// // CodeReader.cs // // Author: // Jb Evain (jbevain@gmail.com) // // Copyright (c) 2008 - 2010 Jb Evain // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // using System; using Mono.Cecil.PE; using Mono.Collections.Generic; using RVA = System.UInt32; namespace Mono.Cecil.Cil { sealed class CodeReader : ByteBuffer { readonly internal MetadataReader reader; int start; Section code_section; MethodDefinition method; MethodBody body; int Offset { get { return base.position - start; } } CodeReader (Section section, MetadataReader reader) : base (section.Data) { this.code_section = section; this.reader = reader; } public static CodeReader CreateCodeReader (MetadataReader metadata) { return new CodeReader (metadata.image.MetadataSection, metadata); } public MethodBody ReadMethodBody (MethodDefinition method) { this.method = method; this.body = new MethodBody (method); reader.context = method; ReadMethodBody (); return this.body; } public void MoveTo (int rva) { if (!IsInSection (rva)) { code_section = reader.image.GetSectionAtVirtualAddress ((uint) rva); Reset (code_section.Data); } base.position = rva - (int) code_section.VirtualAddress; } bool IsInSection (int rva) { return code_section.VirtualAddress <= rva && rva < code_section.VirtualAddress + code_section.SizeOfRawData; } void ReadMethodBody () { MoveTo (method.RVA); var flags = ReadByte (); switch (flags & 0x3) { case 0x2: // tiny body.code_size = flags >> 2; body.MaxStackSize = 8; ReadCode (); break; case 0x3: // fat base.position--; ReadFatMethod (); break; default: throw new InvalidOperationException (); } var symbol_reader = reader.module.SymbolReader; if (symbol_reader != null) { var instructions = body.Instructions; symbol_reader.Read (body, offset => GetInstruction (instructions, offset)); } } void ReadFatMethod () { var flags = ReadUInt16 (); body.max_stack_size = ReadUInt16 (); body.code_size = (int) ReadUInt32 (); body.local_var_token = new MetadataToken (ReadUInt32 ()); body.init_locals = (flags & 0x10) != 0; if (body.local_var_token.RID != 0) body.variables = ReadVariables (body.local_var_token); ReadCode (); if ((flags & 0x8) != 0) ReadSection (); } public VariableDefinitionCollection ReadVariables (MetadataToken local_var_token) { var position = reader.position; var variables = reader.ReadVariables (local_var_token); reader.position = position; return variables; } void ReadCode () { start = position; var code_size = body.code_size; if (code_size < 0 || buffer.Length <= (uint) (code_size + position)) code_size = 0; var end = start + code_size; var instructions = body.instructions = new InstructionCollection (code_size / 3); while (position < end) { var offset = base.position - start; var opcode = ReadOpCode (); var current = new Instruction (offset, opcode); if (opcode.OperandType != OperandType.InlineNone) current.operand = ReadOperand (current); instructions.Add (current); } ResolveBranches (instructions); } OpCode ReadOpCode () { var il_opcode = ReadByte (); return il_opcode != 0xfe ? OpCodes.OneByteOpCode [il_opcode] : OpCodes.TwoBytesOpCode [ReadByte ()]; } object ReadOperand (Instruction instruction) { switch (instruction.opcode.OperandType) { case OperandType.InlineSwitch: var length = ReadInt32 (); var base_offset = Offset + (4 * length); var branches = new int [length]; for (int i = 0; i < length; i++) branches [i] = base_offset + ReadInt32 (); return branches; case OperandType.ShortInlineBrTarget: return ReadSByte () + Offset; case OperandType.InlineBrTarget: return ReadInt32 () + Offset; case OperandType.ShortInlineI: if (instruction.opcode == OpCodes.Ldc_I4_S) return ReadSByte (); return ReadByte (); case OperandType.InlineI: return ReadInt32 (); case OperandType.ShortInlineR: return ReadSingle (); case OperandType.InlineR: return ReadDouble (); case OperandType.InlineI8: return ReadInt64 (); case OperandType.ShortInlineVar: return GetVariable (ReadByte ()); case OperandType.InlineVar: return GetVariable (ReadUInt16 ()); case OperandType.ShortInlineArg: return GetParameter (ReadByte ()); case OperandType.InlineArg: return GetParameter (ReadUInt16 ()); case OperandType.InlineSig: return GetCallSite (ReadToken ()); case OperandType.InlineString: return GetString (ReadToken ()); case OperandType.InlineTok: case OperandType.InlineType: case OperandType.InlineMethod: case OperandType.InlineField: return reader.LookupToken (ReadToken ()); default: throw new NotSupportedException (); } } public string GetString (MetadataToken token) { return reader.image.UserStringHeap.Read (token.RID); } public ParameterDefinition GetParameter (int index) { return body.GetParameter (index); } public VariableDefinition GetVariable (int index) { return body.GetVariable (index); } public CallSite GetCallSite (MetadataToken token) { return reader.ReadCallSite (token); } void ResolveBranches (Collection instructions) { var items = instructions.items; var size = instructions.size; for (int i = 0; i < size; i++) { var instruction = items [i]; switch (instruction.opcode.OperandType) { case OperandType.ShortInlineBrTarget: case OperandType.InlineBrTarget: instruction.operand = GetInstruction ((int) instruction.operand); break; case OperandType.InlineSwitch: var offsets = (int []) instruction.operand; var branches = new Instruction [offsets.Length]; for (int j = 0; j < offsets.Length; j++) branches [j] = GetInstruction (offsets [j]); instruction.operand = branches; break; } } } Instruction GetInstruction (int offset) { return GetInstruction (body.Instructions, offset); } static Instruction GetInstruction (Collection instructions, int offset) { var size = instructions.size; var items = instructions.items; if (offset < 0 || offset > items [size - 1].offset) return null; int min = 0; int max = size - 1; while (min <= max) { int mid = min + ((max - min) / 2); var instruction = items [mid]; var instruction_offset = instruction.offset; if (offset == instruction_offset) return instruction; if (offset < instruction_offset) max = mid - 1; else min = mid + 1; } return null; } void ReadSection () { Align (4); const byte fat_format = 0x40; const byte more_sects = 0x80; var flags = ReadByte (); if ((flags & fat_format) == 0) ReadSmallSection (); else ReadFatSection (); if ((flags & more_sects) != 0) ReadSection (); } void ReadSmallSection () { var count = ReadByte () / 12; Advance (2); ReadExceptionHandlers ( count, () => (int) ReadUInt16 (), () => (int) ReadByte ()); } void ReadFatSection () { position--; var count = (ReadInt32 () >> 8) / 24; ReadExceptionHandlers ( count, ReadInt32, ReadInt32); } // inline ? void ReadExceptionHandlers (int count, Func read_entry, Func read_length) { for (int i = 0; i < count; i++) { var handler = new ExceptionHandler ( (ExceptionHandlerType) (read_entry () & 0x7)); handler.TryStart = GetInstruction (read_entry ()); handler.TryEnd = GetInstruction (handler.TryStart.Offset + read_length ()); handler.HandlerStart = GetInstruction (read_entry ()); handler.HandlerEnd = GetInstruction (handler.HandlerStart.Offset + read_length ()); ReadExceptionHandlerSpecific (handler); this.body.ExceptionHandlers.Add (handler); } } void ReadExceptionHandlerSpecific (ExceptionHandler handler) { switch (handler.HandlerType) { case ExceptionHandlerType.Catch: handler.CatchType = (TypeReference) reader.LookupToken (ReadToken ()); break; case ExceptionHandlerType.Filter: handler.FilterStart = GetInstruction (ReadInt32 ()); handler.FilterEnd = handler.HandlerStart.Previous; break; default: Advance (4); break; } } void Align (int align) { align--; Advance (((position + align) & ~align) - position); } public MetadataToken ReadToken () { return new MetadataToken (ReadUInt32 ()); } #if !READ_ONLY public ByteBuffer PatchRawMethodBody (MethodDefinition method, CodeWriter writer, out MethodSymbols symbols) { var buffer = new ByteBuffer (); symbols = new MethodSymbols (method.Name); this.method = method; reader.context = method; MoveTo (method.RVA); var flags = ReadByte (); MetadataToken local_var_token; switch (flags & 0x3) { case 0x2: // tiny buffer.WriteByte (flags); local_var_token = MetadataToken.Zero; symbols.code_size = flags >> 2; PatchRawCode (buffer, symbols.code_size, writer); break; case 0x3: // fat base.position--; PatchRawFatMethod (buffer, symbols, writer, out local_var_token); break; default: throw new NotSupportedException (); } var symbol_reader = reader.module.SymbolReader; if (symbol_reader != null && writer.metadata.write_symbols) { symbols.method_token = GetOriginalToken (writer.metadata, method); symbols.local_var_token = local_var_token; symbol_reader.Read (symbols); } return buffer; } void PatchRawFatMethod (ByteBuffer buffer, MethodSymbols symbols, CodeWriter writer, out