win32_threads.c

/*
 * Copyright (c) 1994 by Xerox Corporation.  All rights reserved.
 * Copyright (c) 1996 by Silicon Graphics.  All rights reserved.
 * Copyright (c) 1998 by Fergus Henderson.  All rights reserved.
 * Copyright (c) 2000-2008 by Hewlett-Packard Development Company.
 * All rights reserved.
 * Copyright (c) 2008-2022 Ivan Maidanski
 *
 * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED
 * OR IMPLIED.  ANY USE IS AT YOUR OWN RISK.
 *
 * Permission is hereby granted to use or copy this program
 * for any purpose, provided the above notices are retained on all copies.
 * Permission to modify the code and to distribute modified code is granted,
 * provided the above notices are retained, and a notice that the code was
 * modified is included with the above copyright notice.
 */

#include "private/pthread_support.h"

#if defined(GC_WIN32_THREADS)

/* The allocator lock definition.       */
#  ifndef USE_PTHREAD_LOCKS
#    ifdef USE_RWLOCK
GC_INNER SRWLOCK GC_allocate_ml;
#    else
GC_INNER CRITICAL_SECTION GC_allocate_ml;
#    endif
#  endif /* !USE_PTHREAD_LOCKS */

#  undef CreateThread
#  undef ExitThread
#  undef _beginthreadex
#  undef _endthreadex

#  if !defined(GC_PTHREADS) && !defined(MSWINCE)
#    include <errno.h>
#    include <process.h> /* for _beginthreadex, _endthreadex */
#  endif

static ptr_t copy_ptr_regs(word *regs, const CONTEXT *pcontext);

#  ifndef GC_NO_THREADS_DISCOVERY
/* This code operates in two distinct modes, depending on     */
/* the setting of GC_win32_dll_threads.                       */
/* If GC_win32_dll_threads is set, all threads in the process */
/* are implicitly registered with the GC by DllMain.          */
/* No explicit registration is required, and attempts at      */
/* explicit registration are ignored.  This mode is           */
/* very different from the Posix operation of the collector.  */
/* In this mode access to the thread table is lock-free.      */
/* Hence there is a static limit on the number of threads.    */

/* GC_DISCOVER_TASK_THREADS should be used if DllMain-based   */
/* thread registration is required but it is impossible to    */
/* call GC_use_threads_discovery before other GC routines.    */

#    ifndef GC_DISCOVER_TASK_THREADS
/* GC_win32_dll_threads must be set (if needed) at the      */
/* application initialization time, i.e. before any         */
/* collector or thread calls.  We make it a "dynamic"       */
/* option only to avoid multiple library versions.          */
GC_INNER GC_bool GC_win32_dll_threads = FALSE;
#    endif
#  else
/* If GC_win32_dll_threads is FALSE (or the collector is      */
/* built without GC_DLL defined), things operate in a way     */
/* that is very similar to Posix platforms, and new threads   */
/* must be registered with the collector, e.g. by using       */
/* preprocessor-based interception of the thread primitives.  */
/* In this case, we use a real data structure for the thread  */
/* table.  Note that there is no equivalent of linker-based   */
/* call interception, since we don't have ELF-like            */
/* facilities.  The Windows analog appears to be "API         */
/* hooking", which really seems to be a standard way to       */
/* do minor binary rewriting (?).  I'd prefer not to have     */
/* the basic collector rely on such facilities, but an        */
/* optional package that intercepts thread calls this way     */
/* would probably be nice.                                    */
#    undef MAX_THREADS
/* dll_thread_table[] is always empty.        */
#    define MAX_THREADS 1
#  endif /* GC_NO_THREADS_DISCOVERY */

/* We have two versions of the thread table.  Which one */
/* we use depends on whether GC_win32_dll_threads       */
/* is set.  Note that before initialization, we don't   */
/* add any entries to either table, even if DllMain is  */
/* called.  The main thread will be added on            */
/* initialization.                                      */

/* GC_use_threads_discovery() is currently incompatible with pthreads   */
/* and WinCE.  It might be possible to get DllMain-based thread         */
/* registration to work with Cygwin, but if you try it then you are on  */
/* your own.                                                            */
GC_API void GC_CALL
GC_use_threads_discovery(void)
{
#  ifdef GC_NO_THREADS_DISCOVERY
  ABORT("GC DllMain-based thread registration unsupported");
#  else
  /* Turn on GC_win32_dll_threads. */
  GC_ASSERT(!GC_is_initialized);
  /* Note that GC_use_threads_discovery is expected to be called by   */
  /* the client application (not from DllMain) at start-up.           */
#    ifndef GC_DISCOVER_TASK_THREADS
  GC_win32_dll_threads = TRUE;
#    endif
  GC_init();
#    ifdef CPPCHECK
  GC_noop1((word)(GC_funcptr_uint)(&GC_DllMain));
#    endif
#  endif
}

#  ifndef GC_NO_THREADS_DISCOVERY
/* We track thread attachments while the world is supposed to be      */
/* stopped.  Unfortunately, we cannot stop them from starting, since  */
/* blocking in DllMain seems to cause the world to deadlock.  Thus,   */
/* we have to recover if we notice this in the middle of marking.     */
STATIC volatile AO_t GC_attached_thread = FALSE;

/* We assume that volatile implies memory ordering, at least among    */
/* volatiles.  This code should consistently use atomic_ops.          */
STATIC volatile GC_bool GC_please_stop = FALSE;
#  elif defined(GC_ASSERTIONS)
STATIC GC_bool GC_please_stop = FALSE;
#  endif /* GC_NO_THREADS_DISCOVERY && GC_ASSERTIONS */

#  if defined(WRAP_MARK_SOME) && !defined(GC_PTHREADS)
/* Return TRUE if an thread was attached since we last asked or */
/* since GC_attached_thread was explicitly reset.               */
GC_INNER GC_bool
GC_started_thread_while_stopped(void)
{
#    ifndef GC_NO_THREADS_DISCOVERY
  if (GC_win32_dll_threads) {
#      ifdef AO_HAVE_compare_and_swap_release
    if (AO_compare_and_swap_release(&GC_attached_thread, TRUE,
                                    FALSE /* stored */))
      return TRUE;
#      else
    /* Prior heap reads need to complete earlier. */
    AO_nop_full();

    if (AO_load(&GC_attached_thread)) {
      AO_store(&GC_attached_thread, FALSE);
      return TRUE;
    }
#      endif
  }
#    endif
  return FALSE;
}
#  endif /* WRAP_MARK_SOME */

/* Thread table used if GC_win32_dll_threads is set.    */
/* This is a fixed size array.                          */
/* Since we use runtime conditionals, both versions     */
/* are always defined.                                  */
#  ifndef MAX_THREADS
#    define MAX_THREADS 512
#  endif

/* Things may get quite slow for large numbers of threads,      */
/* since we look them up with sequential search.                */
static volatile struct GC_Thread_Rep dll_thread_table[MAX_THREADS];
#  ifndef GC_NO_THREADS_DISCOVERY
static struct GC_StackContext_Rep dll_crtn_table[MAX_THREADS];
#  endif

/* Largest index in dll_thread_table that was ever used.                */
STATIC volatile LONG GC_max_thread_index = 0;

/* This may be called from DllMain, and hence operates under unusual    */
/* constraints.  In particular, it must be lock-free if                 */
/* GC_win32_dll_threads is set.  Always called from the thread being    */
/* added.  If GC_win32_dll_threads is not set, we already hold the      */
/* allocator lock except possibly during single-threaded startup code.  */
/* Does not initialize thread-local free lists.                         */
GC_INNER GC_thread
GC_register_my_thread_inner(const struct GC_stack_base *sb,
                            thread_id_t self_id)
{
  GC_thread me;

#  ifdef GC_NO_THREADS_DISCOVERY
  GC_ASSERT(I_HOLD_LOCK());
#  endif
  /* The following should be a no-op according to the Win32     */
  /* documentation.  There is empirical evidence that it        */
  /* isn't. - HB                                                */
#  if defined(MPROTECT_VDB) && !defined(CYGWIN32)
  if (GC_auto_incremental
#    ifdef GWW_VDB
      && !GC_gww_dirty_init()
#    endif
  )
    GC_set_write_fault_handler();
#  endif

