gshell: Fix parsing of comments in command lines.
[platform/upstream/glib.git] / glib / gthread-win32.c
1 /* GLIB - Library of useful routines for C programming
2  * Copyright (C) 1995-1997  Peter Mattis, Spencer Kimball and Josh MacDonald
3  *
4  * gthread.c: solaris thread system implementation
5  * Copyright 1998-2001 Sebastian Wilhelmi; University of Karlsruhe
6  * Copyright 2001 Hans Breuer
7  *
8  * This library is free software; you can redistribute it and/or
9  * modify it under the terms of the GNU Lesser General Public
10  * License as published by the Free Software Foundation; either
11  * version 2 of the License, or (at your option) any later version.
12  *
13  * This library is distributed in the hope that it will be useful,
14  * but WITHOUT ANY WARRANTY; without even the implied warranty of
15  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
16  * Lesser General Public License for more details.
17  *
18  * You should have received a copy of the GNU Lesser General Public
19  * License along with this library; if not, write to the
20  * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
21  * Boston, MA 02111-1307, USA.
22  */
23
24 /*
25  * Modified by the GLib Team and others 1997-2000.  See the AUTHORS
26  * file for a list of people on the GLib Team.  See the ChangeLog
27  * files for a list of changes.  These files are distributed with
28  * GLib at ftp://ftp.gtk.org/pub/gtk/.
29  */
30
31 /* The GMutex and GCond implementations in this file are some of the
32  * lowest-level code in GLib.  All other parts of GLib (messages,
33  * memory, slices, etc) assume that they can freely use these facilities
34  * without risking recursion.
35  *
36  * As such, these functions are NOT permitted to call any other part of
37  * GLib.
38  *
39  * The thread manipulation functions (create, exit, join, etc.) have
40  * more freedom -- they can do as they please.
41  */
42
43 #include "config.h"
44
45 #include "glib.h"
46 #include "gthread.h"
47 #include "gthreadprivate.h"
48 #include "gslice.h"
49
50 #include <windows.h>
51
52 #include <process.h>
53 #include <stdlib.h>
54 #include <stdio.h>
55
56 static void
57 g_thread_abort (gint         status,
58                 const gchar *function)
59 {
60   fprintf (stderr, "GLib (gthread-win32.c): Unexpected error from C library during '%s': %s.  Aborting.\n",
61            strerror (status), function);
62   abort ();
63 }
64
65 /* Starting with Vista and Windows 2008, we have access to the
66  * CONDITION_VARIABLE and SRWLock primatives on Windows, which are
67  * pretty reasonable approximations of the primatives specified in
68  * POSIX 2001 (pthread_cond_t and pthread_mutex_t respectively).
69  *
70  * Both of these types are structs containing a single pointer.  That
71  * pointer is used as an atomic bitfield to support user-space mutexes
72  * that only get the kernel involved in cases of contention (similar
73  * to how futex()-based mutexes work on Linux).  The biggest advantage
74  * of these new types is that they can be statically initialised to
75  * zero.  That means that they are completely ABI compatible with our
76  * GMutex and GCond APIs.
77  *
78  * Unfortunately, Windows XP lacks these facilities and GLib still
79  * needs to support Windows XP.  Our approach here is as follows:
80  *
81  *   - avoid depending on structure declarations at compile-time by
82  *     declaring our own GMutex and GCond strutures to be
83  *     ABI-compatible with SRWLock and CONDITION_VARIABLE and using
84  *     those instead
85  *
86  *   - avoid a hard dependency on the symbols used to manipulate these
87  *     structures by doing a dynamic lookup of those symbols at
88  *     runtime
89  *
90  *   - if the symbols are not available, emulate them using other
91  *     primatives
92  *
93  * Using this approach also allows us to easily build a GLib that lacks
94  * support for Windows XP or to remove this code entirely when XP is no
95  * longer supported (end of line is currently April 8, 2014).
