Sweden-Number/dlls/msvcrt/lock.c

1467 lines
41 KiB
C
Raw Normal View History

/*
* Copyright (c) 2002, TransGaming Technologies Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "config.h"
#include "wine/port.h"
#include <stdarg.h>
#include "wine/debug.h"
#include "windef.h"
#include "winbase.h"
#include "winternl.h"
#include "wine/heap.h"
#include "msvcrt.h"
#include "cppexcept.h"
#include "mtdll.h"
#include "cxx.h"
WINE_DEFAULT_DEBUG_CHANNEL(msvcrt);
typedef struct
{
2002-06-01 01:06:46 +02:00
BOOL bInit;
CRITICAL_SECTION crit;
} LOCKTABLEENTRY;
static LOCKTABLEENTRY lock_table[ _TOTAL_LOCKS ];
static inline void msvcrt_mlock_set_entry_initialized( int locknum, BOOL initialized )
{
lock_table[ locknum ].bInit = initialized;
}
static inline void msvcrt_initialize_mlock( int locknum )
{
InitializeCriticalSection( &(lock_table[ locknum ].crit) );
lock_table[ locknum ].crit.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": LOCKTABLEENTRY.crit");
2002-06-01 01:06:46 +02:00
msvcrt_mlock_set_entry_initialized( locknum, TRUE );
}
static inline void msvcrt_uninitialize_mlock( int locknum )
{
lock_table[ locknum ].crit.DebugInfo->Spare[0] = 0;
DeleteCriticalSection( &(lock_table[ locknum ].crit) );
msvcrt_mlock_set_entry_initialized( locknum, FALSE );
}
/**********************************************************************
* msvcrt_init_mt_locks (internal)
*
2002-06-01 01:06:46 +02:00
* Initialize the table lock. All other locks will be initialized
* upon first use.
*
*/
void msvcrt_init_mt_locks(void)
{
int i;
TRACE( "initializing mtlocks\n" );
/* Initialize the table */
for( i=0; i < _TOTAL_LOCKS; i++ )
{
msvcrt_mlock_set_entry_initialized( i, FALSE );
}
/* Initialize our lock table lock */
2002-06-01 01:06:46 +02:00
msvcrt_initialize_mlock( _LOCKTAB_LOCK );
}
/**********************************************************************
* _lock (MSVCRT.@)
*/
void CDECL _lock( int locknum )
{
TRACE( "(%d)\n", locknum );
/* If the lock doesn't exist yet, create it */
if( lock_table[ locknum ].bInit == FALSE )
{
/* Lock while we're changing the lock table */
_lock( _LOCKTAB_LOCK );
/* Check again if we've got a bit of a race on lock creation */
if( lock_table[ locknum ].bInit == FALSE )
{
TRACE( ": creating lock #%d\n", locknum );
msvcrt_initialize_mlock( locknum );
}
/* Unlock ourselves */
_unlock( _LOCKTAB_LOCK );
}
2002-06-01 01:06:46 +02:00
EnterCriticalSection( &(lock_table[ locknum ].crit) );
}
/**********************************************************************
* _unlock (MSVCRT.@)
*
* NOTE: There is no error detection to make sure the lock exists and is acquired.
*/
void CDECL _unlock( int locknum )
{
TRACE( "(%d)\n", locknum );
LeaveCriticalSection( &(lock_table[ locknum ].crit) );
}
#if _MSVCR_VER >= 100
typedef enum
{
SPINWAIT_INIT,
SPINWAIT_SPIN,
SPINWAIT_YIELD,
SPINWAIT_DONE
} SpinWait_state;
typedef void (__cdecl *yield_func)(void);
typedef struct
{
ULONG spin;
ULONG unknown;
SpinWait_state state;
yield_func yield_func;
} SpinWait;
/* ?_Value@_SpinCount@details@Concurrency@@SAIXZ */
unsigned int __cdecl SpinCount__Value(void)
{
static unsigned int val = -1;
TRACE("()\n");
if(val == -1) {
SYSTEM_INFO si;
GetSystemInfo(&si);
val = si.dwNumberOfProcessors>1 ? 4000 : 0;
}
return val;
}
/* ??0?$_SpinWait@$00@details@Concurrency@@QAE@P6AXXZ@Z */
/* ??0?$_SpinWait@$00@details@Concurrency@@QEAA@P6AXXZ@Z */
DEFINE_THISCALL_WRAPPER(SpinWait_ctor_yield, 8)
SpinWait* __thiscall SpinWait_ctor_yield(SpinWait *this, yield_func yf)
{
TRACE("(%p %p)\n", this, yf);
this->state = SPINWAIT_INIT;
this->unknown = 1;
this->yield_func = yf;
return this;
}
/* ??0?$_SpinWait@$0A@@details@Concurrency@@QAE@P6AXXZ@Z */
/* ??0?$_SpinWait@$0A@@details@Concurrency@@QEAA@P6AXXZ@Z */
DEFINE_THISCALL_WRAPPER(SpinWait_ctor, 8)
SpinWait* __thiscall SpinWait_ctor(SpinWait *this, yield_func yf)
{
TRACE("(%p %p)\n", this, yf);
this->state = SPINWAIT_INIT;
this->unknown = 0;
this->yield_func = yf;
return this;
}
/* ??_F?$_SpinWait@$00@details@Concurrency@@QAEXXZ */
/* ??_F?$_SpinWait@$00@details@Concurrency@@QEAAXXZ */
/* ??_F?$_SpinWait@$0A@@details@Concurrency@@QAEXXZ */
/* ??_F?$_SpinWait@$0A@@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(SpinWait_dtor, 4)
void __thiscall SpinWait_dtor(SpinWait *this)
{
TRACE("(%p)\n", this);
}
/* ?_DoYield@?$_SpinWait@$00@details@Concurrency@@IAEXXZ */
/* ?_DoYield@?$_SpinWait@$00@details@Concurrency@@IEAAXXZ */
/* ?_DoYield@?$_SpinWait@$0A@@details@Concurrency@@IAEXXZ */
/* ?_DoYield@?$_SpinWait@$0A@@details@Concurrency@@IEAAXXZ */
DEFINE_THISCALL_WRAPPER(SpinWait__DoYield, 4)
void __thiscall SpinWait__DoYield(SpinWait *this)
{
TRACE("(%p)\n", this);
if(this->unknown)
this->yield_func();
}