#  ifndef GC_NO_THREADS_DISCOVERY
  if (GC_win32_dll_threads) {
    int i;
    /* It appears to be unsafe to acquire a lock here, since this     */
    /* code is apparently not preemptible on some systems.            */
    /* (This is based on complaints, not on Microsoft's official      */
    /* documentation, which says this should perform "only simple     */
    /* initialization tasks".)                                        */
    /* Hence we make do with nonblocking synchronization.             */
    /* It has been claimed that DllMain is really only executed with  */
    /* a particular system lock held, and thus careful use of locking */
    /* around code that doesn't call back into the system libraries   */
    /* might be OK.  But this has not been tested across all Win32    */
    /* variants.                                                      */
    for (i = 0;
         InterlockedExchange(&dll_thread_table[i].tm.long_in_use, 1) != 0;
         i++) {
      /* Compare-and-swap would make this cleaner, but that's not     */
      /* supported before Windows 98 and NT 4.0.  In Windows 2000,    */
      /* InterlockedExchange is supposed to be replaced by            */
      /* InterlockedExchangePointer, but that's not really what I     */
      /* want here.                                                   */
      /* FIXME: We should eventually declare Windows 95 dead and use  */
      /* AO_ primitives here.                                         */
      if (i == MAX_THREADS - 1)
        ABORT("Too many threads");
    }
    /* Update GC_max_thread_index if necessary.  The following is     */
    /* safe, and unlike CompareExchange-based solutions seems to work */
    /* on all Windows 95 and later platforms.  Unfortunately,         */
    /* GC_max_thread_index may be temporarily out of bounds, so       */
    /* readers have to compensate.                                    */
    while (i > GC_max_thread_index) {
      InterlockedIncrement((LONG *)&GC_max_thread_index);
      /* Cast away volatile for older versions of Win32 headers. */
    }
    if (EXPECT(GC_max_thread_index >= MAX_THREADS, FALSE)) {
      /* We overshot due to simultaneous increments.  */
      /* Setting it to MAX_THREADS-1 is always safe.  */
      GC_max_thread_index = MAX_THREADS - 1;
    }
    me = (GC_thread)(dll_thread_table + i);
    me->crtn = &dll_crtn_table[i];
  } else
#  endif
  /* else */ {
    /* Not using DllMain.       */
    me = GC_new_thread(self_id);
  }
#  ifdef GC_PTHREADS
  me->pthread_id = pthread_self();
#  endif
#  ifndef MSWINCE
  /* GetCurrentThread() returns a pseudohandle (a const value).       */
  if (!DuplicateHandle(GetCurrentProcess(), GetCurrentThread(),
                       GetCurrentProcess(), (HANDLE *)&me->handle,
                       0 /* dwDesiredAccess */, FALSE /* bInheritHandle */,
                       DUPLICATE_SAME_ACCESS)) {
    ABORT_ARG1("DuplicateHandle failed", ": errcode= 0x%X",
               (unsigned)GetLastError());
  }
#  endif
#  if defined(WOW64_THREAD_CONTEXT_WORKAROUND) && defined(MSWINRT_FLAVOR)
  /* Lookup TIB value via a call to NtCurrentTeb() on thread          */
  /* registration rather than calling GetThreadSelectorEntry() which  */
  /* is not available on UWP.                                         */
  me->tib = (GC_NT_TIB *)NtCurrentTeb();
#  endif
  me->crtn->last_stack_min = ADDR_LIMIT;
  GC_record_stack_base(me->crtn, sb);
  /* Up until this point, GC_push_all_stacks considers this thread      */
  /* invalid.  And, up until this point, the entry is viewed by         */
  /* GC_win32_dll_lookup_thread as reserved but invalid.                */
  ((volatile struct GC_Thread_Rep *)me)->id = self_id;
#  ifndef GC_NO_THREADS_DISCOVERY
  if (GC_win32_dll_threads) {
    if (GC_please_stop) {
      AO_store(&GC_attached_thread, TRUE);
      AO_nop_full(); /* Later updates must become visible after this. */
    }
    /* We'd like to wait here, but cannot, since waiting in DllMain   */
    /* provokes deadlocks.  Thus we force marking to be restarted     */
    /* instead.                                                       */
  } else
#  endif
  /* else */ {
    /* GC_please_stop is false, otherwise both we and the               */
    /* thread-stopping code would be holding the allocator lock.        */
    GC_ASSERT(!GC_please_stop);
  }
  return me;
}

/* GC_max_thread_index may temporarily be larger than MAX_THREADS.      */
/* To avoid subscript errors, we check it on access.                    */
GC_INLINE LONG
GC_get_max_thread_index(void)
{
  LONG my_max = GC_max_thread_index;
  if (EXPECT(my_max >= MAX_THREADS, FALSE))
    return MAX_THREADS - 1;
  return my_max;
}

#  ifndef GC_NO_THREADS_DISCOVERY
/* Search in dll_thread_table and return the GC_thread entity         */
/* corresponding to the given thread id.                              */
/* May be called without a lock, but should be called in contexts in  */
/* which the requested thread cannot be asynchronously deleted, e.g.  */
/* from the thread itself.                                            */
GC_INNER GC_thread
GC_win32_dll_lookup_thread(thread_id_t id)
{
  int i;
  LONG my_max = GC_get_max_thread_index();

  GC_ASSERT(GC_win32_dll_threads);
  for (i = 0; i <= my_max; i++) {
    if (AO_load_acquire(&dll_thread_table[i].tm.in_use)
        && dll_thread_table[i].id == id) {
      /* Must still be in use, since nobody else can store our      */
      /* thread id.                                                 */
      break;
    }
  }
  return i <= my_max ? (GC_thread)(dll_thread_table + i) : NULL;
}
#  endif /* !GC_NO_THREADS_DISCOVERY */

#  ifdef GC_PTHREADS
/* A quick-and-dirty cache of the mapping between pthread_t   */
/* and Win32 thread id.                                       */
#    define PTHREAD_MAP_SIZE 512
thread_id_t GC_pthread_map_cache[PTHREAD_MAP_SIZE] = { 0 };
/* It appears pthread_t is really a pointer type ...          */
#    define PTHREAD_MAP_INDEX(pthread_id) \
      ((NUMERIC_THREAD_ID(pthread_id) >> 5) % PTHREAD_MAP_SIZE)
#    define SET_PTHREAD_MAP_CACHE(pthread_id, win32_id) \
      (void)(GC_pthread_map_cache[PTHREAD_MAP_INDEX(pthread_id)] = (win32_id))
#    define GET_PTHREAD_MAP_CACHE(pthread_id) \
      GC_pthread_map_cache[PTHREAD_MAP_INDEX(pthread_id)]

GC_INNER void
GC_win32_cache_self_pthread(thread_id_t self_id)
{
  pthread_t self = pthread_self();

  GC_ASSERT(I_HOLD_LOCK());
  SET_PTHREAD_MAP_CACHE(self, self_id);
}

/* Return a GC_thread corresponding to a given pthread_t, or  */
/* NULL if it is not there.  We assume that this is only      */
/* called for pthread ids that have not yet terminated or are */
/* still joinable, and cannot be terminated concurrently.     */
GC_INNER GC_thread
GC_lookup_by_pthread(pthread_t thread)
{
  /* TODO: search in dll_thread_table instead when DllMain-based    */
  /* thread registration is made compatible with pthreads (and      */
  /* turned on).                                                    */
  thread_id_t id;
  GC_thread p;
  int hv;

  GC_ASSERT(I_HOLD_READER_LOCK());
  id = GET_PTHREAD_MAP_CACHE(thread);
  /* We first try the cache.        */
  for (p = GC_threads[THREAD_TABLE_INDEX(id)]; p != NULL; p = p->tm.next) {
    if (EXPECT(THREAD_EQUAL(p->pthread_id, thread), TRUE))
      return p;
  }

  /* If that fails, we use a very slow approach.    */
  for (hv = 0; hv < THREAD_TABLE_SZ; ++hv) {
    for (p = GC_threads[hv]; p != NULL; p = p->tm.next) {
      if (THREAD_EQUAL(p->pthread_id, thread))
        return p;
    }
  }
  return NULL;
}
#  endif /* GC_PTHREADS */

#  ifdef WOW64_THREAD_CONTEXT_WORKAROUND
#    ifndef CONTEXT_EXCEPTION_ACTIVE
#      define CONTEXT_EXCEPTION_ACTIVE 0x08000000
#      define CONTEXT_EXCEPTION_REQUEST 0x40000000
#      define CONTEXT_EXCEPTION_REPORTING 0x80000000
#    endif
/* Is 32-bit code running on Win64?   */
static GC_bool isWow64;
#    define GET_THREAD_CONTEXT_FLAGS                                \
      (isWow64 ? CONTEXT_INTEGER | CONTEXT_CONTROL                  \
                     | CONTEXT_EXCEPTION_REQUEST | CONTEXT_SEGMENTS \
               : CONTEXT_INTEGER | CONTEXT_CONTROL)
#  elif defined(I386) || defined(XMM_CANT_STORE_PTRS)
#    define GET_THREAD_CONTEXT_FLAGS (CONTEXT_INTEGER | CONTEXT_CONTROL)
#  else
#    define GET_THREAD_CONTEXT_FLAGS \
      (CONTEXT_INTEGER | CONTEXT_CONTROL | CONTEXT_FLOATING_POINT)
#  endif /* !WOW64_THREAD_CONTEXT_WORKAROUND && !I386 */

/* Suspend the given thread, if it's still active.      */
STATIC void
GC_suspend(GC_thread t)
{
#  ifndef MSWINCE
  DWORD exitCode;
#    ifdef RETRY_GET_THREAD_CONTEXT
  int retry_cnt;
#      define MAX_SUSPEND_THREAD_RETRIES (1000 * 1000)
#    endif
#  endif

  GC_ASSERT(I_HOLD_LOCK());
#  if defined(DEBUG_THREADS) && !defined(MSWINCE) \
      && (!defined(MSWIN32) || defined(CONSOLE_LOG))
  GC_log_printf("Suspending 0x%x\n", (int)t->id);
#  endif
  GC_win32_unprotect_thread(t);
  GC_acquire_dirty_lock();

#  ifdef MSWINCE
  /* SuspendThread() will fail if thread is running kernel code.      */
  while (SuspendThread(THREAD_HANDLE(t)) == (DWORD)-1) {
    GC_release_dirty_lock();
    Sleep(10); /* in millis */
    GC_acquire_dirty_lock();
  }
#  elif defined(RETRY_GET_THREAD_CONTEXT)
  for (retry_cnt = 0;;) {
    /* Apparently the Windows 95 GetOpenFileName call creates         */
    /* a thread that does not properly get cleaned up, and            */
    /* SuspendThread on its descriptor may provoke a crash.           */
    /* This reduces the probability of that event, though it still    */
    /* appears there is a race here.                                  */
    if (GetExitCodeThread(t->handle, &exitCode) && exitCode != STILL_ACTIVE) {
      GC_release_dirty_lock();
#    ifdef GC_PTHREADS
      /* Prevent stack from being pushed.   */
      t->crtn->stack_end = NULL;
#    else
      /* This breaks pthread_join on Cygwin, which is guaranteed to */
      /* only see user threads.                                     */
      GC_delete_thread(t);
#    endif
      return;
    }

    if (SuspendThread(t->handle) != (DWORD)-1) {
      CONTEXT context;

      context.ContextFlags = GET_THREAD_CONTEXT_FLAGS;
      if (GetThreadContext(t->handle, &context)) {
        /* TODO: WoW64 extra workaround: if CONTEXT_EXCEPTION_ACTIVE  */
        /* then Sleep(1) and retry.                                   */
        t->context_sp = copy_ptr_regs(t->context_regs, &context);
        /* Success; the context pointer registers are saved.  */
        break;
      }

