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diff --git a/js/src/jit/arm64/MacroAssembler-arm64.h b/js/src/jit/arm64/MacroAssembler-arm64.h
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+++ b/js/src/jit/arm64/MacroAssembler-arm64.h
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+/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
+ * vim: set ts=8 sts=2 et sw=2 tw=80:
+ * This Source Code Form is subject to the terms of the Mozilla Public
+ * License, v. 2.0. If a copy of the MPL was not distributed with this
+ * file, You can obtain one at http://mozilla.org/MPL/2.0/. */
+
+#ifndef jit_arm64_MacroAssembler_arm64_h
+#define jit_arm64_MacroAssembler_arm64_h
+
+#include "jit/arm64/Assembler-arm64.h"
+#include "jit/arm64/vixl/Debugger-vixl.h"
+#include "jit/arm64/vixl/MacroAssembler-vixl.h"
+#include "jit/AtomicOp.h"
+#include "jit/MoveResolver.h"
+#include "vm/BigIntType.h" // JS::BigInt
+#include "wasm/WasmTypes.h"
+
+#ifdef _M_ARM64
+# ifdef move32
+# undef move32
+# endif
+# ifdef move64
+# undef move64
+# endif
+#endif
+
+namespace js {
+namespace jit {
+
+// Import VIXL operands directly into the jit namespace for shared code.
+using vixl::MemOperand;
+using vixl::Operand;
+
+struct ImmShiftedTag : public ImmWord {
+ explicit ImmShiftedTag(JSValueShiftedTag shtag) : ImmWord((uintptr_t)shtag) {}
+
+ explicit ImmShiftedTag(JSValueType type)
+ : ImmWord(uintptr_t(JSValueShiftedTag(JSVAL_TYPE_TO_SHIFTED_TAG(type)))) {
+ }
+};
+
+struct ImmTag : public Imm32 {
+ explicit ImmTag(JSValueTag tag) : Imm32(tag) {}
+};
+
+class ScratchTagScope;
+
+class MacroAssemblerCompat : public vixl::MacroAssembler {
+ public:
+ typedef vixl::Condition Condition;
+
+ private:
+ // Perform a downcast. Should be removed by Bug 996602.
+ js::jit::MacroAssembler& asMasm();
+ const js::jit::MacroAssembler& asMasm() const;
+
+ public:
+ // Restrict to only VIXL-internal functions.
+ vixl::MacroAssembler& asVIXL();
+ const MacroAssembler& asVIXL() const;
+
+ protected:
+ bool enoughMemory_;
+ uint32_t framePushed_;
+
+ MacroAssemblerCompat()
+ : vixl::MacroAssembler(), enoughMemory_(true), framePushed_(0) {}
+
+ protected:
+ MoveResolver moveResolver_;
+
+ public:
+ bool oom() const { return Assembler::oom() || !enoughMemory_; }
+ static ARMRegister toARMRegister(RegisterOrSP r, size_t size) {
+ if (IsHiddenSP(r)) {
+ MOZ_ASSERT(size == 64);
+ return sp;
+ }
+ return ARMRegister(AsRegister(r), size);
+ }
+ static MemOperand toMemOperand(const Address& a) {
+ return MemOperand(toARMRegister(a.base, 64), a.offset);
+ }
+ void doBaseIndex(const vixl::CPURegister& rt, const BaseIndex& addr,
+ vixl::LoadStoreOp op) {
+ const ARMRegister base = toARMRegister(addr.base, 64);
+ const ARMRegister index = ARMRegister(addr.index, 64);
+ const unsigned scale = addr.scale;
+
+ if (!addr.offset &&
+ (!scale || scale == static_cast<unsigned>(CalcLSDataSize(op)))) {
+ LoadStoreMacro(rt, MemOperand(base, index, vixl::LSL, scale), op);
+ return;
+ }
+
+ vixl::UseScratchRegisterScope temps(this);
+ ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(!scratch64.Is(rt));
+ MOZ_ASSERT(!scratch64.Is(base));
+ MOZ_ASSERT(!scratch64.Is(index));
+
+ Add(scratch64, base, Operand(index, vixl::LSL, scale));
+ LoadStoreMacro(rt, MemOperand(scratch64, addr.offset), op);
+ }
+ void Push(ARMRegister reg) {
+ push(reg);
+ adjustFrame(reg.size() / 8);
+ }
+ void Push(Register reg) {
+ vixl::MacroAssembler::Push(ARMRegister(reg, 64));
+ adjustFrame(8);
+ }
+ void Push(Imm32 imm) {
+ push(imm);
+ adjustFrame(8);
+ }
+ void Push(FloatRegister f) {
+ push(ARMFPRegister(f, 64));
+ adjustFrame(8);
+ }
+ void Push(ImmPtr imm) {
+ push(imm);
+ adjustFrame(sizeof(void*));
+ }
+ void push(FloatRegister f) {
+ vixl::MacroAssembler::Push(ARMFPRegister(f, 64));
+ }
+ void push(ARMFPRegister f) { vixl::MacroAssembler::Push(f); }
+ void push(Imm32 imm) {
+ if (imm.value == 0) {
+ vixl::MacroAssembler::Push(vixl::xzr);
+ } else {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ move32(imm, scratch64.asUnsized());
+ vixl::MacroAssembler::Push(scratch64);
+ }
+ }
+ void push(ImmWord imm) {
+ if (imm.value == 0) {
+ vixl::MacroAssembler::Push(vixl::xzr);
+ } else {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ Mov(scratch64, imm.value);
+ vixl::MacroAssembler::Push(scratch64);
+ }
+ }
+ void push(ImmPtr imm) {
+ if (imm.value == nullptr) {
+ vixl::MacroAssembler::Push(vixl::xzr);
+ } else {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ movePtr(imm, scratch64.asUnsized());
+ vixl::MacroAssembler::Push(scratch64);
+ }
+ }
+ void push(ImmGCPtr imm) {
+ if (imm.value == nullptr) {
+ vixl::MacroAssembler::Push(vixl::xzr);
+ } else {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ movePtr(imm, scratch64.asUnsized());
+ vixl::MacroAssembler::Push(scratch64);
+ }
+ }
+ void push(ARMRegister reg) { vixl::MacroAssembler::Push(reg); }
+ void push(Address a) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(a.base != scratch64.asUnsized());
+ loadPtr(a, scratch64.asUnsized());
+ vixl::MacroAssembler::Push(scratch64);
+ }
+
+ // Push registers.
+ void push(Register reg) { vixl::MacroAssembler::Push(ARMRegister(reg, 64)); }
+ void push(RegisterOrSP reg) {
+ if (IsHiddenSP(reg)) {
+ vixl::MacroAssembler::Push(sp);
+ }
+ vixl::MacroAssembler::Push(toARMRegister(reg, 64));
+ }
+ void push(Register r0, Register r1) {
+ vixl::MacroAssembler::Push(ARMRegister(r0, 64), ARMRegister(r1, 64));
+ }
+ void push(Register r0, Register r1, Register r2) {
+ vixl::MacroAssembler::Push(ARMRegister(r0, 64), ARMRegister(r1, 64),
+ ARMRegister(r2, 64));
+ }
+ void push(Register r0, Register r1, Register r2, Register r3) {
+ vixl::MacroAssembler::Push(ARMRegister(r0, 64), ARMRegister(r1, 64),
+ ARMRegister(r2, 64), ARMRegister(r3, 64));
+ }
+ void push(ARMFPRegister r0, ARMFPRegister r1, ARMFPRegister r2,
+ ARMFPRegister r3) {
+ vixl::MacroAssembler::Push(r0, r1, r2, r3);
+ }
+
+ // Pop registers.
+ void pop(Register reg) { vixl::MacroAssembler::Pop(ARMRegister(reg, 64)); }
+ void pop(Register r0, Register r1) {
+ vixl::MacroAssembler::Pop(ARMRegister(r0, 64), ARMRegister(r1, 64));
+ }
+ void pop(Register r0, Register r1, Register r2) {
+ vixl::MacroAssembler::Pop(ARMRegister(r0, 64), ARMRegister(r1, 64),
+ ARMRegister(r2, 64));
+ }
+ void pop(Register r0, Register r1, Register r2, Register r3) {
+ vixl::MacroAssembler::Pop(ARMRegister(r0, 64), ARMRegister(r1, 64),
+ ARMRegister(r2, 64), ARMRegister(r3, 64));
+ }
+ void pop(ARMFPRegister r0, ARMFPRegister r1, ARMFPRegister r2,
+ ARMFPRegister r3) {
+ vixl::MacroAssembler::Pop(r0, r1, r2, r3);
+ }
+
+ void pop(const ValueOperand& v) { pop(v.valueReg()); }
+ void pop(const FloatRegister& f) {
+ vixl::MacroAssembler::Pop(ARMFPRegister(f, 64));
+ }
+
+ void implicitPop(uint32_t args) {
+ MOZ_ASSERT(args % sizeof(intptr_t) == 0);
+ adjustFrame(0 - args);
+ }
+ void Pop(ARMRegister r) {
+ vixl::MacroAssembler::Pop(r);
+ adjustFrame(0 - r.size() / 8);
+ }
+ // FIXME: This is the same on every arch.
+ // FIXME: If we can share framePushed_, we can share this.
+ // FIXME: Or just make it at the highest level.
+ CodeOffset PushWithPatch(ImmWord word) {
+ framePushed_ += sizeof(word.value);
+ return pushWithPatch(word);
+ }
+ CodeOffset PushWithPatch(ImmPtr ptr) {
+ return PushWithPatch(ImmWord(uintptr_t(ptr.value)));
+ }
+
+ uint32_t framePushed() const { return framePushed_; }
+ void adjustFrame(int32_t diff) { setFramePushed(framePushed_ + diff); }
+
+ void setFramePushed(uint32_t framePushed) { framePushed_ = framePushed; }
+
+ void freeStack(Register amount) {
+ vixl::MacroAssembler::Drop(Operand(ARMRegister(amount, 64)));
+ }
+
+#ifdef ENABLE_WASM_SIMD
+ void PushRegsInMaskForWasmStubs(LiveRegisterSet set);
+ void PopRegsInMaskForWasmStubs(LiveRegisterSet set, LiveRegisterSet ignore);
+#endif
+
+ // Update sp with the value of the current active stack pointer, if necessary.
