mirror of https://github.com/python/cpython
263 lines
8.7 KiB
C
263 lines
8.7 KiB
C
/*
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* Implementation of the Global Interpreter Lock (GIL).
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*/
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#include <stdlib.h>
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#include <errno.h>
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#include "pycore_atomic.h"
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/*
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Notes about the implementation:
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- The GIL is just a boolean variable (locked) whose access is protected
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by a mutex (gil_mutex), and whose changes are signalled by a condition
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variable (gil_cond). gil_mutex is taken for short periods of time,
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and therefore mostly uncontended.
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- In the GIL-holding thread, the main loop (PyEval_EvalFrameEx) must be
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able to release the GIL on demand by another thread. A volatile boolean
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variable (gil_drop_request) is used for that purpose, which is checked
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at every turn of the eval loop. That variable is set after a wait of
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`interval` microseconds on `gil_cond` has timed out.
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[Actually, another volatile boolean variable (eval_breaker) is used
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which ORs several conditions into one. Volatile booleans are
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sufficient as inter-thread signalling means since Python is run
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on cache-coherent architectures only.]
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- A thread wanting to take the GIL will first let pass a given amount of
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time (`interval` microseconds) before setting gil_drop_request. This
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encourages a defined switching period, but doesn't enforce it since
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opcodes can take an arbitrary time to execute.
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The `interval` value is available for the user to read and modify
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using the Python API `sys.{get,set}switchinterval()`.
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- When a thread releases the GIL and gil_drop_request is set, that thread
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ensures that another GIL-awaiting thread gets scheduled.
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It does so by waiting on a condition variable (switch_cond) until
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the value of last_holder is changed to something else than its
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own thread state pointer, indicating that another thread was able to
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take the GIL.
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This is meant to prohibit the latency-adverse behaviour on multi-core
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machines where one thread would speculatively release the GIL, but still
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run and end up being the first to re-acquire it, making the "timeslices"
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much longer than expected.
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(Note: this mechanism is enabled with FORCE_SWITCHING above)
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*/
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#include "condvar.h"
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#define MUTEX_INIT(mut) \
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if (PyMUTEX_INIT(&(mut))) { \
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Py_FatalError("PyMUTEX_INIT(" #mut ") failed"); };
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#define MUTEX_FINI(mut) \
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if (PyMUTEX_FINI(&(mut))) { \
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Py_FatalError("PyMUTEX_FINI(" #mut ") failed"); };
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#define MUTEX_LOCK(mut) \
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if (PyMUTEX_LOCK(&(mut))) { \
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Py_FatalError("PyMUTEX_LOCK(" #mut ") failed"); };
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#define MUTEX_UNLOCK(mut) \
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if (PyMUTEX_UNLOCK(&(mut))) { \
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Py_FatalError("PyMUTEX_UNLOCK(" #mut ") failed"); };
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#define COND_INIT(cond) \
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if (PyCOND_INIT(&(cond))) { \
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Py_FatalError("PyCOND_INIT(" #cond ") failed"); };
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#define COND_FINI(cond) \
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if (PyCOND_FINI(&(cond))) { \
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Py_FatalError("PyCOND_FINI(" #cond ") failed"); };
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#define COND_SIGNAL(cond) \
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if (PyCOND_SIGNAL(&(cond))) { \
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Py_FatalError("PyCOND_SIGNAL(" #cond ") failed"); };
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#define COND_WAIT(cond, mut) \
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if (PyCOND_WAIT(&(cond), &(mut))) { \
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Py_FatalError("PyCOND_WAIT(" #cond ") failed"); };
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#define COND_TIMED_WAIT(cond, mut, microseconds, timeout_result) \
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{ \
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int r = PyCOND_TIMEDWAIT(&(cond), &(mut), (microseconds)); \
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if (r < 0) \
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Py_FatalError("PyCOND_WAIT(" #cond ") failed"); \
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if (r) /* 1 == timeout, 2 == impl. can't say, so assume timeout */ \
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timeout_result = 1; \
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else \
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timeout_result = 0; \
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} \
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#define DEFAULT_INTERVAL 5000
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static void _gil_initialize(struct _gil_runtime_state *gil)
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{
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_Py_atomic_int uninitialized = {-1};
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gil->locked = uninitialized;
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gil->interval = DEFAULT_INTERVAL;
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}
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static int gil_created(struct _gil_runtime_state *gil)
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{
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return (_Py_atomic_load_explicit(&gil->locked, _Py_memory_order_acquire) >= 0);
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}
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static void create_gil(struct _gil_runtime_state *gil)
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{
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MUTEX_INIT(gil->mutex);
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#ifdef FORCE_SWITCHING
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MUTEX_INIT(gil->switch_mutex);
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#endif
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COND_INIT(gil->cond);
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#ifdef FORCE_SWITCHING
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COND_INIT(gil->switch_cond);
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#endif
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_Py_atomic_store_relaxed(&gil->last_holder, 0);
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_Py_ANNOTATE_RWLOCK_CREATE(&gil->locked);
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_Py_atomic_store_explicit(&gil->locked, 0, _Py_memory_order_release);
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}
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static void destroy_gil(struct _gil_runtime_state *gil)
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{
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/* some pthread-like implementations tie the mutex to the cond
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* and must have the cond destroyed first.