      /* Resume the thread, try to suspend it in a better location.   */
      if (ResumeThread(t->handle) == (DWORD)-1)
        ABORT("ResumeThread failed in suspend loop");
    }
    if (retry_cnt > 1) {
      GC_release_dirty_lock();
      Sleep(0); /* yield */
      GC_acquire_dirty_lock();
    }
    if (++retry_cnt >= MAX_SUSPEND_THREAD_RETRIES) {
      /* Something must be wrong.     */
      ABORT("SuspendThread loop failed");
    }
  }
#  else
  if (GetExitCodeThread(t->handle, &exitCode) && exitCode != STILL_ACTIVE) {
    GC_release_dirty_lock();
#    ifdef GC_PTHREADS
    /* Prevent stack from being pushed.     */
    t->crtn->stack_end = NULL;
#    else
    GC_delete_thread(t);
#    endif
    return;
  }
  if (SuspendThread(t->handle) == (DWORD)-1)
    ABORT("SuspendThread failed");
#  endif
  t->flags |= IS_SUSPENDED;
  GC_release_dirty_lock();
  if (GC_on_thread_event)
    GC_on_thread_event(GC_EVENT_THREAD_SUSPENDED, THREAD_HANDLE(t));
}

#  if defined(GC_ASSERTIONS) \
      && ((defined(MSWIN32) && !defined(CONSOLE_LOG)) || defined(MSWINCE))
/* Note: set to true only if GC_stop_world() has acquired GC_write_cs. */
GC_INNER GC_bool GC_write_disabled = FALSE;
#  endif

GC_INNER void
GC_stop_world(void)
{
  thread_id_t self_id = GetCurrentThreadId();

  GC_ASSERT(I_HOLD_LOCK());
  GC_ASSERT(GC_thr_initialized);

  /* This code is the same as in pthread_stop_world.c.  */
#  ifdef PARALLEL_MARK
  if (GC_parallel) {
    GC_acquire_mark_lock();
    /* We should have previously waited for the count to become zero. */
    GC_ASSERT(0 == GC_fl_builder_count);
  }
#  endif /* PARALLEL_MARK */

#  if !defined(GC_NO_THREADS_DISCOVERY) || defined(GC_ASSERTIONS)
  GC_please_stop = TRUE;
#  endif
#  if (defined(MSWIN32) && !defined(CONSOLE_LOG)) || defined(MSWINCE)
  GC_ASSERT(!GC_write_disabled);
  EnterCriticalSection(&GC_write_cs);
  /* It's not allowed to call GC_printf() (and friends) here down to  */
  /* LeaveCriticalSection (same applies recursively to GC_suspend,    */
  /* GC_delete_thread, GC_get_max_thread_index, GC_size and           */
  /* GC_remove_protection).                                           */
#    ifdef GC_ASSERTIONS
  GC_write_disabled = TRUE;
#    endif
#  endif
#  ifndef GC_NO_THREADS_DISCOVERY
  if (GC_win32_dll_threads) {
    int i;
    int my_max;
    /* Any threads being created during this loop will end up setting */
    /* GC_attached_thread when they start.  This will force marking   */
    /* to restart.  This is not ideal, but hopefully correct.         */
    AO_store(&GC_attached_thread, FALSE);
    my_max = (int)GC_get_max_thread_index();
    for (i = 0; i <= my_max; i++) {
      GC_thread p = (GC_thread)(dll_thread_table + i);

      if (p->crtn->stack_end != NULL && (p->flags & DO_BLOCKING) == 0
          && p->id != self_id) {
        GC_suspend(p);
      }
    }
  } else
#  endif
  /* else */ {
    GC_thread p;
    int i;

    for (i = 0; i < THREAD_TABLE_SZ; i++) {
      for (p = GC_threads[i]; p != NULL; p = p->tm.next)
        if (p->crtn->stack_end != NULL && p->id != self_id
            && (p->flags & (FINISHED | DO_BLOCKING)) == 0)
          GC_suspend(p);
    }
  }
#  if (defined(MSWIN32) && !defined(CONSOLE_LOG)) || defined(MSWINCE)
#    ifdef GC_ASSERTIONS
  GC_write_disabled = FALSE;
#    endif
  LeaveCriticalSection(&GC_write_cs);
#  endif
#  ifdef PARALLEL_MARK
  if (GC_parallel)
    GC_release_mark_lock();
#  endif
}

GC_INNER void
GC_start_world(void)
{
#  ifdef GC_ASSERTIONS
  thread_id_t self_id = GetCurrentThreadId();
#  endif

  GC_ASSERT(I_HOLD_LOCK());
  if (GC_win32_dll_threads) {
    LONG my_max = GC_get_max_thread_index();
    int i;

    for (i = 0; i <= my_max; i++) {
      GC_thread p = (GC_thread)(dll_thread_table + i);

      if ((p->flags & IS_SUSPENDED) != 0) {
#  ifdef DEBUG_THREADS
        GC_log_printf("Resuming 0x%x\n", (int)p->id);
#  endif
        GC_ASSERT(p->id != self_id);
        GC_ASSERT(*(ptr_t *)CAST_AWAY_VOLATILE_PVOID(&p->crtn->stack_end)
                  != NULL);
        if (ResumeThread(THREAD_HANDLE(p)) == (DWORD)-1)
          ABORT("ResumeThread failed");
        p->flags &= (unsigned char)~IS_SUSPENDED;
        if (GC_on_thread_event)
          GC_on_thread_event(GC_EVENT_THREAD_UNSUSPENDED, THREAD_HANDLE(p));
      } else {
        /* The thread is unregistered or not suspended. */
      }
    }
  } else {
    GC_thread p;
    int i;

    for (i = 0; i < THREAD_TABLE_SZ; i++) {
      for (p = GC_threads[i]; p != NULL; p = p->tm.next) {
        if ((p->flags & IS_SUSPENDED) != 0) {
#  ifdef DEBUG_THREADS
          GC_log_printf("Resuming 0x%x\n", (int)p->id);
#  endif
          GC_ASSERT(p->id != self_id && *(ptr_t *)&p->crtn->stack_end != NULL);
          if (ResumeThread(THREAD_HANDLE(p)) == (DWORD)-1)
            ABORT("ResumeThread failed");
          GC_win32_unprotect_thread(p);
          p->flags &= (unsigned char)~IS_SUSPENDED;
          if (GC_on_thread_event)
            GC_on_thread_event(GC_EVENT_THREAD_UNSUSPENDED, THREAD_HANDLE(p));
        } else {
#  ifdef DEBUG_THREADS
          GC_log_printf("Not resuming thread 0x%x as it is not suspended\n",
                        (int)p->id);
#  endif
        }
      }
    }
  }
#  if !defined(GC_NO_THREADS_DISCOVERY) || defined(GC_ASSERTIONS)
  GC_please_stop = FALSE;
#  endif
}

#  ifdef MSWINCE
/* The VirtualQuery calls below won't work properly on some old WinCE */
/* versions, but since each stack is restricted to an aligned 64 KiB  */
/* region of virtual memory we can just take the next lowest multiple */
/* of 64 KiB.  The result of this macro must not be used as its       */
/* argument later and must not be used as the lower bound for sp      */
/* check (since the stack may be bigger than 64 KiB).                 */
#    define GC_wince_evaluate_stack_min(s) \
      (ptr_t)(((word)(s)-1) & ~(word)0xFFFF)
#  elif defined(GC_ASSERTIONS)
#    define GC_dont_query_stack_min FALSE
#  endif

/* A cache holding the results of the recent VirtualQuery call. */
/* Protected by the allocator lock.                             */
static ptr_t last_address = 0;
static MEMORY_BASIC_INFORMATION last_info;

/* Probe stack memory region (starting at "s") to find out its  */
/* lowest address (i.e. stack top).                             */
/* S must be a mapped address inside the region, NOT the first  */
/* unmapped address.                                            */
STATIC ptr_t
GC_get_stack_min(ptr_t s)
{
  ptr_t bottom;

  GC_ASSERT(I_HOLD_LOCK());
  if (s != last_address) {
    VirtualQuery(s, &last_info, sizeof(last_info));
    last_address = s;
  }
  do {
    bottom = (ptr_t)last_info.BaseAddress;
    VirtualQuery(bottom - 1, &last_info, sizeof(last_info));
    last_address = bottom - 1;
  } while ((last_info.Protect & PAGE_READWRITE)
           && !(last_info.Protect & PAGE_GUARD));
  return bottom;
}

/* Return true if the page at s has protections appropriate     */
/* for a stack page.                                            */
static GC_bool
may_be_in_stack(ptr_t s)
{
  GC_ASSERT(I_HOLD_LOCK());
  if (s != last_address) {
    VirtualQuery(s, &last_info, sizeof(last_info));
    last_address = s;
  }
  return (last_info.Protect & PAGE_READWRITE)
         && !(last_info.Protect & PAGE_GUARD);
}

