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330 lines
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330 lines
18 KiB
Groff
SELECT(2) Linux Programmer's Manual SELECT(2)
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NAME
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select, pselect, FD_CLR, FD_ISSET, FD_SET, FD_ZERO - synchronous I/O multiplexing
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SYNOPSIS
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#include <sys/select.h>
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int select(int nfds, fd_set *readfds, fd_set *writefds,
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fd_set *exceptfds, struct timeval *timeout);
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void FD_CLR(int fd, fd_set *set);
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int FD_ISSET(int fd, fd_set *set);
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void FD_SET(int fd, fd_set *set);
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void FD_ZERO(fd_set *set);
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int pselect(int nfds, fd_set *readfds, fd_set *writefds,
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fd_set *exceptfds, const struct timespec *timeout,
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const sigset_t *sigmask);
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Feature Test Macro Requirements for glibc (see feature_test_macros(7)):
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pselect(): _POSIX_C_SOURCE >= 200112L
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DESCRIPTION
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select() allows a program to monitor multiple file descriptors, waiting until one or more of the file descriptors become
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"ready" for some class of I/O operation (e.g., input possible). A file descriptor is considered ready if it is possible to
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perform a corresponding I/O operation (e.g., read(2), or a sufficiently small write(2)) without blocking.
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select() can monitor only file descriptors numbers that are less than FD_SETSIZE; poll(2) and epoll(7) do not have this limi‐
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tation. See BUGS.
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File descriptor sets
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The principal arguments of select() are three "sets" of file descriptors (declared with the type fd_set), which allow the
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caller to wait for three classes of events on the specified set of file descriptors. Each of the fd_set arguments may be
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specified as NULL if no file descriptors are to be watched for the corresponding class of events.
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Note well: Upon return, each of the file descriptor sets is modified in place to indicate which file descriptors are currently
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"ready". Thus, if using select() within a loop, the sets must be reinitialized before each call. The implementation of the
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fd_set arguments as value-result arguments is a design error that is avoided in poll(2) and epoll(7).
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The contents of a file descriptor set can be manipulated using the following macros:
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FD_ZERO()
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This macro clears (removes all file descriptors from) set. It should be employed as the first step in initializing a
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file descriptor set.
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FD_SET()
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This macro adds the file descriptor fd to set. Adding a file descriptor that is already present in the set is a no-op,
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and does not produce an error.
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FD_CLR()
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This macro removes the file descriptor fd from set. Removing a file descriptor that is not present in the set is a no-
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op, and does not produce an error.
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FD_ISSET()
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select() modifies the contents of the sets according to the rules described below. After calling select(), the FD_IS‐
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SET() macro can be used to test if a file descriptor is still present in a set. FD_ISSET() returns nonzero if the file
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descriptor fd is present in set, and zero if it is not.
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Arguments
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The arguments of select() are as follows:
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readfds
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The file descriptors in this set are watched to see if they are ready for reading. A file descriptor is ready for
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reading if a read operation will not block; in particular, a file descriptor is also ready on end-of-file.
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After select() has returned, readfds will be cleared of all file descriptors except for those that are ready for read‐
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ing.
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writefds
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The file descriptors in this set are watched to see if they are ready for writing. A file descriptor is ready for
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writing if a write operation will not block. However, even if a file descriptor indicates as writable, a large write
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may still block.
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After select() has returned, writefds will be cleared of all file descriptors except for those that are ready for writ‐
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ing.
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exceptfds
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The file descriptors in this set are watched for "exceptional conditions". For examples of some exceptional condi‐
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tions, see the discussion of POLLPRI in poll(2).
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After select() has returned, exceptfds will be cleared of all file descriptors except for those for which an excep‐
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tional condition has occurred.
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nfds This argument should be set to the highest-numbered file descriptor in any of the three sets, plus 1. The indicated
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file descriptors in each set are checked, up to this limit (but see BUGS).
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timeout
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The timeout argument is a timeval structure (shown below) that specifies the interval that select() should block wait‐
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ing for a file descriptor to become ready. The call will block until either:
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• a file descriptor becomes ready;
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• the call is interrupted by a signal handler; or
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• the timeout expires.
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Note that the timeout interval will be rounded up to the system clock granularity, and kernel scheduling delays mean
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that the blocking interval may overrun by a small amount.
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If both fields of the timeval structure are zero, then select() returns immediately. (This is useful for polling.)
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If timeout is specified as NULL, select() blocks indefinitely waiting for a file descriptor to become ready.
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pselect()
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The pselect() system call allows an application to safely wait until either a file descriptor becomes ready or until a signal
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is caught.
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The operation of select() and pselect() is identical, other than these three differences:
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• select() uses a timeout that is a struct timeval (with seconds and microseconds), while pselect() uses a struct timespec
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(with seconds and nanoseconds).
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• select() may update the timeout argument to indicate how much time was left. pselect() does not change this argument.
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• select() has no sigmask argument, and behaves as pselect() called with NULL sigmask.
