Configuring Unicast RPF

This chapter describes how to configure rate limits for egress traffic on Cisco NX-OS devices and includes the following sections:.

Information About Unicast RPF

The Unicast RPF feature reduces problems that are caused by the introduction of malformed or forged (spoofed) IPv4 source addresses into a network by discarding IPv4 packets that lack a verifiable IP source address. For example, a number of common types of Denial-of-Service (DoS) attacks, including Smurf and Tribal Flood Network (TFN) attacks, can take advantage of forged or rapidly changing source IPv4 addresses to allow attackers to thwart efforts to locate or filter the attacks. Unicast RPF deflects attacks by forwarding only the packets that have source addresses that are valid and consistent with the IP routing table.

When you enable Unicast RPF on an interface, the switch examines all ingress packets received on that interface to ensure that the source address and source interface appear in the routing table and match the interface on which the packet was received. This examination of source addresses relies on the Forwarding Information Base (FIB).


Note


Unicast RPF is an ingress function and is applied only on the ingress interface of a switch at the upstream end of a connection.


Unicast RPF verifies that any packet received at a switch interface arrives on the best return path (return route) to the source of the packet by doing a reverse lookup in the FIB. If the packet was received from one of the best reverse path routes, the packet is forwarded as normal. If there is no reverse path route on the same interface from which the packet was received, the source address might have been modified by the attacker. If Unicast RPF does not find a reverse path for the packet, the packet is dropped.


Note


With Unicast RPF, all equal-cost “best” return paths are considered valid, which means that Unicast RPF works where multiple return paths exist, if each path is equal to the others in terms of the routing cost (number of hops, weights, and so on) and as long as the route is in the FIB. Unicast RPF also functions where Enhanced Interior Gateway Routing Protocol (EIGRP) variants are being used and unequal candidate paths back to the source IP address exist.


Unicast RPF

The Unicast Reverse Path Forwarding (RPF) feature reduces problems that are caused by the introduction of malformed or forged (spoofed) IP source addresses into a network by discarding IP packets that lack a verifiable IP source address. For example, a number of common types of Denial-of-Service (DoS) attacks, including Smurf and Tribal Flood Network (TFN) attacks, can take advantage of forged or rapidly changing source IP addresses to allow attackers to thwart efforts to locate or filter the attacks. Unicast RPF deflects attacks by forwarding only the packets that have source addresses that are valid and consistent with the IP routing table.

Global Statistics

Each time the Cisco NX-OS device drops a packet at an interface due to a failed unicast RPF check, that information is counted globally on the device on a per-forwarding engine (FE) basis. Global statistics on dropped packets provide information about potential attacks on the network, but they do not specify which interface is the source of the attack. Per-interface statistics on packets dropped due to a failed unicast RPF check are not available.

Guidelines and Limitations for Unicast RPF

Unicast RPF has the following configuration guidelines and limitations:

  • In Warp mode that is unique to Cisco Nexus 3548 Series switches, when URPF is enabled, the number of multicast entries is halved from 8k to 4k. Similarly, the number of host entries is also halved from 8k to 4k. In Normal mode, the number of LPM entries supported is halved (from 24k to 12k) but this is similar to that in Cisco Nexus 3000 Series switches.

  • You must apply Unicast RPF at the interface downstream from the larger portion of the network, preferably at the edges of your network.

  • The further downstream that you apply Unicast RPF, the finer the granularity you have in mitigating address spoofing and in identifying the sources of spoofed addresses. For example, applying Unicast RPF on an aggregation device helps to mitigate attacks from many downstream networks or clients and is simple to administer, but it does not help identify the source of the attack. Applying Unicast RPF at the network access server helps limit the scope of the attack and trace the source of the attack; however, deploying Unicast RPF across many sites does add to the administration cost of operating the network.

  • The more entities that deploy Unicast RPF across Internet, intranet, and extranet resources, means that the better the chances are of mitigating large-scale network disruptions throughout the Internet community, and the better the chances are of tracing the source of an attack.

  • Unicast RPF will not inspect IP packets that are encapsulated in tunnels, such as generic routing encapsulation (GRE) tunnels. You must configure Unicast RPF at a home gateway so that Unicast RPF processes network traffic only after the tunneling and encryption layers have been stripped off the packets.

  • You can use Unicast RPF in any “single-homed” environment where there is only one access point out of the network or one upstream connection. Networks that have one access point provide symmetric routing, which means that the interface where a packet enters the network is also the best return path to the source of the IP packet.

  • Do not use Unicast RPF on interfaces that are internal to the network. Internal interfaces are likely to have routing asymmetry, which means that multiple routes to the source of a packet exist. You should configure Unicast RPF only where there is natural or configured symmetry. Do not configure strict Unicast RPF.

