/* * Copyright (C) 2013 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef ARMv7DOpcode_h #define ARMv7DOpcode_h #if USE(ARMV7_DISASSEMBLER) #include #include namespace JSC { namespace ARMv7Disassembler { class ARMv7DOpcode { public: static void init(); ARMv7DOpcode() : m_opcode(0) , m_bufferOffset(0) { init(); for (unsigned i = 0; i < 4; i++) m_ifThenConditions[i] = CondNone; endITBlock(); m_formatBuffer[0] = '\0'; } const char* disassemble(uint16_t*& currentPC); protected: const unsigned RegSP = 0xd; const unsigned RegLR = 0xe; const unsigned RegPC = 0xf; void fetchOpcode(uint16_t*&); bool is32BitInstruction() { return (m_opcode & 0xfffff800) > 0xe000; } bool isFPInstruction() { return (m_opcode & 0xfc000e00) == 0xec000a00; } static const char* const s_conditionNames[16]; static const char* const s_shiftNames[4]; static const char* const s_optionName[8]; static const char* const s_specialRegisterNames[3]; static const char* conditionName(unsigned condition) { return s_conditionNames[condition & 0xf]; } static const char* shiftName(unsigned shiftValue) { return s_shiftNames[shiftValue & 0x3]; } bool inITBlock() { return m_ITConditionIndex < m_ITBlocksize; } bool startingITBlock() { return m_ITConditionIndex == m_ITBlocksize + 1; } void startITBlock(unsigned, unsigned); void saveITConditionAt(unsigned, unsigned); void endITBlock() { m_currentITCondition = CondNone; m_ITConditionIndex = 0; m_ITBlocksize = 0; } void bufferPrintf(const char* format, ...) WTF_ATTRIBUTE_PRINTF(2, 3); void appendInstructionName(const char*, bool addS = false); void appendInstructionNameNoITBlock(const char* instructionName) { bufferPrintf(" %-7.7s", instructionName); } void appendRegisterName(unsigned); void appendRegisterList(unsigned); void appendFPRegisterName(char, unsigned); void appendSeparator() { bufferPrintf(", "); } void appendCharacter(const char c) { bufferPrintf("%c", c); } void appendString(const char* string) { bufferPrintf("%s", string); } void appendShiftType(unsigned shiftValue) { bufferPrintf("%s ", shiftName(shiftValue)); } void appendSignedImmediate(int immediate) { bufferPrintf("#%d", immediate); } void appendUnsignedImmediate(unsigned immediate) { bufferPrintf("#%u", immediate); } void appendPCRelativeOffset(int32_t immediate) { bufferPrintf("0x%x", reinterpret_cast(m_currentPC + immediate)); } void appendShiftAmount(unsigned amount) { bufferPrintf("lsl #%u", 16 * amount); } static const int bufferSize = 81; static const unsigned char CondNone = 0xe; static const unsigned MaxITBlockSize = 4; char m_formatBuffer[bufferSize]; unsigned char m_ifThenConditions[MaxITBlockSize]; uint16_t* m_currentPC; uint32_t m_opcode; int m_bufferOffset; int m_currentITCondition; unsigned m_ITConditionIndex; unsigned m_ITBlocksize; private: static bool s_initialized; }; #define DEFINE_STATIC_FORMAT16(klass, thisObj) \ static const char* format(ARMv7D16BitOpcode* thisObj) { return reinterpret_cast< klass *>(thisObj)->format(); } class ARMv7D16BitOpcode : public ARMv7DOpcode { private: class OpcodeGroup { public: OpcodeGroup(uint16_t opcodeMask, uint16_t opcodePattern, const char* (*format)(ARMv7D16BitOpcode*)) : m_opcodeMask(opcodeMask) , m_opcodePattern(opcodePattern) , m_format(format) , m_next(0) { } void setNext(OpcodeGroup* next) { m_next = next; } OpcodeGroup* next() { return m_next; } bool matches(uint16_t opcode) { return (opcode & m_opcodeMask) == m_opcodePattern; } const char* format(ARMv7D16BitOpcode* thisObj) { return m_format(thisObj); } public: static const unsigned opcodeTableSize = 32; static const unsigned opcodeTableMask = opcodeTableSize-1; // private: uint16_t m_opcodeMask; uint16_t m_opcodePattern; const char* (*m_format)(ARMv7D16BitOpcode*); OpcodeGroup* m_next; }; public: static void init(); const char* defaultFormat(); const char* doDisassemble(); protected: unsigned rm() { return (m_opcode >> 3) & 0x7; } unsigned rd() { return m_opcode & 0x7; } unsigned opcodeGroupNumber(unsigned opcode) { return (opcode >> 11) & OpcodeGroup::opcodeTableMask; } private: