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// Copyright (c) rAthena Project (www.rathena.org) - Licensed under GNU GPL
// For more information, see LICENCE in the main folder

#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);
    InitializeCriticalSection(&c->waiters_lock);
#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 ]);
    DeleteCriticalSection(&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()