added mutex && cond var abstraction ( for pthread / winapi )

added type 'sysint' to cbasetypes, which's the width of the platform the release gets compiled for. git-svn-id: https://svn.code.sf.net/p/rathena/svn/trunk@16256 54d463be-8e91-2dee-dedb-b68131a5f0ec
2012-06-10 02:27:07 +00:00 · 2012-06-10 02:27:07 +00:00 · 12b9fdab9c
commit 12b9fdab9c
parent f4b8626e7c
4 changed files with 358 additions and 1 deletions
--- a/src/common/Makefile.in
+++ b/src/common/Makefile.in
@ -3,7 +3,7 @@ COMMON_OBJ = obj_all/core.o obj_all/socket.o obj_all/timer.o obj_all/db.o obj_al
 	obj_all/nullpo.o obj_all/malloc.o obj_all/showmsg.o obj_all/strlib.o obj_all/utils.o \
 	obj_all/grfio.o obj_all/mapindex.o obj_all/ers.o obj_all/md5calc.o \
 	obj_all/minicore.o obj_all/minisocket.o obj_all/minimalloc.o obj_all/random.o obj_all/des.o \
-	obj_all/conf.o obj_all/thread.o
+	obj_all/conf.o obj_all/thread.o obj_all/mutex.o
 COMMON_H = $(shell ls ../common/*.h)
--- a/src/common/cbasetypes.h
+++ b/src/common/cbasetypes.h
@ -197,6 +197,30 @@ typedef intptr_t intptr;
 typedef uintptr_t uintptr;
 //////////////////////////////////////////////////////////////////////////
 // Add a 'sysint' Type which has the width of the platform we're compiled for.
 //////////////////////////////////////////////////////////////////////////
 #if defined(__GNUC__)
 	#if defined(__x86_64__)
 		typedef int64 sysint;
 		typedef uint64 usysint;
 	#else
 		typedef int32 sysint;
 		typedef uint32 usysint;
 	#endif
 #elif defined(_MSC_VER)
 	#if defined(_M_X64)
 		typedef int64 sysint;
 		typedef uint64 usysint;
 	#else
 		typedef int32 sysint;
 		typedef uint32 usysint;
 	#endif
 #else
 	#error Compiler / Platform is unsupported.
 #endif
 //////////////////////////////////////////////////////////////////////////
 // some redefine of function redefines for some Compilers
 //////////////////////////////////////////////////////////////////////////
--- a/src/common/mutex.c
+++ b/src/common/mutex.c
@ -0,0 +1,244 @@
 #ifdef WIN32
 #include "../common/winapi.h"
 #else
 #include <pthread.h>
 #include <time.h>
 #include <sys/time.h>
 #endif
 #include "../common/cbasetypes.h"
 #include "../common/malloc.h"
 #include "../common/showmsg.h"
 #include "../common/timer.h"
 #include "../common/mutex.h"
 struct ramutex{
 #ifdef WIN32
 	CRITICAL_SECTION hMutex;
 #else
 	pthread_mutex_t hMutex;
 #endif
 };
 struct racond{
 #ifdef WIN32
 	HANDLE events[2];
 	ra_align(8) volatile LONG nWaiters;
 	CRITICAL_SECTION waiters_lock;
 #define EVENT_COND_SIGNAL 0
 #define EVENT_COND_BROADCAST 1
 #else
 	pthread_cond_t hCond;
 #endif
 };
 ////////////////////
 // Mutex
 //
 // Implementation:
 //
 ramutex ramutex_create(){
 	struct ramutex *m;
 	m = (struct ramutex*)aMalloc( sizeof(struct ramutex) );
 	if(m == NULL){
 		ShowFatalError("ramutex_create: OOM while allocating %u bytes.\n", sizeof(struct ramutex));
 		return NULL;
 	}
 #ifdef WIN32
 	InitializeCriticalSection(&m->hMutex);
 #else
 	pthread_mutex_init(&m->hMutex, NULL);
 #endif
 	return m;
 }//end: ramutex_create()
 void ramutex_destroy( ramutex m ){
 #ifdef WIN32
 	DeleteCriticalSection(&m->hMutex);
 #else
 	pthread_mutex_destroy(&m->hMutex);
 #endif
 	aFree(m);
 }//end: ramutex_destroy()
 void ramutex_lock( ramutex m ){
 #ifdef WIN32
 	EnterCriticalSection(&m->hMutex);
 #else
 	pthread_mutex_lock(&m->hMutex);
 #endif
 }//end: ramutex_lock
 bool ramutex_trylock( ramutex m ){
 #ifdef WIN32
 	if(TryEnterCriticalSection(&m->hMutex) == TRUE)
 		return true;
 	return false;
 #else
 	if(pthread_mutex_trylock(&m->hMutex) == 0)
 		return true;
 	return false;
 #endif
 }//end: ramutex_trylock()
 void ramutex_unlock( ramutex m ){
 #ifdef WIN32
 	LeaveCriticalSection(&m->hMutex);
 #else
 	pthread_mutex_unlock(&m->hMutex);
 #endif
 }//end: ramutex_unlock()
 ///////////////
 // Condition Variables
 // 
 // Implementation:
 //
 racond racond_create(){
 	struct racond *c;
 	c = (struct racond*)aMalloc( sizeof(struct racond) );
 	if(c == NULL){
 		ShowFatalError("racond_create: OOM while allocating %u bytes\n", sizeof(struct racond));
 		return NULL;
 	}
 #ifdef WIN32
 	c->nWaiters = 0;
 	c->events[ EVENT_COND_SIGNAL ]		= CreateEvent( NULL,  FALSE,  FALSE,  NULL );
