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/*
 * tclWinThread.c --
 *
 *	This file implements the Windows-specific thread operations.
 *
 * Copyright (c) 1998 by Sun Microsystems, Inc.
 * Copyright (c) 1999 by Scriptics Corporation
 * Copyright (c) 2008 by George Peter Staplin
 *
 * See the file "license.terms" for information on usage and redistribution of
 * this file, and for a DISCLAIMER OF ALL WARRANTIES.
 */

#include "tclWinInt.h"

#include <float.h>

/* Workaround for mingw versions which don't provide this in float.h */
#ifndef _MCW_EM
#   define	_MCW_EM		0x0008001F	/* Error masks */
#   define	_MCW_RC		0x00000300	/* Rounding */
#   define	_MCW_PC		0x00030000	/* Precision */
_CRTIMP unsigned int __cdecl _controlfp (unsigned int unNew, unsigned int unMask);
#endif

/*
 * This is the master lock used to serialize access to other serialization
 * data structures.
 */

static CRITICAL_SECTION masterLock;
static int init = 0;
#define MASTER_LOCK TclpMasterLock()
#define MASTER_UNLOCK TclpMasterUnlock()


/*
 * This is the master lock used to serialize initialization and finalization
 * of Tcl as a whole.
 */

static CRITICAL_SECTION initLock;

/*
 * allocLock is used by Tcl's version of malloc for synchronization. For
 * obvious reasons, cannot use any dyamically allocated storage.
 */

#ifdef TCL_THREADS

static struct Tcl_Mutex_ {
    CRITICAL_SECTION crit;
} allocLock;
static Tcl_Mutex allocLockPtr = &allocLock;
static int allocOnce = 0;

#endif /* TCL_THREADS */

/*
 * The joinLock serializes Create- and ExitThread. This is necessary to
 * prevent a race where a new joinable thread exits before the creating thread
 * had the time to create the necessary data structures in the emulation
 * layer.
 */

static CRITICAL_SECTION joinLock;

/*
 * Condition variables are implemented with a combination of a per-thread
 * Windows Event and a per-condition waiting queue. The idea is that each
 * thread has its own Event that it waits on when it is doing a ConditionWait;
 * it uses the same event for all condition variables because it only waits on
 * one at a time. Each condition variable has a queue of waiting threads, and
 * a mutex used to serialize access to this queue.
 *
 * Special thanks to David Nichols and Jim Davidson for advice on the
 * Condition Variable implementation.
 */

/*
 * The per-thread event and queue pointers.
 */

#ifdef TCL_THREADS

typedef struct ThreadSpecificData {
    HANDLE condEvent;			/* Per-thread condition event */
    struct ThreadSpecificData *nextPtr;	/* Queue pointers */
    struct ThreadSpecificData *prevPtr;
    int flags;				/* See flags below */
} ThreadSpecificData;
static Tcl_ThreadDataKey dataKey;

#endif /* TCL_THREADS */

/*
 * State bits for the thread.
 * WIN_THREAD_UNINIT		Uninitialized. Must be zero because of the way
 *				ThreadSpecificData is created.
 * WIN_THREAD_RUNNING		Running, not waiting.
 * WIN_THREAD_BLOCKED		Waiting, or trying to wait.
 */

#define WIN_THREAD_UNINIT	0x0
#define WIN_THREAD_RUNNING	0x1
#define WIN_THREAD_BLOCKED	0x2

/*
 * The per condition queue pointers and the Mutex used to serialize access to
 * the queue.
 */

typedef struct WinCondition {
    CRITICAL_SECTION condLock;	/* Lock to serialize queuing on the
				 * condition. */
    struct ThreadSpecificData *firstPtr;	/* Queue pointers */
    struct ThreadSpecificData *lastPtr;
} WinCondition;

/*
 * Additions by AOL for specialized thread memory allocator.
 */

#ifdef USE_THREAD_ALLOC
static int once;
static DWORD tlsKey;

typedef struct allocMutex {
    Tcl_Mutex	     tlock;
    CRITICAL_SECTION wlock;
} allocMutex;
#endif /* USE_THREAD_ALLOC */

