/*
- * Copyright (C) 2008 Apple Inc. All rights reserved.
+ * Copyright (C) 2008, 2012 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
namespace JSC {
class MacroAssemblerX86_64 : public MacroAssemblerX86Common {
-protected:
- static const X86Registers::RegisterID scratchRegister = X86Registers::r11;
-
public:
static const Scale ScalePtr = TimesEight;
using MacroAssemblerX86Common::add32;
using MacroAssemblerX86Common::and32;
+ using MacroAssemblerX86Common::branchAdd32;
using MacroAssemblerX86Common::or32;
using MacroAssemblerX86Common::sub32;
using MacroAssemblerX86Common::load32;
using MacroAssemblerX86Common::store32;
+ using MacroAssemblerX86Common::store8;
using MacroAssemblerX86Common::call;
+ using MacroAssemblerX86Common::jump;
+ using MacroAssemblerX86Common::addDouble;
using MacroAssemblerX86Common::loadDouble;
using MacroAssemblerX86Common::convertInt32ToDouble;
- void add32(Imm32 imm, AbsoluteAddress address)
+ void add32(TrustedImm32 imm, AbsoluteAddress address)
{
- move(ImmPtr(address.m_ptr), scratchRegister);
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
add32(imm, Address(scratchRegister));
}
- void and32(Imm32 imm, AbsoluteAddress address)
+ void and32(TrustedImm32 imm, AbsoluteAddress address)
{
- move(ImmPtr(address.m_ptr), scratchRegister);
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
and32(imm, Address(scratchRegister));
}
- void or32(Imm32 imm, AbsoluteAddress address)
+ void add32(AbsoluteAddress address, RegisterID dest)
+ {
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
+ add32(Address(scratchRegister), dest);
+ }
+
+ void or32(TrustedImm32 imm, AbsoluteAddress address)
{
- move(ImmPtr(address.m_ptr), scratchRegister);
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
or32(imm, Address(scratchRegister));
}
- void sub32(Imm32 imm, AbsoluteAddress address)
+ void or32(RegisterID reg, AbsoluteAddress address)
{
- move(ImmPtr(address.m_ptr), scratchRegister);
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
+ or32(reg, Address(scratchRegister));
+ }
+
+ void sub32(TrustedImm32 imm, AbsoluteAddress address)
+ {
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
sub32(imm, Address(scratchRegister));
}
- void load32(void* address, RegisterID dest)
+ void load32(const void* address, RegisterID dest)
{
if (dest == X86Registers::eax)
m_assembler.movl_mEAX(address);
else {
- move(X86Registers::eax, dest);
- m_assembler.movl_mEAX(address);
- swap(X86Registers::eax, dest);
+ move(TrustedImmPtr(address), dest);
+ load32(dest, dest);
}
}
- void loadDouble(const void* address, FPRegisterID dest)
+ void addDouble(AbsoluteAddress address, FPRegisterID dest)
{
- move(ImmPtr(address), scratchRegister);
- loadDouble(scratchRegister, dest);
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
+ m_assembler.addsd_mr(0, scratchRegister, dest);
}
- void convertInt32ToDouble(AbsoluteAddress src, FPRegisterID dest)
+ void convertInt32ToDouble(TrustedImm32 imm, FPRegisterID dest)
{
- move(Imm32(*static_cast<int32_t*>(src.m_ptr)), scratchRegister);
+ move(imm, scratchRegister);
m_assembler.cvtsi2sd_rr(scratchRegister, dest);
}
- void store32(Imm32 imm, void* address)
