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       timerfd_create, timerfd_settime, timerfd_gettime - timers that notify via file descriptors


       #include <sys/timerfd.h>

       int timerfd_create(int clockid, int flags);

       int timerfd_settime(int fd, int flags,
                           const struct itimerspec *new_value,
                           struct itimerspec *old_value);

       int timerfd_gettime(int fd, struct itimerspec *curr_value);


       These  system  calls  create  and  operate  on  a  timer  that  delivers  timer expiration
       notifications via  a  file  descriptor.   They  provide  an  alternative  to  the  use  of
       setitimer(2)  or  timer_create(2),  with  the  advantage  that  the file descriptor may be
       monitored by select(2), poll(2), and epoll(7).

       The use of  these  three  system  calls  is  analogous  to  the  use  of  timer_create(2),
       timer_settime(2), and timer_gettime(2).  (There is no analog of timer_getoverrun(2), since
       that functionality is provided by read(2), as described below.)

       timerfd_create() creates a new timer object, and returns a file descriptor that refers  to
       that timer.  The clockid argument specifies the clock that is used to mark the progress of
       the timer, and must be either CLOCK_REALTIME  or  CLOCK_MONOTONIC.   CLOCK_REALTIME  is  a
       settable  system-wide  clock.  CLOCK_MONOTONIC is a nonsettable clock that is not affected
       by discontinuous changes in the system clock (e.g., manual changes to system  time).   The
       current value of each of these clocks can be retrieved using clock_gettime(2).

       Starting  with  Linux  2.6.27, the following values may be bitwise ORed in flags to change
       the behavior of timerfd_create():

       TFD_NONBLOCK  Set the O_NONBLOCK file status flag on the new open file description.  Using
                     this flag saves extra calls to fcntl(2) to achieve the same result.

       TFD_CLOEXEC   Set the close-on-exec (FD_CLOEXEC) flag on the new file descriptor.  See the
                     description of the O_CLOEXEC flag in open(2) for reasons  why  this  may  be

       In Linux versions up to and including 2.6.26, flags must be specified as zero.

       timerfd_settime()  arms  (starts)  or  disarms  (stops)  the timer referred to by the file
       descriptor fd.

       The new_value argument specifies the initial expiration and interval for the  timer.   The
       itimer  structure  used  for this argument contains two fields, each of which is in turn a
       structure of type timespec:

           struct timespec {
               time_t tv_sec;                /* Seconds */
               long   tv_nsec;               /* Nanoseconds */

           struct itimerspec {
               struct timespec it_interval;  /* Interval for periodic timer */
               struct timespec it_value;     /* Initial expiration */

       new_value.it_value  specifies  the  initial  expiration  of  the  timer,  in  seconds  and
       nanoseconds.   Setting  either  field  of  new_value.it_value  to a nonzero value arms the
       timer.  Setting both fields of new_value.it_value to zero disarms the timer.

       Setting one or both fields  of  new_value.it_interval  to  nonzero  values  specifies  the
       period,  in  seconds  and  nanoseconds,  for  repeated timer expirations after the initial
       expiration.  If both fields of new_value.it_interval are  zero,  the  timer  expires  just
       once, at the time specified by new_value.it_value.

       The  flags argument is either 0, to start a relative timer (new_value.it_value specifies a
       time  relative  to  the  current  value  of  the   clock   specified   by   clockid),   or
       TFD_TIMER_ABSTIME,  to  start  an absolute timer (new_value.it_value specifies an absolute
       time for the clock specified by clockid; that is, the timer will expire when the value  of
       that clock reaches the value specified in new_value.it_value).

       If  the old_value argument is not NULL, then the itimerspec structure that it points to is
       used to return the setting of the timer that was current at the time of the call; see  the
       description of timerfd_gettime() following.

       timerfd_gettime()  returns,  in  curr_value,  an  itimerspec  structure  that contains the
       current setting of the timer referred to by the file descriptor fd.