+ void syncStackPtr() {
+ if (!GetStackPointer64().Is(vixl::sp)) {
+ Mov(vixl::sp, GetStackPointer64());
+ }
+ }
+ void initPseudoStackPtr() {
+ if (!GetStackPointer64().Is(vixl::sp)) {
+ Mov(GetStackPointer64(), vixl::sp);
+ }
+ }
+ void storeValue(ValueOperand val, const Address& dest) {
+ storePtr(val.valueReg(), dest);
+ }
+
+ template <typename T>
+ void storeValue(JSValueType type, Register reg, const T& dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != reg);
+ tagValue(type, reg, ValueOperand(scratch));
+ storeValue(ValueOperand(scratch), dest);
+ }
+ template <typename T>
+ void storeValue(const Value& val, const T& dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ moveValue(val, ValueOperand(scratch));
+ storeValue(ValueOperand(scratch), dest);
+ }
+ void storeValue(ValueOperand val, BaseIndex dest) {
+ storePtr(val.valueReg(), dest);
+ }
+ void storeValue(const Address& src, const Address& dest, Register temp) {
+ loadPtr(src, temp);
+ storePtr(temp, dest);
+ }
+
+ void loadValue(Address src, Register val) {
+ Ldr(ARMRegister(val, 64), MemOperand(src));
+ }
+ void loadValue(Address src, ValueOperand val) {
+ Ldr(ARMRegister(val.valueReg(), 64), MemOperand(src));
+ }
+ void loadValue(const BaseIndex& src, ValueOperand val) {
+ doBaseIndex(ARMRegister(val.valueReg(), 64), src, vixl::LDR_x);
+ }
+ void loadUnalignedValue(const Address& src, ValueOperand dest) {
+ loadValue(src, dest);
+ }
+ void tagValue(JSValueType type, Register payload, ValueOperand dest) {
+ // This could be cleverer, but the first attempt had bugs.
+ Orr(ARMRegister(dest.valueReg(), 64), ARMRegister(payload, 64),
+ Operand(ImmShiftedTag(type).value));
+ }
+ void pushValue(ValueOperand val) {
+ vixl::MacroAssembler::Push(ARMRegister(val.valueReg(), 64));
+ }
+ void popValue(ValueOperand val) {
+ vixl::MacroAssembler::Pop(ARMRegister(val.valueReg(), 64));
+ }
+ void pushValue(const Value& val) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ if (val.isGCThing()) {
+ BufferOffset load =
+ movePatchablePtr(ImmPtr(val.bitsAsPunboxPointer()), scratch);
+ writeDataRelocation(val, load);
+ push(scratch);
+ } else {
+ moveValue(val, scratch);
+ push(scratch);
+ }
+ }
+ void pushValue(JSValueType type, Register reg) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != reg);
+ tagValue(type, reg, ValueOperand(scratch));
+ push(scratch);
+ }
+ void pushValue(const Address& addr) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != addr.base);
+ loadValue(addr, scratch);
+ push(scratch);
+ }
+ template <typename T>
+ void storeUnboxedPayload(ValueOperand value, T address, size_t nbytes,
+ JSValueType type) {
+ switch (nbytes) {
+ case 8: {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ if (type == JSVAL_TYPE_OBJECT) {
+ unboxObjectOrNull(value, scratch);
+ } else {
+ unboxNonDouble(value, scratch, type);
+ }
+ storePtr(scratch, address);
+ return;
+ }
+ case 4:
+ store32(value.valueReg(), address);
+ return;
+ case 1:
+ store8(value.valueReg(), address);
+ return;
+ default:
+ MOZ_CRASH("Bad payload width");
+ }
+ }
+ void moveValue(const Value& val, Register dest) {
+ if (val.isGCThing()) {
+ BufferOffset load =
+ movePatchablePtr(ImmPtr(val.bitsAsPunboxPointer()), dest);
+ writeDataRelocation(val, load);
+ } else {
+ movePtr(ImmWord(val.asRawBits()), dest);
+ }
+ }
+ void moveValue(const Value& src, const ValueOperand& dest) {
+ moveValue(src, dest.valueReg());
+ }
+
+ CodeOffset pushWithPatch(ImmWord imm) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ CodeOffset label = movWithPatch(imm, scratch);
+ push(scratch);
+ return label;
+ }
+
+ CodeOffset movWithPatch(ImmWord imm, Register dest) {
+ BufferOffset off = immPool64(ARMRegister(dest, 64), imm.value);
+ return CodeOffset(off.getOffset());
+ }
+ CodeOffset movWithPatch(ImmPtr imm, Register dest) {
+ BufferOffset off = immPool64(ARMRegister(dest, 64), uint64_t(imm.value));
+ return CodeOffset(off.getOffset());
+ }
+
+ void boxValue(JSValueType type, Register src, Register dest);
+
+ void splitSignExtTag(Register src, Register dest) {
+ sbfx(ARMRegister(dest, 64), ARMRegister(src, 64), JSVAL_TAG_SHIFT,
+ (64 - JSVAL_TAG_SHIFT));
+ }
+ [[nodiscard]] Register extractTag(const Address& address, Register scratch) {
+ loadPtr(address, scratch);
+ splitSignExtTag(scratch, scratch);
+ return scratch;
+ }
+ [[nodiscard]] Register extractTag(const ValueOperand& value,
+ Register scratch) {
+ splitSignExtTag(value.valueReg(), scratch);
+ return scratch;
+ }
+ [[nodiscard]] Register extractObject(const Address& address,
+ Register scratch) {
+ loadPtr(address, scratch);
+ unboxObject(scratch, scratch);
+ return scratch;
+ }
+ [[nodiscard]] Register extractObject(const ValueOperand& value,
+ Register scratch) {
+ unboxObject(value, scratch);
+ return scratch;
+ }
+ [[nodiscard]] Register extractSymbol(const ValueOperand& value,
+ Register scratch) {
+ unboxSymbol(value, scratch);
+ return scratch;
+ }
+ [[nodiscard]] Register extractInt32(const ValueOperand& value,
+ Register scratch) {
+ unboxInt32(value, scratch);
+ return scratch;
+ }
+ [[nodiscard]] Register extractBoolean(const ValueOperand& value,
+ Register scratch) {
+ unboxBoolean(value, scratch);
+ return scratch;
+ }
+
+ inline void ensureDouble(const ValueOperand& source, FloatRegister dest,
+ Label* failure);
+
+ void emitSet(Condition cond, Register dest) {
+ Cset(ARMRegister(dest, 64), cond);
+ }
+
+ void testNullSet(Condition cond, const ValueOperand& value, Register dest) {
+ cond = testNull(cond, value);
+ emitSet(cond, dest);
+ }
+ void testObjectSet(Condition cond, const ValueOperand& value, Register dest) {
+ cond = testObject(cond, value);
+ emitSet(cond, dest);
+ }
+ void testUndefinedSet(Condition cond, const ValueOperand& value,
+ Register dest) {
+ cond = testUndefined(cond, value);
+ emitSet(cond, dest);
+ }
+
+ void convertBoolToInt32(Register source, Register dest) {
+ Uxtb(ARMRegister(dest, 64), ARMRegister(source, 64));
+ }
+
+ void convertInt32ToDouble(Register src, FloatRegister dest) {
+ Scvtf(ARMFPRegister(dest, 64),
+ ARMRegister(src, 32)); // Uses FPCR rounding mode.
+ }
+ void convertInt32ToDouble(const Address& src, FloatRegister dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != src.base);
+ load32(src, scratch);
+ convertInt32ToDouble(scratch, dest);
+ }
+ void convertInt32ToDouble(const BaseIndex& src, FloatRegister dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != src.base);
+ MOZ_ASSERT(scratch != src.index);
+ load32(src, scratch);
+ convertInt32ToDouble(scratch, dest);
+ }
+
+ void convertInt32ToFloat32(Register src, FloatRegister dest) {
+ Scvtf(ARMFPRegister(dest, 32),
+ ARMRegister(src, 32)); // Uses FPCR rounding mode.
+ }
+ void convertInt32ToFloat32(const Address& src, FloatRegister dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != src.base);
+ load32(src, scratch);
+ convertInt32ToFloat32(scratch, dest);
+ }
+
+ void convertUInt32ToDouble(Register src, FloatRegister dest) {
+ Ucvtf(ARMFPRegister(dest, 64),
+ ARMRegister(src, 32)); // Uses FPCR rounding mode.
+ }
+ void convertUInt32ToDouble(const Address& src, FloatRegister dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != src.base);
+ load32(src, scratch);
+ convertUInt32ToDouble(scratch, dest);
+ }
+
+ void convertUInt32ToFloat32(Register src, FloatRegister dest) {
+ Ucvtf(ARMFPRegister(dest, 32),
+ ARMRegister(src, 32)); // Uses FPCR rounding mode.
+ }
+ void convertUInt32ToFloat32(const Address& src, FloatRegister dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != src.base);
+ load32(src, scratch);
+ convertUInt32ToFloat32(scratch, dest);
+ }
+
+ void convertFloat32ToDouble(FloatRegister src, FloatRegister dest) {
+ Fcvt(ARMFPRegister(dest, 64), ARMFPRegister(src, 32));
+ }
+ void convertDoubleToFloat32(FloatRegister src, FloatRegister dest) {
+ Fcvt(ARMFPRegister(dest, 32), ARMFPRegister(src, 64));
+ }
+
+ using vixl::MacroAssembler::B;
+
+ void convertDoubleToInt32(FloatRegister src, Register dest, Label* fail,
+ bool negativeZeroCheck = true) {
+ ARMFPRegister fsrc64(src, 64);
+ ARMRegister dest32(dest, 32);
+
+ // ARMv8.3 chips support the FJCVTZS instruction, which handles
+ // exactly this logic.
