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swoole_timer.h
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/* +----------------------------------------------------------------------+ | Swoole | +----------------------------------------------------------------------+ | This source file is subject to version 2.0 of the Apache license, | | that is bundled with this package in the file LICENSE, and is | | available through the world-wide-web at the following url: | | http://www.apache.org/licenses/LICENSE-2.0.html | | If you did not receive a copy of the Apache2.0 license and are unable| | to obtain it through the world-wide-web, please send a note to | | license@swoole.com so we can mail you a copy immediately. | +----------------------------------------------------------------------+ | Author: Tianfeng Han <rango@swoole.com> | | Twosee <twose@qq.com> | +----------------------------------------------------------------------+ */ #pragma once #include "swoole.h" #include "swoole_heap.h" #include "swoole_reactor.h" #include <unordered_map> #define SW_TIMER_MIN_MS 1 #define SW_TIMER_MIN_SEC 0.001 #define SW_TIMER_MAX_MS LONG_MAX #define SW_TIMER_MAX_SEC ((double) LONG_MAX / 1000) namespace swoole { typedef std::function<void(TimerNode *)> TimerDestructor; struct TimerNode { enum Type { TYPE_KERNEL, TYPE_PHP, }; long id; enum Type type; int64_t exec_msec; int64_t interval; uint64_t exec_count; uint64_t round; bool removed; HeapNode *heap_node; TimerCallback callback; void *data; TimerDestructor destructor; }; class Timer { private: /*--------------signal timer--------------*/ Reactor *reactor_ = nullptr; Heap heap; std::unordered_map<long, TimerNode *> map; uint64_t round; long _next_id; long _current_id; /*---------------event timer--------------*/ struct timeval base_time; /*----------------------------------------*/ int (*set)(Timer *timer, long exec_msec) = nullptr; void (*close)(Timer *timer) = nullptr; bool init_reactor(Reactor *reactor); bool init_system_timer(); public: long next_msec_; Timer(); ~Timer(); static int now(struct timeval *time); int64_t get_relative_msec() { struct timeval _now; if (now(&_now) < 0) { return SW_ERR; } int64_t msec1 = (_now.tv_sec - base_time.tv_sec) * 1000; int64_t msec2 = (_now.tv_usec - base_time.tv_usec) / 1000; return msec1 + msec2; } inline static int64_t get_absolute_msec() { struct timeval now; if (Timer::now(&now) < 0) { return SW_ERR; } int64_t msec1 = (now.tv_sec) * 1000; int64_t msec2 = (now.tv_usec) / 1000; return msec1 + msec2; } Reactor *get_reactor() { return reactor_; } bool init(); TimerNode *add(long _msec, bool persistent, void *data, const TimerCallback &callback); bool remove(TimerNode *tnode); void update(TimerNode *tnode) { heap.change_priority(tnode->exec_msec, tnode->heap_node); } void delay(TimerNode *tnode, long delay_ms) { long now_ms = get_relative_msec(); tnode->exec_msec = (now_ms < 0 ? tnode->exec_msec : now_ms) + delay_ms; update(tnode); } void reinit(Reactor *reactor); int select(); TimerNode *get(long id) { auto it = map.find(id); if (it == map.end()) { return nullptr; } else { return it->second; } } TimerNode *get(long id, const enum TimerNode::Type type) { TimerNode *tnode = get(id); return (tnode && tnode->type == type) ? tnode : nullptr; } size_t count() { return map.size(); } uint64_t get_round() { return round; } bool remove(long id) { return remove(get(id)); } const std::unordered_map<long, TimerNode *> &get_map() { return map; } }; } // namespace swoole