ssize_t
UDPSession::Write(const char *buf, size_t sz) noexcept {
int n = ikcp_send(m_kcp, const_cast<char *>(buf), int(sz));
if (n == 0) {
return sz;
} else return n;
}
void connection::send_kcp_msg(const std::string& msg)
{
int send_ret = ikcp_send(p_kcp_, msg.c_str(), msg.size());
if (send_ret < 0)
{
std::cout << "send_ret<0: " << send_ret << std::endl;
}
}
static int
lsend(lua_State *l) {
struct kcpctx *ctx = (struct kcpctx *)luaL_checkudata(l, 1, LKCP_MT);
if (!ctx)
return luaL_argerror(l, 1, "parameter self invalid.");
assert(ctx->kcp);
size_t len;
const char *buf = luaL_checklstring(l, 2, &len);
int n = ikcp_send(ctx->kcp, buf, (int)len);
lua_pushinteger(l, n);
return 1;
}
int main()
{
client_sock = make_sock("127.0.0.1");
ikcpcb *kcp = ikcp_create(0x11223344, (void*)0);
kcp->output = udp_output;
ikcp_wndsize(kcp, 128, 128);
ikcp_nodelay(kcp, 0, 10, 0, 0);
char buf[ECHO_LEN];
char *buf_in;
char *msg = "hello";
int i=0;
int current;
int ret;
for(;;)
{
++i;
isleep(1);
current = iclock();
ikcp_update(kcp, current);
if (i % 1000 == 0)
{
sprintf(buf, "%s:%d, %u", msg, i, current);
ret = ikcp_send(kcp, buf, strlen(buf));
check(ret >= 0, "send");
printf("send [%s]\n", buf);
}
ret = recv(client_sock, buf, ECHO_LEN-1, 0);
check_silently(ret > 0);
ikcp_input(kcp, buf, ret);
printf("\nrecv from server raw: %s\n", buf);
ret = ikcp_recv(kcp, buf, ECHO_LEN-1);
check_silently(ret > 0);
buf[ret] = '\0';
printf("\nrecv from server: %s\n", buf);
error:
continue;
}
}
int sg_etp_session_send(sg_etp_session_t * session, const void * data, size_t size)
{
session->kcp_update_time = 0; /* clear to update kcp in next update period */
return ikcp_send(session->kcp, data, size);
}
int Conn::send_kcp(const char* buf, uint32_t len) {
return ikcp_send(_kcp, buf, len);
}
// 测试用例
void test(int mode)
{
// 创建模拟网络:丢包率10%,Rtt 60ms~125ms
vnet = new LatencySimulator(10, 60, 125);
// 创建两个端点的 kcp对象,第一个参数 conv是会话编号,同一个会话需要相同
// 最后一个是 user参数,用来传递标识
ikcpcb *kcp1 = ikcp_create(0x11223344, (void*)0);
ikcpcb *kcp2 = ikcp_create(0x11223344, (void*)1);
// 设置kcp的下层输出,这里为 udp_output,模拟udp网络输出函数
kcp1->output = udp_output;
kcp2->output = udp_output;
IUINT32 current = iclock();
IUINT32 slap = current + 20;
IUINT32 index = 0;
IUINT32 next = 0;
IINT64 sumrtt = 0;
int count = 0;
int maxrtt = 0;
// 配置窗口大小:平均延迟200ms,每20ms发送一个包,
// 而考虑到丢包重发,设置最大收发窗口为128
ikcp_wndsize(kcp1, 128, 128);
ikcp_wndsize(kcp2, 128, 128);
// 判断测试用例的模式
if (mode == 0) {
// 默认模式
ikcp_nodelay(kcp1, 0, 10, 0, 0);
ikcp_nodelay(kcp2, 0, 10, 0, 0);
}
else if (mode == 1) {
// 普通模式,关闭流控等
ikcp_nodelay(kcp1, 0, 10, 0, 1);
ikcp_nodelay(kcp2, 0, 10, 0, 1);
} else {
// 启动快速模式
// 第二个参数 nodelay-启用以后若干常规加速将启动
// 第三个参数 interval为内部处理时钟,默认设置为 10ms
// 第四个参数 resend为快速重传指标,设置为2
// 第五个参数 为是否禁用常规流控,这里禁止
ikcp_nodelay(kcp1, 1, 10, 2, 1);
ikcp_nodelay(kcp2, 1, 10, 2, 1);
kcp1->rx_minrto = 10;
kcp1->fastresend = 1;
}
char buffer[2000];
int hr;
IUINT32 ts1 = iclock();
while (1) {
isleep(1);
current = iclock();
ikcp_update(kcp1, iclock());
ikcp_update(kcp2, iclock());
// 每隔 20ms,kcp1发送数据
for (; current >= slap; slap += 20) {
((IUINT32*)buffer)[0] = index++;
((IUINT32*)buffer)[1] = current;
// 发送上层协议包
ikcp_send(kcp1, buffer, 8);
}
// 处理虚拟网络:检测是否有udp包从p1->p2
while (1) {
hr = vnet->recv(1, buffer, 2000);
if (hr < 0) break;
// 如果 p2收到udp,则作为下层协议输入到kcp2
ikcp_input(kcp2, buffer, hr);
}
// 处理虚拟网络:检测是否有udp包从p2->p1
while (1) {
hr = vnet->recv(0, buffer, 2000);
if (hr < 0) break;
// 如果 p1收到udp,则作为下层协议输入到kcp1
ikcp_input(kcp1, buffer, hr);
}
// kcp2接收到任何包都返回回去
while (1) {
hr = ikcp_recv(kcp2, buffer, 10);
// 没有收到包就退出
if (hr < 0) break;
// 如果收到包就回射
ikcp_send(kcp2, buffer, hr);
}
// kcp1收到kcp2的回射数据
while (1) {
hr = ikcp_recv(kcp1, buffer, 10);
// 没有收到包就退出
if (hr < 0) break;
IUINT32 sn = *(IUINT32*)(buffer + 0);
IUINT32 ts = *(IUINT32*)(buffer + 4);
IUINT32 rtt = current - ts;
if (sn != next) {
// 如果收到的包不连续
printf("ERROR sn %d<->%d\n", (int)count, (int)next);
return;
}
next++;
sumrtt += rtt;
count++;
if (rtt > (IUINT32)maxrtt) maxrtt = rtt;
printf("[RECV] mode=%d sn=%d rtt=%d\n", mode, (int)sn, (int)rtt);
}
if (next > 1000) break;
}
ts1 = iclock() - ts1;
ikcp_release(kcp1);
ikcp_release(kcp2);
const char *names[3] = { "default", "normal", "fast" };
printf("%s mode result (%dms):\n", names[mode], (int)ts1);
printf("avgrtt=%d maxrtt=%d tx=%d\n", (int)(sumrtt / count), (int)maxrtt, (int)vnet->tx1);
printf("press enter to next ...\n");
char ch; scanf("%c", &ch);
}
/*@ckcpuv*/
int conn_send_kcp(conn_t * thiz, const char* buf, uint32_t len)
{
return ikcp_send(thiz->_kcp, buf, len);
}
