public void Read(NetBuffer buffer)
{
File = buffer.ReadString().ToLower();
TotalLength = buffer.ReadInt64();
ChunkLength = buffer.ReadInt32();
Data = buffer.ReadBytes(ChunkLength);
Temporary = buffer.ReadBoolean();
}
internal LocalPeerData(NetBuffer buffer)
{
peerType = buffer.ReadString();
peerName = buffer.ReadString();
passwordProtected = (buffer.ReadByte() == 1);
comment = buffer.ReadString();
platform = buffer.ReadString();
timestamp = DateTime.FromBinary(buffer.ReadInt64());
internalEndpoint = buffer.ReadEndPoint();
}
/// <summary>
/// Reads a <see cref="TimeSpan"/> value from the <see cref="NetBuffer"/>.
/// </summary>
/// <param name="message">The buffer to write to</param>
/// <param name="highPrecision">
/// Indicates whether the <see cref="TimeSpan"/> will be read using high precision (ticks) or not (milliseconds)
/// </param>
/// <remarks>
/// High precision allows full <see cref="TimeSpan"/> range, otherwise it will be limited to "+-24.20:31:23.647"
/// (+-24 days, 20 hours, 31 minutes, 23 seconds and 647 milliseconds)
/// </remarks>
/// <returns>A <see cref="TimeSpan"/> value</returns>
public static TimeSpan ReadTimeSpan(this NetBuffer message, bool highPrecision)
{
if (highPrecision)
{
return(TimeSpan.FromTicks(message.ReadInt64()));
}
else
{
return(TimeSpan.FromMilliseconds(message.ReadInt32()));
}
}
public void Read(NetBuffer im)
{
MessagePacketId = im.ReadInt64();
Number = im.ReadInt32();
int length = im.ReadInt32();
if (length != 0)
{
Bytes = im.ReadBytes(length);
}
}
internal LocalHostData(NetBuffer buffer)
{
gameType = buffer.ReadString();
gameName = buffer.ReadString();
gameMode = buffer.ReadString();
gameLevel = buffer.ReadString();
connectedPlayers = buffer.ReadInt32();
playerLimit = buffer.ReadInt32();
passwordProtected = (buffer.ReadByte() == 1);
dedicatedServer = (buffer.ReadByte() == 1);
useNat = (buffer.ReadByte() == 1);
useProxy = (buffer.ReadByte() == 1);
comment = buffer.ReadString();
platform = buffer.ReadString();
timestamp = DateTime.FromBinary(buffer.ReadInt64());
internalEndpoint = buffer.ReadEndPoint();
}
static object ReadPrimitive(NetBuffer buffer, SnapshotPrimitiveType type)
{
switch (type)
{
case SnapshotPrimitiveType.Byte:
return(buffer.ReadByte());
case SnapshotPrimitiveType.Char:
return(buffer.ReadChar());
case SnapshotPrimitiveType.Boolean:
return(buffer.ReadBool());
case SnapshotPrimitiveType.Int16:
case SnapshotPrimitiveType.SByte: // SByte is written as a short
return(buffer.ReadInt16());
case SnapshotPrimitiveType.UInt16:
return(buffer.ReadUInt16());
case SnapshotPrimitiveType.Int32:
return(buffer.ReadInt32());
case SnapshotPrimitiveType.UInt32:
return(buffer.ReadUInt32());
case SnapshotPrimitiveType.Int64:
return(buffer.ReadInt64());
case SnapshotPrimitiveType.UInt64:
return(buffer.ReadUInt64());
case SnapshotPrimitiveType.Single:
return(buffer.ReadFloat());
case SnapshotPrimitiveType.Double:
return(buffer.ReadDouble());
case SnapshotPrimitiveType.ByteFlag:
return(buffer.ReadByteFlag());
default:
throw new Exception("Snapshot primitive type '" + type + "' is not supported!");
}
}
/// <summary>
/// Reads a <see cref="DateTime"/> value from the <see cref="NetBuffer"/> using a 64 bits data.
