired lease time (the switch might not remove a binding entry when the lease time expires).

The interface in the entry no longer exists on the system.

The interface is a routed interface or a DHCP snooping-trusted interface.

DHCP Snooping and Switch Stacks

DHCP snooping is managed on the stack master. When a new switch joins the stack, the switch receives the DHCP snooping configuration from the stack master. When a member leaves the stack, all DHCP snooping address bindings associated with the switch age out.

All snooping statistics are generated on the stack master. If a new stack master is elected, the statistics counters reset.

When a stack merge occurs, all DHCP snooping bindings in the stack master are lost if it is no longer the stack master. With a stack partition, the existing stack master is unchanged, and the bindings belonging to the partitioned switches age out. The new master of the partitioned stack begins processing the new incoming DHCP packets. For more information about switch stacks, see Chapter 5, "Managing Switch Stacks."

Configuring DHCP Features

These sections contain this configuration information:

Default DHCP Configuration

DHCP Snooping Configuration Guidelines

Configuring the DHCP Server

DHCP Server and Switch Stacks

Configuring the DHCP Relay Agent

Specifying the Packet Forwarding Address

Enabling DHCP Snooping and Option 82

Enabling DHCP Snooping on Private VLANs

Enabling the Cisco IOS DHCP Server Database

Enabling the DHCP Snooping Binding Database Agent

Default DHCP Configuration

Table 22-1 shows the default DHCP configuration.

Table 22-1 Default DHCP Configuration 

Feature
Default Setting

DHCP server

Enabled in Cisco IOS software, requires configuration1

DHCP relay agent

Enabled2

DHCP packet forwarding address

None configured

Checking the relay agent information

Enabled (invalid messages are dropped)2

DHCP relay agent forwarding policy

Replace the existing relay agent information2

DHCP snooping enabled globally

Disabled

DHCP snooping information option

Enabled

DHCP snooping option to accept packets on untrusted input interfaces3

Disabled

DHCP snooping limit rate

None configured

DHCP snooping trust

Untrusted

DHCP snooping VLAN

Disabled

DHCP snooping MAC address verification

Enabled

Cisco IOS DHCP server binding database

Enabled in Cisco IOS software, requires configuration.

Note The switch gets network addresses and configuration parameters only from a device configured as a DHCP server.

DHCP snooping binding database agent

Enabled in Cisco IOS software, requires configuration. This feature is operational only when a destination is configured.

1 The switch responds to DHCP requests only if it is configured as a DHCP server.

2 The switch relays DHCP packets only if the IP address of the DHCP server is configured on the SVI of the DHCP client.

3 Use this feature when the switch is an aggregation switch that receives packets with option-82 information from an edge switch.


DHCP Snooping Configuration Guidelines

These are the configuration guidelines for DHCP snooping.

You must globally enable DHCP snooping on the switch.

DHCP snooping is not active until DHCP snooping is enabled on a VLAN.

Before globally enabling DHCP snooping on the switch, make sure that the devices acting as the DHCP server and the DHCP relay agent are configured and enabled.

When you globally enable DHCP snooping on the switch, these Cisco IOS commands are not available until snooping is disabled. If you enter these commands, the switch returns an error message, and the configuration is not applied.

ip dhcp relay information check global configuration command

ip dhcp relay information policy global configuration command

ip dhcp relay information trust-all global configuration command

ip dhcp relay information trusted interface configuration command

Before configuring the DHCP snooping information option on your switch, be sure to configure the device that is acting as the DHCP server. For example, you must specify the IP addresses that the DHCP server can assign or exclude, or you must configure DHCP options for these devices.

When configuring a large number of circuit IDs on a switch, consider the impact of lengthy character strings on the NVRAM or the flash memory. If the circuit-ID configurations, combined with other data, exceed the capacity of the NVRAM or the flash memory, an error message appears.

Before configuring the DHCP relay agent on your switch, make sure to configure the device that is acting as the DHCP server. For example, you must specify the IP addresses that the DHCP server can assign or exclude, configure DHCP options for devices, or set up the DHCP database agent.