/*
 * The per thread data passed from TclpThreadCreate
 * to TclWinThreadStart.
 */

typedef struct WinThread {
  LPTHREAD_START_ROUTINE lpStartAddress; /* Original startup routine */
  LPVOID lpParameter;		/* Original startup data */
  unsigned int fpControl;	/* Floating point control word from the
				 * main thread */
} WinThread;


/*
 *----------------------------------------------------------------------
 *
 * TclWinThreadStart --
 *
 *	This procedure is the entry point for all new threads created
 *	by Tcl on Windows.
 *
 * Results:
 *	Various, depending on the result of the wrapped thread start
 *	routine.
 *
 * Side effects:
 *	Arbitrary, since user code is executed.
 *
 *----------------------------------------------------------------------
 */

static DWORD WINAPI
TclWinThreadStart(
    LPVOID lpParameter)		/* The WinThread structure pointer passed
				 * from TclpThreadCreate */
{
    WinThread *winThreadPtr = (WinThread *) lpParameter;
    LPTHREAD_START_ROUTINE lpOrigStartAddress;
    LPVOID lpOrigParameter;

    if (!winThreadPtr) {
	return TCL_ERROR;
    }

    _controlfp(winThreadPtr->fpControl, _MCW_EM | _MCW_RC | 0x03000000 /* _MCW_DN */
#if !defined(_WIN64)
	    | _MCW_PC
#endif
    );

    lpOrigStartAddress = winThreadPtr->lpStartAddress;
    lpOrigParameter = winThreadPtr->lpParameter;

    ckfree((char *)winThreadPtr);
    return lpOrigStartAddress(lpOrigParameter);
}

/*
 *----------------------------------------------------------------------
 *
 * TclpThreadCreate --
 *
 *	This procedure creates a new thread.
 *
 * Results:
 *	TCL_OK if the thread could be created. The thread ID is returned in a
 *	parameter.
 *
 * Side effects:
 *	A new thread is created.
 *
 *----------------------------------------------------------------------
 */

int
TclpThreadCreate(
    Tcl_ThreadId *idPtr,	/* Return, the ID of the thread. */
    Tcl_ThreadCreateProc *proc,	/* Main() function of the thread. */
    ClientData clientData,	/* The one argument to Main(). */
    int stackSize,		/* Size of stack for the new thread. */
    int flags)			/* Flags controlling behaviour of the new
				 * thread. */
{
    WinThread *winThreadPtr;		/* Per-thread startup info */
    HANDLE tHandle;

    winThreadPtr = (WinThread *)ckalloc(sizeof(WinThread));
    winThreadPtr->lpStartAddress = (LPTHREAD_START_ROUTINE) proc;
    winThreadPtr->lpParameter = clientData;
    winThreadPtr->fpControl = _controlfp(0, 0);

    EnterCriticalSection(&joinLock);

    *idPtr = 0; /* must initialize as Tcl_Thread is a pointer and
                 * on WIN64 sizeof void* != sizeof unsigned
		 */

#if defined(_MSC_VER) || defined(__MSVCRT__) || defined(__BORLANDC__)
    tHandle = (HANDLE) _beginthreadex(NULL, (unsigned) stackSize,
	    (Tcl_ThreadCreateProc*) TclWinThreadStart, winThreadPtr,
	    0, (unsigned *)idPtr);
#else
    tHandle = CreateThread(NULL, (DWORD) stackSize,
	    TclWinThreadStart, winThreadPtr, 0, (LPDWORD)idPtr);
#endif

    if (tHandle == NULL) {
	LeaveCriticalSection(&joinLock);
	return TCL_ERROR;
    } else {
	if (flags & TCL_THREAD_JOINABLE) {
	    TclRememberJoinableThread(*idPtr);
	}

	/*
	 * The only purpose of this is to decrement the reference count so the
	 * OS resources will be reaquired when the thread closes.
	 */

	CloseHandle(tHandle);
	LeaveCriticalSection(&joinLock);
	return TCL_OK;
    }
}

/*
 *----------------------------------------------------------------------
 *
 * Tcl_JoinThread --
 *
 *	This procedure waits upon the exit of the specified thread.
 *
 * Results:
 *	TCL_OK if the wait was successful, TCL_ERROR else.
 *
 * Side effects:
 *	The result area is set to the exit code of the thread we
 *	waited upon.
 *
 *----------------------------------------------------------------------
 */

int
Tcl_JoinThread(
    Tcl_ThreadId threadId,	/* Id of the thread to wait upon */
    int *result)		/* Reference to the storage the result of the
				 * thread we wait upon will be written into. */
{
    return TclJoinThread(threadId, result);
}

