public void Dict() { Dictionary <object, object> dOne = new Dictionary <object, object> { { "Hello", 12 }, { "Blah", 15 } }; // Test Encode var dump = Rencode.Encode(dOne); Assert.AreEqual(((char)(RencodeConst.DICT_FIXED_START + 2)).ToString() + ((char)(RencodeConst.STR_FIXED_START + 5)).ToString() + "Hello" + ((char)12) + ((char)(RencodeConst.STR_FIXED_START + 4)).ToString() + "Blah" + ((char)15), Util.GetString(dump)); CollectionAssert.AreEqual(dOne, (ICollection)Rencode.Decode(dump)); Dictionary <object, object> dTwo = new Dictionary <object, object>(); for (int i = 0; i < 35; i++) { dTwo.Add(i.ToString(), i); } CollectionAssert.AreEqual(dTwo, (ICollection)Rencode.Decode(Rencode.Encode(dTwo))); }
public void StringUnicode() { var utf8 = Encoding.UTF8.GetBytes("fööbar"); var utf8x = Encoding.UTF8.GetBytes((string)Rencode.Decode(Rencode.Encode("fööbar"))); Assert.AreEqual("fööbar", Rencode.Decode(Rencode.Encode("fööbar"))); }
public void Dict() { Dictionary <object, object> dOne = new Dictionary <object, object> { { "Hello", 12 }, { "Blah", 15 } }; // Test Encode string dump = Rencode.EncodeToString(dOne); Assert.AreEqual(((char)(RencodeTypeCode.EncodedLengthDictionary + 2)).ToString() + ((char)(RencodeTypeCode.EncodedLengthString + 5)).ToString() + "Hello" + ((char)12) + ((char)(RencodeTypeCode.EncodedLengthString + 4)).ToString() + "Blah" + ((char)15), dump); Assert.AreEqual(dOne, Rencode.Decode(dump)); Dictionary <object, object> dTwo = new Dictionary <object, object>(); for (int i = 0; i < 35; i++) { dTwo.Add(i.ToString(), i); } Assert.AreEqual(dTwo, Rencode.Decode(Rencode.Encode(dTwo))); }
public void Bool() { Assert.AreEqual(RencodeConst.CHR_TRUE, Rencode.Encode(true).Single()); Assert.AreEqual(RencodeConst.CHR_FALSE, Rencode.Encode(false).Single()); Assert.AreEqual(true, Rencode.Decode(Rencode.Encode(true))); Assert.AreEqual(false, Rencode.Decode(Rencode.Encode(false))); }
public void Bool() { Assert.AreEqual(((char)RencodeTypeCode.BooleanTrue).ToString(), Rencode.EncodeToString(true)); Assert.AreEqual(((char)RencodeTypeCode.BooleanFalse).ToString(), Rencode.EncodeToString(false)); Assert.AreEqual(true, Rencode.Decode(Rencode.Encode(true))); Assert.AreEqual(false, Rencode.Decode(Rencode.Encode(false))); }
public void Bool() { Assert.AreEqual(((char)RencodeConst.CHR_TRUE).ToString(), Rencode.Encode(true)); Assert.AreEqual(((char)RencodeConst.CHR_FALSE).ToString(), Rencode.Encode(false)); Assert.AreEqual(true, Rencode.Decode(Rencode.Encode(true))); Assert.AreEqual(false, Rencode.Decode(Rencode.Encode(false))); }
public void StringLarge() { var largeStr = new string(Enumerable.Repeat('f', 9000).ToArray()); var encoded = Rencode.Encode(largeStr); var decoded = Rencode.Decode(encoded); Assert.AreEqual(largeStr, decoded); }
public void List() { Assert.AreEqual(new object[] { "one", "two", "three" }, Rencode.Decode( Rencode.Encode(new object[] { "one", "two", "three" }) ) ); Assert.AreEqual(new object[] { 1, 2, 3 }, Rencode.Decode( Rencode.Encode(new object[] { 1, 2, 3 }) ) ); Assert.AreEqual(new object[] { -1, -2, -3 }, Rencode.Decode( Rencode.Encode(new object[] { -1, -2, -3 }) ) ); Assert.AreEqual(new object[] { new object[] { "one", "two", "three" }, new object[] { "four", "five", "six" } }, Rencode.Decode( Rencode.Encode(new object[] { new object[] { "one", "two", "three" }, new object[] { "four", "five", "six" } }) ) ); Assert.AreEqual(new object[] { new