extra yield

[mirrors/Programs.git] / c / pthread_extra / pthread_pause.c

#define __PTHREAD_EXTRA_INTERNAL

#include <pthread.h>
#include <pthread_extra.h>
#include <signal.h>
#include <errno.h>
#include <unistd.h>
#include <sys/resource.h>
//#include <stdio.h>
#include <stdlib.h>
#include <assert.h>
//#include <sys/time.h>

void pthread_pause_handler() {
        //Do nothing when there are more signals pending (to cleanup the queue)
        sigset_t pending;
        sigpending(&pending);
        if(sigismember(&pending, PTHREAD_XSIG_STOP)) return;

        //Keep waiting for signals until we are supposed to be running
        sigset_t sigset;
        sigfillset(&sigset);
        sigdelset(&sigset, PTHREAD_XSIG_STOP);
        if(!pthread_user_data_internal(pthread_self())->running) {
                sigsuspend(&sigset);
        }
}

void pthread_pause_enable() {
        //Add thread to internal registry
        pthread_user_data_internal(pthread_self());

        //Nesting signals too deep is not good for stack
        //You can get runtime stats using following command:
        //grep -i sig /proc/$(pgrep binary)/status
        struct rlimit sigq = {.rlim_cur = 32, .rlim_max=32};
        setrlimit(RLIMIT_SIGPENDING, &sigq);

        //Setup signal handler
        signal(PTHREAD_XSIG_STOP, pthread_pause_handler);

        //Unblock signal
        sigset_t sigset;
        sigemptyset(&sigset);
        sigaddset(&sigset, PTHREAD_XSIG_STOP);
        pthread_sigmask(SIG_UNBLOCK, &sigset, NULL);
}

void pthread_pause_disable() {
        //Add thread to internal registry
        pthread_user_data_internal(pthread_self());

        //Block signal
        sigset_t sigset;
        sigemptyset(&sigset);
        sigaddset(&sigset, PTHREAD_XSIG_STOP);
        pthread_sigmask(SIG_BLOCK, &sigset, NULL);
}

int pthread_pause_reschedule(pthread_t thread) {
        //Send signal to initiate pause handler
        while(pthread_kill(thread, PTHREAD_XSIG_STOP) == EAGAIN) usleep(1000);
        return 0;
}

int pthread_extra_yield() {
        //Yield to both schedulers
        pthread_pause_reschedule(pthread_self());
        return pthread_yield();
}

int pthread_pause(pthread_t thread) {
        //Set thread as paused and notify it via signal (wait when queue full)
        pthread_user_data_internal(thread)->running = 0;
        pthread_pause_reschedule(thread);
        return 0;
}

int pthread_unpause(pthread_t thread) {
        //Set thread as running and notify it via signal (wait when queue full)
        pthread_user_data_internal(thread)->running = 1;
        pthread_pause_reschedule(thread);
        return 0;
}



// Wrappers ///////////////////////////////////////////////////////////


typedef struct pthread_extra_wrapper_t {
        void *(*start_routine)(void *);
        void *restrict arg;
} pthread_extra_wrapper_t;

void *pthread_extra_thread_wrapper(void *arg) {
        pthread_extra_wrapper_t task = *((pthread_extra_wrapper_t*)arg);
        free(arg);

        //Register new thread to user data structure
        pthread_user_data_internal(pthread_self());

        //TODO: user_data should do this automaticaly?
        pthread_cleanup_push(pthread_user_data_cleanup, (void *)pthread_self());

        //Check if we should be running according to pthread_pause sub-scheduler
        pthread_pause_reschedule(pthread_self());

        return task.start_routine(task.arg);

        pthread_cleanup_pop(1); //Needed by pthread_cleanup_push() macro
}

int pthread_extra_create(pthread_t *restrict thread,
                          const pthread_attr_t *restrict attr,
                          void *(*start_routine)(void *),
                          void *restrict arg) {

        pthread_extra_wrapper_t *task = malloc(sizeof(pthread_extra_wrapper_t));
        assert(task != NULL);
        task->start_routine=start_routine;
        task->arg=arg;
        return pthread_create(thread, attr, pthread_extra_thread_wrapper, task);
}