96  */
97 typedef struct
98 {
99   void     (__stdcall * CallThisOnThreadExit)        (void);              /* fake */
100
101   void     (__stdcall * InitializeSRWLock)           (gpointer lock);
102   void     (__stdcall * DeleteSRWLock)               (gpointer lock);     /* fake */
103   void     (__stdcall * AcquireSRWLockExclusive)     (gpointer lock);
104   BOOLEAN  (__stdcall * TryAcquireSRWLockExclusive)  (gpointer lock);
105   void     (__stdcall * ReleaseSRWLockExclusive)     (gpointer lock);
106   void     (__stdcall * AcquireSRWLockShared)        (gpointer lock);
107   BOOLEAN  (__stdcall * TryAcquireSRWLockShared)     (gpointer lock);
108   void     (__stdcall * ReleaseSRWLockShared)        (gpointer lock);
109
110   void     (__stdcall * InitializeConditionVariable) (gpointer cond);
111   void     (__stdcall * DeleteConditionVariable)     (gpointer cond);     /* fake */
112   BOOL     (__stdcall * SleepConditionVariableSRW)   (gpointer cond,
113                                                       gpointer lock,
114                                                       DWORD    timeout,
115                                                       ULONG    flags);
116   void     (__stdcall * WakeAllConditionVariable)    (gpointer cond);
117   void     (__stdcall * WakeConditionVariable)       (gpointer cond);
118 } GThreadImplVtable;
119
120 static GThreadImplVtable g_thread_impl_vtable;
121
122 /* {{{1 GMutex */
123 void
124 g_mutex_init (GMutex *mutex)
125 {
126   g_thread_impl_vtable.InitializeSRWLock (mutex);
127 }
128
129 void
130 g_mutex_clear (GMutex *mutex)
131 {
132   if (g_thread_impl_vtable.DeleteSRWLock != NULL)
133     g_thread_impl_vtable.DeleteSRWLock (mutex);
134 }
135
136 void
137 g_mutex_lock (GMutex *mutex)
138 {
139   g_thread_impl_vtable.AcquireSRWLockExclusive (mutex);
140 }
141
142 gboolean
143 g_mutex_trylock (GMutex *mutex)
144 {
145   return g_thread_impl_vtable.TryAcquireSRWLockExclusive (mutex);
146 }
147
148 void
149 g_mutex_unlock (GMutex *mutex)
150 {
151   g_thread_impl_vtable.ReleaseSRWLockExclusive (mutex);
152 }
153
154 /* {{{1 GRecMutex */
155
156 static CRITICAL_SECTION *
157 g_rec_mutex_impl_new (void)
158 {
159   CRITICAL_SECTION *cs;
160
161   cs = g_slice_new (CRITICAL_SECTION);
162   InitializeCriticalSection (cs);
163
164   return cs;
165 }
166
167 static void
168 g_rec_mutex_impl_free (CRITICAL_SECTION *cs)
169 {
170   DeleteCriticalSection (cs);
171   g_slice_free (CRITICAL_SECTION, cs);
172 }
173
174 static CRITICAL_SECTION *
175 g_rec_mutex_get_impl (GRecMutex *mutex)
176 {
177   CRITICAL_SECTION *impl = mutex->p;
178
179   if G_UNLIKELY (mutex->p == NULL)
180     {
181       impl = g_rec_mutex_impl_new ();
182       if (InterlockedCompareExchangePointer (&mutex->p, impl, NULL) != NULL)
183         g_rec_mutex_impl_free (impl);
184       impl = mutex->p;
185     }
186
187   return impl;
188 }
189
190 void
191 g_rec_mutex_init (GRecMutex *mutex)
192 {
193   mutex->p = g_rec_mutex_impl_new ();
194 }
195
196 void
197 g_rec_mutex_clear (GRecMutex *mutex)
198 {
199   g_rec_mutex_impl_free (mutex->p);
200 }
201
202 void
203 g_rec_mutex_lock (GRecMutex *mutex)
204 {
205   EnterCriticalSection (g_rec_mutex_get_impl (mutex));
206 }
207
208 void
209 g_rec_mutex_unlock (GRecMutex *mutex)
210 {
211   LeaveCriticalSection (mutex->p);
212 }
213
214 gboolean
215 g_rec_mutex_trylock (GRecMutex *mutex)
216 {
217   return TryEnterCriticalSection (g_rec_mutex_get_impl (mutex));
218 }
219
220 /* {{{1 GRWLock */
221
222 void
223 g_rw_lock_init (GRWLock *lock)
224 {
225   g_thread_impl_vtable.InitializeSRWLock (lock);