object[] { 1, 2, 3 }, new object[] { 4, 5, 6 } }, Rencode.Decode( Rencode.Encode(new object[] { new object[] { 1, 2, 3 }, new object[] { 4, 5, 6 } }) ) ); object[] non_fixed_list_test = new object[100]; Random rand = new Random(); for (int i = 0; i < 100; i++) { non_fixed_list_test[i] = rand.Next(); } string dump = Rencode.EncodeToString(non_fixed_list_test); Assert.AreEqual(RencodeTypeCode.List, (RencodeTypeCode)dump[0]); Assert.AreEqual(RencodeTypeCode.Termination, (RencodeTypeCode)dump[dump.Length - 1]); Assert.AreEqual(non_fixed_list_test, Rencode.Decode(dump)); }
public void Call(string method, object[] args, Dictionary <object, object> kwargs, Action <IRPCMessage> callback) { _messageCallbacks.Add(_requestId, callback); object data = new object[] { new object[] { _requestId, method, args, kwargs } }; SendData(CompressionHelper.Compress(Rencode.Encode(data))); _requestId++; }
public void String() { // ENCODE STRING Assert.AreEqual("\x85Hello", Rencode.Encode("Hello")); Assert.AreEqual("78:abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyz", Rencode.Encode("abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyz")); // DECODE STRING Assert.AreEqual("Hello", Rencode.Decode("\x85Hello")); Assert.AreEqual("abcdefghij", Rencode.Decode("10:abcdefghij")); }
public void DeflateRencode() { var list = "hello_world"; string encode = Rencode.Encode(list); byte[] encodedBytes = encode.Select(Convert.ToByte).ToArray(); byte[] bytes = Zlib.Deflate(encodedBytes); string base64 = Base64.Encode(bytes); }
public void EncodeList() { var list = new List <object> { 1, "hello_world", new object[] { "foo", "bar" } }; string encode = Rencode.Encode(list); }
public void StringUnicode() { const string expectedString = "fööbar"; byte[] expectedBytes = Encoding.UTF8.GetBytes(expectedString); string resultString = (string)Rencode.Decode(Rencode.Encode(expectedString)); var resultBytes = Encoding.UTF8.GetBytes(resultString); Assert.AreEqual(expectedString, resultString); CollectionAssert.AreEqual(expectedBytes, resultBytes); }
public void List() { CollectionAssert.AreEqual(new object[] { "one", "two", "three" }, (ICollection)Rencode.Decode( Rencode.Encode(new object[] { "one", "two", "three" }) ) ); CollectionAssert.AreEqual(new object[] { 1, 2, 3 }, (ICollection)Rencode.Decode( Rencode.Encode(new object[] { 1, 2, 3 }) ) ); var decodedIntList = (ICollection)Rencode.Decode(Rencode.Encode(new object[] { -1, -2, -3 })); CollectionAssert.AreEqual(new object[] { -1, -2, -3 }, decodedIntList); var multiDimStrArr = new object[] { new object[] { "one", "two", "three" }, new object[] { "four", "five", "six" } }; var multiDimStrArrRoundTrip = ((ICollection)Rencode.Decode( Rencode.Encode(new object[] { new object[] { "one", "two", "three" }, new object[] { "four", "five", "six" } }) )).Cast <object>().Select(s => (ICollection)s).ToArray(); CollectionAssert.AreEqual((ICollection)multiDimStrArr[0], multiDimStrArrRoundTrip[0]); CollectionAssert.AreEqual((ICollection)multiDimStrArr[1], multiDimStrArrRoundTrip[1]); var multiDimIntArr = new object[] { new object[] { 1, 2, 3 }, new object[] { 4, 5, 6 } }; var multiDimIntArrRoundTrip = ((ICollection)Rencode.Decode( Rencode.Encode(new object[] { new object[] { 1, 2, 3 }, new object[] { 4, 5, 6 } }) )).Cast <object>().Select(s => (ICollection)s).ToArray(); CollectionAssert.AreEqual((ICollection)multiDimIntArr[0], multiDimIntArrRoundTrip[0]); CollectionAssert.AreEqual((ICollection)multiDimIntArr[1], multiDimIntArrRoundTrip[1]); }