/* ?_NumberOfSpins@?$_SpinWait@$00@details@Concurrency@@IAEKXZ */
/* ?_NumberOfSpins@?$_SpinWait@$00@details@Concurrency@@IEAAKXZ */
/* ?_NumberOfSpins@?$_SpinWait@$0A@@details@Concurrency@@IAEKXZ */
/* ?_NumberOfSpins@?$_SpinWait@$0A@@details@Concurrency@@IEAAKXZ */
DEFINE_THISCALL_WRAPPER(SpinWait__NumberOfSpins, 4)
ULONG __thiscall SpinWait__NumberOfSpins(SpinWait *this)
{
TRACE("(%p)\n", this);
return 1;
}
/* ?_SetSpinCount@?$_SpinWait@$00@details@Concurrency@@QAEXI@Z */
/* ?_SetSpinCount@?$_SpinWait@$00@details@Concurrency@@QEAAXI@Z */
/* ?_SetSpinCount@?$_SpinWait@$0A@@details@Concurrency@@QAEXI@Z */
/* ?_SetSpinCount@?$_SpinWait@$0A@@details@Concurrency@@QEAAXI@Z */
DEFINE_THISCALL_WRAPPER(SpinWait__SetSpinCount, 8)
void __thiscall SpinWait__SetSpinCount(SpinWait *this, unsigned int spin)
{
TRACE("(%p %d)\n", this, spin);
this->spin = spin;
this->state = spin ? SPINWAIT_SPIN : SPINWAIT_YIELD;
}
/* ?_Reset@?$_SpinWait@$00@details@Concurrency@@IAEXXZ */
/* ?_Reset@?$_SpinWait@$00@details@Concurrency@@IEAAXXZ */
/* ?_Reset@?$_SpinWait@$0A@@details@Concurrency@@IAEXXZ */
/* ?_Reset@?$_SpinWait@$0A@@details@Concurrency@@IEAAXXZ */
DEFINE_THISCALL_WRAPPER(SpinWait__Reset, 4)
void __thiscall SpinWait__Reset(SpinWait *this)
{
SpinWait__SetSpinCount(this, SpinCount__Value());
}
/* ?_ShouldSpinAgain@?$_SpinWait@$00@details@Concurrency@@IAE_NXZ */
/* ?_ShouldSpinAgain@?$_SpinWait@$00@details@Concurrency@@IEAA_NXZ */
/* ?_ShouldSpinAgain@?$_SpinWait@$0A@@details@Concurrency@@IAE_NXZ */
/* ?_ShouldSpinAgain@?$_SpinWait@$0A@@details@Concurrency@@IEAA_NXZ */
DEFINE_THISCALL_WRAPPER(SpinWait__ShouldSpinAgain, 4)
MSVCRT_bool __thiscall SpinWait__ShouldSpinAgain(SpinWait *this)
{
TRACE("(%p)\n", this);
this->spin--;
return this->spin > 0;
}
/* ?_SpinOnce@?$_SpinWait@$00@details@Concurrency@@QAE_NXZ */
/* ?_SpinOnce@?$_SpinWait@$00@details@Concurrency@@QEAA_NXZ */
/* ?_SpinOnce@?$_SpinWait@$0A@@details@Concurrency@@QAE_NXZ */
/* ?_SpinOnce@?$_SpinWait@$0A@@details@Concurrency@@QEAA_NXZ */
DEFINE_THISCALL_WRAPPER(SpinWait__SpinOnce, 4)
MSVCRT_bool __thiscall SpinWait__SpinOnce(SpinWait *this)
{
switch(this->state) {
case SPINWAIT_INIT:
SpinWait__Reset(this);
/* fall through */
case SPINWAIT_SPIN:
InterlockedDecrement((LONG*)&this->spin);
if(!this->spin)
this->state = this->unknown ? SPINWAIT_YIELD : SPINWAIT_DONE;
return TRUE;
case SPINWAIT_YIELD:
this->state = SPINWAIT_DONE;
this->yield_func();
return TRUE;
default:
SpinWait__Reset(this);
return FALSE;
}
}
static HANDLE keyed_event;
/* keep in sync with msvcp90/msvcp90.h */
typedef struct cs_queue
{
struct cs_queue *next;
#if _MSVCR_VER >= 110
BOOL free;
int unknown;
#endif
} cs_queue;
typedef struct
{
ULONG_PTR unk_thread_id;
cs_queue unk_active;
#if _MSVCR_VER >= 110
void *unknown[2];
#else
void *unknown[1];
#endif
cs_queue *head;
void *tail;
} critical_section;
/* ??0critical_section@Concurrency@@QAE@XZ */
/* ??0critical_section@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(critical_section_ctor, 4)
critical_section* __thiscall critical_section_ctor(critical_section *this)
{
TRACE("(%p)\n", this);
if(!keyed_event) {
HANDLE event;
NtCreateKeyedEvent(&event, GENERIC_READ|GENERIC_WRITE, NULL, 0);
if(InterlockedCompareExchangePointer(&keyed_event, event, NULL) != NULL)
NtClose(event);
}
this->unk_thread_id = 0;
this->head = this->tail = NULL;
return this;
}
/* ??1critical_section@Concurrency@@QAE@XZ */
/* ??1critical_section@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(critical_section_dtor, 4)
void __thiscall critical_section_dtor(critical_section *this)
{
TRACE("(%p)\n", this);
}
static void __cdecl spin_wait_yield(void)
{
Sleep(0);
}
static inline void spin_wait_for_next_cs(cs_queue *q)
{
SpinWait sw;
if(q->next) return;
SpinWait_ctor(&sw, &spin_wait_yield);
SpinWait__Reset(&sw);
while(!q->next)
SpinWait__SpinOnce(&sw);
SpinWait_dtor(&sw);
}
static inline void cs_set_head(critical_section *cs, cs_queue *q)
{
cs->unk_thread_id = GetCurrentThreadId();
cs->unk_active.next = q->next;
cs->head = &cs->unk_active;
}
static inline void cs_lock(critical_section *cs, cs_queue *q)
{
cs_queue *last;
if(cs->unk_thread_id == GetCurrentThreadId())
throw_exception(EXCEPTION_IMPROPER_LOCK, 0, "Already locked");
memset(q, 0, sizeof(*q));
last = InterlockedExchangePointer(&cs->tail, q);
if(last) {
last->next = q;
NtWaitForKeyedEvent(keyed_event, q, 0, NULL);
}
cs_set_head(cs, q);
if(InterlockedCompareExchangePointer(&cs->tail, &cs->unk_active, q) != q) {
spin_wait_for_next_cs(q);
cs->unk_active.next = q->next;
}
}
/* ?lock@critical_section@Concurrency@@QAEXXZ */
/* ?lock@critical_section@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(critical_section_lock, 4)
