Exemple #1
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 public BlobNode(Utf8String name, ObjectNodeSection section, byte[] data, int alignment)
 {
     _name = name;
     _section = section;
     _data = data;
     _alignment = alignment;
 }
Exemple #2
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 internal unsafe bool EqualsCaseInsensitive(Utf8String s)
 {
     if (this.m_pStringHeap == null)
     {
         return (s.m_StringHeapByteLength == 0);
     }
     return (((s.m_StringHeapByteLength == this.m_StringHeapByteLength) && (this.m_StringHeapByteLength != 0)) && EqualsCaseInsensitive(s.m_pStringHeap, this.m_pStringHeap, this.m_StringHeapByteLength));
 }
		internal bool EqualsCaseInsensitive(Utf8String s)
		{
			if (this.m_pStringHeap == null)
			{
				return s.m_StringHeapByteLength == 0;
			}
			return s.m_StringHeapByteLength == this.m_StringHeapByteLength && this.m_StringHeapByteLength != 0 && Utf8String.EqualsCaseInsensitive(s.m_pStringHeap, this.m_pStringHeap, this.m_StringHeapByteLength);
		}
Exemple #4
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 public JsonReader(string str)
 {
     _str = new Utf8String(str).Trim();
     _index = 0;
     _insideObject = 0;
     _insideArray = 0;
     TokenType = 0;
     _jsonStartIsObject = (byte)_str[0] == '{';
 }
Exemple #5
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        private static void SplitTest_Common(ustring source, Utf8SpanSplitDelegate splitAction, Range[] expectedRanges)
        {
            using BoundedUtf8Span boundedSpan = new BoundedUtf8Span(source.AsBytes());
            Utf8Span span = boundedSpan.Span;
            int      totalSpanLengthInBytes = span.Bytes.Length;

            source = null; // to avoid inadvertently using this for the remainder of the method

            // First, run the split with default options and make sure the ranges are equivalent

            List <Range> actualRanges = new List <Range>();

            foreach (Utf8Span slice in splitAction(span, Utf8StringSplitOptions.None))
            {
                actualRanges.Add(GetRangeOfSubspan(span, slice));
            }

            Assert.Equal(expectedRanges, actualRanges, new RangeEqualityComparer(totalSpanLengthInBytes));

            // Next, run the split with empty entries removed

            actualRanges = new List <Range>();
            foreach (Utf8Span slice in splitAction(span, Utf8StringSplitOptions.RemoveEmptyEntries))
            {
                actualRanges.Add(GetRangeOfSubspan(span, slice));
            }

            Assert.Equal(expectedRanges.Where(range => !range.IsEmpty(totalSpanLengthInBytes)), actualRanges, new RangeEqualityComparer(totalSpanLengthInBytes));

            // Next, run the split with results trimmed (but allowing empty results)

            expectedRanges = (Range[])expectedRanges.Clone(); // clone the array since we're about to mutate it
            for (int i = 0; i < expectedRanges.Length; i++)
            {
                expectedRanges[i] = GetRangeOfSubspan(span, span[expectedRanges[i]].Trim());
            }

            actualRanges = new List <Range>();
            foreach (Utf8Span slice in splitAction(span, Utf8StringSplitOptions.TrimEntries))
            {
                actualRanges.Add(GetRangeOfSubspan(span, slice));
            }

            Assert.Equal(expectedRanges, actualRanges, new RangeEqualityComparer(totalSpanLengthInBytes));

            // Finally, run the split both trimmed and with empty entries removed

            actualRanges = new List <Range>();
            foreach (Utf8Span slice in splitAction(span, Utf8StringSplitOptions.TrimEntries | Utf8StringSplitOptions.RemoveEmptyEntries))
            {
                actualRanges.Add(GetRangeOfSubspan(span, slice));
            }

            Assert.Equal(expectedRanges.Where(range => !range.IsEmpty(totalSpanLengthInBytes)), actualRanges, new RangeEqualityComparer(totalSpanLengthInBytes));
        }
        private static void ShouldBeIdentical(Utf8String s, uint[] expected)
        {
            var codePoints = s.CodePoints.ToArray();