+ void store32(TrustedImm32 imm, void* address)
+ {
+ move(TrustedImmPtr(address), scratchRegister);
+ store32(imm, scratchRegister);
+ }
+
+ void store8(TrustedImm32 imm, void* address)
{
- move(X86Registers::eax, scratchRegister);
- move(imm, X86Registers::eax);
- m_assembler.movl_EAXm(address);
- move(scratchRegister, X86Registers::eax);
+ move(TrustedImmPtr(address), scratchRegister);
+ store8(imm, Address(scratchRegister));
}
Call call()
{
- DataLabelPtr label = moveWithPatch(ImmPtr(0), scratchRegister);
+ DataLabelPtr label = moveWithPatch(TrustedImmPtr(0), scratchRegister);
Call result = Call(m_assembler.call(scratchRegister), Call::Linkable);
- ASSERT(differenceBetween(label, result) == REPTACH_OFFSET_CALL_R11);
+ ASSERT_UNUSED(label, differenceBetween(label, result) == REPTACH_OFFSET_CALL_R11);
return result;
}
+ // Address is a memory location containing the address to jump to
+ void jump(AbsoluteAddress address)
+ {
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
+ jump(Address(scratchRegister));
+ }
+
Call tailRecursiveCall()
{
- DataLabelPtr label = moveWithPatch(ImmPtr(0), scratchRegister);
+ DataLabelPtr label = moveWithPatch(TrustedImmPtr(0), scratchRegister);
Jump newJump = Jump(m_assembler.jmp_r(scratchRegister));
- ASSERT(differenceBetween(label, newJump) == REPTACH_OFFSET_CALL_R11);
+ ASSERT_UNUSED(label, differenceBetween(label, newJump) == REPTACH_OFFSET_CALL_R11);
return Call::fromTailJump(newJump);
}
Call makeTailRecursiveCall(Jump oldJump)
{
oldJump.link(this);
- DataLabelPtr label = moveWithPatch(ImmPtr(0), scratchRegister);
+ DataLabelPtr label = moveWithPatch(TrustedImmPtr(0), scratchRegister);
Jump newJump = Jump(m_assembler.jmp_r(scratchRegister));
- ASSERT(differenceBetween(label, newJump) == REPTACH_OFFSET_CALL_R11);
+ ASSERT_UNUSED(label, differenceBetween(label, newJump) == REPTACH_OFFSET_CALL_R11);
return Call::fromTailJump(newJump);
}
+ Jump branchAdd32(ResultCondition cond, TrustedImm32 src, AbsoluteAddress dest)
+ {
+ move(TrustedImmPtr(dest.m_ptr), scratchRegister);
+ add32(src, Address(scratchRegister));
+ return Jump(m_assembler.jCC(x86Condition(cond)));
+ }
- void addPtr(RegisterID src, RegisterID dest)
+ void add64(RegisterID src, RegisterID dest)
{
m_assembler.addq_rr(src, dest);
}
+
+ void add64(Address src, RegisterID dest)
+ {
+ m_assembler.addq_mr(src.offset, src.base, dest);
+ }
+
+ void add64(AbsoluteAddress src, RegisterID dest)
+ {
+ move(TrustedImmPtr(src.m_ptr), scratchRegister);
+ add64(Address(scratchRegister), dest);
+ }
- void addPtr(Imm32 imm, RegisterID srcDest)
+ void add64(TrustedImm32 imm, RegisterID srcDest)
{
m_assembler.addq_ir(imm.m_value, srcDest);
}
- void addPtr(ImmPtr imm, RegisterID dest)
+ void add64(TrustedImm64 imm, RegisterID dest)
{
move(imm, scratchRegister);
- m_assembler.addq_rr(scratchRegister, dest);
+ add64(scratchRegister, dest);
}
- void addPtr(Imm32 imm, RegisterID src, RegisterID dest)
+ void add64(TrustedImm32 imm, RegisterID src, RegisterID dest)
{
m_assembler.leaq_mr(imm.m_value, src, dest);
}
- void addPtr(Imm32 imm, Address address)
+ void add64(TrustedImm32 imm, Address address)
{
m_assembler.addq_im(imm.m_value, address.offset, address.base);