 	c->events[ EVENT_COND_BROADCAST ]	= CreateEvent( NULL,  TRUE,   FALSE,  NULL );
 #else
 	pthread_cond_init(&c->hCond, NULL);
 #endif
 	return c;
 }//end: racond_create()
 void racond_destroy( racond c ){
 #ifdef WIN32
 	CloseHandle( c->events[ EVENT_COND_SIGNAL ] );
 	CloseHandle( c->events[ EVENT_COND_BROADCAST ] );
 	InitializeCriticalSection( &c->waiters_lock );
 #else
 	pthread_cond_destroy(&c->hCond);
 #endif
 	aFree(c);
 }//end: racond_destroy()
 void racond_wait( racond c,  ramutex m,  sysint timeout_ticks){
 #ifdef WIN32
 	register DWORD ms;
 	int result;
 	bool is_last = false;
 	EnterCriticalSection(&c->waiters_lock);
 	c->nWaiters++;
 	LeaveCriticalSection(&c->waiters_lock);
 	if(timeout_ticks < 0)
 		ms = INFINITE;
 	else
 		ms = (timeout_ticks > MAXDWORD) ? (MAXDWORD - 1) : (DWORD)timeout_ticks;
 	// we can release the mutex (m) here, cause win's
 	// manual reset events maintain state when used with
 	// SetEvent()
 	ramutex_unlock(m);
 	result = WaitForMultipleObjects(2, c->events, FALSE, ms);
 	EnterCriticalSection(&c->waiters_lock);
 	c->nWaiters--;
 	if( (result == WAIT_OBJECT_0 + EVENT_COND_BROADCAST) && (c->nWaiters == 0) )
 		is_last = true; // Broadcast called!
 	LeaveCriticalSection(&c->waiters_lock);
 	// we are the last waiter that has to be notified, or to stop waiting
 	// so we have to do a manual reset
 	if(is_last == true)
 		ResetEvent( c->events[EVENT_COND_BROADCAST] );
 	ramutex_lock(m);
 #else
 	if(timeout_ticks < 0){
 		pthread_cond_wait( &c->hCond,  &m->hMutex );
 	}else{
 		struct timespec wtime;
 		int64 exact_timeout = gettick() + timeout_ticks;
 		wtime.tv_sec = exact_timeout/1000;
 		wtime.tv_nsec = (exact_timeout%1000)*1000000;
 		pthread_cond_timedwait( &c->hCond,  &m->hMutex,  &wtime);
 	}
 #endif
 }//end: racond_wait()
 void racond_signal( racond c ){
 #ifdef WIN32
 //	bool has_waiters = false;
 //	EnterCriticalSection(&c->waiters_lock);
 //	if(c->nWaiters > 0)
 //			has_waiters = true;
 //	LeaveCriticalSection(&c->waiters_lock);
 //	if(has_waiters == true)
 		SetEvent( c->events[ EVENT_COND_SIGNAL ] );
 #else
 	pthread_cond_signal(&c->hCond);
 #endif
 }//end: racond_signal()
 void racond_broadcast( racond c ){
 #ifdef WIN32
 //	bool has_waiters = false;
 //	EnterCriticalSection(&c->waiters_lock);
 //	if(c->nWaiters > 0)
 //			has_waiters = true;
 //	LeaveCriticalSection(&c->waiters_lock);
 //	if(has_waiters == true)
 		SetEvent( c->events[ EVENT_COND_BROADCAST ] );
 #else
 	pthread_cond_broadcast(&c->hCond);
 #endif
 }//end: racond_broadcast()
--- a/src/common/mutex.h
+++ b/src/common/mutex.h
@ -0,0 +1,89 @@
 #ifndef _rA_MUTEX_H_
 #define _rA_MUTEX_H_
 typedef struct ramutex *ramutex; // Mutex
 typedef struct racond *racond; // Condition Var
 /**
 * Creates a Mutex 
 *
 * @return not NULL
 */
 ramutex ramutex_create();
 /** 
 * Destroys a Mutex
 * 
 * @param m - the mutex to destroy
 */
 void ramutex_destroy( ramutex m );
 /** 
 * Gets a lock
 *
 * @param m - the mutex to lock
 */
 void ramutex_lock( ramutex m);
 /** 
 * Trys to get the Lock
 * 
 * @param m - the mutex try to lock
 * 
 * @return boolean (true = got the lock)
 */
 bool ramutex_trylock( ramutex m );
 /** 
 * Unlocks a mutex
 *
 * @param m - the mutex to unlock
 */
 void ramutex_unlock( ramutex m);
 /** 
 * Creates a Condition variable
 *
 * @return not NULL
 */
 racond racond_create();
 /** 
 * Destroy a Condition variable
 *
 * @param c - the condition varaible to destroy
 */
 void racond_destroy( racond c );
 /**
 * Waits Until state is signalled
 * 
 * @param c - the condition var to wait for signalled state 
 * @param m - the mutex used for syncronization
 * @param timeout_ticks - timeout in ticks ( -1 = INFINITE )
 */
 void racond_wait( racond c,  ramutex m,  sysint timeout_ticks);
 /** 
 * Sets the given condition var to signalled state
 *
 * @param c - condition var to set in signalled state.
 *
 * @note:
 *  Only one waiter gets notified.
 */
 void racond_signal( racond c );
 /** 
 * Sets notifys all waiting threads thats signalled.
 * @param c - condition var to set in signalled state
 * 
 * @note:
 *  All Waiters getting notified.
 */ 
 void racond_broadcast( racond c );
 #endif