  • Unicast RPF allows packets with 0.0.0.0 source and 255.255.255.255 destination to pass so that the Bootstrap Protocol (BOOTP) and the Dynamic Host Configuration Protocol (DHCP) can operate correctly.

Default Settings for Unicast RPF

This table lists the default settings for Unicast RPF parameters.

Table 1. Default Unicast RPF Parameter Settings

Parameters

Default

Unicast RPF

Disabled

Configuring Unicast RPF

You can configure one of the following Unicast RPF modes on an ingress interface:

Strict Unicast RPF mode
A strict mode check is successful when Unicast RFP finds a match in the FIB for the packet source address and the ingress interface through which the packet is received matches one of the Unicast RPF interfaces in the FIB match. If this check fails, the packet is discarded. You can use this type of Unicast RPF check where packet flows are expected to be symmetrical.
Loose Unicast RPF mode
A loose mode check is successful when a lookup of a packet source address in the FIB returns a match and the FIB result indicates that the source is reachable through at least one real interface. The ingress interface through which the packet is received is not required to match any of the interfaces in the FIB result.

SUMMARY STEPS

  1. configure terminal
  2. (Optional) hardware profile forwarding-mode warp lpm-entry lpm-limit host-entry host-entry-limit l2-entry l2-entry limit mcast-entry mcast-entry-limit
  3. [no] system urpf disable
  4. interface ethernet slot/port
  5. ip verify unicast source reachable-via {any [allow-default] | rx}
  6. exit
  7. (Optional) show ip interface ethernet slot/port
  8. (Optional) show running-config interface ethernet slot/port
  9. (Optional) copy running-config startup-config

DETAILED STEPS

  Command or Action Purpose

Step 1

configure terminal

Example:

switch# configure terminal
switch(config)#

Enters global configuration mode.

Step 2

(Optional) hardware profile forwarding-mode warp lpm-entry lpm-limit host-entry host-entry-limit l2-entry l2-entry limit mcast-entry mcast-entry-limit

Example:

switch(config)# hardware profile forwarding-mode warp lpm-entry 4096 host-entry 4096 l2-entry 8192 mcast-entry 4096
(Optional)

Configures the specified carve value for lpm-entry, host-entry, and mcast-entry in forwarding-mode. For more details on the TCAM carve value of wrap mode, see .

Note

 

This command is applicable only for wrap mode when URPF is enabled.

Step 3

[no] system urpf disable

Example:

switch(config)# no system urpf disable

Enables Unicast RPF on the switch.

Note

 

You must reload the Cisco NX-OS switch to apply the Unicast RPF configuration.

Step 4

interface ethernet slot/port

Example:

switch(config)# interface ethernet 1/3
switch(config-if)#

Specifies an Ethernet interface and enters interface configuration mode.

Step 5

ip verify unicast source reachable-via {any [allow-default] | rx}

Example:

switch(config-if)# ip verify unicast source reachable-via any

Configures Unicast RPF on the interface for IPv4.

The any keyword specifies loose Unicast RPF.

If you specify the allow-default keyword, the source address lookup can match the default route and use that for verification.

The rx keyword specifies strict Unicast RPF.

Step 6

exit

Example:

switch(config-cmap)# exit
switch(config)#

Exits class map configuration mode.

Step 7

(Optional) show ip interface ethernet slot/port

Example:

switch(config)# show ip interface ethernet 1/3
(Optional)

Displays the IP information for an interface.

Step 8

(Optional) show running-config interface ethernet slot/port

Example:

switch(config)# show running-config interface ethernet 1/3
(Optional)

Displays the configuration for an interface in the running configuration.

Step 9

(Optional) copy running-config startup-config

Example:

switch(config)# copy running-config startup-config
(Optional)

Copies the running configuration to the startup configuration.

Configuration Examples for Unicast RPF

The following example shows how to configure loose Unicast RFP for IPv4 packets:

no system urpf disable
interface Ethernet1/3
  ip address 172.23.231.240/23
  ip verify unicast source reachable-via any

The following example shows how to configure strict Unicast RPF for IPv4 packets:

no system urpf disable
interface Ethernet1/2
  ip address 172.23.231.240/23
  ip verify unicast source reachable-via rx

Verifying the Unicast RPF Configuration

To display Unicast RPF configuration information, perform one of the following tasks:

Command

Purpose

show running-config interface ethernet slot/port

Displays the interface configuration in the running configuration.

show running-config ip [all]

Displays the IPv4 configuration in the running configuration.

show startup-config interface ethernet slot/port

Displays the interface configuration in the startup configuration.

show startup-config ip

Displays the IP configuration in the startup configuration.