static OpcodeGroup* opcodeTable[OpcodeGroup::opcodeTableSize]; }; class ARMv7DOpcodeAddRegisterT2 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xff00; static const uint16_t s_pattern = 0x4400; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeAddRegisterT2, thisObj); protected: const char* format(); unsigned rdn() { return ((m_opcode >> 4) & 0x8) | (m_opcode & 0x7); } unsigned rm() { return ((m_opcode >> 3) & 0xf); } }; class ARMv7DOpcodeAddSPPlusImmediate : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0xc800; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeAddSPPlusImmediate, thisObj); protected: const char* format(); unsigned rd() { return (m_opcode >> 8) & 0x7; } unsigned immediate8() { return m_opcode & 0x0ff; } }; class ARMv7DOpcodeAddSubtract : public ARMv7D16BitOpcode { protected: static const char* const s_opNames[2]; }; class ARMv7DOpcodeAddSubtractT1 : public ARMv7DOpcodeAddSubtract { public: static const uint16_t s_mask = 0xfc00; static const uint16_t s_pattern = 0x1800; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeAddSubtractT1, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op()]; } unsigned op() { return (m_opcode >> 9) & 0x1; } unsigned rm() { return (m_opcode >> 6) & 0x7; } unsigned rn() { return (m_opcode >> 3) & 0x7; } }; class ARMv7DOpcodeAddSubtractImmediate3 : public ARMv7DOpcodeAddSubtract { public: static const uint16_t s_mask = 0xfc00; static const uint16_t s_pattern = 0x1c00; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeAddSubtractImmediate3, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op()]; } unsigned op() { return (m_opcode >> 9) & 0x1; } unsigned immediate3() { return (m_opcode >> 6) & 0x7; } unsigned rn() { return (m_opcode >> 3) & 0x7; } }; class ARMv7DOpcodeAddSubtractImmediate8 : public ARMv7DOpcodeAddSubtract { public: static const uint16_t s_mask = 0xf000; static const uint16_t s_pattern = 0x3000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeAddSubtractImmediate8, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op()]; } unsigned op() { return (m_opcode >> 11) & 0x1; } unsigned rdn() { return (m_opcode >> 8) & 0x7; } unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeBranchConditionalT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf000; static const uint16_t s_pattern = 0xd000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeBranchConditionalT1, thisObj); protected: const char* format(); unsigned condition() { return (m_opcode >> 8) & 0xf; } int offset() { return static_cast(m_opcode & 0xff); } }; class ARMv7DOpcodeBranchExchangeT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xff00; static const uint16_t s_pattern = 0x4700; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeBranchExchangeT1, thisObj); protected: const char* format(); const char* opName() { return (m_opcode & 0x80) ? "blx" : "bx"; } unsigned rm() { return ((m_opcode >> 3) & 0xf); } }; class ARMv7DOpcodeBranchT2 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0xe000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeBranchT2, thisObj); protected: const char* format(); int immediate11() { return static_cast(m_opcode & 0x7ff); } }; class ARMv7DOpcodeCompareImmediateT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0x2800; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeCompareImmediateT1, thisObj); protected: const char* format(); unsigned rn() { return (m_opcode >> 8) & 0x3; } unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeCompareRegisterT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xffc0; static const uint16_t s_pattern = 0x4280; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeCompareRegisterT1, thisObj); protected: const char* format(); unsigned rn() { return m_opcode & 0x7; } }; class ARMv7DOpcodeCompareRegisterT2 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xff00; static const uint16_t s_pattern = 0x4500; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeCompareRegisterT2, thisObj); protected: const char* format(); unsigned rn() { return ((m_opcode >> 4) & 0x8) | (m_opcode & 0x7); } unsigned rm() { return ((m_opcode >> 3) & 0xf); } }; class ARMv7DOpcodeDataProcessingRegisterT1 : public ARMv7D16BitOpcode { private: static const char* const s_opNames[16]; public: static const uint16_t s_mask = 0xfc00; static const uint16_t s_pattern = 0x4000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeDataProcessingRegisterT1, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op()]; } unsigned op() { return (m_opcode >> 6) & 0xf; } unsigned rm() { return (m_opcode >> 3) & 0x7; } unsigned rdn() { return m_opcode & 0x7; } }; class ARMv7DOpcodeGeneratePCRelativeAddress : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0xa000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeGeneratePCRelativeAddress, thisObj); protected: const char* format(); unsigned rd() { return (m_opcode >> 8) & 0x7; } unsigned immediate8() { return m_opcode & 0x0ff; } }; class ARMv7DOpcodeLoadFromLiteralPool : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0x4800; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeLoadFromLiteralPool, thisObj); protected: const char* format(); unsigned rt() { return (m_opcode >> 8) & 0x7; } unsigned immediate8() { return m_opcode & 0x0ff; } }; class ARMv7DOpcodeLoadStoreRegisterImmediate : public ARMv7D16BitOpcode { private: static const char* const s_opNames[6]; public: const char* format(); protected: const char* opName() { return s_opNames[op()]; } unsigned op() { return ((m_opcode >> 11) & 0x1f) - 0xc; } unsigned immediate5() { return (m_opcode >> 6) & 0x01f; } unsigned rn() { return (m_opcode >> 3) & 0x7; } unsigned rt() { return m_opcode & 0x7; } unsigned scale(); }; class ARMv7DOpcodeLoadStoreRegisterImmediateWordAndByte : public ARMv7DOpcodeLoadStoreRegisterImmediate { public: static const uint16_t s_mask = 0xe000; static const uint16_t s_pattern = 0x6000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeLoadStoreRegisterImmediate, thisObj); }; class ARMv7DOpcodeStoreRegisterImmediateHalfWord : public ARMv7DOpcodeLoadStoreRegisterImmediate { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0x8000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeLoadStoreRegisterImmediate, thisObj); }; class ARMv7DOpcodeLoadRegisterImmediateHalfWord : public ARMv7DOpcodeLoadStoreRegisterImmediate { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0x8800; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeLoadStoreRegisterImmediate, thisObj); }; class ARMv7DOpcodeLoadStoreRegisterOffsetT1 : public ARMv7D16BitOpcode { private: static const char* const s_opNames[8]; public: static const uint16_t s_mask = 0xf000; static const uint16_t s_pattern = 0x5000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeLoadStoreRegisterOffsetT1, thisObj); protected: const char* format(); const char* opName() { return s_opNames[opB()]; } unsigned opB() { return (m_opcode >> 9) & 0x7; } unsigned rm() { return (m_opcode >> 6) & 0x7; } unsigned rn() { return (m_opcode >> 3) & 0x7; } unsigned rt() { return m_opcode & 0x7; } }; class ARMv7DOpcodeLoadStoreRegisterSPRelative : public ARMv7D16BitOpcode { private: static const char* const s_opNames[8]; public: static const uint16_t s_mask = 0xf000; static const uint16_t s_pattern = 0x9000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeLoadStoreRegisterSPRelative, thisObj); protected: const char* format(); const char* opName() { return op() ? "ldr" : "str"; } unsigned op() { return (m_opcode >> 11) & 0x1; } unsigned rt() { return (m_opcode >> 8) & 0x7; } unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeLogicalImmediateT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xe000; static const uint16_t s_pattern = 0x0000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeLogicalImmediateT1, thisObj); protected: const char* format(); const char* opName() { return shiftName(op()); } unsigned op() { return (m_opcode >> 12) & 0x3; } unsigned immediate5() { return (m_opcode >> 