//===-- X86AsmInstrumentation.cpp - Instrument X86 inline assembly C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "MCTargetDesc/X86BaseInfo.h" #include "X86AsmInstrumentation.h" #include "X86Operand.h" #include "X86RegisterInfo.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/Triple.h" #include "llvm/CodeGen/MachineValueType.h" #include "llvm/IR/Function.h" #include "llvm/MC/MCAsmInfo.h" #include "llvm/MC/MCContext.h" #include "llvm/MC/MCInst.h" #include "llvm/MC/MCInstBuilder.h" #include "llvm/MC/MCInstrInfo.h" #include "llvm/MC/MCParser/MCParsedAsmOperand.h" #include "llvm/MC/MCStreamer.h" #include "llvm/MC/MCSubtargetInfo.h" #include "llvm/MC/MCTargetAsmParser.h" #include "llvm/MC/MCTargetOptions.h" #include "llvm/Support/CommandLine.h" namespace llvm { namespace { static cl::opt ClAsanInstrumentAssembly( "asan-instrument-assembly", cl::desc("instrument assembly with AddressSanitizer checks"), cl::Hidden, cl::init(false)); bool IsStackReg(unsigned Reg) { return Reg == X86::RSP || Reg == X86::ESP || Reg == X86::SP; } bool IsSmallMemAccess(unsigned AccessSize) { return AccessSize < 8; } std::string FuncName(unsigned AccessSize, bool IsWrite) { return std::string("__asan_report_") + (IsWrite ? "store" : "load") + utostr(AccessSize); } class X86AddressSanitizer : public X86AsmInstrumentation { public: struct RegisterContext { RegisterContext(unsigned AddressReg, unsigned ShadowReg, unsigned ScratchReg) : AddressReg(AddressReg), ShadowReg(ShadowReg), ScratchReg(ScratchReg) { } unsigned addressReg(MVT::SimpleValueType VT) const { return getX86SubSuperRegister(AddressReg, VT); } unsigned shadowReg(MVT::SimpleValueType VT) const { return getX86SubSuperRegister(ShadowReg, VT); } unsigned scratchReg(MVT::SimpleValueType VT) const { return getX86SubSuperRegister(ScratchReg, VT); } const unsigned AddressReg; const unsigned ShadowReg; const unsigned ScratchReg; }; X86AddressSanitizer(const MCSubtargetInfo &STI) : X86AsmInstrumentation(STI), RepPrefix(false) {} virtual ~X86AddressSanitizer() {} // X86AsmInstrumentation implementation: virtual void InstrumentAndEmitInstruction(const MCInst &Inst, OperandVector &Operands, MCContext &Ctx, const MCInstrInfo &MII, MCStreamer &Out) override { InstrumentMOVS(Inst, Operands, Ctx, MII, Out); if (RepPrefix) EmitInstruction(Out, MCInstBuilder(X86::REP_PREFIX)); InstrumentMOV(Inst, Operands, Ctx, MII, Out); RepPrefix = (Inst.getOpcode() == X86::REP_PREFIX); if (!RepPrefix) EmitInstruction(Out, Inst); } // Should be implemented differently in x86_32 and x86_64 subclasses. virtual void StoreFlags(MCStreamer &Out) = 0; virtual void RestoreFlags(MCStreamer &Out) = 0; // Adjusts up stack and saves all registers used in instrumentation. virtual void InstrumentMemOperandPrologue(const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) = 0; // Restores all registers used in instrumentation and adjusts stack. virtual void InstrumentMemOperandEpilogue(const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) = 0; virtual void InstrumentMemOperandSmall(X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) = 0; virtual void InstrumentMemOperandLarge(X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) = 