/* Test program that performs producer-consumer style communication through * a circular buffer. This test program is a slightly modified version of the * test program made available by Miguel Ojeda * -- see also http://article.gmane.org/gmane.comp.debugging.valgrind/8782. */ #include <stdio.h> #include <string.h> #include <stdlib.h> #include <unistd.h> #include <time.h> #include <pthread.h> #include <semaphore.h> #include <fcntl.h> #include "../../config.h" /** gcc versions 4.1.0 and later have support for atomic builtins. */ #ifndef HAVE_BUILTIN_ATOMIC #error Sorry, but this test program can only be compiled by a compiler that\ has built-in functions for atomic memory access. #endif #define BUFFER_MAX (2) #define DATA_SEMAPHORE_NAME "cb-data-semaphore" #define FREE_SEMAPHORE_NAME "cb-free-semaphore" typedef int data_t; typedef struct { /* Counting semaphore representing the number of data items in the buffer. */ sem_t* data; /* Counting semaphore representing the number of free elements. */ sem_t* free; /* Position where a new elements should be written. */ int in; /* Position from where an element can be removed. */ int out; /* Mutex that protects 'in'. */ pthread_mutex_t mutex_in; /* Mutex that protects 'out'. */ pthread_mutex_t mutex_out; /* Data buffer. */ data_t buffer[BUFFER_MAX]; } buffer_t; static int quiet = 0; static int use_locking = 1; static __inline__ int fetch_and_add(int* p, int i) { return __sync_fetch_and_add(p, i); } static sem_t* create_semaphore(const char* const name, const int value) { #ifdef __APPLE__ sem_t* p = sem_open(name, O_CREAT, 0600, value); return p; #else sem_t* p = malloc(sizeof(*p)); if (p) sem_init(p, 0, value); return p; #endif } static void destroy_semaphore(const char* const name, sem_t* p) { #ifdef __APPLE__ sem_close(p); sem_unlink(name); #else sem_destroy(p); free(p); #endif } static void buffer_init(buffer_t * b) { b->data = create_semaphore(DATA_SEMAPHORE_NAME, 0); b->free = create_semaphore(FREE_SEMAPHORE_NAME, BUFFER_MAX); pthread_mutex_init(&b->mutex_in, NULL); pthread_mutex_init(&b->mutex_out, NULL); b->in = 0; b->out = 0; } static void buffer_recv(buffer_t* b, data_t* d) { int out; sem_wait(b->data); if (use_locking) pthread_mutex_lock(&b->mutex_out); out = fetch_and_add(&b->out, 1); if (out >= BUFFER_MAX) { fetch_and_add(&b->out, -BUFFER_MAX); out -= BUFFER_MAX; } *d = b->buffer[out]; if (use_locking) pthread_mutex_unlock(&b->mutex_out); if (! quiet) { printf("received %d from buffer[%d]\n", *d, out); fflush(stdout); } sem_post(b->free); } static void buffer_send(buffer_t* b, data_t* d) { int in; sem_wait(b->free); if (use_locking) pthread_mutex_lock(&b->mutex_in); in = fetch_and_add(&b->in, 1); if (in >= BUFFER_MAX) { fetch_and_add(&b->in, -BUFFER_MAX); in -= BUFFER_MAX; } b->buffer[in] = *d; if (use_locking) pthread_mutex_unlock(&b->mutex_in); if (! quiet) { printf("sent %d to buffer[%d]\n", *d, in); fflush(stdout); } sem_post(b->data); } static void buffer_destroy(buffer_t* b) { destroy_semaphore(DATA_SEMAPHORE_NAME, b->data); destroy_semaphore(FREE_SEMAPHORE_NAME, b->free); pthread_mutex_destroy(&b->mutex_in); pthread_mutex_destroy(&b->mutex_out); } static buffer_t b; static void producer(int* id) { buffer_send(&b, id); pthread_exit(NULL); } #define MAXSLEEP (100 * 1000) static void consumer(int* id) { int d; usleep(rand() % MAXSLEEP); buffer_recv(&b, &d); if (! quiet) { printf("%i: %i\n", *id, d); fflush(stdout); } pthread_exit(NULL); } #define THREADS (10) int main(int argc, char** argv) { pthread_t producers[THREADS]; pthread_t consumers[THREADS]; int thread_arg[THREADS]; int i; int optchar; while ((optchar = getopt(argc, argv, "nq")) != EOF) { switch (optchar) { case 'n': use_locking = 0; break; case 'q': quiet = 1; break; } } srand(time(NULL)); buffer_init(&b); for (i = 0; i < THREADS; ++i) { thread_arg[i] = i; pthread_create(producers + i, NULL, (void * (*)(void *)) producer, &thread_arg[i]); } for (i = 0; i < THREADS; ++i) pthread_create(consumers + i, NULL, (void * (*)(void *)) consumer, &thread_arg[i]); for (i = 0; i < THREADS; ++i) { pthread_join(producers[i], NULL); pthread_join(consumers[i], NULL); } buffer_destroy(&b); return 0; }