+ if (CPUHas(vixl::CPUFeatures::kFP, vixl::CPUFeatures::kJSCVT)) {
+ // Convert double to integer, rounding toward zero.
+ // The Z-flag is set iff the conversion is exact. -0 unsets the Z-flag.
+ Fjcvtzs(dest32, fsrc64);
+
+ if (negativeZeroCheck) {
+ B(fail, Assembler::NonZero);
+ } else {
+ Label done;
+ B(&done, Assembler::Zero); // If conversion was exact, go to end.
+
+ // The conversion was inexact, but the caller intends to allow -0.
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMFPRegister scratch64 = temps.AcquireD();
+ MOZ_ASSERT(!scratch64.Is(fsrc64));
+
+ // Compare fsrc64 to 0.
+ // If fsrc64 == 0 and FJCVTZS conversion was inexact, then fsrc64 is -0.
+ Fmov(scratch64, xzr);
+ Fcmp(scratch64, fsrc64);
+ B(fail, Assembler::NotEqual); // Pass through -0; fail otherwise.
+
+ bind(&done);
+ }
+ } else {
+ // Older processors use a significantly slower path.
+ ARMRegister dest64(dest, 64);
+
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMFPRegister scratch64 = temps.AcquireD();
+ MOZ_ASSERT(!scratch64.Is(fsrc64));
+
+ Fcvtzs(dest32, fsrc64); // Convert, rounding toward zero.
+ Scvtf(scratch64, dest32); // Convert back, using FPCR rounding mode.
+ Fcmp(scratch64, fsrc64);
+ B(fail, Assembler::NotEqual);
+
+ if (negativeZeroCheck) {
+ Label nonzero;
+ Cbnz(dest32, &nonzero);
+ Fmov(dest64, fsrc64);
+ Cbnz(dest64, fail);
+ bind(&nonzero);
+ }
+ }
+ }
+ void convertFloat32ToInt32(FloatRegister src, Register dest, Label* fail,
+ bool negativeZeroCheck = true) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMFPRegister scratch32 = temps.AcquireS();
+
+ ARMFPRegister fsrc(src, 32);
+ ARMRegister dest32(dest, 32);
+ ARMRegister dest64(dest, 64);
+
+ MOZ_ASSERT(!scratch32.Is(fsrc));
+
+ Fcvtzs(dest64, fsrc); // Convert, rounding toward zero.
+ Scvtf(scratch32, dest32); // Convert back, using FPCR rounding mode.
+ Fcmp(scratch32, fsrc);
+ B(fail, Assembler::NotEqual);
+
+ if (negativeZeroCheck) {
+ Label nonzero;
+ Cbnz(dest32, &nonzero);
+ Fmov(dest32, fsrc);
+ Cbnz(dest32, fail);
+ bind(&nonzero);
+ }
+ And(dest64, dest64, Operand(0xffffffff));
+ }
+
+ void convertDoubleToPtr(FloatRegister src, Register dest, Label* fail,
+ bool negativeZeroCheck = true) {
+ ARMFPRegister fsrc64(src, 64);
+ ARMRegister dest64(dest, 64);
+
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMFPRegister scratch64 = temps.AcquireD();
+ MOZ_ASSERT(!scratch64.Is(fsrc64));
+
+ // Note: we can't use the FJCVTZS instruction here because that only works
+ // for 32-bit values.
+
+ Fcvtzs(dest64, fsrc64); // Convert, rounding toward zero.
+ Scvtf(scratch64, dest64); // Convert back, using FPCR rounding mode.
+ Fcmp(scratch64, fsrc64);
+ B(fail, Assembler::NotEqual);
+
+ if (negativeZeroCheck) {
+ Label nonzero;
+ Cbnz(dest64, &nonzero);
+ Fmov(dest64, fsrc64);
+ Cbnz(dest64, fail);
+ bind(&nonzero);
+ }
+ }
+
+ void floor(FloatRegister input, Register output, Label* bail) {
+ Label handleZero;
+ // Label handleNeg;
+ Label fin;
+ ARMFPRegister iDbl(input, 64);
+ ARMRegister o64(output, 64);
+ ARMRegister o32(output, 32);
+ Fcmp(iDbl, 0.0);
+ B(Assembler::Equal, &handleZero);
+ // B(Assembler::Signed, &handleNeg);
+ // NaN is always a bail condition, just bail directly.
+ B(Assembler::Overflow, bail);
+ Fcvtms(o64, iDbl);
+ Cmp(o64, Operand(o64, vixl::SXTW));
+ B(NotEqual, bail);
+ Mov(o32, o32);
+ B(&fin);
+
+ bind(&handleZero);
+ // Move the top word of the double into the output reg, if it is non-zero,
+ // then the original value was -0.0.
+ Fmov(o64, iDbl);
+ Cbnz(o64, bail);
+ bind(&fin);
+ }
+
+ void floorf(FloatRegister input, Register output, Label* bail) {
+ Label handleZero;
+ // Label handleNeg;
+ Label fin;
+ ARMFPRegister iFlt(input, 32);
+ ARMRegister o64(output, 64);
+ ARMRegister o32(output, 32);
+ Fcmp(iFlt, 0.0);
+ B(Assembler::Equal, &handleZero);
+ // B(Assembler::Signed, &handleNeg);
+ // NaN is always a bail condition, just bail directly.
+ B(Assembler::Overflow, bail);
+ Fcvtms(o64, iFlt);
+ Cmp(o64, Operand(o64, vixl::SXTW));
+ B(NotEqual, bail);
+ Mov(o32, o32);
+ B(&fin);
+
+ bind(&handleZero);
+ // Move the top word of the double into the output reg, if it is non-zero,
+ // then the original value was -0.0.
+ Fmov(o32, iFlt);
+ Cbnz(o32, bail);
+ bind(&fin);
+ }
+
+ void ceil(FloatRegister input, Register output, Label* bail) {
+ Label handleZero;
+ Label fin;
+ ARMFPRegister iDbl(input, 64);
+ ARMRegister o64(output, 64);
+ ARMRegister o32(output, 32);
+ Fcmp(iDbl, 0.0);
+ B(Assembler::Overflow, bail);
+ Fcvtps(o64, iDbl);
+ Cmp(o64, Operand(o64, vixl::SXTW));
+ B(NotEqual, bail);
+ Cbz(o64, &handleZero);
+ Mov(o32, o32);
+ B(&fin);
+
+ bind(&handleZero);
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch = temps.AcquireX();
+ Fmov(scratch, iDbl);
+ Cbnz(scratch, bail);
+ bind(&fin);
+ }
+
+ void ceilf(FloatRegister input, Register output, Label* bail) {
+ Label handleZero;
+ Label fin;
+ ARMFPRegister iFlt(input, 32);
+ ARMRegister o64(output, 64);
+ ARMRegister o32(output, 32);
+ Fcmp(iFlt, 0.0);
+
+ // NaN is always a bail condition, just bail directly.
+ B(Assembler::Overflow, bail);
+ Fcvtps(o64, iFlt);
+ Cmp(o64, Operand(o64, vixl::SXTW));
+ B(NotEqual, bail);
+ Cbz(o64, &handleZero);
+ Mov(o32, o32);
+ B(&fin);
+
+ bind(&handleZero);
+ // Move the top word of the double into the output reg, if it is non-zero,
+ // then the original value was -0.0.
+ Fmov(o32, iFlt);
+ Cbnz(o32, bail);
+ bind(&fin);
+ }
+
+ void jump(Label* label) { B(label); }
+ void jump(JitCode* code) { branch(code); }
+ void jump(ImmPtr ptr) {
+ syncStackPtr();
+ BufferOffset loc =
+ b(-1,
+ LabelDoc()); // The jump target will be patched by executableCopy().
+ addPendingJump(loc, ptr, RelocationKind::HARDCODED);
+ }
+ void jump(TrampolinePtr code) { jump(ImmPtr(code.value)); }
+ void jump(Register reg) { Br(ARMRegister(reg, 64)); }
+ void jump(const Address& addr) {
+ vixl::UseScratchRegisterScope temps(this);
+ MOZ_ASSERT(temps.IsAvailable(ScratchReg64)); // ip0
+ temps.Exclude(ScratchReg64);
+ MOZ_ASSERT(addr.base != ScratchReg64.asUnsized());
+ loadPtr(addr, ScratchReg64.asUnsized());
+ br(ScratchReg64);
+ }
+
+ void align(int alignment) { armbuffer_.align(alignment); }
+
+ void haltingAlign(int alignment) {
+ armbuffer_.align(alignment, vixl::HLT | ImmException(0xBAAD));
+ }
+ void nopAlign(int alignment) { armbuffer_.align(alignment); }
+
+ void movePtr(Register src, Register dest) {
+ Mov(ARMRegister(dest, 64), ARMRegister(src, 64));
+ }
+ void movePtr(ImmWord imm, Register dest) {
+ Mov(ARMRegister(dest, 64), int64_t(imm.value));
+ }
+ void movePtr(ImmPtr imm, Register dest) {
+ Mov(ARMRegister(dest, 64), int64_t(imm.value));
+ }
+ void movePtr(wasm::SymbolicAddress imm, Register dest) {
+ BufferOffset off = movePatchablePtr(ImmWord(0xffffffffffffffffULL), dest);
+ append(wasm::SymbolicAccess(CodeOffset(off.getOffset()), imm));
+ }
+ void movePtr(ImmGCPtr imm, Register dest) {
+ BufferOffset load = movePatchablePtr(ImmPtr(imm.value), dest);
+ writeDataRelocation(imm, load);
+ }
+
+ void mov(ImmWord imm, Register dest) { movePtr(imm, dest); }
+ void mov(ImmPtr imm, Register dest) { movePtr(imm, dest); }
+ void mov(wasm::SymbolicAddress imm, Register dest) { movePtr(imm, dest); }
+ void mov(Register src, Register dest) { movePtr(src, dest); }
+ void mov(CodeLabel* label, Register dest);
+
+ void move32(Imm32 imm, Register dest) {
+ Mov(ARMRegister(dest, 32), (int64_t)imm.value);
+ }
+ void move32(Register src, Register dest) {
+ Mov(ARMRegister(dest, 32), ARMRegister(src, 32));
+ }
+
+ // Move a pointer using a literal pool, so that the pointer
+ // may be easily patched or traced.