/// </summary>
/// <param name="message">The buffer to write to</param>
/// <returns>A <see cref="DateTime"/> value</returns>
public static DateTime ReadDateTime(this NetBuffer message)
{
return(DateTime.FromBinary(message.ReadInt64()));
}
public void Read(NetBuffer im)
{
UniqueIdentifier = im.ReadInt64();
MessagePacketId = im.ReadInt64();
}
internal void Deserialize(NetBuffer buffer)
{
try
{
_fields = new Dictionary <string, Pair <DataType, object> >();
while (true)
{
string key = buffer.ReadString();
if (string.IsNullOrEmpty(key))
{
break;
}
DataType type = (DataType)buffer.ReadByte();
if (type == DataType.Unknown)
{
throw new Exception();
}
switch (type)
{
case DataType.Byte:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadByte()));
break;
case DataType.Ushort:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadUInt16()));
break;
case DataType.Uint:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadUInt32()));
break;
case DataType.Ulong:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadUInt64()));
break;
case DataType.Sbyte:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadSByte()));
break;
case DataType.Short:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadInt16()));
break;
case DataType.Int:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadInt32()));
break;
case DataType.Long:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadInt64()));
break;
case DataType.String:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadString()));
break;
case DataType.Double:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadDouble()));
break;
case DataType.Float:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadFloat()));
break;
case DataType.Bool:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadBoolean()));
break;
case DataType.IPEndPoint:
_fields.Add(key, new Pair <DataType, object>(type, buffer.ReadIPEndPoint()));
break;
}
}
Count = _fields.Count;
Keys = new string[_fields.Count];
_fields.Keys.CopyTo(Keys, 0);
}
catch
{
_Empty();
}
}
protected void SkipReadyFlags(NetBuffer buffer)
{
int playersCount = buffer.ReadByte();
buffer.ReadInt64(playersCount);
}
public long ReadInt64()
{
return(_buffer.ReadInt64());
}
/// <summary>
/// 패킷에서 데이터 읽기 (RPC)
/// </summary>
/// <param name="type">파라미터 타입</param>
public static object ReadObjectPacked(this NetBuffer buff, Type type)
{
if (type.IsNullable())
{
bool isNull = buff.ReadBoolean();
if (isNull)
{
return(null);
}
}
if (type == typeof(byte))
{
return(buff.ReadByte());
}
if (type == typeof(sbyte))
{
return(buff.ReadSByte());
}
if (type == typeof(ushort))
{
return(buff.ReadUInt16());
}
if (type == typeof(short))
{
return(buff.ReadInt16());
}
if (type == typeof(int))
{
return(buff.ReadInt32());
}
if (type == typeof(uint))
{
return(buff.ReadUInt32());
}
if (type == typeof(long))
{
return(buff.ReadInt64());
}
if (type == typeof(ulong))
{
return(buff.ReadUInt64());
}
if (type == typeof(float))
{
return(buff.ReadFloat());
}
if (type == typeof(double))
{
return(buff.ReadDouble());
}
if (type == typeof(string))
{
return(buff.ReadString());
}
if (type == typeof(bool))
{
return(buff.ReadBoolean());
}
if (type == typeof(Vector3))
{
Vector3 v = default(Vector3);
buff.Read(ref v);
return(v);
}
if (type == typeof(char))
{
return(buff.ReadByte());
