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b5be9ae77e
This moves __futex_abstimed_wait64 and __futex_abstimed_wait_cancelable64 and exports these functions as GLIBC_PRIVATE. Reviewed-by: Adhemerval Zanella <adhemerval.zanella@linaro.org>
377 lines
15 KiB
C
377 lines
15 KiB
C
/* futex operations for glibc-internal use. Stub version; do not include
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this file directly.
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Copyright (C) 2014-2021 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<https://www.gnu.org/licenses/>. */
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#ifndef STUB_FUTEX_INTERNAL_H
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#define STUB_FUTEX_INTERNAL_H
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#include <sys/time.h>
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#include <stdio.h>
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#include <stdbool.h>
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#include <lowlevellock-futex.h>
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#include <libc-diag.h>
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/* This file defines futex operations used internally in glibc. A futex
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consists of the so-called futex word in userspace, which is of type
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unsigned int and represents an application-specific condition, and kernel
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state associated with this particular futex word (e.g., wait queues). The
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futex operations we provide are wrappers for the futex syscalls and add
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glibc-specific error checking of the syscall return value. We abort on
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error codes that are caused by bugs in glibc or in the calling application,
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or when an error code is not known. We return error codes that can arise
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in correct executions to the caller. Each operation calls out exactly the
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return values that callers need to handle.
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The private flag must be either FUTEX_PRIVATE or FUTEX_SHARED.
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FUTEX_PRIVATE is always supported, and the implementation can internally
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use FUTEX_SHARED when FUTEX_PRIVATE is requested. FUTEX_SHARED is not
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necessarily supported (use futex_supports_pshared to detect this).
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We expect callers to only use these operations if futexes and the
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specific futex operations being used are supported (e.g., FUTEX_SHARED).
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Given that waking other threads waiting on a futex involves concurrent
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accesses to the futex word, you must use atomic operations to access the
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futex word.
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Both absolute and relative timeouts can be used. An absolute timeout
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expires when the given specific point in time on the specified clock
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passes, or when it already has passed. A relative timeout expires when
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the given duration of time on the CLOCK_MONOTONIC clock passes.
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Due to POSIX requirements on when synchronization data structures such
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as mutexes or semaphores can be destroyed and due to the futex design
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having separate fast/slow paths for wake-ups, we need to consider that
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futex_wake calls might effectively target a data structure that has been
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destroyed and reused for another object, or unmapped; thus, some
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errors or spurious wake-ups can happen in correct executions that would
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not be possible in a program using just a single futex whose lifetime
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does not end before the program terminates. For background, see:
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https://sourceware.org/ml/libc-alpha/2014-04/msg00075.html
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https://lkml.org/lkml/2014/11/27/472 */
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/* Defined this way for interoperability with lowlevellock.
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FUTEX_PRIVATE must be zero because the initializers for pthread_mutex_t,
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pthread_rwlock_t, and pthread_cond_t initialize the respective field of
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those structures to zero, and we want FUTEX_PRIVATE to be the default. */
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#define FUTEX_PRIVATE LLL_PRIVATE
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#define FUTEX_SHARED LLL_SHARED
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#if FUTEX_PRIVATE != 0
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# error FUTEX_PRIVATE must be equal to 0
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#endif
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#ifndef __NR_futex_time64
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# define __NR_futex_time64 __NR_futex
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#endif
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/* Calls __libc_fatal with an error message. Convenience function for
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concrete implementations of the futex interface. */
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static __always_inline __attribute__ ((__noreturn__)) void
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futex_fatal_error (void)
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{
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__libc_fatal ("The futex facility returned an unexpected error code.\n");
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}
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/* The Linux kernel treats provides absolute timeouts based on the
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CLOCK_REALTIME clock and relative timeouts measured against the
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CLOCK_MONOTONIC clock.
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We expect a Linux kernel version of 2.6.22 or more recent (since this
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version, EINTR is not returned on spurious wake-ups anymore). */
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/* Returns EINVAL if PSHARED is neither PTHREAD_PROCESS_PRIVATE nor
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PTHREAD_PROCESS_SHARED; otherwise, returns 0 if PSHARED is supported, and
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ENOTSUP if not. */
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static __always_inline int
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futex_supports_pshared (int pshared)
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{
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if (__glibc_likely (pshared == PTHREAD_PROCESS_PRIVATE))
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return 0;
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else if (pshared == PTHREAD_PROCESS_SHARED)
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return 0;
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else
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return EINVAL;
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}
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/* Atomically wrt other futex operations on the same futex, this blocks iff
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the value *FUTEX_WORD matches the expected value. This is
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semantically equivalent to:
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l = <get lock associated with futex> (FUTEX_WORD);
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wait_flag = <get wait_flag associated with futex> (FUTEX_WORD);
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lock (l);
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val = atomic_load_relaxed (FUTEX_WORD);
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if (val != expected) { unlock (l); return EAGAIN; }
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atomic_store_relaxed (wait_flag, true);
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unlock (l);
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// Now block; can time out in futex_time_wait (see below)
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while (atomic_load_relaxed(wait_flag) && !<spurious wake-up>);
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Note that no guarantee of a happens-before relation between a woken
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futex_wait and a futex_wake is documented; however, this does not matter
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in practice because we have to consider spurious wake-ups (see below),
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and thus would not be able to reliably reason about which futex_wake woke
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us.
