emsApplication/3rdPartner/libhv/event/hevent.h

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#ifndef HV_EVENT_H_
#define HV_EVENT_H_
#include "hloop.h"
#include "iowatcher.h"
#include "rudp.h"
#include "hbuf.h"
#include "hmutex.h"
#include "array.h"
#include "list.h"
#include "heap.h"
#include "queue.h"
#define HLOOP_READ_BUFSIZE 8192 // 8K
#define READ_BUFSIZE_HIGH_WATER 65536 // 64K
#define WRITE_BUFSIZE_HIGH_WATER (1U << 23) // 8M
#define MAX_READ_BUFSIZE (1U << 24) // 16M
#define MAX_WRITE_BUFSIZE (1U << 24) // 16M
// hio_read_flags
#define HIO_READ_ONCE 0x1
#define HIO_READ_UNTIL_LENGTH 0x2
#define HIO_READ_UNTIL_DELIM 0x4
ARRAY_DECL(hio_t*, io_array);
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ARRAY_DECL(hsignal_t*, signal_array);
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QUEUE_DECL(hevent_t, event_queue);
struct hloop_s {
uint32_t flags;
hloop_status_e status;
uint64_t start_ms; // ms
uint64_t start_hrtime; // us
uint64_t end_hrtime;
uint64_t cur_hrtime;
uint64_t loop_cnt;
long pid;
long tid;
void* userdata;
//private:
// events
uint32_t intern_nevents;
uint32_t nactives;
uint32_t npendings;
// pendings: with priority as array.index
hevent_t* pendings[HEVENT_PRIORITY_SIZE];
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// signals
struct signal_array signals;
uint32_t nsignals;
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// idles
struct list_head idles;
uint32_t nidles;
// timers
struct heap timers; // monotonic time
struct heap realtimers; // realtime
uint32_t ntimers;
// ios: with fd as array.index
struct io_array ios;
uint32_t nios;
// one loop per thread, so one readbuf per loop is OK.
hbuf_t readbuf;
void* iowatcher;
// custom_events
int eventfds[2];
event_queue custom_events;
hmutex_t custom_events_mutex;
};
uint64_t hloop_next_event_id();
struct hidle_s {
HEVENT_FIELDS
uint32_t repeat;
//private:
struct list_node node;
};
#define HTIMER_FIELDS \
HEVENT_FIELDS \
uint32_t repeat; \
uint64_t next_timeout; \
struct heap_node node;
struct htimer_s {
HTIMER_FIELDS
};
struct htimeout_s {
HTIMER_FIELDS
uint32_t timeout; \
};
struct hperiod_s {
HTIMER_FIELDS
int8_t minute;
int8_t hour;
int8_t day;
int8_t week;
int8_t month;
};
QUEUE_DECL(offset_buf_t, write_queue);
// sizeof(struct hio_s)=416 on linux-x64
struct hio_s {
HEVENT_FIELDS
// flags
unsigned ready :1;
unsigned connected :1;
unsigned closed :1;
unsigned accept :1;
unsigned connect :1;
unsigned connectex :1; // for ConnectEx/DisconnectEx
unsigned recv :1;
unsigned send :1;
unsigned recvfrom :1;
unsigned sendto :1;
unsigned close :1;
unsigned alloced_readbuf :1; // for hio_alloc_readbuf
unsigned alloced_ssl_ctx :1; // for hio_new_ssl_ctx
// public:
hio_type_e io_type;
uint32_t id; // fd cannot be used as unique identifier, so we provide an id
int fd;
int error;
int events;
int revents;
struct sockaddr* localaddr;
struct sockaddr* peeraddr;
uint64_t last_read_hrtime;
uint64_t last_write_hrtime;
// read
fifo_buf_t readbuf;
unsigned int read_flags;
// for hio_read_until
union {
unsigned int read_until_length;
unsigned char read_until_delim;
};
uint32_t max_read_bufsize;
uint32_t small_readbytes_cnt; // for readbuf autosize
// write
struct write_queue write_queue;
hrecursive_mutex_t write_mutex; // lock write and write_queue
uint32_t write_bufsize;
uint32_t max_write_bufsize;
// callbacks
hread_cb read_cb;
hwrite_cb write_cb;
hclose_cb close_cb;