}
if (type.IsEnum)
{
return(buff.ReadInt32());
}
if (type == typeof(List <int>))
{
List <int> v = new List <int>();
byte listSize = buff.ReadByte();
for (byte i = 0; i < listSize; ++i)
{
v.Add(buff.ReadInt32());
}
return(v);
}
if (type == typeof(List <short>))
{
List <short> v = new List <short>();
byte listSize = buff.ReadByte();
for (byte i = 0; i < listSize; ++i)
{
v.Add(buff.ReadInt16());
}
return(v);
}
if (type == typeof(List <float>))
{
List <float> v = new List <float>();
byte listSize = buff.ReadByte();
for (byte i = 0; i < listSize; ++i)
{
v.Add(buff.ReadFloat());
}
return(v);
}
throw new ArgumentException("BitReader cannot read type " + type.Name);
}
static unsafe void Main(string[] args)
{
// JIT stuff
NetBuffer msg = new NetBuffer(20);
msg.Write((short)short.MaxValue);
// Go
double timeStart = NetTime.Now;
msg = new NetBuffer(20);
for (int n = 0; n < 10000; n++)
{
msg.Reset();
msg.Write((short)short.MaxValue);
msg.Write((short)short.MinValue);
msg.Write((short)-42);
msg.Write(421);
msg.Write((byte)7);
msg.Write(-42.8f);
if (msg.LengthBytes != 15)
{
throw new Exception("Bad message length");
}
msg.Write("duke of earl");
int bytesWritten;
bytesWritten = msg.WriteVariableInt32(-1);
bytesWritten = msg.WriteVariableInt32(5);
bytesWritten = msg.WriteVariableInt32(-18);
bytesWritten = msg.WriteVariableInt32(42);
bytesWritten = msg.WriteVariableInt32(-420);
msg.Write((uint)9991);
// byte boundary kept until here
msg.Write(true);
msg.Write((uint)3, 5);
msg.Write(8.111f);
msg.Write("again");
byte[] arr = new byte[] { 1, 6, 12, 24 };
msg.Write(arr);
msg.Write((byte)7, 7);
msg.Write(Int32.MinValue);
msg.Write(UInt32.MaxValue);
msg.WriteRangedSingle(21.0f, -10, 50, 12);
// test reduced bit signed writing
msg.Write(15, 5);
msg.Write(2, 5);
msg.Write(0, 5);
msg.Write(-1, 5);
msg.Write(-2, 5);
msg.Write(-15, 5);
msg.Write(UInt64.MaxValue);
msg.Write(Int64.MaxValue);
msg.Write(Int64.MinValue);
msg.Write(42);
msg.WritePadBits();
int numBits = msg.WriteRangedInteger(0, 10, 5);
if (numBits != 4)
{
throw new Exception("Ack WriteRangedInteger failed");
}
// verify
msg.Position = 0;
short a = msg.ReadInt16();
short b = msg.ReadInt16();
short c = msg.ReadInt16();
if (a != short.MaxValue || b != short.MinValue || c != -42)
{
throw new Exception("Ack thpth short failed");
}
if (msg.ReadInt32() != 421)
{
throw new Exception("Ack thphth 1");
}
if (msg.ReadByte() != (byte)7)
{
throw new Exception("Ack thphth 2");
}
if (msg.ReadSingle() != -42.8f)
{
throw new Exception("Ack thphth 3");
}
if (msg.ReadString() != "duke of earl")
{
throw new Exception("Ack thphth 4");
}
if (msg.ReadVariableInt32() != -1)
{
throw new Exception("ReadVariableInt32 failed 1");
}
if (msg.ReadVariableInt32() != 5)
{
throw new Exception("ReadVariableInt32 failed 2");
}
if (msg.ReadVariableInt32() != -18)
{
throw new Exception("ReadVariableInt32 failed 3");
}
if (msg.ReadVariableInt32() != 42)
{
throw new Exception("ReadVariableInt32 failed 4");
}
if (msg.ReadVariableInt32() != -420)
{
throw new Exception("ReadVariableInt32 failed 5");
}
if (msg.ReadUInt32() != 9991)
{
throw new Exception("Ack thphth 4.5");
}
if (msg.ReadBoolean() != true)
{
throw new Exception("Ack thphth 5");
}
if (msg.ReadUInt32(5) != (uint)3)
{
throw new Exception("Ack thphth 6");