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Returns 0 if woken by a futex operation or spuriously. (Note that due to
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the POSIX requirements mentioned above, we need to conservatively assume
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that unrelated futex_wake operations could wake this futex; it is easiest
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to just be prepared for spurious wake-ups.)
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Returns EAGAIN if the futex word did not match the expected value.
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Returns EINTR if waiting was interrupted by a signal.
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Note that some previous code in glibc assumed the underlying futex
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operation (e.g., syscall) to start with or include the equivalent of a
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seq_cst fence; this allows one to avoid an explicit seq_cst fence before
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a futex_wait call when synchronizing similar to Dekker synchronization.
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However, we make no such guarantee here. */
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static __always_inline int
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futex_wait (unsigned int *futex_word, unsigned int expected, int private)
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{
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int err = lll_futex_timed_wait (futex_word, expected, NULL, private);
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switch (err)
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{
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case 0:
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case -EAGAIN:
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case -EINTR:
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return -err;
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case -ETIMEDOUT: /* Cannot have happened as we provided no timeout. */
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case -EFAULT: /* Must have been caused by a glibc or application bug. */
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case -EINVAL: /* Either due to wrong alignment or due to the timeout not
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being normalized. Must have been caused by a glibc or
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application bug. */
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case -ENOSYS: /* Must have been caused by a glibc bug. */
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/* No other errors are documented at this time. */
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default:
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futex_fatal_error ();
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}
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}
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/* Like futex_wait but does not provide any indication why we stopped waiting.
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Thus, when this function returns, you have to always check FUTEX_WORD to
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determine whether you need to continue waiting, and you cannot detect
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whether the waiting was interrupted by a signal. Example use:
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while (atomic_load_relaxed (&futex_word) == 23)
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futex_wait_simple (&futex_word, 23, FUTEX_PRIVATE);
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This is common enough to make providing this wrapper worthwhile. */
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static __always_inline void
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futex_wait_simple (unsigned int *futex_word, unsigned int expected,
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int private)
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{
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ignore_value (futex_wait (futex_word, expected, private));
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}
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/* Check whether the specified clockid is supported by
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futex_abstimed_wait and futex_abstimed_wait_cancelable. */
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static __always_inline int
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futex_abstimed_supported_clockid (clockid_t clockid)
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{
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return lll_futex_supported_clockid (clockid);
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}
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/* Atomically wrt other futex operations on the same futex, this unblocks the
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specified number of processes, or all processes blocked on this futex if
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there are fewer than the specified number. Semantically, this is
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equivalent to:
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l = <get lock associated with futex> (FUTEX_WORD);
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lock (l);
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for (res = 0; PROCESSES_TO_WAKE > 0; PROCESSES_TO_WAKE--, res++) {
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if (<no process blocked on futex>) break;
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wf = <get wait_flag of a process blocked on futex> (FUTEX_WORD);
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// No happens-before guarantee with woken futex_wait (see above)
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atomic_store_relaxed (wf, 0);
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}
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return res;
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Note that we need to support futex_wake calls to past futexes whose memory
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has potentially been reused due to POSIX' requirements on synchronization
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object destruction (see above); therefore, we must not report or abort
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on most errors. */
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static __always_inline void
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futex_wake (unsigned int* futex_word, int processes_to_wake, int private)
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{
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int res = lll_futex_wake (futex_word, processes_to_wake, private);
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/* No error. Ignore the number of woken processes. */
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if (res >= 0)
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return;
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switch (res)
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{
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case -EFAULT: /* Could have happened due to memory reuse. */
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case -EINVAL: /* Could be either due to incorrect alignment (a bug in
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glibc or in the application) or due to memory being
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reused for a PI futex. We cannot distinguish between the
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two causes, and one of them is correct use, so we do not
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act in this case. */
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return;
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case -ENOSYS: /* Must have been caused by a glibc bug. */
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/* No other errors are documented at this time. */
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default:
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futex_fatal_error ();
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}
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}
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/* The operation checks the value of the futex, if the value is 0, then
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it is atomically set to the caller's thread ID. If the futex value is
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nonzero, it is atomically sets the FUTEX_WAITERS bit, which signals wrt
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other futex owner that it cannot unlock the futex in user space by
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atomically by setting its value to 0.
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If more than one wait operations is issued, the enqueueing of the waiters
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are done in descending priority order.