If the DHCP relay agent is enabled but DHCP snooping is disabled, the DHCP option-82 data insertion feature is not supported.

If a switch port is connected to a DHCP server, configure a port as trusted by entering the ip dhcp snooping trust interface configuration command.

If a switch port is connected to a DHCP client, configure a port as untrusted by entering the no ip dhcp snooping trust interface configuration command.

Follow these guidelines when configuring the DHCP snooping binding database:

Because both NVRAM and the flash memory have limited storage capacity, we recommend that you store the binding file on a TFTP server.

For network-based URLs (such as TFTP and FTP), you must create an empty file at the configured URL before the switch can write bindings to the binding file at that URL. See the documentation for your TFTP server to determine whether you must first create an empty file on the server; some TFTP servers cannot be configured this way.

To ensure that the lease time in the database is accurate, we recommend that you enable and configure NTP. For more information, see the "Configuring NTP" section on page 7-3.

If NTP is configured, the switch writes binding changes to the binding file only when the switch system clock is synchronized with NTP.

Do not enter the ip dhcp snooping information option allow-untrusted command on an aggregation switch to which an untrusted device is connected. If you enter this command, an untrusted device might spoof the option-82 information.

Starting with Cisco IOS Release 12.2(37)SE, you can display DHCP snooping statistics by entering the show ip dhcp snooping statistics user EXEC command, and you can clear the snooping statistics counters by entering the clear ip dhcp snooping statistics privileged EXEC command.

Configuring the DHCP Server

The switch can act as a DHCP server. By default, the Cisco IOS DHCP server and relay agent features are enabled on your switch but are not configured. These features are not operational.

For procedures to configure the switch as a DHCP server, see the "Configuring DHCP" section of the "IP addressing and Services" section of the Cisco IOS IP Configuration Guide, Release 12.2 from the Cisco.com page under Documentation > Cisco IOS Software > 12.2 Mainline > Configuration Guides.

DHCP Server and Switch Stacks

The DHCP binding database is managed on the stack master. When a new stack master is assigned, the new master downloads the saved binding database from the TFTP server. If the stack master fails, all unsaved bindings are lost. The IP addresses associated with the lost bindings are released. You should configure an automatic backup by using the ip dhcp database url [timeout seconds | write-delay seconds] global configuration command.

When a stack merge occurs, the stack master that becomes a stack member loses all of the DHCP lease bindings. With a stack partition, the new master in the partition acts as a new DHCP server without any of the existing DHCP lease bindings.

For more information about the switch stack, see Chapter 5, "Managing Switch Stacks."

Configuring the DHCP Relay Agent

Beginning in privileged EXEC mode, follow these steps to enable the DHCP relay agent on the switch:

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

service dhcp

Enable the DHCP server and relay agent on your switch. By default, this feature is enabled.

Step 3 

end

Return to privileged EXEC mode.

Step 4 

show running-config

Verify your entries.

Step 5 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

To disable the DHCP server and relay agent, use the no service dhcp global configuration command.

See the "Configuring DHCP" section of the "IP Addressing and Services" section of the Cisco IOS IP Configuration Guide, Release 12.2 from the Cisco.com page under Documentation > Cisco IOS Software > 12.2 Mainline > Configuration Guides for these procedures:

Checking (validating) the relay agent information

Configuring the relay agent forwarding policy

Specifying the Packet Forwarding Address

If the DHCP server and the DHCP clients are on different networks or subnets, you must configure the switch with the ip helper-address address interface configuration command. The general rule is to configure the command on the Layer 3 interface closest to the client. The address used in the ip helper-address command can be a specific DHCP server IP address, or it can be the network address if other DHCP servers are on the destination network segment. Using the network address enables any DHCP server to respond to requests.

Beginning in privileged EXEC mode, follow these steps to specify the packet forwarding address:

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

interface vlan vlan-id

Create a switch virtual interface by entering a VLAN ID, and enter interface configuration mode.

Step 3 

ip address ip-address subnet-mask

Configure the interface with an IP address and an IP subnet.

Step 4 

ip helper-address address

Specify the DHCP packet forwarding address.