226 }
227
228 void
229 g_rw_lock_clear (GRWLock *lock)
230 {
231   if (g_thread_impl_vtable.DeleteSRWLock != NULL)
232     g_thread_impl_vtable.DeleteSRWLock (lock);
233 }
234
235 void
236 g_rw_lock_writer_lock (GRWLock *lock)
237 {
238   g_thread_impl_vtable.AcquireSRWLockExclusive (lock);
239 }
240
241 gboolean
242 g_rw_lock_writer_trylock (GRWLock *lock)
243 {
244   return g_thread_impl_vtable.TryAcquireSRWLockExclusive (lock);
245 }
246
247 void
248 g_rw_lock_writer_unlock (GRWLock *lock)
249 {
250   g_thread_impl_vtable.ReleaseSRWLockExclusive (lock);
251 }
252
253 void
254 g_rw_lock_reader_lock (GRWLock *lock)
255 {
256   g_thread_impl_vtable.AcquireSRWLockShared (lock);
257 }
258
259 gboolean
260 g_rw_lock_reader_trylock (GRWLock *lock)
261 {
262   return g_thread_impl_vtable.TryAcquireSRWLockShared (lock);
263 }
264
265 void
266 g_rw_lock_reader_unlock (GRWLock *lock)
267 {
268   g_thread_impl_vtable.ReleaseSRWLockShared (lock);
269 }
270
271 /* {{{1 GCond */
272 void
273 g_cond_init (GCond *cond)
274 {
275   g_thread_impl_vtable.InitializeConditionVariable (cond);
276 }
277
278 void
279 g_cond_clear (GCond *cond)
280 {
281   if (g_thread_impl_vtable.DeleteConditionVariable)
282     g_thread_impl_vtable.DeleteConditionVariable (cond);
283 }
284
285 void
286 g_cond_signal (GCond *cond)
287 {
288   g_thread_impl_vtable.WakeConditionVariable (cond);
289 }
290
291 void
292 g_cond_broadcast (GCond *cond)
293 {
294   g_thread_impl_vtable.WakeAllConditionVariable (cond);
295 }
296
297 void
298 g_cond_wait (GCond  *cond,
299              GMutex *entered_mutex)
300 {
301   g_thread_impl_vtable.SleepConditionVariableSRW (cond, entered_mutex, INFINITE, 0);
302 }
303
304 gboolean
305 g_cond_wait_until (GCond  *cond,
306                    GMutex *entered_mutex,
307                    gint64  end_time)
308 {
309   gint64 span;
310
311   span = end_time - g_get_monotonic_time ();
312
313   if G_UNLIKELY (span < 0)
314     span = 0;
315
316   if G_UNLIKELY (span > G_GINT64_CONSTANT (1000) * G_MAXINT32)
317     span = INFINITE;
318
319   return g_thread_impl_vtable.SleepConditionVariableSRW (cond, entered_mutex, span / 1000, 0);
320 }
321
322 /* {{{1 GPrivate */
323
324 typedef struct _GPrivateDestructor GPrivateDestructor;
325
326 struct _GPrivateDestructor
327 {
328   DWORD               index;
329   GDestroyNotify      notify;
330   GPrivateDestructor *next;
331 };
332
333 static GPrivateDestructor * volatile g_private_destructors;
334 static CRITICAL_SECTION g_private_lock;
335
336 static DWORD
337 g_private_get_impl (GPrivate *key)
338 {
339   DWORD impl = (DWORD) key->p;
340
341   if G_UNLIKELY (impl == 0)
342     {
343       EnterCriticalSection (&g_private_lock);
344       impl = (DWORD) key->p;
345       if (impl == 0)
346         {
347           GPrivateDestructor *destructor;
348
349           impl = TlsAlloc ();
350
351           if (impl == TLS_OUT_OF_INDEXES)
352             g_thread_abort (0, "TlsAlloc");
353
354           if (key->notify != NULL)
355             {
356               destructor = malloc (sizeof (GPrivateDestructor));
357               if G_UNLIKELY (destructor == NULL)
358                 g_thread_abort (errno, "malloc");
359               destructor->index = impl;
360               destructor->notify = key->notify;
361               destructor->next = g_private_destructors;
362
363               /* We need to do an atomic store due to the unlocked
364                * access to the destructor list from the thread exit
365                * function.
366                *
367                * It can double as a sanity check...