/*
 *----------------------------------------------------------------------
 *
 * TclpThreadExit --
 *
 *	This procedure terminates the current thread.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	This procedure terminates the current thread.
 *
 *----------------------------------------------------------------------
 */

void
TclpThreadExit(
    int status)
{
    EnterCriticalSection(&joinLock);
    TclSignalExitThread(Tcl_GetCurrentThread(), status);
    LeaveCriticalSection(&joinLock);

#if defined(_MSC_VER) || defined(__MSVCRT__) || defined(__BORLANDC__)
    _endthreadex((unsigned) status);
#else
    ExitThread((DWORD) status);
#endif
}

/*
 *----------------------------------------------------------------------
 *
 * Tcl_GetCurrentThread --
 *
 *	This procedure returns the ID of the currently running thread.
 *
 * Results:
 *	A thread ID.
 *
 * Side effects:
 *	None.
 *
 *----------------------------------------------------------------------
 */

Tcl_ThreadId
Tcl_GetCurrentThread(void)
{
    return (Tcl_ThreadId)(size_t)GetCurrentThreadId();
}

/*
 *----------------------------------------------------------------------
 *
 * TclpInitLock
 *
 *	This procedure is used to grab a lock that serializes initialization
 *	and finalization of Tcl. On some platforms this may also initialize
 *	the mutex used to serialize creation of more mutexes and thread local
 *	storage keys.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	Acquire the initialization mutex.
 *
 *----------------------------------------------------------------------
 */

void
TclpInitLock(void)
{
    if (!init) {
	/*
	 * There is a fundamental race here that is solved by creating the
	 * first Tcl interpreter in a single threaded environment. Once the
	 * interpreter has been created, it is safe to create more threads
	 * that create interpreters in parallel.
	 */

	init = 1;
	InitializeCriticalSection(&joinLock);
	InitializeCriticalSection(&initLock);
	InitializeCriticalSection(&masterLock);
    }
    EnterCriticalSection(&initLock);
}

/*
 *----------------------------------------------------------------------
 *
 * TclpInitUnlock
 *
 *	This procedure is used to release a lock that serializes
 *	initialization and finalization of Tcl.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	Release the initialization mutex.
 *
 *----------------------------------------------------------------------
 */

void
TclpInitUnlock(void)
{
    LeaveCriticalSection(&initLock);
}

/*
 *----------------------------------------------------------------------
 *
 * TclpMasterLock
 *
 *	This procedure is used to grab a lock that serializes creation of
 *	mutexes, condition variables, and thread local storage keys.
 *
 *	This lock must be different than the initLock because the initLock is
 *	held during creation of syncronization objects.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	Acquire the master mutex.
 *
 *----------------------------------------------------------------------
 */

void
TclpMasterLock(void)
{
    if (!init) {
	/*
	 * There is a fundamental race here that is solved by creating the
	 * first Tcl interpreter in a single threaded environment. Once the
	 * interpreter has been created, it is safe to create more threads
	 * that create interpreters in parallel.
	 */

	init = 1;
	InitializeCriticalSection(&joinLock);
	InitializeCriticalSection(&initLock);
	InitializeCriticalSection(&masterLock);
    }
    EnterCriticalSection(&masterLock);
}

/*
 *----------------------------------------------------------------------
 *
 * TclpMasterUnlock
 *
 *	This procedure is used to release a lock that serializes creation and
 *	deletion of synchronization objects.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	Release the master mutex.
 *
 *----------------------------------------------------------------------
 */

void
TclpMasterUnlock(void)
{
    LeaveCriticalSection(&masterLock);
}

/*
 *----------------------------------------------------------------------
 *
 * Tcl_GetAllocMutex
 *
 *	This procedure returns a pointer to a statically initialized mutex for
 *	use by the memory allocator. The alloctor must use this lock, because
 *	all other locks are allocated...
 *
 * Results:
 *	A pointer to a mutex that is suitable for passing to Tcl_MutexLock and
 *	Tcl_MutexUnlock.
 *
 * Side effects:
 *	None.
 *
 *----------------------------------------------------------------------
 */

