gh-108724: Add PyMutex and _PyParkingLot APIs (gh-109344)

PyMutex is a one byte lock with fast, inlineable lock and unlock functions for the common uncontended case.  The design is based on WebKit's WTF::Lock.

PyMutex is built using the _PyParkingLot APIs, which provides a cross-platform futex-like API (based on WebKit's WTF::ParkingLot).  This internal API will be used for building other synchronization primitives used to implement PEP 703, such as one-time initialization and events.

This also includes tests and a mini benchmark in Tools/lockbench/lockbench.py to compare with the existing PyThread_type_lock.

Uncontended acquisition + release:
* Linux (x86-64): PyMutex: 11 ns, PyThread_type_lock: 44 ns
* macOS (arm64): PyMutex: 13 ns, PyThread_type_lock: 18 ns
* Windows (x86-64): PyMutex: 13 ns, PyThread_type_lock: 38 ns

PR Overview:

The primary purpose of this PR is to implement PyMutex, but there are a number of support pieces (described below).

* PyMutex:  A 1-byte lock that doesn't require memory allocation to initialize and is generally faster than the existing PyThread_type_lock.  The API is internal only for now.
* _PyParking_Lot:  A futex-like API based on the API of the same name in WebKit.  Used to implement PyMutex.
* _PyRawMutex:  A word sized lock used to implement _PyParking_Lot.
* PyEvent:  A one time event.  This was used a bunch in the "nogil" fork and is useful for testing the PyMutex implementation, so I've included it as part of the PR.
* pycore_llist.h:  Defines common operations on doubly-linked list.  Not strictly necessary (could do the list operations manually), but they come up frequently in the "nogil" fork. ( Similar to https://man.freebsd.org/cgi/man.cgi?queue)

---------

Co-authored-by: Eric Snow <ericsnowcurrently@gmail.com>
This commit is contained in:
Sam Gross 2023-09-19 11:54:29 -04:00 committed by GitHub
parent 0a31ff0050
commit 0c89056fe5
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
29 changed files with 1665 additions and 21 deletions

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@ -48,6 +48,7 @@
#include "pytypedefs.h" #include "pytypedefs.h"
#include "pybuffer.h" #include "pybuffer.h"
#include "pystats.h" #include "pystats.h"
#include "pyatomic.h"
#include "object.h" #include "object.h"
#include "objimpl.h" #include "objimpl.h"
#include "typeslots.h" #include "typeslots.h"

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@ -83,9 +83,9 @@
// # release // # release
// ... // ...
#ifndef Py_ATOMIC_H #ifndef Py_CPYTHON_ATOMIC_H
#define Py_ATOMIC_H # error "this header file must not be included directly"
#endif
// --- _Py_atomic_add -------------------------------------------------------- // --- _Py_atomic_add --------------------------------------------------------
// Atomically adds `value` to `obj` and returns the previous value // Atomically adds `value` to `obj` and returns the previous value
@ -501,6 +501,3 @@ static inline void _Py_atomic_fence_release(void);
#else #else
# error "no available pyatomic implementation for this platform/compiler" # error "no available pyatomic implementation for this platform/compiler"
#endif #endif
#endif /* Py_ATOMIC_H */

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@ -906,7 +906,7 @@ _Py_atomic_store_ptr_release(void *obj, void *value)
#if defined(_M_X64) || defined(_M_IX86) #if defined(_M_X64) || defined(_M_IX86)
*(void * volatile *)obj = value; *(void * volatile *)obj = value;
#elif defined(_M_ARM64) #elif defined(_M_ARM64)
__stlr64(obj, (uintptr_t)value); __stlr64((unsigned __int64 volatile *)obj, (uintptr_t)value);
#else #else
# error "no implementation of _Py_atomic_store_ptr_release" # error "no implementation of _Py_atomic_store_ptr_release"
#endif #endif

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@ -0,0 +1,107 @@
// A doubly-linked list that can be embedded in a struct.
//
// Usage:
// struct llist_node head = LLIST_INIT(head);
// typedef struct {
// ...
// struct llist_node node;
// ...
// } MyObj;
//
// llist_insert_tail(&head, &obj->node);
// llist_remove(&obj->node);
//
// struct llist_node *node;
// llist_for_each(node, &head) {
// MyObj *obj = llist_data(node, MyObj, node);
// ...
// }
//
#ifndef Py_INTERNAL_LLIST_H
#define Py_INTERNAL_LLIST_H
#include <stddef.h>
#ifdef __cplusplus
extern "C" {
#endif
#ifndef Py_BUILD_CORE
# error "Py_BUILD_CORE must be defined to include this header"
#endif
struct llist_node {
struct llist_node *next;
struct llist_node *prev;
};
// Get the struct containing a node.
#define llist_data(node, type, member) \
(type*)((char*)node - offsetof(type, member))
// Iterate over a list.
#define llist_for_each(node, head) \
for (node = (head)->next; node != (head); node = node->next)
// Iterate over a list, but allow removal of the current node.
#define llist_for_each_safe(node, head) \
for (struct llist_node *_next = (node = (head)->next, node->next); \
node != (head); node = _next, _next = node->next)
#define LLIST_INIT(head) { &head, &head }
static inline void
llist_init(struct llist_node *head)
{
head->next = head;
head->prev = head;
}
// Returns 1 if the list is empty, 0 otherwise.
static inline int
llist_empty(struct llist_node *head)
{
return head->next == head;
}
// Appends to the tail of the list.
static inline void
llist_insert_tail(struct llist_node *head, struct llist_node *node)
{
node->prev = head->prev;
node->next = head;
head->prev->next = node;
head->prev = node;
}
// Remove a node from the list.
static inline void
llist_remove(struct llist_node *node)
{
struct llist_node *prev = node->prev;
struct llist_node *next = node->next;
prev->next = next;
next->prev = prev;
node->prev = NULL;
node->next = NULL;
}
// Append all nodes from head2 onto head1. head2 is left empty.
static inline void
llist_concat(struct llist_node *head1, struct llist_node *head2)
{
if (!llist_empty(head2)) {
head1->prev->next = head2->next;
head2->next->prev = head1->prev;
head1->prev = head2->prev;
head2->prev->next = head1;
llist_init(head2);
}
}
#ifdef __cplusplus
}
#endif
#endif /* !Py_INTERNAL_LLIST_H */

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@ -0,0 +1,158 @@
// Lightweight locks and other synchronization mechanisms.
//
// These implementations are based on WebKit's WTF::Lock. See
// https://webkit.org/blog/6161/locking-in-webkit/ for a description of the
// design.
#ifndef Py_INTERNAL_LOCK_H
#define Py_INTERNAL_LOCK_H
#ifdef __cplusplus
extern "C" {
#endif
#ifndef Py_BUILD_CORE
# error "this header requires Py_BUILD_CORE define"
#endif
#include "pycore_time.h" // _PyTime_t
// A mutex that occupies one byte. The lock can be zero initialized.
//
// Only the two least significant bits are used. The remaining bits should be
// zero:
// 0b00: unlocked
// 0b01: locked
// 0b10: unlocked and has parked threads
// 0b11: locked and has parked threads
//
// Typical initialization:
// PyMutex m = (PyMutex){0};
//
// Typical usage:
// PyMutex_Lock(&m);
// ...
// PyMutex_Unlock(&m);
typedef struct _PyMutex {
uint8_t v;
} PyMutex;
#define _Py_UNLOCKED 0
#define _Py_LOCKED 1
#define _Py_HAS_PARKED 2
// (private) slow path for locking the mutex
PyAPI_FUNC(void) _PyMutex_LockSlow(PyMutex *m);
// (private) slow path for unlocking the mutex
PyAPI_FUNC(void) _PyMutex_UnlockSlow(PyMutex *m);
// Locks the mutex.
//
// If the mutex is currently locked, the calling thread will be parked until
// the mutex is unlocked. If the current thread holds the GIL, then the GIL
// will be released while the thread is parked.
static inline void
PyMutex_Lock(PyMutex *m)
{
uint8_t expected = _Py_UNLOCKED;
if (!_Py_atomic_compare_exchange_uint8(&m->v, &expected, _Py_LOCKED)) {
_PyMutex_LockSlow(m);
}
}
// Unlocks the mutex.
static inline void
PyMutex_Unlock(PyMutex *m)
{
uint8_t expected = _Py_LOCKED;
if (!_Py_atomic_compare_exchange_uint8(&m->v, &expected, _Py_UNLOCKED)) {
_PyMutex_UnlockSlow(m);
}
}
// Checks if the mutex is currently locked.
static inline int
PyMutex_IsLocked(PyMutex *m)
{
return (_Py_atomic_load_uint8(&m->v) & _Py_LOCKED) != 0;
}
typedef enum _PyLockFlags {
// Do not detach/release the GIL when waiting on the lock.
_Py_LOCK_DONT_DETACH = 0,
// Detach/release the GIL while waiting on the lock.
_PY_LOCK_DETACH = 1,
// Handle signals if interrupted while waiting on the lock.
_PY_LOCK_HANDLE_SIGNALS = 2,
} _PyLockFlags;
// Lock a mutex with an optional timeout and additional options. See
// _PyLockFlags for details.
extern PyLockStatus
_PyMutex_LockTimed(PyMutex *m, _PyTime_t timeout_ns, _PyLockFlags flags);
// Unlock a mutex, returns 0 if the mutex is not locked (used for improved
// error messages).
extern int _PyMutex_TryUnlock(PyMutex *m);
// PyEvent is a one-time event notification
typedef struct {
uint8_t v;
} PyEvent;
// Set the event and notify any waiting threads.
// Export for '_testinternalcapi' shared extension
PyAPI_FUNC(void) _PyEvent_Notify(PyEvent *evt);
// Wait for the event to be set. If the event is already set, then this returns
// immediately.
PyAPI_FUNC(void) PyEvent_Wait(PyEvent *evt);
// Wait for the event to be set, or until the timeout expires. If the event is
// already set, then this returns immediately. Returns 1 if the event was set,
// and 0 if the timeout expired or thread was interrupted.
PyAPI_FUNC(int) PyEvent_WaitTimed(PyEvent *evt, _PyTime_t timeout_ns);
// _PyRawMutex implements a word-sized mutex that that does not depend on the
// parking lot API, and therefore can be used in the parking lot
// implementation.
//
// The mutex uses a packed representation: the least significant bit is used to
// indicate whether the mutex is locked or not. The remaining bits are either
// zero or a pointer to a `struct raw_mutex_entry` (see lock.c).
typedef struct {
uintptr_t v;
} _PyRawMutex;
// Slow paths for lock/unlock
extern void _PyRawMutex_LockSlow(_PyRawMutex *m);
extern void _PyRawMutex_UnlockSlow(_PyRawMutex *m);
static inline void
_PyRawMutex_Lock(_PyRawMutex *m)
{
uintptr_t unlocked = _Py_UNLOCKED;
if (_Py_atomic_compare_exchange_uintptr(&m->v, &unlocked, _Py_LOCKED)) {
return;
}
_PyRawMutex_LockSlow(m);
}
static inline void
_PyRawMutex_Unlock(_PyRawMutex *m)
{
uintptr_t locked = _Py_LOCKED;
if (_Py_atomic_compare_exchange_uintptr(&m->v, &locked, _Py_UNLOCKED)) {
return;
}
_PyRawMutex_UnlockSlow(m);
}
#ifdef __cplusplus
}
#endif
#endif /* !Py_INTERNAL_LOCK_H */