368                */
369               if (InterlockedCompareExchangePointer (&g_private_destructors, destructor,
370                                                      destructor->next) != destructor->next)
371                 g_thread_abort (0, "g_private_get_impl(1)");
372             }
373
374           /* Ditto, due to the unlocked access on the fast path */
375           if (InterlockedCompareExchangePointer (&key->p, impl, NULL) != NULL)
376             g_thread_abort (0, "g_private_get_impl(2)");
377         }
378       LeaveCriticalSection (&g_private_lock);
379     }
380
381   return impl;
382 }
383
384 gpointer
385 g_private_get (GPrivate *key)
386 {
387   return TlsGetValue (g_private_get_impl (key));
388 }
389
390 void
391 g_private_set (GPrivate *key,
392                gpointer  value)
393 {
394   TlsSetValue (g_private_get_impl (key), value);
395 }
396
397 void
398 g_private_replace (GPrivate *key,
399                    gpointer  value)
400 {
401   DWORD impl = g_private_get_impl (key);
402   gpointer old;
403
404   old = TlsGetValue (impl);
405   if (old && key->notify)
406     key->notify (old);
407   TlsSetValue (impl, value);
408 }
409
410 /* {{{1 GThread */
411
412 #define win32_check_for_error(what) G_STMT_START{                       \
413   if (!(what))                                                          \
414     g_error ("file %s: line %d (%s): error %s during %s",               \
415              __FILE__, __LINE__, G_STRFUNC,                             \
416              g_win32_error_message (GetLastError ()), #what);           \
417   }G_STMT_END
418
419 #define G_MUTEX_SIZE (sizeof (gpointer))
420
421 typedef BOOL (__stdcall *GTryEnterCriticalSectionFunc) (CRITICAL_SECTION *);
422
423 typedef struct
424 {
425   GRealThread thread;
426
427   GThreadFunc proxy;
428   HANDLE      handle;
429 } GThreadWin32;
430
431 void
432 g_system_thread_free (GRealThread *thread)
433 {
434   GThreadWin32 *wt = (GThreadWin32 *) thread;
435
436   win32_check_for_error (CloseHandle (wt->handle));
437   g_slice_free (GThreadWin32, wt);
438 }
439
440 void
441 g_system_thread_exit (void)
442 {
443   _endthreadex (0);
444 }
445
446 static guint __stdcall
447 g_thread_win32_proxy (gpointer data)
448 {
449   GThreadWin32 *self = data;
450
451   self->proxy (self);
452
453   g_system_thread_exit ();
454
455   g_assert_not_reached ();
456
457   return 0;
458 }
459
460 GRealThread *
461 g_system_thread_new (GThreadFunc   func,
462                      gulong        stack_size,
463                      GError      **error)
464 {
465   GThreadWin32 *thread;
466   guint ignore;
467
468   thread = g_slice_new0 (GThreadWin32);
469   thread->proxy = func;
470
471   thread->handle = (HANDLE) _beginthreadex (NULL, stack_size, g_thread_win32_proxy, thread, 0, &ignore);
472
473   if (thread->handle == NULL)
474     {
475       gchar *win_error = g_win32_error_message (GetLastError ());
476       g_set_error (error, G_THREAD_ERROR, G_THREAD_ERROR_AGAIN,
477                    "Error creating thread: %s", win_error);
478       g_free (win_error);
479       g_slice_free (GThreadWin32, thread);
480       return NULL;
481     }
482
483   return (GRealThread *) thread;
484 }
485
486 void
487 g_thread_yield (void)
488 {
489   Sleep(0);
490 }
491
492 void
493 g_system_thread_wait (GRealThread *thread)
494 {
495   GThreadWin32 *wt = (GThreadWin32 *) thread;
496
497   win32_check_for_error (WAIT_FAILED != WaitForSingleObject (wt->handle, INFINITE));
498 }
499
500 void
501 g_system_thread_set_name (const gchar *name)
502 {
503   /* FIXME: implement */
504 }
505
506 /* {{{1 SRWLock and CONDITION_VARIABLE emulation (for Windows XP) */
507
508 static CRITICAL_SECTION g_thread_xp_lock;