void __thiscall critical_section_lock(critical_section *this)
{
cs_queue q;
TRACE("(%p)\n", this);
cs_lock(this, &q);
}
/* ?try_lock@critical_section@Concurrency@@QAE_NXZ */
/* ?try_lock@critical_section@Concurrency@@QEAA_NXZ */
DEFINE_THISCALL_WRAPPER(critical_section_try_lock, 4)
MSVCRT_bool __thiscall critical_section_try_lock(critical_section *this)
{
cs_queue q;
TRACE("(%p)\n", this);
if(this->unk_thread_id == GetCurrentThreadId())
return FALSE;
memset(&q, 0, sizeof(q));
if(!InterlockedCompareExchangePointer(&this->tail, &q, NULL)) {
cs_set_head(this, &q);
if(InterlockedCompareExchangePointer(&this->tail, &this->unk_active, &q) != &q) {
spin_wait_for_next_cs(&q);
this->unk_active.next = q.next;
}
return TRUE;
}
return FALSE;
}
/* ?unlock@critical_section@Concurrency@@QAEXXZ */
/* ?unlock@critical_section@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(critical_section_unlock, 4)
void __thiscall critical_section_unlock(critical_section *this)
{
TRACE("(%p)\n", this);
this->unk_thread_id = 0;
this->head = NULL;
if(InterlockedCompareExchangePointer(&this->tail, NULL, &this->unk_active)
== &this->unk_active) return;
spin_wait_for_next_cs(&this->unk_active);
#if _MSVCR_VER >= 110
while(1) {
cs_queue *next;
if(!InterlockedExchange(&this->unk_active.next->free, TRUE))
break;
next = this->unk_active.next;
if(InterlockedCompareExchangePointer(&this->tail, NULL, next) == next) {
HeapFree(GetProcessHeap(), 0, next);
return;
}
spin_wait_for_next_cs(next);
this->unk_active.next = next->next;
HeapFree(GetProcessHeap(), 0, next);
}
#endif
NtReleaseKeyedEvent(keyed_event, this->unk_active.next, 0, NULL);
}
/* ?native_handle@critical_section@Concurrency@@QAEAAV12@XZ */
/* ?native_handle@critical_section@Concurrency@@QEAAAEAV12@XZ */
DEFINE_THISCALL_WRAPPER(critical_section_native_handle, 4)
critical_section* __thiscall critical_section_native_handle(critical_section *this)
{
TRACE("(%p)\n", this);
return this;
}
#if _MSVCR_VER >= 110
/* ?try_lock_for@critical_section@Concurrency@@QAE_NI@Z */
/* ?try_lock_for@critical_section@Concurrency@@QEAA_NI@Z */
DEFINE_THISCALL_WRAPPER(critical_section_try_lock_for, 8)
MSVCRT_bool __thiscall critical_section_try_lock_for(
critical_section *this, unsigned int timeout)
{
cs_queue *q, *last;
TRACE("(%p %d)\n", this, timeout);
if(this->unk_thread_id == GetCurrentThreadId())
throw_exception(EXCEPTION_IMPROPER_LOCK, 0, "Already locked");
if(!(q = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, sizeof(*q))))
return critical_section_try_lock(this);
last = InterlockedExchangePointer(&this->tail, q);
if(last) {
LARGE_INTEGER to;
NTSTATUS status;
FILETIME ft;
last->next = q;
GetSystemTimeAsFileTime(&ft);
to.QuadPart = ((LONGLONG)ft.dwHighDateTime<<32) +
ft.dwLowDateTime + (LONGLONG)timeout*10000;
status = NtWaitForKeyedEvent(keyed_event, q, 0, &to);
if(status == STATUS_TIMEOUT) {
if(!InterlockedExchange(&q->free, TRUE))
return FALSE;
/* A thread has signaled the event and is block waiting. */
/* We need to catch the event to wake the thread. */
NtWaitForKeyedEvent(keyed_event, q, 0, NULL);
}
}
cs_set_head(this, q);
if(InterlockedCompareExchangePointer(&this->tail, &this->unk_active, q) != q) {
spin_wait_for_next_cs(q);
this->unk_active.next = q->next;
}
HeapFree(GetProcessHeap(), 0, q);
return TRUE;
}
#endif
typedef struct
{
critical_section *cs;
union {
cs_queue q;
struct {
void *unknown[4];
int unknown2[2];
} unknown;
} lock;
} critical_section_scoped_lock;
/* ??0scoped_lock@critical_section@Concurrency@@QAE@AAV12@@Z */
/* ??0scoped_lock@critical_section@Concurrency@@QEAA@AEAV12@@Z */
DEFINE_THISCALL_WRAPPER(critical_section_scoped_lock_ctor, 8)
critical_section_scoped_lock* __thiscall critical_section_scoped_lock_ctor(
critical_section_scoped_lock *this, critical_section *cs)
{
TRACE("(%p %p)\n", this, cs);
this->cs = cs;
cs_lock(this->cs, &this->lock.q);
return this;
}
/* ??1scoped_lock@critical_section@Concurrency@@QAE@XZ */
/* ??1scoped_lock@critical_section@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(critical_section_scoped_lock_dtor, 4)
void __thiscall critical_section_scoped_lock_dtor(critical_section_scoped_lock *this)
{
TRACE("(%p)\n", this);
critical_section_unlock(this->cs);
}
typedef struct
{
critical_section cs;
} _NonReentrantPPLLock;
/* ??0_NonReentrantPPLLock@details@Concurrency@@QAE@XZ */
/* ??0_NonReentrantPPLLock@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_NonReentrantPPLLock_ctor, 4)
_NonReentrantPPLLock* __thiscall _NonReentrantPPLLock_ctor(_NonReentrantPPLLock *this)
{
TRACE("(%p)\n", this);
critical_section_ctor(&this->cs);
return this;
}
/* ?_Acquire@_NonReentrantPPLLock@details@Concurrency@@QAEXPAX@Z */
/* ?_Acquire@_NonReentrantPPLLock@details@Concurrency@@QEAAXPEAX@Z */
