verdnatura-chat/ios/Pods/Flipper-Folly/folly/detail/Futex.cpp

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/*
* Copyright (c) Facebook, Inc. and its affiliates.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <folly/detail/Futex.h>
#include <folly/ScopeGuard.h>
#include <folly/hash/Hash.h>
#include <folly/portability/SysSyscall.h>
#include <array>
#include <cerrno>
#include <cstdint>
#include <cstring>
#include <folly/synchronization/ParkingLot.h>
#ifdef __linux__
#include <linux/futex.h>
#endif
using namespace std::chrono;
namespace folly {
namespace detail {
namespace {
////////////////////////////////////////////////////
// native implementation using the futex() syscall
#ifdef __linux__
/// Certain toolchains (like Android's) don't include the full futex API in
/// their headers even though they support it. Make sure we have our constants
/// even if the headers don't have them.
#ifndef FUTEX_WAIT_BITSET
#define FUTEX_WAIT_BITSET 9
#endif
#ifndef FUTEX_WAKE_BITSET
#define FUTEX_WAKE_BITSET 10
#endif
#ifndef FUTEX_PRIVATE_FLAG
#define FUTEX_PRIVATE_FLAG 128
#endif
#ifndef FUTEX_CLOCK_REALTIME
#define FUTEX_CLOCK_REALTIME 256
#endif
int nativeFutexWake(const void* addr, int count, uint32_t wakeMask) {
int rv = syscall(
__NR_futex,
addr, /* addr1 */
FUTEX_WAKE_BITSET | FUTEX_PRIVATE_FLAG, /* op */
count, /* val */
nullptr, /* timeout */
nullptr, /* addr2 */
wakeMask); /* val3 */
/* NOTE: we ignore errors on wake for the case of a futex
guarding its own destruction, similar to this
glibc bug with sem_post/sem_wait:
https://sourceware.org/bugzilla/show_bug.cgi?id=12674 */
if (rv < 0) {
return 0;
}
return rv;
}
template <class Clock>
struct timespec timeSpecFromTimePoint(time_point<Clock> absTime) {
auto epoch = absTime.time_since_epoch();
if (epoch.count() < 0) {
// kernel timespec_valid requires non-negative seconds and nanos in [0,1G)
epoch = Clock::duration::zero();
}
// timespec-safe seconds and nanoseconds;
// chrono::{nano,}seconds are `long long int`
// whereas timespec uses smaller types
using time_t_seconds = duration<std::time_t, seconds::period>;
using long_nanos = duration<long int, nanoseconds::period>;
auto secs = duration_cast<time_t_seconds>(epoch);
auto nanos = duration_cast<long_nanos>(epoch - secs);
struct timespec result = {secs.count(), nanos.count()};
return result;
}
FutexResult nativeFutexWaitImpl(
const void* addr,
uint32_t expected,
system_clock::time_point const* absSystemTime,
steady_clock::time_point const* absSteadyTime,
uint32_t waitMask) {
assert(absSystemTime == nullptr || absSteadyTime == nullptr);
int op = FUTEX_WAIT_BITSET | FUTEX_PRIVATE_FLAG;
struct timespec ts;
struct timespec* timeout = nullptr;
if (absSystemTime != nullptr) {
op |= FUTEX_CLOCK_REALTIME;
ts = timeSpecFromTimePoint(*absSystemTime);
timeout = &ts;
} else if (absSteadyTime != nullptr) {
ts = timeSpecFromTimePoint(*absSteadyTime);
timeout = &ts;
}
// Unlike FUTEX_WAIT, FUTEX_WAIT_BITSET requires an absolute timeout
// value - http://locklessinc.com/articles/futex_cheat_sheet/
int rv = syscall(
__NR_futex,
addr, /* addr1 */
op, /* op */
expected, /* val */
timeout, /* timeout */
nullptr, /* addr2 */
waitMask); /* val3 */
if (rv == 0) {
return FutexResult::AWOKEN;
} else {
switch (errno) {
case ETIMEDOUT:
assert(timeout != nullptr);
return FutexResult::TIMEDOUT;
case EINTR:
return FutexResult::INTERRUPTED;
case EWOULDBLOCK:
return FutexResult::VALUE_CHANGED;
default:
assert(false);
// EINVAL, EACCESS, or EFAULT. EINVAL means there was an invalid
// op (should be impossible) or an invalid timeout (should have
// been sanitized by timeSpecFromTimePoint). EACCESS or EFAULT
// means *addr points to invalid memory, which is unlikely because
// the caller should have segfaulted already. We can either
// crash, or return a value that lets the process continue for
// a bit. We choose the latter. VALUE_CHANGED probably turns the
// caller into a spin lock.
