ruby/coroutine/pthread/Context.c

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7.9 KiB
C
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/*
* This file is part of the "Coroutine" project and released under the MIT License.
*
* Created by Samuel Williams on 24/6/2021.
* Copyright, 2021, by Samuel Williams.
*/
#include "Context.h"
#include <stdlib.h>
#include <stdio.h>
#include <errno.h>
static const int DEBUG = 0;
static
int check(const char * message, int result) {
if (result) {
switch (result) {
case EDEADLK:
if (DEBUG) fprintf(stderr, "deadlock detected result=%d errno=%d\n", result, errno);
break;
default:
if (DEBUG) fprintf(stderr, "error detected result=%d errno=%d\n", result, errno);
perror(message);
}
}
assert(result == 0);
return result;
}
void coroutine_initialize_main(struct coroutine_context * context) {
context->id = pthread_self();
check("coroutine_initialize_main:pthread_cond_init",
pthread_cond_init(&context->schedule, NULL)
);
context->shared = (struct coroutine_shared*)malloc(sizeof(struct coroutine_shared));
assert(context->shared);
context->shared->main = context;
context->shared->count = 1;
if (DEBUG) {
pthread_mutexattr_t attr;
pthread_mutexattr_init(&attr);
pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK);
check("coroutine_initialize_main:pthread_mutex_init",
pthread_mutex_init(&context->shared->guard, &attr)
);
} else {
check("coroutine_initialize_main:pthread_mutex_init",
pthread_mutex_init(&context->shared->guard, NULL)
);
}
}
static
void coroutine_release(struct coroutine_context *context) {
if (context->shared) {
size_t count = (context->shared->count -= 1);
if (count == 0) {
if (DEBUG) fprintf(stderr, "coroutine_release:pthread_mutex_destroy(%p)\n", &context->shared->guard);
pthread_mutex_destroy(&context->shared->guard);
free(context->shared);
}
context->shared = NULL;
if (DEBUG) fprintf(stderr, "coroutine_release:pthread_cond_destroy(%p)\n", &context->schedule);
pthread_cond_destroy(&context->schedule);
}
}
void coroutine_initialize(
struct coroutine_context *context,
coroutine_start start,
void *stack,
size_t size
) {
assert(start && stack && size >= 1024);
// We will create the thread when we first transfer, but save the details now:
context->shared = NULL;
context->start = start;
context->stack = stack;
context->size = size;
}
static
int is_locked(pthread_mutex_t * mutex) {
int result = pthread_mutex_trylock(mutex);
// If we could successfully lock the mutex:
if (result == 0) {
pthread_mutex_unlock(mutex);
// We could lock the mutex, so it wasn't locked:
return 0;
} else {
// Otherwise we couldn't lock it because it's already locked:
return 1;
}
}
static
void coroutine_guard_unlock(void * _context)
{
struct coroutine_context * context = _context;
if (DEBUG) fprintf(stderr, "coroutine_guard_unlock:pthread_mutex_unlock\n");
check("coroutine_guard_unlock:pthread_mutex_unlock",
pthread_mutex_unlock(&context->shared->guard)
);
}
static
void coroutine_wait(struct coroutine_context *context)
{
if (DEBUG) fprintf(stderr, "coroutine_wait:pthread_mutex_lock(guard=%p is_locked=%d)\n", &context->shared->guard, is_locked(&context->shared->guard));
check("coroutine_wait:pthread_mutex_lock",
pthread_mutex_lock(&context->shared->guard)
);
if (DEBUG) fprintf(stderr, "coroutine_wait:pthread_mutex_unlock(guard)\n");
pthread_mutex_unlock(&context->shared->guard);
}
static
void coroutine_trampoline_cleanup(void *_context) {
struct coroutine_context * context = _context;
coroutine_release(context);
}
void * coroutine_trampoline(void * _context)
{
struct coroutine_context * context = _context;
assert(context->shared);
