Check for files that are ready for reading or writing


#include <sys/select.h>

int select( int width,
            fd_set * readfds,
            fd_set * writefds,
            fd_set * exceptfds,
            struct timeval * timeout );

FD_SET( int fd, fd_set * fdset );
FD_CLR( int fd, fd_set * fdset );
FD_ISSET( int fd, fd_set * fdset );
FD_ZERO( fd_set * fdset );


The number of descriptors to check in the given sets. Only the descriptors from 0 through (width - 1) in the descriptor sets are examined. Therefore, the value of width must be at least as large as:

(highest valued file descriptor in the sets) + 1

NULL, or a pointer to a fd_set object that specifies the descriptors to check for files that are ready for reading. The function replaces the set with the file descriptors that are actually ready for reading.
NULL, or a pointer to a fd_set object that specifies the descriptors to check for files that are ready for writing. The function replaces the set with the file descriptors that are actually ready for writing.
NULL, or a pointer to a fd_set object that specifies the descriptors to check for files that have an exceptional condition pending. The function replaces the set with the file descriptors that actually have an exceptional condition pending.
NULL, or a pointer to a timeval that specifies how long to wait for the selection to complete.



Use the -l c option to qcc to link against this library. This library is usually included automatically.


The select() function examines the file descriptor sets whose addresses are passed in readfds, writefds, and exceptfds to see if some of their descriptors are ready for reading, ready for writing, or have an exceptional condition pending. Any of readfds, writefds, and exceptfds may be NULL pointers if no descriptors are of interest.

The QNX Neutrino implementation of select() is built on top of ionotify(). Generally, you use ionotify() if you want to combine input from file descriptors with QNX Neutrino messaging in the same process. Use select() when you're handling multiple file descriptors from sockets, pipes, serial ports, and so on.

The select() function replaces the given descriptor sets with subsets consisting of those descriptors that are ready for the requested operation, and returns the total number of ready descriptors in all the sets.

If timeout isn't NULL, it specifies a maximum interval to wait for the selection to complete. If timeout is NULL, select() blocks until one of the selected conditions occurs. To effect a poll, the timeout argument should be a non-NULL pointer, pointing to a zero-valued timeval structure.

Note: Because of the nature of time measurement, the function might actually wait longer than the specified time. Polling can also interfere with the kernel's efforts to manage power usage. For more information, see the Tick, Tock: Understanding the Microkernel's Concept of Time chapter of the QNX Neutrino Programmer's Guide.

FD_SETSIZE specifies the maximum number of file descriptors in an fd_set structure. If this isn't large enough, define FD_SETSIZE to be the appropriate value before you include <sys/select.h> or <sys/time.h>.

If you use select() with a timeout, you should reset the timeout value after calling select().

Note: If you're using select() in conjunction with the socket API package, note that selecting for reading on a socket descriptor on which a listen() has been performed indicates that a subsequent accept() on that descriptor won't block.

Manipulating file-descriptor sets

At least the following macros are defined in <sys/select.h> for manipulating file-descriptor sets:

FD_ZERO( &fdset )
Initialize a descriptor set fdset to the null set.
FD_SET( fd, &fdset )
Add the file descriptor fd to the set fdset.
FD_CLR( fd, &fdset )
Remove fd from fdset.
FD_ISSET( fd, &fdset )
Is nonzero if fd is a member of fdset; otherwise, zero.

The behavior of these macros is undefined if a descriptor value is less than zero, or greater than or equal to FD_SETSIZE.


The number of ready descriptors in the descriptor sets, 0 if the timeout expired, or -1 if an error occurs (errno is set).


One of the descriptor sets specified an invalid descriptor.
One of the pointers given in the call referred to a nonexistent portion of the address space for the process.
A signal was delivered before any of the selected events occurred, or before the time limit expired.
A component of the pointed-to time limit is outside the acceptable range: t_sec must be between 0 and 10^8, inclusive; t_usec must be greater than or equal to 0, and less than 106.


 *  This example opens a console and a serial port for
 *  read mode, and calls select() with a 5 second timeout.
 *  It waits for data to be available on either descriptor.

#include <unistd.h>
#include <stdlib.h>
#include <fcntl.h>
#include <sys/select.h>

int main( void )
    int console, serial;
    struct timeval tv;
    fd_set rfd;
    int n;

    if( ( console = open( "/dev/con1", O_RDONLY ) ) == -1
    ||    ( serial  = open( "/dev/ser1", O_RDONLY ) ) == -1 )
      perror( "open" );
      return EXIT_FAILURE;

     * Clear the set of read file descriptors, and
     * add the two we just got from the open calls.
    FD_ZERO( &rfd );
    FD_SET( console, &rfd );
    FD_SET( serial,  &rfd );

     *    Set a 5 second timeout.
    tv.tv_sec = 5;
    tv.tv_usec = 0;

    switch ( n = select( 1 + max( console, serial ),
           &rfd, 0, 0, &tv ) ) {
      case -1:
        perror( "select" );
        return EXIT_FAILURE;
      case  0:
        puts( "select timed out" );
        printf( "%d descriptors ready ...\n", n );
        if( FD_ISSET( console, &rfd ) )
          puts( " -- console descriptor has data pending" );
        if( FD_ISSET( serial, &rfd ) )
          puts( " -- serial descriptor has data pending" );
    return EXIT_SUCCESS;


POSIX 1003.1

Cancellation point Yes
Interrupt handler No
Signal handler No
Thread Read the Caveats


The select() function works only with raw file descriptors; it doesn't work with file descriptors in edited mode. See the ICANON flag in the description of the tcgetattr() function.

The select() function is thread safe as long as the fd sets used by each thread point to memory that is specific to that thread.

In QNX Neutrino, if multiple threads block in select() on the same fd for the same condition, all threads may unblock when the condition is satisfied. This may differ from other implementations where only one thread may unblock.