       The it_value field returns the amount of time until the timer will next expire.   If  both
       fields  of  this  structure  are  zero,  then the timer is currently disarmed.  This field
       always contains a relative value, regardless of whether  the  TFD_TIMER_ABSTIME  flag  was
       specified when setting the timer.

       The it_interval field returns the interval of the timer.  If both fields of this structure
       are zero, then  the  timer  is  set  to  expire  just  once,  at  the  time  specified  by

   Operating on a timer file descriptor
       The file descriptor returned by timerfd_create() supports the following operations:

              If  the  timer  has  already expired one or more times since its settings were last
              modified using timerfd_settime(), or since the last successful  read(2),  then  the
              buffer  given  to  read(2) returns an unsigned 8-byte integer (uint64_t) containing
              the number of expirations that have occurred.  (The returned value is in host  byte
              order—that is, the native byte order for integers on the host machine.)

              If  no  timer  expirations  have occurred at the time of the read(2), then the call
              either blocks until the next timer expiration, or fails with the  error  EAGAIN  if
              the  file descriptor has been made nonblocking (via the use of the fcntl(2) F_SETFL
              operation to set the O_NONBLOCK flag).

              A read(2) will fail with the error EINVAL if the size of  the  supplied  buffer  is
              less than 8 bytes.

       poll(2), select(2) (and similar)
              The file descriptor is readable (the select(2) readfds argument; the poll(2) POLLIN
              flag) if one or more timer expirations have occurred.

              The file descriptor also supports  the  other  file-descriptor  multiplexing  APIs:
              pselect(2), ppoll(2), and epoll(7).

              The following timerfd-specific command is supported:

              TFD_IOC_SET_TICKS (since Linux 3.17)
                     Adjust  the number of timer expirations that have occurred.  The argument is
                     a pointer to a nonzero 8-byte integer (uint64_t*) containing the new  number
                     of  expirations.   Once  the number is set, any waiter on the timer is woken
                     up.  The only purpose of this command is to restore the expirations for  the
                     purpose  of  checkpoint/restore.   This  operation  is available only if the
                     kernel was configured with the CONFIG_CHECKPOINT_RESTORE option.

              When the file descriptor is no longer required it should be closed.  When all  file
              descriptors  associated  with  the same timer object have been closed, the timer is
              disarmed and its resources are freed by the kernel.

   fork(2) semantics
       After  a  fork(2),  the  child  inherits  a  copy  of  the  file  descriptor  created   by
       timerfd_create().   The  file descriptor refers to the same underlying timer object as the
       corresponding file descriptor in the  parent,  and  read(2)s  in  the  child  will  return
       information about expirations of the timer.

   execve(2) semantics
       A file descriptor created by timerfd_create() is preserved across execve(2), and continues
       to generate timer expirations if the timer was armed.


       On success, timerfd_create() returns a new file descriptor.  On error, -1 is returned  and
       errno is set to indicate the error.

       timerfd_settime()  and timerfd_gettime() return 0 on success; on error they return -1, and
       set errno to indicate the error.


       timerfd_create() can fail with the following errors:

       EINVAL The clockid argument is neither CLOCK_MONOTONIC nor CLOCK_REALTIME;

       EINVAL flags is invalid; or, in Linux 2.6.26 or earlier, flags is nonzero.

       EMFILE The per-process limit on the number of open file descriptors has been reached.

       ENFILE The system-wide limit on the total number of open files has been reached.

       ENODEV Could not mount (internal) anonymous inode device.

       ENOMEM There was insufficient kernel memory to create the timer.

       timerfd_settime() and timerfd_gettime() can fail with the following errors:

       EBADF  fd is not a valid file descriptor.

       EFAULT new_value, old_value, or curr_value is not valid a pointer.