The helper address can be a specific DHCP server address, or it can be the network address if other DHCP servers are on the destination network segment. Using the network address enables other servers to respond to DHCP requests.

If you have multiple servers, you can configure one helper address for each server.

Step 5 

exit

Return to global configuration mode.

Step 6 

interface range port-range

or

interface interface-id

Configure multiple physical ports that are connected to the DHCP clients, and enter interface range configuration mode.

or

Configure a single physical port that is connected to the DHCP client, and enter interface configuration mode.

Step 7 

switchport mode access

Define the VLAN membership mode for the port.

Step 8 

switchport access vlan vlan-id

Assign the ports to the same VLAN as configured in Step 2.

Step 9 

end

Return to privileged EXEC mode.

Step 10 

show running-config

Verify your entries.

Step 11 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

To remove the DHCP packet forwarding address, use the no ip helper-address address interface configuration command.

Enabling DHCP Snooping and Option 82

Beginning in privileged EXEC mode, follow these steps to enable DHCP snooping on the switch:

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

ip dhcp snooping

Enable DHCP snooping globally.

Step 3 

ip dhcp snooping vlan vlan-range

Enable DHCP snooping on a VLAN or range of VLANs. The range is 1 to 4094.

You can enter a single VLAN ID identified by VLAN ID number, a series of VLAN IDs separated by commas, a range of VLAN IDs separated by hyphens, or a range of VLAN IDs separated by entering the starting and ending VLAN IDs separated by a space.

Step 4 

ip dhcp snooping information option

Enable the switch to insert and remove DHCP relay information (option-82 field) in forwarded DHCP request messages to the DHCP server. This is the default setting.

Step 5 

ip dhcp snooping information option format remote-id [string ASCII-string | hostname]

(Optional) Configure the remote-ID suboption.

You can configure the remote ID to be:

String of up to 63 ASCII characters (no spaces)

Configured hostname for the switch

Note If the hostname is longer than 63 characters, it is truncated to 63 characters in the remote-ID configuration.

The default remote ID is the switch MAC address.

Step 6 

ip dhcp snooping information option allow-untrusted

(Optional) If the switch is an aggregation switch connected to an edge switch, enable the switch to accept incoming DHCP snooping packets with option-82 information from the edge switch.

The default setting is disabled.

Note Enter this command only on aggregation switches that are connected to trusted devices.

Step 7 

interface interface-id

Specify the interface to be configured, and enter interface configuration mode.

Step 8 

ip dhcp snooping vlan vlan information option format-type circuit-id string ASCII-string

(Optional) Configure the circuit-ID suboption for the specified interface.

Specify the VLAN and port identifier, using a VLAN ID in the range of 1 to 4094. The default circuit ID is the port identifier, in the format vlan-mod-port.

You can configure the circuit ID to be a string of 3 to 63 ASCII characters (no spaces).

Step 9 

ip dhcp snooping trust

(Optional) Configure the interface as trusted or untrusted. You can use the no keyword to configure an interface to receive messages from an untrusted client. The default setting is untrusted.

Step 10 

ip dhcp snooping limit rate rate

(Optional) Configure the number of DHCP packets per second that an interface can receive. The range is 1 to 2048. By default, no rate limit is configured.

Note We recommend an untrusted rate limit of not more than 100 packets per second. If you configure rate limiting for trusted interfaces, you might need to increase the rate limit if the port is a trunk port assigned to more than one VLAN on which DHCP snooping is enabled.

Step 11 

exit

Return to global configuration mode.

Step 12 

ip dhcp snooping verify mac-address

(Optional) Configure the switch to verify that the source MAC address in a DHCP packet that is received on untrusted ports matches the client hardware address in the packet. The default is to verify that the source MAC address matches the client hardware address in the packet.

Step 13 

end

Return to privileged EXEC mode.

Step 14 

show running-config

Verify your entries.

Step 15 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

To disable DHCP snooping, use the no ip dhcp snooping global configuration command. To disable DHCP snooping on a VLAN or range of VLANs, use the no ip dhcp snooping vlan vlan-range global configuration command. To disable the insertion and removal of the option-82 field, use the no ip dhcp snooping information option global configuration command. To configure an aggregation switch to drop incoming DHCP snooping packets with option-82 information from an edge switch, use the no ip dhcp snooping information option allow-untrusted global configuration command.