/* Copy all registers that might point into the heap.  Frame    */
/* pointer registers are included in case client code was       */
/* compiled with the 'omit frame pointer' optimization.         */
/* The context register values are stored to regs argument      */
/* which is expected to be of PUSHED_REGS_COUNT length exactly. */
/* The functions returns the context stack pointer value.       */
static ptr_t
copy_ptr_regs(word *regs, const CONTEXT *pcontext)
{
  ptr_t sp;
  int cnt = 0;
#  define context (*pcontext)
#  define PUSH1(reg) (regs[cnt++] = (word)pcontext->reg)
#  define PUSH2(r1, r2) (PUSH1(r1), PUSH1(r2))
#  define PUSH4(r1, r2, r3, r4) (PUSH2(r1, r2), PUSH2(r3, r4))
#  define PUSH8_LH(r1, r2, r3, r4)            \
    (PUSH4(r1.Low, r1.High, r2.Low, r2.High), \
     PUSH4(r3.Low, r3.High, r4.Low, r4.High))
#  if defined(I386)
#    ifdef WOW64_THREAD_CONTEXT_WORKAROUND
  /* Notes: these should be the first "pushed" registers, exactly */
  /* in this order, see the WoW64 logic in GC_push_stack_for();   */
  /* these registers do not contain pointers.                     */
  PUSH2(ContextFlags, SegFs);
#    endif
  PUSH4(Edi, Esi, Ebx, Edx), PUSH2(Ecx, Eax), PUSH1(Ebp);
  sp = (ptr_t)context.Esp;
#  elif defined(X86_64)
  PUSH4(Rax, Rcx, Rdx, Rbx);
  PUSH2(Rbp, Rsi);
  PUSH1(Rdi);
  PUSH4(R8, R9, R10, R11);
  PUSH4(R12, R13, R14, R15);
#    ifndef XMM_CANT_STORE_PTRS
  PUSH8_LH(Xmm0, Xmm1, Xmm2, Xmm3);
  PUSH8_LH(Xmm4, Xmm5, Xmm6, Xmm7);
  PUSH8_LH(Xmm8, Xmm9, Xmm10, Xmm11);
  PUSH8_LH(Xmm12, Xmm13, Xmm14, Xmm15);
#    endif
  sp = (ptr_t)context.Rsp;
#  elif defined(ARM32)
  PUSH4(R0, R1, R2, R3), PUSH4(R4, R5, R6, R7), PUSH4(R8, R9, R10, R11);
  PUSH1(R12);
  sp = (ptr_t)context.Sp;
#  elif defined(AARCH64)
  PUSH4(X0, X1, X2, X3), PUSH4(X4, X5, X6, X7), PUSH4(X8, X9, X10, X11);
  PUSH4(X12, X13, X14, X15), PUSH4(X16, X17, X18, X19),
      PUSH4(X20, X21, X22, X23);
  PUSH4(X24, X25, X26, X27), PUSH1(X28);
  PUSH1(Lr);
  sp = (ptr_t)context.Sp;
#  elif defined(SHx)
  PUSH4(R0, R1, R2, R3), PUSH4(R4, R5, R6, R7), PUSH4(R8, R9, R10, R11);
  PUSH2(R12, R13), PUSH1(R14);
  sp = (ptr_t)context.R15;
#  elif defined(MIPS)
  PUSH4(IntAt, IntV0, IntV1, IntA0), PUSH4(IntA1, IntA2, IntA3, IntT0);
  PUSH4(IntT1, IntT2, IntT3, IntT4), PUSH4(IntT5, IntT6, IntT7, IntS0);
  PUSH4(IntS1, IntS2, IntS3, IntS4), PUSH4(IntS5, IntS6, IntS7, IntT8);
  PUSH4(IntT9, IntK0, IntK1, IntS8);
  sp = (ptr_t)context.IntSp;
#  elif defined(PPC)
  PUSH4(Gpr0, Gpr3, Gpr4, Gpr5), PUSH4(Gpr6, Gpr7, Gpr8, Gpr9);
  PUSH4(Gpr10, Gpr11, Gpr12, Gpr14), PUSH4(Gpr15, Gpr16, Gpr17, Gpr18);
  PUSH4(Gpr19, Gpr20, Gpr21, Gpr22), PUSH4(Gpr23, Gpr24, Gpr25, Gpr26);
  PUSH4(Gpr27, Gpr28, Gpr29, Gpr30), PUSH1(Gpr31);
  sp = (ptr_t)context.Gpr1;
#  elif defined(ALPHA)
  PUSH4(IntV0, IntT0, IntT1, IntT2), PUSH4(IntT3, IntT4, IntT5, IntT6);
  PUSH4(IntT7, IntS0, IntS1, IntS2), PUSH4(IntS3, IntS4, IntS5, IntFp);
  PUSH4(IntA0, IntA1, IntA2, IntA3), PUSH4(IntA4, IntA5, IntT8, IntT9);
  PUSH4(IntT10, IntT11, IntT12, IntAt);
  sp = (ptr_t)context.IntSp;
#  elif defined(CPPCHECK)
  GC_noop1_ptr(regs);
  sp = (ptr_t)(word)cnt; /* to workaround "cnt not used" false positive */
#  else
#    error Architecture is not supported
#  endif
#  undef context
#  undef PUSH1
#  undef PUSH2
#  undef PUSH4
#  undef PUSH8_LH
  GC_ASSERT(cnt == PUSHED_REGS_COUNT);
  return sp;
}

STATIC word
GC_push_stack_for(GC_thread thread, thread_id_t self_id, GC_bool *pfound_me)
{
  GC_bool is_self = FALSE;
  ptr_t sp, stack_min;
  GC_stack_context_t crtn = thread->crtn;
  ptr_t stack_end = crtn->stack_end;
  struct GC_traced_stack_sect_s *traced_stack_sect = crtn->traced_stack_sect;

  GC_ASSERT(I_HOLD_LOCK());
  if (EXPECT(NULL == stack_end, FALSE))
    return 0;

  if (thread->id == self_id) {
    GC_ASSERT((thread->flags & DO_BLOCKING) == 0);
    sp = GC_approx_sp();
    is_self = TRUE;
    *pfound_me = TRUE;
  } else if ((thread->flags & DO_BLOCKING) != 0) {
    /* Use saved sp value for blocked threads.  */
    sp = crtn->stack_ptr;
  } else {
#  ifdef RETRY_GET_THREAD_CONTEXT
    /* We cache context when suspending the thread since it may       */
    /* require looping.                                               */
    word *regs = thread->context_regs;

    if ((thread->flags & IS_SUSPENDED) != 0) {
      sp = thread->context_sp;
    } else
#  else
    word regs[PUSHED_REGS_COUNT];
#  endif

    /* else */ {
      CONTEXT context;

      /* For unblocked threads call GetThreadContext().       */
      context.ContextFlags = GET_THREAD_CONTEXT_FLAGS;
      if (GetThreadContext(THREAD_HANDLE(thread), &context)) {
        sp = copy_ptr_regs(regs, &context);
      } else {
#  ifdef RETRY_GET_THREAD_CONTEXT
        /* At least, try to use the stale context if saved. */
        sp = thread->context_sp;
        if (NULL == sp) {
          /* Skip the current thread, anyway its stack will */
          /* be pushed when the world is stopped.           */
          return 0;
        }
#  else
        /* This is to avoid "might be uninitialized" compiler warning. */
        *(volatile ptr_t *)&sp = NULL;
        ABORT("GetThreadContext failed");
#  endif
      }
    }
#  ifdef THREAD_LOCAL_ALLOC
    GC_ASSERT((thread->flags & IS_SUSPENDED) != 0 || !GC_world_stopped);
#  endif

#  ifndef WOW64_THREAD_CONTEXT_WORKAROUND
    GC_push_many_regs(regs, PUSHED_REGS_COUNT);
#  else
    GC_push_many_regs(regs + 2, PUSHED_REGS_COUNT - 2);
    /* skip ContextFlags and SegFs */

    /* WoW64 workaround. */
    if (isWow64) {
      DWORD ContextFlags = (DWORD)regs[0];

      if ((ContextFlags & CONTEXT_EXCEPTION_REPORTING) != 0
          && (ContextFlags
              & (CONTEXT_EXCEPTION_ACTIVE
                 /* | CONTEXT_SERVICE_ACTIVE */))
                 != 0) {
        GC_NT_TIB *tib;

#    ifdef MSWINRT_FLAVOR
        tib = thread->tib;
#    else
        WORD SegFs = (WORD)regs[1];
        LDT_ENTRY selector;

        if (!GetThreadSelectorEntry(THREAD_HANDLE(thread), SegFs, &selector))
          ABORT("GetThreadSelectorEntry failed");
        tib = (GC_NT_TIB *)(selector.BaseLow
                            | (selector.HighWord.Bits.BaseMid << 16)
                            | (selector.HighWord.Bits.BaseHi << 24));
#    endif
#    ifdef DEBUG_THREADS
        GC_log_printf("TIB stack limit/base: %p .. %p\n",
                      (void *)tib->StackLimit, (void *)tib->StackBase);
#    endif
        GC_ASSERT(!HOTTER_THAN((ptr_t)tib->StackBase, stack_end));
        if (stack_end != crtn->initial_stack_base
            /* We are in a coroutine (old-style way of the support).  */
            && (ADDR(stack_end) <= (word)tib->StackLimit
                || (word)tib->StackBase < ADDR(stack_end))) {
          /* The coroutine stack is not within TIB stack.   */
          WARN("GetThreadContext might return stale register values"
               " including ESP= %p\n",
               sp);
          /* TODO: Because of WoW64 bug, there is no guarantee that   */
          /* sp really points to the stack top but, for now, we do    */
          /* our best as the TIB stack limit/base cannot be used      */
          /* while we are inside a coroutine.                         */
        } else {
          /* GetThreadContext() might return stale register values,   */
          /* so we scan the entire stack region (down to the stack    */
          /* limit).  There is no 100% guarantee that all the         */
          /* registers are pushed but we do our best (the proper      */
          /* solution would be to fix it inside Windows).             */
          sp = (ptr_t)tib->StackLimit;
        }
      } /* else */
#    ifdef DEBUG_THREADS
      else {
        static GC_bool logged;
        if (!logged && (ContextFlags & CONTEXT_EXCEPTION_REPORTING) == 0) {
          GC_log_printf("CONTEXT_EXCEPTION_REQUEST not supported\n");
          logged = TRUE;
        }
      }
#    endif
    }
#  endif /* WOW64_THREAD_CONTEXT_WORKAROUND */
  }
#  ifdef STACKPTR_CORRECTOR_AVAILABLE
  if (GC_sp_corrector != 0)
    GC_sp_corrector((void **)&sp, (void *)thread->pthread_id);
#  endif

