/* * Copyright (C) 2008-2021 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #pragma once #if ENABLE(JIT) #include "BytecodeOperandsForCheckpoint.h" #include "CommonSlowPathsInlines.h" #include "JIT.h" #include "JSCInlines.h" namespace JSC { #if USE(JSVALUE64) ALWAYS_INLINE bool JIT::isOperandConstantDouble(VirtualRegister src) { if (!src.isConstant()) return false; if (m_unlinkedCodeBlock->constantSourceCodeRepresentation(src) == SourceCodeRepresentation::LinkTimeConstant) return false; return getConstantOperand(src).isDouble(); } #endif ALWAYS_INLINE bool JIT::isOperandConstantInt(VirtualRegister src) { if (!src.isConstant()) return false; if (m_unlinkedCodeBlock->constantSourceCodeRepresentation(src) == SourceCodeRepresentation::LinkTimeConstant) return false; return getConstantOperand(src).isInt32(); } ALWAYS_INLINE bool JIT::isKnownCell(VirtualRegister src) { if (!src.isConstant()) return false; if (m_unlinkedCodeBlock->constantSourceCodeRepresentation(src) == SourceCodeRepresentation::LinkTimeConstant) { // All link time constants are cells. return true; } return getConstantOperand(src).isCell(); } ALWAYS_INLINE JSValue JIT::getConstantOperand(VirtualRegister src) { ASSERT(src.isConstant()); RELEASE_ASSERT(m_unlinkedCodeBlock->constantSourceCodeRepresentation(src) != SourceCodeRepresentation::LinkTimeConstant); return m_unlinkedCodeBlock->getConstant(src); } ALWAYS_INLINE void JIT::emitLoadCharacterString(RegisterID src, RegisterID dst, JumpList& failures) { failures.append(branchIfNotString(src)); loadPtr(MacroAssembler::Address(src, JSString::offsetOfValue()), dst); failures.append(branchIfRopeStringImpl(dst)); failures.append(branch32(NotEqual, MacroAssembler::Address(dst, StringImpl::lengthMemoryOffset()), TrustedImm32(1))); loadPtr(MacroAssembler::Address(dst, StringImpl::dataOffset()), regT1); auto is16Bit = branchTest32(Zero, Address(dst, StringImpl::flagsOffset()), TrustedImm32(StringImpl::flagIs8Bit())); load8(MacroAssembler::Address(regT1, 0), dst); auto done = jump(); is16Bit.link(this); load16(MacroAssembler::Address(regT1, 0), dst); done.link(this); } ALWAYS_INLINE JIT::Call JIT::emitNakedNearCall(CodePtr target) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. Call nakedCall = nearCall(); m_nearCalls.append(NearCallRecord(nakedCall, FunctionPtr(target.retagged()))); return nakedCall; } ALWAYS_INLINE JIT::Call JIT::emitNakedNearTailCall(CodePtr target) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. Call nakedCall = nearTailCall(); m_nearCalls.append(NearCallRecord(nakedCall, FunctionPtr(target.retagged()))); return nakedCall; } ALWAYS_INLINE JIT::Jump JIT::emitNakedNearJump(CodePtr target) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. Jump nakedJump = jump(); m_nearJumps.append(NearJumpRecord(nakedJump, CodeLocationLabel(target))); return nakedJump; } ALWAYS_INLINE void JIT::updateTopCallFrame() { uint32_t locationBits = CallSiteIndex(m_bytecodeIndex.offset()).bits(); store32(TrustedImm32(locationBits), tagFor(CallFrameSlot::argumentCountIncludingThis)); prepareCallOperation(*m_vm); } ALWAYS_INLINE MacroAssembler::Call JIT::appendCallWithExceptionCheck(const FunctionPtr function) { updateTopCallFrame(); MacroAssembler::Call call = appendCall(function); exceptionCheck(); return call; } ALWAYS_INLINE void JIT::appendCallWithExceptionCheck(Address function) { updateTopCallFrame(); appendCall(function); exceptionCheck(); } #if OS(WINDOWS) && CPU(X86_64) ALWAYS_INLINE MacroAssembler::Call JIT::appendCallWithExceptionCheckAndSlowPathReturnType(const FunctionPtr function) { updateTopCallFrame(); MacroAssembler::Call call = appendCallWithSlowPathReturnType(function); exceptionCheck(); return call; } #endif ALWAYS_INLINE MacroAssembler::Call JIT::appendCallWithCallFrameRollbackOnException(const FunctionPtr function) { updateTopCallFrame(); // The callee is responsible for setting topCallFrame to their caller MacroAssembler::Call call = appendCall(function); exceptionCheckWithCallFrameRollback(); return call; } ALWAYS_INLINE MacroAssembler::Call JIT::appendCallWithExceptionCheckSetJSValueResult(const FunctionPtr function, VirtualRegister dst) { MacroAssembler::Call call = appendCallWithExceptionCheck(function); emitPutVirtualRegister(dst, returnValueJSR); return call; } ALWAYS_INLINE void JIT::appendCallWithExceptionCheckSetJSValueResult(Address function, VirtualRegister dst) { appendCallWithExceptionCheck(function); emitPutVirtualRegister(dst, returnValueJSR); } template ALWAYS_INLINE MacroAssembler::Call JIT::appendCallWithExceptionCheckSetJSValueResultWithProfile(const Bytecode& bytecode, const FunctionPtr function, VirtualRegister dst) { MacroAssembler::Call call = appendCallWithExceptionCheck(function); emitValueProfilingSite(bytecode, returnValueJSR); emitPutVirtualRegister(dst, returnValueJSR); return call; } template ALWAYS_INLINE void JIT::appendCallWithExceptionCheckSetJSValueResultWithProfile(const Bytecode& bytecode, Address function, VirtualRegister dst) { appendCallWithExceptionCheck(function); emitValueProfilingSite(bytecode, returnValueJSR); emitPutVirtualRegister(dst, returnValueJSR); } ALWAYS_INLINE void JIT::linkAllSlowCasesForBytecodeIndex(Vector& slowCases, Vector::iterator& iter, BytecodeIndex bytecodeIndex) { while (iter != slowCases.end() && iter->to == bytecodeIndex) linkSlowCase(iter); } ALWAYS_INLINE bool JIT::hasAnySlowCases(Vector& slowCases, Vector::iterator& iter, BytecodeIndex bytecodeIndex) { if (iter != slowCases.end() && iter->to == bytecodeIndex) return true; return false; } inline void JIT::advanceToNextCheckpoint() { ASSERT_WITH_MESSAGE(m_bytecodeIndex, "This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set"); ASSERT(m_unlinkedCodeBlock->instructionAt(m_bytecodeIndex)->hasCheckpoints()); m_bytecodeIndex = BytecodeIndex(m_bytecodeIndex.offset(), m_bytecodeIndex.checkpoint() + 1); auto result = m_checkpointLabels.add(m_bytecodeIndex, label()); ASSERT_UNUSED(result, result.isNewEntry); } inline void JIT::emitJumpSlowToHotForCheckpoint(Jump jump) { ASSERT_WITH_MESSAGE(m_bytecodeIndex, "This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set"); ASSERT(m_unlinkedCodeBlock->instructionAt(m_bytecodeIndex)->hasCheckpoints()); m_bytecodeIndex = BytecodeIndex(m_bytecodeIndex.offset(), m_bytecodeIndex.checkpoint() + 1); auto iter = m_checkpointLabels.find(m_bytecodeIndex); ASSERT(iter != m_checkpointLabels.end()); jump.linkTo(iter->value, this); } inline void