C-Thread-Pool/thpool.c

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/* ********************************
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* Author: Johan Hanssen Seferidis
* License: MIT
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* Description: Library providing a threading pool where you can add
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* work. For usage, check the thpool.h file or README.md
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*
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*//** @file thpool.h *//*
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*
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********************************/
#define _POSIX_C_SOURCE 200809L
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#include <unistd.h>
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#include <signal.h>
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#include <stdio.h>
#include <stdlib.h>
#include <pthread.h>
#include <errno.h>
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#include <time.h>
#if defined(__linux__)
#include <sys/prctl.h>
#endif
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#include "thpool.h"
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#ifdef THPOOL_DEBUG
#define THPOOL_DEBUG 1
#else
#define THPOOL_DEBUG 0
#endif
#if !defined(DISABLE_PRINT) || defined(THPOOL_DEBUG)
#define err(str) fprintf(stderr, str)
#else
#define err(str)
#endif
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static volatile int threads_keepalive;
static volatile int threads_on_hold;
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/* ========================== STRUCTURES ============================ */
/* Binary semaphore */
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typedef struct bsem {
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pthread_mutex_t mutex;
pthread_cond_t cond;
int v;
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} bsem;
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/* Job */
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typedef struct job{
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struct job* prev; /* pointer to previous job */
void (*function)(void* arg); /* function pointer */
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void* arg; /* function's argument */
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} job;
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/* Job queue */
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typedef struct jobqueue{
pthread_mutex_t rwmutex; /* used for queue r/w access */
job *front; /* pointer to front of queue */
job *rear; /* pointer to rear of queue */
bsem *has_jobs; /* flag as binary semaphore */
int len; /* number of jobs in queue */
} jobqueue;
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/* Thread */
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typedef struct thread{
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int id; /* friendly id */
pthread_t pthread; /* pointer to actual thread */
struct thpool_* thpool_p; /* access to thpool */
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} thread;
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/* Threadpool */
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typedef struct thpool_{
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thread** threads; /* pointer to threads */
volatile int num_threads_alive; /* threads currently alive */
volatile int num_threads_working; /* threads currently working */
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pthread_mutex_t thcount_lock; /* used for thread count etc */
pthread_cond_t threads_all_idle; /* signal to thpool_wait */
jobqueue jobqueue; /* job queue */
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} thpool_;
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/* ========================== PROTOTYPES ============================ */
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static int thread_init(thpool_* thpool_p, struct thread** thread_p, int id);
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static void* thread_do(struct thread* thread_p);
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static void thread_hold(int sig_id);
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static void thread_destroy(struct thread* thread_p);
static int jobqueue_init(jobqueue* jobqueue_p);
static void jobqueue_clear(jobqueue* jobqueue_p);
static void jobqueue_push(jobqueue* jobqueue_p, struct job* newjob_p);
static struct job* jobqueue_pull(jobqueue* jobqueue_p);
static void jobqueue_destroy(jobqueue* jobqueue_p);
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static void bsem_init(struct bsem *bsem_p, int value);
static void bsem_reset(struct bsem *bsem_p);
static void bsem_post(struct bsem *bsem_p);
static void bsem_post_all(struct bsem *bsem_p);
static void bsem_wait(struct bsem *bsem_p);
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/* ========================== THREADPOOL ============================ */
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/* Initialise thread pool */
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struct thpool_* thpool_init(int num_threads){
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threads_on_hold = 0;
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threads_keepalive = 1;
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if (num_threads < 0){
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num_threads = 0;
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}
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/* Make new thread pool */
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thpool_* thpool_p;
thpool_p = (struct thpool_*)malloc(sizeof(struct thpool_));
if (thpool_p == NULL){
err("thpool_init(): Could not allocate memory for thread pool\n");
return NULL;
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}
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thpool_p->num_threads_alive = 0;
thpool_p->num_threads_working = 0;
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/* Initialise the job queue */
if (jobqueue_init(&thpool_p->jobqueue) == -1){
