Contents

Configuring ARP attack protection· 1

About ARP attack protection· 1

ARP attack protection tasks at a glance· 1

Configuring unresolvable IP attack protection· 1

About unresolvable IP attack protection· 1

Configuring ARP source suppression· 2

Configuring ARP blackhole routing· 2

Display and maintenance commands for unresolvable IP attack protection· 3

Example: Configuring unresolvable IP attack protection· 3

Configuring ARP packet rate limit 4

Configuring source MAC-based ARP attack detection· 5

About source MAC-based ARP attack detection· 5

Restrictions and guidelines· 5

Procedure· 5

Display and maintenance commands for source MAC-based ARP attack detection· 6

Example: Configuring source MAC-based ARP attack detection· 6

Configuring interface-based ARP attack suppression· 7

About interface-based ARP attack suppression· 7

Restrictions and guidelines· 8

Procedure· 8

Display and maintenance commands for interface-based ARP attack suppression· 8

Configuring ARP packet source MAC consistency check· 9

About ARP packet source MAC consistency check· 9

Procedure· 9

Display and maintenance commands for ARP packet source MAC consistency check· 9

Configuring ARP active acknowledgement 10

Configuring authorized ARP· 11

About authorized ARP· 11

Procedure· 11

Example: Configuring authorized ARP on a DHCP server 11

Example: Configuring authorized ARP on a DHCP relay agent 12

Configuring ARP scanning and fixed ARP· 13

Configuring ARP gateway protection· 14

About ARP gateway protection· 14

Restrictions and guidelines· 14

Procedure· 15

Example: Configuring ARP gateway protection· 15

Configuring ARP filtering· 16

About ARP filtering· 16

Restrictions and guidelines· 16

Procedure· 16

Example: Configuring ARP filtering· 16

Configuring ARP sender IP address checking· 17

About ARP sender IP address checking· 17

Restrictions and guidelines· 17

Procedure· 17

Example: Configuring ARP sender IP address checking· 18

Enabling SNMP notifications for ARP· 19

Display and maintenance commands for dropped ARP packet statistics· 20

 

Configuring ARP attack protection

About ARP attack protection

The device can provide multiple features to detect and prevent ARP attacks and viruses in the LAN. An attacker can exploit ARP vulnerabilities to attack network devices in the following ways:

·     Sends a large number of unresolvable IP packets to have the receiving device busy with resolving IP addresses until its CPU is overloaded. Unresolvable IP packets refer to IP packets for which ARP cannot find corresponding MAC addresses.

·     Sends a large number of ARP packets to overload the CPU of the receiving device.

·     Acts as a trusted user or gateway to send ARP packets so the receiving devices obtain incorrect ARP entries.

ARP attack protection tasks at a glance

All ARP attack protection tasks are optional.

·     Preventing flood attacks

¡     Configuring unresolvable IP attack protection

¡     Configuring ARP packet rate limit

¡     Configuring source MAC-based ARP attack detection

¡     Configuring interface-based ARP attack suppression

·     Preventing user and gateway spoofing attacks

¡     Configuring ARP packet source MAC consistency check

¡     Configuring ARP active acknowledgement

¡     Configuring authorized ARP

¡     Configuring ARP scanning and fixed ARP

¡     Configuring ARP sender IP address checking

¡     Enabling SNMP notifications for ARP

¡     Display and maintenance commands for dropped ARP packet statistics

Configuring unresolvable IP attack protection

About unresolvable IP attack protection

Upon receiving unresolvable IP packets, the device generates ARP Miss messages which are sent to the CPU for processing. Such unresolvable IP packets are called ARP Miss packets. The device generates and issues temporary ARP entries based on the ARP Miss messages and sends ARP requests to the target subnets in the ARP Miss packets. The device generates a large number of ARP Miss messages if it receives a large number of unresolvable IP packets from a host, and the following situations can occur:

·     The device sends a large number of ARP requests, overloading the target subnets in the ARP Miss packets.

·     The device keeps trying to resolve the destination IP addresses and the CPU processes a large number of ARP Miss messages, overloading the CPU.

To protect the device from such IP attacks, you can configure the following features:

·     ARP source suppression—Stops resolving packets from an IP address if the number of unresolvable IP packets from the IP address exceeds the upper limit within 5 seconds. The device continues ARP resolution when the interval elapses. This feature is applicable if the attack packets have the same source addresses.