DEFINE_THISCALL_WRAPPER(_NonReentrantPPLLock__Acquire, 8)
void __thiscall _NonReentrantPPLLock__Acquire(_NonReentrantPPLLock *this, cs_queue *q)
{
TRACE("(%p %p)\n", this, q);
cs_lock(&this->cs, q);
}
/* ?_Release@_NonReentrantPPLLock@details@Concurrency@@QAEXXZ */
/* ?_Release@_NonReentrantPPLLock@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_NonReentrantPPLLock__Release, 4)
void __thiscall _NonReentrantPPLLock__Release(_NonReentrantPPLLock *this)
{
TRACE("(%p)\n", this);
critical_section_unlock(&this->cs);
}
typedef struct
{
critical_section cs;
LONG count;
LONG owner;
} _ReentrantPPLLock;
/* ??0_ReentrantPPLLock@details@Concurrency@@QAE@XZ */
/* ??0_ReentrantPPLLock@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_ReentrantPPLLock_ctor, 4)
_ReentrantPPLLock* __thiscall _ReentrantPPLLock_ctor(_ReentrantPPLLock *this)
{
TRACE("(%p)\n", this);
critical_section_ctor(&this->cs);
this->count = 0;
this->owner = -1;
return this;
}
/* ?_Acquire@_ReentrantPPLLock@details@Concurrency@@QAEXPAX@Z */
/* ?_Acquire@_ReentrantPPLLock@details@Concurrency@@QEAAXPEAX@Z */
DEFINE_THISCALL_WRAPPER(_ReentrantPPLLock__Acquire, 8)
void __thiscall _ReentrantPPLLock__Acquire(_ReentrantPPLLock *this, cs_queue *q)
{
TRACE("(%p %p)\n", this, q);
if(this->owner == GetCurrentThreadId()) {
this->count++;
return;
}
cs_lock(&this->cs, q);
this->count++;
this->owner = GetCurrentThreadId();
}
/* ?_Release@_ReentrantPPLLock@details@Concurrency@@QAEXXZ */
/* ?_Release@_ReentrantPPLLock@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_ReentrantPPLLock__Release, 4)
void __thiscall _ReentrantPPLLock__Release(_ReentrantPPLLock *this)
{
TRACE("(%p)\n", this);
this->count--;
if(this->count)
return;
this->owner = -1;
critical_section_unlock(&this->cs);
}
typedef struct
{
_ReentrantPPLLock *lock;
union {
cs_queue q;
struct {
void *unknown[4];
int unknown2[2];
} unknown;
} wait;
} _ReentrantPPLLock__Scoped_lock;
/* ??0_Scoped_lock@_ReentrantPPLLock@details@Concurrency@@QAE@AAV123@@Z */
/* ??0_Scoped_lock@_ReentrantPPLLock@details@Concurrency@@QEAA@AEAV123@@Z */
DEFINE_THISCALL_WRAPPER(_ReentrantPPLLock__Scoped_lock_ctor, 8)
_ReentrantPPLLock__Scoped_lock* __thiscall _ReentrantPPLLock__Scoped_lock_ctor(
_ReentrantPPLLock__Scoped_lock *this, _ReentrantPPLLock *lock)
{
TRACE("(%p %p)\n", this, lock);
this->lock = lock;
_ReentrantPPLLock__Acquire(this->lock, &this->wait.q);
return this;
}
/* ??1_Scoped_lock@_ReentrantPPLLock@details@Concurrency@@QAE@XZ */
/* ??1_Scoped_lock@_ReentrantPPLLock@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_ReentrantPPLLock__Scoped_lock_dtor, 4)
void __thiscall _ReentrantPPLLock__Scoped_lock_dtor(_ReentrantPPLLock__Scoped_lock *this)
{
TRACE("(%p)\n", this);
_ReentrantPPLLock__Release(this->lock);
}
/* ?_GetConcurrency@details@Concurrency@@YAIXZ */
unsigned int __cdecl _GetConcurrency(void)
{
static unsigned int val = -1;
TRACE("()\n");
if(val == -1) {
SYSTEM_INFO si;
GetSystemInfo(&si);
val = si.dwNumberOfProcessors;
}
return val;
}
#define EVT_RUNNING (void*)1
#define EVT_WAITING NULL
struct thread_wait;
typedef struct thread_wait_entry
{
struct thread_wait *wait;
struct thread_wait_entry *next;
struct thread_wait_entry *prev;
} thread_wait_entry;
typedef struct thread_wait
{
void *signaled;
int pending_waits;
thread_wait_entry entries[1];
} thread_wait;
typedef struct
{
thread_wait_entry *waiters;
INT_PTR signaled;
critical_section cs;
} event;
static inline PLARGE_INTEGER evt_timeout(PLARGE_INTEGER pTime, unsigned int timeout)
{
if(timeout == COOPERATIVE_TIMEOUT_INFINITE) return NULL;
pTime->QuadPart = (ULONGLONG)timeout * -10000;
return pTime;
}
static void evt_add_queue(thread_wait_entry **head, thread_wait_entry *entry)
{
entry->next = *head;
entry->prev = NULL;
if(*head) (*head)->prev = entry;
*head = entry;
}
static void evt_remove_queue(thread_wait_entry **head, thread_wait_entry *entry)
{
if(entry == *head)
*head = entry->next;
else if(entry->prev)
entry->prev->next = entry->next;
if(entry->next) entry->next->prev = entry->prev;
}
static MSVCRT_size_t evt_end_wait(thread_wait *wait, event **events, int count)
{
MSVCRT_size_t i, ret = COOPERATIVE_WAIT_TIMEOUT;
for(i = 0; i < count; i++) {
critical_section_lock(&events[i]->cs);
if(events[i] == wait->signaled) ret = i;
evt_remove_queue(&events[i]->waiters, &wait->entries[i]);
critical_section_unlock(&events[i]->cs);
}
return ret;
}
static inline int evt_transition(void **state, void *from, void *to)
{
return InterlockedCompareExchangePointer(state, to, from) == from;
}
static MSVCRT_size_t evt_wait(thread_wait *wait, event **events, int count, MSVCRT_bool wait_all, unsigned int timeout)
{
int i;
NTSTATUS status;
LARGE_INTEGER ntto;