509 static DWORD            g_thread_xp_waiter_tls;
510
511 /* {{{2 GThreadWaiter utility class for CONDITION_VARIABLE emulation */
512 typedef struct _GThreadXpWaiter GThreadXpWaiter;
513 struct _GThreadXpWaiter
514 {
515   HANDLE                     event;
516   volatile GThreadXpWaiter  *next;
517   volatile GThreadXpWaiter **my_owner;
518 };
519
520 static GThreadXpWaiter *
521 g_thread_xp_waiter_get (void)
522 {
523   GThreadXpWaiter *waiter;
524
525   waiter = TlsGetValue (g_thread_xp_waiter_tls);
526
527   if G_UNLIKELY (waiter == NULL)
528     {
529       waiter = malloc (sizeof (GThreadXpWaiter));
530       if (waiter == NULL)
531         g_thread_abort (GetLastError (), "malloc");
532       waiter->event = CreateEvent (0, FALSE, FALSE, NULL);
533       if (waiter->event == NULL)
534         g_thread_abort (GetLastError (), "CreateEvent");
535       waiter->my_owner = NULL;
536
537       TlsSetValue (g_thread_xp_waiter_tls, waiter);
538     }
539
540   return waiter;
541 }
542
543 static void __stdcall
544 g_thread_xp_CallThisOnThreadExit (void)
545 {
546   GThreadXpWaiter *waiter;
547
548   waiter = TlsGetValue (g_thread_xp_waiter_tls);
549
550   if (waiter != NULL)
551     {
552       TlsSetValue (g_thread_xp_waiter_tls, NULL);
553       CloseHandle (waiter->event);
554       free (waiter);
555     }
556 }
557
558 /* {{{2 SRWLock emulation */
559 typedef struct
560 {
561   CRITICAL_SECTION  writer_lock;
562   gboolean          ever_shared;    /* protected by writer_lock */
563   gboolean          writer_locked;  /* protected by writer_lock */
564
565   /* below is only ever touched if ever_shared becomes true */
566   CRITICAL_SECTION  atomicity;
567   GThreadXpWaiter  *queued_writer; /* protected by atomicity lock */
568   gint              num_readers;   /* protected by atomicity lock */
569 } GThreadSRWLock;
570
571 static void __stdcall
572 g_thread_xp_InitializeSRWLock (gpointer mutex)
573 {
574   *(GThreadSRWLock * volatile *) mutex = NULL;
575 }
576
577 static void __stdcall
578 g_thread_xp_DeleteSRWLock (gpointer mutex)
579 {
580   GThreadSRWLock *lock = *(GThreadSRWLock * volatile *) mutex;
581
582   if (lock)
583     {
584       if (lock->ever_shared)
585         DeleteCriticalSection (&lock->atomicity);
586
587       DeleteCriticalSection (&lock->writer_lock);
588       free (lock);
589     }
590 }
591
592 static GThreadSRWLock * __stdcall
593 g_thread_xp_get_srwlock (GThreadSRWLock * volatile *lock)
594 {
595   GThreadSRWLock *result;
596
597   /* It looks like we're missing some barriers here, but this code only
598    * ever runs on Windows XP, which in turn only ever runs on hardware
599    * with a relatively rigid memory model.  The 'volatile' will take
600    * care of the compiler.
601    */
602   result = *lock;
603
604   if G_UNLIKELY (result == NULL)
605     {
606       EnterCriticalSection (&g_thread_xp_lock);
607
608       /* Check again */
609       result = *lock;
610       if (result == NULL)
611         {
612           result = malloc (sizeof (GThreadSRWLock));
613
614           if (result == NULL)
615             g_thread_abort (errno, "malloc");
616
617           InitializeCriticalSection (&result->writer_lock);
618           result->writer_locked = FALSE;
619           result->ever_shared = FALSE;
620           *lock = result;
621         }
622
623       LeaveCriticalSection (&g_thread_xp_lock);
624     }
625
626   return result;
627 }
628
629 static void __stdcall
630 g_thread_xp_AcquireSRWLockExclusive (gpointer mutex)
631 {
632   GThreadSRWLock *lock = g_thread_xp_get_srwlock (mutex);
633
634   EnterCriticalSection (&lock->writer_lock);
635
636   /* CRITICAL_SECTION is reentrant, but SRWLock is not.
637    * Detect the deadlock that would occur on later Windows version.
