M2_SETI/T2/tp/exercice-1/acquisitionManagerTestAndSet.c

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#include <stdio.h>
#include <stdlib.h>
#include <semaphore.h>
#include <unistd.h>
#include <pthread.h>
#include <fcntl.h>
#include "acquisitionManager.h"
#include "msg.h"
#include "iSensor.h"
#include "multitaskingAccumulator.h"
#include "iAcquisitionManager.h"
#include "debug.h"
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#include <stdatomic.h>
#include <sys/syscall.h>
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// #define gettid() syscall(SYS_gettid)
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pthread_t producers[4];
static void *produce(void *params);
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MSG_BLOCK Buffer[BUFFER_SIZE];
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/**
* Semaphores and Mutex
*/
//TODO
sem_t semaphore_libre;
sem_t semaphore_occupe;
// pthread_mutex_t m_write = PTHREAD_MUTEX_INITIALIZER;
/**
* Usefull variables
*/
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MSG_BLOCK Buffer[BUFFER_SIZE];
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_Atomic int index_libre = 0;
_Atomic int thread_count = 0;
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//producer count storage
_Atomic int verrou = 0;
volatile unsigned int produceCount = 0;
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/*
* Creates the synchronization elements.
* @return ERROR_SUCCESS if the init is ok, ERROR_INIT otherwise
*/
static unsigned int createSynchronizationObjects(void);
/*
* Increments the produce count.
*/
static void incrementProducedCount(void);
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// Méthode pour verrouiller un accès
static void pCountLockTake(){
int expected = 0;
//Tant que verrou ne vaut pas 0, on attend et expected vaut 0. Si verrou vaut bien 0, on le met à 1
while(!atomic_compare_exchange_weak(&verrou, &expected, 1))
expected = 0;
//La fonction se termine..
}
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// Méthode pour libérer un accès
static void pCountLockRelease(){
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verrou = 0;
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}
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static unsigned int createSynchronizationObjects(void)
{
int error;
//TODO DONE
if((error = sem_init(&semaphore_libre, 0, BUFFER_SIZE)) < 0){
printf("[acquisitionManager]Semaphore L Error No. %d\n",error);
return error;
}
if((error = sem_init(&semaphore_occupe, 0, 0)) < 0){
printf("[acquisitionManager]Semaphore O Error No. %d\n",error);
return error;
}
printf("[acquisitionManager]Semaphore created\n");
return ERROR_SUCCESS;
}
static void incrementProducedCount(void)
{
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//On incrément le nombre de threads producteurs
pCountLockTake();
produceCount++;
pCountLockRelease();
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}
unsigned int getProducedCount(void)
{
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unsigned int p = 0;
//On crée une section actomique
pCountLockTake();
p = produceCount;
pCountLockRelease();
return p;
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}
MSG_BLOCK getMessage(void){
//TODO
MSG_BLOCK res;
static int index_count = 0;
sem_wait(&semaphore_occupe);
res = Buffer[index_count];
index_count = (index_count+1)%BUFFER_SIZE;
sem_post(&semaphore_libre);
return res;
}
//TODO create accessors to limit semaphore and mutex usage outside of this C module.
unsigned int acquisitionManagerInit(void)
{
unsigned int i;
printf("[acquisitionManager]Synchronization initialization in progress...\n");
fflush( stdout );
if (createSynchronizationObjects() == ERROR_INIT)
return ERROR_INIT;
printf("[acquisitionManager]Synchronization initialization done.\n");
for (i = 0; i < PRODUCER_COUNT; i++)
{
//TODO
pthread_create(&producers[i], NULL, produce, NULL);
}
return ERROR_SUCCESS;
}
void acquisitionManagerJoin(void)
{
unsigned int i;
for (i = 0; i < PRODUCER_COUNT; i++)
{
//TODO
pthread_join(producers[i], NULL);
}
//TODO
sem_destroy(&semaphore_libre);
sem_destroy(&semaphore_occupe);
printf("[acquisitionManager]Semaphore cleaned\n");
}
void *produce(void* params)
{
D(printf("[acquisitionManager]Producer created with id %d\n", gettid()));
unsigned int i = 0;
int index_lock;
int thread_num;
MSG_BLOCK message;
//Counting producers
thread_num = thread_count;
thread_count++;
while (i < PRODUCER_LOOP_LIMIT)
{
i++;
sleep(PRODUCER_SLEEP_TIME+(rand() % 5));
//TODO
sem_wait(&semaphore_libre);
index_lock = index_libre;
index_libre = (index_libre + 1)%BUFFER_SIZE;
getInput(thread_num, &message);
Buffer[index_lock] = message;
incrementProducedCount();
sem_post(&semaphore_occupe);
}
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printf("[acquisitionManager] %d termination\n", gettid());
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//TODO
pthread_exit(NULL);
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}