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@ -0,0 +1,99 @@
// ParkingLot is an internal API for building efficient synchronization
// primitives like mutexes and events.
//
// The API and name is inspired by WebKit's WTF::ParkingLot, which in turn
// is inspired Linux's futex API.
// See https://webkit.org/blog/6161/locking-in-webkit/.
//
// The core functionality is an atomic "compare-and-sleep" operation along with
// an atomic "wake-up" operation.
#ifndef Py_INTERNAL_PARKING_LOT_H
#define Py_INTERNAL_PARKING_LOT_H
#ifdef __cplusplus
extern "C" {
#endif
#ifndef Py_BUILD_CORE
# error "this header requires Py_BUILD_CORE define"
#endif
#include "pycore_time.h" // _PyTime_t
enum {
// The thread was unparked by another thread.
Py_PARK_OK = 0,
// The value of `address` did not match `expected`.
Py_PARK_AGAIN = -1,
// The thread was unparked due to a timeout.
Py_PARK_TIMEOUT = -2,
// The thread was interrupted by a signal.
Py_PARK_INTR = -3,
};
// Checks that `*address == *expected` and puts the thread to sleep until an
// unpark operation is called on the same `address`. Otherwise, the function
// returns `Py_PARK_AGAIN`. The comparison behaves like memcmp, but is
// performed atomically with respect to unpark operations.
//
// The `address_size` argument is the size of the data pointed to by the
// `address` and `expected` pointers (i.e., sizeof(*address)). It must be
// 1, 2, 4, or 8.
//
// The `timeout_ns` argument specifies the maximum amount of time to wait, with
// -1 indicating an infinite wait.
//
// `park_arg`, which can be NULL, is passed to the unpark operation.
//
// If `detach` is true, then the thread will detach/release the GIL while
// waiting.
//
// Example usage:
//
// if (_Py_atomic_compare_exchange_uint8(address, &expected, new_value)) {
// int res = _PyParkingLot_Park(address, &new_value, sizeof(*address),
// timeout_ns, NULL, 1);
// ...
// }
PyAPI_FUNC(int)
_PyParkingLot_Park(const void *address, const void *expected,
size_t address_size, _PyTime_t timeout_ns,
void *park_arg, int detach);
// Callback for _PyParkingLot_Unpark:
//
// `arg` is the data of the same name provided to the _PyParkingLot_Unpark()
// call.
// `park_arg` is the data provided to _PyParkingLot_Park() call or NULL if
// no waiting thread was found.
// `has_more_waiters` is true if there are more threads waiting on the same
// address. May be true in cases where threads are waiting on a different
// address that map to the same internal bucket.
typedef void _Py_unpark_fn_t(void *arg, void *park_arg, int has_more_waiters);
// Unparks a single thread waiting on `address`.
//
// Note that fn() is called regardless of whether a thread was unparked. If
// no threads are waiting on `address` then the `park_arg` argument to fn()
// will be NULL.
//
// Example usage:
// void callback(void *arg, void *park_arg, int has_more_waiters);
// _PyParkingLot_Unpark(address, &callback, arg);
PyAPI_FUNC(void)
_PyParkingLot_Unpark(const void *address, _Py_unpark_fn_t *fn, void *arg);
// Unparks all threads waiting on `address`.
PyAPI_FUNC(void) _PyParkingLot_UnparkAll(const void *address);
// Resets the parking lot state after a fork. Forgets all parked threads.
PyAPI_FUNC(void) _PyParkingLot_AfterFork(void);
#ifdef __cplusplus
}
#endif
#endif /* !Py_INTERNAL_PARKING_LOT_H */

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@ -0,0 +1,63 @@
// The _PySemaphore API a simplified cross-platform semaphore used to implement
// wakeup/sleep.
#ifndef Py_INTERNAL_SEMAPHORE_H
#define Py_INTERNAL_SEMAPHORE_H
#ifndef Py_BUILD_CORE
# error "this header requires Py_BUILD_CORE define"
#endif
#include "pycore_time.h" // _PyTime_t
#ifdef MS_WINDOWS
# define WIN32_LEAN_AND_MEAN
# include <windows.h>
#elif defined(HAVE_PTHREAD_H)
# include <pthread.h>
#elif defined(HAVE_PTHREAD_STUBS)
# include "cpython/pthread_stubs.h"
#else
# error "Require native threads. See https://bugs.python.org/issue31370"
#endif
#if defined(_POSIX_SEMAPHORES) && (_POSIX_SEMAPHORES+0) != -1
# define _Py_USE_SEMAPHORES
# include <semaphore.h>
#endif
#ifdef __cplusplus
extern "C" {
#endif
typedef struct _PySemaphore {
#if defined(MS_WINDOWS)
HANDLE platform_sem;
#elif defined(_Py_USE_SEMAPHORES)
sem_t platform_sem;
#else
pthread_mutex_t mutex;
pthread_cond_t cond;
int counter;
#endif
} _PySemaphore;
// Puts the current thread to sleep until _PySemaphore_Wakeup() is called.
// If `detach` is true, then the thread will detach/release the GIL while
// sleeping.
PyAPI_FUNC(int)
_PySemaphore_Wait(_PySemaphore *sema, _PyTime_t timeout_ns, int detach);
// Wakes up a single thread waiting on sema. Note that _PySemaphore_Wakeup()
// can be called before _PySemaphore_Wait().
PyAPI_FUNC(void)
_PySemaphore_Wakeup(_PySemaphore *sema);
// Initializes/destroys a semaphore
PyAPI_FUNC(void) _PySemaphore_Init(_PySemaphore *sema);
PyAPI_FUNC(void) _PySemaphore_Destroy(_PySemaphore *sema);
#ifdef __cplusplus
}
#endif
#endif /* !Py_INTERNAL_SEMAPHORE_H */

16
Include/pyatomic.h Normal file
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@ -0,0 +1,16 @@
#ifndef Py_ATOMIC_H
#define Py_ATOMIC_H
#ifdef __cplusplus
extern "C" {
#endif
#ifndef Py_LIMITED_API
# define Py_CPYTHON_ATOMIC_H
# include "cpython/pyatomic.h"
# undef Py_CPYTHON_ATOMIC_H
#endif
#ifdef __cplusplus
}
#endif
#endif /* !Py_ATOMIC_H */

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@ -2085,7 +2085,15 @@ class Test_testcapi(unittest.TestCase):
class Test_testinternalcapi(unittest.TestCase): class Test_testinternalcapi(unittest.TestCase):
locals().update((name, getattr(_testinternalcapi, name)) locals().update((name, getattr(_testinternalcapi, name))
for name in dir(_testinternalcapi) for name in dir(_testinternalcapi)
if name.startswith('test_')) if name.startswith('test_')
and not name.startswith('test_lock_'))
@threading_helper.requires_working_threading()
class Test_PyLock(unittest.TestCase):
locals().update((name, getattr(_testinternalcapi, name))
for name in dir(_testinternalcapi)
if name.startswith('test_lock_'))
@unittest.skipIf(_testmultiphase is None, "test requires _testmultiphase module") @unittest.skipIf(_testmultiphase is None, "test requires _testmultiphase module")