·     ARP blackhole routing—Creates a blackhole route destined for an unresolved IP address. The device drops all matching packets until the blackhole route is deleted. A blackhole route is deleted when its aging timer is reached or the route becomes reachable.

After a blackhole route is created for an unresolved IP address, the device immediately starts the first ARP blackhole route probe by sending an ARP request. If the resolution fails, the device continues probing according to the probe settings. If the IP address resolution succeeds in a probe, the device converts the blackhole route to a normal route. If an ARP blackhole route ages out before the device finishes all probes, the device deletes the blackhole route and does not perform the remaining probes.

This feature is applicable regardless of whether the attack packets have the same source addresses.

Configuring ARP source suppression

1.     Enter system view.

system-view

2.     Enable ARP source suppression.

arp source-suppression enable

By default, ARP source suppression is disabled.

3.     Set the maximum number of unresolvable packets that the device can process per source IP address within 5 seconds.

arp source-suppression limit limit-value

By default, the maximum number is 10.

Configuring ARP blackhole routing

Restrictions and guidelines

Set the ARP blackhole route probe count to a big value, for example, 25. If the device fails to reach the destination IP address temporarily and the probe count is too small, all probes might finish before the problem is resolved. As a result, non-attack packets will be dropped. This setting can avoid such situation.

Procedure

1.     Enter system view.

system-view

2.     Enable ARP blackhole routing.

arp resolving-route enable

By default, ARP blackhole routing is enabled.

3.     (Optional.) Set the number of ARP blackhole route probes for each unresolved IP address.

arp resolving-route probe-count count

The default setting is three probes.

4.      (Optional.) Set the interval at which the device probes ARP blackhole routes.

arp resolving-route probe-interval interval

The default setting is 1 second.

Display and maintenance commands for unresolvable IP attack protection

Execute display commands in any view.

 

Task	Command
Display ARP source suppression configuration information.	display arp source-suppression

 

Example: Configuring unresolvable IP attack protection

Network configuration

As shown in Figure 1, a LAN contains two areas: an R&D area in VLAN 10 and an office area in VLAN 20. Each area connects to the gateway (Device) through an access switch.

A large number of ARP requests are detected in the office area and are considered an attack caused by unresolvable IP packets. To prevent the attack, configure ARP source suppression or ARP blackhole routing.

Figure 1 Network diagram

 

Procedure

·     If the attack packets have the same source address, configure ARP source suppression:

# Enable ARP source suppression.

<Device> system-view

[Device] arp source-suppression enable

# Configure the device to process a maximum of 100 unresolvable packets per source IP address within 5 seconds.

[Device] arp source-suppression limit 100

·     If the attack packets have different source addresses, configure ARP blackhole routing:

# Enable ARP blackhole routing.

[Device] arp resolving-route enable

Configuring ARP packet rate limit

About this task

The ARP packet rate limit feature allows you to limit the rate of ARP packets delivered to the CPU.

You can enable sending notifications to the SNMP module or enable logging for ARP packet rate limit.

·     If notification sending is enabled, the device sends the highest threshold-crossed ARP packet rate within the sending interval in a notification to the SNMP module. You must use the snmp-agent target-host command to set the notification type and target host. For more information about notifications, see Network Management and Monitoring Command Reference.

·     If logging for ARP packet rate limit is enabled, the device sends the highest threshold-crossed ARP packet rate within the sending interval in a log message to the information center. You can configure the information center module to set the log output rules. For more information about information center, see Network Management and Monitoring Configuration Guide.

Restrictions and guidelines

As a best practice, configure this feature when ARP snooping or ARP fast-reply is enabled, or when ARP flood attacks are detected.

If excessive notifications and log messages are sent for ARP packet rate limit, you can increase notification and log message sending interval.

If you enable notification sending and logging for ARP packet rate limit on an aggregate interface, the features apply to all aggregation member ports.

Procedure

1.     Enter system view.

system-view

2.     (Optional.) Enable SNMP notifications for ARP packet rate limit.

snmp-agent trap enable arp [ rate-limit ]

By default, SNMP notifications for ARP packet rate limit are disabled.

3.     (Optional.) Enable logging for ARP packet rate limit.

arp rate-limit log enable

By default, logging for ARP packet rate limit is disabled.

4.     (Optional.) Set the notification and log message sending interval.

arp rate-limit log interval interval

By default, the device sends notifications and log messages every 60 seconds.

5.     Enter interface view.

interface interface-type interface-number

Supported interface types include Layer 3 Ethernet interface and Layer 3 aggregate interface.