}
if (msg.ReadSingle() != 8.111f)
{
throw new Exception("Ack thphth 7");
}
if (msg.ReadString() != "again")
{
throw new Exception("Ack thphth 8");
}
byte[] rrr = msg.ReadBytes(4);
if (rrr[0] != arr[0] || rrr[1] != arr[1] || rrr[2] != arr[2] || rrr[3] != arr[3])
{
throw new Exception("Ack thphth 9");
}
if (msg.ReadByte(7) != 7)
{
throw new Exception("Ack thphth 10");
}
if (msg.ReadInt32() != Int32.MinValue)
{
throw new Exception("Ack thphth 11");
}
if (msg.ReadUInt32() != UInt32.MaxValue)
{
throw new Exception("Ack thphth 12");
}
float v = msg.ReadRangedSingle(-10, 50, 12);
// v should be close to, but not necessarily exactly, 21.0f
if ((float)Math.Abs(21.0f - v) > 0.1f)
{
throw new Exception("Ack thphth *RangedSingle() failed");
}
if (msg.ReadInt32(5) != 15)
{
throw new Exception("Ack thphth ReadInt32 1");
}
if (msg.ReadInt32(5) != 2)
{
throw new Exception("Ack thphth ReadInt32 2");
}
if (msg.ReadInt32(5) != 0)
{
throw new Exception("Ack thphth ReadInt32 3");
}
if (msg.ReadInt32(5) != -1)
{
throw new Exception("Ack thphth ReadInt32 4");
}
if (msg.ReadInt32(5) != -2)
{
throw new Exception("Ack thphth ReadInt32 5");
}
if (msg.ReadInt32(5) != -15)
{
throw new Exception("Ack thphth ReadInt32 6");
}
UInt64 longVal = msg.ReadUInt64();
if (longVal != UInt64.MaxValue)
{
throw new Exception("Ack thphth UInt64");
}
if (msg.ReadInt64() != Int64.MaxValue)
{
throw new Exception("Ack thphth Int64");
}
if (msg.ReadInt64() != Int64.MinValue)
{
throw new Exception("Ack thphth Int64");
}
if (msg.ReadInt32() != 42)
{
throw new Exception("Ack thphth end");
}
msg.SkipPadBits();
if (msg.ReadRangedInteger(0, 10) != 5)
{
throw new Exception("Ack thphth ranged integer");
}
}
// test writevariableuint64
NetBuffer largeBuffer = new NetBuffer(100 * 8);
UInt64[] largeNumbers = new ulong[100];
for (int i = 0; i < 100; i++)
{
largeNumbers[i] = ((ulong)NetRandom.Instance.NextUInt() << 32) | (ulong)NetRandom.Instance.NextUInt();
largeBuffer.WriteVariableUInt64(largeNumbers[i]);
}
largeBuffer.Position = 0;
for (int i = 0; i < 100; i++)
{
UInt64 ln = largeBuffer.ReadVariableUInt64();
if (ln != largeNumbers[i])
{
throw new Exception("large fail");
}
}
//
// Extended tests on padbits
//
for (int i = 1; i < 31; i++)
{
NetBuffer buf = new NetBuffer();
buf.Write((int)1, i);
if (buf.LengthBits != i)
{
throw new Exception("Bad length!");
}
buf.WritePadBits();
int wholeBytes = buf.LengthBits / 8;
if (wholeBytes * 8 != buf.LengthBits)
{
throw new Exception("WritePadBits failed! Length is " + buf.LengthBits);
}
}
NetBuffer small = new NetBuffer(100);
byte[] rnd = new byte[24];
int[] bits = new int[24];
for (int i = 0; i < 24; i++)
{
rnd[i] = (byte)NetRandom.Instance.Next(0, 65);
bits[i] = NetUtility.BitsToHoldUInt((uint)rnd[i]);
small.Write(rnd[i], bits[i]);
}
small.Position = 0;
for (int i = 0; i < 24; i++)
{
byte got = small.ReadByte(bits[i]);
if (got != rnd[i])
{
throw new Exception("Failed small allocation test");
}
}
double timeEnd = NetTime.Now;
double timeSpan = timeEnd - timeStart;
Console.WriteLine("Trivial tests passed in " + (timeSpan * 1000.0) + " milliseconds");
Console.WriteLine("Creating client and server for live testing...");
NetConfiguration config = new NetConfiguration("unittest");
config.Port = 14242;
NetServer server = new NetServer(config);
