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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 <mikan.tenny@gmail.com> | +----------------------------------------------------------------------+ */ #pragma once #include "swoole_api.h" #include "context.h" #include "async.h" #include <limits.h> #include <string> #include <unordered_map> #define SW_CORO_STACK_ALIGNED_SIZE (4 * 1024) #define SW_CORO_MIN_STACK_SIZE (256 * 1024) #define SW_CORO_MAX_STACK_SIZE (16 * 1024 * 1024) #define SW_CORO_MAX_NUM_LIMIT LONG_MAX // TODO: remove it typedef enum { SW_CORO_ERR_END = 0, SW_CORO_ERR_LIMIT = -1, SW_CORO_ERR_INVALID = -2, } sw_coro_error; typedef enum { SW_CORO_INIT = 0, SW_CORO_WAITING, SW_CORO_RUNNING, SW_CORO_END, } sw_coro_state; typedef void (*sw_coro_on_swap_t)(void*); typedef void (*sw_coro_bailout_t)(); #ifdef SW_CO_MT #define sw_co_thread_local thread_local #else #define sw_co_thread_local #endif namespace swoole { struct socket_poll_fd { int16_t events; int16_t revents; void *ptr; socket_poll_fd(int16_t _event, void *_ptr) { events = _event; ptr = _ptr; revents = 0; } }; class Coroutine { public: void resume(); void yield(); void resume_naked(); void yield_naked(); inline sw_coro_state get_state() { return state; } inline long get_cid() { return cid; } inline Coroutine* get_origin() { return origin; } inline long get_origin_cid() { return sw_likely(origin) ? origin->get_cid() : -1; } inline void* get_task() { return task; } inline bool is_end() { return ctx.is_end(); } inline void set_task(void *_task) { task = _task; } static sw_co_thread_local std::unordered_map<long, Coroutine*> coroutines; static void set_on_yield(sw_coro_on_swap_t func); static void set_on_resume(sw_coro_on_swap_t func); static void set_on_close(sw_coro_on_swap_t func); static void bailout(sw_coro_bailout_t func); static inline long create(coroutine_func_t fn, void* args = nullptr) { return (new Coroutine(fn, args))->run(); } static inline Coroutine* get_current() { return current; } static inline Coroutine* get_current_safe() { if (sw_unlikely(!current)) { swFatalError(SW_ERROR_CO_OUT_OF_COROUTINE, "API must be called in the coroutine"); } return current; } static inline void* get_current_task() { return sw_likely(current) ? current->get_task() : nullptr; } static inline long get_current_cid() { return sw_likely(current) ? current->get_cid() : -1; } static inline Coroutine* get_by_cid(long cid) { auto i = coroutines.find(cid); return sw_likely(i != coroutines.end()) ? i->second : nullptr; } static inline void* get_task_by_cid(long cid) { Coroutine *co = get_by_cid(cid); return sw_likely(co) ? co->get_task() : nullptr; } static inline size_t get_stack_size() { return stack_size; } static inline void set_stack_size(size_t size) { stack_size = SW_MEM_ALIGNED_SIZE_EX(SW_MAX(SW_CORO_MIN_STACK_SIZE, SW_MIN(size, SW_CORO_MAX_STACK_SIZE)), SW_CORO_STACK_ALIGNED_SIZE); } static inline long get_last_cid() { return last_cid; } static inline size_t count() { return coroutines.size(); } static inline uint64_t get_peak_num() { return peak_num; } static void print_list(); protected: static sw_co_thread_local Coroutine* current; static sw_co_thread_local long last_cid; static sw_co_thread_local uint64_t peak_num; static size_t stack_size; static sw_coro_on_swap_t on_yield; /* before yield */ static sw_coro_on_swap_t on_resume; /* before resume */ static sw_coro_on_swap_t on_close; /* before close */ static sw_coro_bailout_t on_bailout; /* when bailout */ sw_coro_state state = SW_CORO_INIT; long cid; void *task = nullptr; Context ctx; Coroutine *origin; Coroutine(coroutine_func_t fn, void *private_data) : ctx(stack_size, fn, private_data) { cid = ++last_cid; coroutines[cid] = this; if (sw_unlikely(count() > peak_num)) { peak_num = count(); } } inline long run() { long cid = this->cid; origin = current; current = this; ctx.swap_in(); check_end(); return cid; } inline void check_end() { if (ctx.is_end()) { close(); } else if (sw_unlikely(on_bailout)) { SW_ASSERT(current == nullptr); on_bailout(); // expect that never here exit(1); } } void close(); }; //------------------------------------------------------------------------------- namespace coroutine { bool async(swAio_handler handler, swAio_event &event, double timeout = -1); } //------------------------------------------------------------------------------- } /** * for gdb */ swoole::Coroutine* swoole_coro_iterator_each(); void swoole_coro_iterator_reset(); swoole::Coroutine* swoole_coro_get(long cid); size_t swoole_coro_count();