//===- ARMDisassemblerCore.h - ARM disassembler helpers ---------*- 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 ARM Disassembler. // // The first part defines the enumeration type of ARM instruction format, which // specifies the encoding used by the instruction, as well as a helper function // to convert the enums to printable char strings. // // It also contains code to represent the concepts of Builder and DisassembleFP // to solve the problem of disassembling an ARM instr. // //===----------------------------------------------------------------------===// #ifndef ARMDISASSEMBLERCORE_H #define ARMDISASSEMBLERCORE_H #include "llvm/MC/MCInst.h" #include "llvm/Target/TargetInstrInfo.h" #include "ARMInstrInfo.h" #include "ARMDisassembler.h" namespace llvm { class ARMUtils { public: static const char *OpcodeName(unsigned Opcode); }; ///////////////////////////////////////////////////// // // // Enums and Utilities for ARM Instruction Format // // // ///////////////////////////////////////////////////// #define ARM_FORMATS \ ENTRY(ARM_FORMAT_PSEUDO, 0) \ ENTRY(ARM_FORMAT_MULFRM, 1) \ ENTRY(ARM_FORMAT_BRFRM, 2) \ ENTRY(ARM_FORMAT_BRMISCFRM, 3) \ ENTRY(ARM_FORMAT_DPFRM, 4) \ ENTRY(ARM_FORMAT_DPSOREGFRM, 5) \ ENTRY(ARM_FORMAT_LDFRM, 6) \ ENTRY(ARM_FORMAT_STFRM, 7) \ ENTRY(ARM_FORMAT_LDMISCFRM, 8) \ ENTRY(ARM_FORMAT_STMISCFRM, 9) \ ENTRY(ARM_FORMAT_LDSTMULFRM, 10) \ ENTRY(ARM_FORMAT_LDSTEXFRM, 11) \ ENTRY(ARM_FORMAT_ARITHMISCFRM, 12) \ ENTRY(ARM_FORMAT_EXTFRM, 13) \ ENTRY(ARM_FORMAT_VFPUNARYFRM, 14) \ ENTRY(ARM_FORMAT_VFPBINARYFRM, 15) \ ENTRY(ARM_FORMAT_VFPCONV1FRM, 16) \ ENTRY(ARM_FORMAT_VFPCONV2FRM, 17) \ ENTRY(ARM_FORMAT_VFPCONV3FRM, 18) \ ENTRY(ARM_FORMAT_VFPCONV4FRM, 19) \ ENTRY(ARM_FORMAT_VFPCONV5FRM, 20) \ ENTRY(ARM_FORMAT_VFPLDSTFRM, 21) \ ENTRY(ARM_FORMAT_VFPLDSTMULFRM, 22) \ ENTRY(ARM_FORMAT_VFPMISCFRM, 23) \ ENTRY(ARM_FORMAT_THUMBFRM, 24) \ ENTRY(ARM_FORMAT_NEONFRM, 25) \ ENTRY(ARM_FORMAT_NEONGETLNFRM, 26) \ ENTRY(ARM_FORMAT_NEONSETLNFRM, 27) \ ENTRY(ARM_FORMAT_NEONDUPFRM, 28) \ ENTRY(ARM_FORMAT_MISCFRM, 29) \ ENTRY(ARM_FORMAT_THUMBMISCFRM, 30) \ ENTRY(ARM_FORMAT_NLdSt, 31) \ ENTRY(ARM_FORMAT_N1RegModImm, 32) \ ENTRY(ARM_FORMAT_N2Reg, 33) \ ENTRY(ARM_FORMAT_NVCVT, 34) \ ENTRY(ARM_FORMAT_NVecDupLn, 35) \ ENTRY(ARM_FORMAT_N2RegVecShL, 36) \ ENTRY(ARM_FORMAT_N2RegVecShR, 37) \ ENTRY(ARM_FORMAT_N3Reg, 38) \ ENTRY(ARM_FORMAT_N3RegVecSh, 39) \ ENTRY(ARM_FORMAT_NVecExtract, 40) \ ENTRY(ARM_FORMAT_NVecMulScalar, 41) \ ENTRY(ARM_FORMAT_NVTBL, 42) // ARM instruction format specifies the encoding used by the instruction. #define ENTRY(n, v) n = v, typedef enum { ARM_FORMATS ARM_FORMAT_NA } ARMFormat; #undef ENTRY // Converts enum to const char*. static const inline char *stringForARMFormat(ARMFormat form) { #define ENTRY(n, v) case n: return #n; switch(form) { ARM_FORMATS case ARM_FORMAT_NA: default: return ""; } #undef ENTRY } /// Expands on the enum definitions from ARMBaseInstrInfo.h. /// They are being used by the disassembler implementation. namespace ARMII { enum { NEONRegMask = 15, GPRRegMask = 15, NEON_RegRdShift = 12, NEON_D_BitShift = 22, NEON_RegRnShift = 16, NEON_N_BitShift = 7, NEON_RegRmShift = 0, NEON_M_BitShift = 5 }; } /// Utility function for extracting [From, To] bits from a uint32_t. static inline unsigned slice(uint32_t Bits, unsigned From, unsigned To) { assert(From < 32 && To < 32 && From >= To); return (Bits >> To) & ((1 << (From - To + 1)) - 1); } /// Utility function for setting [From, To] bits to Val for a uint32_t. static inline void setSlice(uint32_t &Bits, unsigned From, unsigned To, uint32_t Val) { assert(From < 32 && To < 32 && From >= To); uint32_t Mask = ((1 << (From - To + 1)) - 1); Bits &= ~(Mask << To); Bits |= (Val & Mask) << To; } /// Various utilities for checking the target specific flags. /// A unary data processing instruction doesn't have an Rn operand. static inline bool isUnaryDP(uint64_t TSFlags) { return (TSFlags & ARMII::UnaryDP); } /// This four-bit field describes the addressing mode used. /// See also ARMBaseInstrInfo.h. static inline unsigned getAddrMode(uint64_t