JIT::setFastPathResumePoint() { ASSERT_WITH_MESSAGE(m_bytecodeIndex, "This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set"); auto result = m_fastPathResumeLabels.add(m_bytecodeIndex, label()); ASSERT_UNUSED(result, result.isNewEntry); } inline MacroAssembler::Label JIT::fastPathResumePoint() const { ASSERT_WITH_MESSAGE(m_bytecodeIndex, "This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set"); // Location set by setFastPathResumePoint auto iter = m_fastPathResumeLabels.find(m_bytecodeIndex); if (iter != m_fastPathResumeLabels.end()) return iter->value; // Next instruction in sequence const Instruction* currentInstruction = m_unlinkedCodeBlock->instructions().at(m_bytecodeIndex).ptr(); return m_labels[m_bytecodeIndex.offset() + currentInstruction->size()]; } ALWAYS_INLINE void JIT::addSlowCase(Jump jump) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. m_slowCases.append(SlowCaseEntry(jump, m_bytecodeIndex)); } ALWAYS_INLINE void JIT::addSlowCase(const JumpList& jumpList) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. for (const Jump& jump : jumpList.jumps()) m_slowCases.append(SlowCaseEntry(jump, m_bytecodeIndex)); } ALWAYS_INLINE void JIT::addSlowCase() { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. Jump emptyJump; // Doing it this way to make Windows happy. m_slowCases.append(SlowCaseEntry(emptyJump, m_bytecodeIndex)); } ALWAYS_INLINE void JIT::addJump(Jump jump, int relativeOffset) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. m_jmpTable.append(JumpTable(jump, m_bytecodeIndex.offset() + relativeOffset)); } ALWAYS_INLINE void JIT::addJump(const JumpList& jumpList, int relativeOffset) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. for (auto& jump : jumpList.jumps()) addJump(jump, relativeOffset); } ALWAYS_INLINE void JIT::emitJumpSlowToHot(Jump jump, int relativeOffset) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. jump.linkTo(m_labels[m_bytecodeIndex.offset() + relativeOffset], this); } #if ENABLE(SAMPLING_FLAGS) ALWAYS_INLINE void JIT::setSamplingFlag(int32_t flag) { ASSERT(flag >= 1); ASSERT(flag <= 32); or32(TrustedImm32(1u << (flag - 1)), AbsoluteAddress(SamplingFlags::addressOfFlags())); } ALWAYS_INLINE void JIT::clearSamplingFlag(int32_t flag) { ASSERT(flag >= 1); ASSERT(flag <= 32); and32(TrustedImm32(~(1u << (flag - 1))), AbsoluteAddress(SamplingFlags::addressOfFlags())); } #endif #if ENABLE(SAMPLING_COUNTERS) ALWAYS_INLINE void JIT::emitCount(AbstractSamplingCounter& counter, int32_t count) { add64(TrustedImm32(count), AbsoluteAddress(counter.addressOfCounter())); } #endif ALWAYS_INLINE bool JIT::isOperandConstantChar(VirtualRegister src) { if (!src.isConstant()) return false; if (m_unlinkedCodeBlock->constantSourceCodeRepresentation(src) == SourceCodeRepresentation::LinkTimeConstant) return false; return getConstantOperand(src).isString() && asString(getConstantOperand(src).asCell())->length() == 1; } template inline void JIT::emitValueProfilingSite(const Bytecode& bytecode, JSValueRegs value) { if (!shouldEmitProfiling()) return; ptrdiff_t offset = m_unlinkedCodeBlock->metadata().offsetInMetadataTable(bytecode) + valueProfileOffsetFor(m_bytecodeIndex.checkpoint()) + ValueProfile::offsetOfFirstBucket(); storeValue(value, Address(s_metadataGPR, offset)); } template