+ // Returns the BufferOffset of the load instruction emitted.
+ BufferOffset movePatchablePtr(ImmWord ptr, Register dest);
+ BufferOffset movePatchablePtr(ImmPtr ptr, Register dest);
+
+ void loadPtr(wasm::SymbolicAddress address, Register dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch = temps.AcquireX();
+ movePtr(address, scratch.asUnsized());
+ Ldr(ARMRegister(dest, 64), MemOperand(scratch));
+ }
+ void loadPtr(AbsoluteAddress address, Register dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch = temps.AcquireX();
+ movePtr(ImmWord((uintptr_t)address.addr), scratch.asUnsized());
+ Ldr(ARMRegister(dest, 64), MemOperand(scratch));
+ }
+ void loadPtr(const Address& address, Register dest) {
+ Ldr(ARMRegister(dest, 64), MemOperand(address));
+ }
+ void loadPtr(const BaseIndex& src, Register dest) {
+ ARMRegister base = toARMRegister(src.base, 64);
+ uint32_t scale = Imm32::ShiftOf(src.scale).value;
+ ARMRegister dest64(dest, 64);
+ ARMRegister index64(src.index, 64);
+
+ if (src.offset) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch = temps.AcquireX();
+ MOZ_ASSERT(!scratch.Is(base));
+ MOZ_ASSERT(!scratch.Is(dest64));
+ MOZ_ASSERT(!scratch.Is(index64));
+
+ Add(scratch, base, Operand(int64_t(src.offset)));
+ Ldr(dest64, MemOperand(scratch, index64, vixl::LSL, scale));
+ return;
+ }
+
+ Ldr(dest64, MemOperand(base, index64, vixl::LSL, scale));
+ }
+ void loadPrivate(const Address& src, Register dest);
+
+ void store8(Register src, const Address& address) {
+ Strb(ARMRegister(src, 32), toMemOperand(address));
+ }
+ void store8(Imm32 imm, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != address.base);
+ move32(imm, scratch32.asUnsized());
+ Strb(scratch32, toMemOperand(address));
+ }
+ void store8(Register src, const BaseIndex& address) {
+ doBaseIndex(ARMRegister(src, 32), address, vixl::STRB_w);
+ }
+ void store8(Imm32 imm, const BaseIndex& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != address.base);
+ MOZ_ASSERT(scratch32.asUnsized() != address.index);
+ Mov(scratch32, Operand(imm.value));
+ doBaseIndex(scratch32, address, vixl::STRB_w);
+ }
+
+ void store16(Register src, const Address& address) {
+ Strh(ARMRegister(src, 32), toMemOperand(address));
+ }
+ void store16(Imm32 imm, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != address.base);
+ move32(imm, scratch32.asUnsized());
+ Strh(scratch32, toMemOperand(address));
+ }
+ void store16(Register src, const BaseIndex& address) {
+ doBaseIndex(ARMRegister(src, 32), address, vixl::STRH_w);
+ }
+ void store16(Imm32 imm, const BaseIndex& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != address.base);
+ MOZ_ASSERT(scratch32.asUnsized() != address.index);
+ Mov(scratch32, Operand(imm.value));
+ doBaseIndex(scratch32, address, vixl::STRH_w);
+ }
+ template <typename S, typename T>
+ void store16Unaligned(const S& src, const T& dest) {
+ store16(src, dest);
+ }
+
+ void storePtr(ImmWord imm, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != address.base);
+ movePtr(imm, scratch);
+ storePtr(scratch, address);
+ }
+ void storePtr(ImmPtr imm, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != address.base);
+ Mov(scratch64, uint64_t(imm.value));
+ Str(scratch64, toMemOperand(address));
+ }
+ void storePtr(ImmGCPtr imm, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != address.base);
+ movePtr(imm, scratch);
+ storePtr(scratch, address);
+ }
+ void storePtr(Register src, const Address& address) {
+ Str(ARMRegister(src, 64), toMemOperand(address));
+ }
+
+ void storePtr(ImmWord imm, const BaseIndex& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != address.base);
+ MOZ_ASSERT(scratch64.asUnsized() != address.index);
+ Mov(scratch64, Operand(imm.value));
+ doBaseIndex(scratch64, address, vixl::STR_x);
+ }
+ void storePtr(ImmGCPtr imm, const BaseIndex& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != address.base);
+ MOZ_ASSERT(scratch != address.index);
+ movePtr(imm, scratch);
+ doBaseIndex(ARMRegister(scratch, 64), address, vixl::STR_x);
+ }
+ void storePtr(Register src, const BaseIndex& address) {
+ doBaseIndex(ARMRegister(src, 64), address, vixl::STR_x);
+ }
+
+ void storePtr(Register src, AbsoluteAddress address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ Mov(scratch64, uint64_t(address.addr));
+ Str(ARMRegister(src, 64), MemOperand(scratch64));
+ }
+
+ void store32(Register src, AbsoluteAddress address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ Mov(scratch64, uint64_t(address.addr));
+ Str(ARMRegister(src, 32), MemOperand(scratch64));
+ }
+ void store32(Imm32 imm, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != address.base);
+ Mov(scratch32, uint64_t(imm.value));
+ Str(scratch32, toMemOperand(address));
+ }
+ void store32(Register r, const Address& address) {
+ Str(ARMRegister(r, 32), toMemOperand(address));
+ }
+ void store32(Imm32 imm, const BaseIndex& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != address.base);
+ MOZ_ASSERT(scratch32.asUnsized() != address.index);
+ Mov(scratch32, imm.value);
+ doBaseIndex(scratch32, address, vixl::STR_w);
+ }
+ void store32(Register r, const BaseIndex& address) {
+ doBaseIndex(ARMRegister(r, 32), address, vixl::STR_w);
+ }
+
+ void store32_NoSecondScratch(Imm32 imm, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ temps.Exclude(ARMRegister(ScratchReg2, 32)); // Disallow ScratchReg2.
+ const ARMRegister scratch32 = temps.AcquireW();
+
+ MOZ_ASSERT(scratch32.asUnsized() != address.base);
+ Mov(scratch32, uint64_t(imm.value));
+ Str(scratch32, toMemOperand(address));
+ }
+
+ template <typename S, typename T>
+ void store32Unaligned(const S& src, const T& dest) {
+ store32(src, dest);
+ }
+
+ void store64(Register64 src, Address address) { storePtr(src.reg, address); }
+
+ void store64(Register64 src, const BaseIndex& address) {
+ storePtr(src.reg, address);
+ }
+
+ void store64(Imm64 imm, const BaseIndex& address) {
+ storePtr(ImmWord(imm.value), address);
+ }
+
+ void store64(Imm64 imm, const Address& address) {
+ storePtr(ImmWord(imm.value), address);
+ }
+
+ template <typename S, typename T>
+ void store64Unaligned(const S& src, const T& dest) {
+ store64(src, dest);
+ }
+
+ // StackPointer manipulation.
+ inline void addToStackPtr(Register src);
+ inline void addToStackPtr(Imm32 imm);
+ inline void addToStackPtr(const Address& src);
+ inline void addStackPtrTo(Register dest);
+
+ inline void subFromStackPtr(Register src);
+ inline void subFromStackPtr(Imm32 imm);
+ inline void subStackPtrFrom(Register dest);
+
+ inline void andToStackPtr(Imm32 t);
+ inline void andStackPtrTo(Register dest);
+
+ inline void moveToStackPtr(Register src);
+ inline void moveStackPtrTo(Register dest);
+
+ inline void loadStackPtr(const Address& src);
+ inline void storeStackPtr(const Address& dest);
+
+ // StackPointer testing functions.
