emsApplication/3rdPartner/libhv/event/kcp/hkcp.c

151 lines
4.6 KiB
C

#include "hkcp.h"
#if WITH_KCP
#include "hevent.h"
#include "hlog.h"
#include "hthread.h"
static kcp_setting_t s_kcp_setting;
static int __kcp_output(const char* buf, int len, ikcpcb* ikcp, void* userdata) {
// printf("ikcp_output len=%d\n", len);
rudp_entry_t* rudp = (rudp_entry_t*)userdata;
assert(rudp != NULL && rudp->io != NULL);
int nsend = sendto(rudp->io->fd, buf, len, 0, &rudp->addr.sa, SOCKADDR_LEN(&rudp->addr));
// printf("sendto nsend=%d\n", nsend);
return nsend;
}
static void __kcp_update_timer_cb(htimer_t* timer) {
rudp_entry_t* rudp = (rudp_entry_t*)timer->privdata;
assert(rudp != NULL && rudp->io != NULL && rudp->kcp.ikcp != NULL);
ikcp_update(rudp->kcp.ikcp, (IUINT32)(rudp->io->loop->cur_hrtime / 1000));
}
void kcp_release(kcp_t* kcp) {
if (kcp->ikcp == NULL) return;
if (kcp->update_timer) {
htimer_del(kcp->update_timer);
kcp->update_timer = NULL;
}
HV_FREE(kcp->readbuf.base);
kcp->readbuf.len = 0;
// printf("ikcp_release ikcp=%p\n", kcp->ikcp);
ikcp_release(kcp->ikcp);
kcp->ikcp = NULL;
}
int hio_set_kcp(hio_t* io, kcp_setting_t* setting) {
io->io_type = HIO_TYPE_KCP;
io->kcp_setting = setting;
return 0;
}
kcp_t* hio_get_kcp(hio_t* io, uint32_t conv) {
rudp_entry_t* rudp = hio_get_rudp(io);
assert(rudp != NULL);
kcp_t* kcp = &rudp->kcp;
if (kcp->ikcp != NULL) return kcp;
if (io->kcp_setting == NULL) {
io->kcp_setting = &s_kcp_setting;
}
kcp_setting_t* setting = io->kcp_setting;
kcp->ikcp = ikcp_create(conv, rudp);
// printf("ikcp_create conv=%u ikcp=%p\n", conv, kcp->ikcp);
kcp->ikcp->output = __kcp_output;
kcp->conv = conv;
if (setting->interval > 0) {
ikcp_nodelay(kcp->ikcp, setting->nodelay, setting->interval, setting->fastresend, setting->nocwnd);
}
if (setting->sndwnd > 0 && setting->rcvwnd > 0) {
ikcp_wndsize(kcp->ikcp, setting->sndwnd, setting->rcvwnd);
}
if (setting->mtu > 0) {
ikcp_setmtu(kcp->ikcp, setting->mtu);
}
if (kcp->update_timer == NULL) {
int update_interval = setting->update_interval;
if (update_interval == 0) {
update_interval = DEFAULT_KCP_UPDATE_INTERVAL;
}
kcp->update_timer = htimer_add(io->loop, __kcp_update_timer_cb, update_interval, INFINITE);
kcp->update_timer->privdata = rudp;
}
// NOTE: alloc kcp->readbuf when hio_read_kcp
return kcp;
}
static void hio_write_kcp_event_cb(hevent_t* ev) {
hio_t* io = (hio_t*)ev->userdata;
hbuf_t* buf = (hbuf_t*)ev->privdata;
hio_write_kcp(io, buf->base, buf->len);
HV_FREE(buf);
}
static int hio_write_kcp_async(hio_t* io, const void* data, size_t len) {
hbuf_t* buf = NULL;
HV_ALLOC(buf, sizeof(hbuf_t) + len);
buf->base = (char*)buf + sizeof(hbuf_t);
buf->len = len;
memcpy(buf->base, data, len);
hevent_t ev;
memset(&ev, 0, sizeof(ev));
ev.cb = hio_write_kcp_event_cb;
ev.userdata = io;
ev.privdata = buf;
hloop_post_event(io->loop, &ev);
return len;
}
int hio_write_kcp(hio_t* io, const void* buf, size_t len) {
if (hv_gettid() != io->loop->tid) {
return hio_write_kcp_async(io, buf, len);
}
IUINT32 conv = io->kcp_setting ? io->kcp_setting->conv : 0;
kcp_t* kcp = hio_get_kcp(io, conv);
// printf("hio_write_kcp conv=%u=%u\n", conv, kcp->conv);
int nsend = ikcp_send(kcp->ikcp, (const char*)buf, len);
// printf("ikcp_send len=%d nsend=%d\n", (int)len, nsend);
if (nsend < 0) {
hloge("ikcp_send error: %d", nsend);
return nsend;
}
ikcp_update(kcp->ikcp, (IUINT32)io->loop->cur_hrtime / 1000);
return len;
}
int hio_read_kcp (hio_t* io, void* buf, int readbytes) {
IUINT32 conv = ikcp_getconv(buf);
kcp_t* kcp = hio_get_kcp(io, conv);
// printf("hio_read_kcp conv=%u=%u\n", conv, kcp->conv);
if (kcp->conv != conv) {
hloge("recv invalid kcp packet!");
hio_close_rudp(io, io->peeraddr);
return -1;
}
// printf("ikcp_input len=%d\n", readbytes);
int ret = ikcp_input(kcp->ikcp, (const char*)buf, readbytes);
// printf("ikcp_input ret=%d\n", ret);
if (ret != 0) {
return 0;
}
if (kcp->readbuf.base == NULL || kcp->readbuf.len == 0) {
kcp->readbuf.len = DEFAULT_KCP_READ_BUFSIZE;
HV_ALLOC(kcp->readbuf.base, kcp->readbuf.len);
}
while (1) {
int nrecv = ikcp_recv(kcp->ikcp, kcp->readbuf.base, kcp->readbuf.len);
// printf("ikcp_recv nrecv=%d\n", nrecv);
if (nrecv < 0) break;
hio_read_cb(io, kcp->readbuf.base, nrecv);
ret += nrecv;
}
return ret;
}
#endif