638    */
639   g_assert (!lock->writer_locked);
640   lock->writer_locked = TRUE;
641
642   if (lock->ever_shared)
643     {
644       GThreadXpWaiter *waiter = NULL;
645
646       EnterCriticalSection (&lock->atomicity);
647       if (lock->num_readers > 0)
648         lock->queued_writer = waiter = g_thread_xp_waiter_get ();
649       LeaveCriticalSection (&lock->atomicity);
650
651       if (waiter != NULL)
652         WaitForSingleObject (waiter->event, INFINITE);
653
654       lock->queued_writer = NULL;
655     }
656 }
657
658 static BOOLEAN __stdcall
659 g_thread_xp_TryAcquireSRWLockExclusive (gpointer mutex)
660 {
661   GThreadSRWLock *lock = g_thread_xp_get_srwlock (mutex);
662
663   if (!TryEnterCriticalSection (&lock->writer_lock))
664     return FALSE;
665
666   /* CRITICAL_SECTION is reentrant, but SRWLock is not.
667    * Ensure that this properly returns FALSE (as SRWLock would).
668    */
669   if G_UNLIKELY (lock->writer_locked)
670     {
671       LeaveCriticalSection (&lock->writer_lock);
672       return FALSE;
673     }
674
675   lock->writer_locked = TRUE;
676
677   if (lock->ever_shared)
678     {
679       gboolean available;
680
681       EnterCriticalSection (&lock->atomicity);
682       available = lock->num_readers == 0;
683       LeaveCriticalSection (&lock->atomicity);
684
685       if (!available)
686         {
687           LeaveCriticalSection (&lock->writer_lock);
688           return FALSE;
689         }
690     }
691
692   return TRUE;
693 }
694
695 static void __stdcall
696 g_thread_xp_ReleaseSRWLockExclusive (gpointer mutex)
697 {
698   GThreadSRWLock *lock = *(GThreadSRWLock * volatile *) mutex;
699
700   lock->writer_locked = FALSE;
701
702   /* We need this until we fix some weird parts of GLib that try to
703    * unlock freshly-allocated mutexes.
704    */
705   if (lock != NULL)
706     LeaveCriticalSection (&lock->writer_lock);
707 }
708
709 static void
710 g_thread_xp_srwlock_become_reader (GThreadSRWLock *lock)
711 {
712   if G_UNLIKELY (!lock->ever_shared)
713     {
714       InitializeCriticalSection (&lock->atomicity);
715       lock->queued_writer = NULL;
716       lock->num_readers = 0;
717
718       lock->ever_shared = TRUE;
719     }
720
721   EnterCriticalSection (&lock->atomicity);
722   lock->num_readers++;
723   LeaveCriticalSection (&lock->atomicity);
724 }
725
726 static void __stdcall
727 g_thread_xp_AcquireSRWLockShared (gpointer mutex)
728 {
729   GThreadSRWLock *lock = g_thread_xp_get_srwlock (mutex);
730
731   EnterCriticalSection (&lock->writer_lock);
732
733   /* See g_thread_xp_AcquireSRWLockExclusive */
734   g_assert (!lock->writer_locked);
735
736   g_thread_xp_srwlock_become_reader (lock);
737
738   LeaveCriticalSection (&lock->writer_lock);
739 }
740
741 static BOOLEAN __stdcall
742 g_thread_xp_TryAcquireSRWLockShared (gpointer mutex)
743 {
744   GThreadSRWLock *lock = g_thread_xp_get_srwlock (mutex);
745
746   if (!TryEnterCriticalSection (&lock->writer_lock))
747     return FALSE;
748
749   /* See g_thread_xp_AcquireSRWLockExclusive */
750   if G_UNLIKELY (lock->writer_locked)
751     {
752       LeaveCriticalSection (&lock->writer_lock);
753       return FALSE;
754     }
755
756   g_thread_xp_srwlock_become_reader (lock);
757
758   LeaveCriticalSection (&lock->writer_lock);
759
760   return TRUE;
761 }
762
763 static void __stdcall
764 g_thread_xp_ReleaseSRWLockShared (gpointer mutex)
765 {
766   GThreadSRWLock *lock = g_thread_xp_get_srwlock (mutex);
767
768   EnterCriticalSection (&lock->atomicity);
769
770   lock->num_readers--;
771
772   if (lock->num_readers == 0 && lock->queued_writer)
773     SetEvent (lock->queued_writer->event);
774
775   LeaveCriticalSection (&lock->atomicity);
776 }
777
778 /* {{{2 CONDITION_VARIABLE emulation */
779 typedef struct
780 {
781   volatile GThreadXpWaiter  *first;
782   volatile GThreadXpWaiter **last_ptr;
783 } GThreadXpCONDITION_VARIABLE;
784
785 static void __stdcall
786 g_thread_xp_InitializeConditionVariable (gpointer cond)
787 {
788   *(GThreadXpCONDITION_VARIABLE * volatile *) cond = NULL;
789 }
790
791 static void __stdcall
792 g_thread_xp_DeleteConditionVariable (gpointer cond)
793 {
794   GThreadXpCONDITION_VARIABLE *cv = *(GThreadXpCONDITION_VARIABLE * volatile *) cond;
795
796   if (cv)
797     free (cv);
798 }
799
800 static GThreadXpCONDITION_VARIABLE * __stdcall
801 g_thread_xp_get_condition_variable (GThreadXpCONDITION_VARIABLE * volatile *cond)
802 {
803   GThreadXpCONDITION_VARIABLE *result;
804
805   /* It looks like we're missing some barriers here, but this code only
806    * ever runs on Windows XP, which in turn only ever runs on hardware
807    * with a relatively rigid memory model.  The 'volatile' will take
808    * care of the compiler.