NetBuffer serverBuffer = new NetBuffer();
server.Start();
config = new NetConfiguration("unittest");
NetClient client = new NetClient(config);
client.SetMessageTypeEnabled(NetMessageType.Receipt, true);
NetBuffer clientBuffer = client.CreateBuffer();
client.Start();
client.Connect("127.0.0.1", 14242);
List <string> events = new List <string>();
double end = double.MaxValue;
double disconnect = double.MaxValue;
while (NetTime.Now < end)
{
double now = NetTime.Now;
NetMessageType nmt;
NetConnection sender;
//
// client
//
if (client.ReadMessage(clientBuffer, out nmt))
{
switch (nmt)
{
case NetMessageType.StatusChanged:
Console.WriteLine("Client: " + client.Status + " (" + clientBuffer.ReadString() + ")");
events.Add("CStatus " + client.Status);
if (client.Status == NetConnectionStatus.Connected)
{
// send reliable message
NetBuffer buf = client.CreateBuffer();
buf.Write(true);
buf.Write((int)52, 7);
buf.Write("Hallon");
client.SendMessage(buf, NetChannel.ReliableInOrder1, new NetBuffer("kokos"));
}
if (client.Status == NetConnectionStatus.Disconnected)
{
end = NetTime.Now + 1.0; // end in one second
}
break;
case NetMessageType.Receipt:
events.Add("CReceipt " + clientBuffer.ReadString());
break;
case NetMessageType.ConnectionRejected:
case NetMessageType.BadMessageReceived:
throw new Exception("Failed: " + nmt);
case NetMessageType.DebugMessage:
// silently ignore
break;
default:
// ignore
Console.WriteLine("Ignored: " + nmt);
break;
}
}
//
// server
//
if (server.ReadMessage(serverBuffer, out nmt, out sender))
{
switch (nmt)
{
case NetMessageType.StatusChanged:
events.Add("SStatus " + sender.Status);
Console.WriteLine("Server: " + sender.Status + " (" + serverBuffer.ReadString() + ")");
break;
case NetMessageType.ConnectionRejected:
case NetMessageType.BadMessageReceived:
throw new Exception("Failed: " + nmt);
case NetMessageType.Data:
events.Add("DataRec " + serverBuffer.LengthBits);
bool shouldBeTrue = serverBuffer.ReadBoolean();
int shouldBeFifthTwo = serverBuffer.ReadInt32(7);
string shouldBeHallon = serverBuffer.ReadString();
if (shouldBeTrue != true ||
shouldBeFifthTwo != 52 ||
shouldBeHallon != "Hallon")
{
throw new Exception("Bad data transmission");
}
disconnect = now + 1.0;
break;
case NetMessageType.DebugMessage:
// silently ignore
break;
default:
// ignore
Console.WriteLine("Ignored: " + nmt);
break;
}
}
if (now > disconnect)
{
server.Connections[0].Disconnect("Bye", 0.1f);
disconnect = double.MaxValue;
}
}
// verify events
string[] expected = new string[] {
"CStatus Connecting",
"SStatus Connecting",
"CStatus Connected",
"SStatus Connected",
"DataRec 64",
"CReceipt kokos",
"SStatus Disconnecting",
"CStatus Disconnecting",
"SStatus Disconnected",
"CStatus Disconnected"
};
if (events.Count != expected.Length)
{
throw new Exception("Mismatch in events count! Expected " + expected.Length + ", got " + events.Count);
}
for (int i = 0; i < expected.Length; i++)
{
if (events[i] != expected[i])
{
throw new Exception("Event " + i + " (" + expected[i] + ") mismatched!");
}
}
Console.WriteLine("All tests successful");
Console.ReadKey();
server.Shutdown("App exiting");
client.Shutdown("App exiting");
}
public void Read(NetBuffer im)
{
UniqueIdentifier = im.ReadInt64();
TargetSize = im.ReadInt32();
}