TSFlags) { return (TSFlags & ARMII::AddrModeMask); } /// {IndexModePre, IndexModePost} /// Only valid for load and store ops. /// See also ARMBaseInstrInfo.h. static inline unsigned getIndexMode(uint64_t TSFlags) { return (TSFlags & ARMII::IndexModeMask) >> ARMII::IndexModeShift; } /// Pre-/post-indexed operations define an extra $base_wb in the OutOperandList. static inline bool isPrePostLdSt(uint64_t TSFlags) { return (TSFlags & ARMII::IndexModeMask) != 0; } // Forward declaration. class ARMBasicMCBuilder; // Builder Object is mostly ignored except in some Thumb disassemble functions. typedef ARMBasicMCBuilder *BO; /// DisassembleFP - DisassembleFP points to a function that disassembles an insn /// and builds the MCOperand list upon disassembly. It returns false on failure /// or true on success. The number of operands added is updated upon success. typedef bool (*DisassembleFP)(MCInst &MI, unsigned Opcode, uint32_t insn, unsigned short NumOps, unsigned &NumOpsAdded, BO Builder); /// CreateMCBuilder - Return an ARMBasicMCBuilder that can build up the MC /// infrastructure of an MCInst given the Opcode and Format of the instr. /// Return NULL if it fails to create/return a proper builder. API clients /// are responsible for freeing up of the allocated memory. Cacheing can be /// performed by the API clients to improve performance. extern ARMBasicMCBuilder *CreateMCBuilder(unsigned Opcode, ARMFormat Format); /// ARMBasicMCBuilder - ARMBasicMCBuilder represents an ARM MCInst builder that /// knows how to build up the MCOperand list. class ARMBasicMCBuilder { friend ARMBasicMCBuilder *CreateMCBuilder(unsigned Opcode, ARMFormat Format); unsigned Opcode; ARMFormat Format; unsigned short NumOps; DisassembleFP Disasm; Session *SP; int Err; // !=0 if the builder encounters some error condition during build. private: /// Opcode, Format, and NumOperands make up an ARM Basic MCBuilder. ARMBasicMCBuilder(unsigned opc, ARMFormat format, unsigned short num); public: ARMBasicMCBuilder(ARMBasicMCBuilder &B) : Opcode(B.Opcode), Format(B.Format), NumOps(B.NumOps), Disasm(B.Disasm), SP(B.SP) { Err = 0; } virtual ~ARMBasicMCBuilder() {} void SetSession(Session *sp) { SP = sp; } void SetErr(int ErrCode) { Err = ErrCode; } /// DoPredicateOperands - DoPredicateOperands process the predicate operands /// of some Thumb instructions which come before the reglist operands. It /// returns true if the two predicate operands have been processed. bool DoPredicateOperands(MCInst& MI, unsigned Opcode, uint32_t insn, unsigned short NumOpsRemaning); /// TryPredicateAndSBitModifier - TryPredicateAndSBitModifier tries to process /// the possible Predicate and SBitModifier, to build the remaining MCOperand /// constituents. bool TryPredicateAndSBitModifier(MCInst& MI, unsigned Opcode, uint32_t insn, unsigned short NumOpsRemaning); /// InITBlock - InITBlock returns true if we are inside an IT block. bool InITBlock() { if (SP) return SP->ITCounter > 0; return false; } /// Build - Build delegates to BuildIt to perform the heavy liftling. After /// that, it invokes RunBuildAfterHook where some housekeepings can be done. virtual bool Build(MCInst &MI, uint32_t insn) { bool Status = BuildIt(MI, insn); return RunBuildAfterHook(Status, MI, insn); } /// BuildIt - BuildIt performs the build step for this ARM Basic MC Builder. /// The general idea is to set the Opcode for the MCInst, followed by adding /// the appropriate MCOperands to the MCInst. ARM Basic MC Builder delegates /// to the Format-specific disassemble function for disassembly, followed by /// TryPredicateAndSBitModifier() for PredicateOperand and OptionalDefOperand /// which follow the Dst/Src Operands. virtual bool BuildIt(MCInst &MI, uint32_t insn); /// RunBuildAfterHook - RunBuildAfterHook performs operations deemed necessary /// after BuildIt is finished. virtual bool RunBuildAfterHook(bool Status, MCInst &MI, uint32_t insn); private: /// Get condition of the current IT instruction. unsigned GetITCond() { assert(SP); return slice(SP->ITState, 7, 4); } }; } // namespace llvm #endif