Tcl_Mutex *
Tcl_GetAllocMutex(void)
{
#ifdef TCL_THREADS
    if (!allocOnce) {
	InitializeCriticalSection(&allocLock.crit);
	allocOnce = 1;
    }
    return &allocLockPtr;
#else
    return NULL;
#endif
}

/*
 *----------------------------------------------------------------------
 *
 * TclpFinalizeLock
 *
 *	This procedure is used to destroy all private resources used in this
 *	file.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	Destroys everything private. TclpInitLock must be held entering this
 *	function.
 *
 *----------------------------------------------------------------------
 */

void
TclFinalizeLock(void)
{
    MASTER_LOCK;
    DeleteCriticalSection(&joinLock);

    /*
     * Destroy the critical section that we are holding!
     */

    DeleteCriticalSection(&masterLock);
    init = 0;

#ifdef TCL_THREADS
    if (allocOnce) {
	DeleteCriticalSection(&allocLock.crit);
	allocOnce = 0;
    }
#endif

    LeaveCriticalSection(&initLock);

    /*
     * Destroy the critical section that we were holding.
     */

    DeleteCriticalSection(&initLock);
}

#ifdef TCL_THREADS

/* locally used prototype */
static void		FinalizeConditionEvent(ClientData data);

/*
 *----------------------------------------------------------------------
 *
 * Tcl_MutexLock --
 *
 *	This procedure is invoked to lock a mutex. This is a self initializing
 *	mutex that is automatically finalized during Tcl_Finalize.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	May block the current thread. The mutex is aquired when this returns.
 *
 *----------------------------------------------------------------------
 */

void
Tcl_MutexLock(
    Tcl_Mutex *mutexPtr)	/* The lock */
{
    CRITICAL_SECTION *csPtr;

    if (*mutexPtr == NULL) {
	MASTER_LOCK;

	/*
	 * Double inside master lock check to avoid a race.
	 */

	if (*mutexPtr == NULL) {
	    csPtr = ckalloc(sizeof(CRITICAL_SECTION));
	    InitializeCriticalSection(csPtr);
	    *mutexPtr = (Tcl_Mutex)csPtr;
	    TclRememberMutex(mutexPtr);
	}
	MASTER_UNLOCK;
    }
    csPtr = *((CRITICAL_SECTION **)mutexPtr);
    EnterCriticalSection(csPtr);
}

/*
 *----------------------------------------------------------------------
 *
 * Tcl_MutexUnlock --
 *
 *	This procedure is invoked to unlock a mutex.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	The mutex is released when this returns.
 *
 *----------------------------------------------------------------------
 */

void
Tcl_MutexUnlock(
    Tcl_Mutex *mutexPtr)	/* The lock */
{
    CRITICAL_SECTION *csPtr = *((CRITICAL_SECTION **)mutexPtr);

    LeaveCriticalSection(csPtr);
}

/*
 *----------------------------------------------------------------------
 *
 * TclpFinalizeMutex --
 *
 *	This procedure is invoked to clean up one mutex. This is only safe to
 *	call at the end of time.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	The mutex list is deallocated.
 *
 *----------------------------------------------------------------------
 */

void
TclpFinalizeMutex(
    Tcl_Mutex *mutexPtr)
{
    CRITICAL_SECTION *csPtr = *(CRITICAL_SECTION **)mutexPtr;

    if (csPtr != NULL) {
	DeleteCriticalSection(csPtr);
	ckfree(csPtr);
	*mutexPtr = NULL;
    }
}