6) & 0x1f; } }; class ARMv7DOpcodeMiscAddSubSP : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xff00; static const uint16_t s_pattern = 0xb000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMiscAddSubSP, thisObj); protected: const char* format(); const char* opName() { return op() ? "sub" : "add"; } unsigned op() { return (m_opcode >> 7) & 0x1; } unsigned immediate7() { return m_opcode & 0x7f; } }; class ARMv7DOpcodeMiscByteHalfwordOps : public ARMv7D16BitOpcode { private: static const char* const s_opNames[8]; public: static const uint16_t s_mask = 0xf700; static const uint16_t s_pattern = 0xb200; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMiscByteHalfwordOps, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op()]; } unsigned op() { return ((m_opcode >> 9) & 0x4) || ((m_opcode >> 6) & 0x3); } }; class ARMv7DOpcodeMiscBreakpointT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xff00; static const uint16_t s_pattern = 0xbe00; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMiscBreakpointT1, thisObj); protected: const char* format(); unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeMiscCompareAndBranch : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf500; static const uint16_t s_pattern = 0xb100; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMiscCompareAndBranch, thisObj); protected: const char* format(); const char* opName() { return op() ? "cbnz" : "cbz"; } unsigned op() { return (m_opcode >> 11) & 0x1; } int32_t immediate6() { return ((m_opcode >> 4) & 0x20) | ((m_opcode >> 3) & 0x1f); } unsigned rn() { return m_opcode & 0x7; } }; class ARMv7DOpcodeMiscHint16 : public ARMv7D16BitOpcode { private: static const char* const s_opNames[16]; public: static const uint16_t s_mask = 0xff0f; static const uint16_t s_pattern = 0xbf00; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMiscHint16, thisObj); protected: const char* format(); const char* opName() { return s_opNames[opA()]; } unsigned opA() { return (m_opcode >> 4) & 0xf; } }; class ARMv7DOpcodeMiscIfThenT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xff00; static const uint16_t s_pattern = 0xbf00; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMiscIfThenT1, thisObj); protected: const char* format(); unsigned firstCondition() { return (m_opcode >> 4) & 0xf; } unsigned mask() { return m_opcode & 0xf; } }; class ARMv7DOpcodeMiscPushPop : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf600; static const uint16_t s_pattern = 0xb400; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMiscPushPop, thisObj); protected: const char* format(); const char* opName() { return op() ? "pop" : "push"; } unsigned op() { return (m_opcode >> 11) & 0x1; } unsigned registerMask() { return ((m_opcode << 6) & 0x4000) | (m_opcode & 0xff); } }; class ARMv7DOpcodeMoveImmediateT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xf800; static const uint16_t s_pattern = 0x2000; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMoveImmediateT1, thisObj); protected: const char* format(); unsigned rd() { return (m_opcode >> 8) & 0x3; } unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeMoveRegisterT1 : public ARMv7D16BitOpcode { public: static const uint16_t s_mask = 0xff00; static const uint16_t s_pattern = 0x4600; DEFINE_STATIC_FORMAT16(ARMv7DOpcodeMoveRegisterT1, thisObj); protected: const char* format(); unsigned rd() { return ((m_opcode >> 4) & 0x8) | (m_opcode & 0x7); } unsigned rm() { return ((m_opcode >> 3) & 0xf); } }; // 32 Bit instructions #define DEFINE_STATIC_FORMAT32(klass, thisObj) \ static const char* format(ARMv7D32BitOpcode* thisObj) { return reinterpret_cast< klass *>(thisObj)->format(); } class ARMv7D32BitOpcode : public ARMv7DOpcode { private: class OpcodeGroup { public: OpcodeGroup(uint32_t opcodeMask, uint32_t opcodePattern, const char* (*format)(ARMv7D32BitOpcode*)) : m_opcodeMask(opcodeMask) , m_opcodePattern(opcodePattern) , m_format(format) , m_next(0) { } void setNext(OpcodeGroup* next) { m_next = next; } OpcodeGroup* next() { return