UNIX (7)
Sockets for local interprocess communication.
SYNOPSIS
#include <sys/socket.h>
#include <sys/un.h>
unix_socket " = socket(PF_UNIX, type, 0);"
error " = socketpair(PF_UNIX, type, 0, int *" sv ");"
DESCRIPTION
The
PF_UNIX
(also known as
PF_LOCAL )
socket family is used to communicate between processes on the same machine
efficiently. Unix sockets can be either anonymous (created by
socketpair (2))
or associated with a file of socket type.
Linux also supports an abstract namespace which is independent of the
file system.
Valid types are
SOCK_STREAM
for a stream oriented socket and
SOCK_DGRAM
for a datagram oriented socket that preserves message boundaries. Unix
sockets are always reliable and don't reorder datagrams.
Unix sockets support passing file descriptors or process credentials to other
processes as ancillary data to datagrams.
ADDRESS FORMAT
A unix address is defined as a filename in the filesystem or
as a unique string in the abstract namespace. Sockets created by
socketpair (2)
are anonymous. For non-anonymous sockets the target address can be set
using
connect (2).
The local address can be set using
bind (2).
When a socket is connected and it doesn't already have a local address a
unique address in the abstract namespace will be generated automatically.
#define UNIX_PATH_MAX 108
4n 17n 42n
struct sockaddr_un {
sa_family_t sun_family; /* AF_UNIX */
char sun_path[UNIX_PATH_MAX]; /* pathname */
};
sun_family
always contains
AF_UNIX .
sun_path
contains the zero-terminated pathname of the socket in the file system.
If
sun_path
starts with a zero byte it refers to the abstract namespace maintained by
the Unix protocol module.
The socket's address in this namespace is given by the rest of the bytes in
sun_path .
Note that names in the abstract namespace are not zero-terminated.
SOCKET OPTIONS
For historical reasons these socket options are specified with a
SOL_SOCKET type even though they are PF_UNIX specific.
They can be set with
setsockopt (2)
and read with
getsockopt (2)
by specifying SOL_SOCKET as the socket family.
SO_PASSCRED
enables the receiving of the credentials of the sending process
ancillary message. When this option is set and the socket is not connected
yet an unique name in the abstract namespace will be generated automatically.
Expects an integer boolean flag.
ANCILLARY MESSAGES
For historical reasons these ancillary message type are specified with a
SOL_SOCKET type even though they are PF_UNIX specific.
To send them set the
cmsg_level
field of the struct
cmsghdr
to SOL_SOCKET and the
cmsg_type
field to the type. For more information see
cmsg (3).
SCM_RIGHTS
Send or receive a set of open file descriptors from another process.
The data portion contains a integer array of the file descriptors.
The passed file descriptors behave as like they have been created with
dup (2).
SCM_CREDENTIALS
Send or receive unix credentials. This can be used for authentication.
The credentials are passed as a
struct ucred
ancillary message.
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struct ucred {
pid_t pid; /* process id of the sending process */
uid_t uid; /* user id of the sending process */
gid_t gid; /* group id of the sending process */
};
The credentials which the sender specifies are checked by the kernel.
A process with effective user id 0 is allowed to specify values that do
not match his own.
The sender must specify its own process id (unless it has
CAP_SYS_ADMIN ),
its user id, effective user id or set user id (unless it has
CAP_SETUID ),
and its group id, effective group id or set group id (unless it has
CAP_SETGID ).
To receive a
struct ucred
message the
SO_PASSCRED
option must be enabled on the socket.
VERSIONS
SCM_CREDENTIALS
and the abstract namespace were introduced with Linux 2.2 and should not
be used in portable programs.
NOTES
In the Linux implementation, sockets which are visible in the
filesystem honour the permissions of the directory they are in. Their
owner, group and their permissions can be changed.
Creation of a new socket will fail if the process does not have write and
search (execute) permission on the directory the socket is created in.
Connecting to the socket object requires read/write permission.
This behavior differs from many BSD derived systems which
ignore permissions for Unix sockets. Portable programs should not rely on
this feature for security.
Binding to a socket with a filename creates a socket
in the file system that must be deleted by the caller when it is no
longer needed (using
unlink (2)).
The usual Unix close-behind semantics apply; the socket can be unlinked
at any time and will be finally removed from the file system when the last
reference to it is closed.
To pass file descriptors or credentials you need to send/read at least
one byte.
ERRORS
ENOMEM
ECONNREFUSED
connect (2)
called with a socket object that isn't listening. This can happen when
the remote socket does not exist or the filename is not a socket.
EINVAL
Invalid argument passed. A common cause is the missing setting of AF_UNIX
in the sun_type field of passed addresses or the socket being in an invalid
state for the applied operation.
EOPNOTSUPP
Stream operation called on non-stream oriented socket or tried to
use the out-of-band data option.
EPROTONOSUPPORT
Passed protocol is not PF_UNIX.
ESOCKTNOSUPPORT
EPROTOTYPE
Remote socket does not match the local socket type (SOCK_DGRAM vs.
SOCK_STREAM)
EADDRINUSE
Selected local address is already taken or filesystem socket object already
exists.
EISCONN
connect (2)
called on an already connected socket or a target address was
specified on a connected socket.
ENOTCONN
Socket operation needs a target address, but the socket is not connected.
ECONNRESET
Remote socket was unexpectedly closed.
EPIPE
Remote socket was closed on a stream socket. If enabled, a
SIGPIPE
is sent as well. This can be avoided by passing the
MSG_NOSIGNAL
flag to
sendmsg (2)
or
recvmsg (2).
EFAULT
User memory address was not valid.
EPERM
The sender passed invalid credentials in the
struct ucred .
Other errors can be generated by the generic socket layer or
by the filesystem while generating a filesystem socket object. See
the appropriate manual pages for more information.
SEE ALSO
CREDITS
This man page was writen by Andi Kleen.
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