ZLMediaKit/api/source/mk_thread.cpp

179 lines
5.6 KiB
C++

/*
* Copyright (c) 2016-present The ZLMediaKit project authors. All Rights Reserved.
*
* This file is part of ZLMediaKit(https://github.com/ZLMediaKit/ZLMediaKit).
*
* Use of this source code is governed by MIT-like license that can be found in the
* LICENSE file in the root of the source tree. All contributing project authors
* may be found in the AUTHORS file in the root of the source tree.
*/
#include "mk_thread.h"
#include "mk_tcp_private.h"
#include "Util/logger.h"
#include "Poller/EventPoller.h"
#include "Thread/WorkThreadPool.h"
using namespace std;
using namespace toolkit;
API_EXPORT mk_thread API_CALL mk_thread_from_tcp_session(mk_tcp_session ctx){
assert(ctx);
SessionForC *obj = (SessionForC *)ctx;
return (mk_thread)(obj->getPoller().get());
}
API_EXPORT mk_thread API_CALL mk_thread_from_tcp_client(mk_tcp_client ctx){
assert(ctx);
TcpClientForC::Ptr *client = (TcpClientForC::Ptr *)ctx;
return (mk_thread)((*client)->getPoller().get());
}
API_EXPORT mk_thread API_CALL mk_thread_from_pool(){
return (mk_thread)(EventPollerPool::Instance().getPoller().get());
}
API_EXPORT mk_thread API_CALL mk_thread_from_pool_work(){
return (mk_thread)(WorkThreadPool::Instance().getPoller().get());
}
API_EXPORT void API_CALL mk_async_do(mk_thread ctx,on_mk_async cb, void *user_data){
assert(ctx && cb);
EventPoller *poller = (EventPoller *)ctx;
poller->async([cb,user_data](){
cb(user_data);
});
}
API_EXPORT void API_CALL mk_async_do2(mk_thread ctx, on_mk_async cb, void *user_data, on_user_data_free user_data_free){
assert(ctx && cb);
EventPoller *poller = (EventPoller *)ctx;
std::shared_ptr<void> ptr(user_data, user_data_free ? user_data_free : [](void *) {});
poller->async([cb, ptr]() { cb(ptr.get()); });
}
API_EXPORT void API_CALL mk_async_do_delay(mk_thread ctx, size_t ms, on_mk_async cb, void *user_data) {
mk_async_do_delay2(ctx, ms, cb, user_data, nullptr);
}
API_EXPORT void API_CALL mk_async_do_delay2(mk_thread ctx, size_t ms, on_mk_async cb, void *user_data, on_user_data_free user_data_free){
assert(ctx && cb && ms);
EventPoller *poller = (EventPoller *)ctx;
std::shared_ptr<void> ptr(user_data, user_data_free ? user_data_free : [](void *) {});
poller->doDelayTask(ms, [cb, ptr]() {
cb(ptr.get());
return 0;
});
}
API_EXPORT void API_CALL mk_sync_do(mk_thread ctx,on_mk_async cb, void *user_data){
assert(ctx && cb);
EventPoller *poller = (EventPoller *)ctx;
poller->sync([cb, user_data]() { cb(user_data); });
}
class TimerForC : public std::enable_shared_from_this<TimerForC>{
public:
using Ptr = std::shared_ptr<TimerForC>;
TimerForC(on_mk_timer cb, std::shared_ptr<void> user_data) {
_cb = cb;
_user_data = std::move(user_data);
}
uint64_t operator()(){
lock_guard<recursive_mutex> lck(_mxt);
if(!_cb){
return 0;
}
return _cb(_user_data.get());
}
void cancel(){
lock_guard<recursive_mutex> lck(_mxt);
_cb = nullptr;
_task->cancel();
}
void start(uint64_t ms ,EventPoller &poller){
weak_ptr<TimerForC> weak_self = shared_from_this();
_task = poller.doDelayTask(ms, [weak_self]() {
auto strong_self = weak_self.lock();
if (!strong_self) {
return (uint64_t) 0;
}
return (*strong_self)();
});
}
private:
on_mk_timer _cb = nullptr;
std::shared_ptr<void> _user_data;
recursive_mutex _mxt;
EventPoller::DelayTask::Ptr _task;
};
API_EXPORT mk_timer API_CALL mk_timer_create(mk_thread ctx, uint64_t delay_ms, on_mk_timer cb, void *user_data) {
return mk_timer_create2(ctx, delay_ms, cb, user_data, nullptr);
}
API_EXPORT mk_timer API_CALL mk_timer_create2(mk_thread ctx, uint64_t delay_ms, on_mk_timer cb, void *user_data, on_user_data_free user_data_free){
assert(ctx && cb);
EventPoller *poller = (EventPoller *)ctx;
std::shared_ptr<void> ptr(user_data, user_data_free ? user_data_free : [](void *) {});
TimerForC::Ptr *ret = new TimerForC::Ptr(new TimerForC(cb, ptr));
(*ret)->start(delay_ms,*poller);
return (mk_timer)ret;
}
API_EXPORT void API_CALL mk_timer_release(mk_timer ctx){
assert(ctx);
TimerForC::Ptr *obj = (TimerForC::Ptr *)ctx;
(*obj)->cancel();
delete obj;
}
class WorkThreadPoolForC : public TaskExecutorGetterImp {
public:
WorkThreadPoolForC(const char *name, size_t n_thread, int priority) {
// 最低优先级 [AUTO-TRANSLATED:cd1f0dbc]
// Lowest priority
addPoller(name, n_thread, (ThreadPool::Priority) priority, false);
}
EventPoller::Ptr getPoller() {
return static_pointer_cast<EventPoller>(getExecutor());
}
};
API_EXPORT mk_thread_pool API_CALL mk_thread_pool_create(const char *name, size_t n_thread, int priority) {
return (mk_thread_pool)new WorkThreadPoolForC(name, n_thread, priority);
}
API_EXPORT int API_CALL mk_thread_pool_release(mk_thread_pool pool) {
assert(pool);
delete (WorkThreadPoolForC *) pool;
return 0;
}
API_EXPORT mk_thread API_CALL mk_thread_from_thread_pool(mk_thread_pool pool) {
assert(pool);
return (mk_thread)(((WorkThreadPoolForC *) pool)->getPoller().get());
}
API_EXPORT mk_sem API_CALL mk_sem_create() {
return (mk_sem)new toolkit::semaphore;
}
API_EXPORT void API_CALL mk_sem_release(mk_sem sem) {
assert(sem);
delete (toolkit::semaphore *) sem;
}
API_EXPORT void API_CALL mk_sem_post(mk_sem sem, size_t n) {
assert(sem);
((toolkit::semaphore *) sem)->post(n);
}
API_EXPORT void API_CALL mk_sem_wait(mk_sem sem) {
assert(sem);
((toolkit::semaphore *) sem)->wait();
}