ROUTING(4P) Protocols ROUTING(4P)
NAME
routing - system support for packet network routing
DESCRIPTION
The network facilities provide general packet routing. The
routing interface described here can be used to maintain the system's IPv4
routing table. It has been maintained for compatibility with older
applications. The recommended interface for maintaining the system's
routing tables is the routing socket, described at
route(4P). The routing
socket can be used to manipulate both the IPv4 and IPv6 routing tables of
the system. Routing table maintenance may be implemented in applications
processes.
A simple set of data structures compose a "routing table" used in
selecting the appropriate network interface when transmitting packets.
This table contains a single entry for each route to a specific network
or host. The routing table was designed to support routing for the
Internet Protocol (IP), but its implementation is protocol independent
and thus it may serve other protocols as well. User programs may
manipulate this data base with the aid of two
ioctl(2) commands,
SIOCADDRT and
SIOCDELRT. These commands allow the addition and deletion
of a single routing table entry, respectively. Routing table
manipulations may only be carried out by privileged user.
A routing table entry has the following form, as defined in
/usr/include/net/route.h:
struct rtentry {
unit_t rt_hash; /* to speed lookups */
struct sockaddr rt_dst; /* key */
struct sockaddr rt_gateway; /* value */
short rt_flags; /* up/down?, host/net */
short rt_refcnt; /* # held references */
unit_t rt_use; /* raw # packets forwarded */
/*
* The kernel does not use this field, and without it the structure is
* datamodel independent.
*/
#if !defined(_KERNEL)
struct ifnet *rt_ifp; /* the answer: interface to use */
#endif /* !defined(_KERNEL) */
};
with
rt_flags defined from:
#define RTF_UP 0x1 /* route usable */
#define RTF_GATEWAY 0x2 /* destination is a gateway */
#define RTF_HOST 0x4 /* host entry (net otherwise) */
There are three types of routing table entries: those for a specific
host, those for all hosts on a specific network, and those for any
destination not matched by entries of the first two types, called a
wildcard route. Each network interface installs a routing table entry
when it is initialized. Normally the interface specifies if the route
through it is a "direct" connection to the destination host or network.
If the route is direct, the transport layer of a protocol family usually
requests the packet be sent to the same host specified in the packet.
Otherwise, the interface may be requested to address the packet to an
entity different from the eventual recipient; essentially, the packet is
forwarded.
Routing table entries installed by a user process may not specify the
hash, reference count, use, or interface fields; these are filled in by
the routing routines. If a route is in use when it is deleted, meaning
its
rt_refcnt is non-zero, the resources associated with it will not be
reclaimed until all references to it are removed.
User processes read the routing tables through the
/dev/ip device.
The
rt_use field contains the number of packets sent along the route.
This value is used to select among multiple routes to the same
destination. When multiple routes to the same destination exist, the
least used route is selected.
A wildcard routing entry is specified with a
zero destination address
value. Wildcard routes are used only when the system fails to find a
route to the destination host and network. The combination of wildcard
routes and routing redirects can provide an economical mechanism for
routing traffic.
ERRORS
EEXIST A request was made to duplicate an existing entry.
ESRCH A request was made to delete a non-existent entry.
ENOBUFS Insufficient resources were available to install a new
route.
ENOMEM Insufficient resources were available to install a new
route.
ENETUNREACH The gateway is not directly reachable. For example, it
does not match the destination/subnet on any of the
network interfaces.
FILES
/dev/ip IP device driver
SEE ALSO
ioctl(2),
route(4P),
route(8) November 9, 1999
ROUTING(4P)