public override async Task Send(IEnumerable <RpcRequest> requests) { CheckDisposed(); object formatted = FormatRequestMessages(requests); string encoded = Rencode.Encode(formatted); byte[] encodedBytes = encoded.Select(Convert.ToByte).ToArray(); using (var zlib = new ZlibStream(Stream, CompressionMode.Compress, true)) { await zlib.WriteAsync(encodedBytes, 0, encodedBytes.Length); } }
public void ListNonFixed() { object[] non_fixed_list_test = new object[100]; Random rand = new Random(); for (int i = 0; i < non_fixed_list_test.Length; i++) { non_fixed_list_test[i] = rand.Next(); } var dump = Rencode.Encode(non_fixed_list_test); Assert.AreEqual(RencodeConst.CHR_LIST, dump[0]); Assert.AreEqual(RencodeConst.CHR_TERM, dump[dump.Length - 1]); CollectionAssert.AreEqual(non_fixed_list_test, (ICollection)Rencode.Decode(dump)); }
public void Roundtrip() { Assert.Equal(true, Rencode.Decode(Rencode.Encode(true))); Assert.Equal(false, Rencode.Decode(Rencode.Encode(false))); Assert.Equal(null, Rencode.Decode(Rencode.Encode(null))); Assert.Equal(0, Rencode.Decode(Rencode.Encode(0))); Assert.Equal(17, Rencode.Decode(Rencode.Encode(17))); Assert.Equal(-17, Rencode.Decode(Rencode.Encode(-17))); Assert.Equal(0x4012, Rencode.Decode(Rencode.Encode(0x4012))); Assert.Equal(0x40124012, Rencode.Decode(Rencode.Encode(0x40124012))); Assert.Equal(0x4012401240124012L, Rencode.Decode(Rencode.Encode(0x4012401240124012L))); Assert.Equal(0.5f, Rencode.Decode(Rencode.Encode(0.5f))); Assert.Equal(0.5, Rencode.Decode(Rencode.Encode(0.5))); Assert.Equal(Data, Rencode.Encode(Rencode.Decode(Data))); }
public void Integer() { // ENCODE INT1 Assert.AreEqual((char)RencodeTypeCode.SByte + "\x78", Rencode.EncodeToString(120)); Assert.AreEqual((char)RencodeTypeCode.SByte + "\x88", Rencode.EncodeToString(-120)); // ENCODE INT2 Assert.AreEqual((char)RencodeTypeCode.Int16 + "\x06\x04", Rencode.EncodeToString(1540)); Assert.AreEqual((char)RencodeTypeCode.Int16 + "\xF9\xFC", Rencode.EncodeToString(-1540)); // ENCODE INT4 Assert.AreEqual((char)RencodeTypeCode.Int32 + "\x7F\xff\xff\xd0", Rencode.EncodeToString(2147483600)); Assert.AreEqual((char)RencodeTypeCode.Int32 + "\x80\x00\x00\x30", Rencode.EncodeToString(-2147483600)); // ENCODE INT8 Assert.AreEqual(65, Rencode.Encode(9223372036854700000L)[0]); Assert.AreEqual(127, Rencode.Encode(9223372036854700000L)[1]); Assert.AreEqual(255, Rencode.Encode(9223372036854700000L)[2]); Assert.AreEqual(255, Rencode.Encode(9223372036854700000L)[3]); Assert.AreEqual((char)RencodeTypeCode.Int64 + "\x7F\xFF\xFF\xFF\xFF\xFE\xD7\xE0", Rencode.EncodeToString(9223372036854700000L)); Assert.AreEqual((char)RencodeTypeCode.Int64 + "\x80\x00\x00\x00\x00\x01( ", Rencode.EncodeToString(-9223372036854700000L)); // DECODE INT var bi = new BigInteger(long.MaxValue) * 2; Assert.AreEqual(bi, Rencode.Decode((char)RencodeTypeCode.BigInteger + bi.ToString() + (char)RencodeTypeCode.Termination)); // DECODE INT1 Assert.AreEqual(120, Rencode.Decode((char)RencodeTypeCode.SByte + "\x78")); Assert.AreEqual(-120, Rencode.Decode((char)RencodeTypeCode.SByte + "\x88")); // DECODE INT2 Assert.AreEqual(1540, Rencode.Decode((char)RencodeTypeCode.Int16 + "\x06\x04")); Assert.AreEqual(-1540, Rencode.Decode((char)RencodeTypeCode.Int16 + "\xF9\xFC")); // DECODE INT4 Assert.AreEqual(2147483600, Rencode.Decode((char)RencodeTypeCode.Int32 + "\x7f\xff\xff\xd0")); Assert.AreEqual(-2147483600, Rencode.Decode((char)RencodeTypeCode.Int32 + "\x80\x00\x00\x30")); // DECODE INT8 Assert.AreEqual(9223372036854700000L, Rencode.Decode((char)RencodeTypeCode.Int64 + "\x7F\xFF\xFF\xFF\xFF\xFE\xD7\xE0")); Assert.AreEqual(-9223372036854700000L, Rencode.Decode((char)RencodeTypeCode.Int64 + "\x80\x00\x00\x00\x00\x01( ")); }