  /* Set stack_min to the lowest address in the thread stack,   */
  /* or to an address in the thread stack no larger than sp,    */
  /* taking advantage of the old value to avoid slow traversals */
  /* of large stacks.                                           */
  if (crtn->last_stack_min == ADDR_LIMIT) {
#  ifdef MSWINCE
    if (GC_dont_query_stack_min) {
      stack_min = GC_wince_evaluate_stack_min(
          traced_stack_sect != NULL ? (ptr_t)traced_stack_sect : stack_end);
      /* Keep last_stack_min value unmodified. */
    } else
#  endif
    /* else */ {
      stack_min = GC_get_stack_min(
          traced_stack_sect != NULL ? (ptr_t)traced_stack_sect : stack_end);
      GC_win32_unprotect_thread(thread);
      crtn->last_stack_min = stack_min;
    }
  } else {
    /* First, adjust the latest known minimum stack address if we       */
    /* are inside GC_call_with_gc_active().                             */
    if (traced_stack_sect != NULL
        && ADDR_LT((ptr_t)traced_stack_sect, crtn->last_stack_min)) {
      GC_win32_unprotect_thread(thread);
      crtn->last_stack_min = (ptr_t)traced_stack_sect;
    }

    if (ADDR_INSIDE(sp, crtn->last_stack_min, stack_end)) {
      stack_min = sp;
    } else {
      /* In the current thread it is always safe to use sp value.       */
      if (may_be_in_stack(is_self && ADDR_LT(sp, crtn->last_stack_min)
                              ? sp
                              : crtn->last_stack_min)) {
        stack_min = (ptr_t)last_info.BaseAddress;
        /* Do not probe rest of the stack if sp is correct. */
        if (!ADDR_INSIDE(sp, stack_min, stack_end))
          stack_min = GC_get_stack_min(crtn->last_stack_min);
      } else {
        /* Stack shrunk?  Is this possible? */
        stack_min = GC_get_stack_min(stack_end);
      }
      GC_win32_unprotect_thread(thread);
      crtn->last_stack_min = stack_min;
    }
  }

  GC_ASSERT(GC_dont_query_stack_min || stack_min == GC_get_stack_min(stack_end)
            || (ADDR_GE(sp, stack_min) && ADDR_LT(stack_min, stack_end)
                && ADDR_LT(GC_get_stack_min(stack_end), stack_min)));

  if (ADDR_INSIDE(sp, stack_min, stack_end)) {
#  ifdef DEBUG_THREADS
    GC_log_printf("Pushing stack for 0x%x from sp %p to %p from 0x%x\n",
                  (int)thread->id, (void *)sp, (void *)stack_end,
                  (int)self_id);
#  endif
    GC_push_all_stack_sections(sp, stack_end, traced_stack_sect);
  } else {
    /* If not current thread then it is possible for sp to point to     */
    /* the guarded (untouched yet) page just below the current          */
    /* stack_min of the thread.                                         */
    if (is_self || ADDR_GE(sp, stack_end)
        || ADDR_LT(sp + GC_page_size, stack_min))
      WARN("Thread stack pointer %p out of range, pushing everything\n", sp);
#  ifdef DEBUG_THREADS
    GC_log_printf("Pushing stack for 0x%x from (min) %p to %p from 0x%x\n",
                  (int)thread->id, (void *)stack_min, (void *)stack_end,
                  (int)self_id);
#  endif
    /* Push everything - ignore "traced stack section" data.            */
    GC_push_all_stack(stack_min, stack_end);
  }
  /* Note: stack grows down.    */
  return stack_end - sp;
}

/* Should do exactly the right thing if the world is stopped; should    */
/* not fail if it is not.                                               */
GC_INNER void
GC_push_all_stacks(void)
{
  thread_id_t self_id = GetCurrentThreadId();
  GC_bool found_me = FALSE;
#  ifndef SMALL_CONFIG
  unsigned nthreads = 0;
#  endif
  word total_size = 0;

  GC_ASSERT(I_HOLD_LOCK());
  GC_ASSERT(GC_thr_initialized);
#  ifndef GC_NO_THREADS_DISCOVERY
  if (GC_win32_dll_threads) {
    int i;
    LONG my_max = GC_get_max_thread_index();

    for (i = 0; i <= my_max; i++) {
      GC_thread p = (GC_thread)(dll_thread_table + i);

      if (p->tm.in_use) {
#    ifndef SMALL_CONFIG
        ++nthreads;
#    endif
        total_size += GC_push_stack_for(p, self_id, &found_me);
      }
    }
  } else
#  endif
  /* else */ {
    int i;
    for (i = 0; i < THREAD_TABLE_SZ; i++) {
      GC_thread p;

      for (p = GC_threads[i]; p != NULL; p = p->tm.next) {
        GC_ASSERT(THREAD_TABLE_INDEX(p->id) == i);
        if (!KNOWN_FINISHED(p)) {
#  ifndef SMALL_CONFIG
          ++nthreads;
#  endif
          total_size += GC_push_stack_for(p, self_id, &found_me);
        }
      }
    }
  }
#  ifndef SMALL_CONFIG
  GC_VERBOSE_LOG_PRINTF(
      "Pushed %d thread stacks%s\n", nthreads,
      GC_win32_dll_threads ? " based on DllMain thread tracking" : "");
#  endif
  if (!found_me && !GC_in_thread_creation)
    ABORT("Collecting from unknown thread");
  GC_total_stacksize = total_size;
}

#  ifdef PARALLEL_MARK
/* Last known minimum (hottest) address in stack (or ADDR_LIMIT if    */
/* unset) for markers.                                                */
GC_INNER ptr_t GC_marker_last_stack_min[MAX_MARKERS - 1] = { 0 };
#  endif /* PARALLEL_MARK */

GC_INNER void
GC_get_next_stack(ptr_t start, ptr_t limit, ptr_t *plo, ptr_t *phi)
{
  int i;
  /* Least in-range stack base. */
  ptr_t current_min = ADDR_LIMIT;
  /* Address of last_stack_min field for thread corresponding   */
  /* to current_min.                                            */
  ptr_t *plast_stack_min = NULL;
  /* Either NULL or points to the thread's hash table entry     */
  /* containing (*plast_stack_min).                             */
  GC_thread thread = NULL;

  GC_ASSERT(I_HOLD_LOCK());
  /* First set current_min, ignoring limit. */
  if (GC_win32_dll_threads) {
    LONG my_max = GC_get_max_thread_index();

    for (i = 0; i <= my_max; i++) {
      ptr_t stack_end = (ptr_t)dll_thread_table[i].crtn->stack_end;

      if (ADDR_LT(start, stack_end) && ADDR_LT(stack_end, current_min)) {
        /* Update address of last_stack_min. */
        plast_stack_min = &dll_thread_table[i].crtn->last_stack_min;
        current_min = stack_end;
#  ifdef CPPCHECK
        /* To avoid a warning that thread is always null.     */
        thread = (GC_thread)&dll_thread_table[i];
#  endif
      }
    }
  } else {
    for (i = 0; i < THREAD_TABLE_SZ; i++) {
      GC_thread p;

      for (p = GC_threads[i]; p != NULL; p = p->tm.next) {
        GC_stack_context_t crtn = p->crtn;
        /* Note: the following is read of a volatile field.     */
        ptr_t stack_end = crtn->stack_end;

        if (ADDR_LT(start, stack_end) && ADDR_LT(stack_end, current_min)) {
          /* Update address of last_stack_min. */
          plast_stack_min = &crtn->last_stack_min;
          /* Remember current thread to unprotect.      */
          thread = p;
          current_min = stack_end;
        }
      }
    }
#  ifdef PARALLEL_MARK
    for (i = 0; i < GC_markers_m1; ++i) {
      ptr_t s = GC_marker_sp[i];

#    ifdef IA64
      /* FIXME: not implemented */
#    endif
      if (ADDR_LT(start, s) && ADDR_LT(s, current_min)) {
        GC_ASSERT(GC_marker_last_stack_min[i] != NULL);
        plast_stack_min = &GC_marker_last_stack_min[i];
        current_min = s;
        /* Not a thread's hash table entry.   */
        thread = NULL;
      }
    }
#  endif
  }

  *phi = current_min;
  if (current_min == ADDR_LIMIT) {
    *plo = ADDR_LIMIT;
    return;
  }

  GC_ASSERT(ADDR_LT(start, current_min) && plast_stack_min != NULL);
#  ifdef MSWINCE
  if (GC_dont_query_stack_min) {
    *plo = GC_wince_evaluate_stack_min(current_min);
    /* Keep last_stack_min value unmodified.  */
    return;
  }
#  endif

  if (ADDR_LT(limit, current_min) && !may_be_in_stack(limit)) {
    /* Skip the rest since the memory region at limit address is        */
    /* not a stack (so the lowest address of the found stack would      */
    /* be above the limit value anyway).                                */
    *plo = ADDR_LIMIT;
    return;
  }

