Failover with CARP in PF: Part One

Failover with CARP in PF

FailoverCommon Address Redundancy Protocol (CARP) is a protocol which allows multiple hosts on the same local network to share a set of IP addresses. Its primary purpose is to provide failover redundancy. It was developed as a non-patent-encumbered alternative to Virtual Router Redundancy Protocol (VRRP), which is defined in RFC 2281 and 3768 and was quite far along towards becoming an IETF-sanctioned standard. It is also an alternative to the Hot Standby Router Protocol (HSRP). It manages failover at the intersection of the link layer and IP layer of the OSI model. Each CARP group has a virtual MAC address, and the CARP advertisements are sent out with this as the source address, which helps switches determine which port the virtual MAC address is currently at.

One of the main purposes of CARP is to ensure that the network will keep functioning even when a firewall goes down because of errors or planned maintenance activities such as upgrades (failover). CARP works by allowing a group of hosts on the same network segment to share an IP address. This group of hosts is referred to as a “redundancy group”. The redundancy group is assigned an IP address that is shared among the group members. Within the group, one host is designated as the master and the other as backups. The master host is the one that currently holds the shared IP; it responds to any traffic or ARP requests directed at it. If the master goes down, one of the backups will inherit the IP address. The handover from one CARP host to another may be authenticated, essentially by setting a shared secret, much like a password. The master then sends out CARP advertisement messages via multicast using the CARP protocol (IP Protocol 112) on a regular basis, and the backup hosts listen for this advertisement. If the advertisements stop, the backup hosts will begin advertising. The advertisement frequency is configurable, and the host which advertises the most frequently is the one most likely to become master in the event of a failure.

CARP is rather similar to VRRP, with a few significant differences:

  • The CARP protocol is address family independent, with the OpenBSD implementation supporting both IPv4 and IPv6.
  • CARP has an “arpbalance” feature that allows multiple hosts to share a single IP address simultaneously (in this configuration, there is a virtual MAC address for each host, but only one IP address).
  • CARP uses a cryptographically strong SHA-1 keyed-hash message authentication code (HMAC) to protect each advertisement.

Some synchronization is required, an at least in the case of PF firewalls, pfsync can handle it. If it is done properly, active connections will be handed over without noticeable interruption. The purpose of pfsync in this context is to act as a virtual network interface specially designed to synchronize state information between PF firewalls. In order to ensure that pfsync meets the packet volume and latency requirements, the initial implementation has no built-in authentication. An attacker who has local link layer access to the subnet used for pfsync traffic can add, change, or remove states from the firewalls. Therefore, it is strongly recommended that a dedicated, trusted network be used for pfsync. This can be as simple as a crossover cable between interfaces on two firewalls.

Failover with CARP: Configuration

Here is a simple example CARP configuration:

sysctl -w net.inet.card.allow=1
ifconfig carp1 create
ifconfig carp1 vhid 1 pass password carpdev em0 \
advskew 100 netmask

This does the following:

  • Enales receipt of CARP packets (the default setting)
  • Creates a carp(4) interface (carp1)
  • Configures carp1 for virtual host #1, enables a password, sets em0 as the interface belonging to the group, and makes the host a backup die to the advskew of 100 (assuming the master has an advskew less than 100). The shared IP assigned to this group is

In the next article, I will cover failover CARP configuration in BSD with some real world scenarios.

External Links:

Firewall Redundancy with CARP and pfsync at

Firewall Failover with pfsync and CARP at

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