ReadInt32() public method

Reads an int32 field from the stream.
public ReadInt32 ( ) : int
return int
Example #1
0
 /// <summary>
 /// Decode a value of the given type.
 /// Should not be called directly. This interface is used by service client stubs.
 /// </summary>
 public static object Decode(ByteString value, Type type, Connection client)
 {
     var stream = new CodedInputStream (value.ToByteArray ());
     if (type == typeof(double))
         return stream.ReadDouble ();
     else if (type == typeof(float))
         return stream.ReadFloat ();
     else if (type == typeof(int))
         return stream.ReadInt32 ();
     else if (type == typeof(long))
         return stream.ReadInt64 ();
     else if (type == typeof(uint))
         return stream.ReadUInt32 ();
     else if (type == typeof(ulong))
         return stream.ReadUInt64 ();
     else if (type == typeof(bool))
         return stream.ReadBool ();
     else if (type == typeof(string))
         return stream.ReadString ();
     else if (type == typeof(byte[]))
         return stream.ReadBytes ().ToByteArray ();
     else if (type.IsEnum)
         return stream.ReadInt32 ();
     else if (typeof(RemoteObject).IsAssignableFrom (type)) {
         if (client == null)
             throw new ArgumentException ("Client not passed when decoding remote object");
         var id = stream.ReadUInt64 ();
         if (id == 0)
             return null;
         return (RemoteObject)Activator.CreateInstance (type, client, id);
     } else if (typeof(IMessage).IsAssignableFrom (type)) {
         IMessage message = (IMessage)Activator.CreateInstance (type);
         message.MergeFrom (stream);
         return message;
     } else if (type.IsGenericType && type.GetGenericTypeDefinition () == typeof(IList<>))
         return DecodeList (value, type, client);
     else if (type.IsGenericType && type.GetGenericTypeDefinition () == typeof(IDictionary<,>))
         return DecodeDictionary (value, type, client);
     else if (type.IsGenericType && type.GetGenericTypeDefinition () == typeof(ISet<>))
         return DecodeSet (value, type, client);
     else if (type.IsGenericType &&
              (type.GetGenericTypeDefinition () == typeof(Tuple<>) ||
              type.GetGenericTypeDefinition () == typeof(Tuple<,>) ||
              type.GetGenericTypeDefinition () == typeof(Tuple<,,>) ||
              type.GetGenericTypeDefinition () == typeof(Tuple<,,,>) ||
              type.GetGenericTypeDefinition () == typeof(Tuple<,,,,>) ||
              type.GetGenericTypeDefinition () == typeof(Tuple<,,,,,>)))
         return DecodeTuple (value, type, client); // TODO: ugly handing of tuple types
     throw new ArgumentException (type + " is not a serializable type");
 }
Example #2
0
        public IMessage Decode(byte[] msg)
        {
            IMessage message = null;

            CodedInputStream stream = new CodedInputStream(msg);

            //data length,Protobuf 变长头, 也就是消息长度
            int varint32 = (int)stream.ReadInt32();

            if (varint32 <= (msg.Length - (int)stream.Position))
            {
                try
                {
                    byte[] body = stream.ReadRawBytes(varint32);
                    message = Message.Parser.ParseFrom(body);
                }
                catch (Exception exception)
                {
                    //"[ProtobufEncoding] Decode exception :{0}", exception.Message);
                }
            }
            else
            {
                //"网络数据读取不完整,丢包了?");
            }

            return(message);
        }
Example #3
0
        /// <summary>
        /// 将数据解码
        /// </summary>
        public void DecodeAsync(byte[] msg)
        {
            if (msg.Length <= 0)
            {
                return;
            }
            if (buffer.Data == null)
            {
                buffer.Data = new byte[8192];
            }
            //把收取上来的自己全部缓存到本地 buffer 中
            Array.Copy(msg, 0, buffer.Data, buffer.Length, msg.Length);
            buffer.Length += msg.Length;

            //string.Format("cache buff length: {0}, offset: {1}", buffer.Length, buffer.Offset));


            CodedInputStream stream = new CodedInputStream(buffer.Data);

            while (!stream.IsAtEnd)
            {
                //标记读取的Position, 在长度不够时进行数组拷贝,到下一次在进行解析
                int markReadIndex = (int)stream.Position;

