// Copyright 2007-2008 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_DISASM_H_ #define V8_DISASM_H_ #include "src/vector.h" namespace disasm { typedef unsigned char byte; // Interface and default implementation for converting addresses and // register-numbers to text. The default implementation is machine // specific. class NameConverter { public: virtual ~NameConverter() = default; virtual const char* NameOfCPURegister(int reg) const; virtual const char* NameOfByteCPURegister(int reg) const; virtual const char* NameOfXMMRegister(int reg) const; virtual const char* NameOfAddress(byte* addr) const; virtual const char* NameOfConstant(byte* addr) const; virtual const char* NameInCode(byte* addr) const; // Given a root-register-relative offset, returns either a name or nullptr if // none is found. // TODO(jgruber,v8:7989): This is a temporary solution until we can preserve // code comments through snapshotting. virtual const char* RootRelativeName(int offset) const { UNREACHABLE(); } protected: v8::internal::EmbeddedVector<char, 128> tmp_buffer_; }; // A generic Disassembler interface class Disassembler { public: enum UnimplementedOpcodeAction : int8_t { kContinueOnUnimplementedOpcode, kAbortOnUnimplementedOpcode }; // Caller deallocates converter. explicit Disassembler(const NameConverter& converter, UnimplementedOpcodeAction unimplemented_opcode_action = kAbortOnUnimplementedOpcode) : converter_(converter), unimplemented_opcode_action_(unimplemented_opcode_action) {} UnimplementedOpcodeAction unimplemented_opcode_action() const { return unimplemented_opcode_action_; } // Writes one disassembled instruction into 'buffer' (0-terminated). // Returns the length of the disassembled machine instruction in bytes. int InstructionDecode(v8::internal::Vector<char> buffer, byte* instruction); // Returns -1 if instruction does not mark the beginning of a constant pool, // or the number of entries in the constant pool beginning here. int ConstantPoolSizeAt(byte* instruction); // Write disassembly into specified file 'f' using specified NameConverter // (see constructor). static void Disassemble(FILE* f, byte* begin, byte* end, UnimplementedOpcodeAction unimplemented_action = kAbortOnUnimplementedOpcode); private: const NameConverter& converter_; const UnimplementedOpcodeAction unimplemented_opcode_action_; DISALLOW_IMPLICIT_CONSTRUCTORS(Disassembler); }; } // namespace disasm #endif // V8_DISASM_H_