err("thpool_init(): Could not allocate memory for job queue\n");
free(thpool_p);
return NULL;
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}
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/* Make threads in pool */
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thpool_p->threads = (struct thread**)malloc(num_threads * sizeof(struct thread *));
if (thpool_p->threads == NULL){
err("thpool_init(): Could not allocate memory for threads\n");
jobqueue_destroy(&thpool_p->jobqueue);
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free(thpool_p);
return NULL;
}
pthread_mutex_init(&(thpool_p->thcount_lock), NULL);
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pthread_cond_init(&thpool_p->threads_all_idle, NULL);
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/* Thread init */
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int n;
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for (n=0; n<num_threads; n++){
thread_init(thpool_p, &thpool_p->threads[n], n);
#if THPOOL_DEBUG
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printf("THPOOL_DEBUG: Created thread %d in pool \n", n);
#endif
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}
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/* Wait for threads to initialize */
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while (thpool_p->num_threads_alive != num_threads) {}
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return thpool_p;
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}
/* Add work to the thread pool */
int thpool_add_work(thpool_* thpool_p, void (*function_p)(void*), void* arg_p){
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job* newjob;
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newjob=(struct job*)malloc(sizeof(struct job));
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if (newjob==NULL){
err("thpool_add_work(): Could not allocate memory for new job\n");
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return -1;
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}
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/* add function and argument */
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newjob->function=function_p;
newjob->arg=arg_p;
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/* add job to queue */
jobqueue_push(&thpool_p->jobqueue, newjob);
return 0;
}
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/* Wait until all jobs have finished */
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void thpool_wait(thpool_* thpool_p){
pthread_mutex_lock(&thpool_p->thcount_lock);
while (thpool_p->jobqueue.len || thpool_p->num_threads_working) {
pthread_cond_wait(&thpool_p->threads_all_idle, &thpool_p->thcount_lock);
}
pthread_mutex_unlock(&thpool_p->thcount_lock);
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}
/* Destroy the threadpool */
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void thpool_destroy(thpool_* thpool_p){
/* No need to destory if it's NULL */
if (thpool_p == NULL) return ;
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volatile int threads_total = thpool_p->num_threads_alive;
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/* End each thread 's infinite loop */
threads_keepalive = 0;
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/* Give one second to kill idle threads */
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double TIMEOUT = 1.0;
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time_t start, end;
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double tpassed = 0.0;
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time (&start);
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while (tpassed < TIMEOUT && thpool_p->num_threads_alive){
bsem_post_all(thpool_p->jobqueue.has_jobs);
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time (&end);
tpassed = difftime(end,start);
}
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/* Poll remaining threads */
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while (thpool_p->num_threads_alive){
bsem_post_all(thpool_p->jobqueue.has_jobs);
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sleep(1);
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}
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/* Job queue cleanup */
jobqueue_destroy(&thpool_p->jobqueue);
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/* Deallocs */
int n;
for (n=0; n < threads_total; n++){
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thread_destroy(thpool_p->threads[n]);
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}
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free(thpool_p->threads);
free(thpool_p);
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}
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/* Pause all threads in threadpool */
void thpool_pause(thpool_* thpool_p) {
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int n;
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for (n=0; n < thpool_p->num_threads_alive; n++){
pthread_kill(thpool_p->threads[n]->pthread, SIGUSR1);
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}
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}
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/* Resume all threads in threadpool */
void thpool_resume(thpool_* thpool_p) {
// resuming a single threadpool hasn't been
// implemented yet, meanwhile this supresses
// the warnings
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(void)thpool_p;
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threads_on_hold = 0;
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}
int thpool_num_threads_working(thpool_* thpool_p){
return thpool_p->num_threads_working;
}
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/* ============================ THREAD ============================== */
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/* Initialize a thread in the thread pool
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*
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* @param thread address to the pointer of the thread to be created
* @param id id to be given to the thread
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* @return 0 on success, -1 otherwise.
