public override void WriteMapBegin(TMap map) { this.WriteJSONArrayStart(); this.WriteJSONString(TJSONProtocol.GetTypeNameForTypeID(map.KeyType)); this.WriteJSONString(TJSONProtocol.GetTypeNameForTypeID(map.ValueType)); this.WriteJSONInteger((long)map.Count); this.WriteJSONObjectStart(); }
public override TSet ReadSetBegin() { TSet typeIDForTypeName = new TSet(); this.ReadJSONArrayStart(); typeIDForTypeName.ElementType = TJSONProtocol.GetTypeIDForTypeName(this.ReadJSONString(false)); typeIDForTypeName.Count = (int)this.ReadJSONInteger(); return(typeIDForTypeName); }
private static Calculator.Iface CreateCalculatorClient() { var uri = new Uri("http://localhost:43857/any-url.thrift"); var httpClient = new THttpClient(uri); var jsonProtocol = new TJSONProtocol(httpClient); var calculator = new Calculator.Client(jsonProtocol); return calculator; }
ClientService.Iface Create(string uriString) { var uri = new Uri(uriString); var httpClient = new THttpClient(uri); var jsonProtocol = new TJSONProtocol(httpClient); var client = new ClientService.Client(jsonProtocol); return client; }
public override TMap ReadMapBegin() { TMap typeIDForTypeName = new TMap(); this.ReadJSONArrayStart(); typeIDForTypeName.KeyType = TJSONProtocol.GetTypeIDForTypeName(this.ReadJSONString(false)); typeIDForTypeName.ValueType = TJSONProtocol.GetTypeIDForTypeName(this.ReadJSONString(false)); typeIDForTypeName.Count = (int)this.ReadJSONInteger(); this.ReadJSONObjectStart(); return(typeIDForTypeName); }
public override TField ReadFieldBegin() { TField typeIDForTypeName = new TField(); if (this.reader.Peek() != TJSONProtocol.RBRACE[0]) { typeIDForTypeName.ID = (short)this.ReadJSONInteger(); this.ReadJSONObjectStart(); typeIDForTypeName.Type = TJSONProtocol.GetTypeIDForTypeName(this.ReadJSONString(false)); } else { typeIDForTypeName.Type = TType.Stop; } return(typeIDForTypeName); }
public static void TestThrift2336() { const string RUSSIAN_TEXT = "\u0420\u0443\u0441\u0441\u043a\u043e\u0435 \u041d\u0430\u0437\u0432\u0430\u043d\u0438\u0435"; const string RUSSIAN_JSON = "\"\\u0420\\u0443\\u0441\\u0441\\u043a\\u043e\\u0435 \\u041d\\u0430\\u0437\\u0432\\u0430\\u043d\\u0438\\u0435\""; // prepare buffer with JSON data byte[] rawBytes = new byte[RUSSIAN_JSON.Length]; for (var i = 0; i < RUSSIAN_JSON.Length; ++i) rawBytes[i] = (byte)(RUSSIAN_JSON[i] & (char)0xFF); // only low bytes // parse and check var stm = new MemoryStream(rawBytes); var trans = new TStreamTransport(stm, null); var prot = new TJSONProtocol(trans); Debug.Assert(prot.ReadString() == RUSSIAN_TEXT, "reading JSON with hex-encoded chars > 8 bit"); }
private byte[] ReadJSONString(bool skipContext) { MemoryStream memoryStream = new MemoryStream(); if (!skipContext) { this.context.Read(); } this.ReadJSONSyntaxChar(TJSONProtocol.QUOTE); while (true) { byte eSCAPECHARVALS = this.reader.Read(); if (eSCAPECHARVALS == TJSONProtocol.QUOTE[0]) { break; } if (eSCAPECHARVALS == this.ESCSEQ[0]) { eSCAPECHARVALS = this.reader.Read(); if (eSCAPECHARVALS != this.ESCSEQ[1]) { int num = Array.IndexOf <char>(this.ESCAPE_CHARS, Convert.ToChar(eSCAPECHARVALS)); if (num == -1) { throw new TProtocolException(1, "Expected control char"); } eSCAPECHARVALS = this.ESCAPE_CHAR_VALS[num]; } else { this.ReadJSONSyntaxChar(TJSONProtocol.ZERO); this.ReadJSONSyntaxChar(TJSONProtocol.ZERO); this.trans.ReadAll(this.tempBuffer, 0, 2); eSCAPECHARVALS = (byte)((TJSONProtocol.HexVal(this.tempBuffer[0]) << 4) + TJSONProtocol.HexVal(this.tempBuffer[1])); } } memoryStream.Write(new byte[] { eSCAPECHARVALS }, 0, 1); } return(memoryStream.ToArray()); }