wait->signaled = EVT_RUNNING;
wait->pending_waits = wait_all ? count : 1;
for(i = 0; i < count; i++) {
wait->entries[i].wait = wait;
critical_section_lock(&events[i]->cs);
evt_add_queue(&events[i]->waiters, &wait->entries[i]);
if(events[i]->signaled) {
if(!InterlockedDecrement(&wait->pending_waits)) {
wait->signaled = events[i];
critical_section_unlock(&events[i]->cs);
return evt_end_wait(wait, events, i+1);
}
}
critical_section_unlock(&events[i]->cs);
}
if(!timeout)
return evt_end_wait(wait, events, count);
if(!evt_transition(&wait->signaled, EVT_RUNNING, EVT_WAITING))
return evt_end_wait(wait, events, count);
status = NtWaitForKeyedEvent(keyed_event, wait, 0, evt_timeout(&ntto, timeout));
if(status && !evt_transition(&wait->signaled, EVT_WAITING, EVT_RUNNING))
NtWaitForKeyedEvent(keyed_event, wait, 0, NULL);
return evt_end_wait(wait, events, count);
}
/* ??0event@Concurrency@@QAE@XZ */
/* ??0event@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(event_ctor, 4)
event* __thiscall event_ctor(event *this)
{
TRACE("(%p)\n", this);
this->waiters = NULL;
this->signaled = FALSE;
critical_section_ctor(&this->cs);
return this;
}
/* ??1event@Concurrency@@QAE@XZ */
/* ??1event@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(event_dtor, 4)
void __thiscall event_dtor(event *this)
{
TRACE("(%p)\n", this);
critical_section_dtor(&this->cs);
if(this->waiters)
ERR("there's a wait on destroyed event\n");
}
/* ?reset@event@Concurrency@@QAEXXZ */
/* ?reset@event@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(event_reset, 4)
void __thiscall event_reset(event *this)
{
thread_wait_entry *entry;
TRACE("(%p)\n", this);
critical_section_lock(&this->cs);
if(this->signaled) {
this->signaled = FALSE;
for(entry=this->waiters; entry; entry = entry->next)
InterlockedIncrement(&entry->wait->pending_waits);
}
critical_section_unlock(&this->cs);
}
/* ?set@event@Concurrency@@QAEXXZ */
/* ?set@event@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(event_set, 4)
void __thiscall event_set(event *this)
{
thread_wait_entry *wakeup = NULL;
thread_wait_entry *entry, *next;
TRACE("(%p)\n", this);
critical_section_lock(&this->cs);
if(!this->signaled) {
this->signaled = TRUE;
for(entry=this->waiters; entry; entry=next) {
next = entry->next;
if(!InterlockedDecrement(&entry->wait->pending_waits)) {
if(InterlockedExchangePointer(&entry->wait->signaled, this) == EVT_WAITING) {
evt_remove_queue(&this->waiters, entry);
evt_add_queue(&wakeup, entry);
}
}
}
}
critical_section_unlock(&this->cs);
for(entry=wakeup; entry; entry=next) {
next = entry->next;
entry->next = entry->prev = NULL;
NtReleaseKeyedEvent(keyed_event, entry->wait, 0, NULL);
}
}
/* ?wait@event@Concurrency@@QAEII@Z */
/* ?wait@event@Concurrency@@QEAA_KI@Z */
DEFINE_THISCALL_WRAPPER(event_wait, 8)
MSVCRT_size_t __thiscall event_wait(event *this, unsigned int timeout)
{
thread_wait wait;
MSVCRT_size_t signaled;
TRACE("(%p %u)\n", this, timeout);
critical_section_lock(&this->cs);
signaled = this->signaled;
critical_section_unlock(&this->cs);
if(!timeout) return signaled ? 0 : COOPERATIVE_WAIT_TIMEOUT;
return signaled ? 0 : evt_wait(&wait, &this, 1, FALSE, timeout);
}
/* ?wait_for_multiple@event@Concurrency@@SAIPAPAV12@I_NI@Z */
/* ?wait_for_multiple@event@Concurrency@@SA_KPEAPEAV12@_K_NI@Z */
int __cdecl event_wait_for_multiple(event **events, MSVCRT_size_t count, MSVCRT_bool wait_all, unsigned int timeout)
{
thread_wait *wait;
MSVCRT_size_t ret;
TRACE("(%p %ld %d %u)\n", events, count, wait_all, timeout);
if(count == 0)
return 0;
wait = heap_alloc(FIELD_OFFSET(thread_wait, entries[count]));
if(!wait)
throw_exception(EXCEPTION_BAD_ALLOC, 0, "bad allocation");
ret = evt_wait(wait, events, count, wait_all, timeout);
heap_free(wait);
return ret;
}
#endif
#if _MSVCR_VER >= 110
typedef struct cv_queue {
struct cv_queue *next;
BOOL expired;
} cv_queue;
typedef struct {
/* cv_queue structure is not binary compatible */
cv_queue *queue;
critical_section lock;
} _Condition_variable;
/* ??0_Condition_variable@details@Concurrency@@QAE@XZ */
/* ??0_Condition_variable@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Condition_variable_ctor, 4)
_Condition_variable* __thiscall _Condition_variable_ctor(_Condition_variable *this)
{
TRACE("(%p)\n", this);
this->queue = NULL;
critical_section_ctor(&this->lock);
return this;
}
/* ??1_Condition_variable@details@Concurrency@@QAE@XZ */
/* ??1_Condition_variable@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_Condition_variable_dtor, 4)
void __thiscall _Condition_variable_dtor(_Condition_variable *this)
{
TRACE("(%p)\n", this);
while(this->queue) {
cv_queue *next = this->queue->next;
if(!this->queue->expired)
ERR("there's an active wait\n");