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*/
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static int thread_init (thpool_* thpool_p, struct thread** thread_p, int id){
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*thread_p = (struct thread*)malloc(sizeof(struct thread));
if (*thread_p == NULL){
err("thread_init(): Could not allocate memory for thread\n");
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return -1;
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}
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(*thread_p)->thpool_p = thpool_p;
(*thread_p)->id = id;
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pthread_create(&(*thread_p)->pthread, NULL, (void *)thread_do, (*thread_p));
pthread_detach((*thread_p)->pthread);
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return 0;
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}
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/* Sets the calling thread on hold */
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static void thread_hold(int sig_id) {
(void)sig_id;
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threads_on_hold = 1;
while (threads_on_hold){
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sleep(1);
}
}
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/* What each thread is doing
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*
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* In principle this is an endless loop. The only time this loop gets interuppted is once
* thpool_destroy() is invoked or the program exits.
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*
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* @param thread thread that will run this function
* @return nothing
*/
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static void* thread_do(struct thread* thread_p){
/* Set thread name for profiling and debuging */
char thread_name[128] = {0};
sprintf(thread_name, "thread-pool-%d", thread_p->id);
#if defined(__linux__)
/* Use prctl instead to prevent using _GNU_SOURCE flag and implicit declaration */
prctl(PR_SET_NAME, thread_name);
#elif defined(__APPLE__) && defined(__MACH__)
pthread_setname_np(thread_name);
#else
err("thread_do(): pthread_setname_np is not supported on this system");
#endif
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/* Assure all threads have been created before starting serving */
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thpool_* thpool_p = thread_p->thpool_p;
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/* Register signal handler */
struct sigaction act;
sigemptyset(&act.sa_mask);
act.sa_flags = 0;
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act.sa_handler = thread_hold;
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if (sigaction(SIGUSR1, &act, NULL) == -1) {
err("thread_do(): cannot handle SIGUSR1");
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}
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/* Mark thread as alive (initialized) */
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pthread_mutex_lock(&thpool_p->thcount_lock);
thpool_p->num_threads_alive += 1;
pthread_mutex_unlock(&thpool_p->thcount_lock);
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while(threads_keepalive){
bsem_wait(thpool_p->jobqueue.has_jobs);
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if (threads_keepalive){
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pthread_mutex_lock(&thpool_p->thcount_lock);
thpool_p->num_threads_working++;
pthread_mutex_unlock(&thpool_p->thcount_lock);
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/* Read job from queue and execute it */
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void (*func_buff)(void*);
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void* arg_buff;
job* job_p = jobqueue_pull(&thpool_p->jobqueue);
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if (job_p) {
func_buff = job_p->function;
arg_buff = job_p->arg;
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func_buff(arg_buff);
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free(job_p);
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}
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pthread_mutex_lock(&thpool_p->thcount_lock);
thpool_p->num_threads_working--;
if (!thpool_p->num_threads_working) {
pthread_cond_signal(&thpool_p->threads_all_idle);
}
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pthread_mutex_unlock(&thpool_p->thcount_lock);
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}
}
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pthread_mutex_lock(&thpool_p->thcount_lock);
thpool_p->num_threads_alive --;
pthread_mutex_unlock(&thpool_p->thcount_lock);
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return NULL;
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}
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/* Frees a thread */
static void thread_destroy (thread* thread_p){
free(thread_p);
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}
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/* ============================ JOB QUEUE =========================== */
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/* Initialize queue */
static int jobqueue_init(jobqueue* jobqueue_p){
jobqueue_p->len = 0;
jobqueue_p->front = NULL;