  /* Get the minimum address of the found stack by probing its memory   */
  /* region starting from the recent known minimum (if set).            */
  if (*plast_stack_min == ADDR_LIMIT || !may_be_in_stack(*plast_stack_min)) {
    /* Unsafe to start from last_stack_min value. */
    *plo = GC_get_stack_min(current_min);
  } else {
    /* Use the recent value to optimize search for min address. */
    *plo = GC_get_stack_min(*plast_stack_min);
  }

  /* Remember current stack_min value. */
  if (thread != NULL)
    GC_win32_unprotect_thread(thread);
  *plast_stack_min = *plo;
}

#  if defined(PARALLEL_MARK) && !defined(GC_PTHREADS_PARAMARK)

#    ifndef MARK_THREAD_STACK_SIZE
/* The default size of the marker's thread stack. */
#      define MARK_THREAD_STACK_SIZE 0
#    endif

/* Events with manual reset (one for each mark helper).     */
STATIC HANDLE GC_marker_cv[MAX_MARKERS - 1] = { 0 };

/* This table is used for mapping helper threads id to mark helper  */
/* index (linear search is used since the mapping contains only     */
/* a few entries).                                                  */
GC_INNER thread_id_t GC_marker_Id[MAX_MARKERS - 1] = { 0 };

/* mark_mutex_event, builder_cv, mark_cv are initialized in GC_thr_init. */

/* Note: this event should be with auto-reset.      */
static HANDLE mark_mutex_event = (HANDLE)0;

/* Note: these events are with manual reset.        */
static HANDLE builder_cv = (HANDLE)0;
static HANDLE mark_cv = (HANDLE)0;

GC_INNER void
GC_start_mark_threads_inner(void)
{
  int i;

  GC_ASSERT(I_HOLD_LOCK());
  ASSERT_CANCEL_DISABLED();
  if (GC_available_markers_m1 <= 0 || GC_parallel)
    return;
  GC_wait_for_gc_completion(TRUE);

  GC_ASSERT(0 == GC_fl_builder_count);
  /* Initialize GC_marker_cv[] fully before starting the    */
  /* first helper thread.                                   */
  GC_markers_m1 = GC_available_markers_m1;
  for (i = 0; i < GC_markers_m1; ++i) {
    if ((GC_marker_cv[i]
         = CreateEvent(NULL /* attrs */, TRUE /* isManualReset */,
                       FALSE /* initialState */, NULL /* name (A/W) */))
        == (HANDLE)0)
      ABORT("CreateEvent failed");
  }

  for (i = 0; i < GC_markers_m1; ++i) {
#    if defined(MSWINCE) || defined(MSWIN_XBOX1)
    HANDLE handle;
    DWORD thread_id;

    GC_marker_last_stack_min[i] = ADDR_LIMIT;
    /* There is no _beginthreadex() in WinCE. */
    handle = CreateThread(NULL /* lpsa */,
                          MARK_THREAD_STACK_SIZE /* ignored */, GC_mark_thread,
                          NUMERIC_TO_VPTR(i), 0 /* fdwCreate */, &thread_id);
    if (EXPECT(NULL == handle, FALSE)) {
      WARN("Marker thread %" WARN_PRIdPTR " creation failed\n",
           (GC_signed_word)i);
      /* The most probable failure reason is "not enough memory". */
      /* Don't try to create other marker threads.                */
      break;
    }
    /* It is safe to detach the thread.   */
    CloseHandle(handle);
#    else
    GC_uintptr_t handle;
    unsigned thread_id;

    GC_marker_last_stack_min[i] = ADDR_LIMIT;
    handle = _beginthreadex(NULL /* security_attr */, MARK_THREAD_STACK_SIZE,
                            GC_mark_thread, NUMERIC_TO_VPTR(i), 0 /* flags */,
                            &thread_id);
    if (EXPECT(!handle || handle == (GC_uintptr_t)-1L, FALSE)) {
      WARN("Marker thread %" WARN_PRIdPTR " creation failed\n",
           (GC_signed_word)i);
      /* Don't try to create other marker threads.                */
      break;
    } else {
      /* We may detach the thread (if handle is of HANDLE type).  */
      /* CloseHandle((HANDLE)handle); */
    }
#    endif
  }

  /* Adjust GC_markers_m1 (and free unused resources) if failed.    */
  while (GC_markers_m1 > i) {
    GC_markers_m1--;
    CloseHandle(GC_marker_cv[GC_markers_m1]);
  }
  GC_wait_for_markers_init();
  GC_COND_LOG_PRINTF("Started %d mark helper threads\n", GC_markers_m1);
  if (EXPECT(0 == i, FALSE)) {
    CloseHandle(mark_cv);
    CloseHandle(builder_cv);
    CloseHandle(mark_mutex_event);
  }
}

#    ifdef GC_ASSERTIONS
STATIC unsigned long GC_mark_lock_holder = NO_THREAD;
#      define SET_MARK_LOCK_HOLDER \
        (void)(GC_mark_lock_holder = GetCurrentThreadId())
#      define UNSET_MARK_LOCK_HOLDER                              \
        do {                                                      \
          GC_ASSERT(GC_mark_lock_holder == GetCurrentThreadId()); \
          GC_mark_lock_holder = NO_THREAD;                        \
        } while (0)
#    else
#      define SET_MARK_LOCK_HOLDER (void)0
#      define UNSET_MARK_LOCK_HOLDER (void)0
#    endif /* !GC_ASSERTIONS */

/* Mutex state: unlocked (0), locked and no other waiters (1),      */
/* locked and waiters may exist (-1).  Accessed using               */
/* InterlockedExchange().                                           */
STATIC /* volatile */ LONG GC_mark_mutex_state = 0;

#    ifdef LOCK_STATS
volatile AO_t GC_block_count = 0;
volatile AO_t GC_unlocked_count = 0;
#    endif

GC_INNER void
GC_acquire_mark_lock(void)
{
  GC_ASSERT(GC_mark_lock_holder != GetCurrentThreadId());
  if (EXPECT(InterlockedExchange(&GC_mark_mutex_state, 1 /* locked */) != 0,
             FALSE)) {
#    ifdef LOCK_STATS
    (void)AO_fetch_and_add1(&GC_block_count);
#    endif
    /* Repeatedly reset the state and wait until we acquire the */
    /* mark lock.                                               */
    while (InterlockedExchange(&GC_mark_mutex_state,
                               -1 /* locked_and_has_waiters */)
           != 0) {
      if (WaitForSingleObject(mark_mutex_event, INFINITE) == WAIT_FAILED)
        ABORT("WaitForSingleObject failed");
    }
  }
#    ifdef LOCK_STATS
  else {
    (void)AO_fetch_and_add1(&GC_unlocked_count);
  }
#    endif

  GC_ASSERT(GC_mark_lock_holder == NO_THREAD);
  SET_MARK_LOCK_HOLDER;
}

GC_INNER void
GC_release_mark_lock(void)
{
  UNSET_MARK_LOCK_HOLDER;
  if (EXPECT(InterlockedExchange(&GC_mark_mutex_state, 0 /* unlocked */) < 0,
             FALSE)) {
    /* Wake a waiter.       */
    if (!SetEvent(mark_mutex_event))
      ABORT("SetEvent failed");
  }
}

/* In GC_wait_for_reclaim/GC_notify_all_builder() we emulate POSIX  */
/* cond_wait/cond_broadcast() primitives with WinAPI Event object   */
/* (working in "manual reset" mode).  This works here because       */
/* GC_notify_all_builder() is always called holding the mark lock   */
/* and the checked condition (GC_fl_builder_count == 0) is the only */
/* one for which broadcasting on builder_cv is performed.           */

GC_INNER void
GC_wait_for_reclaim(void)
{
  GC_ASSERT(builder_cv != 0);
  for (;;) {
    GC_acquire_mark_lock();
    if (0 == GC_fl_builder_count)
      break;
    if (!ResetEvent(builder_cv))
      ABORT("ResetEvent failed");
    GC_release_mark_lock();
    if (WaitForSingleObject(builder_cv, INFINITE) == WAIT_FAILED)
      ABORT("WaitForSingleObject failed");
  }
  GC_release_mark_lock();
}

GC_INNER void
GC_notify_all_builder(void)
{
  GC_ASSERT(GC_mark_lock_holder == GetCurrentThreadId());
  GC_ASSERT(builder_cv != 0);
  GC_ASSERT(0 == GC_fl_builder_count);
  if (!SetEvent(builder_cv))
    ABORT("SetEvent failed");
}

/* mark_cv is used (for waiting) by a non-helper thread.    */

GC_INNER void
GC_wait_marker(void)
{
  HANDLE event = mark_cv;
  thread_id_t self_id = GetCurrentThreadId();
  int i = GC_markers_m1;

  while (i-- > 0) {
    if (GC_marker_Id[i] == self_id) {
      event = GC_marker_cv[i];
      break;
    }
  }

  if (!ResetEvent(event))
    ABORT("ResetEvent failed");
  GC_release_mark_lock();
  if (WaitForSingleObject(event, INFINITE) == WAIT_FAILED)
    ABORT("WaitForSingleObject failed");
  GC_acquire_mark_lock();
}

GC_INNER void
GC_notify_all_marker(void)
{
  thread_id_t self_id = GetCurrentThreadId();
  int i = GC_markers_m1;

  while (i-- > 0) {
    /* Notify every marker ignoring self (for efficiency).  */
    if (!SetEvent(GC_marker_Id[i] != self_id ? GC_marker_cv[i] : mark_cv))
      ABORT("SetEvent failed");
  }
}

#  endif /* PARALLEL_MARK && !GC_PTHREADS_PARAMARK */

/* We have no DllMain to take care of new threads.  Thus, we    */
/* must properly intercept thread creation.                     */

struct win32_start_info {
  LPTHREAD_START_ROUTINE start_routine;
  LPVOID arg;
};