6.     Enable ARP packet rate limit.

arp rate-limit [ pps ]

By default, ARP packet rate limit is disabled.

Configuring source MAC-based ARP attack detection

About source MAC-based ARP attack detection

This feature checks the number of ARP packets delivered to the CPU. If the number of packets from the same MAC address within the check interval exceeds the threshold, the device generates an ARP attack entry for the MAC address. The device handles the attack by using either of the following methods before the ARP attack entry ages out:

·     Monitor—Only generates log messages.

·     Filter—Generates log messages and filters out subsequent ARP packets from the MAC address.

When an ARP attack entry ages out, ARP packets sourced from the MAC address in the entry can be processed correctly.

Source MAC-based ARP attack detection checks the number of ARP packets delivered to the CPU on a per-slot basis. If the number of ARP packets received from the same MAC address within a check interval on a slot exceeds the threshold, the device determines that an attack has occurred.

Restrictions and guidelines

When you change the attack handling method from monitor to filter, the configuration takes effect immediately. When you change the attack handling method from filter to monitor, the device continues filtering packets that match existing attack entries.

You can exclude the MAC addresses of some gateways and servers from this detection. This feature does not inspect ARP packets from those devices even if they are attackers.

If attacks occur frequently in your network, set a short check interval so that source MAC-based ARP attacks can be detected in a timely manner. If attacks seldom occur, you can set a long check interval.

Procedure

1.     Enter system view.

system-view

2.     Enable source MAC-based ARP attack detection and specify the attack handling method.

arp source-mac { filter | monitor }

By default, this feature is disabled.

3.     Set the check interval for source MAC-based ARP attack detection.

arp source-mac check-interval interval

By default, the check interval for source MAC-based ARP attack detection is 5 seconds.

4.     Set the threshold.

arp source-mac threshold threshold-value

By default, the threshold is 30.

5.     Set the aging timer for ARP attack entries.

arp source-mac aging-time time

By default, the lifetime is 300 seconds.

6.     (Optional.) Exclude specific MAC addresses from this detection.

arp source-mac exclude-mac mac-address&<1-64>

By default, no MAC address is excluded.

Display and maintenance commands for source MAC-based ARP attack detection

Execute display commands in any view.

 

Task	Command
Display the configuration for source MAC-based ARP attack detection.	display arp source-mac configuration [ slot slot-number ]
Display ARP attack entries detected by source MAC-based ARP attack detection.	display arp source-mac interface interface-type interface-number [ slot slot-number ] [ verbose ] display arp source-mac { mac mac-address | vlan vlan-id } slot slot-number [ verbose ] display arp source-mac slot slot-number [ count | verbose ]
Display statistics for packets dropped by source MAC-based ARP attack detection.	display arp source-mac statistics slot slot-number
Delete source MAC-based ARP attack entries.	reset arp source-mac [ interface interface-type interface-number | mac mac-address | vlan vlan-id ] [ slot slot-number ]
Clear statistics of packets dropped by source MAC-based ARP attack detection.	reset arp source-mac statistics [ interface interface-type interface-number | mac mac-address | vlan vlan-id ] [ slot slot-number ]

 

Example: Configuring source MAC-based ARP attack detection

Network configuration

As shown in Figure 2, the hosts access the Internet through a gateway (Device). If malicious users send a large number of ARP requests to the gateway, the gateway might crash and cannot process requests from the clients. To solve this problem, configure source MAC-based ARP attack detection on the gateway. Set the check interval to 10 seconds, the threshold to 30, and the lifetime for ARP attack entries to 60 seconds. Exclude the MAC address 0012-3f86-e94c from source MAC-based ARP attack detection.

Figure 2 Network diagram

 

Procedure

# Enable source MAC-based ARP attack detection, and specify the handling method as filter.

<Device> system-view

[Device] arp source-mac filter

# Set the check interval for source MAC-based ARP attack detection to 10 seconds.

[Device] arp source-mac check-interval 10

# Set the threshold to 30.

[Device] arp source-mac threshold 30

# Set the lifetime for ARP attack entries to 60 seconds.

[Device] arp source-mac aging-time 60

# Exclude MAC address 0012-3f86-e94c from this detection.

[Device] arp source-mac exclude-mac 0012-3f86-e94c

Configuring interface-based ARP attack suppression

About interface-based ARP attack suppression

Use this feature to rate limit ARP requests on each Layer 3 interface to prevent ARP spoofing attacks.