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@ -400,12 +400,14 @@ PYTHON_OBJS= \
Python/instrumentation.o \ Python/instrumentation.o \
Python/intrinsics.o \ Python/intrinsics.o \
Python/legacy_tracing.o \ Python/legacy_tracing.o \
Python/lock.o \
Python/marshal.o \ Python/marshal.o \
Python/modsupport.o \ Python/modsupport.o \
Python/mysnprintf.o \ Python/mysnprintf.o \
Python/mystrtoul.o \ Python/mystrtoul.o \
Python/optimizer.o \ Python/optimizer.o \
Python/optimizer_analysis.o \ Python/optimizer_analysis.o \
Python/parking_lot.o \
Python/pathconfig.o \ Python/pathconfig.o \
Python/preconfig.o \ Python/preconfig.o \
Python/pyarena.o \ Python/pyarena.o \
@ -1779,6 +1781,8 @@ PYTHON_HEADERS= \
$(srcdir)/Include/internal/pycore_interp.h \ $(srcdir)/Include/internal/pycore_interp.h \
$(srcdir)/Include/internal/pycore_intrinsics.h \ $(srcdir)/Include/internal/pycore_intrinsics.h \
$(srcdir)/Include/internal/pycore_list.h \ $(srcdir)/Include/internal/pycore_list.h \
$(srcdir)/Include/internal/pycore_llist.h \
$(srcdir)/Include/internal/pycore_lock.h \
$(srcdir)/Include/internal/pycore_long.h \ $(srcdir)/Include/internal/pycore_long.h \
$(srcdir)/Include/internal/pycore_modsupport.h \ $(srcdir)/Include/internal/pycore_modsupport.h \
$(srcdir)/Include/internal/pycore_moduleobject.h \ $(srcdir)/Include/internal/pycore_moduleobject.h \
@ -1790,6 +1794,7 @@ PYTHON_HEADERS= \
$(srcdir)/Include/internal/pycore_opcode_metadata.h \ $(srcdir)/Include/internal/pycore_opcode_metadata.h \
$(srcdir)/Include/internal/pycore_opcode_utils.h \ $(srcdir)/Include/internal/pycore_opcode_utils.h \
$(srcdir)/Include/internal/pycore_optimizer.h \ $(srcdir)/Include/internal/pycore_optimizer.h \
$(srcdir)/Include/internal/pycore_parking_lot.h \
$(srcdir)/Include/internal/pycore_pathconfig.h \ $(srcdir)/Include/internal/pycore_pathconfig.h \
$(srcdir)/Include/internal/pycore_pyarena.h \ $(srcdir)/Include/internal/pycore_pyarena.h \
$(srcdir)/Include/internal/pycore_pyerrors.h \ $(srcdir)/Include/internal/pycore_pyerrors.h \
@ -1805,6 +1810,7 @@ PYTHON_HEADERS= \
$(srcdir)/Include/internal/pycore_runtime.h \ $(srcdir)/Include/internal/pycore_runtime.h \
$(srcdir)/Include/internal/pycore_runtime_init_generated.h \ $(srcdir)/Include/internal/pycore_runtime_init_generated.h \
$(srcdir)/Include/internal/pycore_runtime_init.h \ $(srcdir)/Include/internal/pycore_runtime_init.h \
$(srcdir)/Include/internal/pycore_semaphore.h \
$(srcdir)/Include/internal/pycore_setobject.h \ $(srcdir)/Include/internal/pycore_setobject.h \
$(srcdir)/Include/internal/pycore_signal.h \ $(srcdir)/Include/internal/pycore_signal.h \
$(srcdir)/Include/internal/pycore_sliceobject.h \ $(srcdir)/Include/internal/pycore_sliceobject.h \

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@ -0,0 +1 @@
Add :c:type:`PyMutex` internal-only lightweight locking API.

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@ -158,7 +158,7 @@
@MODULE_XXSUBTYPE_TRUE@xxsubtype xxsubtype.c @MODULE_XXSUBTYPE_TRUE@xxsubtype xxsubtype.c
@MODULE__XXTESTFUZZ_TRUE@_xxtestfuzz _xxtestfuzz/_xxtestfuzz.c _xxtestfuzz/fuzzer.c @MODULE__XXTESTFUZZ_TRUE@_xxtestfuzz _xxtestfuzz/_xxtestfuzz.c _xxtestfuzz/fuzzer.c
@MODULE__TESTBUFFER_TRUE@_testbuffer _testbuffer.c @MODULE__TESTBUFFER_TRUE@_testbuffer _testbuffer.c
@MODULE__TESTINTERNALCAPI_TRUE@_testinternalcapi _testinternalcapi.c _testinternalcapi/pytime.c @MODULE__TESTINTERNALCAPI_TRUE@_testinternalcapi _testinternalcapi.c _testinternalcapi/test_lock.c _testinternalcapi/pytime.c
@MODULE__TESTCAPI_TRUE@_testcapi _testcapimodule.c _testcapi/vectorcall.c _testcapi/vectorcall_limited.c _testcapi/heaptype.c _testcapi/abstract.c _testcapi/unicode.c _testcapi/dict.c _testcapi/getargs.c _testcapi/datetime.c _testcapi/docstring.c _testcapi/mem.c _testcapi/watchers.c _testcapi/long.c _testcapi/float.c _testcapi/structmember.c _testcapi/exceptions.c _testcapi/code.c _testcapi/buffer.c _testcapi/pyatomic.c _testcapi/pyos.c _testcapi/immortal.c _testcapi/heaptype_relative.c _testcapi/gc.c @MODULE__TESTCAPI_TRUE@_testcapi _testcapimodule.c _testcapi/vectorcall.c _testcapi/vectorcall_limited.c _testcapi/heaptype.c _testcapi/abstract.c _testcapi/unicode.c _testcapi/dict.c _testcapi/getargs.c _testcapi/datetime.c _testcapi/docstring.c _testcapi/mem.c _testcapi/watchers.c _testcapi/long.c _testcapi/float.c _testcapi/structmember.c _testcapi/exceptions.c _testcapi/code.c _testcapi/buffer.c _testcapi/pyatomic.c _testcapi/pyos.c _testcapi/immortal.c _testcapi/heaptype_relative.c _testcapi/gc.c
@MODULE__TESTCLINIC_TRUE@_testclinic _testclinic.c @MODULE__TESTCLINIC_TRUE@_testclinic _testclinic.c
@MODULE__TESTCLINIC_LIMITED_TRUE@_testclinic_limited _testclinic_limited.c @MODULE__TESTCLINIC_LIMITED_TRUE@_testclinic_limited _testclinic_limited.c

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@ -8,7 +8,6 @@
#undef NDEBUG #undef NDEBUG
#include "Python.h" #include "Python.h"
#include "cpython/pyatomic.h"
#include "parts.h" #include "parts.h"
// We define atomic bitwise operations on these types // We define atomic bitwise operations on these types

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@ -1543,6 +1543,9 @@ static PyMethodDef module_functions[] = {
static int static int
module_exec(PyObject *module) module_exec(PyObject *module)
{ {
if (_PyTestInternalCapi_Init_Lock(module) < 0) {
return 1;
}
if (_PyTestInternalCapi_Init_PyTime(module) < 0) { if (_PyTestInternalCapi_Init_PyTime(module) < 0) {
return 1; return 1;
} }

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@ -0,0 +1,74 @@
/*[clinic input]
preserve
[clinic start generated code]*/
#include "pycore_abstract.h" // _PyNumber_Index()
PyDoc_STRVAR(_testinternalcapi_benchmark_locks__doc__,
"benchmark_locks($module, num_threads, use_pymutex=True,\n"
" critical_section_length=1, time_ms=1000, /)\n"
"--\n"
"\n");
#define _TESTINTERNALCAPI_BENCHMARK_LOCKS_METHODDEF \
{"benchmark_locks", _PyCFunction_CAST(_testinternalcapi_benchmark_locks), METH_FASTCALL, _testinternalcapi_benchmark_locks__doc__},
static PyObject *
_testinternalcapi_benchmark_locks_impl(PyObject *module,
Py_ssize_t num_threads,
int use_pymutex,
int critical_section_length,
int time_ms);
static PyObject *
_testinternalcapi_benchmark_locks(PyObject *module, PyObject *const *args, Py_ssize_t nargs)
{
PyObject *return_value = NULL;
Py_ssize_t num_threads;
int use_pymutex = 1;
int critical_section_length = 1;
int time_ms = 1000;
if (!_PyArg_CheckPositional("benchmark_locks", nargs, 1, 4)) {
goto exit;
}
{
Py_ssize_t ival = -1;
PyObject *iobj = _PyNumber_Index(args[0]);
if (iobj != NULL) {
ival = PyLong_AsSsize_t(iobj);
Py_DECREF(iobj);
}
if (ival == -1 && PyErr_Occurred()) {
goto exit;
}
num_threads = ival;
}
if (nargs < 2) {
goto skip_optional;
}
use_pymutex = PyObject_IsTrue(args[1]);
if (use_pymutex < 0) {
goto exit;
}
if (nargs < 3) {
goto skip_optional;
}
critical_section_length = PyLong_AsInt(args[2]);
if (critical_section_length == -1 && PyErr_Occurred()) {
goto exit;
}
if (nargs < 4) {
goto skip_optional;
}
time_ms = PyLong_AsInt(args[3]);
if (time_ms == -1 && PyErr_Occurred()) {
goto exit;
}
skip_optional:
return_value = _testinternalcapi_benchmark_locks_impl(module, num_threads, use_pymutex, critical_section_length, time_ms);
exit:
return return_value;
}
/*[clinic end generated code: output=97c85dff601fed4b input=a9049054013a1b77]*/

View File

@ -10,6 +10,7 @@
#include "Python.h" #include "Python.h"
int _PyTestInternalCapi_Init_Lock(PyObject *module);
int _PyTestInternalCapi_Init_PyTime(PyObject *module); int _PyTestInternalCapi_Init_PyTime(PyObject *module);
#endif // Py_TESTINTERNALCAPI_PARTS_H #endif // Py_TESTINTERNALCAPI_PARTS_H

