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2e7771a03d
Quiet TSAN warnings about remaining non-atomic accesses of `tstate->state`
388 lines
11 KiB
C
388 lines
11 KiB
C
#include "Python.h"
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#include "pycore_llist.h"
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#include "pycore_lock.h" // _PyRawMutex
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#include "pycore_parking_lot.h"
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#include "pycore_pyerrors.h" // _Py_FatalErrorFormat
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#include "pycore_pystate.h" // _PyThreadState_GET
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#include "pycore_semaphore.h" // _PySemaphore
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#include "pycore_time.h" //_PyTime_MonotonicUnchecked()
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#include <stdbool.h>
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typedef struct {
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// The mutex protects the waiter queue and the num_waiters counter.
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_PyRawMutex mutex;
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// Linked list of `struct wait_entry` waiters in this bucket.
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struct llist_node root;
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size_t num_waiters;
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} Bucket;
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struct wait_entry {
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void *park_arg;
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uintptr_t addr;
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_PySemaphore sema;
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struct llist_node node;
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bool is_unparking;
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};
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// Prime number to avoid correlations with memory addresses.
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// We want this to be roughly proportional to the number of CPU cores
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// to minimize contention on the bucket locks, but not too big to avoid
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// wasting memory. The exact choice does not matter much.
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#define NUM_BUCKETS 257
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#define BUCKET_INIT(b, i) [i] = { .root = LLIST_INIT(b[i].root) }
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#define BUCKET_INIT_2(b, i) BUCKET_INIT(b, i), BUCKET_INIT(b, i+1)
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#define BUCKET_INIT_4(b, i) BUCKET_INIT_2(b, i), BUCKET_INIT_2(b, i+2)
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#define BUCKET_INIT_8(b, i) BUCKET_INIT_4(b, i), BUCKET_INIT_4(b, i+4)
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#define BUCKET_INIT_16(b, i) BUCKET_INIT_8(b, i), BUCKET_INIT_8(b, i+8)
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#define BUCKET_INIT_32(b, i) BUCKET_INIT_16(b, i), BUCKET_INIT_16(b, i+16)
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#define BUCKET_INIT_64(b, i) BUCKET_INIT_32(b, i), BUCKET_INIT_32(b, i+32)
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#define BUCKET_INIT_128(b, i) BUCKET_INIT_64(b, i), BUCKET_INIT_64(b, i+64)
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#define BUCKET_INIT_256(b, i) BUCKET_INIT_128(b, i), BUCKET_INIT_128(b, i+128)
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// Table of waiters (hashed by address)
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static Bucket buckets[NUM_BUCKETS] = {
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BUCKET_INIT_256(buckets, 0),
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BUCKET_INIT(buckets, 256),
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};
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void
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_PySemaphore_Init(_PySemaphore *sema)
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{
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#if defined(MS_WINDOWS)
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sema->platform_sem = CreateSemaphore(
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NULL, // attributes
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0, // initial count
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10, // maximum count
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NULL // unnamed
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);
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if (!sema->platform_sem) {
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Py_FatalError("parking_lot: CreateSemaphore failed");
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}
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#elif defined(_Py_USE_SEMAPHORES)
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if (sem_init(&sema->platform_sem, /*pshared=*/0, /*value=*/0) < 0) {
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Py_FatalError("parking_lot: sem_init failed");
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}
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#else
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if (pthread_mutex_init(&sema->mutex, NULL) != 0) {
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Py_FatalError("parking_lot: pthread_mutex_init failed");
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}
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if (pthread_cond_init(&sema->cond, NULL)) {
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Py_FatalError("parking_lot: pthread_cond_init failed");
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}
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sema->counter = 0;
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#endif
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}
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void
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_PySemaphore_Destroy(_PySemaphore *sema)
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{
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#if defined(MS_WINDOWS)
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CloseHandle(sema->platform_sem);
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#elif defined(_Py_USE_SEMAPHORES)
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sem_destroy(&sema->platform_sem);
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#else
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pthread_mutex_destroy(&sema->mutex);
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pthread_cond_destroy(&sema->cond);
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#endif
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}
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static int
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_PySemaphore_PlatformWait(_PySemaphore *sema, PyTime_t timeout)
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{
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int res;
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#if defined(MS_WINDOWS)
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DWORD wait;
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DWORD millis = 0;
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if (timeout < 0) {
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millis = INFINITE;
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}
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else {
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millis = (DWORD) (timeout / 1000000);
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}
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wait = WaitForSingleObjectEx(sema->platform_sem, millis, FALSE);
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if (wait == WAIT_OBJECT_0) {
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res = Py_PARK_OK;
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}
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else if (wait == WAIT_TIMEOUT) {
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res = Py_PARK_TIMEOUT;
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}
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else {
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res = Py_PARK_INTR;
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}
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#elif defined(_Py_USE_SEMAPHORES)
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int err;
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if (timeout >= 0) {
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struct timespec ts;
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#if defined(CLOCK_MONOTONIC) && defined(HAVE_SEM_CLOCKWAIT)
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PyTime_t deadline = _PyTime_Add(_PyTime_MonotonicUnchecked(), timeout);
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_PyTime_AsTimespec_clamp(deadline, &ts);
