.\" Page by b.hubert - may be freely modified and distributed .\" .\" Niki A. Rahimi (LTC Security Development, narahimi@us.ibm.com) .\" added ERRORS section. .\" .\" Modified 2004-06-17 mtk .\" Modified 2004-10-07 aeb, added FUTEX_REQUEUE, FUTEX_CMP_REQUEUE .\" .\" FIXME .\" 2.6.14 adds FUTEX_WAKE_OP .\" 2.6.18 adds (Ingo Molnar) priority inheritance support: .\" FUTEX_LOCK_PI, FUTEX_UNLOCK_PI, and FUTEX_TRYLOCK_PI. These need .\" to be documented in the manual page. Probably there is sufficient .\" material in the kernel source file Documentation/pi-futex.txt. .\" 2.6.25 adds FUTEX_WAKE_BITSET, FUTEX_WAIT_BITSET .\" .TH FUTEX 2 2010-05-22 "Linux" "Linux Programmer's Manual" .SH NAME futex \- Fast Userspace Locking system call .SH SYNOPSIS .nf .sp .B "#include " .B "#include " .sp .BI "int futex(int *" uaddr ", int " op ", int " val \ ", const struct timespec *" timeout , .br .BI " int *" uaddr2 ", int " val3 ); .\" int *? void *? u32 *? .fi .SH "DESCRIPTION" .PP The .BR futex () system call provides a method for a program to wait for a value at a given address to change, and a method to wake up anyone waiting on a particular address (while the addresses for the same memory in separate processes may not be equal, the kernel maps them internally so the same memory mapped in different locations will correspond for .BR futex () calls). It is typically used to implement the contended case of a lock in shared memory, as described in .BR futex (7). .PP When a .BR futex (7) operation did not finish uncontended in userspace, a call needs to be made to the kernel to arbitrate. Arbitration can either mean putting the calling process to sleep or, conversely, waking a waiting process. .PP Callers of this function are expected to adhere to the semantics as set out in .BR futex (7). As these semantics involve writing nonportable assembly instructions, this in turn probably means that most users will in fact be library authors and not general application developers. .PP The .I uaddr argument needs to point to an aligned integer which stores the counter. The operation to execute is passed via the .I op argument, along with a value .IR val . .PP Five operations are currently defined: .TP .B FUTEX_WAIT This operation atomically verifies that the futex address .I uaddr still contains the value .IR val , and sleeps awaiting .B FUTEX_WAKE on this futex address. If the .I timeout argument is non-NULL, its contents describe the maximum duration of the wait, which is infinite otherwise. The arguments .I uaddr2 and .I val3 are ignored. For .BR futex (7), this call is executed if decrementing the count gave a negative value (indicating contention), and will sleep until another process releases the futex and executes the .B FUTEX_WAKE operation. .TP .B FUTEX_WAKE This operation wakes at most \fIval\fP processes waiting on this futex address (i.e., inside .BR FUTEX_WAIT ). The arguments .IR timeout , .I uaddr2 and .I val3 are ignored. For .BR futex (7), this is executed if incrementing the count showed that there were waiters, once the futex value has been set to 1 (indicating that it is available). .TP .BR FUTEX_FD " (present up to and including Linux 2.6.25)" To support asynchronous wakeups, this operation associates a file descriptor with a futex. .\" , suitable for .BR poll (2). If another process executes a .BR FUTEX_WAKE , the process will receive the signal number that was passed in .IR val . The calling process must close the returned file descriptor after use. The arguments .IR timeout , .I uaddr2 and .I val3 are ignored. To prevent race conditions, the caller should test if the futex has been upped after .B FUTEX_FD returns. Because it was inherently racy, .B FUTEX_FD has been removed from Linux 2.6.26 onwards. .TP .BR FUTEX_REQUEUE " (since Linux 2.5.70)" This operation was introduced in order to avoid a "thundering herd" effect when .B FUTEX_WAKE is used and all processes woken up need to acquire another futex. This call wakes up .I val processes, and requeues all other waiters on the futex at address .IR uaddr2 . The arguments .I timeout and .I val3 are ignored. .TP .BR FUTEX_CMP_REQUEUE " (since Linux 2.6.7)" There was a race in the intended use of .BR FUTEX_REQUEUE , so .B FUTEX_CMP_REQUEUE was introduced. This is similar to .BR FUTEX_REQUEUE , but first checks whether the location .I uaddr still contains the value .IR val3 . If not, the operation fails with the error .BR EAGAIN . The argument .I timeout is ignored. .SH "RETURN VALUE" .PP Depending on which operation was executed, the returned value for a successful call can have differing meanings. .TP .B FUTEX_WAIT Returns 0 if the process was woken by a .B FUTEX_WAKE call. In case of timeout, the operation fails with the error .BR ETIMEDOUT . If the futex was not equal to the expected value, the operation fails with the error .BR EWOULDBLOCK . Signals (see .BR signal (7)) or other spurious wakeups cause .B FUTEX_WAIT to fail with the error .BR EINTR . .TP .B FUTEX_WAKE Returns the number of processes woken up. .TP .B FUTEX_FD Returns the new file descriptor associated with the futex. .TP .B FUTEX_REQUEUE Returns the number of processes woken up. .TP .B FUTEX_CMP_REQUEUE Returns the number of processes woken up. .PP In the event of an error, all operations return \-1, and set .I errno to indicate the error. .SH ERRORS .TP .B EACCES No read access to futex memory. .TP .B EAGAIN .B FUTEX_CMP_REQUEUE found an unexpected futex value. (This probably indicates a race; use the safe .B FUTEX_WAKE now.) .TP .B EFAULT Error in getting .I timeout information from userspace. .TP .B EINVAL An operation was not defined or error in page alignment. .TP .B ENFILE The system limit on the total number of open files has been reached. .TP .B ENOSYS Invalid operation specified in .IR op . .SH "VERSIONS" .PP Initial futex support was merged in Linux 2.5.7 but with different semantics from what was described above. A 4-argument system call with the semantics given here was introduced in Linux 2.5.40. In Linux 2.5.70 one argument was added. In Linux 2.6.7 a sixth argument was added \(em messy, especially on the s390 architecture. .SH "CONFORMING TO" This system call is Linux-specific. .SH "NOTES" .PP To reiterate, bare futexes are not intended as an easy-to-use abstraction for end-users. (There is no wrapper function for this system call in glibc.) Implementors are expected to be assembly literate and to have read the sources of the futex userspace library referenced below. .\" .SH "AUTHORS" .\" .PP .\" Futexes were designed and worked on by .\" Hubertus Franke (IBM Thomas J. Watson Research Center), .\" Matthew Kirkwood, Ingo Molnar (Red Hat) .\" and Rusty Russell (IBM Linux Technology Center). .\" This page written by bert hubert. .SH "SEE ALSO" .BR futex (7) .PP \fIFuss, Futexes and Furwocks: Fast Userlevel Locking in Linux\fP (proceedings of the Ottawa Linux Symposium 2002), online at .br http://kernel.org/doc/ols/2002/ols2002-pages-479-495.pdf .PP Futex example library, futex-*.tar.bz2 at .br ftp://ftp.nl.kernel.org/pub/linux/kernel/people/rusty/.