View File

@ -0,0 +1,353 @@
// C Extension module to test pycore_lock.h API
#include "parts.h"
#include "pycore_lock.h"
#include "clinic/test_lock.c.h"
#ifdef MS_WINDOWS
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#else
#include <unistd.h> // usleep()
#endif
/*[clinic input]
module _testinternalcapi
[clinic start generated code]*/
/*[clinic end generated code: output=da39a3ee5e6b4b0d input=7bb583d8c9eb9a78]*/
static void
pysleep(int ms)
{
#ifdef MS_WINDOWS
Sleep(ms);
#else
usleep(ms * 1000);
#endif
}
static PyObject *
test_lock_basic(PyObject *self, PyObject *obj)
{
PyMutex m = (PyMutex){0};
// uncontended lock and unlock
PyMutex_Lock(&m);
assert(m.v == 1);
PyMutex_Unlock(&m);
assert(m.v == 0);
Py_RETURN_NONE;
}
struct test_lock2_data {
PyMutex m;
PyEvent done;
int started;
};
static void
lock_thread(void *arg)
{
struct test_lock2_data *test_data = arg;
PyMutex *m = &test_data->m;
_Py_atomic_store_int(&test_data->started, 1);
PyMutex_Lock(m);
assert(m->v == 1);
PyMutex_Unlock(m);
assert(m->v == 0);
_PyEvent_Notify(&test_data->done);
}
static PyObject *
test_lock_two_threads(PyObject *self, PyObject *obj)
{
// lock attempt by two threads
struct test_lock2_data test_data;
memset(&test_data, 0, sizeof(test_data));
PyMutex_Lock(&test_data.m);
assert(test_data.m.v == 1);
PyThread_start_new_thread(lock_thread, &test_data);
while (!_Py_atomic_load_int(&test_data.started)) {
pysleep(10);
}
pysleep(10); // allow some time for the other thread to try to lock
assert(test_data.m.v == 3);
PyMutex_Unlock(&test_data.m);
PyEvent_Wait(&test_data.done);
assert(test_data.m.v == 0);
Py_RETURN_NONE;
}
#define COUNTER_THREADS 5
#define COUNTER_ITERS 10000
struct test_data_counter {
PyMutex m;
Py_ssize_t counter;
};
struct thread_data_counter {
struct test_data_counter *test_data;
PyEvent done_event;
};
static void
counter_thread(void *arg)
{
struct thread_data_counter *thread_data = arg;
struct test_data_counter *test_data = thread_data->test_data;
for (Py_ssize_t i = 0; i < COUNTER_ITERS; i++) {
PyMutex_Lock(&test_data->m);
test_data->counter++;
PyMutex_Unlock(&test_data->m);
}
_PyEvent_Notify(&thread_data->done_event);
}
static PyObject *
test_lock_counter(PyObject *self, PyObject *obj)
{
// Test with rapidly locking and unlocking mutex
struct test_data_counter test_data;
memset(&test_data, 0, sizeof(test_data));
struct thread_data_counter thread_data[COUNTER_THREADS];
memset(&thread_data, 0, sizeof(thread_data));
for (Py_ssize_t i = 0; i < COUNTER_THREADS; i++) {
thread_data[i].test_data = &test_data;
PyThread_start_new_thread(counter_thread, &thread_data[i]);
}
for (Py_ssize_t i = 0; i < COUNTER_THREADS; i++) {
PyEvent_Wait(&thread_data[i].done_event);
}
assert(test_data.counter == COUNTER_THREADS * COUNTER_ITERS);
Py_RETURN_NONE;
}
#define SLOW_COUNTER_ITERS 100
static void
slow_counter_thread(void *arg)
{
struct thread_data_counter *thread_data = arg;
struct test_data_counter *test_data = thread_data->test_data;
for (Py_ssize_t i = 0; i < SLOW_COUNTER_ITERS; i++) {
PyMutex_Lock(&test_data->m);
if (i % 7 == 0) {
pysleep(2);
}
test_data->counter++;
PyMutex_Unlock(&test_data->m);
}
_PyEvent_Notify(&thread_data->done_event);
}
static PyObject *
test_lock_counter_slow(PyObject *self, PyObject *obj)
{
// Test lock/unlock with occasional "long" critical section, which will
// trigger handoff of the lock.
struct test_data_counter test_data;
memset(&test_data, 0, sizeof(test_data));
struct thread_data_counter thread_data[COUNTER_THREADS];
memset(&thread_data, 0, sizeof(thread_data));
for (Py_ssize_t i = 0; i < COUNTER_THREADS; i++) {
thread_data[i].test_data = &test_data;
PyThread_start_new_thread(slow_counter_thread, &thread_data[i]);
}
for (Py_ssize_t i = 0; i < COUNTER_THREADS; i++) {
PyEvent_Wait(&thread_data[i].done_event);
}
assert(test_data.counter == COUNTER_THREADS * SLOW_COUNTER_ITERS);
Py_RETURN_NONE;
}
struct bench_data_locks {
int stop;
int use_pymutex;
int critical_section_length;
char padding[200];
PyThread_type_lock lock;
PyMutex m;
double value;
Py_ssize_t total_iters;
};
struct bench_thread_data {
struct bench_data_locks *bench_data;
Py_ssize_t iters;
PyEvent done;
};
static void
thread_benchmark_locks(void *arg)
{
struct bench_thread_data *thread_data = arg;
struct bench_data_locks *bench_data = thread_data->bench_data;
int use_pymutex = bench_data->use_pymutex;
int critical_section_length = bench_data->critical_section_length;
double my_value = 1.0;
Py_ssize_t iters = 0;
while (!_Py_atomic_load_int_relaxed(&bench_data->stop)) {
if (use_pymutex) {
PyMutex_Lock(&bench_data->m);
for (int i = 0; i < critical_section_length; i++) {
bench_data->value += my_value;
my_value = bench_data->value;
}
PyMutex_Unlock(&bench_data->m);
}
else {
PyThread_acquire_lock(bench_data->lock, 1);
for (int i = 0; i < critical_section_length; i++) {
bench_data->value += my_value;
my_value = bench_data->value;
}
PyThread_release_lock(bench_data->lock);
}
iters++;
}
thread_data->iters = iters;
_Py_atomic_add_ssize(&bench_data->total_iters, iters);
_PyEvent_Notify(&thread_data->done);
}
/*[clinic input]
_testinternalcapi.benchmark_locks
num_threads: Py_ssize_t
use_pymutex: bool = True
critical_section_length: int = 1
time_ms: int = 1000
/
[clinic start generated code]*/
static PyObject *
_testinternalcapi_benchmark_locks_impl(PyObject *module,
Py_ssize_t num_threads,
int use_pymutex,
int critical_section_length,
int time_ms)
/*[clinic end generated code: output=381df8d7e9a74f18 input=f3aeaf688738c121]*/
{
// Run from Tools/lockbench/lockbench.py
// Based on the WebKit lock benchmarks:
// https://github.com/WebKit/WebKit/blob/main/Source/WTF/benchmarks/LockSpeedTest.cpp
// See also https://webkit.org/blog/6161/locking-in-webkit/
PyObject *thread_iters = NULL;
PyObject *res = NULL;
struct bench_data_locks bench_data;
memset(&bench_data, 0, sizeof(bench_data));
bench_data.use_pymutex = use_pymutex;
bench_data.critical_section_length = critical_section_length;
bench_data.lock = PyThread_allocate_lock();
if (bench_data.lock == NULL) {
return PyErr_NoMemory();
}
struct bench_thread_data *thread_data = NULL;
thread_data = PyMem_Calloc(num_threads, sizeof(*thread_data));
if (thread_data == NULL) {
PyErr_NoMemory();
goto exit;
}
thread_iters = PyList_New(num_threads);
if (thread_iters == NULL) {
goto exit;
}
_PyTime_t start = _PyTime_GetMonotonicClock();
for (Py_ssize_t i = 0; i < num_threads; i++) {
thread_data[i].bench_data = &bench_data;
PyThread_start_new_thread(thread_benchmark_locks, &thread_data[i]);
}
// Let the threads run for `time_ms` milliseconds
pysleep(time_ms);
_Py_atomic_store_int(&bench_data.stop, 1);
// Wait for the threads to finish
for (Py_ssize_t i = 0; i < num_threads; i++) {
PyEvent_Wait(&thread_data[i].done);
}
Py_ssize_t total_iters = bench_data.total_iters;
_PyTime_t end = _PyTime_GetMonotonicClock();
// Return the total number of acquisitions and the number of acquisitions
// for each thread.
for (Py_ssize_t i = 0; i < num_threads; i++) {
PyObject *iter = PyLong_FromSsize_t(thread_data[i].iters);
if (iter == NULL) {
goto exit;
}
PyList_SET_ITEM(thread_iters, i, iter);
}
double rate = total_iters * 1000000000.0 / (end - start);
res = Py_BuildValue("(dO)", rate, thread_iters);
exit:
PyThread_free_lock(bench_data.lock);
PyMem_Free(thread_data);
Py_XDECREF(thread_iters);
return res;
}
static PyObject *
test_lock_benchmark(PyObject *module, PyObject *obj)
{
// Just make sure the benchmark runs without crashing
PyObject *res = _testinternalcapi_benchmark_locks_impl(
module, 1, 1, 1, 100);
if (res == NULL) {
return NULL;
}
Py_DECREF(res);
Py_RETURN_NONE;
}
static PyMethodDef test_methods[] = {
{"test_lock_basic", test_lock_basic, METH_NOARGS},
{"test_lock_two_threads", test_lock_two_threads, METH_NOARGS},
{"test_lock_counter", test_lock_counter, METH_NOARGS},
{"test_lock_counter_slow", test_lock_counter_slow, METH_NOARGS},
_TESTINTERNALCAPI_BENCHMARK_LOCKS_METHODDEF
{"test_lock_benchmark", test_lock_benchmark, METH_NOARGS},
{NULL, NULL} /* sentinel */
};
int
_PyTestInternalCapi_Init_Lock(PyObject *mod)
{
if (PyModule_AddFunctions(mod, test_methods) < 0) {
return -1;
}
return 0;
}

View File

@ -95,6 +95,7 @@
<ItemGroup> <ItemGroup>
<ClCompile Include="..\Modules\_testinternalcapi.c" /> <ClCompile Include="..\Modules\_testinternalcapi.c" />
<ClCompile Include="..\Modules\_testinternalcapi\pytime.c" /> <ClCompile Include="..\Modules\_testinternalcapi\pytime.c" />
<ClCompile Include="..\Modules\_testinternalcapi\test_lock.c" />
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ResourceCompile Include="..\PC\python_nt.rc" /> <ResourceCompile Include="..\PC\python_nt.rc" />

View File

@ -15,6 +15,9 @@
<ClCompile Include="..\Modules\_testinternalcapi\pytime.c"> <ClCompile Include="..\Modules\_testinternalcapi\pytime.c">
<Filter>Source Files</Filter> <Filter>Source Files</Filter>
</ClCompile> </ClCompile>
<ClCompile Include="..\Modules\_testinternalcapi\test_lock.c">
<Filter>Source Files</Filter>
</ClCompile>
</ItemGroup> </ItemGroup>
<ItemGroup> <ItemGroup>
<ResourceCompile Include="..\PC\python_nt.rc"> <ResourceCompile Include="..\PC\python_nt.rc">