This feature monitors the number of ARP requests that each Layer 3 interface received within the check interval. If the number on an interface exceeds the ARP attack suppression threshold, the device creates an ARP attack suppression entry for the interface. Before the suppression time for the entry times out, the maximum receiving rate for ARP packets is limited on the interface.

During the suppression period, the device monitors the number of received ARP requests on the interface:

·     If the number of the received ARP requests is higher than or equal to a calculated value, the device determines that the ARP attack still exists on the interface. When the suppression time expires, the device resets the suppression time for the entry and continues the ARP suppression on the interface.

The calculated value = (suppression time/check interval) × suppression threshold

·     If the number of the received ARP requests is lower than the calculated value, the ARP suppression entry is deleted when the suppression time expires.

Restrictions and guidelines

This feature does not take effect on VSI interfaces.

As a best practice, enable this feature on the gateway.

The priority of the ACL for interface-based ARP attack suppression is relatively low. Once the traffic on an interface matches an ACL rule referenced by another service (for example, a QoS policy), it cannot match the ACL for interface-based ARP attack suppression. As a result, when an interface is configured with interface-based ARP attack suppression and another service that references ACL rules, interface-based ARP attack suppression might do not take effect.

Procedure

1.     Enter system view.

system-view

2.     Enable interface-based ARP attack suppression.

arp attack-suppression enable per-interface

By default, interface-based ARP attack suppression is enabled.

3.     Set the check interval for interface-based ARP attack suppression.

arp attack-suppression check-interval interval

By default, the check interval for interface-based ARP attack suppression is 5 seconds.

4.     Set the interface-based ARP attack suppression threshold.

arp attack-suppression threshold threshold-value

By default, the interface-based ARP attack suppression threshold is 3000.

5.     Set the interface-based ARP attack suppression time.

arp attack-suppression suppression-time time

By default, the interface-based ARP attack suppression time is 300 seconds.

Display and maintenance commands for interface-based ARP attack suppression

Execute display commands in any view.

 

Task	Command
Display the configuration of the interface-based ARP attack suppression.	display arp attack-suppression configuration
Display interface-based ARP attack suppression entries.	display arp attack-suppression per-interface slot slot-number [ count | verbose ]
Display interface-based ARP attack suppression entries on an interface.	display arp attack-suppression per-interface interface interface-type interface-number [ verbose ]
Delete interface-based ARP attack suppression entries.	reset arp attack-suppression per-interface [ interface interface-type interface-number ] [ slot slot-number ]
Clear statistics of packets dropped by interface-based ARP attack suppression.	reset arp attack-suppression per-interface statistics [ interface interface-type interface-number ] [ slot slot-number ]

 

Configuring ARP packet source MAC consistency check

About ARP packet source MAC consistency check

This feature enables a gateway to filter out ARP packets whose source MAC address in the Ethernet header is different from the sender MAC address in the message body. This feature allows the gateway to learn correct ARP entries.

Procedure

1.     Enter system view.

system-view

2.     Enable ARP packet source MAC address consistency check.

arp valid-check enable

By default, ARP packet source MAC address consistency check is disabled.

Display and maintenance commands for ARP packet source MAC consistency check

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

 

Task	Command
Display statistics for packets dropped by ARP packet source MAC consistency check.	display arp valid-check statistics slot slot-number
Clear statistics for packets dropped by ARP packet source MAC consistency check.	reset arp valid-check statistics { all | slot slot-number }

 

Configuring ARP active acknowledgement

About this task

Use the ARP active acknowledgement feature on gateways to prevent user spoofing.

This feature enables the device to perform active acknowledgement before creating an ARP entry.

·     Upon receiving an ARP request that requests the MAC address of the device, the device sends an ARP reply. Then, it sends an ARP request for the sender IP address in the received ARP request to determine whether to create an ARP entry for the sender IP address.

¡     If the device receives an ARP reply within the probe interval, it creates the ARP entry.

¡     If the device does not receive an ARP reply within the probe interval, it does not create the ARP entry.

·     Upon receiving an ARP reply, the device examines whether it was the reply to the request that the device has sent.

¡     If it was, the device creates an ARP entry for the sender IP address in the ARP reply.

¡     If it was not, the device sends an ARP request for the sender IP address to determine whether to create an ARP entry for the sender IP address.

-     If the device receives an ARP reply within the probe interval, it creates the ARP entry.

-     If the device does not receive an ARP reply within the probe interval, it does not create the ARP entry.