       EINVAL fd is not a valid timerfd file descriptor.

       timerfd_settime() can also fail with the following errors:

       EINVAL new_value is not properly initialized (one of the tv_nsec falls outside  the  range
              zero to 999,999,999).

       EINVAL flags is invalid.


       These  system  calls  are  available  on  Linux  since  kernel 2.6.25.  Library support is
       provided by glibc since version 2.8.


       These system calls are Linux-specific.


       Currently, timerfd_create() supports fewer types of clock IDs than timer_create(2).


       The following program creates a timer and then monitors its progress.  The program accepts
       up  to  three  command-line arguments.  The first argument specifies the number of seconds
       for the initial expiration of the timer.  The second argument specifies the  interval  for
       the  timer,  in  seconds.   The  third  argument specifies the number of times the program
       should allow the timer to expire before terminating.  The second  and  third  command-line
       arguments are optional.

       The following shell session demonstrates the use of the program:

           $ a.out 3 1 100
           0.000: timer started
           3.000: read: 1; total=1
           4.000: read: 1; total=2
           ^Z                  # type control-Z to suspend the program
           [1]+  Stopped                 ./timerfd3_demo 3 1 100
           $ fg                # Resume execution after a few seconds
           a.out 3 1 100
           9.660: read: 5; total=7
           10.000: read: 1; total=8
           11.000: read: 1; total=9
           ^C                  # type control-C to suspend the program

   Program source

       #include <sys/timerfd.h>
       #include <time.h>
       #include <unistd.h>
       #include <stdlib.h>
       #include <stdio.h>
       #include <stdint.h>        /* Definition of uint64_t */

       #define handle_error(msg) \
               do { perror(msg); exit(EXIT_FAILURE); } while (0)

       static void
           static struct timespec start;
           struct timespec curr;
           static int first_call = 1;
           int secs, nsecs;

           if (first_call) {
               first_call = 0;
               if (clock_gettime(CLOCK_MONOTONIC, &start) == -1)

           if (clock_gettime(CLOCK_MONOTONIC, &curr) == -1)

           secs = curr.tv_sec - start.tv_sec;
           nsecs = curr.tv_nsec - start.tv_nsec;
           if (nsecs < 0) {
               nsecs += 1000000000;
           printf("%d.%03d: ", secs, (nsecs + 500000) / 1000000);

       main(int argc, char *argv[])
           struct itimerspec new_value;
           int max_exp, fd;
           struct timespec now;
           uint64_t exp, tot_exp;
           ssize_t s;

           if ((argc != 2) && (argc != 4)) {
               fprintf(stderr, "%s init-secs [interval-secs max-exp]\n",

           if (clock_gettime(CLOCK_REALTIME, &now) == -1)

           /* Create a CLOCK_REALTIME absolute timer with initial
              expiration and interval as specified in command line */

           new_value.it_value.tv_sec = now.tv_sec + atoi(argv[1]);
           new_value.it_value.tv_nsec = now.tv_nsec;
           if (argc == 2) {
               new_value.it_interval.tv_sec = 0;
               max_exp = 1;
           } else {
               new_value.it_interval.tv_sec = atoi(argv[2]);
               max_exp = atoi(argv[3]);
           new_value.it_interval.tv_nsec = 0;

           fd = timerfd_create(CLOCK_REALTIME, 0);
           if (fd == -1)

           if (timerfd_settime(fd, TFD_TIMER_ABSTIME, &new_value, NULL) == -1)

           printf("timer started\n");

           for (tot_exp = 0; tot_exp < max_exp;) {
               s = read(fd, &exp, sizeof(uint64_t));
               if (s != sizeof(uint64_t))

               tot_exp += exp;
               printf("read: %llu; total=%llu\n",
                       (unsigned long long) exp,
                       (unsigned long long) tot_exp);



       eventfd(2),  poll(2),  read(2),  select(2),  setitimer(2),  signalfd(2),  timer_create(2),
       timer_gettime(2), timer_settime(2), epoll(7), time(7)


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