View File

@ -245,6 +245,8 @@
<ClInclude Include="..\Include\internal\pycore_interp.h" /> <ClInclude Include="..\Include\internal\pycore_interp.h" />
<ClInclude Include="..\Include\internal\pycore_intrinsics.h" /> <ClInclude Include="..\Include\internal\pycore_intrinsics.h" />
<ClInclude Include="..\Include\internal\pycore_list.h" /> <ClInclude Include="..\Include\internal\pycore_list.h" />
<ClInclude Include="..\Include\internal\pycore_llist.h" />
<ClInclude Include="..\Include\internal\pycore_lock.h" />
<ClInclude Include="..\Include\internal\pycore_long.h" /> <ClInclude Include="..\Include\internal\pycore_long.h" />
<ClInclude Include="..\Include\internal\pycore_modsupport.h" /> <ClInclude Include="..\Include\internal\pycore_modsupport.h" />
<ClInclude Include="..\Include\internal\pycore_moduleobject.h" /> <ClInclude Include="..\Include\internal\pycore_moduleobject.h" />
@ -254,6 +256,7 @@
<ClInclude Include="..\Include\internal\pycore_obmalloc.h" /> <ClInclude Include="..\Include\internal\pycore_obmalloc.h" />
<ClInclude Include="..\Include\internal\pycore_obmalloc_init.h" /> <ClInclude Include="..\Include\internal\pycore_obmalloc_init.h" />
<ClInclude Include="..\Include\internal\pycore_optimizer.h" /> <ClInclude Include="..\Include\internal\pycore_optimizer.h" />
<ClInclude Include="..\Include\internal\pycore_parking_lot.h" />
<ClInclude Include="..\Include\internal\pycore_pathconfig.h" /> <ClInclude Include="..\Include\internal\pycore_pathconfig.h" />
<ClInclude Include="..\Include\internal\pycore_pyarena.h" /> <ClInclude Include="..\Include\internal\pycore_pyarena.h" />
<ClInclude Include="..\Include\internal\pycore_pyerrors.h" /> <ClInclude Include="..\Include\internal\pycore_pyerrors.h" />
@ -269,6 +272,7 @@
<ClInclude Include="..\Include\internal\pycore_runtime.h" /> <ClInclude Include="..\Include\internal\pycore_runtime.h" />
<ClInclude Include="..\Include\internal\pycore_runtime_init.h" /> <ClInclude Include="..\Include\internal\pycore_runtime_init.h" />
<ClInclude Include="..\Include\internal\pycore_runtime_init_generated.h" /> <ClInclude Include="..\Include\internal\pycore_runtime_init_generated.h" />
<ClInclude Include="..\Include\internal\pycore_semaphore.h" />
<ClInclude Include="..\Include\internal\pycore_setobject.h" /> <ClInclude Include="..\Include\internal\pycore_setobject.h" />
<ClInclude Include="..\Include\internal\pycore_signal.h" /> <ClInclude Include="..\Include\internal\pycore_signal.h" />
<ClInclude Include="..\Include\internal\pycore_sliceobject.h" /> <ClInclude Include="..\Include\internal\pycore_sliceobject.h" />
@ -307,6 +311,7 @@
<ClInclude Include="..\Include\osmodule.h" /> <ClInclude Include="..\Include\osmodule.h" />
<ClInclude Include="..\Include\patchlevel.h" /> <ClInclude Include="..\Include\patchlevel.h" />
<ClInclude Include="..\Include\py_curses.h" /> <ClInclude Include="..\Include\py_curses.h" />
<ClInclude Include="..\Include\pyatomic.h" />
<ClInclude Include="..\Include\pybuffer.h" /> <ClInclude Include="..\Include\pybuffer.h" />
<ClInclude Include="..\Include\pycapsule.h" /> <ClInclude Include="..\Include\pycapsule.h" />
<ClInclude Include="..\Include\pyerrors.h" /> <ClInclude Include="..\Include\pyerrors.h" />
@ -552,12 +557,14 @@
<ClCompile Include="..\Python\intrinsics.c" /> <ClCompile Include="..\Python\intrinsics.c" />
<ClCompile Include="..\Python\instrumentation.c" /> <ClCompile Include="..\Python\instrumentation.c" />
<ClCompile Include="..\Python\legacy_tracing.c" /> <ClCompile Include="..\Python\legacy_tracing.c" />
<ClCompile Include="..\Python\lock.c" />
<ClCompile Include="..\Python\marshal.c" /> <ClCompile Include="..\Python\marshal.c" />
<ClCompile Include="..\Python\modsupport.c" /> <ClCompile Include="..\Python\modsupport.c" />
<ClCompile Include="..\Python\mysnprintf.c" /> <ClCompile Include="..\Python\mysnprintf.c" />
<ClCompile Include="..\Python\mystrtoul.c" /> <ClCompile Include="..\Python\mystrtoul.c" />
<ClCompile Include="..\Python\optimizer.c" /> <ClCompile Include="..\Python\optimizer.c" />
<ClCompile Include="..\Python\optimizer_analysis.c" /> <ClCompile Include="..\Python\optimizer_analysis.c" />
<ClCompile Include="..\Python\parking_lot.c" />
<ClCompile Include="..\Python\pathconfig.c" /> <ClCompile Include="..\Python\pathconfig.c" />
<ClCompile Include="..\Python\perf_trampoline.c" /> <ClCompile Include="..\Python\perf_trampoline.c" />
<ClCompile Include="..\Python\preconfig.c" /> <ClCompile Include="..\Python\preconfig.c" />

View File

@ -144,6 +144,9 @@
<ClInclude Include="..\Include\py_curses.h"> <ClInclude Include="..\Include\py_curses.h">
<Filter>Include</Filter> <Filter>Include</Filter>
</ClInclude> </ClInclude>
<ClInclude Include="..\Include\pyatomic.h">
<Filter>Include</Filter>
</ClInclude>
<ClInclude Include="..\Include\pybuffer.h"> <ClInclude Include="..\Include\pybuffer.h">
<Filter>Include</Filter> <Filter>Include</Filter>
</ClInclude> </ClInclude>
@ -645,6 +648,12 @@
<ClInclude Include="..\Include\internal\pycore_list.h"> <ClInclude Include="..\Include\internal\pycore_list.h">
<Filter>Include\internal</Filter> <Filter>Include\internal</Filter>
</ClInclude> </ClInclude>
<ClInclude Include="..\Include\internal\pycore_llist.h">
<Filter>Include\internal</Filter>
</ClInclude>
<ClInclude Include="..\Include\internal\pycore_lock.h">
<Filter>Include\internal</Filter>
</ClInclude>
<ClInclude Include="..\Include\internal\pycore_long.h"> <ClInclude Include="..\Include\internal\pycore_long.h">
<Filter>Include\internal</Filter> <Filter>Include\internal</Filter>
</ClInclude> </ClInclude>
@ -672,6 +681,9 @@
<ClInclude Include="..\Include\internal\pycore_optimizer.h"> <ClInclude Include="..\Include\internal\pycore_optimizer.h">
<Filter>Include\internal</Filter> <Filter>Include\internal</Filter>
</ClInclude> </ClInclude>
<ClInclude Include="..\Include\internal\pycore_parking_lot.h">
<Filter>Include\internal</Filter>
</ClInclude>
<ClInclude Include="..\Include\internal\pycore_pathconfig.h"> <ClInclude Include="..\Include\internal\pycore_pathconfig.h">
<Filter>Include\internal</Filter> <Filter>Include\internal</Filter>
</ClInclude> </ClInclude>
@ -717,6 +729,9 @@
<ClInclude Include="..\Include\internal\pycore_runtime_init_generated.h"> <ClInclude Include="..\Include\internal\pycore_runtime_init_generated.h">
<Filter>Include\internal</Filter> <Filter>Include\internal</Filter>
</ClInclude> </ClInclude>
<ClInclude Include="..\Include\internal\pycore_semaphore.h">
<Filter>Include\internal</Filter>
</ClInclude>
<ClInclude Include="..\Include\internal\pycore_setobject.h"> <ClInclude Include="..\Include\internal\pycore_setobject.h">
<Filter>Include\internal</Filter> <Filter>Include\internal</Filter>
</ClInclude> </ClInclude>
@ -1241,6 +1256,9 @@
<ClCompile Include="..\Python\legacy_tracing.c"> <ClCompile Include="..\Python\legacy_tracing.c">
<Filter>Source Files</Filter> <Filter>Source Files</Filter>
</ClCompile> </ClCompile>
<ClCompile Include="..\Python\lock.c">
<Filter>Source Files</Filter>
</ClCompile>
<ClCompile Include="..\Python\marshal.c"> <ClCompile Include="..\Python\marshal.c">
<Filter>Python</Filter> <Filter>Python</Filter>
</ClCompile> </ClCompile>
@ -1259,6 +1277,9 @@
<ClCompile Include="..\Python\optimizer_analysis.c"> <ClCompile Include="..\Python\optimizer_analysis.c">
<Filter>Python</Filter> <Filter>Python</Filter>
</ClCompile> </ClCompile>
<ClCompile Include="..\Python\parking_lot.c">
<Filter>Python</Filter>
</ClCompile>
<ClCompile Include="..\Python\pathconfig.c"> <ClCompile Include="..\Python\pathconfig.c">
<Filter>Python</Filter> <Filter>Python</Filter>
</ClCompile> </ClCompile>

