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PFIL(9) Kernel Developer's Manual PFIL(9)

pfil, pfil_head_register, pfil_head_unregister, pfil_head_get, pfil_add_hook, pfil_remove_hook, pfil_run_hookspacket filter interface

#include <sys/param.h>
#include <sys/mbuf.h>
#include <net/if.h>
#include <net/pfil.h>

typedef int
(*pfil_func_t)(void *arg, struct mbuf **mp, struct ifnet *ifp, int dir);

int
pfil_head_register(struct pfil_head *ph);

int
pfil_head_unregister(struct pfil_head *pfh);

struct pfil_head *
pfil_head_get(int type, u_long val);

int
pfil_add_hook(pfil_func_t func, void *arg, int flags, struct pfil_head *ph);

int
pfil_remove_hook(pfil_func_t func, void *arg, int flags, struct pfil_head *ph);

int
pfil_run_hooks(struct pfil_head *ph, struct mbuf **mp, struct ifnet *ifp, int dir);

The pfil framework allows for a specified function to be invoked for every incoming or outgoing packet for a particular network I/O stream. These hooks may be used to implement a firewall or perform packet transformations.

Packet filtering points are registered with (). Filtering points are identified by a key (void *) and a data link type (int) in the structure. Packet filters use the key and data link type to look up the filtering point with which they register themselves. The key is unique to the filtering point. The data link type is a bpf(4) DLT constant indicating what kind of header is present on the packet at the filtering point. Filtering points may be unregistered with the () function.

Packet filters register/unregister themselves with a filtering point with the () and () functions, respectively. The head is looked up using the () function, which takes the key and data link type that the packet filter expects. Filters may provide an argument to be passed to the filter when invoked on a packet.

When a filter is invoked, the packet appears just as if it “came off the wire”. That is, all protocol fields are in network byte order. The filter is called with its specified argument, the pointer to the pointer to the mbuf containing the packet, the pointer to the network interface that the packet is traversing, and the direction (PFIL_IN or PFIL_OUT, see also below) that the packet is traveling. The filter may change which mbuf the mbuf ** argument references. The filter returns an errno if the packet processing is to stop, or 0 if the processing is to continue. If the packet processing is to stop, it is the responsibility of the filter to free the packet.

The parameter, used in the () and () functions, indicates when the filter should be called. The flags are:

call me on incoming packets
call me on outgoing packets
call me on all of the above

bpf(4)

The pfil interface first appeared in NetBSD 1.3. The pfil input and output lists were originally implemented as <sys/queue.h> LIST structures; however this was changed in NetBSD 1.4 to TAILQ structures. This change was to allow the input and output filters to be processed in reverse order, to allow the same path to be taken, in or out of the kernel.

The pfil interface was changed in 1.4T to accept a 3rd parameter to both pfil_add_hook() and pfil_remove_hook(), introducing the capability of per-protocol filtering. This was done primarily in order to support filtering of IPv6.

In 1.5K, the pfil framework was changed to work with an arbitrary number of filtering points, as well as be less IP-centric.

The pfil interface was imported from NetBSD into DragonFly 1.0 and was reworked to suit a threaded kernel model in DragonFly 2.1.

The pfil interface was designed and implemented by Matthew R. Green, with help from Darren Reed, Jason R. Thorpe and Charles M. Hannum. Darren Reed added support for IPv6 in addition to IPv4. Jason R. Thorpe added support for multiple hooks and other clean up.

January 16, 2015 DragonFly-5.6.1