return FutexResult::VALUE_CHANGED;
}
}
}
#endif // __linux__
///////////////////////////////////////////////////////
// compatibility implementation using standard C++ API
using Lot = ParkingLot<uint32_t>;
Lot parkingLot;
int emulatedFutexWake(const void* addr, int count, uint32_t waitMask) {
int woken = 0;
parkingLot.unpark(addr, [&](const uint32_t& mask) {
if ((mask & waitMask) == 0) {
return UnparkControl::RetainContinue;
}
assert(count > 0);
count--;
woken++;
return count > 0 ? UnparkControl::RemoveContinue
: UnparkControl::RemoveBreak;
});
return woken;
}
template <typename F>
FutexResult emulatedFutexWaitImpl(
F* futex,
uint32_t expected,
system_clock::time_point const* absSystemTime,
steady_clock::time_point const* absSteadyTime,
uint32_t waitMask) {
static_assert(
std::is_same<F, const Futex<std::atomic>>::value ||
std::is_same<F, const Futex<EmulatedFutexAtomic>>::value,
"Type F must be either Futex<std::atomic> or Futex<EmulatedFutexAtomic>");
ParkResult res;
if (absSystemTime) {
res = parkingLot.park_until(
futex,
waitMask,
[&] { return *futex == expected; },
[] {},
*absSystemTime);
} else if (absSteadyTime) {
res = parkingLot.park_until(
futex,
waitMask,
[&] { return *futex == expected; },
[] {},
*absSteadyTime);
} else {
res = parkingLot.park(
futex, waitMask, [&] { return *futex == expected; }, [] {});
}
switch (res) {
case ParkResult::Skip:
return FutexResult::VALUE_CHANGED;
case ParkResult::Unpark:
return FutexResult::AWOKEN;
case ParkResult::Timeout:
return FutexResult::TIMEDOUT;
}
return FutexResult::INTERRUPTED;
}
} // namespace
/////////////////////////////////
// Futex<> overloads
int futexWakeImpl(
const Futex<std::atomic>* futex,
int count,
uint32_t wakeMask) {
#ifdef __linux__
return nativeFutexWake(futex, count, wakeMask);
#else
return emulatedFutexWake(futex, count, wakeMask);
#endif
}
int futexWakeImpl(
const Futex<EmulatedFutexAtomic>* futex,
int count,
uint32_t wakeMask) {
return emulatedFutexWake(futex, count, wakeMask);
}
FutexResult futexWaitImpl(
const Futex<std::atomic>* futex,
uint32_t expected,
system_clock::time_point const* absSystemTime,
steady_clock::time_point const* absSteadyTime,
uint32_t waitMask) {
#ifdef __linux__
return nativeFutexWaitImpl(
futex, expected, absSystemTime, absSteadyTime, waitMask);
#else
return emulatedFutexWaitImpl(
futex, expected, absSystemTime, absSteadyTime, waitMask);
#endif
}
FutexResult futexWaitImpl(
const Futex<EmulatedFutexAtomic>* futex,
uint32_t expected,
system_clock::time_point const* absSystemTime,
steady_clock::time_point const* absSteadyTime,
uint32_t waitMask) {
return emulatedFutexWaitImpl(
futex, expected, absSystemTime, absSteadyTime, waitMask);
}
} // namespace detail
} // namespace folly