C# (CSharp) GasFormatter Examples

Programming Language: C# (CSharp)

Class/Type: GasFormatter

Examples at hotexamples.com: 3

C# (CSharp) GasFormatter - 3 examples found. These are the top rated real world C# (CSharp) examples of GasFormatter extracted from open source projects. You can rate examples to help us improve the quality of examples.

Example #1

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File: ReadyToRunLanguage.cs Project: xueye123/ILSpy

        private void Disassemble(ITextOutput output, ReadyToRunReader reader, ReadyToRunMethod readyToRunMethod, RuntimeFunction runtimeFunction, int bitness, ulong address)
        {
            WriteCommentLine(output, readyToRunMethod.SignatureString);
            byte[] codeBytes = new byte[runtimeFunction.Size];
            for (int i = 0; i < runtimeFunction.Size; i++)
            {
                codeBytes[i] = reader.Image[reader.GetOffset(runtimeFunction.StartAddress) + i];
            }

            // TODO: Decorate the disassembly with Unwind, GC and debug info
            var codeReader = new ByteArrayCodeReader(codeBytes);
            var decoder    = Decoder.Create(bitness, codeReader);

            decoder.IP = address;
            ulong endRip = decoder.IP + (uint)codeBytes.Length;

            var instructions = new InstructionList();

            while (decoder.IP < endRip)
            {
                decoder.Decode(out instructions.AllocUninitializedElement());
            }

            string    disassemblyFormat = ReadyToRunOptions.GetDisassemblyFormat(null);
            Formatter formatter         = null;

            if (disassemblyFormat.Equals(ReadyToRunOptions.intel))
            {
                formatter = new NasmFormatter();
            }
            else
            {
                Debug.Assert(disassemblyFormat.Equals(ReadyToRunOptions.gas));
                formatter = new GasFormatter();
            }
            formatter.Options.DigitSeparator        = "`";
            formatter.Options.FirstOperandCharIndex = 10;
            var tempOutput = new StringBuilderFormatterOutput();

            foreach (var instr in instructions)
            {
                int byteBaseIndex = (int)(instr.IP - address);
                formatter.Format(instr, tempOutput);
                output.Write(instr.IP.ToString("X16"));
                output.Write(" ");
                int instrLen = instr.ByteLength;
                for (int i = 0; i < instrLen; i++)
                {
                    output.Write(codeBytes[byteBaseIndex + i].ToString("X2"));
                }
                int missingBytes = 10 - instrLen;
                for (int i = 0; i < missingBytes; i++)
                {
                    output.Write("  ");
                }
                output.Write(" ");
                output.WriteLine(tempOutput.ToStringAndReset());
            }
            output.WriteLine();
        }

Example #2

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File: ReadyToRunLanguage.cs Project: manuelh2410/ILSpy

        private void Disassemble(PEFile currentFile, ITextOutput output, ReadyToRunReader reader, ReadyToRunMethod readyToRunMethod, RuntimeFunction runtimeFunction, int bitness, ulong address, bool showMetadataTokens, bool showMetadataTokensInBase10)
        {
            // TODO: Decorate the disassembly with GCInfo
            WriteCommentLine(output, readyToRunMethod.SignatureString);

            Dictionary <ulong, UnwindCode> unwindInfo = null;

            if (ReadyToRunOptions.GetIsShowUnwindInfo(null) && bitness == 64)
            {
                unwindInfo = WriteUnwindInfo(runtimeFunction, output);
            }

            bool isShowDebugInfo = ReadyToRunOptions.GetIsShowDebugInfo(null);
            Dictionary <VarLocType, HashSet <ValueTuple <DebugInfo, NativeVarInfo> > > debugInfo = null;

            if (isShowDebugInfo)
            {
                debugInfo = WriteDebugInfo(readyToRunMethod, output);
            }

            byte[] codeBytes = new byte[runtimeFunction.Size];
            for (int i = 0; i < runtimeFunction.Size; i++)
            {
                codeBytes[i] = reader.Image[reader.GetOffset(runtimeFunction.StartAddress) + i];
            }