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err = sem_clockwait(&sema->platform_sem, CLOCK_MONOTONIC, &ts);
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#else
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PyTime_t deadline = _PyTime_Add(_PyTime_TimeUnchecked(), timeout);
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_PyTime_AsTimespec_clamp(deadline, &ts);
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err = sem_timedwait(&sema->platform_sem, &ts);
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#endif
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}
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else {
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err = sem_wait(&sema->platform_sem);
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}
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if (err == -1) {
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err = errno;
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if (err == EINTR) {
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res = Py_PARK_INTR;
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}
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else if (err == ETIMEDOUT) {
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res = Py_PARK_TIMEOUT;
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}
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else {
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_Py_FatalErrorFormat(__func__,
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"unexpected error from semaphore: %d",
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err);
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}
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}
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else {
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res = Py_PARK_OK;
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}
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#else
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pthread_mutex_lock(&sema->mutex);
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int err = 0;
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if (sema->counter == 0) {
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if (timeout >= 0) {
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struct timespec ts;
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#if defined(HAVE_PTHREAD_COND_TIMEDWAIT_RELATIVE_NP)
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_PyTime_AsTimespec_clamp(timeout, &ts);
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err = pthread_cond_timedwait_relative_np(&sema->cond, &sema->mutex, &ts);
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#else
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PyTime_t deadline = _PyTime_Add(_PyTime_TimeUnchecked(), timeout);
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_PyTime_AsTimespec_clamp(deadline, &ts);
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err = pthread_cond_timedwait(&sema->cond, &sema->mutex, &ts);
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#endif // HAVE_PTHREAD_COND_TIMEDWAIT_RELATIVE_NP
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}
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else {
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err = pthread_cond_wait(&sema->cond, &sema->mutex);
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}
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}
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if (sema->counter > 0) {
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sema->counter--;
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res = Py_PARK_OK;
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}
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else if (err) {
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res = Py_PARK_TIMEOUT;
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}
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else {
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res = Py_PARK_INTR;
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}
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pthread_mutex_unlock(&sema->mutex);
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#endif
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return res;
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}
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int
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_PySemaphore_Wait(_PySemaphore *sema, PyTime_t timeout, int detach)
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{
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PyThreadState *tstate = NULL;
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if (detach) {
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tstate = _PyThreadState_GET();
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if (tstate && _Py_atomic_load_int_relaxed(&tstate->state) ==
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_Py_THREAD_ATTACHED) {
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// Only detach if we are attached
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PyEval_ReleaseThread(tstate);
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}
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else {
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tstate = NULL;
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}
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}
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int res = _PySemaphore_PlatformWait(sema, timeout);
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if (tstate) {
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PyEval_AcquireThread(tstate);
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}
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return res;
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}
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void
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_PySemaphore_Wakeup(_PySemaphore *sema)
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{
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#if defined(MS_WINDOWS)
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if (!ReleaseSemaphore(sema->platform_sem, 1, NULL)) {
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Py_FatalError("parking_lot: ReleaseSemaphore failed");
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}
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#elif defined(_Py_USE_SEMAPHORES)
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int err = sem_post(&sema->platform_sem);
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if (err != 0) {
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Py_FatalError("parking_lot: sem_post failed");
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}
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#else
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pthread_mutex_lock(&sema->mutex);
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sema->counter++;
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pthread_cond_signal(&sema->cond);
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pthread_mutex_unlock(&sema->mutex);
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#endif
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}
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static void
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enqueue(Bucket *bucket, const void *address, struct wait_entry *wait)
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{
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llist_insert_tail(&bucket->root, &wait->node);
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++bucket->num_waiters;
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}
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static struct wait_entry *
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dequeue(Bucket *bucket, const void *address)
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{
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// find the first waiter that is waiting on `address`
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struct llist_node *root = &bucket->root;
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struct llist_node *node;
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llist_for_each(node, root) {
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struct wait_entry *wait = llist_data(node, struct wait_entry, node);
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if (wait->addr == (uintptr_t)address) {
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llist_remove(node);
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--bucket->num_waiters;
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wait->is_unparking = true;
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return wait;
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}
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}
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return NULL;
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}
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static void