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The ABSTIME arguments provides an absolute timeout (measured against the
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CLOCK_REALTIME clock). If TIMEOUT is NULL, the operation will block
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indefinitely.
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Returns:
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- 0 if woken by a PI unlock operation or spuriously.
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- EAGAIN if the futex owner thread ID is about to exit, but has not yet
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handled the state cleanup.
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- EDEADLK if the futex is already locked by the caller.
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- ESRCH if the thread ID int he futex does not exist.
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- EINVAL is the state is corrupted or if there is a waiter on the
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futex.
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- ETIMEDOUT if the ABSTIME expires.
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*/
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static __always_inline int
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futex_lock_pi64 (int *futex_word, const struct __timespec64 *abstime,
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int private)
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{
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int err = INTERNAL_SYSCALL_CALL (futex_time64, futex_word,
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__lll_private_flag
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(FUTEX_LOCK_PI, private), 0, abstime);
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#ifndef __ASSUME_TIME64_SYSCALLS
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if (err == -ENOSYS)
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{
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if (abstime != NULL && ! in_time_t_range (abstime->tv_sec))
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return EOVERFLOW;
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struct timespec ts32;
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if (abstime != NULL)
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ts32 = valid_timespec64_to_timespec (*abstime);
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err = INTERNAL_SYSCALL_CALL (futex, futex_word, __lll_private_flag
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(FUTEX_LOCK_PI, private), 0,
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abstime != NULL ? &ts32 : NULL);
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}
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#endif
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switch (err)
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{
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case 0:
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case -EAGAIN:
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case -EINTR:
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case -ETIMEDOUT:
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case -ESRCH:
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case -EDEADLK:
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case -EINVAL: /* This indicates either state corruption or that the kernel
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found a waiter on futex address which is waiting via
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FUTEX_WAIT or FUTEX_WAIT_BITSET. This is reported on
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some futex_lock_pi usage (pthread_mutex_timedlock for
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instance). */
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return -err;
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case -EFAULT: /* Must have been caused by a glibc or application bug. */
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case -ENOSYS: /* Must have been caused by a glibc bug. */
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/* No other errors are documented at this time. */
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default:
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futex_fatal_error ();
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}
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}
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/* Wakes the top priority waiter that called a futex_lock_pi operation on
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the futex.
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Returns the same values as futex_lock_pi under those same conditions;
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additionally, returns EPERM when the caller is not allowed to attach
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itself to the futex. */
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static __always_inline int
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futex_unlock_pi (unsigned int *futex_word, int private)
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{
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int err = lll_futex_timed_unlock_pi (futex_word, private);
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switch (err)
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{
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case 0:
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case -EAGAIN:
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case -EINTR:
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case -ETIMEDOUT:
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case -ESRCH:
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case -EDEADLK:
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case -ENOSYS:
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case -EPERM: /* The caller is not allowed to attach itself to the futex.
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Used to check if PI futexes are supported by the
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kernel. */
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return -err;
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case -EINVAL: /* Either due to wrong alignment or due to the timeout not
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being normalized. Must have been caused by a glibc or
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application bug. */
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case -EFAULT: /* Must have been caused by a glibc or application bug. */
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/* No other errors are documented at this time. */
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default:
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futex_fatal_error ();
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}
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}
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/* Like futex_wait, but will eventually time out (i.e., stop being blocked)
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after the duration of time provided (i.e., ABSTIME) has passed using the
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clock specified by CLOCKID (currently only CLOCK_REALTIME and
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CLOCK_MONOTONIC, the ones support by lll_futex_supported_clockid). ABSTIME
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can also equal NULL, in which case this function behaves equivalent to
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futex_wait.
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Returns the same values as futex_wait under those same conditions;
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additionally, returns ETIMEDOUT if the timeout expired.
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The call acts as a cancellation entrypoint. */
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int
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__futex_abstimed_wait_cancelable64 (unsigned int* futex_word,
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unsigned int expected, clockid_t clockid,
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const struct __timespec64* abstime,
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int private);
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libc_hidden_proto (__futex_abstimed_wait_cancelable64);
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int
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__futex_abstimed_wait64 (unsigned int* futex_word, unsigned int expected,
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clockid_t clockid,
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const struct __timespec64* abstime,
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int private);
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libc_hidden_proto (__futex_abstimed_wait64);
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static __always_inline int
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__futex_clocklock64 (int *futex, clockid_t clockid,
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const struct __timespec64 *abstime, int private)
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{
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if (__glibc_unlikely (atomic_compare_and_exchange_bool_acq (futex, 1, 0)))
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{
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while (atomic_exchange_acq (futex, 2) != 0)
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{
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int err = 0;
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err = __futex_abstimed_wait64 ((unsigned int *) futex, 2, clockid,
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abstime, private);
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if (err == EINVAL || err == ETIMEDOUT || err == EOVERFLOW)
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return err;
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}
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}
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return 0;
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}
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#endif /* futex-internal.h */
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