jobqueue_p->rear = NULL;
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jobqueue_p->has_jobs = (struct bsem*)malloc(sizeof(struct bsem));
if (jobqueue_p->has_jobs == NULL){
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return -1;
}
pthread_mutex_init(&(jobqueue_p->rwmutex), NULL);
bsem_init(jobqueue_p->has_jobs, 0);
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return 0;
}
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/* Clear the queue */
static void jobqueue_clear(jobqueue* jobqueue_p){
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while(jobqueue_p->len){
free(jobqueue_pull(jobqueue_p));
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}
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jobqueue_p->front = NULL;
jobqueue_p->rear = NULL;
bsem_reset(jobqueue_p->has_jobs);
jobqueue_p->len = 0;
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}
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/* Add (allocated) job to queue
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*/
static void jobqueue_push(jobqueue* jobqueue_p, struct job* newjob){
pthread_mutex_lock(&jobqueue_p->rwmutex);
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newjob->prev = NULL;
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switch(jobqueue_p->len){
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case 0: /* if no jobs in queue */
jobqueue_p->front = newjob;
jobqueue_p->rear = newjob;
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break;
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default: /* if jobs in queue */
jobqueue_p->rear->prev = newjob;
jobqueue_p->rear = newjob;
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}
jobqueue_p->len++;
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bsem_post(jobqueue_p->has_jobs);
pthread_mutex_unlock(&jobqueue_p->rwmutex);
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}
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/* Get first job from queue(removes it from queue)
* Notice: Caller MUST hold a mutex
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*/
static struct job* jobqueue_pull(jobqueue* jobqueue_p){
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pthread_mutex_lock(&jobqueue_p->rwmutex);
job* job_p = jobqueue_p->front;
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switch(jobqueue_p->len){
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case 0: /* if no jobs in queue */
break;
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case 1: /* if one job in queue */
jobqueue_p->front = NULL;
jobqueue_p->rear = NULL;
jobqueue_p->len = 0;
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break;
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default: /* if >1 jobs in queue */
jobqueue_p->front = job_p->prev;
jobqueue_p->len--;
/* more than one job in queue -> post it */
bsem_post(jobqueue_p->has_jobs);
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}
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pthread_mutex_unlock(&jobqueue_p->rwmutex);
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return job_p;
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}
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/* Free all queue resources back to the system */
static void jobqueue_destroy(jobqueue* jobqueue_p){
jobqueue_clear(jobqueue_p);
free(jobqueue_p->has_jobs);
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}
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/* ======================== SYNCHRONISATION ========================= */
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/* Init semaphore to 1 or 0 */
static void bsem_init(bsem *bsem_p, int value) {
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if (value < 0 || value > 1) {
err("bsem_init(): Binary semaphore can take only values 1 or 0");
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exit(1);
}
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pthread_mutex_init(&(bsem_p->mutex), NULL);
pthread_cond_init(&(bsem_p->cond), NULL);
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bsem_p->v = value;
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}
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/* Reset semaphore to 0 */
static void bsem_reset(bsem *bsem_p) {
bsem_init(bsem_p, 0);
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}
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/* Post to at least one thread */
static void bsem_post(bsem *bsem_p) {
pthread_mutex_lock(&bsem_p->mutex);
bsem_p->v = 1;
pthread_cond_signal(&bsem_p->cond);
pthread_mutex_unlock(&bsem_p->mutex);
}
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/* Post to all threads */
static void bsem_post_all(bsem *bsem_p) {
pthread_mutex_lock(&bsem_p->mutex);
bsem_p->v = 1;
pthread_cond_broadcast(&bsem_p->cond);
pthread_mutex_unlock(&bsem_p->mutex);
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}
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/* Wait on semaphore until semaphore has value 0 */
static void bsem_wait(bsem* bsem_p) {
pthread_mutex_lock(&bsem_p->mutex);
while (bsem_p->v != 1) {
pthread_cond_wait(&bsem_p->cond, &bsem_p->mutex);
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}
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bsem_p->v = 0;
pthread_mutex_unlock(&bsem_p->mutex);
}