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The main function is based on libevent, but there is a long run task in the function. So start N treads to run the tasks. Is is this idea OK? And how to use libevent and pthread together in C?

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This is easy enough to do with processes, if you look at OpenBSD's relayd, there's code for multiple processes handling incoming requests. –  tbert Jun 20 '12 at 11:14

3 Answers 3

That would work.

In the I/O callback function delegates time consuming job to another thread of a thread pool. The exact mechanics depend on the interface of the worker thread or the thread pool.

To communicate the result back from the worker thread to the I/O thread use a pipe. The worker thread writes the pointer to the result object to the pipe and the I/O thread wakes up and read the pointer from the pipe.

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There is a multithreaded libevent example in this blog post: http://www.roncemer.com/multi-threaded-libevent-server-example

His solution is, to quote:

The solution is to create one libevent event queue (AKA event_base) per active connection, each with its own event pump thread. This project does exactly that, giving you everything you need to write high-performance, multi-threaded, libevent-based socket servers.

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Broken link or maybe the server is down. Please copy and paste code in addition to URLs rather than providing just the links. –  enthusiasticgeek Feb 7 '13 at 15:01
1  
@enthusiasticgeek, The server is up and a search on his blog shows no posts on libevent, so maybe he found a flaw and just deleted the post. Here is a snapshot of the page from 2012: web.archive.org/web/20120707080222/http://www.roncemer.com/… Here is the sourceforge project linked-to from the snapshot: sourceforge.net/projects/libevent-thread I haven't looked at this for a while but you are welcome to cut and paste some code yourself if you have your head in the problem right now. –  ahcox Feb 9 '13 at 1:53
    
Thanks for the links! –  enthusiasticgeek Feb 10 '13 at 5:03

NOTE This is for libev not libevent but the idea may apply.

Here I present an example for the community. Please comment and let me know if there are any noticable bugs. This example could include a signal handler for thread termination and graceful exit in the future.

//This program is demo for using pthreads with libev. 
//Try using Timeout values as large as 1.0 and as small as 0.000001
//and notice the difference in the output

//(c) 2009 debuguo
//(c) 2013 enthusiasticgeek for stack overflow
//Free to distribute and improve the code. Leave credits intact
//compile using:           gcc -g test.c -o test -lpthread -lev

#include <ev.h>
#include <stdio.h> // for puts
#include <stdlib.h>
#include <pthread.h>

pthread_mutex_t lock;
double timeout = 0.00001;
ev_timer timeout_watcher;
int timeout_count = 0;

ev_async async_watcher;
int async_count = 0;

struct ev_loop* loop2;

void* loop2thread(void* args)
{ 
    // now wait for events to arrive on the inner loop
    ev_loop(loop2, 0);
    return NULL;
}

static void async_cb (EV_P_ ev_async *w, int revents)
{
    //puts ("async ready");
    pthread_mutex_lock(&lock);     //Don't forget locking
    ++async_count;
    printf("async = %d, timeout = %d \n", async_count, timeout_count);
    pthread_mutex_unlock(&lock);   //Don't forget unlocking
}

static void timeout_cb (EV_P_ ev_timer *w, int revents) // Timer callback function
{
    //puts ("timeout");
    if(ev_async_pending(&async_watcher)==false){ //the event has not yet been processed (or even noted) by the event loop? (i.e. Is it serviced? If yes then proceed to)
        ev_async_send(loop2, &async_watcher); //Sends/signals/activates the given ev_async watcher, that is, feeds an EV_ASYNC event on the watcher into the event loop. 
    }

    pthread_mutex_lock(&lock);     //Don't forget locking
    ++timeout_count;
    pthread_mutex_unlock(&lock);   //Don't forget unlocking
    w->repeat = timeout;
    ev_timer_again(loop, &timeout_watcher); //Start the timer again.
}

int main (int argc, char** argv)
{
    if (argc < 2) {
        puts("Timeout value missing.\n./demo <timeout>");
        return -1;
    }
    timeout = atof(argv[1]);

    struct ev_loop *loop = EV_DEFAULT;  //or ev_default_loop (0);

    //Initialize pthread
    pthread_mutex_init(&lock, NULL);
    pthread_t thread;

    // This loop sits in the pthread
    loop2 = ev_loop_new(0);

    //This block is specifically used pre-empting thread (i.e. temporary interruption and suspension of a task, without asking for its cooperation, with the intention to resume that task later.)  
    //This takes into account thread safety
    ev_async_init(&async_watcher, async_cb);
    ev_async_start(loop2, &async_watcher);
    pthread_create(&thread, NULL, loop2thread, NULL);

    ev_timer_init (&timeout_watcher, timeout_cb, timeout, 0.); // Non repeating timer. The timer starts repeating in the timeout callback function
    ev_timer_start (loop, &timeout_watcher);

    // now wait for events to arrive on the main loop
    ev_loop(loop, 0);
    //Wait on threads for execution
    pthread_join(thread, NULL);

    pthread_mutex_destroy(&lock);
    return 0;
}
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