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sigmask is a pointer to a signal mask (see sigprocmask(2)); if it is not NULL, then pselect() first replaces the current sig‐
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nal mask by the one pointed to by sigmask, then does the "select" function, and then restores the original signal mask. (If
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sigmask is NULL, the signal mask is not modified during the pselect() call.)
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Other than the difference in the precision of the timeout argument, the following pselect() call:
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ready = pselect(nfds, &readfds, &writefds, &exceptfds,
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timeout, &sigmask);
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is equivalent to atomically executing the following calls:
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sigset_t origmask;
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pthread_sigmask(SIG_SETMASK, &sigmask, &origmask);
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ready = select(nfds, &readfds, &writefds, &exceptfds, timeout);
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pthread_sigmask(SIG_SETMASK, &origmask, NULL);
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The reason that pselect() is needed is that if one wants to wait for either a signal or for a file descriptor to become ready,
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then an atomic test is needed to prevent race conditions. (Suppose the signal handler sets a global flag and returns. Then a
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test of this global flag followed by a call of select() could hang indefinitely if the signal arrived just after the test but
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just before the call. By contrast, pselect() allows one to first block signals, handle the signals that have come in, then
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call pselect() with the desired sigmask, avoiding the race.)
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The timeout
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The timeout argument for select() is a structure of the following type:
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struct timeval {
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time_t tv_sec; /* seconds */
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suseconds_t tv_usec; /* microseconds */
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};
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The corresponding argument for pselect() has the following type:
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struct timespec {
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time_t tv_sec; /* seconds */
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long tv_nsec; /* nanoseconds */
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};
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On Linux, select() modifies timeout to reflect the amount of time not slept; most other implementations do not do this.
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(POSIX.1 permits either behavior.) This causes problems both when Linux code which reads timeout is ported to other operating
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systems, and when code is ported to Linux that reuses a struct timeval for multiple select()s in a loop without reinitializing
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it. Consider timeout to be undefined after select() returns.
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RETURN VALUE
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On success, select() and pselect() return the number of file descriptors contained in the three returned descriptor sets (that
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is, the total number of bits that are set in readfds, writefds, exceptfds). The return value may be zero if the timeout ex‐
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pired before any file descriptors became ready.
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On error, -1 is returned, and errno is set to indicate the error; the file descriptor sets are unmodified, and timeout becomes
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undefined.
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ERRORS
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EBADF An invalid file descriptor was given in one of the sets. (Perhaps a file descriptor that was already closed, or one on
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which an error has occurred.) However, see BUGS.
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EINTR A signal was caught; see signal(7).
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EINVAL nfds is negative or exceeds the RLIMIT_NOFILE resource limit (see getrlimit(2)).
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EINVAL The value contained within timeout is invalid.
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ENOMEM Unable to allocate memory for internal tables.
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VERSIONS
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pselect() was added to Linux in kernel 2.6.16. Prior to this, pselect() was emulated in glibc (but see BUGS).
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CONFORMING TO
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select() conforms to POSIX.1-2001, POSIX.1-2008, and 4.4BSD (select() first appeared in 4.2BSD). Generally portable to/from
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non-BSD systems supporting clones of the BSD socket layer (including System V variants). However, note that the System V
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variant typically sets the timeout variable before returning, but the BSD variant does not.
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pselect() is defined in POSIX.1g, and in POSIX.1-2001 and POSIX.1-2008.
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NOTES
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An fd_set is a fixed size buffer. Executing FD_CLR() or FD_SET() with a value of fd that is negative or is equal to or larger
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than FD_SETSIZE will result in undefined behavior. Moreover, POSIX requires fd to be a valid file descriptor.
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The operation of select() and pselect() is not affected by the O_NONBLOCK flag.
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On some other UNIX systems, select() can fail with the error EAGAIN if the system fails to allocate kernel-internal resources,
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rather than ENOMEM as Linux does. POSIX specifies this error for poll(2), but not for select(). Portable programs may wish
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to check for EAGAIN and loop, just as with EINTR.
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The self-pipe trick
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On systems that lack pselect(), reliable (and more portable) signal trapping can be achieved using the self-pipe trick. In
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this technique, a signal handler writes a byte to a pipe whose other end is monitored by select() in the main program. (To
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avoid possibly blocking when writing to a pipe that may be full or reading from a pipe that may be empty, nonblocking I/O is
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used when reading from and writing to the pipe.)
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Emulating usleep(3)
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Before the advent of usleep(3), some code employed a call to select() with all three sets empty, nfds zero, and a non-NULL
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timeout as a fairly portable way to sleep with subsecond precision.