                //data length,Protobuf 变长头, 也就是消息长度
                int varint32 = (int)stream.ReadInt32();
                if (varint32 <= (buffer.Length - (int)stream.Position))
                {
                    try
                    {
                        byte[] body = stream.ReadRawBytes(varint32);

                        Message message = Message.Parser.ParseFrom(body);

                        SocketManager.Instance.DispatchProto(message);
                        //TODO: dispatcher message, 这里就可以用多线程进行协议分发
                    }
                    catch (Exception exception)
                    {
                        //exception.Message);
                    }
                }
                else
                {
                    //本次数据不够长度,缓存进行下一次解析
                    byte[] dest       = new byte[8192];
                    int    remainSize = buffer.Length - markReadIndex;
                    Array.Copy(buffer.Data, markReadIndex, dest, 0, remainSize);

                    /**
                     * 缓存未处理完的字节
                     */
                    buffer.Data   = dest;
                    buffer.Offset = 0;
                    buffer.Length = remainSize;
                    break;
                }
            }
        }
Example #4
0
                public void MergeFrom(CodedInputStream input)
                {
                    while (true)
                    {
IL_D9:
                        uint num;
                        uint arg_9E_0 = ((num = input.ReadTag()) != 0u) ? 123760098u : 340881777u;
                        while (true)
                        {
                            uint num2;
                            switch ((num2 = (arg_9E_0 ^ 2069247364u)) % 8u)
                            {
                            case 0u:
                                input.SkipLastField();
                                arg_9E_0 = (num2 * 3109966835u ^ 1634015013u);
                                continue;

                            case 1u:
                                goto IL_D9;

                            case 2u:
                                this.End = input.ReadInt32();
                                arg_9E_0 = 651504541u;
                                continue;

                            case 3u:
                                this.Start = input.ReadInt32();
                                arg_9E_0   = 651504541u;
                                continue;

                            case 4u:
                                arg_9E_0 = (((num == 16u) ? 3653100894u : 3502071340u) ^ num2 * 176730384u);
                                continue;

                            case 6u:
                                arg_9E_0 = ((num != 8u) ? 730284952u : 1349205327u);
                                continue;

                            case 7u:
                                arg_9E_0 = 123760098u;
                                continue;
                            }
                            return;
                        }
                    }
                }
Example #5
0
        public void TestCodedInputOutputPosition()
        {
            byte[] content = new byte[110];
            for (int i = 0; i < content.Length; i++)
            {
                content[i] = (byte)i;
            }

            byte[] child = new byte[120];
            {
                MemoryStream      ms   = new MemoryStream(child);
                CodedOutputStream cout = new CodedOutputStream(ms, 20);
                // Field 11: numeric value: 500
                cout.WriteTag(11, WireFormat.WireType.Varint);
                Assert.AreEqual(1, cout.Position);
                cout.WriteInt32(500);
                Assert.AreEqual(3, cout.Position);
                //Field 12: length delimited 120 bytes
                cout.WriteTag(12, WireFormat.WireType.LengthDelimited);
                Assert.AreEqual(4, cout.Position);
                cout.WriteBytes(ByteString.CopyFrom(content));
                Assert.AreEqual(115, cout.Position);
                // Field 13: fixed numeric value: 501
                cout.WriteTag(13, WireFormat.WireType.Fixed32);
                Assert.AreEqual(116, cout.Position);
                cout.WriteSFixed32(501);
                Assert.AreEqual(120, cout.Position);
                cout.Flush();
            }