            Assert.AreEqual(expected.Length, codePoints.Length);

            for (int i = 0; i < codePoints.Length; i++)
            {
                Assert.AreEqual(expected[i], codePoints[i].Value);
            }
        }
 public byte[] Serialize()
 {
     byte[] publicKey = PublicKey.Serialize(),
         m1 = new OctetSequence(Proof).Serialize(),
         cIV = new OctetSequence(InitialVector).Serialize(),
         options = new Utf8String(BuildOptionsString()).Serialize();
     int length = publicKey.Length + m1.Length + cIV.Length + options.Length;
     return new ByteBuilder()
         .Append(length, true)
         .Append(publicKey)
         .Append(m1)
         .Append(options)
         .Append(cIV)
         .ToArray();
 }
Exemple #8
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    static void RunLoop(bool log)
    {
        var loop = new UVLoop();

        var listener = new TcpListener(s_ipAddress, s_port, loop);
        var formatter = new BufferFormatter(512, FormattingData.InvariantUtf8);

        listener.ConnectionAccepted += (Tcp connection) =>
        {
            if (log)
            {
                Console.WriteLine("connection accepted");
            }

            connection.ReadCompleted += (ByteSpan data) =>
            {
                if (log)
                {
                    unsafe
                    {
                        var requestString = new Utf8String(data.UnsafeBuffer, data.Length);
                        Console.WriteLine("*REQUEST:\n {0}", requestString.ToString());
                    }
                }

                formatter.Clear();
                formatter.Append("HTTP/1.1 200 OK");
                formatter.Append("\r\n\r\n");
                formatter.Append("Hello World!");
                if (log)
                {
                    formatter.Format(" @ {0:O}", DateTime.UtcNow);
                }

                var response = formatter.Buffer.Slice(0, formatter.CommitedByteCount); // formatter should have a property for written bytes
                GCHandle gcHandle;
                var byteSpan = response.Pin(out gcHandle);
                connection.TryWrite(byteSpan);
                connection.Dispose();
                gcHandle.Free(); // TODO: formatter should format to ByteSpan, to avoid pinning
            };

            connection.ReadStart();
        };

        listener.Listen();
        loop.Run();
    }
Exemple #9
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        static void RunLoop(bool log)
        {
            var loop = new UVLoop();

            var listener = new TcpListener(s_ipAddress, s_port, loop);

            listener.ConnectionAccepted += (Tcp connection) =>
            {
                if (log)
                {
                    Console.WriteLine("connection accepted");
                }

                connection.ReadCompleted += (data) =>
                {
                    if (log)
                    {
                        unsafe
                        {
                            var requestString = new Utf8String(data.Span);
                            Console.WriteLine("*REQUEST:\n {0}", requestString.ToString());
                        }
                    }

                    var formatter = new ArrayFormatter(512, EncodingData.InvariantUtf8);
                    formatter.Clear();
                    formatter.Append("HTTP/1.1 200 OK");
                    formatter.Append("\r\n\r\n");
                    formatter.Append("Hello World!");
                    if (log)
                    {
                        formatter.Format(" @ {0:O}", DateTime.UtcNow);
                    }

                    var segment = formatter.Formatted;
                    using (var memory = new OwnedPinnedArray<byte>(segment.Array)) {
                        connection.TryWrite(memory.Memory.Slice(segment.Offset, segment.Count));
                        connection.Dispose();
                    }
                };

                connection.ReadStart();
            };

            listener.Listen();
            loop.Run();
        }
        private static void NoAllocationWithForeach(Utf8String s, int n)
        {
            var start = GC.GetTotalMemory(false);

            for (int i = 0; i < n; i++)
            {
                foreach (var x in s.CodePoints)
                    ;

                if (s.Length > 3)
                {
                    var sub1 = s.Substring(1, 1);
                    var sub2 = s.Substring(2);
                    var sub3 = s.Substring(3);
                }
            }

            var end = GC.GetTotalMemory(false);

            Assert.AreEqual(start, end);
        }
Exemple #11
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        public static void Main(string[] args)
        {
            var buffer = new byte[1024];
            var quote = new Utf8String("Insanity: doing the same thing over and over again and expecting different results. - Albert Einstein"); ;

            var loop = new UVLoop();

            var listener = new TcpListener("0.0.0.0", 17, loop);

            listener.ConnectionAccepted += (Tcp connection) =>
            {
                connection.ReadCompleted += (data) =>
                {
                    quote.CopyTo(buffer);
                    connection.TryWrite(buffer, quote.Length);
                };

                connection.ReadStart();
            };

            listener.Listen();
            loop.Run();
        }
Exemple #12
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    // This method is a bit of a mess. We need to fix many Http and Json APIs
    void WriteResponseForPostJson(BufferFormatter formatter, HttpRequestLine requestLine, ReadOnlySpan<byte> body)
    {
        Console.WriteLine(new Utf8String(body));

        uint requestedCount = ReadCountUsingReader(body).GetValueOrDefault(1);
        //uint requestedCount = ReadCountUsingNonAllocatingDom(body).GetValueOrDefault(1);