}
- void addPtr(Imm32 imm, AbsoluteAddress address)
+ void add64(TrustedImm32 imm, AbsoluteAddress address)
{
- move(ImmPtr(address.m_ptr), scratchRegister);
- addPtr(imm, Address(scratchRegister));
+ move(TrustedImmPtr(address.m_ptr), scratchRegister);
+ add64(imm, Address(scratchRegister));
}
-
- void andPtr(RegisterID src, RegisterID dest)
+
+ void and64(RegisterID src, RegisterID dest)
{
m_assembler.andq_rr(src, dest);
}
- void andPtr(Imm32 imm, RegisterID srcDest)
+ void and64(TrustedImm32 imm, RegisterID srcDest)
{
m_assembler.andq_ir(imm.m_value, srcDest);
}
+
+ void neg64(RegisterID dest)
+ {
+ m_assembler.negq_r(dest);
+ }
- void orPtr(RegisterID src, RegisterID dest)
+ void or64(RegisterID src, RegisterID dest)
{
m_assembler.orq_rr(src, dest);
}
- void orPtr(ImmPtr imm, RegisterID dest)
+ void or64(TrustedImm64 imm, RegisterID dest)
{
move(imm, scratchRegister);
- m_assembler.orq_rr(scratchRegister, dest);
+ or64(scratchRegister, dest);
}
- void orPtr(Imm32 imm, RegisterID dest)
+ void or64(TrustedImm32 imm, RegisterID dest)
{
m_assembler.orq_ir(imm.m_value, dest);
}
- void subPtr(RegisterID src, RegisterID dest)
+ void or64(RegisterID op1, RegisterID op2, RegisterID dest)
+ {
+ if (op1 == op2)
+ move(op1, dest);
+ else if (op1 == dest)
+ or64(op2, dest);
+ else {
+ move(op2, dest);
+ or64(op1, dest);
+ }
+ }
+
+ void or64(TrustedImm32 imm, RegisterID src, RegisterID dest)
+ {
+ move(src, dest);
+ or64(imm, dest);
+ }
+
+ void rotateRight64(TrustedImm32 imm, RegisterID srcDst)
+ {
+ m_assembler.rorq_i8r(imm.m_value, srcDst);
+ }
+
+ void sub64(RegisterID src, RegisterID dest)
{
m_assembler.subq_rr(src, dest);
}
- void subPtr(Imm32 imm, RegisterID dest)
+ void sub64(TrustedImm32 imm, RegisterID dest)
{
m_assembler.subq_ir(imm.m_value, dest);
}
- void subPtr(ImmPtr imm, RegisterID dest)
+ void sub64(TrustedImm64 imm, RegisterID dest)
{
move(imm, scratchRegister);
- m_assembler.subq_rr(scratchRegister, dest);
+ sub64(scratchRegister, dest);
}
- void xorPtr(RegisterID src, RegisterID dest)
+ void xor64(RegisterID src, RegisterID dest)
{
m_assembler.xorq_rr(src, dest);
}
+
+ void xor64(RegisterID src, Address dest)
+ {
+ m_assembler.xorq_rm(src, dest.offset, dest.base);
+ }
- void xorPtr(Imm32 imm, RegisterID srcDest)
+ void xor64(TrustedImm32 imm, RegisterID srcDest)
{
m_assembler.xorq_ir(imm.m_value, srcDest);
}
-
- void loadPtr(ImplicitAddress address, RegisterID dest)
+ void load64(ImplicitAddress address, RegisterID dest)
{
m_assembler.movq_mr(address.offset, address.base, dest);
}
- void loadPtr(BaseIndex address, RegisterID dest)
+ void load64(BaseIndex address, RegisterID dest)
{
m_assembler.movq_mr(address.offset, address.base, address.index, address.scale, dest);
}
- void loadPtr(void* address, RegisterID dest)
+ void load64(const void* address, RegisterID dest)
{
if (dest == X86Registers::eax)
m_assembler.movq_mEAX(address);
else {
- move(X86Registers::eax, dest);
- m_assembler.movq_mEAX(address);
- swap(X86Registers::eax, dest);
+ move(TrustedImmPtr(address), dest);
+ load64(dest, dest);
}
}
- DataLabel32 loadPtrWithAddressOffsetPatch(Address address, RegisterID dest)
