table of contents
RTALLOC(9) | Kernel Developer's Manual | RTALLOC(9) |
NAME¶
rtalloc1_fib
,
rtalloc_ign_fib
, rtalloc_fib
— look up a route in the kernel routing
table
SYNOPSIS¶
#include
<sys/types.h>
#include <sys/socket.h>
#include <net/route.h>
struct rtentry *
rtalloc1_fib
(struct
sockaddr *dst, int
report, u_long
flags, u_int
fibnum);
void
rtalloc_fib
(struct
route *ro, u_int
fibnum);
void
rtalloc_ign_fib
(struct
route *ro, u_long
flags, u_int
fibnum);
RTFREE_LOCKED
(struct
rt_entry *rt);
RTFREE
(struct
rt_entry *rt);
RT_LOCK
(struct
rt_entry *rt);
RT_UNLOCK
(struct
rt_entry *rt);
RT_ADDREF
(struct
rt_entry *rt);
RT_REMREF
(struct
rt_entry *rt);
RO_RTFREE
(struct
route *ro);
void
rtfree
(struct
rt_entry *rt);
struct rtentry *
rtalloc1
(struct
sockaddr *dst, int
report, u_long
flags);
void
rtalloc
(struct
route *ro);
void
rtalloc_ign
(struct
route *ro, u_long
flags);
options RADIX_MPATH
DESCRIPTION¶
The kernel uses a radix tree structure to manage routes for the
networking subsystem. If compiled with options
RADIX_MPATH
kernel may maintain several independent forwarding
information databases (FIBs). The
rtalloc
()
family of routines is used by protocols to query these structures for a
route corresponding to a particular end-node address, and to cause certain
protocol- and interface-specific actions to take place.
The
rtalloc1_fib
()
function is the most general form of rtalloc
(), and
all of the other forms are implemented as calls to it. It takes a
struct sockaddr * directly as the
dst argument. The second argument,
report, controls whether the routing sockets are
notified when a lookup fails. The third argument,
flags, is a combination of the following values:
RTF_RNH_LOCKED
indicates that the radix tree lock is already held
The last argument fibnum
specifies number of forwarding information database (FIB) on which the
lookup should be performed. In case of success the
rtalloc1_fib
()
function returns a pointer to a locked struct rtentry
with an additional reference.
The
rtalloc_fib
()
is the most simple variant. Its main argument is ro, a
pointer to a struct route, which is defined as
follows:
struct route { struct rtentry *ro_rt; struct llentry *ro_lle; struct sockaddr ro_dst; };
Thus, this function can only be used for
address families which are smaller than the default struct
sockaddr. Before calling
rtalloc_fib
()
for the first time, callers should ensure that unused bits of the structure
are set to zero. The second argument fibnum is FIB
number. In case of success of the rtalloc_fib
() the
ro_rt points to a valid and unlocked
rtentry(9), which has an additional reference put on it,
freeing which is responsibility of the caller. On subsequent calls,
rtalloc_fib
() returns without performing a lookup if
ro->ro_rt is non-null and the
RTF_UP
flag is set in the rtentry's
rt_flags field.
The
rtalloc_ign_fib
()
function is the same as the rtalloc_fib
(), but there
is additional flags argument, which is same as in
rtalloc1_fib
().
The
RTFREE_LOCKED
()
macro is used to unref and possibly free a locked routing entry with one our
reference, for example previously allocated by
rtalloc1_fib
().
The
RTFREE
()
macro is used to unref and possibly free an unlocked route entries with one
our reference, for example previously allocated by
rtalloc_fib
() or
rtalloc_ign_fib
().
Both
RTFREE_LOCKED
()
and RTFREE
() macros decrement the reference count on
the routing table entry, and proceed with actual freeing if the reference
count has reached zero.
The
RT_LOCK
()
macro is used to lock a routing table entry.
The
RT_UNLOCK
()
macro is used to unlock a routing table entry.
The
RT_ADDREF
()
macro increments the reference count on a previously locked route entry. It
should be used whenever a reference to an rtentry(9) is
going to be stored outside the routing table.
The
RT_REMREF
()
macro decrements the reference count on a previously locked route entry. Its
usage is contrary to RT_ADDREF
().
The
RO_RTFREE
()
macro is used to free route entry that is referenced by struct route. At
certain circumstances the latter may not hold a reference on rtentry, and
RO_RTFREE
() treats such routes correctly.
The
rtfree
()
function does the actual free of the routing table entry, and shouldn't be
called directly by facilities, that just perform routing table lookups.
LEGACY INTERFACE¶
Prior to introduction of multiple routing tables functions did not
require the u_int fibnum argument. Legacy
rtalloc1
(),
rtalloc
() and
rtalloc_ign
()
functions are kept for compatibility, and are equivalent to calling new
interface with fibnum argument equal to
0, which implies default forwarding table.
RETURN VALUES¶
The rtalloc1_fib
() function returns a
pointer to a locked routing-table entry if it succeeds, otherwise a null
pointer. The rtalloc_fib
() and
rtalloc_ign_fib
() functions do not return a value,
but they fill in the *ro_rt member of the
*ro argument with a pointer to an unlocked
routing-table entry if they succeed, otherwise a null pointer. In a case of
success all functions put a reference on the routing-table entry, freeing of
which is responsibility of the caller. Lack of a route should in most cases
be translated to the errno(2) value
EHOSTUNREACH
.
SEE ALSO¶
HISTORY¶
The rtalloc
facility first appeared in
4.2BSD, although with much different internals. The
rtalloc_ign
() function and the
flags argument to rtalloc1
()
first appeared in FreeBSD 2.0. Routing table locking
was introduced in FreeBSD 5.2. Multiple routing
tables were introduced in FreeBSD 8.0.
AUTHORS¶
The original version of this manual page was written by Garrett Wollman. It was significantly updated by Gleb Smirnoff.
July 4, 2012 | Debian |