HeapFree(GetProcessHeap(), 0, this->queue);
this->queue = next;
}
critical_section_dtor(&this->lock);
}
/* ?wait@_Condition_variable@details@Concurrency@@QAEXAAVcritical_section@3@@Z */
/* ?wait@_Condition_variable@details@Concurrency@@QEAAXAEAVcritical_section@3@@Z */
DEFINE_THISCALL_WRAPPER(_Condition_variable_wait, 8)
void __thiscall _Condition_variable_wait(_Condition_variable *this, critical_section *cs)
{
cv_queue q;
TRACE("(%p, %p)\n", this, cs);
critical_section_lock(&this->lock);
q.next = this->queue;
q.expired = FALSE;
this->queue = &q;
critical_section_unlock(&this->lock);
critical_section_unlock(cs);
NtWaitForKeyedEvent(keyed_event, &q, 0, NULL);
critical_section_lock(cs);
}
/* ?wait_for@_Condition_variable@details@Concurrency@@QAE_NAAVcritical_section@3@I@Z */
/* ?wait_for@_Condition_variable@details@Concurrency@@QEAA_NAEAVcritical_section@3@I@Z */
DEFINE_THISCALL_WRAPPER(_Condition_variable_wait_for, 12)
MSVCRT_bool __thiscall _Condition_variable_wait_for(_Condition_variable *this,
critical_section *cs, unsigned int timeout)
{
LARGE_INTEGER to;
NTSTATUS status;
FILETIME ft;
cv_queue *q;
TRACE("(%p %p %d)\n", this, cs, timeout);
if(!(q = HeapAlloc(GetProcessHeap(), 0, sizeof(cv_queue)))) {
throw_exception(EXCEPTION_BAD_ALLOC, 0, "bad allocation");
}
critical_section_lock(&this->lock);
q->next = this->queue;
q->expired = FALSE;
this->queue = q;
critical_section_unlock(&this->lock);
critical_section_unlock(cs);
GetSystemTimeAsFileTime(&ft);
to.QuadPart = ((LONGLONG)ft.dwHighDateTime << 32) +
ft.dwLowDateTime + (LONGLONG)timeout * 10000;
status = NtWaitForKeyedEvent(keyed_event, q, 0, &to);
if(status == STATUS_TIMEOUT) {
if(!InterlockedExchange(&q->expired, TRUE)) {
critical_section_lock(cs);
return FALSE;
}
else
NtWaitForKeyedEvent(keyed_event, q, 0, 0);
}
HeapFree(GetProcessHeap(), 0, q);
critical_section_lock(cs);
return TRUE;
}
/* ?notify_one@_Condition_variable@details@Concurrency@@QAEXXZ */
/* ?notify_one@_Condition_variable@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_Condition_variable_notify_one, 4)
void __thiscall _Condition_variable_notify_one(_Condition_variable *this)
{
cv_queue *node;
TRACE("(%p)\n", this);
if(!this->queue)
return;
while(1) {
critical_section_lock(&this->lock);
node = this->queue;
if(!node) {
critical_section_unlock(&this->lock);
return;
}
this->queue = node->next;
critical_section_unlock(&this->lock);
if(!InterlockedExchange(&node->expired, TRUE)) {
NtReleaseKeyedEvent(keyed_event, node, 0, NULL);
return;
} else {
HeapFree(GetProcessHeap(), 0, node);
}
}
}
/* ?notify_all@_Condition_variable@details@Concurrency@@QAEXXZ */
/* ?notify_all@_Condition_variable@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_Condition_variable_notify_all, 4)
void __thiscall _Condition_variable_notify_all(_Condition_variable *this)
{
cv_queue *ptr;
TRACE("(%p)\n", this);
if(!this->queue)
return;
critical_section_lock(&this->lock);
ptr = this->queue;
this->queue = NULL;
critical_section_unlock(&this->lock);
while(ptr) {
cv_queue *next = ptr->next;
if(!InterlockedExchange(&ptr->expired, TRUE))
NtReleaseKeyedEvent(keyed_event, ptr, 0, NULL);
else
HeapFree(GetProcessHeap(), 0, ptr);
ptr = next;
}
}
#endif
#if _MSVCR_VER >= 100
typedef struct rwl_queue
{
struct rwl_queue *next;
} rwl_queue;
#define WRITER_WAITING 0x80000000
/* FIXME: reader_writer_lock structure is not binary compatible
* it can't exceed 28/56 bytes */
typedef struct
{
LONG count;
LONG thread_id;
rwl_queue active;
rwl_queue *writer_head;
rwl_queue *writer_tail;
rwl_queue *reader_head;
} reader_writer_lock;
/* ??0reader_writer_lock@Concurrency@@QAE@XZ */
/* ??0reader_writer_lock@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_ctor, 4)
reader_writer_lock* __thiscall reader_writer_lock_ctor(reader_writer_lock *this)
{
TRACE("(%p)\n", this);
if (!keyed_event) {
HANDLE event;
NtCreateKeyedEvent(&event, GENERIC_READ|GENERIC_WRITE, NULL, 0);
if (InterlockedCompareExchangePointer(&keyed_event, event, NULL) != NULL)
NtClose(event);
}
memset(this, 0, sizeof(*this));
return this;
}
/* ??1reader_writer_lock@Concurrency@@QAE@XZ */
/* ??1reader_writer_lock@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_dtor, 4)
void __thiscall reader_writer_lock_dtor(reader_writer_lock *this)
{
TRACE("(%p)\n", this);
if (this->thread_id != 0 || this->count)
WARN("destroying locked reader_writer_lock\n");
}
static inline void spin_wait_for_next_rwl(rwl_queue *q)
{
SpinWait sw;
if(q->next) return;
SpinWait_ctor(&sw, &spin_wait_yield);
SpinWait__Reset(&sw);
while(!q->next)
SpinWait__SpinOnce(&sw);
SpinWait_dtor(&sw);
}
/* Remove when proper InterlockedOr implementation is added to wine */
static LONG InterlockedOr(LONG *d, LONG v)
{
LONG l;