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Correspondence between select() and poll() notifications
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Within the Linux kernel source, we find the following definitions which show the correspondence between the readable,
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writable, and exceptional condition notifications of select() and the event notifications provided by poll(2) and epoll(7):
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#define POLLIN_SET (EPOLLRDNORM | EPOLLRDBAND | EPOLLIN |
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EPOLLHUP | EPOLLERR)
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/* Ready for reading */
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#define POLLOUT_SET (EPOLLWRBAND | EPOLLWRNORM | EPOLLOUT |
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EPOLLERR)
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/* Ready for writing */
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#define POLLEX_SET (EPOLLPRI)
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/* Exceptional condition */
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Multithreaded applications
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If a file descriptor being monitored by select() is closed in another thread, the result is unspecified. On some UNIX sys‐
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tems, select() unblocks and returns, with an indication that the file descriptor is ready (a subsequent I/O operation will
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likely fail with an error, unless another process reopens file descriptor between the time select() returned and the I/O oper‐
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ation is performed). On Linux (and some other systems), closing the file descriptor in another thread has no effect on se‐
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lect(). In summary, any application that relies on a particular behavior in this scenario must be considered buggy.
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C library/kernel differences
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The Linux kernel allows file descriptor sets of arbitrary size, determining the length of the sets to be checked from the
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value of nfds. However, in the glibc implementation, the fd_set type is fixed in size. See also BUGS.
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The pselect() interface described in this page is implemented by glibc. The underlying Linux system call is named pselect6().
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This system call has somewhat different behavior from the glibc wrapper function.
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The Linux pselect6() system call modifies its timeout argument. However, the glibc wrapper function hides this behavior by
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using a local variable for the timeout argument that is passed to the system call. Thus, the glibc pselect() function does
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not modify its timeout argument; this is the behavior required by POSIX.1-2001.
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The final argument of the pselect6() system call is not a sigset_t * pointer, but is instead a structure of the form:
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struct {
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const kernel_sigset_t *ss; /* Pointer to signal set */
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size_t ss_len; /* Size (in bytes) of object
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pointed to by 'ss' */
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};
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This allows the system call to obtain both a pointer to the signal set and its size, while allowing for the fact that most ar‐
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chitectures support a maximum of 6 arguments to a system call. See sigprocmask(2) for a discussion of the difference between
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the kernel and libc notion of the signal set.
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Historical glibc details
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Glibc 2.0 provided an incorrect version of pselect() that did not take a sigmask argument.
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In glibc versions 2.1 to 2.2.1, one must define _GNU_SOURCE in order to obtain the declaration of pselect() from <sys/se‐
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lect.h>.
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BUGS
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POSIX allows an implementation to define an upper limit, advertised via the constant FD_SETSIZE, on the range of file descrip‐
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tors that can be specified in a file descriptor set. The Linux kernel imposes no fixed limit, but the glibc implementation
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makes fd_set a fixed-size type, with FD_SETSIZE defined as 1024, and the FD_*() macros operating according to that limit. To
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monitor file descriptors greater than 1023, use poll(2) or epoll(7) instead.
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According to POSIX, select() should check all specified file descriptors in the three file descriptor sets, up to the limit
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nfds-1. However, the current implementation ignores any file descriptor in these sets that is greater than the maximum file
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descriptor number that the process currently has open. According to POSIX, any such file descriptor that is specified in one
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of the sets should result in the error EBADF.
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Starting with version 2.1, glibc provided an emulation of pselect() that was implemented using sigprocmask(2) and select().
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This implementation remained vulnerable to the very race condition that pselect() was designed to prevent. Modern versions of
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glibc use the (race-free) pselect() system call on kernels where it is provided.
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On Linux, select() may report a socket file descriptor as "ready for reading", while nevertheless a subsequent read blocks.
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This could for example happen when data has arrived but upon examination has the wrong checksum and is discarded. There may
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be other circumstances in which a file descriptor is spuriously reported as ready. Thus it may be safer to use O_NONBLOCK on
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sockets that should not block.
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On Linux, select() also modifies timeout if the call is interrupted by a signal handler (i.e., the EINTR error return). This
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is not permitted by POSIX.1. The Linux pselect() system call has the same behavior, but the glibc wrapper hides this behavior
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by internally copying the timeout to a local variable and passing that variable to the system call.
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EXAMPLES
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#include <stdio.h>
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#include <stdlib.h>
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#include <sys/select.h>
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int
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main(void)
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{
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fd_set rfds;
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struct timeval tv;
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int retval;
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/* Watch stdin (fd 0) to see when it has input. */
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FD_ZERO(&rfds);
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FD_SET(0, &rfds);
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/* Wait up to five seconds. */
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tv.tv_sec = 5;
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tv.tv_usec = 0;
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retval = select(1, &rfds, NULL, NULL, &tv);
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/* Don't rely on the value of tv now! */
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if (retval == -1)
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perror("select()");
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else if (retval)
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printf("Data is available now.\n");
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/* FD_ISSET(0, &rfds) will be true. */
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else
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printf("No data within five seconds.\n");
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exit(EXIT_SUCCESS);
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}
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SEE ALSO
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accept(2), connect(2), poll(2), read(2), recv(2), restart_syscall(2), send(2), sigprocmask(2), write(2), epoll(7), time(7)
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For a tutorial with discussion and examples, see select_tut(2).
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COLOPHON
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This page is part of release 5.08 of the Linux man-pages project. A description of the project, information about reporting
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bugs, and the latest version of this page, can be found at https://www.kernel.org/doc/man-pages/.
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Linux 2020-04-11 SELECT(2)
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