haccept_cb accept_cb;
hconnect_cb connect_cb;
// timers
int connect_timeout; // ms
int close_timeout; // ms
int read_timeout; // ms
int write_timeout; // ms
int keepalive_timeout; // ms
int heartbeat_interval; // ms
hio_send_heartbeat_fn heartbeat_fn;
htimer_t* connect_timer;
htimer_t* close_timer;
htimer_t* read_timer;
htimer_t* write_timer;
htimer_t* keepalive_timer;
htimer_t* heartbeat_timer;
// upstream
struct hio_s* upstream_io; // for hio_setup_upstream
// unpack
unpack_setting_t* unpack_setting; // for hio_set_unpack
// ssl
void* ssl; // for hio_set_ssl
void* ssl_ctx; // for hio_set_ssl_ctx
char* hostname; // for hssl_set_sni_hostname
// context
void* ctx; // for hio_context / hio_set_context
// private:
#if defined(EVENT_POLL) || defined(EVENT_KQUEUE)
int event_index[2]; // for poll,kqueue
#endif
#ifdef EVENT_IOCP
void* hovlp; // for iocp/overlapio
#endif
#if WITH_RUDP
rudp_t rudp;
#if WITH_KCP
kcp_setting_t* kcp_setting;
#endif
#endif
};
/*
* hio lifeline:
*
* fd =>
* hio_get => HV_ALLOC_SIZEOF(io) => hio_init => hio_ready
*
* hio_read => hio_add(HV_READ) => hio_read_cb
* hio_write => hio_add(HV_WRITE) => hio_write_cb
* hio_close => hio_done => hio_del(HV_RDWR) => hio_close_cb
*
* hloop_stop => hloop_free => hio_free => HV_FREE(io)
*/
void hio_init(hio_t* io);
void hio_ready(hio_t* io);
void hio_done(hio_t* io);
void hio_free(hio_t* io);
uint32_t hio_next_id();
void hio_accept_cb(hio_t* io);
void hio_connect_cb(hio_t* io);
void hio_handle_read(hio_t* io, void* buf, int readbytes);
void hio_read_cb(hio_t* io, void* buf, int len);
void hio_write_cb(hio_t* io, const void* buf, int len);
void hio_close_cb(hio_t* io);
void hio_del_connect_timer(hio_t* io);
void hio_del_close_timer(hio_t* io);
void hio_del_read_timer(hio_t* io);
void hio_del_write_timer(hio_t* io);
void hio_del_keepalive_timer(hio_t* io);
void hio_del_heartbeat_timer(hio_t* io);
static inline void hio_use_loop_readbuf(hio_t* io) {
hloop_t* loop = io->loop;
if (loop->readbuf.len == 0) {
loop->readbuf.len = HLOOP_READ_BUFSIZE;
HV_ALLOC(loop->readbuf.base, loop->readbuf.len);
}
io->readbuf.base = loop->readbuf.base;
io->readbuf.len = loop->readbuf.len;
}
static inline bool hio_is_loop_readbuf(hio_t* io) {
return io->readbuf.base == io->loop->readbuf.base;
}
static inline bool hio_is_alloced_readbuf(hio_t* io) {
return io->alloced_readbuf;
}
void hio_alloc_readbuf(hio_t* io, int len);
void hio_free_readbuf(hio_t* io);
void hio_memmove_readbuf(hio_t* io);
#define EVENT_ENTRY(p) container_of(p, hevent_t, pending_node)
#define IDLE_ENTRY(p) container_of(p, hidle_t, node)
#define TIMER_ENTRY(p) container_of(p, htimer_t, node)
#define EVENT_ACTIVE(ev) \
if (!ev->active) {\
ev->active = 1;\
ev->loop->nactives++;\
}\
#define EVENT_INACTIVE(ev) \
if (ev->active) {\
ev->active = 0;\
ev->loop->nactives--;\
}\
#define EVENT_PENDING(ev) \
do {\
if (!ev->pending) {\
ev->pending = 1;\
ev->loop->npendings++;\
hevent_t** phead = &ev->loop->pendings[HEVENT_PRIORITY_INDEX(ev->priority)];\
ev->pending_next = *phead;\
*phead = (hevent_t*)ev;\
}\
} while(0)
#define EVENT_ADD(loop, ev, cb) \
do {\
ev->loop = loop;\
ev->event_id = hloop_next_event_id();\
ev->cb = (hevent_cb)cb;\
EVENT_ACTIVE(ev);\
} while(0)
#define EVENT_DEL(ev) \
do {\
EVENT_INACTIVE(ev);\
if (!ev->pending) {\
HV_FREE(ev);\
}\
} while(0)
#define EVENT_RESET(ev) \
do {\
ev->destroy = 0;\
EVENT_ACTIVE(ev);\
ev->pending = 0;\
} while(0)
#endif // HV_EVENT_H_