+ DataLabel32 load64WithAddressOffsetPatch(Address address, RegisterID dest)
{
+ padBeforePatch();
m_assembler.movq_mr_disp32(address.offset, address.base, dest);
return DataLabel32(this);
}
+
+ DataLabelCompact load64WithCompactAddressOffsetPatch(Address address, RegisterID dest)
+ {
+ padBeforePatch();
+ m_assembler.movq_mr_disp8(address.offset, address.base, dest);
+ return DataLabelCompact(this);
+ }
- void storePtr(RegisterID src, ImplicitAddress address)
+ void store64(RegisterID src, ImplicitAddress address)
{
m_assembler.movq_rm(src, address.offset, address.base);
}
- void storePtr(RegisterID src, BaseIndex address)
+ void store64(RegisterID src, BaseIndex address)
{
m_assembler.movq_rm(src, address.offset, address.base, address.index, address.scale);
}
- void storePtr(RegisterID src, void* address)
+ void store64(RegisterID src, void* address)
{
if (src == X86Registers::eax)
m_assembler.movq_EAXm(address);
else {
- swap(X86Registers::eax, src);
- m_assembler.movq_EAXm(address);
- swap(X86Registers::eax, src);
+ move(TrustedImmPtr(address), scratchRegister);
+ store64(src, scratchRegister);
}
}
- void storePtr(ImmPtr imm, ImplicitAddress address)
+ void store64(TrustedImm64 imm, ImplicitAddress address)
{
move(imm, scratchRegister);
- storePtr(scratchRegister, address);
+ store64(scratchRegister, address);
}
- DataLabel32 storePtrWithAddressOffsetPatch(RegisterID src, Address address)
+ void store64(TrustedImm64 imm, BaseIndex address)
+ {
+ move(imm, scratchRegister);
+ m_assembler.movq_rm(scratchRegister, address.offset, address.base, address.index, address.scale);
+ }
+
+ DataLabel32 store64WithAddressOffsetPatch(RegisterID src, Address address)
{
+ padBeforePatch();
m_assembler.movq_rm_disp32(src, address.offset, address.base);
return DataLabel32(this);
}
- void movePtrToDouble(RegisterID src, FPRegisterID dest)
+ void move64ToDouble(RegisterID src, FPRegisterID dest)
{
m_assembler.movq_rr(src, dest);
}
- void moveDoubleToPtr(FPRegisterID src, RegisterID dest)
+ void moveDoubleTo64(FPRegisterID src, RegisterID dest)
{
m_assembler.movq_rr(src, dest);
}
- void setPtr(Condition cond, RegisterID left, Imm32 right, RegisterID dest)
+ void compare64(RelationalCondition cond, RegisterID left, TrustedImm32 right, RegisterID dest)
{
if (((cond == Equal) || (cond == NotEqual)) && !right.m_value)
m_assembler.testq_rr(left, left);
m_assembler.setCC_r(x86Condition(cond), dest);
m_assembler.movzbl_rr(dest, dest);
}
-
- Jump branchPtr(Condition cond, RegisterID left, RegisterID right)
+
+ void compare64(RelationalCondition cond, RegisterID left, RegisterID right, RegisterID dest)
+ {
+ m_assembler.cmpq_rr(right, left);
+ m_assembler.setCC_r(x86Condition(cond), dest);
+ m_assembler.movzbl_rr(dest, dest);
+ }
+
+ Jump branch64(RelationalCondition cond, RegisterID left, RegisterID right)
{
m_assembler.cmpq_rr(right, left);
return Jump(m_assembler.jCC(x86Condition(cond)));
}
- Jump branchPtr(Condition cond, RegisterID left, ImmPtr right)
+ Jump branch64(RelationalCondition cond, RegisterID left, TrustedImm64 right)
{
+ if (((cond == Equal) || (cond == NotEqual)) && !right.m_value) {
+ m_assembler.testq_rr(left, left);
+ return Jump(m_assembler.jCC(x86Condition(cond)));