To improve validity and reliability of ARP entries, you can enable ARP active acknowledgement in strict mode. In this mode, the device creates ARP entries only for the IP addresses that the device actively initiates the ARP resolution.

After you enable ARP active acknowledgement notifications, the device sends a notification to the SNMP module when it does not establish an ARP entry because of the ARP active acknowledgement feature. The notification includes the sender IP and MAC addresses in the received ARP request. For ARP active acknowledgement event notifications to be sent correctly, you must also configure SNMP on the device. For more information about SNMP configuration, see Network Management and Monitoring Configuration Guide.

Procedure

1.     Enter system view.

system-view

2.     (Optional.) Enable SNMP notifications for ARP.

snmp-agent trap enable arp [ active-ack ]

By default, SNMP notifications for ARP are disabled.

If you do not specify any keywords, this command enables all SNMP notifications for ARP. If you specify only the active-ack keyword, this command enables only ARP active acknowledgement notifications.

3.     Enable ARP active acknowledgement.

arp active-ack [ strict ] enable

By default, this feature is disabled.

For ARP active acknowledgement to take effect in strict mode, make sure ARP blackhole routing is enabled.

Configuring authorized ARP

About authorized ARP

Authorized ARP entries are generated based on the DHCP clients' address leases on the DHCP server or dynamic client entries on the DHCP relay agent. For more information about DHCP server and DHCP relay agent, see Layer 3—IP Services Configuration Guide.

Use this feature to prevent user spoofing and to allow only authorized clients to access network resources.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Enable authorized ARP on the interface.

arp authorized enable

By default, authorized ARP is disabled.

Example: Configuring authorized ARP on a DHCP server

Network configuration

As shown in Figure 3, configure authorized ARP on Ten-GigabitEthernet 3/0/1 of Device A (a DHCP server) to ensure user validity.

Figure 3 Network diagram

‌

Procedure

1.     Configure Device A:

# Specify the IP address for Ten-GigabitEthernet 3/0/1.

<DeviceA> system-view

[DeviceA] interface ten-gigabitethernet 3/0/1

[DeviceA-Ten-GigabitEthernet3/0/1] ip address 10.1.1.1 24

[DeviceA-Ten-GigabitEthernet3/0/1] quit

# Configure DHCP.

[DeviceA] dhcp enable

[DeviceA] ip pool 1

[DeviceA-ip-pool-1] network 10.1.1.0 mask 255.255.255.0

[DeviceA-ip-pool-1] quit

# Enter Layer 3 Ethernet interface view.

[DeviceA] interface ten-gigabitethernet 3/0/1

# Enable authorized ARP.

[DeviceA-Ten-GigabitEthernet3/0/1] arp authorized enable

[DeviceA-Ten-GigabitEthernet3/0/1] quit

2.     Configure Device B:

<DeviceB> system-view

[DeviceB] interface ten-gigabitethernet 3/0/1

[DeviceB-Ten-GigabitEthernet3/0/1] ip address dhcp-alloc

[DeviceB-Ten-GigabitEthernet3/0/1] quit

Verifying the configuration

# Display authorized ARP entry information on Device A.

[DeviceA] display arp all

  Type: S-Static   D-Dynamic   O-Openflow   R-Rule   M-Multiport  I-Invalid

IP address      MAC address    VLAN/VSI name Interface                Aging Type

10.1.1.2        0012-3f86-e94c --            XGE3/0/1                 16    D

The output shows that IP address 10.1.1.2 has been assigned to Device B.

Device B must use the IP address and MAC address in the authorized ARP entry to communicate with Device A. Otherwise, the communication fails. Thus user validity is ensured.

Example: Configuring authorized ARP on a DHCP relay agent

Network configuration

As shown in Figure 4, configure authorized ARP on Ten-GigabitEthernet 3/0/2 of Device B (a DHCP relay agent) to ensure user validity.

