public void test(int mode)
{
LatencySimulator vnet = new LatencySimulator();
vnet.init(20, 600, 600);
TestOutPut output1 = new TestOutPut(vnet, 0);
TestOutPut output2 = new TestOutPut(vnet, 1);
Kcp kcp1 = new Kcp(0x11223344, output1);
Kcp kcp2 = new Kcp(0x11223344, output2);
//kcp1.setAckMaskSize(8);
//kcp2.setAckMaskSize(8);
current = long2Uint(kcp1.currentMs());
long slap = current + 20;
int index = 0;
int next = 0;
long sumrtt = 0;
int count = 0;
int maxrtt = 0;
kcp1.RcvWnd = 512;
kcp1.SndWnd = 512;
kcp2.RcvWnd = 512;
kcp2.SndWnd = 512;
// 判断测试用例的模式
if (mode == 0)
{
// 默认模式
kcp1.initNodelay(false, 10, 0, false);
kcp2.initNodelay(false, 10, 0, false);
}
else if (mode == 1)
{
// 普通模式,关闭流控等
kcp1.initNodelay(false, 10, 0, true);
kcp2.initNodelay(false, 10, 0, true);
}
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
kcp1.initNodelay(true, 10, 2, true);
kcp2.initNodelay(true, 10, 2, true);
kcp1.RxMinrto = 10;
kcp1.Fastresend = 1;
}
int hr;
long ts1 = kcp1.currentMs();
//写数据 定时更新
for (;;)
{
current = long2Uint(kcp1.currentMs());
Thread.Sleep(1);
long now = kcp1.currentMs();
kcp1.update(now);
kcp2.update(now);
//每隔 20ms,kcp1发送数据
for (; current >= slap; slap += 20)
{
IByteBuffer buf = PooledByteBufferAllocator.Default.Buffer();
buf.WriteIntLE(index);
index++;
buf.WriteIntLE((int)current);
kcp1.send(buf);
buf.Release();
}
//处理虚拟网络:检测是否有udp包从p1->p2
for (;;)
{
IByteBuffer buffer = PooledByteBufferAllocator.Default.DirectBuffer(2000);
// Console.WriteLine("buffer:" +buffer.AddressOfPinnedMemory().ToString());
try
{
hr = vnet.recv(1, buffer);
if (hr < 0)
{
break;
}
kcp2.input(buffer, true, kcp1.currentMs());
}
finally
{
buffer.Release();
}
}
// 处理虚拟网络:检测是否有udp包从p2->p1
for (;;)
{
IByteBuffer buffer = PooledByteBufferAllocator.Default.Buffer(2000);
try
{
hr = vnet.recv(0, buffer);
if (hr < 0)
{
break;
}
// 如果 p1收到udp,则作为下层协议输入到kcp1
kcp1.input(buffer, true, kcp1.currentMs());
}
finally
{
buffer.Release();
}
}
// kcp2接收到任何包都返回回去
List <IByteBuffer> bufList = new List <IByteBuffer>();
kcp2.recv(bufList);
foreach (var byteBuf in bufList)
{
kcp2.send(byteBuf);
byteBuf.Release();
}
// kcp1收到kcp2的回射数据
bufList = new List <IByteBuffer>();
kcp1.recv(bufList);
foreach (var byteBuf in bufList)
{
long sn = byteBuf.ReadIntLE();
long ts = byteBuf.ReadUnsignedIntLE();
long rtt = 0;
rtt = current - ts;
Console.WriteLine("rtt :" + rtt);
if (sn != next)
{
// 如果收到的包不连续
//for i:=0;i<8 ;i++ {
//println("---", i, buffer[i])
//}
Console.WriteLine("ERROR sn " + count + "<->" + next + sn);
return;
}
next++;
sumrtt += rtt;
count++;
if (rtt > maxrtt)
{
maxrtt = (int)rtt;
}
byteBuf.Release();
}
if (next > 1000)
{
break;
}
}
ts1 = kcp1.currentMs() - ts1;
String[] names = new String[] { "default", "normal", "fast" };
Console.WriteLine(names[mode] + " mode result :" + ts1 + " \n");
Console.WriteLine("avgrtt=" + (sumrtt / count) + " maxrtt=" + maxrtt + " \n");
Console.WriteLine("lost percent: " + (Snmp.snmp.RetransSegs) + "\n");
Console.WriteLine("snmp: " + (Snmp.snmp.ToString()));
}
public TestOutPut(LatencySimulator vnet, int id)
{
this.vnet = vnet;
this.id = id;
}