while (~(l = *d) & v)
if (InterlockedCompareExchange(d, l|v, l) == l) break;
return l;
}
static LONG InterlockedAnd(LONG *d, LONG v)
{
LONG l = *d, old;
while ((l & v) != l) {
if((old = InterlockedCompareExchange(d, l&v, l)) == l) break;
l = old;
}
return l;
}
/* ?lock@reader_writer_lock@Concurrency@@QAEXXZ */
/* ?lock@reader_writer_lock@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_lock, 4)
void __thiscall reader_writer_lock_lock(reader_writer_lock *this)
{
rwl_queue q = { NULL }, *last;
TRACE("(%p)\n", this);
if (this->thread_id == GetCurrentThreadId())
throw_exception(EXCEPTION_IMPROPER_LOCK, 0, "Already locked");
last = InterlockedExchangePointer((void**)&this->writer_tail, &q);
if (last) {
last->next = &q;
NtWaitForKeyedEvent(keyed_event, &q, 0, NULL);
} else {
this->writer_head = &q;
if (InterlockedOr(&this->count, WRITER_WAITING))
NtWaitForKeyedEvent(keyed_event, &q, 0, NULL);
}
this->thread_id = GetCurrentThreadId();
this->writer_head = &this->active;
this->active.next = NULL;
if (InterlockedCompareExchangePointer((void**)&this->writer_tail, &this->active, &q) != &q) {
spin_wait_for_next_rwl(&q);
this->active.next = q.next;
}
}
/* ?lock_read@reader_writer_lock@Concurrency@@QAEXXZ */
/* ?lock_read@reader_writer_lock@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_lock_read, 4)
void __thiscall reader_writer_lock_lock_read(reader_writer_lock *this)
{
rwl_queue q;
TRACE("(%p)\n", this);
if (this->thread_id == GetCurrentThreadId())
throw_exception(EXCEPTION_IMPROPER_LOCK, 0, "Already locked as writer");
do {
q.next = this->reader_head;
} while(InterlockedCompareExchangePointer((void**)&this->reader_head, &q, q.next) != q.next);
if (!q.next) {
rwl_queue *head;
LONG count;
while (!((count = this->count) & WRITER_WAITING))
if (InterlockedCompareExchange(&this->count, count+1, count) == count) break;
if (count & WRITER_WAITING)
NtWaitForKeyedEvent(keyed_event, &q, 0, NULL);
head = InterlockedExchangePointer((void**)&this->reader_head, NULL);
while(head && head != &q) {
rwl_queue *next = head->next;
InterlockedIncrement(&this->count);
NtReleaseKeyedEvent(keyed_event, head, 0, NULL);
head = next;
}
} else {
NtWaitForKeyedEvent(keyed_event, &q, 0, NULL);
}
}
/* ?try_lock@reader_writer_lock@Concurrency@@QAE_NXZ */
/* ?try_lock@reader_writer_lock@Concurrency@@QEAA_NXZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_try_lock, 4)
MSVCRT_bool __thiscall reader_writer_lock_try_lock(reader_writer_lock *this)
{
rwl_queue q = { NULL };
TRACE("(%p)\n", this);
if (this->thread_id == GetCurrentThreadId())
return FALSE;
if (InterlockedCompareExchangePointer((void**)&this->writer_tail, &q, NULL))
return FALSE;
this->writer_head = &q;
if (!InterlockedCompareExchange(&this->count, WRITER_WAITING, 0)) {
this->thread_id = GetCurrentThreadId();
this->writer_head = &this->active;
this->active.next = NULL;
if (InterlockedCompareExchangePointer((void**)&this->writer_tail, &this->active, &q) != &q) {
spin_wait_for_next_rwl(&q);
this->active.next = q.next;
}
return TRUE;
}
if (InterlockedCompareExchangePointer((void**)&this->writer_tail, NULL, &q) == &q)
return FALSE;
spin_wait_for_next_rwl(&q);
this->writer_head = q.next;
if (!InterlockedOr(&this->count, WRITER_WAITING)) {
this->thread_id = GetCurrentThreadId();
this->writer_head = &this->active;
this->active.next = q.next;
return TRUE;
}
return FALSE;
}
/* ?try_lock_read@reader_writer_lock@Concurrency@@QAE_NXZ */
/* ?try_lock_read@reader_writer_lock@Concurrency@@QEAA_NXZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_try_lock_read, 4)
MSVCRT_bool __thiscall reader_writer_lock_try_lock_read(reader_writer_lock *this)
{
LONG count;
TRACE("(%p)\n", this);
while (!((count = this->count) & WRITER_WAITING))
if (InterlockedCompareExchange(&this->count, count+1, count) == count) return TRUE;
return FALSE;
}
/* ?unlock@reader_writer_lock@Concurrency@@QAEXXZ */
/* ?unlock@reader_writer_lock@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_unlock, 4)
void __thiscall reader_writer_lock_unlock(reader_writer_lock *this)
{
LONG count;
rwl_queue *head, *next;
TRACE("(%p)\n", this);
if ((count = this->count) & ~WRITER_WAITING) {
count = InterlockedDecrement(&this->count);
if (count != WRITER_WAITING)
return;
NtReleaseKeyedEvent(keyed_event, this->writer_head, 0, NULL);
return;
}
this->thread_id = 0;
next = this->writer_head->next;
if (next) {
NtReleaseKeyedEvent(keyed_event, next, 0, NULL);
return;
}
InterlockedAnd(&this->count, ~WRITER_WAITING);
head = InterlockedExchangePointer((void**)&this->reader_head, NULL);
while (head) {
next = head->next;
InterlockedIncrement(&this->count);
NtReleaseKeyedEvent(keyed_event, head, 0, NULL);
head = next;
}