/*
 *----------------------------------------------------------------------
 *
 * Tcl_ConditionWait --
 *
 *	This procedure is invoked to wait on a condition variable. The mutex
 *	is atomically released as part of the wait, and automatically grabbed
 *	when the condition is signaled.
 *
 *	The mutex must be held when this procedure is called.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	May block the current thread. The mutex is aquired when this returns.
 *	Will allocate memory for a HANDLE and initialize this the first time
 *	this Tcl_Condition is used.
 *
 *----------------------------------------------------------------------
 */

void
Tcl_ConditionWait(
    Tcl_Condition *condPtr,	/* Really (WinCondition **) */
    Tcl_Mutex *mutexPtr,	/* Really (CRITICAL_SECTION **) */
    const Tcl_Time *timePtr) /* Timeout on waiting period */
{
    WinCondition *winCondPtr;	/* Per-condition queue head */
    CRITICAL_SECTION *csPtr;	/* Caller's Mutex, after casting */
    DWORD wtime;		/* Windows time value */
    int timeout;		/* True if we got a timeout */
    int doExit = 0;		/* True if we need to do exit setup */
    ThreadSpecificData *tsdPtr = TCL_TSD_INIT(&dataKey);

    /*
     * Self initialize the two parts of the condition. The per-condition and
     * per-thread parts need to be handled independently.
     */

    if (tsdPtr->flags == WIN_THREAD_UNINIT) {
	MASTER_LOCK;

	/*
	 * Create the per-thread event and queue pointers.
	 */

	if (tsdPtr->flags == WIN_THREAD_UNINIT) {
	    tsdPtr->condEvent = CreateEvent(NULL, TRUE /* manual reset */,
		    FALSE /* non signaled */, NULL);
	    tsdPtr->nextPtr = NULL;
	    tsdPtr->prevPtr = NULL;
	    tsdPtr->flags = WIN_THREAD_RUNNING;
	    doExit = 1;
	}
	MASTER_UNLOCK;

	if (doExit) {
	    /*
	     * Create a per-thread exit handler to clean up the condEvent. We
	     * must be careful to do this outside the Master Lock because
	     * Tcl_CreateThreadExitHandler uses its own ThreadSpecificData,
	     * and initializing that may drop back into the Master Lock.
	     */

	    Tcl_CreateThreadExitHandler(FinalizeConditionEvent, tsdPtr);
	}
    }

    if (*condPtr == NULL) {
	MASTER_LOCK;

	/*
	 * Initialize the per-condition queue pointers and Mutex.
	 */

	if (*condPtr == NULL) {
	    winCondPtr = ckalloc(sizeof(WinCondition));
	    InitializeCriticalSection(&winCondPtr->condLock);
	    winCondPtr->firstPtr = NULL;
	    winCondPtr->lastPtr = NULL;
	    *condPtr = (Tcl_Condition) winCondPtr;
	    TclRememberCondition(condPtr);
	}
	MASTER_UNLOCK;
    }
    csPtr = *((CRITICAL_SECTION **)mutexPtr);
    winCondPtr = *((WinCondition **)condPtr);
    if (timePtr == NULL) {
	wtime = INFINITE;
    } else {
	wtime = timePtr->sec * 1000 + timePtr->usec / 1000;
    }

    /*
     * Queue the thread on the condition, using the per-condition lock for
     * serialization.
     */

    tsdPtr->flags = WIN_THREAD_BLOCKED;
    tsdPtr->nextPtr = NULL;
    EnterCriticalSection(&winCondPtr->condLock);
    tsdPtr->prevPtr = winCondPtr->lastPtr;		/* A: */
    winCondPtr->lastPtr = tsdPtr;
    if (tsdPtr->prevPtr != NULL) {
	tsdPtr->prevPtr->nextPtr = tsdPtr;
    }
    if (winCondPtr->firstPtr == NULL) {
	winCondPtr->firstPtr = tsdPtr;
    }

    /*
     * Unlock the caller's mutex and wait for the condition, or a timeout.
     * There is a minor issue here in that we don't count down the timeout if
     * we get notified, but another thread grabs the condition before we do.
     * In that race condition we'll wait again for the full timeout. Timed
     * waits are dubious anyway. Either you have the locking protocol wrong
     * and are masking a deadlock, or you are using conditions to pause your
     * thread.
     */

    LeaveCriticalSection(csPtr);
    timeout = 0;
    while (!timeout && (tsdPtr->flags & WIN_THREAD_BLOCKED)) {
	ResetEvent(tsdPtr->condEvent);
	LeaveCriticalSection(&winCondPtr->condLock);
	if (WaitForSingleObjectEx(tsdPtr->condEvent, wtime,
		TRUE) == WAIT_TIMEOUT) {
	    timeout = 1;
	}
	EnterCriticalSection(&winCondPtr->condLock);
    }