STATIC void *GC_CALLBACK
GC_win32_start_inner(struct GC_stack_base *sb, void *arg)
{
  void *ret;
  LPTHREAD_START_ROUTINE start_routine
      = ((struct win32_start_info *)arg)->start_routine;
  LPVOID start_arg = ((struct win32_start_info *)arg)->arg;

  GC_ASSERT(!GC_win32_dll_threads);
  /* This waits for an in-progress garbage collection.        */
  GC_register_my_thread(sb);
#  ifdef DEBUG_THREADS
  GC_log_printf("thread 0x%lx starting...\n", (long)GetCurrentThreadId());
#  endif
  GC_free(arg);

  /* Clear the thread entry even if we exit with an exception.        */
  /* This is probably pointless, since an uncaught exception is       */
  /* supposed to result in the process being killed.                  */
#  ifndef NO_SEH_AVAILABLE
  ret = NULL; /* to avoid "might be uninitialized" compiler warning */
  __try
#  endif
  {
    ret = NUMERIC_TO_VPTR(start_routine(start_arg));
  }
#  ifndef NO_SEH_AVAILABLE
  __finally
#  endif
  {
    (void)GC_unregister_my_thread();
  }

#  ifdef DEBUG_THREADS
  GC_log_printf("thread 0x%lx returned from start routine\n",
                (long)GetCurrentThreadId());
#  endif
#  if defined(CPPCHECK)
  GC_noop1_ptr(sb);
#  endif
  return ret;
}

STATIC DWORD WINAPI
GC_win32_start(LPVOID arg)
{
  return (DWORD)(GC_uintptr_t)GC_call_with_stack_base(GC_win32_start_inner,
                                                      arg);
}

GC_API HANDLE WINAPI
GC_CreateThread(LPSECURITY_ATTRIBUTES lpThreadAttributes,
                GC_WIN32_SIZE_T dwStackSize,
                LPTHREAD_START_ROUTINE lpStartAddress, LPVOID lpParameter,
                DWORD dwCreationFlags, LPDWORD lpThreadId)
{
  /* Make sure GC is initialized (i.e. main thread is attached,   */
  /* tls is initialized).  This is redundant when                 */
  /* GC_win32_dll_threads is set by GC_use_threads_discovery().   */
  if (!EXPECT(GC_is_initialized, TRUE))
    GC_init();
  GC_ASSERT(GC_thr_initialized);

#  ifdef DEBUG_THREADS
  GC_log_printf("About to create a thread from 0x%lx\n",
                (long)GetCurrentThreadId());
#  endif
  if (GC_win32_dll_threads) {
    return CreateThread(lpThreadAttributes, dwStackSize, lpStartAddress,
                        lpParameter, dwCreationFlags, lpThreadId);
  } else {
    /* Note: this is handed off to and deallocated by child thread.   */
    struct win32_start_info *psi
        = (struct win32_start_info *)GC_malloc_uncollectable(
            sizeof(struct win32_start_info));
    HANDLE thread_h;

    if (EXPECT(NULL == psi, FALSE)) {
      SetLastError(ERROR_NOT_ENOUGH_MEMORY);
      return NULL;
    }

    /* Set up the thread arguments.   */
    psi->start_routine = lpStartAddress;
    psi->arg = lpParameter;
    GC_dirty(psi);
    REACHABLE_AFTER_DIRTY(lpParameter);

#  ifdef PARALLEL_MARK
    if (EXPECT(!GC_parallel && GC_available_markers_m1 > 0, FALSE))
      GC_start_mark_threads();
#  endif
    set_need_to_lock();
    thread_h = CreateThread(lpThreadAttributes, dwStackSize, GC_win32_start,
                            psi, dwCreationFlags, lpThreadId);
    if (EXPECT(0 == thread_h, FALSE))
      GC_free(psi);
    return thread_h;
  }
}

GC_API DECLSPEC_NORETURN void WINAPI
GC_ExitThread(DWORD dwExitCode)
{
  if (!GC_win32_dll_threads)
    (void)GC_unregister_my_thread();
  ExitThread(dwExitCode);
}

#  if defined(MSWIN32) && !defined(NO_CRT)
GC_API GC_uintptr_t GC_CALL
GC_beginthreadex(void *security, unsigned stack_size,
                 unsigned(__stdcall *start_address)(void *), void *arglist,
                 unsigned initflag, unsigned *thrdaddr)
{
  if (!EXPECT(GC_is_initialized, TRUE))
    GC_init();
  GC_ASSERT(GC_thr_initialized);
#    ifdef DEBUG_THREADS
  GC_log_printf("About to create a thread from 0x%lx\n",
                (long)GetCurrentThreadId());
#    endif

  if (GC_win32_dll_threads) {
    return _beginthreadex(security, stack_size, start_address, arglist,
                          initflag, thrdaddr);
  } else {
    GC_uintptr_t thread_h;
    /* Note: this is handed off to and deallocated by child thread.   */
    struct win32_start_info *psi
        = (struct win32_start_info *)GC_malloc_uncollectable(
            sizeof(struct win32_start_info));

    if (EXPECT(NULL == psi, FALSE)) {
      /* MSDN docs say _beginthreadex() returns 0 on error and sets */
      /* errno to either EAGAIN (too many threads) or EINVAL (the   */
      /* argument is invalid or the stack size is incorrect), so we */
      /* set errno to EAGAIN on "not enough memory".                */
      errno = EAGAIN;
      return 0;
    }

    /* Set up the thread arguments. */
    psi->start_routine = (LPTHREAD_START_ROUTINE)start_address;
    psi->arg = arglist;
    GC_dirty(psi);
    REACHABLE_AFTER_DIRTY(arglist);

#    ifdef PARALLEL_MARK
    if (EXPECT(!GC_parallel && GC_available_markers_m1 > 0, FALSE))
      GC_start_mark_threads();
#    endif
    set_need_to_lock();
    thread_h = _beginthreadex(security, stack_size,
                              (unsigned(__stdcall *)(void *))GC_win32_start,
                              psi, initflag, thrdaddr);
    if (EXPECT(0 == thread_h, FALSE))
      GC_free(psi);
    return thread_h;
  }
}

GC_API void GC_CALL
GC_endthreadex(unsigned retval)
{
  if (!GC_win32_dll_threads)
    (void)GC_unregister_my_thread();
  _endthreadex(retval);
}
#  endif /* MSWIN32 && !NO_CRT */

#  ifdef GC_WINMAIN_REDIRECT
/* This might be useful on WinCE.  Shouldn't be used with GC_DLL.     */

#    if defined(MSWINCE) && defined(UNDER_CE)
#      define WINMAIN_LPTSTR LPWSTR
#    else
#      define WINMAIN_LPTSTR LPSTR
#    endif

/* This is defined in gc.h.   */
#    undef WinMain

/* Defined outside GC by an application.      */
int WINAPI GC_WinMain(HINSTANCE, HINSTANCE, WINMAIN_LPTSTR, int);

typedef struct {
  HINSTANCE hInstance;
  HINSTANCE hPrevInstance;
  WINMAIN_LPTSTR lpCmdLine;
  int nShowCmd;
} main_thread_args;

static DWORD WINAPI
main_thread_start(LPVOID arg)
{
  main_thread_args *main_args = (main_thread_args *)arg;
  return (DWORD)GC_WinMain(main_args->hInstance, main_args->hPrevInstance,
                           main_args->lpCmdLine, main_args->nShowCmd);
}

STATIC void *GC_CALLBACK
GC_waitForSingleObjectInfinite(void *handle)
{
  return NUMERIC_TO_VPTR(WaitForSingleObject((HANDLE)handle, INFINITE));
}

#    ifndef WINMAIN_THREAD_STACK_SIZE
/* The default size of the WinMain's thread stack.  */
#      define WINMAIN_THREAD_STACK_SIZE 0
#    endif

int WINAPI
WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, WINMAIN_LPTSTR lpCmdLine,
        int nShowCmd)
{
  DWORD exit_code = 1;

  main_thread_args args = { hInstance, hPrevInstance, lpCmdLine, nShowCmd };
  HANDLE thread_h;
  DWORD thread_id;

  /* Initialize everything.   */
  GC_INIT();

  /* Start the main thread.   */
  thread_h = GC_CreateThread(
      NULL /* lpsa */, WINMAIN_THREAD_STACK_SIZE /* ignored on WinCE */,
      main_thread_start, &args, 0 /* fdwCreate */, &thread_id);
  if (NULL == thread_h)
    ABORT("GC_CreateThread(main_thread) failed");

  if ((DWORD)(GC_uintptr_t)GC_do_blocking(GC_waitForSingleObjectInfinite,
                                          (void *)thread_h)
      == WAIT_FAILED)
    ABORT("WaitForSingleObject(main_thread) failed");
  GetExitCodeThread(thread_h, &exit_code);
  CloseHandle(thread_h);

#    ifdef MSWINCE
  GC_deinit();
#    endif
  return (int)exit_code;
}

#  endif /* GC_WINMAIN_REDIRECT */

#  ifdef WOW64_THREAD_CONTEXT_WORKAROUND
#    ifdef MSWINRT_FLAVOR
/* Available on WinRT but we have to declare it manually.   */
__declspec(dllimport) HMODULE WINAPI GetModuleHandleW(LPCWSTR);
#    endif

static GC_bool
is_wow64_process(HMODULE hK32)
{
  BOOL is_wow64;
#    ifdef MSWINRT_FLAVOR
  /* Try to use IsWow64Process2 as it handles different WoW64 cases. */
  HMODULE hWow64 = GetModuleHandleW(L"api-ms-win-core-wow64-l1-1-1.dll");