if (InterlockedCompareExchangePointer((void**)&this->writer_tail, NULL, this->writer_head) == this->writer_head)
return;
InterlockedOr(&this->count, WRITER_WAITING);
}
typedef struct {
reader_writer_lock *lock;
} reader_writer_lock_scoped_lock;
/* ??0scoped_lock@reader_writer_lock@Concurrency@@QAE@AAV12@@Z */
/* ??0scoped_lock@reader_writer_lock@Concurrency@@QEAA@AEAV12@@Z */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_scoped_lock_ctor, 8)
reader_writer_lock_scoped_lock* __thiscall reader_writer_lock_scoped_lock_ctor(
reader_writer_lock_scoped_lock *this, reader_writer_lock *lock)
{
TRACE("(%p %p)\n", this, lock);
this->lock = lock;
reader_writer_lock_lock(lock);
return this;
}
/* ??1scoped_lock@reader_writer_lock@Concurrency@@QAE@XZ */
/* ??1scoped_lock@reader_writer_lock@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_scoped_lock_dtor, 4)
void __thiscall reader_writer_lock_scoped_lock_dtor(reader_writer_lock_scoped_lock *this)
{
TRACE("(%p)\n", this);
reader_writer_lock_unlock(this->lock);
}
/* ??0scoped_lock_read@reader_writer_lock@Concurrency@@QAE@AAV12@@Z */
/* ??0scoped_lock_read@reader_writer_lock@Concurrency@@QEAA@AEAV12@@Z */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_scoped_lock_read_ctor, 8)
reader_writer_lock_scoped_lock* __thiscall reader_writer_lock_scoped_lock_read_ctor(
reader_writer_lock_scoped_lock *this, reader_writer_lock *lock)
{
TRACE("(%p %p)\n", this, lock);
this->lock = lock;
reader_writer_lock_lock_read(lock);
return this;
}
/* ??1scoped_lock_read@reader_writer_lock@Concurrency@@QAE@XZ */
/* ??1scoped_lock_read@reader_writer_lock@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(reader_writer_lock_scoped_lock_read_dtor, 4)
void __thiscall reader_writer_lock_scoped_lock_read_dtor(reader_writer_lock_scoped_lock *this)
{
TRACE("(%p)\n", this);
reader_writer_lock_unlock(this->lock);
}
typedef struct {
CRITICAL_SECTION cs;
} _ReentrantBlockingLock;
/* ??0_ReentrantBlockingLock@details@Concurrency@@QAE@XZ */
/* ??0_ReentrantBlockingLock@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_ReentrantBlockingLock_ctor, 4)
_ReentrantBlockingLock* __thiscall _ReentrantBlockingLock_ctor(_ReentrantBlockingLock *this)
{
TRACE("(%p)\n", this);
InitializeCriticalSection(&this->cs);
this->cs.DebugInfo->Spare[0] = (DWORD_PTR)(__FILE__ ": _ReentrantBlockingLock");
return this;
}
/* ??1_ReentrantBlockingLock@details@Concurrency@@QAE@XZ */
/* ??1_ReentrantBlockingLock@details@Concurrency@@QEAA@XZ */
DEFINE_THISCALL_WRAPPER(_ReentrantBlockingLock_dtor, 4)
void __thiscall _ReentrantBlockingLock_dtor(_ReentrantBlockingLock *this)
{
TRACE("(%p)\n", this);
this->cs.DebugInfo->Spare[0] = 0;
DeleteCriticalSection(&this->cs);
}
/* ?_Acquire@_ReentrantBlockingLock@details@Concurrency@@QAEXXZ */
/* ?_Acquire@_ReentrantBlockingLock@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_ReentrantBlockingLock__Acquire, 4)
void __thiscall _ReentrantBlockingLock__Acquire(_ReentrantBlockingLock *this)
{
TRACE("(%p)\n", this);
EnterCriticalSection(&this->cs);
}
/* ?_Release@_ReentrantBlockingLock@details@Concurrency@@QAEXXZ */
/* ?_Release@_ReentrantBlockingLock@details@Concurrency@@QEAAXXZ */
DEFINE_THISCALL_WRAPPER(_ReentrantBlockingLock__Release, 4)
void __thiscall _ReentrantBlockingLock__Release(_ReentrantBlockingLock *this)
{
TRACE("(%p)\n", this);
LeaveCriticalSection(&this->cs);
}
/* ?_TryAcquire@_ReentrantBlockingLock@details@Concurrency@@QAE_NXZ */
/* ?_TryAcquire@_ReentrantBlockingLock@details@Concurrency@@QEAA_NXZ */
DEFINE_THISCALL_WRAPPER(_ReentrantBlockingLock__TryAcquire, 4)
MSVCRT_bool __thiscall _ReentrantBlockingLock__TryAcquire(_ReentrantBlockingLock *this)
{
TRACE("(%p)\n", this);
return TryEnterCriticalSection(&this->cs);
}
/* ?wait@Concurrency@@YAXI@Z */
void __cdecl Concurrency_wait(unsigned int time)
{
static int once;
if (!once++) FIXME("(%d) stub!\n", time);
Sleep(time);
}
#endif
#if _MSVCR_VER == 110
static LONG shared_ptr_lock;
void __cdecl _Lock_shared_ptr_spin_lock(void)
{
LONG l = 0;
while(InterlockedCompareExchange(&shared_ptr_lock, 1, 0) != 0) {
if(l++ == 1000) {
Sleep(0);
l = 0;
}
}
}
void __cdecl _Unlock_shared_ptr_spin_lock(void)
{
shared_ptr_lock = 0;
}
#endif
/**********************************************************************
* msvcrt_free_locks (internal)
*
* Uninitialize all mt locks. Assume that neither _lock or _unlock will
* be called once we're calling this routine (ie _LOCKTAB_LOCK can be deleted)
*
*/
void msvcrt_free_locks(void)
{
int i;
TRACE( ": uninitializing all mtlocks\n" );
/* Uninitialize the table */
for( i=0; i < _TOTAL_LOCKS; i++ )
{
if( lock_table[ i ].bInit )
{
msvcrt_uninitialize_mlock( i );
}
}
#if _MSVCR_VER >= 100
if(keyed_event)
NtClose(keyed_event);
#endif
}