809    */
810   result = *cond;
811
812   if G_UNLIKELY (result == NULL)
813     {
814       result = malloc (sizeof (GThreadXpCONDITION_VARIABLE));
815
816       if (result == NULL)
817         g_thread_abort (errno, "malloc");
818
819       result->first = NULL;
820       result->last_ptr = &result->first;
821
822       if (InterlockedCompareExchangePointer (cond, result, NULL) != NULL)
823         {
824           free (result);
825           result = *cond;
826         }
827     }
828
829   return result;
830 }
831
832 static BOOL __stdcall
833 g_thread_xp_SleepConditionVariableSRW (gpointer cond,
834                                        gpointer mutex,
835                                        DWORD    timeout,
836                                        ULONG    flags)
837 {
838   GThreadXpCONDITION_VARIABLE *cv = g_thread_xp_get_condition_variable (cond);
839   GThreadXpWaiter *waiter = g_thread_xp_waiter_get ();
840   DWORD status;
841
842   waiter->next = NULL;
843
844   EnterCriticalSection (&g_thread_xp_lock);
845   waiter->my_owner = cv->last_ptr;
846   *cv->last_ptr = waiter;
847   cv->last_ptr = &waiter->next;
848   LeaveCriticalSection (&g_thread_xp_lock);
849
850   g_mutex_unlock (mutex);
851   status = WaitForSingleObject (waiter->event, timeout);
852
853   if (status != WAIT_TIMEOUT && status != WAIT_OBJECT_0)
854     g_thread_abort (GetLastError (), "WaitForSingleObject");
855   g_mutex_lock (mutex);
856
857   if (status == WAIT_TIMEOUT)
858     {
859       EnterCriticalSection (&g_thread_xp_lock);
860       if (waiter->my_owner)
861         {
862           if (waiter->next)
863             waiter->next->my_owner = waiter->my_owner;
864           else
865             cv->last_ptr = waiter->my_owner;
866           *waiter->my_owner = waiter->next;
867           waiter->my_owner = NULL;
868         }
869       LeaveCriticalSection (&g_thread_xp_lock);
870     }
871
872   return status == WAIT_OBJECT_0;
873 }
874
875 static void __stdcall
876 g_thread_xp_WakeConditionVariable (gpointer cond)
877 {
878   GThreadXpCONDITION_VARIABLE *cv = g_thread_xp_get_condition_variable (cond);
879   volatile GThreadXpWaiter *waiter;
880
881   EnterCriticalSection (&g_thread_xp_lock);
882
883   waiter = cv->first;
884   if (waiter != NULL)
885     {
886       waiter->my_owner = NULL;
887       cv->first = waiter->next;
888       if (cv->first != NULL)
889         cv->first->my_owner = &cv->first;
890       else
891         cv->last_ptr = &cv->first;
892     }
893
894   if (waiter != NULL)
895     SetEvent (waiter->event);
896
897   LeaveCriticalSection (&g_thread_xp_lock);
898 }
899
900 static void __stdcall
901 g_thread_xp_WakeAllConditionVariable (gpointer cond)
902 {
903   GThreadXpCONDITION_VARIABLE *cv = g_thread_xp_get_condition_variable (cond);
904   volatile GThreadXpWaiter *waiter;
905
906   EnterCriticalSection (&g_thread_xp_lock);
907
908   waiter = cv->first;
909   cv->first = NULL;
910   cv->last_ptr = &cv->first;
911
912   while (waiter != NULL)
913     {
914       volatile GThreadXpWaiter *next;
915
916       next = waiter->next;
917       SetEvent (waiter->event);
918       waiter->my_owner = NULL;
919       waiter = next;
920     }
921
922   LeaveCriticalSection (&g_thread_xp_lock);