MetadataToken local_var_token) { var flags = ReadUInt16 (); buffer.WriteUInt16 (flags); buffer.WriteUInt16 (ReadUInt16 ()); symbols.code_size = ReadInt32 (); buffer.WriteInt32 (symbols.code_size); local_var_token = ReadToken (); if (local_var_token.RID > 0) { var variables = symbols.variables = ReadVariables (local_var_token); buffer.WriteUInt32 (variables != null ? writer.GetStandAloneSignature (symbols.variables).ToUInt32 () : 0); } else buffer.WriteUInt32 (0); PatchRawCode (buffer, symbols.code_size, writer); if ((flags & 0x8) != 0) PatchRawSection (buffer, writer.metadata); } static MetadataToken GetOriginalToken (MetadataBuilder metadata, MethodDefinition method) { MetadataToken original; if (metadata.TryGetOriginalMethodToken (method.token, out original)) return original; return MetadataToken.Zero; } void PatchRawCode (ByteBuffer buffer, int code_size, CodeWriter writer) { var metadata = writer.metadata; buffer.WriteBytes (ReadBytes (code_size)); var end = buffer.position; buffer.position -= code_size; while (buffer.position < end) { OpCode opcode; var il_opcode = buffer.ReadByte (); if (il_opcode != 0xfe) { opcode = OpCodes.OneByteOpCode [il_opcode]; } else { var il_opcode2 = buffer.ReadByte (); opcode = OpCodes.TwoBytesOpCode [il_opcode2]; } switch (opcode.OperandType) { case OperandType.ShortInlineI: case OperandType.ShortInlineBrTarget: case OperandType.ShortInlineVar: case OperandType.ShortInlineArg: buffer.position += 1; break; case OperandType.InlineVar: case OperandType.InlineArg: buffer.position += 2; break; case OperandType.InlineBrTarget: case OperandType.ShortInlineR: case OperandType.InlineI: buffer.position += 4; break; case OperandType.InlineI8: case OperandType.InlineR: buffer.position += 8; break; case OperandType.InlineSwitch: var length = buffer.ReadInt32 (); buffer.position += length * 4; break; case OperandType.InlineString: var @string = GetString (new MetadataToken (buffer.ReadUInt32 ())); buffer.position -= 4; buffer.WriteUInt32 ( new MetadataToken ( TokenType.String, metadata.user_string_heap.GetStringIndex (@string)).ToUInt32 ()); break; case OperandType.InlineSig: var call_site = GetCallSite (new MetadataToken (buffer.ReadUInt32 ())); buffer.position -= 4; buffer.WriteUInt32 (writer.GetStandAloneSignature (call_site).ToUInt32 ()); break; case OperandType.InlineTok: case OperandType.InlineType: case OperandType.InlineMethod: case OperandType.InlineField: var provider = reader.LookupToken (new MetadataToken (buffer.ReadUInt32 ())); buffer.position -= 4; buffer.WriteUInt32 (metadata.LookupToken (provider).ToUInt32 ()); break; } } } void PatchRawSection (ByteBuffer buffer, MetadataBuilder metadata) { var position = base.position; Align (4); buffer.WriteBytes (base.position - position); const byte fat_format = 0x40; const byte more_sects = 0x80; var flags = ReadByte (); if ((flags & fat_format) == 0) { buffer.WriteByte (flags); PatchRawSmallSection (buffer, metadata); } else PatchRawFatSection (buffer, metadata); if ((flags & more_sects) != 0) PatchRawSection (buffer, metadata); } void PatchRawSmallSection (ByteBuffer buffer, MetadataBuilder metadata) { var length = ReadByte (); buffer.WriteByte (length); Advance (2); buffer.WriteUInt16 (0); var count = length / 12; PatchRawExceptionHandlers (buffer, metadata, count, false); } void PatchRawFatSection (ByteBuffer buffer, MetadataBuilder metadata) { position--; var length = ReadInt32 (); buffer.WriteInt32 (length); var count = (length >> 8) / 24; PatchRawExceptionHandlers (buffer, metadata, count, true); } void PatchRawExceptionHandlers (ByteBuffer buffer, MetadataBuilder metadata, int count, bool fat_entry) { const int fat_entry_size = 16; const int small_entry_size = 6; for (int i = 0; i < count; i++) { ExceptionHandlerType handler_type; if (fat_entry) { var type = ReadUInt32 (); handler_type = (ExceptionHandlerType) (type & 0x7); buffer.WriteUInt32 (type); } else { var type = ReadUInt16 (); handler_type = (ExceptionHandlerType) (type & 0x7); buffer.WriteUInt16 (type); } buffer.WriteBytes (ReadBytes (fat_entry ? fat_entry_size : small_entry_size)); switch (handler_type) { case ExceptionHandlerType.Catch: var exception = reader.LookupToken (ReadToken ()); buffer.WriteUInt32 (metadata.LookupToken (exception).ToUInt32 ()); break; default: buffer.WriteUInt32 (ReadUInt32 ()); break; } } } #endif } }