+ }
move(right, scratchRegister);
- return branchPtr(cond, left, scratchRegister);
+ return branch64(cond, left, scratchRegister);
}
- Jump branchPtr(Condition cond, RegisterID left, Address right)
+ Jump branch64(RelationalCondition cond, RegisterID left, Address right)
{
m_assembler.cmpq_mr(right.offset, right.base, left);
return Jump(m_assembler.jCC(x86Condition(cond)));
}
- Jump branchPtr(Condition cond, AbsoluteAddress left, RegisterID right)
+ Jump branch64(RelationalCondition cond, AbsoluteAddress left, RegisterID right)
{
- move(ImmPtr(left.m_ptr), scratchRegister);
- return branchPtr(cond, Address(scratchRegister), right);
+ move(TrustedImmPtr(left.m_ptr), scratchRegister);
+ return branch64(cond, Address(scratchRegister), right);
}
- Jump branchPtr(Condition cond, Address left, RegisterID right)
+ Jump branch64(RelationalCondition cond, Address left, RegisterID right)
{
m_assembler.cmpq_rm(right, left.offset, left.base);
return Jump(m_assembler.jCC(x86Condition(cond)));
}
- Jump branchPtr(Condition cond, Address left, ImmPtr right)
+ Jump branch64(RelationalCondition cond, Address left, TrustedImm64 right)
{
move(right, scratchRegister);
- return branchPtr(cond, left, scratchRegister);
+ return branch64(cond, left, scratchRegister);
}
- Jump branchTestPtr(Condition cond, RegisterID reg, RegisterID mask)
+ Jump branchTest64(ResultCondition cond, RegisterID reg, RegisterID mask)
{
m_assembler.testq_rr(reg, mask);
return Jump(m_assembler.jCC(x86Condition(cond)));
}
-
- Jump branchTestPtr(Condition cond, RegisterID reg, Imm32 mask = Imm32(-1))
+
+ Jump branchTest64(ResultCondition cond, RegisterID reg, TrustedImm32 mask = TrustedImm32(-1))
{
// if we are only interested in the low seven bits, this can be tested with a testb
if (mask.m_value == -1)
return Jump(m_assembler.jCC(x86Condition(cond)));
}
- Jump branchTestPtr(Condition cond, Address address, Imm32 mask = Imm32(-1))
+ void test64(ResultCondition cond, RegisterID reg, TrustedImm32 mask, RegisterID dest)
+ {
+ if (mask.m_value == -1)
+ m_assembler.testq_rr(reg, reg);
+ else if ((mask.m_value & ~0x7f) == 0)
+ m_assembler.testb_i8r(mask.m_value, reg);
+ else
+ m_assembler.testq_i32r(mask.m_value, reg);
+ set32(x86Condition(cond), dest);
+ }
+
+ void test64(ResultCondition cond, RegisterID reg, RegisterID mask, RegisterID dest)
+ {
+ m_assembler.testq_rr(reg, mask);
+ set32(x86Condition(cond), dest);
+ }
+
+ Jump branchTest64(ResultCondition cond, AbsoluteAddress address, TrustedImm32 mask = TrustedImm32(-1))
+ {
+ load64(address.m_ptr, scratchRegister);
+ return branchTest64(cond, scratchRegister, mask);
+ }
+
+ Jump branchTest64(ResultCondition cond, Address address, TrustedImm32 mask = TrustedImm32(-1))
{
if (mask.m_value == -1)
m_assembler.cmpq_im(0, address.offset, address.base);
return Jump(m_assembler.jCC(x86Condition(cond)));
}
- Jump branchTestPtr(Condition cond, BaseIndex address, Imm32 mask = Imm32(-1))
+ Jump branchTest64(ResultCondition cond, Address address, RegisterID reg)
+ {
+ m_assembler.testq_rm(reg, address.offset, address.base);
+ return Jump(m_assembler.jCC(x86Condition(cond)));
+ }
+