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*/
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COND_FINI(gil->cond);
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MUTEX_FINI(gil->mutex);
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#ifdef FORCE_SWITCHING
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COND_FINI(gil->switch_cond);
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MUTEX_FINI(gil->switch_mutex);
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#endif
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_Py_atomic_store_explicit(&gil->locked, -1,
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_Py_memory_order_release);
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_Py_ANNOTATE_RWLOCK_DESTROY(&gil->locked);
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}
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static void recreate_gil(struct _gil_runtime_state *gil)
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{
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_Py_ANNOTATE_RWLOCK_DESTROY(&gil->locked);
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/* XXX should we destroy the old OS resources here? */
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create_gil(gil);
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}
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static void
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drop_gil(struct _ceval_runtime_state *ceval_r,
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struct _ceval_interpreter_state *ceval_i,
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PyThreadState *tstate)
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{
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struct _gil_runtime_state *gil = &ceval_r->gil;
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if (!_Py_atomic_load_relaxed(&gil->locked)) {
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Py_FatalError("drop_gil: GIL is not locked");
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}
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/* tstate is allowed to be NULL (early interpreter init) */
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if (tstate != NULL) {
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/* Sub-interpreter support: threads might have been switched
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under our feet using PyThreadState_Swap(). Fix the GIL last
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holder variable so that our heuristics work. */
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_Py_atomic_store_relaxed(&gil->last_holder, (uintptr_t)tstate);
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}
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MUTEX_LOCK(gil->mutex);
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_Py_ANNOTATE_RWLOCK_RELEASED(&gil->locked, /*is_write=*/1);
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_Py_atomic_store_relaxed(&gil->locked, 0);
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COND_SIGNAL(gil->cond);
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MUTEX_UNLOCK(gil->mutex);
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#ifdef FORCE_SWITCHING
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if (_Py_atomic_load_relaxed(&ceval_r->gil_drop_request) && tstate != NULL) {
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MUTEX_LOCK(gil->switch_mutex);
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/* Not switched yet => wait */
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if (((PyThreadState*)_Py_atomic_load_relaxed(&gil->last_holder)) == tstate)
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{
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RESET_GIL_DROP_REQUEST(ceval_r, ceval_i);
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/* NOTE: if COND_WAIT does not atomically start waiting when
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releasing the mutex, another thread can run through, take
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the GIL and drop it again, and reset the condition
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before we even had a chance to wait for it. */
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COND_WAIT(gil->switch_cond, gil->switch_mutex);
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}
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MUTEX_UNLOCK(gil->switch_mutex);
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}
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#endif
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}
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static void
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take_gil(struct _ceval_runtime_state *ceval_r,
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PyThreadState *tstate)
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{
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if (tstate == NULL) {
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Py_FatalError("take_gil: NULL tstate");
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}
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PyInterpreterState *interp = tstate->interp;
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if (interp == NULL) {
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Py_FatalError("take_gil: NULL interp");
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}
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struct _ceval_interpreter_state *ceval_i = &interp->ceval;
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struct _gil_runtime_state *gil = &ceval_r->gil;
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int err = errno;
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MUTEX_LOCK(gil->mutex);
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if (!_Py_atomic_load_relaxed(&gil->locked)) {
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goto _ready;
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}
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while (_Py_atomic_load_relaxed(&gil->locked)) {
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int timed_out = 0;
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unsigned long saved_switchnum;
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saved_switchnum = gil->switch_number;
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unsigned long interval = (gil->interval >= 1 ? gil->interval : 1);
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COND_TIMED_WAIT(gil->cond, gil->mutex, interval, timed_out);
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/* If we timed out and no switch occurred in the meantime, it is time
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to ask the GIL-holding thread to drop it. */
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if (timed_out &&
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_Py_atomic_load_relaxed(&gil->locked) &&
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gil->switch_number == saved_switchnum)
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{
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SET_GIL_DROP_REQUEST(ceval_r);
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}
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}
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_ready:
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#ifdef FORCE_SWITCHING
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/* This mutex must be taken before modifying gil->last_holder:
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see drop_gil(). */
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MUTEX_LOCK(gil->switch_mutex);
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#endif
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/* We now hold the GIL */
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_Py_atomic_store_relaxed(&gil->locked, 1);
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_Py_ANNOTATE_RWLOCK_ACQUIRED(&gil->locked, /*is_write=*/1);
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if (tstate != (PyThreadState*)_Py_atomic_load_relaxed(&gil->last_holder)) {
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_Py_atomic_store_relaxed(&gil->last_holder, (uintptr_t)tstate);
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++gil->switch_number;
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}
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#ifdef FORCE_SWITCHING
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COND_SIGNAL(gil->switch_cond);
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MUTEX_UNLOCK(gil->switch_mutex);
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#endif
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if (_Py_atomic_load_relaxed(&ceval_r->gil_drop_request)) {
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RESET_GIL_DROP_REQUEST(ceval_r, ceval_i);
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}
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if (tstate->async_exc != NULL) {
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_PyEval_SignalAsyncExc(ceval_r, ceval_i);
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}
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MUTEX_UNLOCK(gil->mutex);
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errno = err;
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}
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void _PyEval_SetSwitchInterval(unsigned long microseconds)
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{
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_PyRuntime.ceval.gil.interval = microseconds;
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}
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unsigned long _PyEval_GetSwitchInterval()
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{
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return _PyRuntime.ceval.gil.interval;
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}
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