0; virtual void InstrumentMOVSImpl(unsigned AccessSize, MCContext &Ctx, MCStreamer &Out) = 0; void InstrumentMemOperand(X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out); void InstrumentMOVSBase(unsigned DstReg, unsigned SrcReg, unsigned CntReg, unsigned AccessSize, MCContext &Ctx, MCStreamer &Out); void InstrumentMOVS(const MCInst &Inst, OperandVector &Operands, MCContext &Ctx, const MCInstrInfo &MII, MCStreamer &Out); void InstrumentMOV(const MCInst &Inst, OperandVector &Operands, MCContext &Ctx, const MCInstrInfo &MII, MCStreamer &Out); protected: void EmitLabel(MCStreamer &Out, MCSymbol *Label) { Out.EmitLabel(Label); } // True when previous instruction was actually REP prefix. bool RepPrefix; }; void X86AddressSanitizer::InstrumentMemOperand( X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) { assert(Op.isMem() && "Op should be a memory operand."); assert((AccessSize & (AccessSize - 1)) == 0 && AccessSize <= 16 && "AccessSize should be a power of two, less or equal than 16."); // FIXME: take into account load/store alignment. if (IsSmallMemAccess(AccessSize)) InstrumentMemOperandSmall(Op, AccessSize, IsWrite, RegCtx, Ctx, Out); else InstrumentMemOperandLarge(Op, AccessSize, IsWrite, RegCtx, Ctx, Out); } void X86AddressSanitizer::InstrumentMOVSBase(unsigned DstReg, unsigned SrcReg, unsigned CntReg, unsigned AccessSize, MCContext &Ctx, MCStreamer &Out) { // FIXME: check whole ranges [DstReg .. DstReg + AccessSize * (CntReg - 1)] // and [SrcReg .. SrcReg + AccessSize * (CntReg - 1)]. RegisterContext RegCtx(X86::RDX /* AddressReg */, X86::RAX /* ShadowReg */, IsSmallMemAccess(AccessSize) ? X86::RBX : X86::NoRegister /* ScratchReg */); InstrumentMemOperandPrologue(RegCtx, Ctx, Out); // Test (%SrcReg) { const MCExpr *Disp = MCConstantExpr::Create(0, Ctx); std::unique_ptr Op(X86Operand::CreateMem( 0, Disp, SrcReg, 0, AccessSize, SMLoc(), SMLoc())); InstrumentMemOperand(*Op, AccessSize, false /* IsWrite */, RegCtx, Ctx, Out); } // Test -1(%SrcReg, %CntReg, AccessSize) { const MCExpr *Disp = MCConstantExpr::Create(-1, Ctx); std::unique_ptr Op(X86Operand::CreateMem( 0, Disp, SrcReg, CntReg, AccessSize, SMLoc(), SMLoc())); InstrumentMemOperand(*Op, AccessSize, false /* IsWrite */, RegCtx, Ctx, Out); } // Test (%DstReg) { const MCExpr *Disp = MCConstantExpr::Create(0, Ctx); std::unique_ptr Op(X86Operand::CreateMem( 0, Disp, DstReg, 0, AccessSize, SMLoc(), SMLoc())); InstrumentMemOperand(*Op, AccessSize, true /* IsWrite */, RegCtx, Ctx, Out); } // Test -1(%DstReg, %CntReg, AccessSize) { const MCExpr *Disp = MCConstantExpr::Create(-1, Ctx); std::unique_ptr Op(X86Operand::CreateMem( 0, Disp, DstReg, CntReg, AccessSize, SMLoc(), SMLoc())); InstrumentMemOperand(*Op, AccessSize, true /* IsWrite */, RegCtx, Ctx, Out); } InstrumentMemOperandEpilogue(RegCtx, Ctx, Out); } void X86AddressSanitizer::InstrumentMOVS(const MCInst &Inst, OperandVector &Operands, MCContext &Ctx, const MCInstrInfo &MII, MCStreamer &Out) { // Access size in bytes. unsigned AccessSize = 0; switch (Inst.getOpcode()) { case X86::MOVSB: AccessSize = 1; break; case X86::MOVSW: AccessSize = 2; break; case X86::MOVSL: AccessSize = 4; break; case X86::MOVSQ: AccessSize = 8; break; default: return; } InstrumentMOVSImpl(AccessSize, Ctx, Out); } void X86AddressSanitizer::InstrumentMOV(const MCInst &Inst, OperandVector &Operands, MCContext &Ctx, const MCInstrInfo &MII, MCStreamer &Out) { // Access size in bytes. unsigned AccessSize = 0; switch (Inst.getOpcode()) { case X86::MOV8mi: case X86::MOV8mr: case X86::MOV8rm: AccessSize = 1; break; case X86::MOV16mi: case X86::MOV16mr: case X86::MOV16rm: AccessSize = 2; break; case X86::MOV32mi: case X86::MOV32mr: case X86::MOV32rm: AccessSize = 4; break; case X86::MOV64mi32: case X86::MOV64mr: case X86::MOV64rm: AccessSize = 8; break; case X86::MOVAPDmr: case X86::MOVAPSmr: case X86::MOVAPDrm: case X86::MOVAPSrm: AccessSize = 16; break; default: return; } const bool IsWrite = MII.get(Inst.getOpcode()).mayStore(); RegisterContext RegCtx(X86::RDI /* AddressReg */, X86::RAX /* ShadowReg */, IsSmallMemAccess(AccessSize) ? X86::RCX : X86::NoRegister /* ScratchReg */); for (unsigned Ix = 0; Ix < Operands.size(); ++Ix) { assert(Operands[Ix]); MCParsedAsmOperand &Op = *Operands[Ix]; if (Op.isMem()) { X86Operand &MemOp = static_cast(Op); // FIXME: get rid of this limitation. if (IsStackReg(MemOp.getMemBaseReg()) || IsStackReg(MemOp.getMemIndexReg())) { continue; } InstrumentMemOperandPrologue(RegCtx, Ctx, Out); InstrumentMemOperand(MemOp, AccessSize, IsWrite, RegCtx, Ctx, Out); InstrumentMemOperandEpilogue(RegCtx, Ctx, Out); } } } class X86AddressSanitizer32 : public X86AddressSanitizer { public: static const long kShadowOffset = 0x20000000; X86AddressSanitizer32(const MCSubtargetInfo &STI) : X86AddressSanitizer(STI) {} virtual ~X86AddressSanitizer32() {} unsigned GetFrameReg(const MCContext &Ctx, MCStreamer &Out) { unsigned FrameReg = GetFrameRegGeneric(Ctx, Out); if (FrameReg == X86::NoRegister) return FrameReg; return getX86SubSuperRegister(FrameReg, MVT::i32); } virtual void StoreFlags(MCStreamer &Out) override { EmitInstruction(Out, MCInstBuilder(X86::PUSHF32)); } virtual void RestoreFlags(MCStreamer &Out) override { EmitInstruction(Out, MCInstBuilder(X86::POPF32)); } virtual void InstrumentMemOperandPrologue(const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override { const MCRegisterInfo *MRI = Ctx.getRegisterInfo(); unsigned FrameReg = GetFrameReg(Ctx, Out); if (MRI && FrameReg != X86::NoRegister) { EmitInstruction( Out, MCInstBuilder(X86::PUSH32r).addReg(X86::EBP)); if (FrameReg == X86::ESP) { Out.EmitCFIAdjustCfaOffset(4 /* byte size of the FrameReg */); Out.EmitCFIRelOffset( MRI->getDwarfRegNum(X86::EBP, true /* IsEH */), 0); } EmitInstruction( Out, MCInstBuilder(X86::MOV32rr).addReg(X86::EBP).addReg(FrameReg)); Out.EmitCFIRememberState(); Out.EmitCFIDefCfaRegister( MRI->getDwarfRegNum(X86::EBP, true /* IsEH */)); } EmitInstruction( Out, MCInstBuilder(X86::PUSH32r).addReg(RegCtx.addressReg(MVT::i32))); EmitInstruction( Out, MCInstBuilder(X86::PUSH32r).addReg(RegCtx.shadowReg(MVT::i32))); if (RegCtx.ScratchReg != X86::NoRegister) { EmitInstruction( Out, MCInstBuilder(X86::PUSH32r).addReg(RegCtx.scratchReg(MVT::i32))); } StoreFlags(Out); } virtual void InstrumentMemOperandEpilogue(const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override { RestoreFlags(Out); if (RegCtx.ScratchReg != X86::NoRegister) { EmitInstruction( Out, MCInstBuilder(X86::POP32r).addReg(RegCtx.scratchReg(MVT::i32))); } EmitInstruction( Out, MCInstBuilder(X86::POP32r).addReg(RegCtx.shadowReg(MVT::i32))); EmitInstruction( Out, MCInstBuilder(X86::POP32r).addReg(RegCtx.addressReg(MVT::i32))); unsigned FrameReg = GetFrameReg(Ctx, Out); if (Ctx.getRegisterInfo() && FrameReg != X86::NoRegister) { EmitInstruction( Out, MCInstBuilder(X86::POP32r).addReg(X86::EBP)); Out.EmitCFIRestoreState(); if (FrameReg == X86::ESP) Out.EmitCFIAdjustCfaOffset(-4 /* byte size of the FrameReg */); } } virtual void InstrumentMemOperandSmall(X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override; virtual void InstrumentMemOperandLarge(X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override; virtual void InstrumentMOVSImpl(unsigned AccessSize, MCContext &Ctx, MCStreamer &Out) override; private: void EmitCallAsanReport(unsigned AccessSize, bool IsWrite, MCContext &Ctx, MCStreamer &Out, const RegisterContext &RegCtx) { EmitInstruction(Out, MCInstBuilder(X86::CLD)); EmitInstruction(Out, MCInstBuilder(X86::MMX_EMMS)); EmitInstruction(Out, MCInstBuilder(X86::AND64ri8) .addReg(X86::ESP) .addReg(X86::ESP) .addImm(-16)); EmitInstruction( Out, MCInstBuilder(X86::PUSH32r).addReg(RegCtx.addressReg(MVT::i32))); const std::string &Fn = FuncName(AccessSize, IsWrite); MCSymbol *FnSym = Ctx.GetOrCreateSymbol(StringRef(Fn)); const MCSymbolRefExpr *FnExpr = MCSymbolRefExpr::Create(FnSym, MCSymbolRefExpr::VK_PLT, Ctx); EmitInstruction(Out, MCInstBuilder(X86::CALLpcrel32).addExpr(FnExpr)); } }; void X86AddressSanitizer32::InstrumentMemOperandSmall( X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) { unsigned AddressRegI32 = RegCtx.addressReg(MVT::i32); unsigned ShadowRegI32 = RegCtx.shadowReg(MVT::i32); unsigned ShadowRegI8 = RegCtx.shadowReg(MVT::i8); assert(RegCtx.ScratchReg != X86::NoRegister); unsigned ScratchRegI32 = RegCtx.scratchReg(MVT::i32); { MCInst Inst; Inst.setOpcode(X86::LEA32r); Inst.addOperand(MCOperand::CreateReg(AddressRegI32)); Op.addMemOperands(Inst, 5); EmitInstruction(Out, Inst); } EmitInstruction(Out, MCInstBuilder(X86::MOV32rr).addReg(ShadowRegI32).addReg( AddressRegI32)); EmitInstruction(Out, MCInstBuilder(X86::SHR32ri) .addReg(ShadowRegI32) .addReg(ShadowRegI32) .addImm(3)); { MCInst Inst; Inst.setOpcode(X86::MOV8rm); Inst.addOperand(MCOperand::CreateReg(ShadowRegI8)); const MCExpr *Disp = MCConstantExpr::Create(kShadowOffset, Ctx); std::unique_ptr Op( X86Operand::CreateMem(0, Disp, ShadowRegI32, 0, 1, SMLoc(), SMLoc())); Op->addMemOperands(Inst, 5); EmitInstruction(Out, Inst); } EmitInstruction( Out, MCInstBuilder(X86::TEST8rr).addReg(ShadowRegI8).addReg(ShadowRegI8)); MCSymbol *DoneSym = Ctx.CreateTempSymbol(); const MCExpr *DoneExpr = MCSymbolRefExpr::Create(DoneSym, Ctx); EmitInstruction(Out, MCInstBuilder(X86::JE_4).addExpr(DoneExpr)); EmitInstruction(Out, MCInstBuilder(X86::MOV32rr).addReg(ScratchRegI32).addReg( AddressRegI32)); EmitInstruction(Out, MCInstBuilder(X86::AND32ri) .addReg(ScratchRegI32) .addReg(ScratchRegI32) .addImm(7)); switch (AccessSize) { case 1: break; case 2: { MCInst Inst; Inst.setOpcode(X86::LEA32r); Inst.addOperand(MCOperand::CreateReg(ScratchRegI32)); const MCExpr *Disp = MCConstantExpr::Create(1, Ctx); std::unique_ptr Op( X86Operand::CreateMem(0, Disp, ScratchRegI32, 0, 1, SMLoc(), SMLoc())); Op->addMemOperands(Inst, 5); EmitInstruction(Out, Inst); break; } case 4: EmitInstruction(Out, MCInstBuilder(X86::ADD32ri8) .addReg(ScratchRegI32) .addReg(ScratchRegI32) .addImm(3)); break; default: assert(false && "Incorrect access size"); break; } EmitInstruction( Out, MCInstBuilder(X86::MOVSX32rr8).addReg(ShadowRegI32).addReg(ShadowRegI8)); EmitInstruction(Out, MCInstBuilder(X86::CMP32rr).addReg(ScratchRegI32).addReg( ShadowRegI32)); EmitInstruction(Out, MCInstBuilder(X86::JL_4).addExpr(DoneExpr)); EmitCallAsanReport(AccessSize, IsWrite, Ctx, Out, RegCtx); EmitLabel(Out, DoneSym); } void X86AddressSanitizer32::InstrumentMemOperandLarge( X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) { unsigned AddressRegI32 = RegCtx.addressReg(MVT::i32); unsigned ShadowRegI32 = RegCtx.shadowReg(MVT::i32); { MCInst Inst; Inst.setOpcode(X86::LEA32r); Inst.addOperand(MCOperand::CreateReg(AddressRegI32)); Op.addMemOperands(Inst, 5); EmitInstruction(Out, Inst); } EmitInstruction(Out, MCInstBuilder(X86::MOV32rr).addReg(ShadowRegI32).addReg( AddressRegI32)); EmitInstruction(Out, MCInstBuilder(X86::SHR32ri) .addReg(ShadowRegI32) .addReg(ShadowRegI32) .addImm(3)); { MCInst Inst; switch (AccessSize) { case 8: Inst.setOpcode(X86::CMP8mi); break; case 16: Inst.setOpcode(X86::CMP16mi); break; default: assert(false && "Incorrect access size"); break; } const MCExpr *Disp = MCConstantExpr::Create(kShadowOffset, Ctx); std::unique_ptr Op( X86Operand::CreateMem(0, Disp, ShadowRegI32, 0, 1, SMLoc(), SMLoc())); Op->addMemOperands(Inst, 5); Inst.addOperand(MCOperand::CreateImm(0)); EmitInstruction(Out, Inst); } MCSymbol *DoneSym = Ctx.CreateTempSymbol(); const MCExpr *DoneExpr = MCSymbolRefExpr::Create(DoneSym, Ctx); EmitInstruction(Out, MCInstBuilder(X86::JE_4).addExpr(DoneExpr)); EmitCallAsanReport(AccessSize, IsWrite, Ctx, Out, RegCtx); EmitLabel(Out, DoneSym); } void X86AddressSanitizer32::InstrumentMOVSImpl(unsigned AccessSize, MCContext &Ctx, MCStreamer &Out) { StoreFlags(Out); // No need to test when ECX is equals to zero. MCSymbol *DoneSym = Ctx.CreateTempSymbol(); const MCExpr *DoneExpr = MCSymbolRefExpr::Create(DoneSym, Ctx); EmitInstruction( Out, MCInstBuilder(X86::TEST32rr).addReg(X86::ECX).addReg(X86::ECX)); EmitInstruction(Out, MCInstBuilder(X86::JE_4).addExpr(DoneExpr)); // Instrument first and last elements in src and dst range. InstrumentMOVSBase(X86::EDI /* DstReg */, X86::ESI /* SrcReg */, X86::ECX /* CntReg */, AccessSize, Ctx, Out); EmitLabel(Out, DoneSym); RestoreFlags(Out); } class X86AddressSanitizer64 : public X86AddressSanitizer { public: static const long kShadowOffset = 0x7fff8000; X86AddressSanitizer64(const MCSubtargetInfo &STI) : X86AddressSanitizer(STI) {} virtual ~X86AddressSanitizer64() {} unsigned GetFrameReg(const MCContext &Ctx, MCStreamer &Out) { unsigned FrameReg = GetFrameRegGeneric(Ctx, Out); if (FrameReg == X86::NoRegister) return FrameReg; return getX86SubSuperRegister(FrameReg, MVT::i64); } virtual