This example shows how to enable DHCP snooping globally and on VLAN 10 and to configure a rate limit of 100 packets per second on a port:

Switch(config)# ip dhcp snooping
Switch(config)# ip dhcp snooping vlan 10
Switch(config)# ip dhcp snooping information option
Switch(config)# interface gigabitethernet2/0/1
Switch(config-if)# ip dhcp snooping limit rate 100

Enabling DHCP Snooping on Private VLANs

You can enable DHCP snooping on private VLANs. If DHCP snooping is enabled, the configuration is propagated to both a primary VLAN and its associated secondary VLANs. If DHCP snooping is enabled on the primary VLAN, it is also configured on the secondary VLANs.

If DHCP snooping is already configured on the primary VLAN and you configure DHCP snooping with different settings on a secondary VLAN, the configuration for the secondary VLAN does not take effect. You must configure DHCP snooping on the primary VLAN. If DHCP snooping is not configured on the primary VLAN, this message appears when you are configuring DHCP snooping on the secondary VLAN, such as VLAN 200:

2w5d:%DHCP_SNOOPING-4-DHCP_SNOOPING_PVLAN_WARNING:DHCP Snooping configuration may not take 
effect on secondary vlan 200. DHCP Snooping configuration on secondary vlan is derived 
from its primary vlan.

The show ip dhcp snooping privileged EXEC command output shows all VLANs, including primary and secondary private VLANs, on which DHCP snooping is enabled.

Enabling the Cisco IOS DHCP Server Database

For procedures to enable and configure the Cisco IOS DHCP server database, see the "DHCP Configuration Task List" section in the "Configuring DHCP" chapter of the Cisco IOS IP Configuration Guide, Release 12.2 from the Cisco.com page under Documentation > Cisco IOS Software > 12.2 Mainline > Configuration Guides.

Enabling the DHCP Snooping Binding Database Agent

Beginning in privileged EXEC mode, follow these steps to enable and configure the DHCP snooping binding database agent on the switch:

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

ip dhcp snooping database {flash[number]:/filename | ftp://user:password@host/filename | http://[[username:password]@]{hostname | host-ip}[/directory]
/image-name.tar | rcp://user@host/filename}| tftp://host/filename

Specify the URL for the database agent or the binding file by using one of these forms:

flash[number]:/filename

(Optional) Use the number parameter to specify the stack member number of the stack master. The range for number is 1 to 9.

ftp://user:password@host/filename

http://[[username:password]@]{hostname | host-ip}[/directory]
/image-name.tar

rcp://user@host/filename

tftp://host/filename

Step 3 

ip dhcp snooping database timeout seconds

Specify (in seconds) how long to wait for the database transfer process to finish before stopping the process.

The default is 300 seconds. The range is 0 to 86400. Use 0 to define an infinite duration, which means to continue trying the transfer indefinitely.

Step 4 

ip dhcp snooping database write-delay seconds

Specify the duration for which the transfer should be delayed after the binding database changes. The range is from 15 to 86400 seconds. The default is 300 seconds (5 minutes).

Step 5 

end

Return to privileged EXEC mode.

Step 6 

ip dhcp snooping binding mac-address vlan vlan-id ip-address interface interface-id expiry seconds

(Optional) Add binding entries to the DHCP snooping binding database. The vlan-id range is from 1 to 4904. The seconds range is from 1 to 4294967295.

Enter this command for each entry that you add.

Note Use this command when you are testing or debugging the switch.

Step 7 

show ip dhcp snooping database [detail]

Display the status and statistics of the DHCP snooping binding database agent.

Step 8 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

To stop using the database agent and binding files, use the no ip dhcp snooping database global configuration command. To reset the timeout or delay values, use the ip dhcp snooping database timeout seconds or the ip dhcp snooping database write-delay seconds global configuration command.

To clear the statistics of the DHCP snooping binding database agent, use the clear ip dhcp snooping database statistics privileged EXEC command. To renew the database, use the renew ip dhcp snooping database privileged EXEC command.