m_next; } bool matches(uint32_t opcode) { return (opcode & m_opcodeMask) == m_opcodePattern; } const char* format(ARMv7D32BitOpcode* thisObj) { return m_format(thisObj); } public: static const unsigned opcodeTableSize = 16; static const unsigned opcodeTableMask = opcodeTableSize-1; private: uint32_t m_opcodeMask; uint32_t m_opcodePattern; const char* (*m_format)(ARMv7D32BitOpcode*); OpcodeGroup* m_next; }; public: static void init(); const char* defaultFormat(); const char* doDisassemble(); protected: unsigned rd() { return (m_opcode >> 8) & 0xf; } unsigned rm() { return m_opcode & 0xf; } unsigned rn() { return (m_opcode >> 16) & 0xf; } unsigned rt() { return (m_opcode >> 12) & 0xf; } unsigned opcodeGroupNumber(unsigned opcode) { return (opcode >> 25) & OpcodeGroup::opcodeTableMask; } private: static OpcodeGroup* opcodeTable[OpcodeGroup::opcodeTableSize]; }; class ARMv7DOpcodeBranchRelative : public ARMv7D32BitOpcode { protected: unsigned sBit() { return (m_opcode >> 26) & 0x1; } unsigned j1() { return (m_opcode >> 13) & 0x1; } unsigned j2() { return (m_opcode >> 11) & 0x1; } unsigned immediate11() { return m_opcode & 0x7ff; } }; class ARMv7DOpcodeConditionalBranchT3 : public ARMv7DOpcodeBranchRelative { public: static const uint32_t s_mask = 0xf800d000; static const uint32_t s_pattern = 0xf0008000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeConditionalBranchT3, thisObj); protected: const char* format(); int32_t offset() { return ((static_cast(sBit() << 31)) >> 12) | static_cast((j1() << 18) | (j2() << 17) | (immediate6() << 11) | immediate11()); } unsigned condition() { return (m_opcode >> 22) & 0xf; } unsigned immediate6() { return (m_opcode >> 16) & 0x3f; } }; class ARMv7DOpcodeBranchOrBranchLink : public ARMv7DOpcodeBranchRelative { public: static const uint32_t s_mask = 0xf8009000; static const uint32_t s_pattern = 0xf0009000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeBranchOrBranchLink, thisObj); protected: const char* format(); int32_t offset() { return ((static_cast(sBit() << 31)) >> 8) | static_cast((~(j1() ^ sBit()) << 22) | (~(j2() ^ sBit()) << 21) | (immediate10() << 11) | immediate11()); } unsigned immediate10() { return (m_opcode >> 16) & 0x3ff; } bool isBL() { return !!((m_opcode >> 14) & 0x1); } }; class ARMv7DOpcodeDataProcessingLogicalAndRithmetic : public ARMv7D32BitOpcode { protected: static const char* const s_opNames[16]; }; class ARMv7DOpcodeDataProcessingModifiedImmediate : public ARMv7DOpcodeDataProcessingLogicalAndRithmetic { private: void appendImmShift(unsigned, unsigned); public: static const uint32_t s_mask = 0xfa008000; static const uint32_t s_pattern = 0xf0000000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataProcessingModifiedImmediate, thisObj); protected: const char* format(); void appendModifiedImmediate(unsigned); const char* opName() { return s_opNames[op()]; } unsigned op() { return (m_opcode >> 21) & 0xf; } unsigned sBit() { return (m_opcode >> 20) & 0x1; } unsigned immediate12() { return ((m_opcode >> 15) & 0x0800) | ((m_opcode >> 4) & 0x0700) | (m_opcode & 0x00ff); } }; class ARMv7DOpcodeDataProcessingShiftedReg : public ARMv7DOpcodeDataProcessingLogicalAndRithmetic { private: void appendImmShift(unsigned, unsigned); public: static const uint32_t s_mask = 0xfe000000; static const uint32_t s_pattern = 0xea000000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataProcessingShiftedReg, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op()]; } unsigned sBit() { return (m_opcode >> 20) & 0x1; } unsigned op() { return (m_opcode >> 21) & 0xf; } unsigned immediate5() { return ((m_opcode >> 10) & 0x1c) | ((m_opcode >> 6) & 0x3); } unsigned type() { return (m_opcode >> 4) & 0x3; } unsigned tbBit() { return (m_opcode >> 5) & 0x1; } unsigned tBit() { return (m_opcode >> 4) & 0x1; } }; class ARMv7DOpcodeDataProcessingReg : public ARMv7D32BitOpcode { protected: unsigned op1() { return (m_opcode >> 20) & 0xf; } unsigned op2() { return (m_opcode >> 4) & 0xf; } }; class