+ Jump branchTest64(ResultCondition cond, BaseIndex address, TrustedImm32 mask = TrustedImm32(-1))
{
if (mask.m_value == -1)
m_assembler.cmpq_im(0, address.offset, address.base, address.index, address.scale);
}
- Jump branchAddPtr(Condition cond, RegisterID src, RegisterID dest)
+ Jump branchAdd64(ResultCondition cond, TrustedImm32 imm, RegisterID dest)
+ {
+ add64(imm, dest);
+ return Jump(m_assembler.jCC(x86Condition(cond)));
+ }
+
+ Jump branchAdd64(ResultCondition cond, RegisterID src, RegisterID dest)
+ {
+ add64(src, dest);
+ return Jump(m_assembler.jCC(x86Condition(cond)));
+ }
+
+ Jump branchSub64(ResultCondition cond, TrustedImm32 imm, RegisterID dest)
{
- ASSERT((cond == Overflow) || (cond == Zero) || (cond == NonZero));
- addPtr(src, dest);
+ sub64(imm, dest);
return Jump(m_assembler.jCC(x86Condition(cond)));
}
- Jump branchSubPtr(Condition cond, Imm32 imm, RegisterID dest)
+ Jump branchSub64(ResultCondition cond, RegisterID src, RegisterID dest)
{
- ASSERT((cond == Overflow) || (cond == Zero) || (cond == NonZero));
- subPtr(imm, dest);
+ sub64(src, dest);
return Jump(m_assembler.jCC(x86Condition(cond)));
}
- DataLabelPtr moveWithPatch(ImmPtr initialValue, RegisterID dest)
+ Jump branchSub64(ResultCondition cond, RegisterID src1, TrustedImm32 src2, RegisterID dest)
{
+ move(src1, dest);
+ return branchSub64(cond, src2, dest);
+ }
+
+ ConvertibleLoadLabel convertibleLoadPtr(Address address, RegisterID dest)
+ {
+ ConvertibleLoadLabel result = ConvertibleLoadLabel(this);
+ m_assembler.movq_mr(address.offset, address.base, dest);
+ return result;
+ }
+
+ DataLabelPtr moveWithPatch(TrustedImmPtr initialValue, RegisterID dest)
+ {
+ padBeforePatch();
m_assembler.movq_i64r(initialValue.asIntptr(), dest);
return DataLabelPtr(this);
}
- Jump branchPtrWithPatch(Condition cond, RegisterID left, DataLabelPtr& dataLabel, ImmPtr initialRightValue = ImmPtr(0))
+ Jump branchPtrWithPatch(RelationalCondition cond, RegisterID left, DataLabelPtr& dataLabel, TrustedImmPtr initialRightValue = TrustedImmPtr(0))
{
dataLabel = moveWithPatch(initialRightValue, scratchRegister);
- return branchPtr(cond, left, scratchRegister);
+ return branch64(cond, left, scratchRegister);
}
- Jump branchPtrWithPatch(Condition cond, Address left, DataLabelPtr& dataLabel, ImmPtr initialRightValue = ImmPtr(0))
+ Jump branchPtrWithPatch(RelationalCondition cond, Address left, DataLabelPtr& dataLabel, TrustedImmPtr initialRightValue = TrustedImmPtr(0))
{
dataLabel = moveWithPatch(initialRightValue, scratchRegister);
- return branchPtr(cond, left, scratchRegister);
+ return branch64(cond, left, scratchRegister);
}
- DataLabelPtr storePtrWithPatch(ImmPtr initialValue, ImplicitAddress address)
+ DataLabelPtr storePtrWithPatch(TrustedImmPtr initialValue, ImplicitAddress address)
{
DataLabelPtr label = moveWithPatch(initialValue, scratchRegister);
- storePtr(scratchRegister, address);
+ store64(scratchRegister, address);
return label;
}
-
+
using MacroAssemblerX86Common::branchTest8;
- Jump branchTest8(Condition cond, ExtendedAddress address, Imm32 mask = Imm32(-1))
+ Jump branchTest8(ResultCondition cond, ExtendedAddress address, TrustedImm32 mask = TrustedImm32(-1))
{