    /*
     * Be careful on timeouts because the signal might arrive right around the
     * time limit and someone else could have taken us off the queue.
     */

    if (timeout) {
	if (tsdPtr->flags & WIN_THREAD_RUNNING) {
	    timeout = 0;
	} else {
	    /*
	     * When dequeuing, we can leave the tsdPtr->nextPtr and
	     * tsdPtr->prevPtr with dangling pointers because they are
	     * reinitialilzed w/out reading them when the thread is enqueued
	     * later.
	     */

	    if (winCondPtr->firstPtr == tsdPtr) {
		winCondPtr->firstPtr = tsdPtr->nextPtr;
	    } else {
		tsdPtr->prevPtr->nextPtr = tsdPtr->nextPtr;
	    }
	    if (winCondPtr->lastPtr == tsdPtr) {
		winCondPtr->lastPtr = tsdPtr->prevPtr;
	    } else {
		tsdPtr->nextPtr->prevPtr = tsdPtr->prevPtr;
	    }
	    tsdPtr->flags = WIN_THREAD_RUNNING;
	}
    }

    LeaveCriticalSection(&winCondPtr->condLock);
    EnterCriticalSection(csPtr);
}

/*
 *----------------------------------------------------------------------
 *
 * Tcl_ConditionNotify --
 *
 *	This procedure is invoked to signal a condition variable.
 *
 *	The mutex must be held during this call to avoid races, but this
 *	interface does not enforce that.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	May unblock another thread.
 *
 *----------------------------------------------------------------------
 */

void
Tcl_ConditionNotify(
    Tcl_Condition *condPtr)
{
    WinCondition *winCondPtr;
    ThreadSpecificData *tsdPtr;

    if (*condPtr != NULL) {
	winCondPtr = *((WinCondition **)condPtr);

	if (winCondPtr == NULL) {
	    return;
	}

	/*
	 * Loop through all the threads waiting on the condition and notify
	 * them (i.e., broadcast semantics). The queue manipulation is guarded
	 * by the per-condition coordinating mutex.
	 */

	EnterCriticalSection(&winCondPtr->condLock);
	while (winCondPtr->firstPtr != NULL) {
	    tsdPtr = winCondPtr->firstPtr;
	    winCondPtr->firstPtr = tsdPtr->nextPtr;
	    if (winCondPtr->lastPtr == tsdPtr) {
		winCondPtr->lastPtr = NULL;
	    }
	    tsdPtr->flags = WIN_THREAD_RUNNING;
	    tsdPtr->nextPtr = NULL;
	    tsdPtr->prevPtr = NULL;	/* Not strictly necessary, see A: */
	    SetEvent(tsdPtr->condEvent);
	}
	LeaveCriticalSection(&winCondPtr->condLock);
    } else {
	/*
	 * No-one has used the condition variable, so there are no waiters.
	 */
    }
}

/*
 *----------------------------------------------------------------------
 *
 * FinalizeConditionEvent --
 *
 *	This procedure is invoked to clean up the per-thread event used to
 *	implement condition waiting. This is only safe to call at the end of
 *	time.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	The per-thread event is closed.
 *
 *----------------------------------------------------------------------
 */

static void
FinalizeConditionEvent(
    ClientData data)
{
    ThreadSpecificData *tsdPtr = (ThreadSpecificData *) data;

    tsdPtr->flags = WIN_THREAD_UNINIT;
    CloseHandle(tsdPtr->condEvent);
}

/*
 *----------------------------------------------------------------------
 *
 * TclpFinalizeCondition --
 *
 *	This procedure is invoked to clean up a condition variable. This is
 *	only safe to call at the end of time.
 *
 *	This assumes the Master Lock is held.
 *
 * Results:
 *	None.
 *
 * Side effects:
 *	The condition variable is deallocated.
 *
 *----------------------------------------------------------------------
 */

void
TclpFinalizeCondition(
    Tcl_Condition *condPtr)
{
    WinCondition *winCondPtr = *(WinCondition **)condPtr;

    /*
     * Note - this is called long after the thread-local storage is reclaimed.
     * The per-thread condition waiting event is reclaimed earlier in a
     * per-thread exit handler, which is called before thread local storage is
     * reclaimed.
     */

    if (winCondPtr != NULL) {
	DeleteCriticalSection(&winCondPtr->condLock);
	ckfree(winCondPtr);
	*condPtr = NULL;
    }
}