pthread_cleanup_push(coroutine_trampoline_cleanup, context);
coroutine_wait(context);
context->start(context->from, context);
pthread_cleanup_pop(1);
return NULL;
}
static
int coroutine_create_thread(struct coroutine_context *context)
{
int result;
pthread_attr_t attr;
result = pthread_attr_init(&attr);
if (result != 0) {
return result;
}
result = pthread_attr_setstack(&attr, context->stack, (size_t)context->size);
if (result != 0) {
pthread_attr_destroy(&attr);
return result;
}
result = pthread_cond_init(&context->schedule, NULL);
if (result != 0) {
pthread_attr_destroy(&attr);
return result;
}
result = pthread_create(&context->id, &attr, coroutine_trampoline, context);
if (result != 0) {
pthread_attr_destroy(&attr);
if (DEBUG) fprintf(stderr, "coroutine_create_thread:pthread_cond_destroy(%p)\n", &context->schedule);
pthread_cond_destroy(&context->schedule);
return result;
}
context->shared->count += 1;
return result;
}
struct coroutine_context * coroutine_transfer(struct coroutine_context * current, struct coroutine_context * target)
{
assert(current->shared);
struct coroutine_context * previous = target->from;
target->from = current;
if (DEBUG) fprintf(stderr, "coroutine_transfer:pthread_mutex_lock(guard=%p is_locked=%d)\n", &current->shared->guard, is_locked(&current->shared->guard));
pthread_mutex_lock(&current->shared->guard);
pthread_cleanup_push(coroutine_guard_unlock, current);
// First transfer:
if (target->shared == NULL) {
target->shared = current->shared;
if (DEBUG) fprintf(stderr, "coroutine_transfer:coroutine_create_thread...\n");
if (coroutine_create_thread(target)) {
if (DEBUG) fprintf(stderr, "coroutine_transfer:coroutine_create_thread failed\n");
target->shared = NULL;
target->from = previous;
return NULL;
}
} else {
if (DEBUG) fprintf(stderr, "coroutine_transfer:pthread_cond_signal(target)\n");
pthread_cond_signal(&target->schedule);
}
// A side effect of acting upon a cancellation request while in a condition wait is that the mutex is (in effect) re-acquired before calling the first cancellation cleanup handler. If cancelled, pthread_cond_wait immediately invokes cleanup handlers.
if (DEBUG) fprintf(stderr, "coroutine_transfer:pthread_cond_wait(schedule=%p, guard=%p, is_locked=%d)\n", &current->schedule, &current->shared->guard, is_locked(&current->shared->guard));
check("coroutine_transfer:pthread_cond_wait",
pthread_cond_wait(&current->schedule, &current->shared->guard)
);
if (DEBUG) fprintf(stderr, "coroutine_transfer:pthread_cleanup_pop\n");
pthread_cleanup_pop(1);
#ifdef __FreeBSD__
// Apparently required for FreeBSD:
pthread_testcancel();
#endif
target->from = previous;
return target;
}
static
void coroutine_join(struct coroutine_context * context) {
if (DEBUG) fprintf(stderr, "coroutine_join:pthread_cancel\n");
int result = pthread_cancel(context->id);
if (result == -1 && errno == ESRCH) {
// The thread may be dead due to fork, so it cannot be joined and this doesn't represent a real error:
return;
}
check("coroutine_join:pthread_cancel", result);
if (DEBUG) fprintf(stderr, "coroutine_join:pthread_join\n");
check("coroutine_join:pthread_join",
pthread_join(context->id, NULL)
);
if (DEBUG) fprintf(stderr, "coroutine_join:pthread_join done\n");
}
void coroutine_destroy(struct coroutine_context * context)
{
if (DEBUG) fprintf(stderr, "coroutine_destroy\n");
assert(context);
// We are already destroyed or never created:
if (context->shared == NULL) return;
if (context == context->shared->main) {
context->shared->main = NULL;
coroutine_release(context);
} else {
coroutine_join(context);
assert(context->shared == NULL);
}
}