ARMv7DOpcodeDataProcessingRegShift : public ARMv7DOpcodeDataProcessingReg { public: static const uint32_t s_mask = 0xffe0f0f0; static const uint32_t s_pattern = 0xfa00f000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataProcessingRegShift, thisObj); protected: const char* format(); const char* opName() { return shiftName((op1() >> 1) & 0x3); } }; class ARMv7DOpcodeDataProcessingRegExtend : public ARMv7DOpcodeDataProcessingReg { private: static const char* const s_opExtendNames[8]; static const char* const s_opExtendAndAddNames[8]; public: static const uint32_t s_mask = 0xff80f0c0; static const uint32_t s_pattern = 0xfa00f080; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataProcessingRegExtend, thisObj); protected: const char* format(); const char* opExtendName() { return s_opExtendNames[op1()]; } const char* opExtendAndAddName() { return s_opExtendAndAddNames[op1()]; } unsigned rotate() { return (m_opcode >> 4) & 0x3; } }; class ARMv7DOpcodeDataProcessingRegParallel : public ARMv7DOpcodeDataProcessingReg { private: static const char* const s_opNames[16]; public: static const uint32_t s_mask = 0xff80f0e0; static const uint32_t s_pattern = 0xfa00f000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataProcessingRegParallel, thisObj); protected: const char* format(); const char* opName() { return s_opNames[((op1() & 0x7) << 1) | (op2() & 0x1)]; } }; class ARMv7DOpcodeDataProcessingRegMisc : public ARMv7DOpcodeDataProcessingReg { private: static const char* const s_opNames[16]; public: static const uint32_t s_mask = 0xffc0f0c0; static const uint32_t s_pattern = 0xfa80f080; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataProcessingRegMisc, thisObj); protected: const char* format(); const char* opName() { return s_opNames[((op1() & 0x3) << 2) | (op2() & 0x3)]; } }; class ARMv7DOpcodeHint32 : public ARMv7D32BitOpcode { private: static const char* const s_opNames[8]; public: static const uint32_t s_mask = 0xfff0d000; static const uint32_t s_pattern = 0xf3a08000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeHint32, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op()]; } bool isDebugHint() { return (m_opcode & 0xf0) == 0xf0; } unsigned debugOption() { return m_opcode & 0xf; } unsigned op() { return m_opcode & 0x7; } }; class ARMv7DOpcodeFPTransfer : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0xffc00e7f; static const uint32_t s_pattern = 0xee000a10; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeFPTransfer, thisObj); protected: const char* format(); void appendFPRegister(); unsigned opH() { return (m_opcode >> 21) & 0x1; } unsigned opL() { return (m_opcode >> 20) & 0x1; } unsigned rt() { return (m_opcode >> 12) & 0xf; } unsigned opC() { return (m_opcode >> 8) & 0x1; } unsigned opB() { return (m_opcode >> 5) & 0x3; } unsigned vd() { return ((m_opcode >> 3) & 0x10) | ((m_opcode >> 16) & 0xf); } unsigned vn() { return ((m_opcode >> 7) & 0x1) | ((m_opcode >> 15) & 0x1e); } }; class ARMv7DOpcodeDataLoad : public ARMv7D32BitOpcode { protected: static const char* const s_opNames[8]; protected: const char* opName() { return s_opNames[op()]; } unsigned op() { return ((m_opcode >> 22) & 0x4) | ((m_opcode >> 21) & 0x3); } }; class ARMv7DOpcodeLoadRegister : public ARMv7DOpcodeDataLoad { public: static const uint32_t s_mask = 0xfe900800; static const uint32_t s_pattern = 0xf8100000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeLoadRegister, thisObj); protected: const char* format(); unsigned immediate2() { return (m_opcode >> 4) & 0x3; } }; class ARMv7DOpcodeLoadSignedImmediate : public ARMv7DOpcodeDataLoad { public: static const uint32_t s_mask = 0xfe900800; static const uint32_t s_pattern = 0xf8100800; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeLoadSignedImmediate, thisObj); protected: const char* format(); unsigned pBit() { return (m_opcode >> 10) & 0x1; } unsigned uBit() { return (m_opcode >> 9) & 0x1; } unsigned wBit() { return (m_opcode >> 8) & 