+ inline void branchTestStackPtr(Condition cond, Imm32 rhs, Label* label);
+ inline void branchStackPtr(Condition cond, Register rhs, Label* label);
+ inline void branchStackPtrRhs(Condition cond, Address lhs, Label* label);
+ inline void branchStackPtrRhs(Condition cond, AbsoluteAddress lhs,
+ Label* label);
+
+ void testPtr(Register lhs, Register rhs) {
+ Tst(ARMRegister(lhs, 64), Operand(ARMRegister(rhs, 64)));
+ }
+ void test32(Register lhs, Register rhs) {
+ Tst(ARMRegister(lhs, 32), Operand(ARMRegister(rhs, 32)));
+ }
+ void test32(const Address& addr, Imm32 imm) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != addr.base);
+ load32(addr, scratch32.asUnsized());
+ Tst(scratch32, Operand(imm.value));
+ }
+ void test32(Register lhs, Imm32 rhs) {
+ Tst(ARMRegister(lhs, 32), Operand(rhs.value));
+ }
+ void cmp32(Register lhs, Imm32 rhs) {
+ Cmp(ARMRegister(lhs, 32), Operand(rhs.value));
+ }
+ void cmp32(Register a, Register b) {
+ Cmp(ARMRegister(a, 32), Operand(ARMRegister(b, 32)));
+ }
+ void cmp32(const Address& lhs, Imm32 rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != lhs.base);
+ Ldr(scratch32, toMemOperand(lhs));
+ Cmp(scratch32, Operand(rhs.value));
+ }
+ void cmp32(const Address& lhs, Register rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != lhs.base);
+ MOZ_ASSERT(scratch32.asUnsized() != rhs);
+ Ldr(scratch32, toMemOperand(lhs));
+ Cmp(scratch32, Operand(ARMRegister(rhs, 32)));
+ }
+ void cmp32(const vixl::Operand& lhs, Imm32 rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ Mov(scratch32, lhs);
+ Cmp(scratch32, Operand(rhs.value));
+ }
+ void cmp32(const vixl::Operand& lhs, Register rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ Mov(scratch32, lhs);
+ Cmp(scratch32, Operand(ARMRegister(rhs, 32)));
+ }
+
+ void cmn32(Register lhs, Imm32 rhs) {
+ Cmn(ARMRegister(lhs, 32), Operand(rhs.value));
+ }
+
+ void cmpPtr(Register lhs, Imm32 rhs) {
+ Cmp(ARMRegister(lhs, 64), Operand(rhs.value));
+ }
+ void cmpPtr(Register lhs, ImmWord rhs) {
+ Cmp(ARMRegister(lhs, 64), Operand(rhs.value));
+ }
+ void cmpPtr(Register lhs, ImmPtr rhs) {
+ Cmp(ARMRegister(lhs, 64), Operand(uint64_t(rhs.value)));
+ }
+ void cmpPtr(Register lhs, Register rhs) {
+ Cmp(ARMRegister(lhs, 64), ARMRegister(rhs, 64));
+ }
+ void cmpPtr(Register lhs, ImmGCPtr rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != lhs);
+ movePtr(rhs, scratch);
+ cmpPtr(lhs, scratch);
+ }
+
+ void cmpPtr(const Address& lhs, Register rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != lhs.base);
+ MOZ_ASSERT(scratch64.asUnsized() != rhs);
+ Ldr(scratch64, toMemOperand(lhs));
+ Cmp(scratch64, Operand(ARMRegister(rhs, 64)));
+ }
+ void cmpPtr(const Address& lhs, ImmWord rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != lhs.base);
+ Ldr(scratch64, toMemOperand(lhs));
+ Cmp(scratch64, Operand(rhs.value));
+ }
+ void cmpPtr(const Address& lhs, ImmPtr rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != lhs.base);
+ Ldr(scratch64, toMemOperand(lhs));
+ Cmp(scratch64, Operand(uint64_t(rhs.value)));
+ }
+ void cmpPtr(const Address& lhs, ImmGCPtr rhs) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != lhs.base);
+ loadPtr(lhs, scratch);
+ cmpPtr(scratch, rhs);
+ }
+
+ void loadDouble(const Address& src, FloatRegister dest) {
+ Ldr(ARMFPRegister(dest, 64), MemOperand(src));
+ }
+ void loadDouble(const BaseIndex& src, FloatRegister dest) {
+ ARMRegister base = toARMRegister(src.base, 64);
+ ARMRegister index(src.index, 64);
+
+ if (src.offset == 0) {
+ Ldr(ARMFPRegister(dest, 64),
+ MemOperand(base, index, vixl::LSL, unsigned(src.scale)));
+ return;
+ }
+
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != src.base);
+ MOZ_ASSERT(scratch64.asUnsized() != src.index);
+
+ Add(scratch64, base, Operand(index, vixl::LSL, unsigned(src.scale)));
+ Ldr(ARMFPRegister(dest, 64), MemOperand(scratch64, src.offset));
+ }
+ void loadFloatAsDouble(const Address& addr, FloatRegister dest) {
+ Ldr(ARMFPRegister(dest, 32), toMemOperand(addr));
+ fcvt(ARMFPRegister(dest, 64), ARMFPRegister(dest, 32));
+ }
+ void loadFloatAsDouble(const BaseIndex& src, FloatRegister dest) {
+ ARMRegister base = toARMRegister(src.base, 64);
+ ARMRegister index(src.index, 64);
+ if (src.offset == 0) {
+ Ldr(ARMFPRegister(dest, 32),
+ MemOperand(base, index, vixl::LSL, unsigned(src.scale)));
+ } else {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != src.base);
+ MOZ_ASSERT(scratch64.asUnsized() != src.index);
+
+ Add(scratch64, base, Operand(index, vixl::LSL, unsigned(src.scale)));
+ Ldr(ARMFPRegister(dest, 32), MemOperand(scratch64, src.offset));
+ }
+ fcvt(ARMFPRegister(dest, 64), ARMFPRegister(dest, 32));
+ }
+
+ void loadFloat32(const Address& addr, FloatRegister dest) {
+ Ldr(ARMFPRegister(dest, 32), toMemOperand(addr));
+ }
+ void loadFloat32(const BaseIndex& src, FloatRegister dest) {
+ ARMRegister base = toARMRegister(src.base, 64);
+ ARMRegister index(src.index, 64);
+ if (src.offset == 0) {
+ Ldr(ARMFPRegister(dest, 32),
+ MemOperand(base, index, vixl::LSL, unsigned(src.scale)));
+ } else {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != src.base);
+ MOZ_ASSERT(scratch64.asUnsized() != src.index);
+
+ Add(scratch64, base, Operand(index, vixl::LSL, unsigned(src.scale)));
+ Ldr(ARMFPRegister(dest, 32), MemOperand(scratch64, src.offset));
+ }
+ }
+
+ void moveDouble(FloatRegister src, FloatRegister dest) {
+ fmov(ARMFPRegister(dest, 64), ARMFPRegister(src, 64));
+ }
+ void zeroDouble(FloatRegister reg) {
+ fmov(ARMFPRegister(reg, 64), vixl::xzr);
+ }
+ void zeroFloat32(FloatRegister reg) {
+ fmov(ARMFPRegister(reg, 32), vixl::wzr);
+ }
+
+ void moveFloat32(FloatRegister src, FloatRegister dest) {
+ fmov(ARMFPRegister(dest, 32), ARMFPRegister(src, 32));
+ }
+ void moveFloatAsDouble(Register src, FloatRegister dest) {
+ MOZ_CRASH("moveFloatAsDouble");
+ }
+
+ void splitSignExtTag(const ValueOperand& operand, Register dest) {
+ splitSignExtTag(operand.valueReg(), dest);
+ }
+ void splitSignExtTag(const Address& operand, Register dest) {
+ loadPtr(operand, dest);
+ splitSignExtTag(dest, dest);
+ }
+ void splitSignExtTag(const BaseIndex& operand, Register dest) {
+ loadPtr(operand, dest);
+ splitSignExtTag(dest, dest);
+ }
+
+ // Extracts the tag of a value and places it in tag
+ inline void splitTagForTest(const ValueOperand& value, ScratchTagScope& tag);
+ void cmpTag(const ValueOperand& operand, ImmTag tag) { MOZ_CRASH("cmpTag"); }
+
+ void load32(const Address& address, Register dest) {
+ Ldr(ARMRegister(dest, 32), toMemOperand(address));
+ }
+ void load32(const BaseIndex& src, Register dest) {
+ doBaseIndex(ARMRegister(dest, 32), src, vixl::LDR_w);
+ }
+ void load32(AbsoluteAddress address, Register dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ movePtr(ImmWord((uintptr_t)address.addr), scratch64.asUnsized());
+ ldr(ARMRegister(dest, 32), MemOperand(scratch64));
+ }
+ template <typename S>
+ void load32Unaligned(const S& src, Register dest) {
+ load32(src, dest);
+ }
+ void load64(const Address& address, Register64 dest) {
+ loadPtr(address, dest.reg);
+ }
+ void load64(const BaseIndex& address, Register64 dest) {
+ loadPtr(address, dest.reg);
+ }
+ template <typename S>
+ void load64Unaligned(const S& src, Register64 dest) {
+ load64(src, dest);
+ }
+
+ void load8SignExtend(const Address& address, Register dest) {
+ Ldrsb(ARMRegister(dest, 32), toMemOperand(address));
+ }
+ void load8SignExtend(const BaseIndex& src, Register dest) {
+ doBaseIndex(ARMRegister(dest, 32), src, vixl::LDRSB_w);
+ }
+
+ void load8ZeroExtend(const Address& address, Register dest) {
+ Ldrb(ARMRegister(dest, 32), toMemOperand(address));
+ }
+ void load8ZeroExtend(const BaseIndex& src, Register dest) {
+ doBaseIndex(ARMRegister(dest, 32), src, vixl::LDRB_w);
+ }
+
+ void load16SignExtend(const Address& address, Register dest) {
+ Ldrsh(ARMRegister(dest, 32), toMemOperand(address));
+ }
+ void load16SignExtend(const BaseIndex& src, Register dest) {
+ doBaseIndex(ARMRegister(dest, 32), src, vixl::LDRSH_w);
+ }
+ template <typename S>
+ void load16UnalignedSignExtend(const S& src, Register dest) {
+ load16SignExtend(src, dest);
+ }
+
+ void load16ZeroExtend(const Address& address, Register dest) {
+ Ldrh(ARMRegister(dest, 32), toMemOperand(address));
+ }
+ void load16ZeroExtend(const BaseIndex& src, Register dest) {
+ doBaseIndex(ARMRegister(dest, 32), src, vixl::LDRH_w);
+ }
+ template <typename S>
+ void load16UnalignedZeroExtend(const S& src, Register dest) {
+ load16ZeroExtend(src, dest);
+ }
+
+ void adds32(Register src, Register dest) {
+ Adds(ARMRegister(dest, 32), ARMRegister(dest, 32),
+ Operand(ARMRegister(src, 32)));
+ }
+ void adds32(Imm32 imm, Register dest) {
+ Adds(ARMRegister(dest, 32), ARMRegister(dest, 32), Operand(imm.value));
+ }
+ void adds32(Imm32 imm, const Address& dest) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != dest.base);
+
+ Ldr(scratch32, toMemOperand(dest));
+ Adds(scratch32, scratch32, Operand(imm.value));
+ Str(scratch32, toMemOperand(dest));
+ }
+ void adds64(Imm32 imm, Register dest) {
+ Adds(ARMRegister(dest, 64), ARMRegister(dest, 64), Operand(imm.value));
+ }
+ void adds64(Register src, Register dest) {
+ Adds(ARMRegister(dest, 64), ARMRegister(dest, 64),
+ Operand(ARMRegister(src, 64)));
+ }
+
+ void subs32(Imm32 imm, Register dest) {
+ Subs(ARMRegister(dest, 32), ARMRegister(dest, 32), Operand(imm.value));
+ }
+ void subs32(Register src, Register dest) {
+ Subs(ARMRegister(dest, 32), ARMRegister(dest, 32),
+ Operand(ARMRegister(src, 32)));
+ }
+ void subs64(Imm32 imm, Register dest) {
+ Subs(ARMRegister(dest, 64), ARMRegister(dest, 64), Operand(imm.value));
+ }
+ void subs64(Register src, Register dest) {
+ Subs(ARMRegister(dest, 64), ARMRegister(dest, 64),
+ Operand(ARMRegister(src, 64)));
+ }
+
+ void ret() {
+ pop(lr);
+ abiret();
+ }
+
+ void retn(Imm32 n) {
+ vixl::UseScratchRegisterScope temps(this);
+ MOZ_ASSERT(temps.IsAvailable(ScratchReg64)); // ip0
+ temps.Exclude(ScratchReg64);
+ // ip0 <- [sp]; sp += n; ret ip0
+ Ldr(ScratchReg64,
+ MemOperand(GetStackPointer64(), ptrdiff_t(n.value), vixl::PostIndex));
+ syncStackPtr(); // SP is always used to transmit the stack between calls.