public void Integer() { // ENCODE INT1 Assert.AreEqual((char)RencodeConst.CHR_INT1 + "\x78", Rencode.EncodeToString(120)); Assert.AreEqual((char)RencodeConst.CHR_INT1 + "\x88", Rencode.EncodeToString(-120)); // ENCODE INT2 Assert.AreEqual((char)RencodeConst.CHR_INT2 + "\x06\x04", Rencode.EncodeToString(1540)); Assert.AreEqual((char)RencodeConst.CHR_INT2 + "\xF9\xFC", Rencode.EncodeToString(-1540)); // ENCODE INT4 Assert.AreEqual((char)RencodeConst.CHR_INT4 + "\x7F\xff\xff\xd0", Rencode.EncodeToString(2147483600)); Assert.AreEqual((char)RencodeConst.CHR_INT4 + "\x80\x00\x00\x30", Rencode.EncodeToString(-2147483600)); // ENCODE INT8 Assert.AreEqual(65, Rencode.Encode(9223372036854700000L)[0]); Assert.AreEqual(127, Rencode.Encode(9223372036854700000L)[1]); Assert.AreEqual(255, Rencode.Encode(9223372036854700000L)[2]); Assert.AreEqual(255, Rencode.Encode(9223372036854700000L)[3]); Assert.AreEqual((char)RencodeConst.CHR_INT8 + "\x7F\xFF\xFF\xFF\xFF\xFE\xD7\xE0", Rencode.EncodeToString(9223372036854700000L)); Assert.AreEqual((char)RencodeConst.CHR_INT8 + "\x80\x00\x00\x00\x00\x01( ", Rencode.EncodeToString(-9223372036854700000L)); // DECODE INT Assert.AreEqual((short)1000, Rencode.Decode((char)RencodeConst.CHR_INT + "1000" + (char)RencodeConst.CHR_TERM)); // DECODE INT1 Assert.AreEqual((sbyte)120, Rencode.Decode((char)RencodeConst.CHR_INT1 + "\x78")); Assert.AreEqual((sbyte)-120, Rencode.Decode((char)RencodeConst.CHR_INT1 + "\x88")); // DECODE INT2 Assert.AreEqual((short)1540, Rencode.Decode((char)RencodeConst.CHR_INT2 + "\x06\x04")); Assert.AreEqual((short)-1540, Rencode.Decode((char)RencodeConst.CHR_INT2 + "\xF9\xFC")); // DECODE INT4 Assert.AreEqual(2147483600, Rencode.Decode((char)RencodeConst.CHR_INT4 + "\x7f\xff\xff\xd0")); Assert.AreEqual(-2147483600, Rencode.Decode((char)RencodeConst.CHR_INT4 + "\x80\x00\x00\x30")); // DECODE INT8 Assert.AreEqual(9223372036854700000L, Rencode.Decode((char)RencodeConst.CHR_INT8 + "\x7F\xFF\xFF\xFF\xFF\xFE\xD7\xE0")); Assert.AreEqual(-9223372036854700000L, Rencode.Decode((char)RencodeConst.CHR_INT8 + "\x80\x00\x00\x00\x00\x01( ")); }
private static byte[] EncodeAndCompressRpcRequest(RpcRequest request) { string encodedRequest = Rencode.Encode(new object[] { request.RequestId, request.Method, request.Arguments.ToArray(), request.KeyWordArguments }); return(ZlibStream.CompressString(encodedRequest)); }
public void Null() { Assert.AreEqual(((char)RencodeTypeCode.Null).ToString(), Rencode.EncodeToString(null)); Assert.AreEqual(null, Rencode.Decode(Rencode.Encode(null))); }
public void Double() { Assert.AreEqual(0.005353d, Rencode.Decode(Rencode.Encode(0.005353d))); Assert.AreEqual(-0.005353d, Rencode.Decode(Rencode.Encode(-0.005353d))); }
public void Float() { Assert.AreEqual(0.005353f, Rencode.Decode(Rencode.Encode(0.005353f))); Assert.AreEqual(-0.005353f, Rencode.Decode(Rencode.Encode(-0.005353f))); }
public void Null() { Assert.AreEqual(((char)RencodeConst.CHR_NONE).ToString(), Rencode.EncodeToString(null)); Assert.AreEqual(null, Rencode.Decode(Rencode.Encode(null))); }