  UNUSED_ARG(hK32);
  if (hWow64) {
    FARPROC pfn2 = GetProcAddress(hWow64, "IsWow64Process2");
    USHORT process_machine, native_machine;

    if (pfn2
        && (*(BOOL(WINAPI *)(HANDLE, USHORT *, USHORT *))(GC_funcptr_uint)
                pfn2)(GetCurrentProcess(), &process_machine, &native_machine))
      return process_machine != native_machine;
  }
  if (IsWow64Process(GetCurrentProcess(), &is_wow64))
    return (GC_bool)is_wow64;
#    else
  if (hK32) {
    FARPROC pfn = GetProcAddress(hK32, "IsWow64Process");

    if (pfn
        && (*(BOOL(WINAPI *)(HANDLE, BOOL *))(GC_funcptr_uint)pfn)(
            GetCurrentProcess(), &is_wow64))
      return (GC_bool)is_wow64;
  }
#    endif
  /* IsWow64Process() failed. */
  return FALSE;
}
#  endif /* WOW64_THREAD_CONTEXT_WORKAROUND */

GC_INNER void
GC_thr_init(void)
{
  struct GC_stack_base sb;
  thread_id_t self_id = GetCurrentThreadId();
#  if (!defined(HAVE_PTHREAD_SETNAME_NP_WITH_TID) && !defined(MSWINCE) \
       && defined(PARALLEL_MARK))                                      \
      || defined(WOW64_THREAD_CONTEXT_WORKAROUND)
  HMODULE hK32;
#    if defined(MSWINRT_FLAVOR) && defined(FUNCPTR_IS_DATAPTR)
  MEMORY_BASIC_INFORMATION memInfo;

  if (VirtualQuery(CAST_THRU_UINTPTR(void *, GetProcAddress), &memInfo,
                   sizeof(memInfo))
      != sizeof(memInfo))
    ABORT("Weird VirtualQuery result");
  hK32 = (HMODULE)memInfo.AllocationBase;
#    else
  hK32 = GetModuleHandle(TEXT("kernel32.dll"));
#    endif
#  endif

  GC_ASSERT(I_HOLD_LOCK());
  GC_ASSERT(!GC_thr_initialized);
  GC_ASSERT(ADDR(&GC_threads) % ALIGNMENT == 0);
#  ifdef GC_ASSERTIONS
  GC_thr_initialized = TRUE;
#  endif
#  if !defined(DONT_USE_ATEXIT) || !defined(GC_NO_THREADS_DISCOVERY)
  GC_main_thread_id = self_id;
#  endif
#  ifdef CAN_HANDLE_FORK
  GC_setup_atfork();
#  endif
#  ifdef WOW64_THREAD_CONTEXT_WORKAROUND
  /* Set isWow64 flag. */
  isWow64 = is_wow64_process(hK32);
#  endif
  /* Add the initial thread, so we can stop it. */
  sb.mem_base = GC_stackbottom;
  GC_ASSERT(sb.mem_base != NULL);
#  ifdef IA64
  sb.reg_base = GC_register_stackbottom;
#  endif

#  if defined(PARALLEL_MARK)
  {
    const char *markers_string = GETENV("GC_MARKERS");
    int markers = GC_required_markers_cnt;

    if (markers_string != NULL) {
      markers = atoi(markers_string);
      if (markers <= 0 || markers > MAX_MARKERS) {
        WARN("Too big or invalid number of mark threads: %" WARN_PRIdPTR
             "; using maximum threads\n",
             (GC_signed_word)markers);
        markers = MAX_MARKERS;
      }
    } else if (0 == markers) {
      /* Unless the client sets the desired number of         */
      /* parallel markers, it is determined based on the      */
      /* number of CPU cores.                                 */
#    ifdef MSWINCE
      /* There is no GetProcessAffinityMask() in WinCE.     */
      /* GC_sysinfo is already initialized.                 */
      markers = (int)GC_sysinfo.dwNumberOfProcessors;
#    else
#      ifdef _WIN64
      DWORD_PTR procMask = 0;
      DWORD_PTR sysMask;
#      else
      DWORD procMask = 0;
      DWORD sysMask;
#      endif
      int ncpu = 0;
      if (
#      ifdef __cplusplus
          GetProcessAffinityMask(GetCurrentProcess(), &procMask, &sysMask)
#      else
          /* Cast args to void* for compatibility with some old SDKs. */
          GetProcessAffinityMask(GetCurrentProcess(), (void *)&procMask,
                                 (void *)&sysMask)
#      endif
          && procMask) {
        do {
          ncpu++;
        } while ((procMask &= procMask - 1) != 0);
      }
      markers = ncpu;
#    endif
#    if defined(GC_MIN_MARKERS) && !defined(CPPCHECK)
      /* This is primarily for testing on systems without getenv(). */
      if (markers < GC_MIN_MARKERS)
        markers = GC_MIN_MARKERS;
#    endif
      if (markers > MAX_MARKERS) {
        /* Silently limit the amount of markers.    */
        markers = MAX_MARKERS;
      }
    }
    GC_available_markers_m1 = markers - 1;
  }

  /* Check whether parallel mode could be enabled.    */
  if (GC_win32_dll_threads || GC_available_markers_m1 <= 0) {
    /* Disable parallel marking. */
    GC_parallel = FALSE;
    GC_COND_LOG_PRINTF("Single marker thread, turning off parallel marking\n");
  } else {
#    ifndef GC_PTHREADS_PARAMARK
    /* Initialize Win32 event objects for parallel marking.       */
    mark_mutex_event = CreateEvent(NULL /* attrs */, FALSE /* isManualReset */,
                                   FALSE /* initialState */, NULL /* name */);
    builder_cv = CreateEvent(NULL /* attrs */, TRUE /* isManualReset */,
                             FALSE /* initialState */, NULL /* name */);
    mark_cv = CreateEvent(NULL /* attrs */, TRUE /* isManualReset */,
                          FALSE /* initialState */, NULL /* name */);
    if (mark_mutex_event == (HANDLE)0 || builder_cv == (HANDLE)0
        || mark_cv == (HANDLE)0)
      ABORT("CreateEvent failed");
#    endif
#    if !defined(HAVE_PTHREAD_SETNAME_NP_WITH_TID) && !defined(MSWINCE)
    GC_init_win32_thread_naming(hK32);
#    endif
  }
#  endif /* PARALLEL_MARK */

  GC_register_my_thread_inner(&sb, self_id);
}

#  ifndef GC_NO_THREADS_DISCOVERY
/* We avoid acquiring locks here, since this doesn't seem to be     */
/* preemptible.  This may run with an uninitialized collector, in   */
/* which case we don't do much.  This implies that no threads other */
/* than the main one should be created with an uninitialized        */
/* collector.  (The alternative of initializing the collector here  */
/* seems dangerous, since DllMain is limited in what it can do.)    */

#    ifdef GC_INSIDE_DLL
/* Export only if needed by client. */
GC_API
#    else
#      define GC_DllMain DllMain
#    endif
BOOL WINAPI
GC_DllMain(HINSTANCE inst, ULONG reason, LPVOID reserved)
{
  thread_id_t self_id;

  UNUSED_ARG(inst);
  UNUSED_ARG(reserved);
  /* Note that GC_use_threads_discovery should be called by the     */
  /* client application at start-up to activate automatic thread    */
  /* registration (it is the default GC behavior);                  */
  /* to always have automatic thread registration turned on, the GC */
  /* should be compiled with -D GC_DISCOVER_TASK_THREADS.           */
  if (!GC_win32_dll_threads && GC_is_initialized)
    return TRUE;

  switch (reason) {
  case DLL_THREAD_ATTACH:
    /* This is invoked for threads other than main one.     */
#    ifdef PARALLEL_MARK
    /* Don't register marker threads. */
    if (GC_parallel) {
      /* We could reach here only if GC is not initialized.       */
      /* Because GC_thr_init() sets GC_parallel to off.           */
      break;
    }
#    endif
    /* FALLTHRU */
  case DLL_PROCESS_ATTACH:
    /* This may run with the collector uninitialized. */
    self_id = GetCurrentThreadId();
    if (GC_is_initialized && GC_main_thread_id != self_id) {
      struct GC_stack_base sb;
      /* Don't lock here. */
#    ifdef GC_ASSERTIONS
      int sb_result =
#    endif
          GC_get_stack_base(&sb);
      GC_ASSERT(sb_result == GC_SUCCESS);
      GC_register_my_thread_inner(&sb, self_id);
    } else {
      /* We already did it during GC_thr_init, called by GC_init.   */
    }
    break;

  case DLL_THREAD_DETACH:
    /* We are hopefully running in the context of the exiting thread. */
    if (GC_win32_dll_threads) {
      GC_thread t = GC_win32_dll_lookup_thread(GetCurrentThreadId());

      if (EXPECT(t != NULL, TRUE))
        GC_delete_thread(t);
    }
    break;

  case DLL_PROCESS_DETACH:
    if (GC_win32_dll_threads) {
      int i;
      int my_max = (int)GC_get_max_thread_index();

      for (i = 0; i <= my_max; ++i) {
        if (AO_load(&dll_thread_table[i].tm.in_use))
          GC_delete_thread((GC_thread)&dll_thread_table[i]);
      }
      GC_deinit();
    }
    break;
  }
  return TRUE;
}
#  endif /* !GC_NO_THREADS_DISCOVERY */

#  ifndef GC_NO_THREAD_REDIRECTS
/* Restore thread calls redirection.        */
#    define CreateThread GC_CreateThread
#    define ExitThread GC_ExitThread
#    undef _beginthreadex
#    define _beginthreadex GC_beginthreadex
#    undef _endthreadex
#    define _endthreadex GC_endthreadex
#  endif /* !GC_NO_THREAD_REDIRECTS */

#endif /* GC_WIN32_THREADS */