+ Ret(ScratchReg64);
+ }
+
+ void j(Condition cond, Label* dest) { B(dest, cond); }
+
+ void branch(Condition cond, Label* label) { B(label, cond); }
+ void branch(JitCode* target) {
+ syncStackPtr();
+ BufferOffset loc =
+ b(-1,
+ LabelDoc()); // The jump target will be patched by executableCopy().
+ addPendingJump(loc, ImmPtr(target->raw()), RelocationKind::JITCODE);
+ }
+
+ void compareDouble(DoubleCondition cond, FloatRegister lhs,
+ FloatRegister rhs) {
+ Fcmp(ARMFPRegister(lhs, 64), ARMFPRegister(rhs, 64));
+ }
+
+ void compareFloat(DoubleCondition cond, FloatRegister lhs,
+ FloatRegister rhs) {
+ Fcmp(ARMFPRegister(lhs, 32), ARMFPRegister(rhs, 32));
+ }
+
+ void compareSimd128Int(Assembler::Condition cond, ARMFPRegister dest,
+ ARMFPRegister lhs, ARMFPRegister rhs);
+ void compareSimd128Float(Assembler::Condition cond, ARMFPRegister dest,
+ ARMFPRegister lhs, ARMFPRegister rhs);
+ void rightShiftInt8x16(Register rhs, FloatRegister lhsDest,
+ FloatRegister temp, bool isUnsigned);
+ void rightShiftInt16x8(Register rhs, FloatRegister lhsDest,
+ FloatRegister temp, bool isUnsigned);
+ void rightShiftInt32x4(Register rhs, FloatRegister lhsDest,
+ FloatRegister temp, bool isUnsigned);
+
+ void branchNegativeZero(FloatRegister reg, Register scratch, Label* label) {
+ MOZ_CRASH("branchNegativeZero");
+ }
+ void branchNegativeZeroFloat32(FloatRegister reg, Register scratch,
+ Label* label) {
+ MOZ_CRASH("branchNegativeZeroFloat32");
+ }
+
+ void boxDouble(FloatRegister src, const ValueOperand& dest, FloatRegister) {
+ Fmov(ARMRegister(dest.valueReg(), 64), ARMFPRegister(src, 64));
+ }
+ void boxNonDouble(JSValueType type, Register src, const ValueOperand& dest) {
+ boxValue(type, src, dest.valueReg());
+ }
+
+ // Note that the |dest| register here may be ScratchReg, so we shouldn't use
+ // it.
+ void unboxInt32(const ValueOperand& src, Register dest) {
+ move32(src.valueReg(), dest);
+ }
+ void unboxInt32(const Address& src, Register dest) { load32(src, dest); }
+ void unboxInt32(const BaseIndex& src, Register dest) { load32(src, dest); }
+
+ template <typename T>
+ void unboxDouble(const T& src, FloatRegister dest) {
+ loadDouble(src, dest);
+ }
+ void unboxDouble(const ValueOperand& src, FloatRegister dest) {
+ Fmov(ARMFPRegister(dest, 64), ARMRegister(src.valueReg(), 64));
+ }
+
+ void unboxArgObjMagic(const ValueOperand& src, Register dest) {
+ MOZ_CRASH("unboxArgObjMagic");
+ }
+ void unboxArgObjMagic(const Address& src, Register dest) {
+ MOZ_CRASH("unboxArgObjMagic");
+ }
+
+ void unboxBoolean(const ValueOperand& src, Register dest) {
+ move32(src.valueReg(), dest);
+ }
+ void unboxBoolean(const Address& src, Register dest) { load32(src, dest); }
+ void unboxBoolean(const BaseIndex& src, Register dest) { load32(src, dest); }
+
+ void unboxMagic(const ValueOperand& src, Register dest) {
+ move32(src.valueReg(), dest);
+ }
+ void unboxNonDouble(const ValueOperand& src, Register dest,
+ JSValueType type) {
+ unboxNonDouble(src.valueReg(), dest, type);
+ }
+
+ template <typename T>
+ void unboxNonDouble(T src, Register dest, JSValueType type) {
+ MOZ_ASSERT(type != JSVAL_TYPE_DOUBLE);
+ if (type == JSVAL_TYPE_INT32 || type == JSVAL_TYPE_BOOLEAN) {
+ load32(src, dest);
+ return;
+ }
+ loadPtr(src, dest);
+ unboxNonDouble(dest, dest, type);
+ }
+
+ void unboxNonDouble(Register src, Register dest, JSValueType type) {
+ MOZ_ASSERT(type != JSVAL_TYPE_DOUBLE);
+ if (type == JSVAL_TYPE_INT32 || type == JSVAL_TYPE_BOOLEAN) {
+ move32(src, dest);
+ return;
+ }
+ Eor(ARMRegister(dest, 64), ARMRegister(src, 64),
+ Operand(JSVAL_TYPE_TO_SHIFTED_TAG(type)));
+ }
+
+ void notBoolean(const ValueOperand& val) {
+ ARMRegister r(val.valueReg(), 64);
+ eor(r, r, Operand(1));
+ }
+ void unboxObject(const ValueOperand& src, Register dest) {
+ unboxNonDouble(src.valueReg(), dest, JSVAL_TYPE_OBJECT);
+ }
+ void unboxObject(Register src, Register dest) {
+ unboxNonDouble(src, dest, JSVAL_TYPE_OBJECT);
+ }
+ void unboxObject(const Address& src, Register dest) {
+ loadPtr(src, dest);
+ unboxNonDouble(dest, dest, JSVAL_TYPE_OBJECT);
+ }
+ void unboxObject(const BaseIndex& src, Register dest) {
+ doBaseIndex(ARMRegister(dest, 64), src, vixl::LDR_x);
+ unboxNonDouble(dest, dest, JSVAL_TYPE_OBJECT);
+ }
+
+ template <typename T>
+ void unboxObjectOrNull(const T& src, Register dest) {
+ unboxNonDouble(src, dest, JSVAL_TYPE_OBJECT);
+ And(ARMRegister(dest, 64), ARMRegister(dest, 64),
+ Operand(~JS::detail::ValueObjectOrNullBit));
+ }
+
+ // See comment in MacroAssembler-x64.h.
+ void unboxGCThingForGCBarrier(const Address& src, Register dest) {
+ loadPtr(src, dest);
+ And(ARMRegister(dest, 64), ARMRegister(dest, 64),
+ Operand(JS::detail::ValueGCThingPayloadMask));
+ }
+ void unboxGCThingForGCBarrier(const ValueOperand& src, Register dest) {
+ And(ARMRegister(dest, 64), ARMRegister(src.valueReg(), 64),
+ Operand(JS::detail::ValueGCThingPayloadMask));
+ }
+
+ inline void unboxValue(const ValueOperand& src, AnyRegister dest,
+ JSValueType type);
+
+ void unboxString(const ValueOperand& operand, Register dest) {
+ unboxNonDouble(operand, dest, JSVAL_TYPE_STRING);
+ }
+ void unboxString(const Address& src, Register dest) {
+ unboxNonDouble(src, dest, JSVAL_TYPE_STRING);
+ }
+ void unboxSymbol(const ValueOperand& operand, Register dest) {
+ unboxNonDouble(operand, dest, JSVAL_TYPE_SYMBOL);
+ }
+ void unboxSymbol(const Address& src, Register dest) {
+ unboxNonDouble(src, dest, JSVAL_TYPE_SYMBOL);
+ }
+ void unboxBigInt(const ValueOperand& operand, Register dest) {
+ unboxNonDouble(operand, dest, JSVAL_TYPE_BIGINT);
+ }
+ void unboxBigInt(const Address& src, Register dest) {
+ unboxNonDouble(src, dest, JSVAL_TYPE_BIGINT);
+ }
+ // These two functions use the low 32-bits of the full value register.
+ void boolValueToDouble(const ValueOperand& operand, FloatRegister dest) {
+ convertInt32ToDouble(operand.valueReg(), dest);
+ }
+ void int32ValueToDouble(const ValueOperand& operand, FloatRegister dest) {
+ convertInt32ToDouble(operand.valueReg(), dest);
+ }
+
+ void boolValueToFloat32(const ValueOperand& operand, FloatRegister dest) {
+ convertInt32ToFloat32(operand.valueReg(), dest);
+ }
+ void int32ValueToFloat32(const ValueOperand& operand, FloatRegister dest) {
+ convertInt32ToFloat32(operand.valueReg(), dest);
+ }
+
+ void loadConstantDouble(double d, FloatRegister dest) {
+ Fmov(ARMFPRegister(dest, 64), d);
+ }
+ void loadConstantFloat32(float f, FloatRegister dest) {
+ Fmov(ARMFPRegister(dest, 32), f);
+ }
+
+ void cmpTag(Register tag, ImmTag ref) {
+ // As opposed to other architecture, splitTag is replaced by splitSignExtTag
+ // which extract the tag with a sign extension. The reason being that cmp32
+ // with a tag value would be too large to fit as a 12 bits immediate value,
+ // and would require the VIXL macro assembler to add an extra instruction
+ // and require extra scratch register to load the Tag value.