0x1; } unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeLoadUnsignedImmediate : public ARMv7DOpcodeDataLoad { public: static const uint32_t s_mask = 0xfe900000; static const uint32_t s_pattern = 0xf8900000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeLoadUnsignedImmediate, thisObj); protected: const char* format(); unsigned immediate12() { return m_opcode & 0xfff; } }; class ARMv7DOpcodeLongMultipleDivide : public ARMv7D32BitOpcode { protected: static const char* const s_opNames[8]; static const char* const s_smlalOpNames[4]; static const char* const s_smlaldOpNames[2]; static const char* const s_smlsldOpNames[2]; public: static const uint32_t s_mask = 0xff800000; static const uint32_t s_pattern = 0xfb800000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeLongMultipleDivide, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op1()]; } const char* smlalOpName() { return s_smlalOpNames[(nBit() << 1) | mBit()]; } const char* smlaldOpName() { return s_smlaldOpNames[mBit()]; } const char* smlsldOpName() { return s_smlsldOpNames[mBit()]; } unsigned rdLo() { return rt(); } unsigned rdHi() { return rd(); } unsigned op1() { return (m_opcode >> 20) & 0x7; } unsigned op2() { return (m_opcode >> 4) & 0xf; } unsigned nBit() { return (m_opcode >> 5) & 0x1; } unsigned mBit() { return (m_opcode >> 4) & 0x1; } }; class ARMv7DOpcodeDataPushPopSingle : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0xffef0fff; static const uint32_t s_pattern = 0xf84d0d04; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataPushPopSingle, thisObj); protected: const char* format(); const char* opName() { return op() ? "pop" : "push"; } unsigned op() { return (m_opcode >> 20) & 0x1; } }; class ARMv7DOpcodeDataPushPopMultiple : public ARMv7D32BitOpcode { protected: void appendRegisterList(); unsigned registerList() { return m_opcode & 0xffff; } unsigned condition() { return m_opcode >> 28; } }; class ARMv7DOpcodeDataPopMultiple : public ARMv7DOpcodeDataPushPopMultiple { public: static const uint32_t s_mask = 0x0fff0000; static const uint32_t s_pattern = 0x08bd0000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataPopMultiple, thisObj); protected: const char* format(); }; class ARMv7DOpcodeDataPushMultiple : public ARMv7DOpcodeDataPushPopMultiple { public: static const uint32_t s_mask = 0xfe7f0000; static const uint32_t s_pattern = 0xe82d0000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeDataPushMultiple, thisObj); protected: const char* format(); }; class ARMv7DOpcodeDataStoreSingle : public ARMv7D32BitOpcode { protected: static const char* const s_opNames[4]; protected: const char* opName() { return s_opNames[op()]; } unsigned op() { return (m_opcode >> 21) & 0x3; } }; class ARMv7DOpcodeStoreSingleImmediate12 : public ARMv7DOpcodeDataStoreSingle { public: static const uint32_t s_mask = 0xfff00000; static const uint32_t s_pattern = 0xf8c00000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeStoreSingleImmediate12, thisObj); const char* format(); protected: unsigned immediate12() { return m_opcode & 0xfff; } }; class ARMv7DOpcodeStoreSingleImmediate8 : public ARMv7DOpcodeDataStoreSingle { public: static const uint32_t s_mask = 0xfff00800; static const uint32_t s_pattern = 0xf8400800; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeStoreSingleImmediate8, thisObj); const char* format(); protected: unsigned pBit() { return (m_opcode >> 10) & 0x1; } unsigned uBit() { return (m_opcode >> 9) & 0x1; } unsigned wBit() { return (m_opcode >> 8) & 0x1; } unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeStoreSingleRegister : public ARMv7DOpcodeDataStoreSingle { public: static const uint32_t s_mask = 0xfff00fc0; static const uint32_t s_pattern = 0xf8400000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeStoreSingleRegister, thisObj); protected: const char* format(); unsigned immediate2() { return (m_opcode >> 4) & 0x3; } }; class ARMv7DOpcodeUnmodifiedImmediate : public ARMv7D32BitOpcode { protected: static const char* const s_opNames[16]; public: static const uint32_t