- ImmPtr addr(reinterpret_cast<void*>(address.offset));
+ TrustedImmPtr addr(reinterpret_cast<void*>(address.offset));
MacroAssemblerX86Common::move(addr, scratchRegister);
return MacroAssemblerX86Common::branchTest8(cond, BaseIndex(scratchRegister, address.base, TimesOne), mask);
}
-
- Label loadPtrWithPatchToLEA(Address address, RegisterID dest)
+
+ Jump branchTest8(ResultCondition cond, AbsoluteAddress address, TrustedImm32 mask = TrustedImm32(-1))
{
- Label label(this);
- loadPtr(address, dest);
- return label;
+ MacroAssemblerX86Common::move(TrustedImmPtr(address.m_ptr), scratchRegister);
+ return MacroAssemblerX86Common::branchTest8(cond, Address(scratchRegister), mask);
}
- bool supportsFloatingPoint() const { return true; }
+ static bool supportsFloatingPoint() { return true; }
// See comment on MacroAssemblerARMv7::supportsFloatingPointTruncate()
- bool supportsFloatingPointTruncate() const { return true; }
- bool supportsFloatingPointSqrt() const { return true; }
+ static bool supportsFloatingPointTruncate() { return true; }
+ static bool supportsFloatingPointSqrt() { return true; }
+ static bool supportsFloatingPointAbs() { return true; }
+
+ static FunctionPtr readCallTarget(CodeLocationCall call)
+ {
+ return FunctionPtr(X86Assembler::readPointer(call.dataLabelPtrAtOffset(-REPTACH_OFFSET_CALL_R11).dataLocation()));
+ }
+
+ static RegisterID scratchRegisterForBlinding() { return scratchRegister; }
+
+ static bool canJumpReplacePatchableBranchPtrWithPatch() { return true; }
+
+ static CodeLocationLabel startOfBranchPtrWithPatchOnRegister(CodeLocationDataLabelPtr label)
+ {
+ const int rexBytes = 1;
+ const int opcodeBytes = 1;
+ const int immediateBytes = 8;
+ const int totalBytes = rexBytes + opcodeBytes + immediateBytes;
+ ASSERT(totalBytes >= maxJumpReplacementSize());
+ return label.labelAtOffset(-totalBytes);
+ }
+
+ static CodeLocationLabel startOfPatchableBranchPtrWithPatchOnAddress(CodeLocationDataLabelPtr label)
+ {
+ return startOfBranchPtrWithPatchOnRegister(label);
+ }
+
+ static void revertJumpReplacementToPatchableBranchPtrWithPatch(CodeLocationLabel instructionStart, Address, void* initialValue)
+ {
+ X86Assembler::revertJumpTo_movq_i64r(instructionStart.executableAddress(), reinterpret_cast<intptr_t>(initialValue), scratchRegister);
+ }
+
+ static void revertJumpReplacementToBranchPtrWithPatch(CodeLocationLabel instructionStart, RegisterID, void* initialValue)
+ {
+ X86Assembler::revertJumpTo_movq_i64r(instructionStart.executableAddress(), reinterpret_cast<intptr_t>(initialValue), scratchRegister);
+ }
private:
friend class LinkBuffer;
static void linkCall(void* code, Call call, FunctionPtr function)
{
if (!call.isFlagSet(Call::Near))
- X86Assembler::linkPointer(code, X86Assembler::labelFor(call.m_jmp, -REPTACH_OFFSET_CALL_R11), function.value());
+ X86Assembler::linkPointer(code, call.m_label.labelAtOffset(-REPTACH_OFFSET_CALL_R11), function.value());
else
- X86Assembler::linkCall(code, call.m_jmp, function.value());
+ X86Assembler::linkCall(code, call.m_label, function.value());
}
static void repatchCall(CodeLocationCall call, CodeLocationLabel destination)
projects / apple / javascriptcore.git / blobdiff