+ //
+ // Instead, we compare with the negative value of the sign extended tag with
+ // the CMN instruction. The sign extended tag is expected to be a negative
+ // value. Therefore the negative of the sign extended tag is expected to be
+ // near 0 and fit on 12 bits.
+ //
+ // Ignoring the sign extension, the logic is the following:
+ //
+ // CMP32(Reg, Tag) = Reg - Tag
+ // = Reg + (-Tag)
+ // = CMN32(Reg, -Tag)
+ //
+ // Note: testGCThing, testPrimitive and testNumber which are checking for
+ // inequalities should use unsigned comparisons (as done by default) in
+ // order to keep the same relation order after the sign extension, i.e.
+ // using Above or Below which are based on the carry flag.
+ uint32_t hiShift = JSVAL_TAG_SHIFT - 32;
+ int32_t seTag = int32_t(ref.value);
+ seTag = (seTag << hiShift) >> hiShift;
+ MOZ_ASSERT(seTag < 0);
+ int32_t negTag = -seTag;
+ // Check thest negTag is encoded on a 12 bits immediate value.
+ MOZ_ASSERT((negTag & ~0xFFF) == 0);
+ cmn32(tag, Imm32(negTag));
+ }
+
+ // Register-based tests.
+ Condition testUndefined(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_UNDEFINED));
+ return cond;
+ }
+ Condition testInt32(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_INT32));
+ return cond;
+ }
+ Condition testBoolean(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_BOOLEAN));
+ return cond;
+ }
+ Condition testNull(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_NULL));
+ return cond;
+ }
+ Condition testString(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_STRING));
+ return cond;
+ }
+ Condition testSymbol(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_SYMBOL));
+ return cond;
+ }
+ Condition testBigInt(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_BIGINT));
+ return cond;
+ }
+ Condition testObject(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_OBJECT));
+ return cond;
+ }
+ Condition testDouble(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_MAX_DOUBLE));
+ // Requires unsigned comparison due to cmpTag internals.
+ return (cond == Equal) ? BelowOrEqual : Above;
+ }
+ Condition testNumber(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JS::detail::ValueUpperInclNumberTag));
+ // Requires unsigned comparison due to cmpTag internals.
+ return (cond == Equal) ? BelowOrEqual : Above;
+ }
+ Condition testGCThing(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JS::detail::ValueLowerInclGCThingTag));
+ // Requires unsigned comparison due to cmpTag internals.
+ return (cond == Equal) ? AboveOrEqual : Below;
+ }
+ Condition testMagic(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JSVAL_TAG_MAGIC));
+ return cond;
+ }
+ Condition testPrimitive(Condition cond, Register tag) {
+ MOZ_ASSERT(cond == Equal || cond == NotEqual);
+ cmpTag(tag, ImmTag(JS::detail::ValueUpperExclPrimitiveTag));
+ // Requires unsigned comparison due to cmpTag internals.
+ return (cond == Equal) ? Below : AboveOrEqual;
+ }
+ Condition testError(Condition cond, Register tag) {
+ return testMagic(cond, tag);
+ }
+
+ // ValueOperand-based tests.
+ Condition testInt32(Condition cond, const ValueOperand& value) {
+ // The incoming ValueOperand may use scratch registers.
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(scratch != value.valueReg());
+
+ splitSignExtTag(value, scratch);
+ return testInt32(cond, scratch);
+ }
+ Condition testBoolean(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testBoolean(cond, scratch);
+ }
+ Condition testDouble(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testDouble(cond, scratch);
+ }
+ Condition testNull(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testNull(cond, scratch);
+ }
+ Condition testUndefined(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testUndefined(cond, scratch);
+ }
+ Condition testString(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testString(cond, scratch);
+ }
+ Condition testSymbol(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testSymbol(cond, scratch);
+ }
+ Condition testBigInt(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testBigInt(cond, scratch);
+ }
+ Condition testObject(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testObject(cond, scratch);
+ }
+ Condition testNumber(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testNumber(cond, scratch);
+ }
+ Condition testPrimitive(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testPrimitive(cond, scratch);
+ }
+ Condition testMagic(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testMagic(cond, scratch);
+ }
+ Condition testGCThing(Condition cond, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(value.valueReg() != scratch);
+ splitSignExtTag(value, scratch);
+ return testGCThing(cond, scratch);
+ }
+ Condition testError(Condition cond, const ValueOperand& value) {
+ return testMagic(cond, value);
+ }
+
+ // Address-based tests.
+ Condition testGCThing(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testGCThing(cond, scratch);
+ }
+ Condition testMagic(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testMagic(cond, scratch);
+ }
+ Condition testInt32(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testInt32(cond, scratch);
+ }
+ Condition testDouble(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testDouble(cond, scratch);
+ }
+ Condition testBoolean(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testBoolean(cond, scratch);
+ }
+ Condition testNull(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testNull(cond, scratch);
+ }
+ Condition testUndefined(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testUndefined(cond, scratch);
+ }
+ Condition testString(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testString(cond, scratch);
+ }
+ Condition testSymbol(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testSymbol(cond, scratch);
+ }
+ Condition testBigInt(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testBigInt(cond, scratch);
+ }
+ Condition testObject(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testObject(cond, scratch);
+ }
+ Condition testNumber(Condition cond, const Address& address) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(address.base != scratch);
+ splitSignExtTag(address, scratch);
+ return testNumber(cond, scratch);
+ }
+
+ // BaseIndex-based tests.
+ Condition testUndefined(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testUndefined(cond, scratch);
+ }
+ Condition testNull(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testNull(cond, scratch);
+ }
+ Condition testBoolean(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testBoolean(cond, scratch);
+ }
+ Condition testString(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testString(cond, scratch);
+ }
+ Condition testSymbol(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testSymbol(cond, scratch);
+ }
+ Condition testBigInt(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testBigInt(cond, scratch);
+ }
+ Condition testBigIntTruthy(bool truthy, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+
+ MOZ_ASSERT(value.valueReg() != scratch);
+
+ unboxBigInt(value, scratch);
+ load32(Address(scratch, BigInt::offsetOfDigitLength()), scratch);
+ cmp32(scratch, Imm32(0));
+ return truthy ? Condition::NonZero : Condition::Zero;
+ }
+ Condition testInt32(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testInt32(cond, scratch);
+ }
+ Condition testObject(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testObject(cond, scratch);
+ }
+ Condition testDouble(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testDouble(cond, scratch);
+ }
+ Condition testMagic(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testMagic(cond, scratch);
+ }
+ Condition testGCThing(Condition cond, const BaseIndex& src) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ MOZ_ASSERT(src.base != scratch);
+ MOZ_ASSERT(src.index != scratch);
+ splitSignExtTag(src, scratch);
+ return testGCThing(cond, scratch);
+ }
+
+ Condition testInt32Truthy(bool truthy, const ValueOperand& operand) {
+ ARMRegister payload32(operand.valueReg(), 32);
+ Tst(payload32, payload32);
+ return truthy ? NonZero : Zero;
+ }
+
+ Condition testBooleanTruthy(bool truthy, const ValueOperand& operand) {
+ ARMRegister payload32(operand.valueReg(), 32);
+ Tst(payload32, payload32);
+ return truthy ? NonZero : Zero;
+ }
+ Condition testStringTruthy(bool truthy, const ValueOperand& value) {
+ vixl::UseScratchRegisterScope temps(this);
+ const Register scratch = temps.AcquireX().asUnsized();
+ const ARMRegister scratch32(scratch, 32);
+ const ARMRegister scratch64(scratch, 64);
+
+ MOZ_ASSERT(value.valueReg() != scratch);
+
+ unboxString(value, scratch);
+ Ldr(scratch32, MemOperand(scratch64, JSString::offsetOfLength()));
+ Cmp(scratch32, Operand(0));
+ return truthy ? Condition::NonZero : Condition::Zero;
+ }
+ void int32OrDouble(Register src, ARMFPRegister dest) {
+ Label isInt32;
+ Label join;
+ testInt32(Equal, ValueOperand(src));
+ B(&isInt32, Equal);
+ // is double, move the bits as is
+ Fmov(dest, ARMRegister(src, 64));
+ B(&join);
+ bind(&isInt32);
+ // is int32, do a conversion while moving
+ Scvtf(dest, ARMRegister(src, 32));
+ bind(&join);
+ }
+ void loadUnboxedValue(Address address, MIRType type, AnyRegister dest) {
+ if (dest.isFloat()) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != address.base);
+ Ldr(scratch64, toMemOperand(address));
+ int32OrDouble(scratch64.asUnsized(), ARMFPRegister(dest.fpu(), 64));
+ } else {
+ unboxNonDouble(address, dest.gpr(), ValueTypeFromMIRType(type));
+ }
+ }
+
+ void loadUnboxedValue(BaseIndex address, MIRType type, AnyRegister dest) {
+ if (dest.isFloat()) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT(scratch64.asUnsized() != address.base);
+ MOZ_ASSERT(scratch64.asUnsized() != address.index);
+ doBaseIndex(scratch64, address, vixl::LDR_x);
+ int32OrDouble(scratch64.asUnsized(), ARMFPRegister(dest.fpu(), 64));
+ } else {
+ unboxNonDouble(address, dest.gpr(), ValueTypeFromMIRType(type));
+ }
+ }
+
+ void loadInstructionPointerAfterCall(Register dest) {
+ MOZ_CRASH("loadInstructionPointerAfterCall");
+ }
+
+ // Emit a B that can be toggled to a CMP. See ToggleToJmp(), ToggleToCmp().