297
Python/lock.c Normal file
View File

@ -0,0 +1,297 @@
// Lock implementation
#include "Python.h"
#include "pycore_lock.h"
#include "pycore_parking_lot.h"
#include "pycore_semaphore.h"
#ifdef MS_WINDOWS
#define WIN32_LEAN_AND_MEAN
#include <windows.h> // SwitchToThread()
#elif defined(HAVE_SCHED_H)
#include <sched.h> // sched_yield()
#endif
// If a thread waits on a lock for longer than TIME_TO_BE_FAIR_NS (1 ms), then
// the unlocking thread directly hands off ownership of the lock. This avoids
// starvation.
static const _PyTime_t TIME_TO_BE_FAIR_NS = 1000*1000;
// Spin for a bit before parking the thread. This is only enabled for
// `--disable-gil` builds because it is unlikely to be helpful if the GIL is
// enabled.
#if Py_NOGIL
static const int MAX_SPIN_COUNT = 40;
#else
static const int MAX_SPIN_COUNT = 0;
#endif
struct mutex_entry {
// The time after which the unlocking thread should hand off lock ownership
// directly to the waiting thread. Written by the waiting thread.
_PyTime_t time_to_be_fair;
// Set to 1 if the lock was handed off. Written by the unlocking thread.
int handed_off;
};
static void
_Py_yield(void)
{
#ifdef MS_WINDOWS
SwitchToThread();
#elif defined(HAVE_SCHED_H)
sched_yield();
#endif
}
void
_PyMutex_LockSlow(PyMutex *m)
{
_PyMutex_LockTimed(m, -1, _PY_LOCK_DETACH);
}
PyLockStatus
_PyMutex_LockTimed(PyMutex *m, _PyTime_t timeout, _PyLockFlags flags)
{
uint8_t v = _Py_atomic_load_uint8_relaxed(&m->v);
if ((v & _Py_LOCKED) == 0) {
if (_Py_atomic_compare_exchange_uint8(&m->v, &v, v|_Py_LOCKED)) {
return PY_LOCK_ACQUIRED;
}
}
else if (timeout == 0) {
return PY_LOCK_FAILURE;
}
_PyTime_t now = _PyTime_GetMonotonicClock();
_PyTime_t endtime = 0;
if (timeout > 0) {
endtime = _PyTime_Add(now, timeout);
}
struct mutex_entry entry = {
.time_to_be_fair = now + TIME_TO_BE_FAIR_NS,
.handed_off = 0,
};
Py_ssize_t spin_count = 0;
for (;;) {
if ((v & _Py_LOCKED) == 0) {
// The lock is unlocked. Try to grab it.
if (_Py_atomic_compare_exchange_uint8(&m->v, &v, v|_Py_LOCKED)) {
return PY_LOCK_ACQUIRED;
}
continue;
}
if (!(v & _Py_HAS_PARKED) && spin_count < MAX_SPIN_COUNT) {
// Spin for a bit.
_Py_yield();
spin_count++;
continue;
}
if (timeout == 0) {
return PY_LOCK_FAILURE;
}
uint8_t newv = v;
if (!(v & _Py_HAS_PARKED)) {
// We are the first waiter. Set the _Py_HAS_PARKED flag.
newv = v | _Py_HAS_PARKED;
if (!_Py_atomic_compare_exchange_uint8(&m->v, &v, newv)) {
continue;
}
}
int ret = _PyParkingLot_Park(&m->v, &newv, sizeof(newv), timeout,
&entry, (flags & _PY_LOCK_DETACH) != 0);
if (ret == Py_PARK_OK) {
if (entry.handed_off) {
// We own the lock now.
assert(_Py_atomic_load_uint8_relaxed(&m->v) & _Py_LOCKED);
return PY_LOCK_ACQUIRED;
}
}
else if (ret == Py_PARK_INTR && (flags & _PY_LOCK_HANDLE_SIGNALS)) {
if (Py_MakePendingCalls() < 0) {
return PY_LOCK_INTR;
}
}
else if (ret == Py_PARK_TIMEOUT) {
assert(timeout >= 0);
return PY_LOCK_FAILURE;
}
if (timeout > 0) {
timeout = _PyDeadline_Get(endtime);
if (timeout <= 0) {
// Avoid negative values because those mean block forever.
timeout = 0;
}
}
v = _Py_atomic_load_uint8_relaxed(&m->v);
}
}
static void
mutex_unpark(PyMutex *m, struct mutex_entry *entry, int has_more_waiters)
{
uint8_t v = 0;
if (entry) {
_PyTime_t now = _PyTime_GetMonotonicClock();
int should_be_fair = now > entry->time_to_be_fair;
entry->handed_off = should_be_fair;
if (should_be_fair) {
v |= _Py_LOCKED;
}
if (has_more_waiters) {
v |= _Py_HAS_PARKED;
}
}
_Py_atomic_store_uint8(&m->v, v);
}
int
_PyMutex_TryUnlock(PyMutex *m)
{
uint8_t v = _Py_atomic_load_uint8(&m->v);
for (;;) {
if ((v & _Py_LOCKED) == 0) {
// error: the mutex is not locked
return -1;
}
else if ((v & _Py_HAS_PARKED)) {
// wake up a single thread
_PyParkingLot_Unpark(&m->v, (_Py_unpark_fn_t *)mutex_unpark, m);
return 0;
}
else if (_Py_atomic_compare_exchange_uint8(&m->v, &v, _Py_UNLOCKED)) {
// fast-path: no waiters
return 0;
}
}
}
void
_PyMutex_UnlockSlow(PyMutex *m)
{
if (_PyMutex_TryUnlock(m) < 0) {
Py_FatalError("unlocking mutex that is not locked");
}
}
// _PyRawMutex stores a linked list of `struct raw_mutex_entry`, one for each
// thread waiting on the mutex, directly in the mutex itself.
struct raw_mutex_entry {
struct raw_mutex_entry *next;
_PySemaphore sema;
};
void
_PyRawMutex_LockSlow(_PyRawMutex *m)
{
struct raw_mutex_entry waiter;
_PySemaphore_Init(&waiter.sema);
uintptr_t v = _Py_atomic_load_uintptr(&m->v);
for (;;) {
if ((v & _Py_LOCKED) == 0) {
// Unlocked: try to grab it (even if it has a waiter).
if (_Py_atomic_compare_exchange_uintptr(&m->v, &v, v|_Py_LOCKED)) {
break;
}
continue;
}
// Locked: try to add ourselves as a waiter.
waiter.next = (struct raw_mutex_entry *)(v & ~1);
uintptr_t desired = ((uintptr_t)&waiter)|_Py_LOCKED;
if (!_Py_atomic_compare_exchange_uintptr(&m->v, &v, desired)) {
continue;
}
// Wait for us to be woken up. Note that we still have to lock the
// mutex ourselves: it is NOT handed off to us.
_PySemaphore_Wait(&waiter.sema, -1, /*detach=*/0);
}
_PySemaphore_Destroy(&waiter.sema);
}
void
_PyRawMutex_UnlockSlow(_PyRawMutex *m)
{
uintptr_t v = _Py_atomic_load_uintptr(&m->v);
for (;;) {
if ((v & _Py_LOCKED) == 0) {
Py_FatalError("unlocking mutex that is not locked");
}
struct raw_mutex_entry *waiter = (struct raw_mutex_entry *)(v & ~1);
if (waiter) {
uintptr_t next_waiter = (uintptr_t)waiter->next;
if (_Py_atomic_compare_exchange_uintptr(&m->v, &v, next_waiter)) {
_PySemaphore_Wakeup(&waiter->sema);
return;
}
}
else {
if (_Py_atomic_compare_exchange_uintptr(&m->v, &v, _Py_UNLOCKED)) {
return;
}
}
}
}
void
_PyEvent_Notify(PyEvent *evt)
{
uintptr_t v = _Py_atomic_exchange_uint8(&evt->v, _Py_LOCKED);
if (v == _Py_UNLOCKED) {
// no waiters
return;
}
else if (v == _Py_LOCKED) {
// event already set
return;
}
else {
assert(v == _Py_HAS_PARKED);
_PyParkingLot_UnparkAll(&evt->v);
}
}
void
PyEvent_Wait(PyEvent *evt)
{
while (!PyEvent_WaitTimed(evt, -1))
;
}
int
PyEvent_WaitTimed(PyEvent *evt, _PyTime_t timeout_ns)
{
for (;;) {
uint8_t v = _Py_atomic_load_uint8(&evt->v);
if (v == _Py_LOCKED) {
// event already set
return 1;
}
if (v == _Py_UNLOCKED) {
if (!_Py_atomic_compare_exchange_uint8(&evt->v, &v, _Py_HAS_PARKED)) {
continue;
}
}
uint8_t expected = _Py_HAS_PARKED;
(void) _PyParkingLot_Park(&evt->v, &expected, sizeof(evt->v),
timeout_ns, NULL, 1);
return _Py_atomic_load_uint8(&evt->v) == _Py_LOCKED;
}
}