Figure 4 Network diagram

‌

Procedure

1.     Configure Device A:

# Specify the IP address for Ten-GigabitEthernet 3/0/1.

<DeviceA> system-view

[DeviceA] interface ten-gigabitethernet 3/0/1

[DeviceA-Ten-GigabitEthernet3/0/1] ip address 10.1.1.1 24

[DeviceA-Ten-GigabitEthernet3/0/1] quit

# Configure DHCP.

[DeviceA] dhcp enable

[DeviceA] ip pool 1

[DeviceA-ip-pool-1] network 10.10.1.0 mask 255.255.255.0

[DeviceA-ip-pool-1] gateway-list 10.10.1.1

[DeviceA-ip-pool-1] quit

[DeviceA] ip route-static 10.10.1.0 24 10.1.1.2

2.     Configure Device B:

# Enable DHCP.

<DeviceB> system-view

[DeviceB] dhcp enable

# Specify the IP addresses of Ten-GigabitEthernet 3/0/1 and Ten-GigabitEthernet 3/0/2.

[DeviceB] interface ten-gigabitethernet 3/0/1

[DeviceB-Ten-GigabitEthernet3/0/1] ip address 10.1.1.2 24

[DeviceB-Ten-GigabitEthernet3/0/1] quit

[DeviceB] interface ten-gigabitethernet 3/0/2

[DeviceB-Ten-GigabitEthernet3/0/2] ip address 10.10.1.1 24

# Enable DHCP relay agent on Ten-GigabitEthernet 3/0/2.

[DeviceB-Ten-GigabitEthernet3/0/2] dhcp select relay

# Add the DHCP server 10.1.1.1 to DHCP server group 1.

[DeviceB-Ten-GigabitEthernet3/0/2] dhcp relay server-address 10.1.1.1

# Enable authorized ARP.

[DeviceB-Ten-GigabitEthernet3/0/2] arp authorized enable

[DeviceB-Ten-GigabitEthernet3/0/2] quit

# Enable recording of relay entries on the relay agent.

[DeviceB] dhcp relay client-information record

3.     Configure Device C:

<DeviceC> system-view

[DeviceC] ip route-static 10.1.1.0 24 10.10.1.1

[DeviceC] interface ten-gigabitethernet 3/0/2

[DeviceC-Ten-GigabitEthernet3/0/2] ip address dhcp-alloc

[DeviceC-Ten-GigabitEthernet3/0/2] quit

Verifying the configuration

# Display authorized ARP information on Device B.

[DeviceB] display arp all

  Type: S-Static   D-Dynamic   O-Openflow   R-Rule   M-Multiport  I-Invalid

IP address      MAC address    VLAN/VSI name Interface                Aging Type

10.10.1.2       0012-3f86-e94c --            XGE3/0/2                 16    D

The output shows that Device A assigned the IP address 10.10.1.2 to Device C.

Device C must use the IP address and MAC address in the authorized ARP entry to communicate with Device B. Otherwise, the communication fails. Thus the user validity is ensured.

Configuring ARP scanning and fixed ARP

About this task

ARP scanning is typically used together with the fixed ARP feature in small-scale and stable networks.

ARP scanning automatically creates ARP entries for devices in an address range. The device performs ARP scanning in the following steps:

1.     Sends ARP requests for each IP address in the address range.

2.     Obtains their MAC addresses through received ARP replies.

3.     Creates dynamic ARP entries.

Fixed ARP converts existing dynamic ARP entries (including those generated through ARP scanning) to static ARP entries. These static ARP entries are of the same attributes as the ARP entries that are manually configured. This feature prevents ARP entries from being modified by attackers.

Restrictions and guidelines

IP addresses in existing ARP entries are not scanned.

Due to the limit on the total number of static ARP entries, some dynamic ARP entries might fail the conversion.

The arp fixup command is a one-time operation. You can use this command again to convert the dynamic ARP entries learned later to static.

To delete a static ARP entry converted from a dynamic one, use the undo arp ip-address [ vpn-instance-name ] command. You can also use the reset arp all command to delete all ARP entries or the reset arp static command to delete all static ARP entries.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

3.     Trigger an ARP scanning.

arp scan [ start-ip-address to end-ip-address ]

 

‌	CAUTION: ARP scanning will take some time. To stop an ongoing scan, press Ctrl + C. Dynamic ARP entries are created based on ARP replies received before the scan is terminated.

‌

4.     Return to system view.

quit

5.     Convert existing dynamic ARP entries to static ARP entries.

arp fixup

Configuring ARP gateway protection

About ARP gateway protection

Configure this feature on interfaces not connected with a gateway to prevent gateway spoofing attacks.

When such an interface receives an ARP packet, it checks whether the sender IP address in the packet is consistent with that of any protected gateway. If yes, it discards the packet. If not, it handles the packet correctly.

Restrictions and guidelines

You can enable ARP gateway protection for a maximum of eight gateways on an interface.

Do not configure both the arp filter source and arp filter binding commands on an interface.