void StoreFlags(MCStreamer &Out) override { EmitInstruction(Out, MCInstBuilder(X86::PUSHF64)); } virtual void RestoreFlags(MCStreamer &Out) override { EmitInstruction(Out, MCInstBuilder(X86::POPF64)); } virtual void InstrumentMemOperandPrologue(const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override { const MCRegisterInfo *MRI = Ctx.getRegisterInfo(); unsigned FrameReg = GetFrameReg(Ctx, Out); if (MRI && FrameReg != X86::NoRegister) { EmitInstruction(Out, MCInstBuilder(X86::PUSH64r).addReg(X86::RBP)); if (FrameReg == X86::RSP) { Out.EmitCFIAdjustCfaOffset(8 /* byte size of the FrameReg */); Out.EmitCFIRelOffset( MRI->getDwarfRegNum(X86::RBP, true /* IsEH */), 0); } EmitInstruction( Out, MCInstBuilder(X86::MOV64rr).addReg(X86::RBP).addReg(FrameReg)); Out.EmitCFIRememberState(); Out.EmitCFIDefCfaRegister( MRI->getDwarfRegNum(X86::RBP, true /* IsEH */)); } EmitAdjustRSP(Ctx, Out, -128); EmitInstruction( Out, MCInstBuilder(X86::PUSH64r).addReg(RegCtx.shadowReg(MVT::i64))); EmitInstruction( Out, MCInstBuilder(X86::PUSH64r).addReg(RegCtx.addressReg(MVT::i64))); if (RegCtx.ScratchReg != X86::NoRegister) { EmitInstruction( Out, MCInstBuilder(X86::PUSH64r).addReg(RegCtx.scratchReg(MVT::i64))); } StoreFlags(Out); } virtual void InstrumentMemOperandEpilogue(const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override { RestoreFlags(Out); if (RegCtx.ScratchReg != X86::NoRegister) { EmitInstruction( Out, MCInstBuilder(X86::POP64r).addReg(RegCtx.scratchReg(MVT::i64))); } EmitInstruction( Out, MCInstBuilder(X86::POP64r).addReg(RegCtx.addressReg(MVT::i64))); EmitInstruction( Out, MCInstBuilder(X86::POP64r).addReg(RegCtx.shadowReg(MVT::i64))); EmitAdjustRSP(Ctx, Out, 128); unsigned FrameReg = GetFrameReg(Ctx, Out); if (Ctx.getRegisterInfo() && FrameReg != X86::NoRegister) { EmitInstruction( Out, MCInstBuilder(X86::POP64r).addReg(X86::RBP)); Out.EmitCFIRestoreState(); if (FrameReg == X86::RSP) Out.EmitCFIAdjustCfaOffset(-8 /* byte size of the FrameReg */); } } virtual void InstrumentMemOperandSmall(X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override; virtual void InstrumentMemOperandLarge(X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) override; virtual void InstrumentMOVSImpl(unsigned AccessSize, MCContext &Ctx, MCStreamer &Out) override; private: void EmitAdjustRSP(MCContext &Ctx, MCStreamer &Out, long Offset) { MCInst Inst; Inst.setOpcode(X86::LEA64r); Inst.addOperand(MCOperand::CreateReg(X86::RSP)); const MCExpr *Disp = MCConstantExpr::Create(Offset, Ctx); std::unique_ptr Op( X86Operand::CreateMem(0, Disp, X86::RSP, 0, 1, SMLoc(), SMLoc())); Op->addMemOperands(Inst, 5); EmitInstruction(Out, Inst); } void EmitCallAsanReport(unsigned AccessSize, bool IsWrite, MCContext &Ctx, MCStreamer &Out, const RegisterContext &RegCtx) { EmitInstruction(Out, MCInstBuilder(X86::CLD)); EmitInstruction(Out, MCInstBuilder(X86::MMX_EMMS)); EmitInstruction(Out, MCInstBuilder(X86::AND64ri8) .addReg(X86::RSP) .addReg(X86::RSP) .addImm(-16)); if (RegCtx.AddressReg != X86::RDI) { EmitInstruction(Out, MCInstBuilder(X86::MOV64rr).addReg(X86::RDI).addReg( RegCtx.addressReg(MVT::i64))); } const std::string &Fn = FuncName(AccessSize, IsWrite); MCSymbol *FnSym = Ctx.GetOrCreateSymbol(StringRef(Fn)); const MCSymbolRefExpr *FnExpr = MCSymbolRefExpr::Create(FnSym, MCSymbolRefExpr::VK_PLT, Ctx); EmitInstruction(Out, MCInstBuilder(X86::CALL64pcrel32).addExpr(FnExpr)); } }; void X86AddressSanitizer64::InstrumentMemOperandSmall( X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) { unsigned AddressRegI64 = RegCtx.addressReg(MVT::i64); unsigned AddressRegI32 = RegCtx.addressReg(MVT::i32); unsigned ShadowRegI64 = RegCtx.shadowReg(MVT::i64); unsigned ShadowRegI32 = RegCtx.shadowReg(MVT::i32); unsigned ShadowRegI8 = RegCtx.shadowReg(MVT::i8); assert(RegCtx.ScratchReg != X86::NoRegister); unsigned ScratchRegI32 = RegCtx.scratchReg(MVT::i32); { MCInst Inst; Inst.setOpcode(X86::LEA64r); Inst.addOperand(MCOperand::CreateReg(AddressRegI64)); Op.addMemOperands(Inst, 5); EmitInstruction(Out, Inst); } EmitInstruction(Out, MCInstBuilder(X86::MOV64rr).addReg(ShadowRegI64).addReg( AddressRegI64)); EmitInstruction(Out, MCInstBuilder(X86::SHR64ri) .addReg(ShadowRegI64) .addReg(ShadowRegI64) .addImm(3)); { MCInst Inst; Inst.setOpcode(X86::MOV8rm); Inst.addOperand(MCOperand::CreateReg(ShadowRegI8)); const MCExpr *Disp = MCConstantExpr::Create(kShadowOffset, Ctx); std::unique_ptr Op( X86Operand::CreateMem(0, Disp, ShadowRegI64, 0, 1, SMLoc(), SMLoc())); Op->addMemOperands(Inst, 5); EmitInstruction(Out, Inst); } EmitInstruction( Out, MCInstBuilder(X86::TEST8rr).addReg(ShadowRegI8).addReg(ShadowRegI8)); MCSymbol *DoneSym = Ctx.CreateTempSymbol(); const MCExpr *DoneExpr = MCSymbolRefExpr::Create(DoneSym, Ctx); EmitInstruction(Out, MCInstBuilder(X86::JE_4).addExpr(DoneExpr)); EmitInstruction(Out, MCInstBuilder(X86::MOV32rr).addReg(ScratchRegI32).addReg( AddressRegI32)); EmitInstruction(Out, MCInstBuilder(X86::AND32ri) .addReg(ScratchRegI32) .addReg(ScratchRegI32) .addImm(7)); switch (AccessSize) { case 1: break; case 2: { MCInst Inst; Inst.setOpcode(X86::LEA32r); Inst.addOperand(MCOperand::CreateReg(ScratchRegI32)); const MCExpr *Disp = MCConstantExpr::Create(1, Ctx); std::unique_ptr Op( X86Operand::CreateMem(0, Disp, ScratchRegI32, 0, 1, SMLoc(), SMLoc())); Op->addMemOperands(Inst, 5); EmitInstruction(Out, Inst); break; } case 4: EmitInstruction(Out, MCInstBuilder(X86::ADD32ri8) .addReg(ScratchRegI32) .addReg(ScratchRegI32) .addImm(3)); break; default: assert(false && "Incorrect access size"); break; } EmitInstruction( Out, MCInstBuilder(X86::MOVSX32rr8).addReg(ShadowRegI32).addReg(ShadowRegI8)); EmitInstruction(Out, MCInstBuilder(X86::CMP32rr).addReg(ScratchRegI32).addReg( ShadowRegI32)); EmitInstruction(Out, MCInstBuilder(X86::JL_4).addExpr(DoneExpr)); EmitCallAsanReport(AccessSize, IsWrite, Ctx, Out, RegCtx); EmitLabel(Out, DoneSym); } void X86AddressSanitizer64::InstrumentMemOperandLarge( X86Operand &Op, unsigned AccessSize, bool IsWrite, const RegisterContext &RegCtx, MCContext &Ctx, MCStreamer &Out) { unsigned AddressRegI64 = RegCtx.addressReg(MVT::i64); unsigned ShadowRegI64 = RegCtx.shadowReg(MVT::i64); { MCInst Inst; Inst.setOpcode(X86::LEA64r); Inst.addOperand(MCOperand::CreateReg(AddressRegI64)); Op.addMemOperands(Inst, 