inline void JIT::emitArrayProfilingSiteWithCell(const Bytecode& bytecode, ptrdiff_t offsetOfArrayProfile, RegisterID cellGPR, RegisterID scratchGPR) { if (shouldEmitProfiling()) { load32(Address(cellGPR, JSCell::structureIDOffset()), scratchGPR); store32ToMetadata(scratchGPR, bytecode, offsetOfArrayProfile); } } template inline void JIT::emitArrayProfilingSiteWithCell(const Bytecode& bytecode, RegisterID cellGPR, RegisterID scratchGPR) { emitArrayProfilingSiteWithCell(bytecode, Bytecode::Metadata::offsetOfArrayProfile() + ArrayProfile::offsetOfLastSeenStructureID(), cellGPR, scratchGPR); } ALWAYS_INLINE int32_t JIT::getOperandConstantInt(VirtualRegister src) { return getConstantOperand(src).asInt32(); } #if USE(JSVALUE64) ALWAYS_INLINE double JIT::getOperandConstantDouble(VirtualRegister src) { return getConstantOperand(src).asDouble(); } #endif ALWAYS_INLINE void JIT::emitGetVirtualRegister(VirtualRegister src, JSValueRegs dst) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. if (src.isConstant()) { if (m_profiledCodeBlock->isConstantOwnedByUnlinkedCodeBlock(src)) moveValue(m_unlinkedCodeBlock->getConstant(src), dst); else loadCodeBlockConstant(src, dst); return; } loadValue(addressFor(src), dst); } ALWAYS_INLINE void JIT::emitPutVirtualRegister(VirtualRegister dst, JSValueRegs from) { storeValue(from, addressFor(dst)); } ALWAYS_INLINE void JIT::emitGetVirtualRegisterPayload(VirtualRegister src, RegisterID dst) { #if USE(JSVALUE64) emitGetVirtualRegister(src, JSValueRegs { dst }); #elif USE(JSVALUE32_64) ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. if (src.isConstant()) { if (m_profiledCodeBlock->isConstantOwnedByUnlinkedCodeBlock(src)) move(Imm32(m_unlinkedCodeBlock->getConstant(src).payload()), dst); else loadCodeBlockConstantPayload(src, dst); return; } load32(payloadFor(src), dst); #endif } #if USE(JSVALUE32_64) ALWAYS_INLINE void JIT::emitGetVirtualRegisterTag(VirtualRegister src, RegisterID dst) { ASSERT(m_bytecodeIndex); // This method should only be called during hot/cold path generation, so that m_bytecodeIndex is set. if (src.isConstant()) { if (m_profiledCodeBlock->isConstantOwnedByUnlinkedCodeBlock(src)) move(Imm32(m_unlinkedCodeBlock->getConstant(src).tag()), dst); else loadCodeBlockConstantTag(src, dst); return; } load32(tagFor(src), dst); } #elif USE(JSVALUE64) ALWAYS_INLINE void JIT::emitGetVirtualRegister(VirtualRegister src, RegisterID dst) { emitGetVirtualRegister(src, JSValueRegs { dst }); } ALWAYS_INLINE void JIT::emitPutVirtualRegister(VirtualRegister dst, RegisterID from) { emitPutVirtualRegister(dst, JSValueRegs { from }); } ALWAYS_INLINE JIT::Jump JIT::emitJumpIfNotInt(RegisterID reg1, RegisterID reg2, RegisterID scratch) { move(reg1, scratch); and64(reg2, scratch); return branchIfNotInt32(scratch); } ALWAYS_INLINE void JIT::emitJumpSlowCaseIfNotInt(RegisterID reg1, RegisterID reg2, RegisterID scratch) { addSlowCase(emitJumpIfNotInt(reg1, reg2, scratch)); } ALWAYS_INLINE void JIT::emitJumpSlowCaseIfNotInt(RegisterID gpr) { emitJumpSlowCaseIfNotInt(JSValueRegs { gpr }); } #endif ALWAYS_INLINE void JIT::emitJumpSlowCaseIfNotInt(JSValueRegs jsr) { addSlowCase(branchIfNotInt32(jsr)); } ALWAYS_INLINE