private void WriteJSONString(byte[] b) { this.context.Write(); this.trans.Write(TJSONProtocol.QUOTE); int length = (int)b.Length; for (int i = 0; i < length; i++) { if ((b[i] & 255) < 48) { this.tempBuffer[0] = this.JSON_CHAR_TABLE[b[i]]; if (this.tempBuffer[0] == 1) { this.trans.Write(b, i, 1); } else if (this.tempBuffer[0] <= 1) { this.trans.Write(this.ESCSEQ); this.tempBuffer[0] = TJSONProtocol.HexChar((byte)(b[i] >> 4)); this.tempBuffer[1] = TJSONProtocol.HexChar(b[i]); this.trans.Write(this.tempBuffer, 0, 2); } else { this.trans.Write(TJSONProtocol.BACKSLASH); this.trans.Write(this.tempBuffer, 0, 1); } } else if (b[i] != TJSONProtocol.BACKSLASH[0]) { this.trans.Write(b, i, 1); } else { this.trans.Write(TJSONProtocol.BACKSLASH); this.trans.Write(TJSONProtocol.BACKSLASH); } } this.trans.Write(TJSONProtocol.QUOTE); }
public static void TestThrift2365() { var rnd = new Random(); for (var len = 0; len < 10; ++len) { byte[] dataWritten = new byte[len]; rnd.NextBytes(dataWritten); Stream stm = new MemoryStream(); TTransport trans = new TStreamTransport(null, stm); TProtocol prot = new TJSONProtocol(trans); prot.WriteBinary(dataWritten); stm.Position = 0; trans = new TStreamTransport(stm, null); prot = new TJSONProtocol(trans); byte[] dataRead = prot.ReadBinary(); Debug.Assert(dataRead.Length == dataWritten.Length); for (var i = 0; i < dataRead.Length; ++i) Debug.Assert(dataRead[i] == dataWritten[i]); } }
public LookaheadReader(TJSONProtocol proto) { this.proto = proto; }
public JSONPairContext(TJSONProtocol proto) : base(proto) { }
public JSONListContext(TJSONProtocol protocol) : base(protocol) { }
public JSONBaseContext(TJSONProtocol proto) { this.proto = proto; }
public static void ClientTest(TTransport transport) { TProtocol proto; if (protocol == "compact") proto = new TCompactProtocol(transport); else if (protocol == "json") proto = new TJSONProtocol(transport); else proto = new TBinaryProtocol(transport); ThriftTest.Client client = new ThriftTest.Client(proto); try { if (!transport.IsOpen) { transport.Open(); } } catch (TTransportException ttx) { Console.WriteLine("Connect failed: " + ttx.Message); return; } long start = DateTime.Now.ToFileTime(); Console.Write("testVoid()"); client.testVoid(); Console.WriteLine(" = void"); Console.Write("testString(\"Test\")"); string s = client.testString("Test"); Console.WriteLine(" = \"" + s + "\""); Console.Write("testByte(1)"); sbyte i8 = client.testByte((sbyte)1); Console.WriteLine(" = " + i8); Console.Write("testI32(-1)"); int i32 = client.testI32(-1); Console.WriteLine(" = " + i32); Console.Write("testI64(-34359738368)"); long i64 = client.testI64(-34359738368); Console.WriteLine(" = " + i64); Console.Write("testDouble(5.325098235)"); double dub = client.testDouble(5.325098235); Console.WriteLine(" = " + dub); byte[] binOut = PrepareTestData(true); Console.Write("testBinary(" + BytesToHex(binOut) + ")"); try { byte[] binIn = client.testBinary(binOut); Console.WriteLine(" = " + BytesToHex(binIn)); if (binIn.Length != binOut.Length) throw new Exception("testBinary: length mismatch"); for (int ofs = 0; ofs < Math.Min(binIn.Length, binOut.Length); ++ofs) if (binIn[ofs] != binOut[ofs]) throw new Exception("testBinary: content mismatch at offset " + ofs.ToString()); } catch (Thrift.TApplicationException e) { Console.Write("testBinary(" + BytesToHex(binOut) + "): "+e.Message); } // binary equals? only with hashcode option enabled ... if( typeof(CrazyNesting).GetMethod("Equals").DeclaringType == typeof(CrazyNesting)) { CrazyNesting one = new CrazyNesting(); CrazyNesting two = new CrazyNesting(); one.String_field = "crazy"; two.String_field = "crazy"; one.Binary_field = new byte[10] { 0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0xFF }; two.Binary_field = new byte[10] { 0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0xFF }; if (!one.Equals(two)) throw new Exception("CrazyNesting.Equals failed"); } Console.Write("testStruct({\"Zero\", 1, -3, -5})"); Xtruct o = new Xtruct(); o.String_thing = "Zero"; o.Byte_thing = (sbyte)1; o.I32_thing = -3; o.I64_thing = -5; Xtruct i = client.testStruct(o); Console.WriteLine(" = {\"" + i.String_thing + "\", " + i.Byte_thing + ", " + i.I32_thing + ", " + i.I64_thing + "}"); Console.Write("testNest({1, {\"Zero\", 1, -3, -5}, 5})"); Xtruct2 o2 = new Xtruct2(); o2.Byte_thing = (sbyte)1; o2.Struct_thing = o; o2.I32_thing = 5; Xtruct2 i2 = client.testNest(o2); i = i2.Struct_thing; Console.WriteLine(" = {" + i2.Byte_thing + ", {\"" + i.String_thing + "\", " + i.Byte_thing + ", " + i.I32_thing + ", " + i.I64_thing + "}, " + i2.I32_thing + "}"); Dictionary<int, int> mapout = new Dictionary<int, int>(); for (int j = 0; j < 5; j++) { mapout[j] = j - 10; } Console.Write("testMap({"); bool first = true; foreach (int key in mapout.Keys) { if (first) { first = false; } else { Console.Write(", "); } Console.Write(key + " => " + mapout[key]); } Console.Write("})"); Dictionary<int, int> mapin = client.testMap(mapout); Console.Write(" = {"); first = true; foreach (int key in mapin.Keys) { if (first) { first = false; } else { Console.Write(", "); } Console.Write(key + " => " + mapin[key]); } Console.WriteLine("}"); List<int> listout = new List<int>(); for (int j = -2; j < 3; j++) { listout.Add(j); } Console.Write("testList({"); first = true; foreach (int j in listout) { if (first) { first = false; } else { Console.Write(", "); } Console.Write(j); } Console.Write("})"); List<int> listin = client.testList(listout); Console.Write(" = {"); first = true; foreach (int j in listin) { if (first) { first = false; } else { Console.Write(", "); } Console.Write(j); } Console.WriteLine("}"); //set THashSet<int> setout = new THashSet<int>(); for (int j = -2; j < 3; j++) { setout.Add(j); } Console.Write("testSet({"); first = true; foreach (int j in setout) { if (first) { first = false; } else { Console.Write(", "); } Console.Write(j); } Console.Write("})"); THashSet<int> setin = client.testSet(setout); Console.Write(" = {"); first = true; foreach (int j in setin) { if (first) { first = false; } else { Console.Write(", "); } Console.Write(j); } Console.WriteLine("}"); Console.Write("testEnum(ONE)"); Numberz ret = client.testEnum(Numberz.ONE); Console.WriteLine(" = " + ret); Console.Write("testEnum(TWO)"); ret = client.testEnum(Numberz.TWO); Console.WriteLine(" = " + ret); Console.Write("testEnum(THREE)"); ret = client.testEnum(Numberz.THREE); Console.WriteLine(" = " + ret); Console.Write("testEnum(FIVE)"); ret = client.testEnum(Numberz.FIVE); Console.WriteLine(" = " + ret); Console.Write("testEnum(EIGHT)"); ret = client.testEnum(Numberz.EIGHT); Console.WriteLine(" = " + ret); Console.Write("testTypedef(309858235082523)"); long uid = client.testTypedef(309858235082523L); Console.WriteLine(" = " + uid); Console.Write("testMapMap(1)"); Dictionary<int, Dictionary<int, int>> mm = client.testMapMap(1); Console.Write(" = {"); foreach (int key in mm.Keys) { Console.Write(key + " => {"); Dictionary<int, int> m2 = mm[key]; foreach (int k2 in m2.Keys) { Console.Write(k2 + " => " + m2[k2] + ", "); } Console.Write("}, "); } Console.WriteLine("}"); Insanity insane = new Insanity(); insane.UserMap = new Dictionary<Numberz, long>(); insane.UserMap[Numberz.FIVE] = 5000L; Xtruct truck = new Xtruct(); truck.String_thing = "Truck"; truck.Byte_thing = (sbyte)8; truck.I32_thing = 8; truck.I64_thing = 8; insane.Xtructs = new List<Xtruct>(); insane.Xtructs.Add(truck); Console.Write("testInsanity()"); Dictionary<long, Dictionary<Numberz, Insanity>> whoa = client.testInsanity(insane); Console.Write(" = {"); foreach (long key in whoa.Keys) { Dictionary<Numberz, Insanity> val = whoa[key]; Console.Write(key + " => {"); foreach (Numberz k2 in val.Keys) { Insanity v2 = val[k2]; Console.Write(k2 + " => {"); Dictionary<Numberz, long> userMap = v2.UserMap; Console.Write("{"); if (userMap != null) { foreach (Numberz k3 in userMap.Keys) { Console.Write(k3 + " => " + userMap[k3] + ", "); } } else { Console.Write("null"); } Console.Write("}, "); List<Xtruct> xtructs = v2.Xtructs; Console.Write("{"); if (xtructs != null) { foreach (Xtruct x in xtructs) { Console.Write("{\"" + x.String_thing + "\", " + x.Byte_thing + ", " + x.I32_thing + ", " + x.I32_thing + "}, "); } } else { Console.Write("null"); } Console.Write("}"); Console.Write("}, "); } Console.Write("}, "); } Console.WriteLine("}"); sbyte arg0 = 1; int arg1 = 2; long arg2 = long.MaxValue; Dictionary<short, string> multiDict = new Dictionary<short, string>(); multiDict[1] = "one"; Numberz arg4 = Numberz.FIVE; long arg5 = 5000000; Console.Write("Test Multi(" + arg0 + "," + arg1 + "," + arg2 + "," + multiDict + "," + arg4 + "," + arg5 + ")"); Xtruct multiResponse = client.testMulti(arg0, arg1, arg2, multiDict, arg4, arg5); Console.Write(" = Xtruct(byte_thing:" + multiResponse.Byte_thing + ",String_thing:" + multiResponse.String_thing + ",i32_thing:" + multiResponse.I32_thing + ",i64_thing:" + multiResponse.I64_thing + ")\n"); Console.WriteLine("Test Oneway(1)"); client.testOneway(1); Console.Write("Test Calltime()"); var startt = DateTime.UtcNow; for ( int k=0; k<1000; ++k ) client.testVoid(); Console.WriteLine(" = " + (DateTime.UtcNow - startt).TotalSeconds.ToString() + " ms a testVoid() call" ); }
public override void WriteFieldBegin(TField field) { this.WriteJSONInteger((long)field.ID); this.WriteJSONObjectStart(); this.WriteJSONString(TJSONProtocol.GetTypeNameForTypeID(field.Type)); }
public static void TestThrift3403() { string GCLEF_TEXT = "\ud834\udd1e"; const string GCLEF_JSON = "\"\\ud834\\udd1e\""; // parse and check var stm = new MemoryStream(Encoding.UTF8.GetBytes(GCLEF_JSON)); var trans = new TStreamTransport(stm, null); var prot = new TJSONProtocol(trans); Debug.Assert(prot.ReadString() == GCLEF_TEXT, "reading JSON with surrogate pair hex-encoded chars"); }
public override void WriteSetBegin(TSet set) { this.WriteJSONArrayStart(); this.WriteJSONString(TJSONProtocol.GetTypeNameForTypeID(set.ElementType)); this.WriteJSONInteger((long)set.Count); }
static void TestSearilize() { MemoryStream inStream = new MemoryStream(); MemoryStream outStream = new MemoryStream(); var streamTrans = new Thrift.Transport.TStreamTransport(inStream, outStream); var jsonProto = new Thrift.Protocol.TJSONProtocol(streamTrans); var obj = CreateTestReserve(0); obj.Write(jsonProto); byte[] buffer = new byte[outStream.Length]; outStream.Position = 0; outStream.Read(buffer, 0, buffer.Length); using (FileStream fs = new FileStream(".\\1.json", FileMode.Create, FileAccess.Write)) { fs.Write(buffer, 0, buffer.Length); } inStream.Close(); outStream.Close(); }