        // TODO: this needs to be written directly to the buffer after content length reservation is implemented.
        var buffer = ArrayPool<byte>.Shared.Rent(2048);
        var spanFormatter = new SpanFormatter(buffer.Slice(), FormattingData.InvariantUtf8);
        var json = new JsonWriter<SpanFormatter>(spanFormatter,  prettyPrint: true);
        json.WriteObjectStart();
        json.WriteArrayStart();
        for (int i = 0; i < requestedCount; i++) {
            json.WriteString(DateTime.UtcNow.ToString()); // TODO: this needs to not allocate.
        }
        json.WriteArrayEnd(); ;
        json.WriteObjectEnd();
        var responseBodyText = new Utf8String(buffer, 0, spanFormatter.CommitedByteCount);

        formatter.AppendHttpStatusLine(HttpVersion.V1_1, 200, new Utf8String("OK"));
        formatter.Append(new Utf8String("Content-Length : "));
        formatter.Append(responseBodyText.Length);
        formatter.AppendHttpNewLine();
        formatter.Append("Content-Type : text/plain; charset=UTF-8");
        formatter.AppendHttpNewLine();
        formatter.Append("Server : .NET Core Sample Serve");
        formatter.AppendHttpNewLine();
        formatter.Append(new Utf8String("Date : "));
        formatter.Append(DateTime.UtcNow.ToString("R"));
        formatter.AppendHttpNewLine();
        formatter.AppendHttpNewLine();
        formatter.Append(responseBodyText);

        ArrayPool<byte>.Shared.Return(buffer);
    }
        [System.Security.SecurityCritical]  // auto-generated
        public unsafe void GetPInvokeMap(
            int token, 
            out PInvokeAttributes attributes, 
            out String importName, 
            out String importDll)
        {
            int _attributes;
            void* _importName, _importDll;
            _GetPInvokeMap(m_metadataImport2, token, out _attributes, &_importName, &_importDll);
            importName = new Utf8String(_importName).ToString();
            importDll = new Utf8String(_importDll).ToString();

            attributes = (PInvokeAttributes)_attributes;
        }
Exemple #14
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 public static void Split_Char(ustring source, char separator, Range[] expectedRanges)
 {
     SplitTest_Common(source, (span, splitOptions) => span.Split(separator, splitOptions), expectedRanges);
 }
 public void CanParseBodylessRequest()
 {
     var request = new Utf8String("GET / HTTP/1.1\r\nConnection: close\r\n\r\n").CopyBytes().Slice();
     var parsed = HttpRequest.Parse(request);
     Assert.Equal(HttpMethod.Get, parsed.RequestLine.Method);
     Assert.Equal(HttpVersion.V1_1, parsed.RequestLine.Version);
     Assert.Equal(new Utf8String("/"), parsed.RequestLine.RequestUri);
     Assert.Equal(1, parsed.Headers.Count);
     Assert.Equal(0, parsed.Body.Length);
 } 
Exemple #16
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 public static void Split_Utf8Span(ustring source, ustring separator, Range[] expectedRanges)
 {
     SplitTest_Common(source, (span, splitOptions) => span.Split(separator.AsSpan(), splitOptions), expectedRanges);
 }
 private static void RunTestJsonReader(string str, bool output)
 {
     var utf8Str = new Utf8String(str);
     Timer.Restart();
     for (var i = 0; i < NumberOfIterations; i++)
     {
         JsonReaderHelper(utf8Str, output);
     }
     TimingResultsJsonReader.Add(Timer.ElapsedMilliseconds);
 }
Exemple #18
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        private Utf8String ComputeMangledFieldName(FieldDesc field)
        {
            string prependTypeName = null;
            if (!_mangleForCplusPlus)
                prependTypeName = GetMangledTypeName(field.OwningType);

            if (field is EcmaField)
            {
                var deduplicator = new HashSet<string>();

                // Add consistent names for all fields of the type, independent on the order in which
                // they are compiled
                lock (this)
                {
                    foreach (var f in field.OwningType.GetFields())
                    {
                        string name = SanitizeName(f.Name);

                        name = DisambiguateName(name, deduplicator);
                        deduplicator.Add(name);

                        if (prependTypeName != null)
                            name = prependTypeName + "__" + name;

                        _mangledFieldNames = _mangledFieldNames.Add(f, name);
                    }
                }

                return _mangledFieldNames[field];
            }


            string mangledName = SanitizeName(field.Name);

            if (prependTypeName != null)
                mangledName = prependTypeName + "__" + mangledName;