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dequeue_all(Bucket *bucket, const void *address, struct llist_node *dst)
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{
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// remove and append all matching waiters to dst
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struct llist_node *root = &bucket->root;
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struct llist_node *node;
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llist_for_each_safe(node, root) {
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struct wait_entry *wait = llist_data(node, struct wait_entry, node);
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if (wait->addr == (uintptr_t)address) {
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llist_remove(node);
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llist_insert_tail(dst, node);
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--bucket->num_waiters;
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wait->is_unparking = true;
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}
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}
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}
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// Checks that `*addr == *expected` (only works for 1, 2, 4, or 8 bytes)
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static int
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atomic_memcmp(const void *addr, const void *expected, size_t addr_size)
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{
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switch (addr_size) {
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case 1: return _Py_atomic_load_uint8(addr) == *(const uint8_t *)expected;
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case 2: return _Py_atomic_load_uint16(addr) == *(const uint16_t *)expected;
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case 4: return _Py_atomic_load_uint32(addr) == *(const uint32_t *)expected;
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case 8: return _Py_atomic_load_uint64(addr) == *(const uint64_t *)expected;
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default: Py_UNREACHABLE();
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}
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}
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int
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_PyParkingLot_Park(const void *addr, const void *expected, size_t size,
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PyTime_t timeout_ns, void *park_arg, int detach)
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{
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struct wait_entry wait = {
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.park_arg = park_arg,
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.addr = (uintptr_t)addr,
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.is_unparking = false,
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};
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Bucket *bucket = &buckets[((uintptr_t)addr) % NUM_BUCKETS];
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_PyRawMutex_Lock(&bucket->mutex);
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if (!atomic_memcmp(addr, expected, size)) {
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_PyRawMutex_Unlock(&bucket->mutex);
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return Py_PARK_AGAIN;
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}
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_PySemaphore_Init(&wait.sema);
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enqueue(bucket, addr, &wait);
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_PyRawMutex_Unlock(&bucket->mutex);
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int res = _PySemaphore_Wait(&wait.sema, timeout_ns, detach);
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if (res == Py_PARK_OK) {
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goto done;
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}
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// timeout or interrupt
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_PyRawMutex_Lock(&bucket->mutex);
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if (wait.is_unparking) {
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_PyRawMutex_Unlock(&bucket->mutex);
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// Another thread has started to unpark us. Wait until we process the
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// wakeup signal.
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do {
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res = _PySemaphore_Wait(&wait.sema, -1, detach);
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} while (res != Py_PARK_OK);
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goto done;
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}
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else {
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llist_remove(&wait.node);
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--bucket->num_waiters;
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}
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_PyRawMutex_Unlock(&bucket->mutex);
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done:
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_PySemaphore_Destroy(&wait.sema);
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return res;
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}
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void
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_PyParkingLot_Unpark(const void *addr, _Py_unpark_fn_t *fn, void *arg)
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{
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Bucket *bucket = &buckets[((uintptr_t)addr) % NUM_BUCKETS];
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// Find the first waiter that is waiting on `addr`
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_PyRawMutex_Lock(&bucket->mutex);
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struct wait_entry *waiter = dequeue(bucket, addr);
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if (waiter) {
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int has_more_waiters = (bucket->num_waiters > 0);
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fn(arg, waiter->park_arg, has_more_waiters);
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}
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else {
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fn(arg, NULL, 0);
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}
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_PyRawMutex_Unlock(&bucket->mutex);
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if (waiter) {
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// Wakeup the waiter outside of the bucket lock
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_PySemaphore_Wakeup(&waiter->sema);
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}
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}
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void
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_PyParkingLot_UnparkAll(const void *addr)
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{
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struct llist_node head = LLIST_INIT(head);
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Bucket *bucket = &buckets[((uintptr_t)addr) % NUM_BUCKETS];
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_PyRawMutex_Lock(&bucket->mutex);
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dequeue_all(bucket, addr, &head);
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_PyRawMutex_Unlock(&bucket->mutex);
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struct llist_node *node;
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llist_for_each_safe(node, &head) {
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struct wait_entry *waiter = llist_data(node, struct wait_entry, node);
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llist_remove(node);
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_PySemaphore_Wakeup(&waiter->sema);
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}
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}
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void
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_PyParkingLot_AfterFork(void)
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{
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// After a fork only one thread remains. That thread cannot be blocked
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// so all entries in the parking lot are for dead threads.
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memset(buckets, 0, sizeof(buckets));
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for (Py_ssize_t i = 0; i < NUM_BUCKETS; i++) {
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llist_init(&buckets[i].root);
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}
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}
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