/*
 * Additions by AOL for specialized thread memory allocator.
 */
#ifdef USE_THREAD_ALLOC

Tcl_Mutex *
TclpNewAllocMutex(void)
{
    struct allocMutex *lockPtr;

    lockPtr = malloc(sizeof(struct allocMutex));
    if (lockPtr == NULL) {
	Tcl_Panic("could not allocate lock");
    }
    lockPtr->tlock = (Tcl_Mutex) &lockPtr->wlock;
    InitializeCriticalSection(&lockPtr->wlock);
    return &lockPtr->tlock;
}

void
TclpFreeAllocMutex(
    Tcl_Mutex *mutex)		/* The alloc mutex to free. */
{
    allocMutex *lockPtr = (allocMutex *) mutex;

    if (!lockPtr) {
	return;
    }
    DeleteCriticalSection(&lockPtr->wlock);
    free(lockPtr);
}

void *
TclpGetAllocCache(void)
{
    void *result;

    if (!once) {
	/*
	 * We need to make sure that TclpFreeAllocCache is called on each
	 * thread that calls this, but only on threads that call this.
	 */

	tlsKey = TlsAlloc();
	once = 1;
	if (tlsKey == TLS_OUT_OF_INDEXES) {
	    Tcl_Panic("could not allocate thread local storage");
	}
    }

    result = TlsGetValue(tlsKey);
    if ((result == NULL) && (GetLastError() != NO_ERROR)) {
	Tcl_Panic("TlsGetValue failed from TclpGetAllocCache");
    }
    return result;
}

void
TclpSetAllocCache(
    void *ptr)
{
    BOOL success;
    success = TlsSetValue(tlsKey, ptr);
    if (!success) {
	Tcl_Panic("TlsSetValue failed from TclpSetAllocCache");
    }
}

void
TclpFreeAllocCache(
    void *ptr)
{
    BOOL success;

    if (ptr != NULL) {
	/*
	 * Called by TclFinalizeThreadAlloc() and
	 * TclFinalizeThreadAllocThread() during Tcl_Finalize() or
	 * Tcl_FinalizeThread(). This function destroys the tsd key which
	 * stores allocator caches in thread local storage.
	 */

	TclFreeAllocCache(ptr);
	success = TlsSetValue(tlsKey, NULL);
	if (!success) {
	    Tcl_Panic("TlsSetValue failed from TclpFreeAllocCache");
	}
    } else if (once) {
	/*
	 * Called by us in TclFinalizeThreadAlloc() during the library
	 * finalization initiated from Tcl_Finalize()
	 */

	success = TlsFree(tlsKey);
	if (!success) {
	    Tcl_Panic("TlsFree failed from TclpFreeAllocCache");
	}
	once = 0; /* reset for next time. */
    }

}
#endif /* USE_THREAD_ALLOC */


void *
TclpThreadCreateKey(void)
{
    DWORD *key;

    key = TclpSysAlloc(sizeof *key, 0);
    if (key == NULL) {
	Tcl_Panic("unable to allocate thread key!");
    }

    *key = TlsAlloc();

    if (*key == TLS_OUT_OF_INDEXES) {
	Tcl_Panic("unable to allocate thread-local storage");
    }

    return key;
}

void
TclpThreadDeleteKey(
    void *keyPtr)
{
    DWORD *key = keyPtr;

    if (!TlsFree(*key)) {
	Tcl_Panic("unable to delete key");
    }

    TclpSysFree(keyPtr);
}

void
TclpThreadSetMasterTSD(
    void *tsdKeyPtr,
    void *ptr)
{
    DWORD *key = tsdKeyPtr;

    if (!TlsSetValue(*key, ptr)) {
	Tcl_Panic("unable to set master TSD value");
    }
}

void *
TclpThreadGetMasterTSD(
    void *tsdKeyPtr)
{
    DWORD *key = tsdKeyPtr;

    return TlsGetValue(*key);
}

#endif /* TCL_THREADS */

/*
 * Local Variables:
 * mode: c
 * c-basic-offset: 4
 * fill-column: 78
 * End:
 */