            Utf8String utf8MangledName = new Utf8String(mangledName);

            lock (this)
            {
                _mangledFieldNames = _mangledFieldNames.Add(field, utf8MangledName);
            }

            return utf8MangledName;
        }
Exemple #19
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    static void WriteResponseForHelloWorld(BufferFormatter formatter)
    {
        var responseBodyText = new Utf8String("Hello, World");

        formatter.AppendHttpStatusLine(HttpVersion.V1_1, 200, new Utf8String("OK"));
        formatter.Append(new Utf8String("Content-Length : "));
        formatter.Append(responseBodyText.Length);
        formatter.AppendHttpNewLine();
        formatter.Append("Content-Type : text/plain; charset=UTF-8");
        formatter.AppendHttpNewLine();
        formatter.Append("Server : .NET Core Sample Serve");
        formatter.AppendHttpNewLine();
        formatter.Append(new Utf8String("Date : "));
        formatter.Append(DateTime.UtcNow.ToString("R"));
        formatter.AppendHttpNewLine();
        formatter.AppendHttpNewLine();
        formatter.Append(responseBodyText);
    }
Exemple #20
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 public unsafe void GetPInvokeMap(int token, out PInvokeAttributes attributes, out string importName, out string importDll)
 {
     int num;
     void* voidPtr;
     void* voidPtr2;
     _GetPInvokeMap(this.m_metadataImport2, out MetadataArgs.Skip, token, out num, &voidPtr, &voidPtr2);
     importName = new Utf8String(voidPtr).ToString();
     importDll = new Utf8String(voidPtr2).ToString();
     attributes = (PInvokeAttributes) num;
 }
        private static void ReaderTestSystemTextJson(string str, bool output)
        {
            var utf8Str = new Utf8String(str);

            Timer.Restart();
            for (var i = 0; i < NumberOfIterations; i++)
            {
                JsonReaderHelper(utf8Str, OutputJsonData);
            }
            if (output) Console.WriteLine(Timer.ElapsedTicks);
        }
        public static void Run()
        {
            var utf8RawData = new byte[] { 0x7B, 0x20, 0x22, 0x6B, 0x65, 0x79, 0x22, 0x3A, 0x20, 0x22, 0x61, 0xE3, 0x81, 0x82, 0xF0, 0x9F, 0x98, 0x80, 0x22, 0x20, 0x7D };
            var utf16RawData = new char[] { '{', ' ', '"', 'k', 'e', 'y', '"', ':', ' ', '"', 'a', 'あ', (char)0xD83D, (char)0xDE00, '"', ' ', '}' };

            // string 型
            {
                // UTF-8 → UTF-16 の変換でヒープ確保が必要
                var s1 = System.Text.Encoding.UTF8.GetString(utf8RawData);

                // string 型は char[] を受け取る場合でも、内部でコピーを作るのでヒープ確保発生
                var s2 = new string(utf16RawData);

                // string.Substring もコピー発生
                var sub = s1.Substring(10, 4);

                Console.WriteLine(sub);
            }

            // Utf8String 型
            {
                // ヒープ確保しない実装
                var s = new Utf8String(utf8RawData);

                // インデックスでの文字取得はできない。s[0] は byte 単位のアクセスになる
                // コード ポイントの取り出しには CodePoints を使う
                // foreach もすべて構造体で展開されるのでヒープ確保不要
                foreach (var c in s.CodePoints)
                {
                    Console.WriteLine(c);
                }

                // Substring もコピー不要な実装になっている
                var sub = s.Substring(10, 8);

                foreach (var c in sub.CodePoints)
                {
                    Console.WriteLine(c);
                }
            }

            // string 型
            {
                // 内部でコピーしているので…
                var s1 = new string(utf16RawData);
                var s2 = new string(utf16RawData);

                // 元データを書き換えても
                utf16RawData[0] = '[';
                utf16RawData[16] = ']';

                // 影響は出ない
                Console.WriteLine(s1); // { "key": "aあ😀" }
                Console.WriteLine(s2); // { "key": "aあ😀" }
            }

            // Utf8String 型
            {
                // データを共有しているので…
                var s1 = new Utf8String(utf8RawData);
                var s2 = new Utf8String(utf8RawData);

                //98, 227, 129, 132, 240, 159, 144, 136
                // 元データを書き換えると
                utf8RawData[10] = 98;
                utf8RawData[11] = 227;
                utf8RawData[12] = 129;
                utf8RawData[13] = 132;
                utf8RawData[14] = 240;
                utf8RawData[15] = 159;
                utf8RawData[16] = 144;
                utf8RawData[17] = 136;

