//===- X86ModRMFilters.h - Disassembler ModR/M filterss ---------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file is part of the X86 Disassembler Emitter. // It contains ModR/M filters that determine which values of the ModR/M byte // are valid for a partiuclar instruction. // Documentation for the disassembler emitter in general can be found in // X86DisasemblerEmitter.h. // //===----------------------------------------------------------------------===// #ifndef X86MODRMFILTERS_H #define X86MODRMFILTERS_H #include "llvm/Support/DataTypes.h" namespace llvm { namespace X86Disassembler { /// ModRMFilter - Abstract base class for clases that recognize patterns in /// ModR/M bytes. class ModRMFilter { virtual void anchor(); public: /// Destructor - Override as necessary. virtual ~ModRMFilter() { } /// isDumb - Indicates whether this filter returns the same value for /// any value of the ModR/M byte. /// /// @result - True if the filter returns the same value for any ModR/M /// byte; false if not. virtual bool isDumb() const { return false; } /// accepts - Indicates whether the filter accepts a particular ModR/M /// byte value. /// /// @result - True if the filter accepts the ModR/M byte; false if not. virtual bool accepts(uint8_t modRM) const = 0; }; /// DumbFilter - Accepts any ModR/M byte. Used for instructions that do not /// require a ModR/M byte or instructions where the entire ModR/M byte is used /// for operands. class DumbFilter : public ModRMFilter { virtual void anchor(); public: bool isDumb() const { return true; } bool accepts(uint8_t modRM) const { return true; } }; /// ModFilter - Filters based on the mod bits [bits 7-6] of the ModR/M byte. /// Some instructions are classified based on whether they are 11 or anything /// else. This filter performs that classification. class ModFilter : public ModRMFilter { virtual void anchor(); bool R; public: /// Constructor /// /// \param r True if the mod bits of the ModR/M byte must be 11; false /// otherwise. The name r derives from the fact that the mod /// bits indicate whether the R/M bits [bits 2-0] signify a /// register or a memory operand. ModFilter(bool r) : ModRMFilter(), R(r) { } bool accepts(uint8_t modRM) const { return (R == ((modRM & 0xc0) == 0xc0)); } }; /// ExtendedFilter - Extended opcodes are classified based on the value of the /// mod field [bits 7-6] and the value of the nnn field [bits 5-3]. class ExtendedFilter : public ModRMFilter { virtual void anchor(); bool R; uint8_t NNN; public: /// Constructor /// /// \param r True if the mod field must be set to 11; false otherwise. /// The name is explained at ModFilter. /// \param nnn The required value of the nnn field. ExtendedFilter(bool r, uint8_t nnn) : ModRMFilter(), R(r), NNN(nnn) { } bool accepts(uint8_t modRM) const { return (((R && ((modRM & 0xc0) == 0xc0)) || (!R && ((modRM & 0xc0) != 0xc0))) && (((modRM & 0x38) >> 3) == NNN)); } }; /// ExactFilter - The occasional extended opcode (such as VMCALL or MONITOR) /// requires the ModR/M byte to have a specific value. class ExactFilter : public ModRMFilter { virtual void anchor(); uint8_t ModRM; public: /// Constructor /// /// \param modRM The required value of the full ModR/M byte. ExactFilter(uint8_t modRM) : ModRMFilter(), ModRM(modRM) { } bool accepts(uint8_t modRM) const { return (ModRM == modRM); } }; } // namespace X86Disassembler } // namespace llvm #endif