ARP (7)
Linux ARP kernel module.
DESCRIPTION
This kernel protocol module implements the Address Resolution
Protocol defined in RFC 826.
It is used to convert between Layer2 hardware addresses
and IPv4 protocol addresses on directly connected networks.
The user normally doesn't interact directly with this module except to
configure it;
instead it provides a service for other protocols in the kernel.
A user process can receive ARP packets by using
packet (7)
sockets. There is also a mechanism for managing the ARP cache
in user-space by using
netlink (7)
sockets. The ARP table can also be controlled via
ioctl (2)
on any
PF_INET
socket.
The ARP module maintains a cache of mappings between hardware addresses
and protocol addresses. The cache has a limited size so old and less
frequently used entries are garbage-collected. Entries which are marked
as permanent are never deleted by the garbage-collector. The cache can
be directly manipulated by the use of ioctls and its behaviour can be
tuned by the sysctls defined below.
When there is no positive feedback for a existing mapping after some
time (see the sysctls below) a neighbour cache entry is considered stale.
To send data to the target again
ARP first tries to ask a local arp daemon
app_solicit
times for an updated MAC address.
If that fails and an old MAC address is known an unicast probe is send
ucast_solicit
times. If that fails too it will broadcast a new ARP
request to the network. Requests are only send when there is data queued
for sending.
Linux will automatically add a non-permanent proxy arp entry when it receives
an request for a address it forwards to and proxy arp is enabled on the
receiving interface. When there is a reject route for the target
no proxy arp entry is added.
IOCTLS
Three ioctls are available on all
PF_INET
sockets.
They take a pointer to a
struct arpreq
as their parameter.
4 20 33
struct arpreq
{
struct sockaddr arp_pa; /* protocol address */
struct sockaddr arp_ha; /* hardware address */
int arp_flags; /* flags */
struct sockaddr arp_netmask; /* netmask of protocol address */
char arp_dev[16];
};
SIOCSARP , SIOCDARP and SIOCGARP
respectively set, delete and get an ARP mapping.
Setting & deleting ARP maps are privileged operations and may
only be performed by a process with the
CAP_NET_ADMIN
capability or an effective UID of 0.
arp_pa
must be an
AF_INET
socket and
arp_ha
must have the same type as the device which is specified in
arp_dev .
arp_dev
is a zero-terminated string which names a device.
tab(:) allbox;
c s
l l.
arp_flags
flag:meaning
ATF_COM:Lookup complete
ATF_PERM:Permanent entry
ATF_PUBL:Publish entry
ATF_USETRAILERS:Trailers requested
ATF_NETMASK:Use a netmask
ATF_DONTPUB:Don't answer
If the
ATF_NETMASK
flag is set, then
arp_netmask
should be valid.
Linux 2.2 does not support proxy network ARP entries, so this
should be set to 0xffffffff, or 0 to remove an existing proxy arp entry.
ATF_USETRAILERS
is obsolete and should not be used.
SYSCTLS
ARP supports a sysctl interface to configure parameters on a global
or per-interface basis.
The sysctls can be accessed by reading or writing the
/proc/sys/net/ipv4/neigh/*/*
files or with the
sysctl (2)
interface. Each interface in the system has its own directory in
/proc/sys/net/ipv4/neigh/.
The setting in the `default' directory is used for all newly created devices.
Unless otherwise specified time related sysctls are specified in seconds.
anycast_delay
The maximum number of jiffies to delay before replying to a
IPv6 neighbour solicitation message.
Anycast support is not yet implemented.
Defaults to 1 second.
app_solicit
The maximum number of probes to send to the user space ARP daemon via
netlink before dropping back to multicast probes (see
mcast_solicit ).
Defaults to 0.
base_reachable_time
Once a neighbour has been found, the entry is considered to be valid
for at least a random value between
base_reachable_time /2 and 3* base_reachable_time /2.
An entry's validity will be extended if it receives positive feedback
from higher level protocols.
Defaults to 30 seconds.
delay_first_probe_time
Delay before first probe after it has been decided that a neighbour
is stale.
Defaults to 5 seconds.
gc_interval
How frequently the garbage collector for neighbour entries
should attempt to run.
Defaults to 30 seconds.
gc_stale_time
Determines how often to check for stale neighbour entries. When
a neighbour entry is considered stale it is resolved again before
sending data to it.
Defaults to 60 seconds.
gc_thresh1
The minimum number of entries to keep in the ARP cache.
The garbage collector will not run if there are fewer than
this number of entries in the cache.
Defaults to 128.
gc_thresh2
The soft maximum number of entries to keep in the ARP cache.
The garbage collector will allow the number of entries to exceed
this for 5 seconds before collection will be performed.
Defaults to 512.
gc_thresh3
The hard maximum number of entries to keep in the ARP cache.
The garbage collector will always run if there are more than
this number of entries in the cache.
Defaults to 1024.
locktime
The minimum number of jiffies to keep an ARP entry in the cache.
This prevents ARP cache thrashing if there is more than one potential
mapping (generally due to network misconfiguration).
Defaults to 1 second.
mcast_solicit
The maximum number of attempts to resolve an address by multicast/broadcast
before marking the entry as unreachable.
Defaults to 3.
proxy_delay
When an ARP request for a known proxy-ARP address is received, delay up to
proxy_delay
jiffies before replying.
This is used to prevent network flooding in some cases.
Defaults to 0.8 seconds.
proxy_qlen
The maximum number of packets which may be queued to proxy-ARP addresses.
Defaults to 64.
retrans_time
The number of jiffies to delay before retransmitting a request.
Defaults to 1 second.
ucast_solicit
The maximum number of attempts to send unicast probes before asking
the ARP daemon (see
app_solicit ).
Defaults to 3.
unres_qlen
The maximum number of packets which may be queued for each unresolved
address by other network layers.
Defaults to 3.
BUGS
Some timer settings are specified in jiffies, which is architecture related.
On the Alpha a jiffy is 1/1024 of a second, on most other architectures it
is 1/100s.
There is no way to signal positive feedback from user space. This means
connection oriented protocols implemented in user space will generate
excessive ARP traffic, because ndisc will regularly reprobe the MAC address.
The same problem applies for the kernel NFS implementation.
This man page mashes IPv4 specific and shared between IPv4 and IPv6
functionality together.
VERSIONS
The
struct arpreq
changed in Linux 2.0 to include the
arp_dev
member and the ioctl numbers changed at the same time.
Support for the old ioctls was dropped in Linux 2.2.
Support for proxy arp entries for networks (netmask not equal 0xffffffff)
was dropped in Linux 2.2. It is replaced by automatic proxy arp setup by
the kernel for all reachable hosts on other interfaces (when forwarding and
proxy arp is enabled for the interface).
SEE ALSO
- ip (7) -
RFC826 for a description of ARP RFC2461 for a description of IPv6 neighbour discovery and the base algorithms used ' " t
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