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/* ---------------------------------------------------------------------------
*
* (c) The GHC Team, 2001-2005
*
* Accessing OS threads functionality in a (mostly) OS-independent
* manner.
*
* --------------------------------------------------------------------------*/
#include "Rts.h"
#include <windows.h>
#if defined(THREADED_RTS)
#include "RtsUtils.h"
/* For reasons not yet clear, the entire contents of process.h is protected
* by __STRICT_ANSI__ not being defined.
*/
#undef __STRICT_ANSI__
#include <process.h>
/* Win32 threads and synchronisation objects */
/* A Condition is represented by a Win32 Event object;
* a Mutex by a Mutex kernel object.
*
* ToDo: go through the defn and usage of these to
* make sure the semantics match up with that of
* the (assumed) pthreads behaviour. This is really
* just a first pass at getting something compilable.
*/
void
initCondition( Condition* pCond )
{
HANDLE h = CreateEvent(NULL,
FALSE, /* auto reset */
FALSE, /* initially not signalled */
NULL); /* unnamed => process-local. */
if ( h == NULL ) {
sysErrorBelch("initCondition: unable to create");
stg_exit(EXIT_FAILURE);
}
*pCond = h;
return;
}
void
closeCondition( Condition* pCond )
{
if ( CloseHandle(*pCond) == 0 ) {
sysErrorBelch("closeCondition: failed to close");
}
return;
}
rtsBool
broadcastCondition ( Condition* pCond )
{
PulseEvent(*pCond);
return rtsTrue;
}
rtsBool
signalCondition ( Condition* pCond )
{
if (SetEvent(*pCond) == 0) {
sysErrorBelch("SetEvent");
stg_exit(EXIT_FAILURE);
}
return rtsTrue;
}
rtsBool
waitCondition ( Condition* pCond, Mutex* pMut )
{
RELEASE_LOCK(pMut);
WaitForSingleObject(*pCond, INFINITE);
/* Hmm..use WaitForMultipleObjects() ? */
ACQUIRE_LOCK(pMut);
return rtsTrue;
}
void
yieldThread()
{
SwitchToThread();
return;
}
void
shutdownThread()
{
ExitThread(0);
barf("ExitThread() returned"); // avoid gcc warning
}
int
createOSThread (OSThreadId* pId, char *name STG_UNUSED,
OSThreadProc *startProc, void *param)
{
HANDLE h;
h = CreateThread ( NULL, /* default security attributes */
0,
(LPTHREAD_START_ROUTINE)startProc,
param,
0,
pId);
if (h == 0) {
return 1;
} else {
// This handle leaks if we don't close it here. Perhaps we
// should try to keep it around to avoid needing OpenThread()
// later.
CloseHandle(h);
return 0;
}
}
OSThreadId
osThreadId()
{
return GetCurrentThreadId();
}
rtsBool
osThreadIsAlive(OSThreadId id)
{
DWORD exit_code;
HANDLE hdl;
if (!(hdl = OpenThread(THREAD_QUERY_INFORMATION,FALSE,id))) {
sysErrorBelch("osThreadIsAlive: OpenThread");
stg_exit(EXIT_FAILURE);
}
if (!GetExitCodeThread(hdl, &exit_code)) {
sysErrorBelch("osThreadIsAlive: GetExitCodeThread");
stg_exit(EXIT_FAILURE);
}
CloseHandle(hdl);
return (exit_code == STILL_ACTIVE);
}
#ifdef USE_CRITICAL_SECTIONS
void
initMutex (Mutex* pMut)
{
InitializeCriticalSectionAndSpinCount(pMut,4000);
}
void
closeMutex (Mutex* pMut)
{
DeleteCriticalSection(pMut);
}
#else
void
initMutex (Mutex* pMut)
{
HANDLE h = CreateMutex ( NULL, /* default sec. attributes */
FALSE, /* not owned => initially signalled */
NULL
);
*pMut = h;
return;
}
void
closeMutex (Mutex* pMut)
{
CloseHandle(*pMut);
}
#endif
void
newThreadLocalKey (ThreadLocalKey *key)
{
DWORD r;
r = TlsAlloc();
if (r == TLS_OUT_OF_INDEXES) {
barf("newThreadLocalKey: out of keys");
}
*key = r;
}
void *
getThreadLocalVar (ThreadLocalKey *key)
{
void *r;
r = TlsGetValue(*key);
#ifdef DEBUG
// r is allowed to be NULL - it can mean that either there was an
// error or the stored value is in fact NULL.
if (GetLastError() != NO_ERROR) {
sysErrorBelch("getThreadLocalVar");
stg_exit(EXIT_FAILURE);
}
#endif
return r;
}
void
setThreadLocalVar (ThreadLocalKey *key, void *value)
{
BOOL b;
b = TlsSetValue(*key, value);
if (!b) {
sysErrorBelch("setThreadLocalVar");
stg_exit(EXIT_FAILURE);
}
}
void
freeThreadLocalKey (ThreadLocalKey *key)
{
BOOL r;
r = TlsFree(*key);
if (r == 0) {
DWORD dw = GetLastError();
barf("freeThreadLocalKey failed: %lu", dw);
}
}
static unsigned __stdcall
forkOS_createThreadWrapper ( void * entry )
{
Capability *cap;
cap = rts_lock();
rts_evalStableIO(&cap, (HsStablePtr) entry, NULL);
rts_unlock(cap);
return 0;
}
int
forkOS_createThread ( HsStablePtr entry )
{
unsigned long pId;
return (_beginthreadex ( NULL, /* default security attributes */
0,
forkOS_createThreadWrapper,
(void*)entry,
0,
(unsigned*)&pId) == 0);
}
uint32_t
getNumberOfProcessors (void)
{
static uint32_t nproc = 0;
if (nproc == 0) {
SYSTEM_INFO si;
GetSystemInfo(&si);
nproc = si.dwNumberOfProcessors;
}
return nproc;
}
void
setThreadAffinity (uint32_t n, uint32_t m) // cap N of M
{
HANDLE hThread;
DWORD_PTR mask, r; // 64-bit win is required to handle more than 32 procs
uint32_t nproc, i;
hThread = GetCurrentThread();
nproc = getNumberOfProcessors();
mask = 0;
for (i = n; i < nproc; i+=m) {
mask |= 1 << i;
}
r = SetThreadAffinityMask(hThread, mask);
if (r == 0) {
sysErrorBelch("SetThreadAffinity");
stg_exit(EXIT_FAILURE);
}
}
typedef BOOL (WINAPI *PCSIO)(HANDLE);
void
interruptOSThread (OSThreadId id)
{
HANDLE hdl;
PCSIO pCSIO;
if (!(hdl = OpenThread(THREAD_TERMINATE,FALSE,id))) {
sysErrorBelch("interruptOSThread: OpenThread");
stg_exit(EXIT_FAILURE);
}
pCSIO = (PCSIO) GetProcAddress(GetModuleHandle(TEXT("Kernel32.dll")),
"CancelSynchronousIo");
if ( NULL != pCSIO ) {
pCSIO(hdl);
} else {
// Nothing to do, unfortunately
}
CloseHandle(hdl);
}
#else /* !defined(THREADED_RTS) */
int
forkOS_createThread ( HsStablePtr entry STG_UNUSED )
{
return -1;
}
uint32_t getNumberOfProcessors (void)
{
return 1;
}
#endif /* !defined(THREADED_RTS) */
KernelThreadId kernelThreadId (void)
{
DWORD tid = GetCurrentThreadId();
return tid;
}
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