If ARP gateway protection works with ARP fast-reply, ARP gateway protection applies first.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

Supported interface types include Layer 2 Ethernet interface and Layer 2 aggregate interface.

3.     Enable ARP gateway protection for the specified gateway.

arp filter source ip-address

By default, ARP gateway protection is disabled.

Example: Configuring ARP gateway protection

Network configuration

As shown in Figure 5, Host B launches gateway spoofing attacks to Device B. As a result, traffic that Device B intends to send to Device A is sent to Host B.

Configure Device B to block such attacks.

Figure 5 Network diagram

‌

Procedure

# Configure ARP gateway protection on Device B.

<DeviceB> system-view

[DeviceB] interface ten-gigabitethernet 3/0/1

[DeviceB-Ten-GigabitEthernet3/0/1] arp filter source 10.1.1.1

[DeviceB-Ten-GigabitEthernet3/0/1] quit

[DeviceB] interface ten-gigabitethernet 3/0/2

[DeviceB-Ten-GigabitEthernet3/0/2] arp filter source 10.1.1.1

Verifying the configuration

# Verify that Ten-GigabitEthernet 3/0/1 and Ten-GigabitEthernet 3/0/2 discard the incoming ARP packets whose sender IP address is the IP address of the gateway.

Configuring ARP filtering

About ARP filtering

The ARP filtering feature can prevent gateway spoofing and user spoofing attacks.

An interface enabled with this feature checks the sender IP and MAC addresses in a received ARP packet against permitted entries. If a match is found, the packet is handled correctly. If not, the packet is discarded.

Restrictions and guidelines

You can configure a maximum of eight permitted entries on an interface.

Do not configure both the arp filter source and arp filter binding commands on an interface.

If ARP filtering works with ARP fast-reply, ARP filtering applies first.

Procedure

1.     Enter system view.

system-view

2.     Enter interface view.

interface interface-type interface-number

Supported interface types include Ethernet interface and Layer 2 aggregate interface.

3.     Enable ARP filtering and configure a permitted entry.

arp filter binding ip-address mac-address

By default, ARP filtering is disabled.

Example: Configuring ARP filtering

Network configuration

As shown in Figure 6, the IP and MAC addresses of Host A are 10.1.1.2 and 000f-e349-1233, respectively. The IP and MAC addresses of Host B are 10.1.1.3 and 000f-e349-1234, respectively.

Configure ARP filtering on Ten-GigabitEthernet 3/0/1 and Ten-GigabitEthernet 3/0/2 of Device B to permit ARP packets from only Host A and Host B.

Figure 6 Network diagram

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Procedure

# Configure ARP filtering on Device B.

<DeviceB> system-view

[DeviceB] interface ten-gigabitethernet 3/0/1

[DeviceB-Ten-GigabitEthernet3/0/1] arp filter binding 10.1.1.2 000f-e349-1233

[DeviceB-Ten-GigabitEthernet3/0/1] quit

[DeviceB] interface ten-gigabitethernet 3/0/2

[DeviceB-Ten-GigabitEthernet3/0/2] arp filter binding 10.1.1.3 000f-e349-1234

Verifying the configuration

# Verify that Ten-GigabitEthernet 3/0/1 permits ARP packets from Host A and discards other ARP packets.

# Verify that Ten-GigabitEthernet 3/0/2 permits ARP packets from Host B and discards other ARP packets.

Configuring ARP sender IP address checking

About ARP sender IP address checking

This feature allows a gateway to check the sender IP address of an ARP packet in a VLAN before ARP learning. If the sender IP address is within the allowed IP address range, the gateway continues ARP learning. If the sender IP address is out of the range, the gateway determines the ARP packet as an attack packet and discards it.

Restrictions and guidelines

If the VLAN is a sub-VLAN and is associated with a super VLAN, configure this checking feature only in the sub-VLAN.

Procedure

1.     Enter system view.

system-view

2.     Enter VLAN view.

vlan vlan-id

3.     Enable the ARP sender IP address checking feature and specify the IP address range.

arp sender-ip-range start-ip-address end-ip-address

By default, the ARP sender IP address checking feature is disabled.

Example: Configuring ARP sender IP address checking

Network configuration

As shown in Figure 7, perform the following tasks:

·     Create a super VLAN and associate it with VLANs 2, 3, and 4. VLANs 2, 3, and 4 are isolated at Layer 2 but interoperable at Layer 3. All hosts in VLANs 2, 3, and 4 use the gateway IP address 10.1.1.1/24 for Layer 3 communication.

