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NAME

     unix — UNIX-domain protocol family

SYNOPSIS

     #include <sys/types.h>
     #include <sys/un.h>

DESCRIPTION

     The UNIX-domain protocol family is a collection of protocols that provides local (on-
     machine) interprocess communication through the normal socket(2) mechanisms.  The
     UNIX-domain family supports the SOCK_STREAM, SOCK_SEQPACKET, and SOCK_DGRAM socket types and
     uses file system pathnames for addressing.

ADDRESSING

     UNIX-domain addresses are variable-length file system pathnames of at most 104 characters.
     The include file <sys/un.h> defines this address:

           struct sockaddr_un {
                   u_char  sun_len;
                   u_char  sun_family;
                   char    sun_path[104];
           };

     Binding a name to a UNIX-domain socket with bind(2) causes a socket file to be created in
     the file system.  This file is not removed when the socket is closed — unlink(2) must be
     used to remove the file.

     The length of UNIX-domain address, required by bind(2) and connect(2), can be calculated by
     the macro SUN_LEN() defined in <sys/un.h>.  The sun_path field must be terminated by a NUL
     character to be used with SUN_LEN(), but the terminating NUL is not part of the address.

     The UNIX-domain protocol family does not support broadcast addressing or any form of
     “wildcard” matching on incoming messages.  All addresses are absolute- or relative-pathnames
     of other UNIX-domain sockets.  Normal file system access-control mechanisms are also applied
     when referencing pathnames; e.g., the destination of a connect(2) or sendto(2) must be
     writable.

CONTROL MESSAGES

     The UNIX-domain sockets support the communication of UNIX file descriptors and process
     credentials through the use of the msg_control field in the msg argument to sendmsg(2) and
     recvmsg(2).  The items to be passed are described using a struct cmsghdr that is defined in
     the include file <sys/socket.h>.

     To send file descriptors, the type of the message is SCM_RIGHTS, and the data portion of the
     messages is an array of integers representing the file descriptors to be passed.  The number
     of descriptors being passed is defined by the length field of the message; the length field
     is the sum of the size of the header plus the size of the array of file descriptors.

     The received descriptor is a duplicate of the sender's descriptor, as if it were created via
     dup(fd) or fcntl(fd, F_DUPFD_CLOEXEC, 0) depending on whether MSG_CMSG_CLOEXEC is passed in
     the recvmsg(2) call.  Descriptors that are awaiting delivery, or that are purposely not
     received, are automatically closed by the system when the destination socket is closed.

     Credentials of the sending process can be transmitted explicitly using a control message of
     type SCM_CREDS with a data portion of type struct cmsgcred, defined in <sys/socket.h> as
     follows:

     struct cmsgcred {
       pid_t cmcred_pid;             /* PID of sending process */
       uid_t cmcred_uid;             /* real UID of sending process */
       uid_t cmcred_euid;            /* effective UID of sending process */
       gid_t cmcred_gid;             /* real GID of sending process */
       short cmcred_ngroups;         /* number of groups */
       gid_t cmcred_groups[CMGROUP_MAX];     /* groups */
     };

     The sender should pass a zeroed buffer which will be filled in by the system.

     The group list is truncated to at most CMGROUP_MAX GIDs.

     The process ID cmcred_pid should not be looked up (such as via the KERN_PROC_PID sysctl) for
     making security decisions.  The sending process could have exited and its process ID already
     been reused for a new process.

SOCKET OPTIONS

     UNIX domain sockets support a number of socket options for the options level SOL_LOCAL,
     which can be set with setsockopt(2) and tested with getsockopt(2):

     LOCAL_CREDS     This option may be enabled on SOCK_DGRAM, SOCK_SEQPACKET, or a SOCK_STREAM
                     socket.  This option provides a mechanism for the receiver to receive the
                     credentials of the process calling write(2), send(2), sendto(2) or
                     sendmsg(2) as a recvmsg(2) control message.  The msg_control field in the
                     msghdr structure points to a buffer that contains a cmsghdr structure
                     followed by a variable length sockcred structure, defined in <sys/socket.h>
                     as follows:

                     struct sockcred {
                       uid_t sc_uid;         /* real user id */
                       uid_t sc_euid;        /* effective user id */
                       gid_t sc_gid;         /* real group id */
                       gid_t sc_egid;        /* effective group id */
                       int   sc_ngroups;     /* number of supplemental groups */
                       gid_t sc_groups[1];   /* variable length */
                     };

                     The current implementation truncates the group list to at most CMGROUP_MAX
                     groups.

                     The SOCKCREDSIZE() macro computes the size of the sockcred structure for a
                     specified number of groups.  The cmsghdr fields have the following values:

                     cmsg_len = CMSG_LEN(SOCKCREDSIZE(ngroups))
                     cmsg_level = SOL_SOCKET
                     cmsg_type = SCM_CREDS

                     On SOCK_STREAM and SOCK_SEQPACKET sockets credentials are passed only on the
                     first read from a socket, then the system clears the option on the socket.

                     This option and the above explicit struct cmsgcred both use the same value
                     SCM_CREDS but incompatible control messages.  If this option is enabled and
                     the sender attached a SCM_CREDS control message with a struct cmsgcred, it
                     will be discarded and a struct sockcred will be included.

                     Many setuid programs will write(2) data at least partially controlled by the
                     invoker, such as error messages.  Therefore, a message accompanied by a
                     particular sc_euid value should not be trusted as being from that user.

     LOCAL_CONNWAIT  Used with SOCK_STREAM sockets, this option causes the connect(2) function to
                     block until accept(2) has been called on the listening socket.

     LOCAL_PEERCRED  Requested via getsockopt(2) on a SOCK_STREAM socket returns credentials of
                     the remote side.  These will arrive in the form of a filled in xucred
                     structure, defined in <sys/ucred.h> as follows:

                     struct xucred {
                       u_int cr_version;             /* structure layout version */
                       uid_t cr_uid;                 /* effective user id */
                       short cr_ngroups;             /* number of groups */
                       gid_t cr_groups[XU_NGROUPS];  /* groups */
                     };
                     The cr_version fields should be checked against XUCRED_VERSION define.

                     The credentials presented to the server (the listen(2) caller) are those of
                     the client when it called connect(2); the credentials presented to the
                     client (the connect(2) caller) are those of the server when it called
                     listen(2).  This mechanism is reliable; there is no way for either party to
                     influence the credentials presented to its peer except by calling the
                     appropriate system call (e.g., connect(2) or listen(2)) under different
                     effective credentials.

                     To reliably obtain peer credentials on a SOCK_DGRAM socket refer to the
                     LOCAL_CREDS socket option.

SEE ALSO

     connect(2), dup(2), fcntl(2), getsockopt(2), listen(2), recvmsg(2), sendto(2),
     setsockopt(2), socket(2), CMSG_DATA(3), intro(4)

     “An Introductory 4.3 BSD Interprocess Communication Tutorial”, PS1, 7.

     “An Advanced 4.3 BSD Interprocess Communication Tutorial”, PS1, 8.