370
Python/parking_lot.c Normal file
View File

@ -0,0 +1,370 @@
#include "Python.h"
#include "pycore_llist.h"
#include "pycore_lock.h" // _PyRawMutex
#include "pycore_parking_lot.h"
#include "pycore_pyerrors.h" // _Py_FatalErrorFormat
#include "pycore_pystate.h" // _PyThreadState_GET
#include "pycore_semaphore.h" // _PySemaphore
#include <stdbool.h>
typedef struct {
// The mutex protects the waiter queue and the num_waiters counter.
_PyRawMutex mutex;
// Linked list of `struct wait_entry` waiters in this bucket.
struct llist_node root;
size_t num_waiters;
} Bucket;
struct wait_entry {
void *park_arg;
uintptr_t addr;
_PySemaphore sema;
struct llist_node node;
bool is_unparking;
};
// Prime number to avoid correlations with memory addresses.
// We want this to be roughly proportional to the number of CPU cores
// to minimize contention on the bucket locks, but not too big to avoid
// wasting memory. The exact choice does not matter much.
#define NUM_BUCKETS 257
#define BUCKET_INIT(b, i) [i] = { .root = LLIST_INIT(b[i].root) }
#define BUCKET_INIT_2(b, i) BUCKET_INIT(b, i), BUCKET_INIT(b, i+1)
#define BUCKET_INIT_4(b, i) BUCKET_INIT_2(b, i), BUCKET_INIT_2(b, i+2)
#define BUCKET_INIT_8(b, i) BUCKET_INIT_4(b, i), BUCKET_INIT_4(b, i+4)
#define BUCKET_INIT_16(b, i) BUCKET_INIT_8(b, i), BUCKET_INIT_8(b, i+8)
#define BUCKET_INIT_32(b, i) BUCKET_INIT_16(b, i), BUCKET_INIT_16(b, i+16)
#define BUCKET_INIT_64(b, i) BUCKET_INIT_32(b, i), BUCKET_INIT_32(b, i+32)
#define BUCKET_INIT_128(b, i) BUCKET_INIT_64(b, i), BUCKET_INIT_64(b, i+64)
#define BUCKET_INIT_256(b, i) BUCKET_INIT_128(b, i), BUCKET_INIT_128(b, i+128)
// Table of waiters (hashed by address)
static Bucket buckets[NUM_BUCKETS] = {
BUCKET_INIT_256(buckets, 0),
BUCKET_INIT(buckets, 256),
};
void
_PySemaphore_Init(_PySemaphore *sema)
{
#if defined(MS_WINDOWS)
sema->platform_sem = CreateSemaphore(
NULL, // attributes
0, // initial count
10, // maximum count
NULL // unnamed
);
if (!sema->platform_sem) {
Py_FatalError("parking_lot: CreateSemaphore failed");
}
#elif defined(_Py_USE_SEMAPHORES)
if (sem_init(&sema->platform_sem, /*pshared=*/0, /*value=*/0) < 0) {
Py_FatalError("parking_lot: sem_init failed");
}
#else
if (pthread_mutex_init(&sema->mutex, NULL) != 0) {
Py_FatalError("parking_lot: pthread_mutex_init failed");
}
if (pthread_cond_init(&sema->cond, NULL)) {
Py_FatalError("parking_lot: pthread_cond_init failed");
}
sema->counter = 0;
#endif
}
void
_PySemaphore_Destroy(_PySemaphore *sema)
{
#if defined(MS_WINDOWS)
CloseHandle(sema->platform_sem);
#elif defined(_Py_USE_SEMAPHORES)
sem_destroy(&sema->platform_sem);
#else
pthread_mutex_destroy(&sema->mutex);
pthread_cond_destroy(&sema->cond);
#endif
}
static int
_PySemaphore_PlatformWait(_PySemaphore *sema, _PyTime_t timeout)
{
int res;
#if defined(MS_WINDOWS)
DWORD wait;
DWORD millis = 0;
if (timeout < 0) {
millis = INFINITE;
}
else {
millis = (DWORD) (timeout / 1000000);
}
wait = WaitForSingleObjectEx(sema->platform_sem, millis, FALSE);
if (wait == WAIT_OBJECT_0) {
res = Py_PARK_OK;
}
else if (wait == WAIT_TIMEOUT) {
res = Py_PARK_TIMEOUT;
}
else {
res = Py_PARK_INTR;
}
#elif defined(_Py_USE_SEMAPHORES)
int err;
if (timeout >= 0) {
struct timespec ts;
_PyTime_t deadline = _PyTime_Add(_PyTime_GetSystemClock(), timeout);
_PyTime_AsTimespec(deadline, &ts);
err = sem_timedwait(&sema->platform_sem, &ts);
}
else {
err = sem_wait(&sema->platform_sem);
}
if (err == -1) {
err = errno;
if (err == EINTR) {
res = Py_PARK_INTR;
}
else if (err == ETIMEDOUT) {
res = Py_PARK_TIMEOUT;
}
else {
_Py_FatalErrorFormat(__func__,
"unexpected error from semaphore: %d",
err);
}
}
else {
res = Py_PARK_OK;
}
#else
pthread_mutex_lock(&sema->mutex);
int err = 0;
if (sema->counter == 0) {
if (timeout >= 0) {
struct timespec ts;
_PyTime_t deadline = _PyTime_Add(_PyTime_GetSystemClock(), timeout);
_PyTime_AsTimespec(deadline, &ts);
err = pthread_cond_timedwait(&sema->cond, &sema->mutex, &ts);
}
else {
err = pthread_cond_wait(&sema->cond, &sema->mutex);
}
}
if (sema->counter > 0) {
sema->counter--;
res = Py_PARK_OK;
}
else if (err) {
res = Py_PARK_TIMEOUT;
}
else {
res = Py_PARK_INTR;
}
pthread_mutex_unlock(&sema->mutex);
#endif
return res;
}
int
_PySemaphore_Wait(_PySemaphore *sema, _PyTime_t timeout, int detach)
{
PyThreadState *tstate = NULL;
if (detach) {
tstate = _PyThreadState_GET();
if (tstate) {
PyEval_ReleaseThread(tstate);
}
}
int res = _PySemaphore_PlatformWait(sema, timeout);
if (detach && tstate) {
PyEval_AcquireThread(tstate);
}
return res;
}
void
_PySemaphore_Wakeup(_PySemaphore *sema)
{
#if defined(MS_WINDOWS)
if (!ReleaseSemaphore(sema->platform_sem, 1, NULL)) {
Py_FatalError("parking_lot: ReleaseSemaphore failed");
}
#elif defined(_Py_USE_SEMAPHORES)
int err = sem_post(&sema->platform_sem);
if (err != 0) {
Py_FatalError("parking_lot: sem_post failed");
}
#else
pthread_mutex_lock(&sema->mutex);
sema->counter++;
pthread_cond_signal(&sema->cond);
pthread_mutex_unlock(&sema->mutex);
#endif
}
static void
enqueue(Bucket *bucket, const void *address, struct wait_entry *wait)
{
llist_insert_tail(&bucket->root, &wait->node);
++bucket->num_waiters;
}
static struct wait_entry *
dequeue(Bucket *bucket, const void *address)
{
// find the first waiter that is waiting on `address`
struct llist_node *root = &bucket->root;
struct llist_node *node;
llist_for_each(node, root) {
struct wait_entry *wait = llist_data(node, struct wait_entry, node);
if (wait->addr == (uintptr_t)address) {
llist_remove(node);
--bucket->num_waiters;
return wait;
}
}
return NULL;
}
static void
dequeue_all(Bucket *bucket, const void *address, struct llist_node *dst)
{
// remove and append all matching waiters to dst
struct llist_node *root = &bucket->root;
struct llist_node *node;
llist_for_each_safe(node, root) {
struct wait_entry *wait = llist_data(node, struct wait_entry, node);
if (wait->addr == (uintptr_t)address) {
llist_remove(node);
llist_insert_tail(dst, node);
--bucket->num_waiters;
}
}
}
// Checks that `*addr == *expected` (only works for 1, 2, 4, or 8 bytes)
static int
atomic_memcmp(const void *addr, const void *expected, size_t addr_size)
{
switch (addr_size) {
case 1: return _Py_atomic_load_uint8(addr) == *(const uint8_t *)expected;
case 2: return _Py_atomic_load_uint16(addr) == *(const uint16_t *)expected;
case 4: return _Py_atomic_load_uint32(addr) == *(const uint32_t *)expected;
case 8: return _Py_atomic_load_uint64(addr) == *(const uint64_t *)expected;
default: Py_UNREACHABLE();
}
}
int
_PyParkingLot_Park(const void *addr, const void *expected, size_t size,
_PyTime_t timeout_ns, void *park_arg, int detach)
{
struct wait_entry wait = {
.park_arg = park_arg,
.addr = (uintptr_t)addr,
.is_unparking = false,
};
Bucket *bucket = &buckets[((uintptr_t)addr) % NUM_BUCKETS];
_PyRawMutex_Lock(&bucket->mutex);
if (!atomic_memcmp(addr, expected, size)) {
_PyRawMutex_Unlock(&bucket->mutex);
return Py_PARK_AGAIN;
}
_PySemaphore_Init(&wait.sema);
enqueue(bucket, addr, &wait);
_PyRawMutex_Unlock(&bucket->mutex);
int res = _PySemaphore_Wait(&wait.sema, timeout_ns, detach);
if (res == Py_PARK_OK) {
goto done;
}
// timeout or interrupt
_PyRawMutex_Lock(&bucket->mutex);
if (wait.is_unparking) {
_PyRawMutex_Unlock(&bucket->mutex);
// Another thread has started to unpark us. Wait until we process the
// wakeup signal.
do {
res = _PySemaphore_Wait(&wait.sema, -1, detach);
} while (res != Py_PARK_OK);
goto done;
}
else {
llist_remove(&wait.node);
--bucket->num_waiters;
}
_PyRawMutex_Unlock(&bucket->mutex);
done:
_PySemaphore_Destroy(&wait.sema);
return res;
}
void
_PyParkingLot_Unpark(const void *addr, _Py_unpark_fn_t *fn, void *arg)
{
Bucket *bucket = &buckets[((uintptr_t)addr) % NUM_BUCKETS];
// Find the first waiter that is waiting on `addr`
_PyRawMutex_Lock(&bucket->mutex);
struct wait_entry *waiter = dequeue(bucket, addr);
if (waiter) {
waiter->is_unparking = true;
int has_more_waiters = (bucket->num_waiters > 0);
fn(arg, waiter->park_arg, has_more_waiters);
}
else {
fn(arg, NULL, 0);
}
_PyRawMutex_Unlock(&bucket->mutex);
if (waiter) {
// Wakeup the waiter outside of the bucket lock
_PySemaphore_Wakeup(&waiter->sema);
}
}
void
_PyParkingLot_UnparkAll(const void *addr)
{
struct llist_node head = LLIST_INIT(head);
Bucket *bucket = &buckets[((uintptr_t)addr) % NUM_BUCKETS];
_PyRawMutex_Lock(&bucket->mutex);
dequeue_all(bucket, addr, &head);
_PyRawMutex_Unlock(&bucket->mutex);
struct llist_node *node;
llist_for_each_safe(node, &head) {
struct wait_entry *waiter = llist_data(node, struct wait_entry, node);
llist_remove(node);
_PySemaphore_Wakeup(&waiter->sema);
}
}
void
_PyParkingLot_AfterFork(void)
{
// After a fork only one thread remains. That thread cannot be blocked
// so all entries in the parking lot are for dead threads.
memset(buckets, 0, sizeof(buckets));
for (Py_ssize_t i = 0; i < NUM_BUCKETS; i++) {
llist_init(&buckets[i].root);
}
}