            var codeReader = new ByteArrayCodeReader(codeBytes);
            var decoder    = Decoder.Create(bitness, codeReader);

            decoder.IP = address;
            ulong endRip = decoder.IP + (uint)codeBytes.Length;

            var instructions = new InstructionList();

            while (decoder.IP < endRip)
            {
                decoder.Decode(out instructions.AllocUninitializedElement());
            }

            string    disassemblyFormat = ReadyToRunOptions.GetDisassemblyFormat(null);
            Formatter formatter         = null;

            if (disassemblyFormat.Equals(ReadyToRunOptions.intel))
            {
                formatter = new NasmFormatter();
            }
            else
            {
                Debug.Assert(disassemblyFormat.Equals(ReadyToRunOptions.gas));
                formatter = new GasFormatter();
            }
            formatter.Options.DigitSeparator        = "`";
            formatter.Options.FirstOperandCharIndex = 10;
            var   tempOutput  = new StringOutput();
            ulong baseInstrIP = instructions[0].IP;

            foreach (var instr in instructions)
            {
                int byteBaseIndex = (int)(instr.IP - address);
                if (isShowDebugInfo && runtimeFunction.DebugInfo != null)
                {
                    foreach (var bound in runtimeFunction.DebugInfo.BoundsList)
                    {
                        if (bound.NativeOffset == byteBaseIndex)
                        {
                            if (bound.ILOffset == (uint)DebugInfoBoundsType.Prolog)
                            {
                                WriteCommentLine(output, "Prolog");
                            }
                            else if (bound.ILOffset == (uint)DebugInfoBoundsType.Epilog)
                            {
                                WriteCommentLine(output, "Epilog");
                            }
                            else
                            {
                                WriteCommentLine(output, $"IL_{bound.ILOffset:x4}");
                            }
                        }
                    }
                }
                formatter.Format(instr, tempOutput);
                output.Write(instr.IP.ToString("X16"));
                output.Write(" ");
                int instrLen = instr.Length;
                for (int i = 0; i < instrLen; i++)
                {
                    output.Write(codeBytes[byteBaseIndex + i].ToString("X2"));
                }
                int missingBytes = 10 - instrLen;
                for (int i = 0; i < missingBytes; i++)
                {
                    output.Write("  ");
                }
                output.Write(" ");
                output.Write(tempOutput.ToStringAndReset());
                DecorateUnwindInfo(output, unwindInfo, baseInstrIP, instr);
                DecorateDebugInfo(output, instr, debugInfo, baseInstrIP);
                DecorateCallSite(currentFile, output, reader, showMetadataTokens, showMetadataTokensInBase10, instr);
            }
            output.WriteLine();
        }

Example #3

Show file

File: ReadyToRunLanguage.cs Project: trisadmeslek/ILSpy

        private void Disassemble(PEFile currentFile, ITextOutput output, ReadyToRunReader reader, ReadyToRunMethod readyToRunMethod, RuntimeFunction runtimeFunction, int bitness, ulong address, bool showMetadataTokens, bool showMetadataTokensInBase10)
        {
            WriteCommentLine(output, readyToRunMethod.SignatureString);
            byte[] codeBytes = new byte[runtimeFunction.Size];
            for (int i = 0; i < runtimeFunction.Size; i++)
            {
                codeBytes[i] = reader.Image[reader.GetOffset(runtimeFunction.StartAddress) + i];
            }

