SELECT(2) BSD System Calls Manual SELECT(2)

NAME
     FFDDCCLLRR, FFDDCCOOPPYY, FFDDIISSSSEETT, FFDDSSEETT, FFDDZZEERROO, sseelleecctt - synchronous I/O
     multiplexing

SYNOPSIS
     ##iinncclluuddee <>

     void
     FFDDCCLLRR(fd, fdset *fdset);

     void
     FFDDCCOOPPYY(fdset *fdsetorig, fdset *fdsetcopy);

     int
     FFDDIISSSSEETT(fd, fdset *fdset);

     void
     FFDDSSEETT(fd, fdset *fdset);

     void
     FFDDZZEERROO(fdset *fdset);

     int
     sseelleecctt(int nfds, fdset *restrict readfds, fdset *restrict writefds,
         fdset *restrict errorfds, struct timeval *restrict timeout);

DESCRIPTION
     SSeelleecctt() examines the I/O descriptor sets whose addresses are passed in
     readfds, writefds, and errorfds to see if some of their descriptors are
     ready for reading, are ready for writing, or have an exceptional condi-
     tion pending, respectively.  The first nfds descriptors are checked in
     each set; i.e., the descriptors from 0 through nfds-1 in the descriptor
     sets are examined.  (Example: If you have set two file descriptors "4"
     and "17", nfds should  not be "2", but rather "17 + 1" or "18".)  On
     return, sseelleecctt() replaces the given descriptor sets with subsets consist-
     ing of those descriptors that are ready for the requested operation.
     SSeelleecctt() returns the total number of ready descriptors in all the sets.

     The descriptor sets are stored as bit fields in arrays of integers.  The
     following macros are provided for manipulating such descriptor sets:
     FFDDZZEERROO(&fdset) initializes a descriptor set fdset to the null set.
     FFDDSSEETT(fd, &fdset) includes a particular descriptor fd in fdset.
     FFDDCCLLRR(fd, &fdset) removes fd from fdset.  FFDDIISSSSEETT(fd, &fdset) is non-
     zero if fd is a member of fdset, zero otherwise.  FFDDCCOOPPYY(&fdsetorig,
     &fdsetcopy) replaces an already allocated &fdsetcopy file descriptor
     set with a copy of &fdsetorig.  The behavior of these macros is unde-
     fined if a descriptor value is less than zero or greater than or equal to
     FDSETSIZE, which is normally at least equal to the maximum number of
     descriptors supported by the system.

     If timeout is a non-nil pointer, it specifies a maximum interval to wait
     for the selection to complete.  If timeout is a nil pointer, the select
     blocks indefinitely.  To effect a poll, the timeout argument should be
     non-nil, pointing to a zero-valued timeval structure.  Timeout is not
     changed by sseelleecctt(), and may be reused on subsequent calls, however it is
     good style to re-initialize it before each invocation of sseelleecctt().

     Any of readfds, writefds, and errorfds may be given as nil pointers if no
     descriptors are of interest.

RETURN VALUES
     SSeelleecctt() returns the number of ready descriptors that are contained in
     the descriptor sets, or -1 if an error occurred.  If the time limit
     expires, sseelleecctt() returns 0.  If sseelleecctt() returns with an error, includ-
     ing one due to an interrupted call, the descriptor sets will be unmodi-
     fied and the global variable errno will be set to indicate the error.

EERRRROORRSS
     An error return from sseelleecctt() indicates:

     [EAGAIN]           The kernel was (perhaps temporarily) unable to allo-
                        cate the requested number of file descriptors.

     [EBADF]            One of the descriptor sets specified an invalid
                        descriptor.

     [EINTR]            A signal was delivered before the time limit expired
                        and before any of the selected events occurred.

     [EINVAL]           The specified time limit is invalid.  One of its com-
                        ponents is negative or too large.

     [EINVAL]           ndfs is greater than FDSETSIZE and DARWINUNLIM-
                        ITEDSELECT is not defined.

LEGACY SYNOPSIS
     ##iinncclluuddee <>
           - or -
     ##iinncclluuddee <>
     ##iinncclluuddee <>
     ##iinncclluuddee <>

     FFDDSSEETT(fd, &fdset);

     FFDDCCLLRR(fd, &fdset);

     FFDDIISSSSEETT(fd, &fdset);

     FFDDCCOOPPYY(&fdsetorig, &fdsetcopy);

     FFDDZZEERROO(&fdset);

CCOOMMPPAATTIIBBIILLIITTYY
     sseelleecctt() now returns with errno set to EINVAL when nfds is greater than
     FDSETSIZE.  Use a smaller value for nfds or compile with -DDAR-
     WINUNLIMITEDSELECT.

SEE ALSO
     accept(2), connect(2), getdtablesize(2), gettimeofday(2), read(2),
     recv(2), send(2), write(2), compat(5)

BUGS
     Although the provision of getdtablesize(2) was intended to allow user
     programs to be written independent of the kernel limit on the number of
     open files, the dimension of a sufficiently large bit field for select
     remains a problem.  The default size FDSETSIZE (currently 1024) is some-
     what smaller than the current kernel limit to the number of open files.
     However, in order to accommodate programs which might potentially use a
     larger number of open files with select, it is possible to increase this
     size within a program by providing a larger definition of FDSETSIZE
     before the inclusion of .

     SSeelleecctt() should probably have been designed to return the time remaining
     from the original timeout, if any, by modifying the time value in place.
     However, it is unlikely this semantic will ever be implemented, as the
     change would cause source code compatibility problems.  In general it is
     unwise to assume that the timeout value will be unmodified by the
     sseelleecctt() call, and the caller should reinitialize it on each invocation.

HISTORY     The sseelleecctt() function call appeared in 4.2BSD.

4.2 Berkeley Distribution       March 25, 1994       4.2 Berkeley Distribution