To delete binding entries from the DHCP snooping binding database, use the no ip dhcp snooping binding mac-address vlan vlan-id ip-address interface interface-id privileged EXEC command. Enter this command for each entry that you want to delete.

Displaying DHCP Snooping Information

To display the DHCP snooping information, use the privileged EXEC commands in Table 22-2:

Table 22-2 Commands for Displaying DHCP Information

Command
Purpose

show ip dhcp snooping

Displays the DHCP snooping configuration for a switch

show ip dhcp snooping binding

Displays only the dynamically configured bindings in the DHCP snooping binding database, also referred to as a binding table.

show ip dhcp snooping database

Displays the DHCP snooping binding database status and statistics.

show ip dhcp snooping statistics

Displays the DHCP snooping statistics in summary or detail form.

show ip source binding

Display the dynamically and statically configured bindings.



Note If DHCP snooping is enabled and an interface changes to the down state, the switch does not delete the statically configured bindings.


Understanding IP Source Guard

IP source guard is a security feature that restricts IP traffic on nonrouted, Layer 2 interfaces by filtering traffic based on the DHCP snooping binding database and on manually configured IP source bindings. You can use IP source guard to prevent traffic attacks caused when a host tries to use the IP address of its neighbor.

You can enable IP source guard when DHCP snooping is enabled on an untrusted interface. After IP source guard is enabled on an interface, the switch blocks all IP traffic received on the interface, except for DHCP packets allowed by DHCP snooping. A port access control list (ACL) is applied to the interface. The port ACL allows only IP traffic with a source IP address in the IP source binding table and denies all other traffic.


Note The port ACL takes precedence over any router ACLs or VLAN maps that affect the same interface.


The IP source binding table has bindings that are learned by DHCP snooping or are manually configured (static IP source bindings). An entry in this table has an IP address with its associated MAC address and VLAN number. The switch uses the IP source binding table only when IP source guard is enabled.

IP source guard is supported only on Layer 2 ports, including access and trunk ports.You can configure IP source guard with source IP address filtering or with source IP and MAC address filtering.

These sections contain this information:

Source IP Address Filtering

Source IP and MAC Address Filtering

Source IP Address Filtering

When IP source guard is enabled with this option, IP traffic is filtered based on the source IP address. The switch forwards IP traffic when the source IP address matches an entry in the DHCP snooping binding database or a binding in the IP source binding table.

When a DHCP snooping binding or static IP source binding is added, changed, or deleted on an interface, the switch modifies the port ACL using the IP source binding changes, and re-applies the port ACL to the interface.

If you enable IP source guard on an interface on which IP source bindings (dynamically learned by DHCP snooping or manually configured) are not configured, the switch creates and applies a port ACL that denies all IP traffic on the interface. If you disable IP source guard, the switch removes the port ACL from the interface.

Source IP and MAC Address Filtering

When IP source guard is enabled with this option, IP traffic is filtered based on the source IP and MAC addresses. The switch forwards traffic only when the source IP and MAC addresses match an entry in the IP source binding table.

When IP source guard with source IP and MAC address filtering is enabled, the switch filters IP and non-IP traffic. If the source MAC address of an IP or non-IP packet matches a valid IP source binding, the switch forwards the packet. The switch drops all other types of packets except DHCP packets.

The switch uses port security to filter source MAC addresses. The interface can shut down when a port-security violation occurs.

Configuring IP Source Guard

These sections contain this configuration information:

Default IP Source Guard Configuration

IP Source Guard Configuration Guidelines

Enabling IP Source Guard

Default IP Source Guard Configuration

By default, IP source guard is disabled.

IP Source Guard Configuration Guidelines

These are the configuration guides for IP source guard:

You can configure static IP bindings only on nonrouted ports. If you enter the ip source binding mac-address vlan vlan-id ip-address interface interface-id global configuration command on a routed interface, this error message appears:

Static IP source binding can only be configured on switch port.

When IP source guard with source IP filtering is enabled on an interface, DHCP snooping must be enabled on the access VLAN to which the interface belongs.