                // 影響がある
                Console.WriteLine(s1); // { "key": "bい🐈" }
                Console.WriteLine(s2); // { "key": "bい🐈" }
                Console.WriteLine(s1.Substring(10, 8)); // bい🐈
            }
        }
 private static void JsonReaderHelper(Utf8String str, bool output)
 {
     var reader = new JsonReader(str);
     while (reader.Read())
     {
         var tokenType = reader.TokenType;
         switch (tokenType)
         {
             case JsonReader.JsonTokenType.ObjectStart:
             case JsonReader.JsonTokenType.ObjectEnd:
             case JsonReader.JsonTokenType.ArrayStart:
             case JsonReader.JsonTokenType.ArrayEnd:
                 if (output) Console.WriteLine(tokenType);
                 break;
             case JsonReader.JsonTokenType.Property:
                 var name = reader.GetName();
                 if (output) Console.WriteLine(name);
                 var value = reader.GetValue();
                 if (output) Console.WriteLine(value);
                 break;
             case JsonReader.JsonTokenType.Value:
                 value = reader.GetValue();
                 if (output) Console.WriteLine(value);
                 break;
             default:
                 throw new ArgumentOutOfRangeException();
         }
     }
 }
Exemple #24
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 public Utf8StringBuilder Append(Utf8String value)
 {
     return Append(value.UnderlyingArray);
 }
Exemple #25
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 public void Write(Utf8String value)
 {
     this.Write(value.CopyBytes());
 }
Exemple #26
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 public int this[Utf8String name] => _table[name];
Exemple #27
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        private Utf8String ComputeMangledMethodName(MethodDesc method)
        {
            string prependTypeName = null;
            if (!_mangleForCplusPlus)
                prependTypeName = GetMangledTypeName(method.OwningType);

            if (method is EcmaMethod)
            {
                var deduplicator = new HashSet<string>();

                // Add consistent names for all methods of the type, independent on the order in which
                // they are compiled
                lock (this)
                {
                    foreach (var m in method.OwningType.GetMethods())
                    {
                        string name = SanitizeName(m.Name);

                        name = DisambiguateName(name, deduplicator);
                        deduplicator.Add(name);

                        if (prependTypeName != null)
                            name = prependTypeName + "__" + name;

                        _mangledMethodNames = _mangledMethodNames.Add(m, name);
                    }
                }

                return _mangledMethodNames[method];
            }


            string mangledName;

            var methodDefinition = method.GetTypicalMethodDefinition();
            if (methodDefinition != method)
            {
                mangledName = GetMangledMethodName(methodDefinition.GetMethodDefinition()).ToString();

                var inst = method.Instantiation;
                string mangledInstantiation = "";
                for (int i = 0; i < inst.Length; i++)
                {
                    string instArgName = GetMangledTypeName(inst[i]);
                    if (_mangleForCplusPlus)
                        instArgName = instArgName.Replace("::", "_");
                    if (i > 0)
                        mangledInstantiation += "__";
                    mangledInstantiation += instArgName;
                }
                mangledName += NestMangledName(mangledInstantiation);
            }
            else
            {
                // Assume that Name is unique for all other methods
                mangledName = SanitizeName(method.Name);
            }

            if (prependTypeName != null)
                mangledName = prependTypeName + "__" + mangledName;

            Utf8String utf8MangledName = new Utf8String(mangledName);

            lock (this)
            {
                _mangledMethodNames = _mangledMethodNames.Add(method, utf8MangledName);
            }

            return utf8MangledName;
        }
Exemple #28
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        public void BuildSymbolDefinitionMap(ObjectNode node, ISymbolNode[] definedSymbols)
        {
            _offsetToDefName.Clear();
            foreach (ISymbolNode n in definedSymbols)
            {
                if (!_offsetToDefName.ContainsKey(n.Offset))
                {
                    _offsetToDefName[n.Offset] = new List<ISymbolNode>();
                }

                _offsetToDefName[n.Offset].Add(n);
            }

            var symbolNode = node as ISymbolNode;
            if (symbolNode != null)
            {
                _sb.Clear();
                AppendExternCPrefix(_sb);
                symbolNode.AppendMangledName(NodeFactory.NameMangler, _sb);
                _currentNodeZeroTerminatedName = _sb.Append('\0').ToUtf8String();
            }
            else
            {
                _currentNodeZeroTerminatedName = default(Utf8String);
            }
        }