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authorAntoine Pitrou <solipsis@pitrou.net>2010-08-10 13:48:51 (GMT)
committerAntoine Pitrou <solipsis@pitrou.net>2010-08-10 13:48:51 (GMT)
commite1dd1747e8750ed8a7641d59899e3cb8db5ddca9 (patch)
tree0ce400a0088f672b6411d34bcbd1c8b592d59f8b /Python
parent817c9df7e518e563de90e9659206f31072f96157 (diff)
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Issue #8411: new condition variable emulation under Windows for the new GIL,
by Kristján. Unfortunately the 3.x Windows buildbots are in a wreck, so we'll have to watch them when they become fit again.
Diffstat (limited to 'Python')
-rw-r--r--Python/ceval_gil.h157
1 files changed, 105 insertions, 52 deletions
diff --git a/Python/ceval_gil.h b/Python/ceval_gil.h
index a284c5d..7d72016 100644
--- a/Python/ceval_gil.h
+++ b/Python/ceval_gil.h
@@ -106,7 +106,6 @@ do { \
#define COND_INIT(cond) \
if (pthread_cond_init(&cond, NULL)) { \
Py_FatalError("pthread_cond_init(" #cond ") failed"); };
-#define COND_RESET(cond)
#define COND_SIGNAL(cond) \
if (pthread_cond_signal(&cond)) { \
Py_FatalError("pthread_cond_signal(" #cond ") failed"); };
@@ -141,64 +140,120 @@ do { \
#include <windows.h>
-#define MUTEX_T HANDLE
-#define MUTEX_INIT(mut) \
- if (!(mut = CreateMutex(NULL, FALSE, NULL))) { \
- Py_FatalError("CreateMutex(" #mut ") failed"); };
+#define MUTEX_T CRITICAL_SECTION
+#define MUTEX_INIT(mut) do { \
+ if (!(InitializeCriticalSectionAndSpinCount(&(mut), 4000))) \
+ Py_FatalError("CreateMutex(" #mut ") failed"); \
+} while (0)
+#define MUTEX_FINI(mut) \
+ DeleteCriticalSection(&(mut))
#define MUTEX_LOCK(mut) \
- if (WaitForSingleObject(mut, INFINITE) != WAIT_OBJECT_0) { \
- Py_FatalError("WaitForSingleObject(" #mut ") failed"); };
+ EnterCriticalSection(&(mut))
#define MUTEX_UNLOCK(mut) \
- if (!ReleaseMutex(mut)) { \
- Py_FatalError("ReleaseMutex(" #mut ") failed"); };
-
-/* We emulate condition variables with events. It is sufficient here.
- WaitForMultipleObjects() allows the event to be caught and the mutex
- to be taken atomically.
- As for SignalObjectAndWait(), its semantics are unfortunately a bit
- more foggy. Many sources on the Web define it as atomically releasing
- the first object while starting to wait on the second, but MSDN states
- it is *not* atomic...
-
- In any case, the emulation here is tailored for our particular use case.
- For example, we don't care how many threads are woken up when a condition
- gets signalled. Generic emulations of the pthread_cond_* API using
+ LeaveCriticalSection(&(mut))
+
+/* We emulate condition variables with a semaphore.
+ We use a Semaphore rather than an auto-reset event, because although
+ an auto-resent event might appear to solve the lost-wakeup bug (race
+ condition between releasing the outer lock and waiting) because it
+ maintains state even though a wait hasn't happened, there is still
+ a lost wakeup problem if more than one thread are interrupted in the
+ critical place. A semaphore solves that.
+ Because it is ok to signal a condition variable with no one
+ waiting, we need to keep track of the number of
+ waiting threads. Otherwise, the semaphore's state could rise
+ without bound.
+
+ Generic emulations of the pthread_cond_* API using
Win32 functions can be found on the Web.
The following read can be edificating (or not):
http://www.cse.wustl.edu/~schmidt/win32-cv-1.html
*/
-#define COND_T HANDLE
+typedef struct COND_T
+{
+ HANDLE sem; /* the semaphore */
+ int n_waiting; /* how many are unreleased */
+} COND_T;
+
+__inline static void _cond_init(COND_T *cond)
+{
+ /* A semaphore with a large max value, The positive value
+ * is only needed to catch those "lost wakeup" events and
+ * race conditions when a timed wait elapses.
+ */
+ if (!(cond->sem = CreateSemaphore(NULL, 0, 1000, NULL)))
+ Py_FatalError("CreateSemaphore() failed");
+ cond->n_waiting = 0;
+}
+
+__inline static void _cond_fini(COND_T *cond)
+{
+ BOOL ok = CloseHandle(cond->sem);
+ if (!ok)
+ Py_FatalError("CloseHandle() failed");
+}
+
+__inline static void _cond_wait(COND_T *cond, MUTEX_T *mut)
+{
+ ++cond->n_waiting;
+ MUTEX_UNLOCK(*mut);
+ /* "lost wakeup bug" would occur if the caller were interrupted here,
+ * but we are safe because we are using a semaphore wich has an internal
+ * count.