If you are enabling IP source guard on a trunk interface with multiple VLANs and DHCP snooping is enabled on all the VLANs, the source IP address filter is applied on all the VLANs.


Note If IP source guard is enabled and you enable or disable DHCP snooping on a VLAN on the trunk interface, the switch might not properly filter traffic.


When IP source guard with source IP and MAC address filtering is enabled, DHCP snooping and port security must be enabled on the interface. You must also enter the ip dhcp snooping information option global configuration command and ensure that the DHCP server supports option 82. When IP source guard is enabled with MAC address filtering, the DHCP host MAC address is not learned until the host is granted a lease. When forwarding packets from the server to the host, DHCP snooping uses the option-82 data to identify the host port.

When configuring IP source guard on interfaces on which a private VLAN is configured, port security is not supported.

IP source guard is not supported on EtherChannels.

You can enable this feature when IEEE 802.1x port-based authentication is enabled.

If the number of ternary content addressable memory (TCAM) entries exceeds the maximum available, the CPU usage increases.

In a switch stack, if IP source guard is configured on a stack member interface and you remove the the configuration of that switch by entering the no switch stack-member-number provision global configuration command, the interface static bindings are removed from the binding table, but they are not removed from the running configuration. If you again provision the switch by entering the switch stack-member-number provision command, the binding is restored. To remove the binding from the running configuration, you must disable IP source guard before entering the no switch provision command. The configuration is also removed if the switch reloads while the interface is removed from the binding table. For more information about provisioned switches, see the "Switch Stack Offline Configuration" section on page 5-7.

Enabling IP Source Guard

Beginning in privileged EXEC mode, follow these steps to enable and configure IP source guard on an interface.

 
Command
Purpose

Step 1 

configure terminal

Enter global configuration mode.

Step 2 

interface interface-id

Specify the interface to be configured, and enter interface configuration mode.

Step 3 

ip verify source

or

ip verify source port-security

Enable IP source guard with source IP address filtering.

Enable IP source guard with source IP and MAC address filtering.

Note When you enable both IP Source Guard and Port Security by using the ip verify source port-security interface configuration command, there are two caveats:

The DHCP server must support option 82, or the client is not assigned an IP address.

The MAC address in the DHCP packet is not learned as a secure address. The MAC address of the DHCP client is learned as a secure address only when the switch receives non-DHCP data traffic.

Step 4 

exit

Return to global configuration mode.

Step 5 

ip source binding mac-address vlan vlan-id ip-address inteface interface-id

Add a static IP source binding.

Enter this command for each static binding.

Step 6 

end

Return to privileged EXEC mode.

Step 7 

show ip verify source [interface interface-id]

Display the IP source guard configuration for all interfaces or for a specific interface.

Step 8 

show ip source binding [ip-address] [mac-address] [dhcp-snooping | static] [inteface interface-id] [vlan vlan-id]

Display the IP source bindings on the switch, on a specific VLAN, or on a specific interface.

Step 9 

copy running-config startup-config

(Optional) Save your entries in the configuration file.

To disable IP source guard with source IP address filtering, use the no ip verify source interface configuration command.

To delete a static IP source binding entry, use the no ip source global configuration command.

This example shows how to enable IP source guard with source IP and MAC filtering on VLANs 10
and 11:

Switch# configure terminal
Enter configuration commands, one per line. End with CNTL/Z.
Switch(config)# interface gigabitethernet1/0/1
Switch(config-if)# ip verify source port-security
Switch(config-if)# exit
Switch(config)# ip source binding 0100.0022.0010 vlan 10 10.0.0.2 interface 
gigabitethernet1/0/1
Switch(config)# ip source binding 0100.0230.0002 vlan 11 10.0.0.4 interface 
gigabitethernet1/0/1
Switch(config)# end

Displaying IP Source Guard Information

To display the IP source guard information, use one or more of the privileged EXEC commands in Table 22-3:

Table 22-3 Commands for Displaying IP Source Guard Information

Command
Purpose

show ip source binding

Display the IP source bindings on a switch.

show ip verify source

Display the IP source guard configuration on the switch.