            // TODO: Decorate the disassembly with Unwind, GC and debug info
            var codeReader = new ByteArrayCodeReader(codeBytes);
            var decoder    = Decoder.Create(bitness, codeReader);

            decoder.IP = address;
            ulong endRip = decoder.IP + (uint)codeBytes.Length;

            var instructions = new InstructionList();

            while (decoder.IP < endRip)
            {
                decoder.Decode(out instructions.AllocUninitializedElement());
            }

            string    disassemblyFormat = ReadyToRunOptions.GetDisassemblyFormat(null);
            Formatter formatter         = null;

            if (disassemblyFormat.Equals(ReadyToRunOptions.intel))
            {
                formatter = new NasmFormatter();
            }
            else
            {
                Debug.Assert(disassemblyFormat.Equals(ReadyToRunOptions.gas));
                formatter = new GasFormatter();
            }
            formatter.Options.DigitSeparator        = "`";
            formatter.Options.FirstOperandCharIndex = 10;
            var tempOutput = new StringOutput();

            foreach (var instr in instructions)
            {
                int byteBaseIndex = (int)(instr.IP - address);
                if (runtimeFunction.DebugInfo != null)
                {
                    foreach (var bound in runtimeFunction.DebugInfo.BoundsList)
                    {
                        if (bound.NativeOffset == byteBaseIndex)
                        {
                            if (bound.ILOffset == (uint)DebugInfoBoundsType.Prolog)
                            {
                                WriteCommentLine(output, "Prolog");
                            }
                            else if (bound.ILOffset == (uint)DebugInfoBoundsType.Epilog)
                            {
                                WriteCommentLine(output, "Epilog");
                            }
                            else
                            {
                                WriteCommentLine(output, $"IL_{bound.ILOffset:x4}");
                            }
                        }
                    }
                }
                formatter.Format(instr, tempOutput);
                output.Write(instr.IP.ToString("X16"));
                output.Write(" ");
                int instrLen = instr.Length;
                for (int i = 0; i < instrLen; i++)
                {
                    output.Write(codeBytes[byteBaseIndex + i].ToString("X2"));
                }
                int missingBytes = 10 - instrLen;
                for (int i = 0; i < missingBytes; i++)
                {
                    output.Write("  ");
                }
                output.Write(" ");
                output.Write(tempOutput.ToStringAndReset());
                int importCellAddress = (int)instr.IPRelativeMemoryAddress;
                if (instr.IsCallNearIndirect && reader.ImportCellNames.ContainsKey(importCellAddress))
                {
                    output.Write(" ; ");
                    ReadyToRunSignature signature = reader.ImportSignatures[(int)instr.IPRelativeMemoryAddress];
                    switch (signature)
                    {
                    case MethodDefEntrySignature methodDefSignature:
                        var methodDefToken = MetadataTokens.EntityHandle(unchecked ((int)methodDefSignature.MethodDefToken));
                        if (showMetadataTokens)
                        {
                            if (showMetadataTokensInBase10)
                            {
                                output.WriteReference(currentFile, methodDefToken, $"({MetadataTokens.GetToken(methodDefToken)}) ", "metadata");
                            }
                            else
                            {
                                output.WriteReference(currentFile, methodDefToken, $"({MetadataTokens.GetToken(methodDefToken):X8}) ", "metadata");
                            }
                        }
                        methodDefToken.WriteTo(currentFile, output, Decompiler.Metadata.GenericContext.Empty);
                        break;

                    case MethodRefEntrySignature methodRefSignature:
                        var methodRefToken = MetadataTokens.EntityHandle(unchecked ((int)methodRefSignature.MethodRefToken));
                        if (showMetadataTokens)
                        {
                            if (showMetadataTokensInBase10)
                            {
                                output.WriteReference(currentFile, methodRefToken, $"({MetadataTokens.GetToken(methodRefToken)}) ", "metadata");
                            }
                            else
                            {
                                output.WriteReference(currentFile, methodRefToken, $"({MetadataTokens.GetToken(methodRefToken):X8}) ", "metadata");
                            }
                        }
                        methodRefToken.WriteTo(currentFile, output, Decompiler.Metadata.GenericContext.Empty);
                        break;

                    default:
                        output.WriteLine(reader.ImportCellNames[importCellAddress]);
                        break;
                    }
                    output.WriteLine();
                }
                else
                {
                    output.WriteLine();
                }
            }
            output.WriteLine();
        }