ARP(4P) BSD ARP(4P)
NAME
arp - Address Resolution Protocol
SYNOPSIS
pseudo-device ether
DESCRIPTION
ARP is a protocol used to dynamically map between DARPA Internet and
10MB/s ETHERNET* addresses. It is used by all the 10MB/s ETHERNET
interface drivers. It is not specific to Internet protocols or to 10MB/s
ETHERNET, but this implementation currently supports only that
combination.
ARP caches Internet-Ethernet address mappings. When an interface
requests a mapping for an address not in the cache, ARP queues the
message which requires the mapping and broadcasts a message on the
associated network requesting the address mapping. If a response is
provided, the new mapping is cached and any pending message is
transmitted. ARP will queue at most one packet while waiting for a
mapping request to be responded to; only the most recently "transmitted"
packet is kept.
To facilitate communications with systems which do not use ARP, ioctls
are provided to enter and delete entries in the Internet-to-Ethernet
tables. Usage:
#include <sys/ioctl.h>
#include <sys/socket.h>
#include <net/if.h>
struct arpreq arpreq;
ioctl(s, SIOCSARP, (caddr_t)&arpreq);
ioctl(s, SIOCGARP, (caddr_t)&arpreq);
ioctl(s, SIOCDARP, (caddr_t)&arpreq);
Each ioctl takes the same structure as an argument. SIOCSARP sets an ARP
entry, SIOCGARP gets an ARP entry, and SIOCDARP deletes an ARP entry.
These ioctls may be applied to any socket descriptor s, but only by the
super-user. The arpreq structure contains:
/*
* ARP ioctl request
*/
struct arpreq {
struct sockaddr arp_pa; /* protocol address */
struct sockaddr arp_ha; /* hardware address */
int arp_flags;/* flags */
};
/* arp_flags field values */
#define ATF_COM 0x02/* completed entry (arp_ha valid) */
#define ATF_PERM 0x04 /* permanent entry */
#define ATF_PUBL 0x08 /* publish (respond for other host) */
#define ATF_USETRAILERS 0x10 /* send trailer packets to host */
The address family for the arp_pa sockaddr must be AF_INET; for the
arp_ha sockaddr it must be AF_UNSPEC. The only flag bits which may be
written are ATF_PERM, ATF_PUBL and ATF_USETRAILERS. ATF_PERM causes the
entry to be permanent if the ioctl call succeeds. The peculiar nature of
the ARP tables may cause the ioctl to fail if more than 8 (permanent)
Internet host addresses hash to the same slot. ATF_PUBL specifies that
the ARP code should respond to ARP requests for the indicated host coming
from other machines. This allows a host to act as an "ARP server," which
may be useful in convincing an ARP-only machine to talk to a non-ARP
machine.
ARP is also used to negotiate the use of trailer IP encapsulations;
trailers are an alternate encapsulation used to allow efficient packet
alignment for large packets despite variable-sized headers. Hosts which
wish to receive trailer encapsulations so indicate by sending gratuitous
ARP translation replies along with replies to IP requests; they are also
sent in reply to IP translation replies. The negotiation is thus fully
symmetrical, in that either or both hosts may request trailers. The
ATF_USETRAILERS flag is used to record the receipt of such a reply, and
enables the transmission of trailer packets to that host.
ARP watches passively for hosts impersonating the local host (that is a
host which responds to an ARP mapping request for the local host's
address).
DIAGNOSTICS
duplicate IP address!! sent from ETHERNET address: %x:%x:%x:%x:%x:%x. ARP
has discovered another host on the local network which responds to
mapping requests for its own Internet address.
SEE ALSO
inet(4F), arp(8C), ifconfig(8C)
"An ETHERNET Address Resolution Protocol," RFC826, Dave Plummer, Network
Information Center, SRI.
"Trailer Encapsulations," RFC893, S.J. Leffler and M.J. Karels, Network
Information Center, SRI.
NOTES
*ETHERNET is a registered trademark of the Xerox Corporation.
BUGS
ARP packets on the ETHERNET use only 42 bytes of data; however, the
smallest legal ETHERNET packet is 60 bytes (not including CRC). Some
systems may not enforce the minimum packet size, others will.