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cpython/Include/internal/pycore_critical_section.h
Sam Gross 8f17d69b7b
gh-119344: Make critical section API public (#119353)
This makes the following macros public as part of the non-limited C-API for
locking a single object or two objects at once.

* `Py_BEGIN_CRITICAL_SECTION(op)` / `Py_END_CRITICAL_SECTION()`
* `Py_BEGIN_CRITICAL_SECTION2(a, b)` / `Py_END_CRITICAL_SECTION2()`

The supporting functions and structs used by the macros are also exposed for
cases where C macros are not available.
2024-06-21 15:50:18 -04:00

234 lines
7.8 KiB
C

#ifndef Py_INTERNAL_CRITICAL_SECTION_H
#define Py_INTERNAL_CRITICAL_SECTION_H
#ifndef Py_BUILD_CORE
# error "this header requires Py_BUILD_CORE define"
#endif
#include "pycore_lock.h" // PyMutex
#include "pycore_pystate.h" // _PyThreadState_GET()
#include <stdint.h>
#ifdef __cplusplus
extern "C" {
#endif
// Tagged pointers to critical sections use the two least significant bits to
// mark if the pointed-to critical section is inactive and whether it is a
// PyCriticalSection2 object.
#define _Py_CRITICAL_SECTION_INACTIVE 0x1
#define _Py_CRITICAL_SECTION_TWO_MUTEXES 0x2
#define _Py_CRITICAL_SECTION_MASK 0x3
#ifdef Py_GIL_DISABLED
# define Py_BEGIN_CRITICAL_SECTION_MUT(mutex) \
{ \
PyCriticalSection _py_cs; \
_PyCriticalSection_BeginMutex(&_py_cs, mutex)
# define Py_BEGIN_CRITICAL_SECTION2_MUT(m1, m2) \
{ \
PyCriticalSection2 _py_cs2; \
_PyCriticalSection2_BeginMutex(&_py_cs2, m1, m2)
// Specialized version of critical section locking to safely use
// PySequence_Fast APIs without the GIL. For performance, the argument *to*
// PySequence_Fast() is provided to the macro, not the *result* of
// PySequence_Fast(), which would require an extra test to determine if the
// lock must be acquired.
# define Py_BEGIN_CRITICAL_SECTION_SEQUENCE_FAST(original) \
{ \
PyObject *_orig_seq = _PyObject_CAST(original); \
const bool _should_lock_cs = PyList_CheckExact(_orig_seq); \
PyCriticalSection _cs; \
if (_should_lock_cs) { \
_PyCriticalSection_Begin(&_cs, _orig_seq); \
}
# define Py_END_CRITICAL_SECTION_SEQUENCE_FAST() \
if (_should_lock_cs) { \
PyCriticalSection_End(&_cs); \
} \
}
// Asserts that the mutex is locked. The mutex must be held by the
// top-most critical section otherwise there's the possibility
// that the mutex would be swalled out in some code paths.
#define _Py_CRITICAL_SECTION_ASSERT_MUTEX_LOCKED(mutex) \
_PyCriticalSection_AssertHeld(mutex)
// Asserts that the mutex for the given object is locked. The mutex must
// be held by the top-most critical section otherwise there's the
// possibility that the mutex would be swalled out in some code paths.
#ifdef Py_DEBUG
# define _Py_CRITICAL_SECTION_ASSERT_OBJECT_LOCKED(op) \
if (Py_REFCNT(op) != 1) { \
_Py_CRITICAL_SECTION_ASSERT_MUTEX_LOCKED(&_PyObject_CAST(op)->ob_mutex); \
}
#else /* Py_DEBUG */
# define _Py_CRITICAL_SECTION_ASSERT_OBJECT_LOCKED(op)
#endif /* Py_DEBUG */
#else /* !Py_GIL_DISABLED */
// The critical section APIs are no-ops with the GIL.
# define Py_BEGIN_CRITICAL_SECTION_MUT(mut) {
# define Py_BEGIN_CRITICAL_SECTION2_MUT(m1, m2) {
# define Py_BEGIN_CRITICAL_SECTION_SEQUENCE_FAST(original) {
# define Py_END_CRITICAL_SECTION_SEQUENCE_FAST() }
# define _Py_CRITICAL_SECTION_ASSERT_MUTEX_LOCKED(mutex)
# define _Py_CRITICAL_SECTION_ASSERT_OBJECT_LOCKED(op)
#endif /* !Py_GIL_DISABLED */
// Resumes the top-most critical section.
PyAPI_FUNC(void)
_PyCriticalSection_Resume(PyThreadState *tstate);
// (private) slow path for locking the mutex
PyAPI_FUNC(void)
_PyCriticalSection_BeginSlow(PyCriticalSection *c, PyMutex *m);