+ */
+ if (WaitForSingleObject(cond->sem, INFINITE) == WAIT_FAILED)
+ Py_FatalError("WaitForSingleObject() failed");
+ MUTEX_LOCK(*mut);
+}
+
+__inline static int _cond_timed_wait(COND_T *cond, MUTEX_T *mut,
+ int us)
+{
+ DWORD r;
+ ++cond->n_waiting;
+ MUTEX_UNLOCK(*mut);
+ r = WaitForSingleObject(cond->sem, us / 1000);
+ if (r == WAIT_FAILED)
+ Py_FatalError("WaitForSingleObject() failed");
+ MUTEX_LOCK(*mut);
+ if (r == WAIT_TIMEOUT)
+ --cond->n_waiting;
+ /* Here we have a benign race condition with _cond_signal. If the
+ * wait operation has timed out, but before we can acquire the
+ * mutex again to decrement n_waiting, a thread holding the mutex
+ * still sees a positive n_waiting value and may call
+ * ReleaseSemaphore and decrement n_waiting.
+ * This will cause n_waiting to be decremented twice.
+ * This is benign, though, because ReleaseSemaphore will also have
+ * been called, leaving the semaphore state positive. We may
+ * thus end up with semaphore in state 1, and n_waiting == -1, and
+ * the next time someone calls _cond_wait(), that thread will
+ * pass right through, decrementing the semaphore state and
+ * incrementing n_waiting, thus correcting the extra _cond_signal.
+ */
+ return r == WAIT_TIMEOUT;
+}
+
+__inline static void _cond_signal(COND_T *cond) {
+ /* NOTE: This must be called with the mutex held */
+ if (cond->n_waiting > 0) {
+ if (!ReleaseSemaphore(cond->sem, 1, NULL))
+ Py_FatalError("ReleaseSemaphore() failed");
+ --cond->n_waiting;
+ }
+}
+
#define COND_INIT(cond) \
- /* auto-reset, non-signalled */ \
- if (!(cond = CreateEvent(NULL, FALSE, FALSE, NULL))) { \
- Py_FatalError("CreateMutex(" #cond ") failed"); };
-#define COND_RESET(cond) \
- if (!ResetEvent(cond)) { \
- Py_FatalError("ResetEvent(" #cond ") failed"); };
+ _cond_init(&(cond))
+#define COND_FINI(cond) \
+ _cond_fini(&(cond))
#define COND_SIGNAL(cond) \
- if (!SetEvent(cond)) { \
- Py_FatalError("SetEvent(" #cond ") failed"); };
+ _cond_signal(&(cond))
#define COND_WAIT(cond, mut) \
- { \
- if (SignalObjectAndWait(mut, cond, INFINITE, FALSE) != WAIT_OBJECT_0) \
- Py_FatalError("SignalObjectAndWait(" #mut ", " #cond") failed"); \
- MUTEX_LOCK(mut); \
- }
-#define COND_TIMED_WAIT(cond, mut, microseconds, timeout_result) \
- { \
- DWORD r; \
- HANDLE objects[2] = { cond, mut }; \
- MUTEX_UNLOCK(mut); \
- r = WaitForMultipleObjects(2, objects, TRUE, microseconds / 1000); \
- if (r == WAIT_TIMEOUT) { \
- MUTEX_LOCK(mut); \
- timeout_result = 1; \
- } \
- else if (r != WAIT_OBJECT_0) \
- Py_FatalError("WaitForSingleObject(" #cond ") failed"); \
- else \
- timeout_result = 0; \
- }
+ _cond_wait(&(cond), &(mut))
+#define COND_TIMED_WAIT(cond, mut, us, timeout_result) do { \
+ (timeout_result) = _cond_timed_wait(&(cond), &(mut), us); \
+} while (0)
#else
@@ -282,7 +337,6 @@ static void drop_gil(PyThreadState *tstate)
the GIL and drop it again, and reset the condition
before we even had a chance to wait for it. */
COND_WAIT(switch_cond, switch_mutex);
- COND_RESET(switch_cond);
}
MUTEX_UNLOCK(switch_mutex);
}
@@ -301,7 +355,6 @@ static void take_gil(PyThreadState *tstate)
if (!_Py_atomic_load_relaxed(&gil_locked))
goto _ready;
- COND_RESET(gil_cond);
while (_Py_atomic_load_relaxed(&gil_locked)) {
int timed_out = 0;
unsigned long saved_switchnum;