View File

@ -9,6 +9,7 @@
#include "pycore_frame.h" #include "pycore_frame.h"
#include "pycore_initconfig.h" // _PyStatus_OK() #include "pycore_initconfig.h" // _PyStatus_OK()
#include "pycore_object.h" // _PyType_InitCache() #include "pycore_object.h" // _PyType_InitCache()
#include "pycore_parking_lot.h" // _PyParkingLot_AfterFork()
#include "pycore_pyerrors.h" // _PyErr_Clear() #include "pycore_pyerrors.h" // _PyErr_Clear()
#include "pycore_pylifecycle.h" // _PyAST_Fini() #include "pycore_pylifecycle.h" // _PyAST_Fini()
#include "pycore_pymem.h" // _PyMem_SetDefaultAllocator() #include "pycore_pymem.h" // _PyMem_SetDefaultAllocator()
@ -554,6 +555,10 @@ _PyRuntimeState_ReInitThreads(_PyRuntimeState *runtime)
PyMem_SetAllocator(PYMEM_DOMAIN_RAW, &old_alloc); PyMem_SetAllocator(PYMEM_DOMAIN_RAW, &old_alloc);
// Clears the parking lot. Any waiting threads are dead. This must be
// called before releasing any locks that use the parking lot.
_PyParkingLot_AfterFork();
/* bpo-42540: id_mutex is freed by _PyInterpreterState_Delete, which does /* bpo-42540: id_mutex is freed by _PyInterpreterState_Delete, which does
* not force the default allocator. */ * not force the default allocator. */
reinit_err += _PyThread_at_fork_reinit(&runtime->interpreters.main->id_mutex); reinit_err += _PyThread_at_fork_reinit(&runtime->interpreters.main->id_mutex);

View File

@ -314,6 +314,7 @@ MAX_SIZES = {
_abs('Objects/stringlib/unicode_format.h'): (10_000, 400), _abs('Objects/stringlib/unicode_format.h'): (10_000, 400),
_abs('Objects/typeobject.c'): (35_000, 200), _abs('Objects/typeobject.c'): (35_000, 200),
_abs('Python/compile.c'): (20_000, 500), _abs('Python/compile.c'): (20_000, 500),
_abs('Python/parking_lot.c'): (40_000, 1000),
_abs('Python/pylifecycle.c'): (500_000, 5000), _abs('Python/pylifecycle.c'): (500_000, 5000),
_abs('Python/pystate.c'): (500_000, 5000), _abs('Python/pystate.c'): (500_000, 5000),

View File

@ -50,6 +50,9 @@ Python/getversion.c - version -
Python/bootstrap_hash.c - _Py_HashSecret_Initialized - Python/bootstrap_hash.c - _Py_HashSecret_Initialized -
Python/pyhash.c - _Py_HashSecret - Python/pyhash.c - _Py_HashSecret -
## thread-safe hashtable (internal locks)
Python/parking_lot.c - buckets -
################################## ##################################
## state tied to Py_Main() ## state tied to Py_Main()

Can't render this file because it has a wrong number of fields in line 4.

View File

@ -0,0 +1,53 @@
# Measure the performance of PyMutex and PyThread_type_lock locks
# with short critical sections.
#
# Usage: python Tools/lockbench/lockbench.py [CRITICAL_SECTION_LENGTH]
#
# How to interpret the results:
#
# Acquisitions (kHz): Reports the total number of lock acquisitions in
# thousands of acquisitions per second. This is the most important metric,
# particularly for the 1 thread case because even in multithreaded programs,
# most locks acquisitions are not contended. Values for 2+ threads are
# only meaningful for `--disable-gil` builds, because the GIL prevents most
# situations where there is lock contention with short critical sections.
#
# Fairness: A measure of how evenly the lock acquisitions are distributed.
# A fairness of 1.0 means that all threads acquired the lock the same number
# of times. A fairness of 1/N means that only one thread ever acquired the
# lock.
# See https://en.wikipedia.org/wiki/Fairness_measure#Jain's_fairness_index
from _testinternalcapi import benchmark_locks
import sys
# Max number of threads to test
MAX_THREADS = 10
# How much "work" to do while holding the lock
CRITICAL_SECTION_LENGTH = 1
def jains_fairness(values):
# Jain's fairness index
# See https://en.wikipedia.org/wiki/Fairness_measure
return (sum(values) ** 2) / (len(values) * sum(x ** 2 for x in values))
def main():
print("Lock Type Threads Acquisitions (kHz) Fairness")
for lock_type in ["PyMutex", "PyThread_type_lock"]:
use_pymutex = (lock_type == "PyMutex")
for num_threads in range(1, MAX_THREADS + 1):
acquisitions, thread_iters = benchmark_locks(
num_threads, use_pymutex, CRITICAL_SECTION_LENGTH)
acquisitions /= 1000 # report in kHz for readability
fairness = jains_fairness(thread_iters)
print(f"{lock_type: <20}{num_threads: <18}{acquisitions: >5.0f}{fairness: >20.2f}")
if __name__ == "__main__":
if len(sys.argv) > 1:
CRITICAL_SECTION_LENGTH = int(sys.argv[1])
main()

8
configure generated vendored
View File

@ -27760,7 +27760,7 @@ fi
# #
# Avoid #include <Python.h> or #include <pyport.h>. The <Python.h> header # Avoid #include <Python.h> or #include <pyport.h>. The <Python.h> header
# requires <pyconfig.h> header which is only written below by AC_OUTPUT below. # requires <pyconfig.h> header which is only written below by AC_OUTPUT below.
# If the check is done after AC_OUTPUT, modifying LIBATOMIC has no effect # If the check is done after AC_OUTPUT, modifying LIBS has no effect
# anymore. <pyport.h> cannot be included alone, it's designed to be included # anymore. <pyport.h> cannot be included alone, it's designed to be included
# by <Python.h>: it expects other includes and macros to be defined. # by <Python.h>: it expects other includes and macros to be defined.
save_CPPFLAGS=$CPPFLAGS save_CPPFLAGS=$CPPFLAGS
@ -27793,7 +27793,7 @@ typedef intptr_t Py_ssize_t;
# error "unable to define Py_ssize_t" # error "unable to define Py_ssize_t"
#endif #endif
#include "cpython/pyatomic.h" #include "pyatomic.h"
int main() int main()
{ {
@ -27825,7 +27825,7 @@ printf "%s\n" "$ac_cv_libatomic_needed" >&6; }
if test "x$ac_cv_libatomic_needed" = xyes if test "x$ac_cv_libatomic_needed" = xyes
then : then :
LIBATOMIC=${LIBATOMIC-"-latomic"} LIBS="${LIBS} -latomic"
fi fi
CPPFLAGS=$save_CPPFLAGS CPPFLAGS=$save_CPPFLAGS
@ -29979,7 +29979,7 @@ fi
then : then :
as_fn_append MODULE_BLOCK "MODULE__TESTCAPI_LDFLAGS=$LIBATOMIC$as_nl"
fi fi
if test "$py_cv_module__testcapi" = yes; then if test "$py_cv_module__testcapi" = yes; then

View File

@ -6970,7 +6970,7 @@ fi
# #
# Avoid #include <Python.h> or #include <pyport.h>. The <Python.h> header # Avoid #include <Python.h> or #include <pyport.h>. The <Python.h> header
# requires <pyconfig.h> header which is only written below by AC_OUTPUT below. # requires <pyconfig.h> header which is only written below by AC_OUTPUT below.
# If the check is done after AC_OUTPUT, modifying LIBATOMIC has no effect # If the check is done after AC_OUTPUT, modifying LIBS has no effect
# anymore. <pyport.h> cannot be included alone, it's designed to be included # anymore. <pyport.h> cannot be included alone, it's designed to be included
# by <Python.h>: it expects other includes and macros to be defined. # by <Python.h>: it expects other includes and macros to be defined.
_SAVE_VAR([CPPFLAGS]) _SAVE_VAR([CPPFLAGS])
@ -6993,7 +6993,7 @@ typedef intptr_t Py_ssize_t;
# error "unable to define Py_ssize_t" # error "unable to define Py_ssize_t"
#endif #endif
#include "cpython/pyatomic.h" #include "pyatomic.h"
int main() int main()
{ {
@ -7014,7 +7014,7 @@ int main()
]) ])
AS_VAR_IF([ac_cv_libatomic_needed], [yes], AS_VAR_IF([ac_cv_libatomic_needed], [yes],
[LIBATOMIC=${LIBATOMIC-"-latomic"}]) [LIBS="${LIBS} -latomic"])
_RESTORE_VAR([CPPFLAGS]) _RESTORE_VAR([CPPFLAGS])
@ -7286,10 +7286,7 @@ PY_STDLIB_MOD([_hashlib], [], [test "$ac_cv_working_openssl_hashlib" = yes],
[$OPENSSL_INCLUDES], [$OPENSSL_LDFLAGS $OPENSSL_LDFLAGS_RPATH $LIBCRYPTO_LIBS]) [$OPENSSL_INCLUDES], [$OPENSSL_LDFLAGS $OPENSSL_LDFLAGS_RPATH $LIBCRYPTO_LIBS])
dnl test modules dnl test modules
PY_STDLIB_MOD([_testcapi], PY_STDLIB_MOD([_testcapi], [test "$TEST_MODULES" = yes])
[test "$TEST_MODULES" = yes], []
dnl Modules/_testcapi/pyatomic.c uses <cpython/pyatomic.h> header
[], [], [$LIBATOMIC])
PY_STDLIB_MOD([_testclinic], [test "$TEST_MODULES" = yes]) PY_STDLIB_MOD([_testclinic], [test "$TEST_MODULES" = yes])
PY_STDLIB_MOD([_testclinic_limited], [test "$TEST_MODULES" = yes]) PY_STDLIB_MOD([_testclinic_limited], [test "$TEST_MODULES" = yes])
PY_STDLIB_MOD([_testinternalcapi], [test "$TEST_MODULES" = yes]) PY_STDLIB_MOD([_testinternalcapi], [test "$TEST_MODULES" = yes])