+ CodeOffset toggledJump(Label* label) {
+ BufferOffset offset = b(label, Always);
+ CodeOffset ret(offset.getOffset());
+ return ret;
+ }
+
+ // load: offset to the load instruction obtained by movePatchablePtr().
+ void writeDataRelocation(ImmGCPtr ptr, BufferOffset load) {
+ // Raw GC pointer relocations and Value relocations both end up in
+ // Assembler::TraceDataRelocations.
+ if (ptr.value) {
+ if (gc::IsInsideNursery(ptr.value)) {
+ embedsNurseryPointers_ = true;
+ }
+ dataRelocations_.writeUnsigned(load.getOffset());
+ }
+ }
+ void writeDataRelocation(const Value& val, BufferOffset load) {
+ // Raw GC pointer relocations and Value relocations both end up in
+ // Assembler::TraceDataRelocations.
+ if (val.isGCThing()) {
+ gc::Cell* cell = val.toGCThing();
+ if (cell && gc::IsInsideNursery(cell)) {
+ embedsNurseryPointers_ = true;
+ }
+ dataRelocations_.writeUnsigned(load.getOffset());
+ }
+ }
+
+ void computeEffectiveAddress(const Address& address, Register dest) {
+ Add(ARMRegister(dest, 64), toARMRegister(address.base, 64),
+ Operand(address.offset));
+ }
+ void computeEffectiveAddress(const Address& address, RegisterOrSP dest) {
+ Add(toARMRegister(dest, 64), toARMRegister(address.base, 64),
+ Operand(address.offset));
+ }
+ void computeEffectiveAddress(const BaseIndex& address, Register dest) {
+ ARMRegister dest64(dest, 64);
+ ARMRegister base64 = toARMRegister(address.base, 64);
+ ARMRegister index64(address.index, 64);
+
+ Add(dest64, base64, Operand(index64, vixl::LSL, address.scale));
+ if (address.offset) {
+ Add(dest64, dest64, Operand(address.offset));
+ }
+ }
+
+ public:
+ void handleFailureWithHandlerTail(Label* profilerExitTail);
+
+ void profilerEnterFrame(Register framePtr, Register scratch);
+ void profilerEnterFrame(RegisterOrSP framePtr, Register scratch);
+ void profilerExitFrame();
+ Address ToPayload(Address value) { return value; }
+ Address ToType(Address value) { return value; }
+
+ void wasmLoadImpl(const wasm::MemoryAccessDesc& access, Register memoryBase,
+ Register ptr, AnyRegister outany, Register64 out64);
+ void wasmLoadImpl(const wasm::MemoryAccessDesc& access, MemOperand srcAddr,
+ AnyRegister outany, Register64 out64);
+ void wasmStoreImpl(const wasm::MemoryAccessDesc& access, AnyRegister valany,
+ Register64 val64, Register memoryBase, Register ptr);
+ void wasmStoreImpl(const wasm::MemoryAccessDesc& access, MemOperand destAddr,
+ AnyRegister valany, Register64 val64);
+
+ // Emit a BLR or NOP instruction. ToggleCall can be used to patch
+ // this instruction.
+ CodeOffset toggledCall(JitCode* target, bool enabled) {
+ // The returned offset must be to the first instruction generated,
+ // for the debugger to match offset with Baseline's pcMappingEntries_.
+ BufferOffset offset = nextOffset();
+
+ syncStackPtr();
+
+ BufferOffset loadOffset;
+ {
+ vixl::UseScratchRegisterScope temps(this);
+
+ // The register used for the load is hardcoded, so that ToggleCall
+ // can patch in the branch instruction easily. This could be changed,
+ // but then ToggleCall must read the target register from the load.
+ MOZ_ASSERT(temps.IsAvailable(ScratchReg2_64));
+ temps.Exclude(ScratchReg2_64);
+
+ loadOffset = immPool64(ScratchReg2_64, uint64_t(target->raw()));
+
+ if (enabled) {
+ blr(ScratchReg2_64);
+ } else {
+ nop();
+ }
+ }
+
+ addPendingJump(loadOffset, ImmPtr(target->raw()), RelocationKind::JITCODE);
+ CodeOffset ret(offset.getOffset());
+ return ret;
+ }
+
+ static size_t ToggledCallSize(uint8_t* code) {
+ // The call site is a sequence of two or three instructions:
+ //
+ // syncStack (optional)
+ // ldr/adr
+ // nop/blr
+ //
+ // Flushed constant pools can appear before any of the instructions.
+
+ const Instruction* cur = (const Instruction*)code;
+ cur = cur->skipPool();
+ if (cur->IsStackPtrSync()) cur = cur->NextInstruction();
+ cur = cur->skipPool();
+ cur = cur->NextInstruction(); // LDR/ADR
+ cur = cur->skipPool();
+ cur = cur->NextInstruction(); // NOP/BLR
+ return (uint8_t*)cur - code;
+ }
+
+ void checkARMRegAlignment(const ARMRegister& reg) {
+#ifdef DEBUG
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch64 = temps.AcquireX();
+ MOZ_ASSERT_IF(!reg.IsSP(), scratch64.asUnsized() != reg.asUnsized());
+ Label aligned;
+ Mov(scratch64, reg);
+ Tst(scratch64, Operand(StackAlignment - 1));
+ B(Zero, &aligned);
+ breakpoint();
+ bind(&aligned);
+ Mov(scratch64, vixl::xzr); // Clear the scratch register for sanity.
+#endif
+ }
+
+ void checkStackAlignment() {
+#ifdef DEBUG
+ checkARMRegAlignment(GetStackPointer64());
+
+ // If another register is being used to track pushes, check sp explicitly.
+ if (!GetStackPointer64().Is(vixl::sp)) {
+ checkARMRegAlignment(vixl::sp);
+ }
+#endif
+ }
+
+ void abiret() {
+ syncStackPtr(); // SP is always used to transmit the stack between calls.
+ vixl::MacroAssembler::Ret(vixl::lr);
+ }
+
+ void clampCheck(Register r, Label* handleNotAnInt) {
+ MOZ_CRASH("clampCheck");
+ }
+
+ void stackCheck(ImmWord limitAddr, Label* label) { MOZ_CRASH("stackCheck"); }
+
+ void incrementInt32Value(const Address& addr) {
+ vixl::UseScratchRegisterScope temps(this);
+ const ARMRegister scratch32 = temps.AcquireW();
+ MOZ_ASSERT(scratch32.asUnsized() != addr.base);
+
+ load32(addr, scratch32.asUnsized());
+ Add(scratch32, scratch32, Operand(1));
+ store32(scratch32.asUnsized(), addr);
+ }
+
+ void breakpoint();
+
+ // Emits a simulator directive to save the current sp on an internal stack.
+ void simulatorMarkSP() {
+#ifdef JS_SIMULATOR_ARM64
+ svc(vixl::kMarkStackPointer);
+#endif
+ }
+
+ // Emits a simulator directive to pop from its internal stack
+ // and assert that the value is equal to the current sp.
+ void simulatorCheckSP() {
+#ifdef JS_SIMULATOR_ARM64
+ svc(vixl::kCheckStackPointer);
+#endif
+ }
+
+ void loadWasmGlobalPtr(uint32_t globalDataOffset, Register dest) {
+ loadPtr(Address(WasmTlsReg,
+ offsetof(wasm::TlsData, globalArea) + globalDataOffset),
+ dest);
+ }
+ void loadWasmPinnedRegsFromTls() {
+ loadPtr(Address(WasmTlsReg, offsetof(wasm::TlsData, memoryBase)), HeapReg);
+ }
+
+ // Overwrites the payload bits of a dest register containing a Value.
+ void movePayload(Register src, Register dest) {
+ // Bfxil cannot be used with the zero register as a source.
+ if (src == rzr) {
+ And(ARMRegister(dest, 64), ARMRegister(dest, 64),
+ Operand(JS::detail::ValueTagMask));
+ } else {
+ Bfxil(ARMRegister(dest, 64), ARMRegister(src, 64), 0, JSVAL_TAG_SHIFT);
+ }
+ }
+
+ protected:
+ bool buildOOLFakeExitFrame(void* fakeReturnAddr);
+};
+
+// See documentation for ScratchTagScope and ScratchTagScopeRelease in
+// MacroAssembler-x64.h.
+
+class ScratchTagScope {
+ vixl::UseScratchRegisterScope temps_;
+ ARMRegister scratch64_;
+ bool owned_;
+ mozilla::DebugOnly<bool> released_;
+
+ public:
+ ScratchTagScope(MacroAssemblerCompat& masm, const ValueOperand&)
+ : temps_(&masm), owned_(true), released_(false) {
+ scratch64_ = temps_.AcquireX();
+ }
+
+ operator Register() {
+ MOZ_ASSERT(!released_);
+ return scratch64_.asUnsized();
+ }
+
+ void release() {
+ MOZ_ASSERT(!released_);
+ released_ = true;
+ if (owned_) {
+ temps_.Release(scratch64_);
+ owned_ = false;
+ }
+ }
+
+ void reacquire() {
+ MOZ_ASSERT(released_);
+ released_ = false;
+ }
+};
+
+class ScratchTagScopeRelease {
+ ScratchTagScope* ts_;
+
+ public:
+ explicit ScratchTagScopeRelease(ScratchTagScope* ts) : ts_(ts) {
+ ts_->release();
+ }
+ ~ScratchTagScopeRelease() { ts_->reacquire(); }
+};
+
+inline void MacroAssemblerCompat::splitTagForTest(const ValueOperand& value,
+ ScratchTagScope& tag) {
+ splitSignExtTag(value, tag);
+}
+
+typedef MacroAssemblerCompat MacroAssemblerSpecific;
+
+} // namespace jit
+} // namespace js
+
+#endif // jit_arm64_MacroAssembler_arm64_h