·     Configure the ARP sender IP address checking feature in VLAN 2 and specify the sender IP address range 10.1.1.1 to 10.1.1.10.

Figure 7 Network diagram

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Procedure

# Create VLAN 10.

<Device> system-view

[Device] vlan 10

[Device-vlan10] quit

# Create VLAN-interface 10, and assign IP address 10.1.1.1/24 to it.

[Device] interface vlan-interface 10

[Device-Vlan-interface10] ip address 10.1.1.1 255.255.255.0

[Device] quit

# Create VLAN 2, and assign Ten-GigabitEthernet 3/0/1 and Ten-GigabitEthernet 3/0/2 to the VLAN.

[Device] vlan 2

[Device-vlan2] port ten-gigabitethernet 3/0/1 ten-gigabitethernet 3/0/2

[Device-vlan2] quit

# Create VLAN 3, and assign Ten-GigabitEthernet 3/0/3 and Ten-GigabitEthernet 3/0/4 to the VLAN.

[Device] vlan 3

[Device-vlan3] port ten-gigabitethernet 3/0/3 ten-gigabitethernet 3/0/4

[Device-vlan3] quit

# Create VLAN 4, and assign Ten-GigabitEthernet 3/0/5 and Ten-GigabitEthernet 3/0/6 to the VLAN.

[Device] vlan 4

[Device-vlan4] port ten-gigabitethernet 3/0/5 ten-gigabitethernet 3/0/6

[Device-vlan4] quit

# Configure VLAN 10 as a super VLAN, and associate sub-VLANs 2, 3, and 4 with the super VLAN.

[Device] vlan 10

[Device-vlan10] supervlan

[Device-vlan10] subvlan 2 3 4

[Device-vlan10] quit

# Enable the ARP sender IP address checking feature in VLAN 2 and specify the IP address range 10.1.1.1 to 10.1.1.10.

[Device] vlan 2

[Device-vlan2] arp sender-ip-range 10.1.1.1 10.1.1.10

Verifying the configuration

# Verify that the device accepts only ARP packets whose sender IP addresses are within the specified address range 10.1.1.1 to 10.1.1.10. The device discards the ARP packets with the sender IP addresses that are out of the range.

Enabling SNMP notifications for ARP

About this task

Enable SNMP notifications for ARP as required.

·     If you enable the ARP active acknowledgement notifications, the device sends a notification to the SNMP module when it does not establish an ARP entry because of the ARP active acknowledgement feature. The notification includes the sender IP and MAC addresses in the received ARP request.

·     If you enable the rate limit notifications for sending ARP Miss messages or ARP packets, the device sends the highest threshold-crossed rate as a notification to the SNMP module.

·     If you enable ARP entry limit notifications, the device sends the current number of ARP entries as a notification to the SNMP module when the number of global ARP entries exceeds the alarm threshold.

·     If you enable the endpoint and local device conflict notifications, the device sends a notification to the SNMP module when an endpoint and local device conflict occurs. The notification includes the sender IP address, sender MAC address, target IP address, and target MAC address in the received ARP packet.

·     If you enable rate limit notifications for receiving ARP packets, the device sends the highest threshold-crossed rate as a notification to the SNMP module.

·     If you enable the user IP address conflict notifications, the device sends a notification to the SNMP module when a user IP address conflict occurs. The notification includes the sender IP and MAC addresses in the received ARP packet, and MAC address in the corresponding local ARP entry.

·     If you enable the user port migration notifications, the device sends a notification to the SNMP module when a user port migrates. The notification includes the IP address, MAC address, port before migration, and port after migration of the user.

For ARP event notifications to be sent correctly, you must also configure SNMP on the device. For more information about SNMP configuration, see Network Management and Monitoring Configuration Guide.

Procedure

1.     Enter system view.

system-view

2.     Enable SNMP notifications for ARP.

snmp-agent trap enable arp [ active-ack | arp-miss | entry-limit | local-conflict | rate-limit | user-ip-conflict | user-move ] *

By default, SNMP notifications for ARP are disabled.

If you do not specify any keywords, this command enables all SNMP notifications for ARP.

Display and maintenance commands for dropped ARP packet statistics

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

 

Task	Command
Display statistics for dropped ARP packets.	display driver arp packet drop slot slot-number
Clear statistics for dropped ARP packets.	reset driver arp packet drop slot slot-number

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