5); EmitInstruction(Out, Inst); } EmitInstruction(Out, MCInstBuilder(X86::MOV64rr).addReg(ShadowRegI64).addReg( AddressRegI64)); EmitInstruction(Out, MCInstBuilder(X86::SHR64ri) .addReg(ShadowRegI64) .addReg(ShadowRegI64) .addImm(3)); { MCInst Inst; switch (AccessSize) { case 8: Inst.setOpcode(X86::CMP8mi); break; case 16: Inst.setOpcode(X86::CMP16mi); break; default: assert(false && "Incorrect access size"); break; } const MCExpr *Disp = MCConstantExpr::Create(kShadowOffset, Ctx); std::unique_ptr Op( X86Operand::CreateMem(0, Disp, ShadowRegI64, 0, 1, SMLoc(), SMLoc())); Op->addMemOperands(Inst, 5); Inst.addOperand(MCOperand::CreateImm(0)); EmitInstruction(Out, Inst); } MCSymbol *DoneSym = Ctx.CreateTempSymbol(); const MCExpr *DoneExpr = MCSymbolRefExpr::Create(DoneSym, Ctx); EmitInstruction(Out, MCInstBuilder(X86::JE_4).addExpr(DoneExpr)); EmitCallAsanReport(AccessSize, IsWrite, Ctx, Out, RegCtx); EmitLabel(Out, DoneSym); } void X86AddressSanitizer64::InstrumentMOVSImpl(unsigned AccessSize, MCContext &Ctx, MCStreamer &Out) { StoreFlags(Out); // No need to test when RCX is equals to zero. MCSymbol *DoneSym = Ctx.CreateTempSymbol(); const MCExpr *DoneExpr = MCSymbolRefExpr::Create(DoneSym, Ctx); EmitInstruction( Out, MCInstBuilder(X86::TEST64rr).addReg(X86::RCX).addReg(X86::RCX)); EmitInstruction(Out, MCInstBuilder(X86::JE_4).addExpr(DoneExpr)); // Instrument first and last elements in src and dst range. InstrumentMOVSBase(X86::RDI /* DstReg */, X86::RSI /* SrcReg */, X86::RCX /* CntReg */, AccessSize, Ctx, Out); EmitLabel(Out, DoneSym); RestoreFlags(Out); } } // End anonymous namespace X86AsmInstrumentation::X86AsmInstrumentation(const MCSubtargetInfo &STI) : STI(STI), InitialFrameReg(0) {} X86AsmInstrumentation::~X86AsmInstrumentation() {} void X86AsmInstrumentation::InstrumentAndEmitInstruction( const MCInst &Inst, OperandVector &Operands, MCContext &Ctx, const MCInstrInfo &MII, MCStreamer &Out) { EmitInstruction(Out, Inst); } void X86AsmInstrumentation::EmitInstruction(MCStreamer &Out, const MCInst &Inst) { Out.EmitInstruction(Inst, STI); } unsigned X86AsmInstrumentation::GetFrameRegGeneric(const MCContext &Ctx, MCStreamer &Out) { if (!Out.getNumFrameInfos()) // No active dwarf frame return X86::NoRegister; const MCDwarfFrameInfo &Frame = Out.getDwarfFrameInfos().back(); if (Frame.End) // Active dwarf frame is closed return X86::NoRegister; const MCRegisterInfo *MRI = Ctx.getRegisterInfo(); if (!MRI) // No register info return X86::NoRegister; if (InitialFrameReg) { // FrameReg is set explicitly, we're instrumenting a MachineFunction. return InitialFrameReg; } return MRI->getLLVMRegNum(Frame.CurrentCfaRegister, true /* IsEH */); } X86AsmInstrumentation * CreateX86AsmInstrumentation(const MCTargetOptions &MCOptions, const MCContext &Ctx, const MCSubtargetInfo &STI) { Triple T(STI.getTargetTriple()); const bool hasCompilerRTSupport = T.isOSLinux(); if (ClAsanInstrumentAssembly && hasCompilerRTSupport && MCOptions.SanitizeAddress) { if ((STI.getFeatureBits() & X86::Mode32Bit) != 0) return new X86AddressSanitizer32(STI); if ((STI.getFeatureBits() & X86::Mode64Bit) != 0) return new X86AddressSanitizer64(STI); } return new X86AsmInstrumentation(STI); } } // End llvm namespace