            byte[] bytes = new byte[130];
            {
                CodedOutputStream cout = new CodedOutputStream(bytes);
                // Field 1: numeric value: 500
                cout.WriteTag(1, WireFormat.WireType.Varint);
                Assert.AreEqual(1, cout.Position);
                cout.WriteInt32(500);
                Assert.AreEqual(3, cout.Position);
                //Field 2: length delimited 120 bytes
                cout.WriteTag(2, WireFormat.WireType.LengthDelimited);
                Assert.AreEqual(4, cout.Position);
                cout.WriteBytes(ByteString.CopyFrom(child));
                Assert.AreEqual(125, cout.Position);
                // Field 3: fixed numeric value: 500
                cout.WriteTag(3, WireFormat.WireType.Fixed32);
                Assert.AreEqual(126, cout.Position);
                cout.WriteSFixed32(501);
                Assert.AreEqual(130, cout.Position);
                cout.Flush();
            }
            // Now test Input stream:
            {
                CodedInputStream cin = new CodedInputStream(new MemoryStream(bytes), new byte[50], 0, 0);
                Assert.AreEqual(0, cin.Position);
                // Field 1:
                uint tag = cin.ReadTag();
                Assert.AreEqual(1, tag >> 3);
                Assert.AreEqual(1, cin.Position);
                Assert.AreEqual(500, cin.ReadInt32());
                Assert.AreEqual(3, cin.Position);
                //Field 2:
                tag = cin.ReadTag();
                Assert.AreEqual(2, tag >> 3);
                Assert.AreEqual(4, cin.Position);
                int childlen = cin.ReadLength();
                Assert.AreEqual(120, childlen);
                Assert.AreEqual(5, cin.Position);
                int oldlimit = cin.PushLimit((int)childlen);
                Assert.AreEqual(5, cin.Position);
                // Now we are reading child message
                {
                    // Field 11: numeric value: 500
                    tag = cin.ReadTag();
                    Assert.AreEqual(11, tag >> 3);
                    Assert.AreEqual(6, cin.Position);
                    Assert.AreEqual(500, cin.ReadInt32());
                    Assert.AreEqual(8, cin.Position);
                    //Field 12: length delimited 120 bytes
                    tag = cin.ReadTag();
                    Assert.AreEqual(12, tag >> 3);
                    Assert.AreEqual(9, cin.Position);
                    ByteString bstr = cin.ReadBytes();
                    Assert.AreEqual(110, bstr.Length);
                    Assert.AreEqual((byte)109, bstr[109]);
                    Assert.AreEqual(120, cin.Position);
                    // Field 13: fixed numeric value: 501
                    tag = cin.ReadTag();
                    Assert.AreEqual(13, tag >> 3);
                    // ROK - Previously broken here, this returned 126 failing to account for bufferSizeAfterLimit
                    Assert.AreEqual(121, cin.Position);
                    Assert.AreEqual(501, cin.ReadSFixed32());
                    Assert.AreEqual(125, cin.Position);
                    Assert.IsTrue(cin.IsAtEnd);
                }
                cin.PopLimit(oldlimit);
                Assert.AreEqual(125, cin.Position);
                // Field 3: fixed numeric value: 501
                tag = cin.ReadTag();
                Assert.AreEqual(3, tag >> 3);
                Assert.AreEqual(126, cin.Position);
                Assert.AreEqual(501, cin.ReadSFixed32());
                Assert.AreEqual(130, cin.Position);
                Assert.IsTrue(cin.IsAtEnd);
            }
        }
Example #6
0
        public void TestCodedInputOutputPosition()
        {
            byte[] content = new byte[110];
            for (int i = 0; i < content.Length; i++)
                content[i] = (byte)i;

            byte[] child = new byte[120];
            {
                MemoryStream ms = new MemoryStream(child);
                CodedOutputStream cout = new CodedOutputStream(ms, 20);
                // Field 11: numeric value: 500
                cout.WriteTag(11, WireFormat.WireType.Varint);
                Assert.AreEqual(1, cout.Position);
                cout.WriteInt32(500);
                Assert.AreEqual(3, cout.Position);
                //Field 12: length delimited 120 bytes
                cout.WriteTag(12, WireFormat.WireType.LengthDelimited);
                Assert.AreEqual(4, cout.Position);
                cout.WriteBytes(ByteString.CopyFrom(content));
                Assert.AreEqual(115, cout.Position);
                // Field 13: fixed numeric value: 501
                cout.WriteTag(13, WireFormat.WireType.Fixed32);
                Assert.AreEqual(116, cout.Position);
                cout.WriteSFixed32(501);
                Assert.AreEqual(120, cout.Position);
                cout.Flush();
            }