PyAPI_FUNC(void)
_PyCriticalSection2_BeginSlow(PyCriticalSection2 *c, PyMutex *m1, PyMutex *m2,
int is_m1_locked);
PyAPI_FUNC(void)
_PyCriticalSection_SuspendAll(PyThreadState *tstate);
#ifdef Py_GIL_DISABLED
static inline int
_PyCriticalSection_IsActive(uintptr_t tag)
{
return tag != 0 && (tag & _Py_CRITICAL_SECTION_INACTIVE) == 0;
}
static inline void
_PyCriticalSection_BeginMutex(PyCriticalSection *c, PyMutex *m)
{
if (PyMutex_LockFast(&m->_bits)) {
PyThreadState *tstate = _PyThreadState_GET();
c->_cs_mutex = m;
c->_cs_prev = tstate->critical_section;
tstate->critical_section = (uintptr_t)c;
}
else {
_PyCriticalSection_BeginSlow(c, m);
}
}
static inline void
_PyCriticalSection_Begin(PyCriticalSection *c, PyObject *op)
{
_PyCriticalSection_BeginMutex(c, &op->ob_mutex);
}
#define PyCriticalSection_Begin _PyCriticalSection_Begin
// Removes the top-most critical section from the thread's stack of critical
// sections. If the new top-most critical section is inactive, then it is
// resumed.
static inline void
_PyCriticalSection_Pop(PyCriticalSection *c)
{
PyThreadState *tstate = _PyThreadState_GET();
uintptr_t prev = c->_cs_prev;
tstate->critical_section = prev;
if ((prev & _Py_CRITICAL_SECTION_INACTIVE) != 0) {
_PyCriticalSection_Resume(tstate);
}
}
static inline void
_PyCriticalSection_End(PyCriticalSection *c)
{
PyMutex_Unlock(c->_cs_mutex);
_PyCriticalSection_Pop(c);
}
#define PyCriticalSection_End _PyCriticalSection_End
static inline void
_PyCriticalSection2_BeginMutex(PyCriticalSection2 *c, PyMutex *m1, PyMutex *m2)
{
if (m1 == m2) {
// If the two mutex arguments are the same, treat this as a critical
// section with a single mutex.
c->_cs_mutex2 = NULL;
_PyCriticalSection_BeginMutex(&c->_cs_base, m1);
return;
}
if ((uintptr_t)m2 < (uintptr_t)m1) {
// Sort the mutexes so that the lower address is locked first.
// The exact order does not matter, but we need to acquire the mutexes
// in a consistent order to avoid lock ordering deadlocks.
PyMutex *tmp = m1;
m1 = m2;
m2 = tmp;
}
if (PyMutex_LockFast(&m1->_bits)) {
if (PyMutex_LockFast(&m2->_bits)) {
PyThreadState *tstate = _PyThreadState_GET();
c->_cs_base._cs_mutex = m1;
c->_cs_mutex2 = m2;
c->_cs_base._cs_prev = tstate->critical_section;
uintptr_t p = (uintptr_t)c | _Py_CRITICAL_SECTION_TWO_MUTEXES;
tstate->critical_section = p;
}
else {
_PyCriticalSection2_BeginSlow(c, m1, m2, 1);
}
}
else {
_PyCriticalSection2_BeginSlow(c, m1, m2, 0);
}
}
static inline void
_PyCriticalSection2_Begin(PyCriticalSection2 *c, PyObject *a, PyObject *b)
{
_PyCriticalSection2_BeginMutex(c, &a->ob_mutex, &b->ob_mutex);
}
#define PyCriticalSection2_Begin _PyCriticalSection2_Begin
static inline void
_PyCriticalSection2_End(PyCriticalSection2 *c)
{
if (c->_cs_mutex2) {
PyMutex_Unlock(c->_cs_mutex2);
}
PyMutex_Unlock(c->_cs_base._cs_mutex);
_PyCriticalSection_Pop(&c->_cs_base);
}
#define PyCriticalSection2_End _PyCriticalSection2_End
static inline void
_PyCriticalSection_AssertHeld(PyMutex *mutex)
{
#ifdef Py_DEBUG
PyThreadState *tstate = _PyThreadState_GET();
uintptr_t prev = tstate->critical_section;
if (prev & _Py_CRITICAL_SECTION_TWO_MUTEXES) {
PyCriticalSection2 *cs = (PyCriticalSection2 *)(prev & ~_Py_CRITICAL_SECTION_MASK);
assert(cs != NULL && (cs->_cs_base._cs_mutex == mutex || cs->_cs_mutex2 == mutex));
}
else {
PyCriticalSection *cs = (PyCriticalSection *)(tstate->critical_section & ~_Py_CRITICAL_SECTION_MASK);
assert(cs != NULL && cs->_cs_mutex == mutex);
}
#endif
}
#endif /* Py_GIL_DISABLED */
#ifdef __cplusplus
}
#endif
#endif /* !Py_INTERNAL_CRITICAL_SECTION_H */