923 }
924
925 /* {{{2 XP Setup */
926 static void
927 g_thread_xp_init (void)
928 {
929   static const GThreadImplVtable g_thread_xp_impl_vtable = {
930     g_thread_xp_CallThisOnThreadExit,
931     g_thread_xp_InitializeSRWLock,
932     g_thread_xp_DeleteSRWLock,
933     g_thread_xp_AcquireSRWLockExclusive,
934     g_thread_xp_TryAcquireSRWLockExclusive,
935     g_thread_xp_ReleaseSRWLockExclusive,
936     g_thread_xp_AcquireSRWLockShared,
937     g_thread_xp_TryAcquireSRWLockShared,
938     g_thread_xp_ReleaseSRWLockShared,
939     g_thread_xp_InitializeConditionVariable,
940     g_thread_xp_DeleteConditionVariable,
941     g_thread_xp_SleepConditionVariableSRW,
942     g_thread_xp_WakeAllConditionVariable,
943     g_thread_xp_WakeConditionVariable
944   };
945
946   InitializeCriticalSection (&g_thread_xp_lock);
947   g_thread_xp_waiter_tls = TlsAlloc ();
948
949   g_thread_impl_vtable = g_thread_xp_impl_vtable;
950 }
951
952 /* {{{1 Epilogue */
953
954 static gboolean
955 g_thread_lookup_native_funcs (void)
956 {
957   GThreadImplVtable native_vtable = { 0, };
958   HMODULE kernel32;
959
960   kernel32 = GetModuleHandle ("KERNEL32.DLL");
961
962   if (kernel32 == NULL)
963     return FALSE;
964
965 #define GET_FUNC(name) if ((native_vtable.name = (void *) GetProcAddress (kernel32, #name)) == NULL) return FALSE
966   GET_FUNC(InitializeSRWLock);
967   GET_FUNC(AcquireSRWLockExclusive);
968   GET_FUNC(TryAcquireSRWLockExclusive);
969   GET_FUNC(ReleaseSRWLockExclusive);
970   GET_FUNC(AcquireSRWLockShared);
971   GET_FUNC(TryAcquireSRWLockShared);
972   GET_FUNC(ReleaseSRWLockShared);
973
974   GET_FUNC(InitializeConditionVariable);
975   GET_FUNC(SleepConditionVariableSRW);
976   GET_FUNC(WakeAllConditionVariable);
977   GET_FUNC(WakeConditionVariable);
978 #undef GET_FUNC
979
980   g_thread_impl_vtable = native_vtable;
981
982   return TRUE;
983 }
984
985 G_GNUC_INTERNAL void
986 g_thread_win32_init (void)
987 {
988   if (!g_thread_lookup_native_funcs ())
989     g_thread_xp_init ();
990
991   InitializeCriticalSection (&g_private_lock);
992 }
993
994 G_GNUC_INTERNAL void
995 g_thread_win32_thread_detach (void)
996 {
997   gboolean dtors_called;
998
999   do
1000     {
1001       GPrivateDestructor *dtor;
1002
1003       /* We go by the POSIX book on this one.
1004        *
1005        * If we call a destructor then there is a chance that some new
1006        * TLS variables got set by code called in that destructor.
1007        *
1008        * Loop until nothing is left.
1009        */
1010       dtors_called = FALSE;
1011
1012       for (dtor = g_private_destructors; dtor; dtor = dtor->next)
1013         {
1014           gpointer value;
1015
1016           value = TlsGetValue (dtor->index);
1017           if (value != NULL && dtor->notify != NULL)
1018             {
1019               /* POSIX says to clear this before the call */
1020               TlsSetValue (dtor->index, NULL);
1021               dtor->notify (value);
1022               dtors_called = TRUE;
1023             }
1024         }
1025     }
1026   while (dtors_called);
1027
1028   if (g_thread_impl_vtable.CallThisOnThreadExit)
1029     g_thread_impl_vtable.CallThisOnThreadExit ();
1030 }
1031
1032 /* vim:set foldmethod=marker: */