            byte[] bytes = new byte[130];
            {
                CodedOutputStream cout = new CodedOutputStream(bytes);
                // Field 1: numeric value: 500
                cout.WriteTag(1, WireFormat.WireType.Varint);
                Assert.AreEqual(1, cout.Position);
                cout.WriteInt32(500);
                Assert.AreEqual(3, cout.Position);
                //Field 2: length delimited 120 bytes
                cout.WriteTag(2, WireFormat.WireType.LengthDelimited);
                Assert.AreEqual(4, cout.Position);
                cout.WriteBytes(ByteString.CopyFrom(child));
                Assert.AreEqual(125, cout.Position);
                // Field 3: fixed numeric value: 500
                cout.WriteTag(3, WireFormat.WireType.Fixed32);
                Assert.AreEqual(126, cout.Position);
                cout.WriteSFixed32(501);
                Assert.AreEqual(130, cout.Position);
                cout.Flush();
            }
            // Now test Input stream:
            {
                CodedInputStream cin = new CodedInputStream(new MemoryStream(bytes), new byte[50], 0, 0);
                Assert.AreEqual(0, cin.Position);
                // Field 1:
                uint tag = cin.ReadTag();
                Assert.AreEqual(1, tag >> 3);
                Assert.AreEqual(1, cin.Position);
                Assert.AreEqual(500, cin.ReadInt32());
                Assert.AreEqual(3, cin.Position);
                //Field 2:
                tag = cin.ReadTag();
                Assert.AreEqual(2, tag >> 3);
                Assert.AreEqual(4, cin.Position);
                int childlen = cin.ReadLength();
                Assert.AreEqual(120, childlen);
                Assert.AreEqual(5, cin.Position);
                int oldlimit = cin.PushLimit((int)childlen);
                Assert.AreEqual(5, cin.Position);
                // Now we are reading child message
                {
                    // Field 11: numeric value: 500
                    tag = cin.ReadTag();
                    Assert.AreEqual(11, tag >> 3);
                    Assert.AreEqual(6, cin.Position);
                    Assert.AreEqual(500, cin.ReadInt32());
                    Assert.AreEqual(8, cin.Position);
                    //Field 12: length delimited 120 bytes
                    tag = cin.ReadTag();
                    Assert.AreEqual(12, tag >> 3);
                    Assert.AreEqual(9, cin.Position);
                    ByteString bstr = cin.ReadBytes();
                    Assert.AreEqual(110, bstr.Length);
                    Assert.AreEqual((byte) 109, bstr[109]);
                    Assert.AreEqual(120, cin.Position);
                    // Field 13: fixed numeric value: 501
                    tag = cin.ReadTag();
                    Assert.AreEqual(13, tag >> 3);
                    // ROK - Previously broken here, this returned 126 failing to account for bufferSizeAfterLimit
                    Assert.AreEqual(121, cin.Position);
                    Assert.AreEqual(501, cin.ReadSFixed32());
                    Assert.AreEqual(125, cin.Position);
                    Assert.IsTrue(cin.IsAtEnd);
                }
                cin.PopLimit(oldlimit);
                Assert.AreEqual(125, cin.Position);
                // Field 3: fixed numeric value: 501
                tag = cin.ReadTag();
                Assert.AreEqual(3, tag >> 3);
                Assert.AreEqual(126, cin.Position);
                Assert.AreEqual(501, cin.ReadSFixed32());
                Assert.AreEqual(130, cin.Position);
                Assert.IsTrue(cin.IsAtEnd);
            }
        }
Example #7
0
 internal int <ForInt32> b__3_0(CodedInputStream input)
 {
     return(input.ReadInt32());
 }
Example #8
0
 /// <summary>
 /// Convert a Protocol Buffer value type, encoded as a byte string, to a C# value.
 /// </summary>
 public static object ReadValue(ByteString value, Type type)
 {
     if (value.Length == 0)
         throw new ArgumentException ("Value is empty");
     var stream = new CodedInputStream (value.ToByteArray ());
     if (type == typeof(double)) {
         return stream.ReadDouble ();
     } else if (type == typeof(float)) {
         return stream.ReadFloat ();
     } else if (type == typeof(int)) {
         return stream.ReadInt32 ();
     } else if (type == typeof(long)) {
         return stream.ReadInt64 ();
     } else if (type == typeof(uint)) {
         return stream.ReadUInt32 ();
     } else if (type == typeof(ulong)) {
         return stream.ReadUInt64 ();
     } else if (type == typeof(bool)) {
         return stream.ReadBool ();
     } else if (type == typeof(string)) {
         return stream.ReadString ();
     } else if (type == typeof(byte[])) {
         return stream.ReadBytes ().ToByteArray();
     }
     throw new ArgumentException (type + " is not a Protocol Buffer value type");
 }