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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_api.h"
#include "swoole_string.h"
#include "swoole_socket.h"
#include "swoole_reactor.h"
#include "swoole_timer.h"
#include "swoole_async.h"
#include "swoole_util.h"
#include "swoole_coroutine_context.h"
#include <climits>
#include <functional>
#include <string>
#include <unordered_map>
typedef std::chrono::microseconds seconds_type;
#ifdef SW_CORO_TIME
#define CALC_EXECUTE_USEC(yield_coroutine, resume_coroutine) calc_execute_usec(yield_coroutine, resume_coroutine)
#else
#define CALC_EXECUTE_USEC(yield_coroutine, resume_coroutine)
#endif
namespace swoole {
class Coroutine {
public:
constexpr static int STACK_ALIGNED_SIZE = (4 * 1024);
constexpr static int MIN_STACK_SIZE = (64 * 1024);
constexpr static int MAX_STACK_SIZE = (16 * 1024 * 1024);
constexpr static long MAX_NUM_LIMIT = LONG_MAX;
enum State {
STATE_INIT = 0,
STATE_WAITING,
STATE_RUNNING,
STATE_END,
};
enum Error {
ERR_END = 0,
ERR_LIMIT = -1,
ERR_INVALID = -2,
};
enum ResumeCode {
RC_OK = 0,
RC_TIMEDOUT = -1,
RC_CANCELED = -2,
};
typedef void (*SwapCallback)(void *);
typedef std::function<void(void)> BailoutCallback;
typedef std::function<bool(swoole::Coroutine *)> CancelFunc;
void resume();
void yield();
void yield(CancelFunc *cancel_fn);
bool cancel();
bool yield_ex(double timeout = -1);
enum State get_state() const {
return state;
}
long get_init_msec() const {
return init_msec;
}
long get_cid() const {
return cid;
}
Coroutine *get_origin() {
return origin;
}
long get_origin_cid() {
return sw_likely(origin) ? origin->get_cid() : -1;
}
void *get_task() {
return task;
}
bool is_end() {
return ctx.is_end();
}
bool is_canceled() const {
return resume_code_ == RC_CANCELED;
}
bool is_timedout() const {
return resume_code_ == RC_TIMEDOUT;
}
bool is_suspending() const {
return state == STATE_WAITING;
}
void set_task(void *_task) {
task = _task;
}
void set_cancel_fn(CancelFunc *cancel_fn) {
cancel_fn_ = cancel_fn;
}
long get_execute_usec() const {
return time<seconds_type>(true) - switch_usec + execute_usec;
}
coroutine::Context &get_ctx() {
return ctx;
}
static std::unordered_map<long, Coroutine *> coroutines;
static void set_on_yield(SwapCallback func);
static void set_on_resume(SwapCallback func);
static void set_on_close(SwapCallback func);
static void bailout(BailoutCallback func);
static inline bool run(const CoroutineFunc &fn, void *args = nullptr) {
swoole_event_init(SW_EVENTLOOP_WAIT_EXIT);
long cid = create(fn, args);
swoole_event_wait();
return cid > 0;
}
static inline long create(const CoroutineFunc &fn, void *args = nullptr) {
#ifdef SW_USE_THREAD_CONTEXT
try {
return (new Coroutine(fn, args))->run();
} catch (const std::system_error &e) {
swoole_set_last_error(e.code().value());
swoole_warning("failed to create coroutine, Error: %s[%d]", e.what(), swoole_get_last_error());
return -1;
}
#else
return (new Coroutine(fn, args))->run();
#endif
}
static inline Coroutine *init_main_coroutine() {
Coroutine *co = new Coroutine(0, nullptr, nullptr);
co->state = STATE_RUNNING;
return co;
}
static void activate();
static void deactivate();
static inline Coroutine *get_current() {
return current;
}
static inline Coroutine *get_current_safe() {
if (sw_unlikely(!current)) {
swoole_fatal_error(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(MIN_STACK_SIZE, SW_MIN(size, MAX_STACK_SIZE)), 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 inline long get_elapsed(long cid) {
Coroutine *co = cid == 0 ? get_current() : get_by_cid(cid);
return sw_likely(co) ? Timer::get_absolute_msec() - co->get_init_msec() : -1;
}
static inline long get_execute_time(long cid) {
Coroutine *co = cid == 0 ? get_current() : get_by_cid(cid);
return sw_likely(co) ? co->get_execute_usec() : -1;
}
static inline void calc_execute_usec(Coroutine *yield_coroutine, Coroutine *resume_coroutine) {
long current_usec = time<seconds_type>(true);
if (yield_coroutine) {
yield_coroutine->execute_usec += current_usec - yield_coroutine->switch_usec;
}
if (resume_coroutine) {
resume_coroutine->switch_usec = current_usec;
}
}
static void print_list();
protected:
static Coroutine *current;
static long last_cid;
static uint64_t peak_num;
static size_t stack_size;
static SwapCallback on_yield; /* before yield */
static SwapCallback on_resume; /* before resume */
static SwapCallback on_close; /* before close */
static BailoutCallback on_bailout; /* when bailout */
static bool activated;
enum State state = STATE_INIT;
enum ResumeCode resume_code_ = RC_OK;
long cid;
long init_msec = Timer::get_absolute_msec();
long switch_usec = time<seconds_type>(true);
long execute_usec = 0;
void *task = nullptr;
coroutine::Context ctx;
Coroutine *origin = nullptr;
CancelFunc *cancel_fn_ = nullptr;
Coroutine(const CoroutineFunc &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();
}
}
Coroutine(long _cid, const CoroutineFunc &fn, void *private_data) : ctx(stack_size, fn, private_data) {
cid = _cid;
}
long run() {
long cid = this->cid;
origin = current;
current = this;
CALC_EXECUTE_USEC(origin, nullptr);
state = STATE_RUNNING;
ctx.swap_in();
check_end();
return cid;
}
void check_end() {
if (ctx.is_end()) {
close();
} else if (sw_unlikely(on_bailout)) {
SW_ASSERT(current == nullptr);
on_bailout();
}
}
void close();
};
//-------------------------------------------------------------------------------
namespace coroutine {
bool async(async::Handler handler, AsyncEvent &event, double timeout = -1);
bool async(const std::function<void(void)> &fn, double timeout = -1);
bool run(const CoroutineFunc &fn, void *arg = nullptr);
} // namespace coroutine
//-------------------------------------------------------------------------------
} // namespace swoole
/**
* for gdb
*/
swoole::Coroutine *swoole_coroutine_iterator_each();
void swoole_coroutine_iterator_reset();
swoole::Coroutine *swoole_coroutine_get(long cid);
size_t swoole_coroutine_count();