s_mask = 0xfa008000; static const uint32_t s_pattern = 0xf2000000; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeUnmodifiedImmediate, thisObj); protected: const char* format(); const char* opName() { return s_opNames[op() >> 1]; } unsigned op() { return (m_opcode >> 20) & 0x1f; } unsigned shBit() { return (m_opcode >> 21) & 0x1; } unsigned bitNumOrSatImmediate() { return m_opcode & 0x1f; } unsigned immediate5() { return ((m_opcode >> 9) & 0x1c) | ((m_opcode >> 6) & 0x3); } unsigned immediate12() { return ((m_opcode >> 15) & 0x0800) | ((m_opcode >> 4) & 0x0700) | (m_opcode & 0x00ff); } unsigned immediate16() { return ((m_opcode >> 4) & 0xf000) | ((m_opcode >> 15) & 0x0800) | ((m_opcode >> 4) & 0x0700) | (m_opcode & 0x00ff); } }; class ARMv7DOpcodeVCMP : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0x0fbf0e50; static const uint32_t s_pattern = 0x0eb40a40; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeVCMP, thisObj); protected: const char* format(); unsigned condition() { return m_opcode >> 28; } unsigned dBit() { return (m_opcode >> 22) & 0x1; } unsigned vd() { return (m_opcode >> 12) & 0xf; } unsigned szBit() { return (m_opcode >> 8) & 0x1; } unsigned eBit() { return (m_opcode >> 7) & 0x1; } unsigned mBit() { return (m_opcode >> 5) & 0x1; } unsigned vm() { return m_opcode & 0xf; } }; class ARMv7DOpcodeVCVTBetweenFPAndInt : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0x0fb80e50; static const uint32_t s_pattern = 0x0eb80a40; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeVCVTBetweenFPAndInt, thisObj); protected: const char* format(); unsigned condition() { return m_opcode >> 28; } unsigned dBit() { return (m_opcode >> 22) & 0x1; } unsigned op2() { return (m_opcode >> 16) & 0x7; } unsigned vd() { return (m_opcode >> 12) & 0xf; } unsigned szBit() { return (m_opcode >> 8) & 0x1; } unsigned op() { return (m_opcode >> 7) & 0x1; } unsigned mBit() { return (m_opcode >> 5) & 0x1; } unsigned vm() { return m_opcode & 0xf; } }; class ARMv7DOpcodeVLDR : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0x0f300e00; static const uint32_t s_pattern = 0x0d100a00; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeVLDR, thisObj); protected: const char* format(); unsigned condition() { return m_opcode >> 28; } unsigned uBit() { return (m_opcode >> 23) & 0x1; } unsigned rn() { return (m_opcode >> 16) & 0xf; } unsigned vd() { return ((m_opcode >> 18) & 0x10) | ((m_opcode >> 12) & 0xf); } bool doubleReg() { return !!(m_opcode & 0x100); } unsigned immediate8() { return m_opcode & 0xff; } }; class ARMv7DOpcodeVMOVDoublePrecision : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0xffe00fd0; static const uint32_t s_pattern = 0xec400b10; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeVMOVDoublePrecision, thisObj); protected: const char* format(); unsigned op() { return (m_opcode >> 20) & 0x1; } unsigned rt2() { return (m_opcode >> 16) & 0xf; } unsigned rt() { return (m_opcode >> 16) & 0xf; } unsigned vm() { return (m_opcode & 0xf) | ((m_opcode >> 1) & 0x10); } }; class ARMv7DOpcodeVMOVSinglePrecision : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0xffe00fd0; static const uint32_t s_pattern = 0xec400a10; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeVMOVSinglePrecision, thisObj); protected: const char* format(); unsigned op() { return (m_opcode >> 20) & 0x1; } unsigned rt2() { return (m_opcode >> 16) & 0xf; } unsigned rt() { return (m_opcode >> 16) & 0xf; } unsigned vm() { return ((m_opcode << 1) & 0x1e) | ((m_opcode >> 5) & 0x1); } }; class ARMv7DOpcodeVMSR : public ARMv7D32BitOpcode { public: static const uint32_t s_mask = 0xffef0fff; static const uint32_t s_pattern = 0xeee10a10; DEFINE_STATIC_FORMAT32(ARMv7DOpcodeVMSR, thisObj); protected: const char* format(); unsigned opL() { return (m_opcode >> 20) & 0x1; } unsigned rt() { return (m_opcode >> 12) & 0xf; } }; } } // namespace JSC::ARMv7Disassembler using JSC::ARMv7Disassembler::ARMv7DOpcode; #endif // #if USE(ARMV7_DISASSEMBLER) #endif // ARMv7DOpcode_h