void JIT::emitJumpSlowCaseIfNotJSCell(JSValueRegs reg) { addSlowCase(branchIfNotCell(reg)); } ALWAYS_INLINE void JIT::emitJumpSlowCaseIfNotJSCell(JSValueRegs jsReg, VirtualRegister vReg) { if (!isKnownCell(vReg)) emitJumpSlowCaseIfNotJSCell(jsReg); } ALWAYS_INLINE int JIT::jumpTarget(const Instruction* instruction, int target) { if (target) return target; return m_unlinkedCodeBlock->outOfLineJumpOffset(instruction); } template ALWAYS_INLINE ECMAMode JIT::ecmaMode(Op op) { return op.m_ecmaMode; } template<> ALWAYS_INLINE ECMAMode JIT::ecmaMode(OpPutById op) { return op.m_flags.ecmaMode(); } template<> ALWAYS_INLINE ECMAMode JIT::ecmaMode(OpPutPrivateName) { return ECMAMode::strict(); } template ALWAYS_INLINE void JIT::loadPtrFromMetadata(const Bytecode& bytecode, size_t offset, GPRReg result) { loadPtr(Address(s_metadataGPR, m_unlinkedCodeBlock->metadata().offsetInMetadataTable(bytecode) + offset), result); } template ALWAYS_INLINE void JIT::load32FromMetadata(const Bytecode& bytecode, size_t offset, GPRReg result) { load32(Address(s_metadataGPR, m_unlinkedCodeBlock->metadata().offsetInMetadataTable(bytecode) + offset), result); } template ALWAYS_INLINE void JIT::load8FromMetadata(const Bytecode& bytecode, size_t offset, GPRReg result) { load8(Address(s_metadataGPR, m_unlinkedCodeBlock->metadata().offsetInMetadataTable(bytecode) + offset), result); } template ALWAYS_INLINE void JIT::store8ToMetadata(ValueType value, const Bytecode& bytecode, size_t offset) { store8(value, Address(s_metadataGPR, m_unlinkedCodeBlock->metadata().offsetInMetadataTable(bytecode) + offset)); } template ALWAYS_INLINE void JIT::store32ToMetadata(GPRReg value, const Bytecode& bytecode, size_t offset) { store32(value, Address(s_metadataGPR, m_unlinkedCodeBlock->metadata().offsetInMetadataTable(bytecode) + offset)); } template ALWAYS_INLINE void JIT::materializePointerIntoMetadata(const Bytecode& bytecode, size_t offset, GPRReg result) { addPtr(TrustedImm32(m_unlinkedCodeBlock->metadata().offsetInMetadataTable(bytecode) + offset), s_metadataGPR, result); } ALWAYS_INLINE void JIT::loadConstant(JITConstantPool::Constant constantIndex, GPRReg result) { loadPtr(Address(s_constantsGPR, BaselineJITData::offsetOfData() + static_cast(constantIndex) * sizeof(void*)), result); } ALWAYS_INLINE void JIT::loadGlobalObject(GPRReg result) { loadConstant(m_globalObjectConstant, result); } ALWAYS_INLINE static void loadAddrOfCodeBlockConstantBuffer(JIT &jit, GPRReg dst) { jit.loadPtr(jit.addressFor(CallFrameSlot::codeBlock), dst); jit.loadPtr(JIT::Address(dst, CodeBlock::offsetOfConstantsVectorBuffer()), dst); } ALWAYS_INLINE void JIT::loadCodeBlockConstant(VirtualRegister constant, JSValueRegs dst) { RELEASE_ASSERT(constant.isConstant()); loadAddrOfCodeBlockConstantBuffer(*this, dst.payloadGPR()); loadValue(Address(dst.payloadGPR(), constant.toConstantIndex() * sizeof(Register)), dst); } ALWAYS_INLINE void JIT::loadCodeBlockConstantPayload(VirtualRegister constant, RegisterID dst) { RELEASE_ASSERT(constant.isConstant()); loadAddrOfCodeBlockConstantBuffer(*this, dst); Address address(dst, constant.toConstantIndex() * sizeof(Register)); #if USE(JSVALUE64) load64(address, dst); #elif USE(JSVALUE32_64) load32(address.withOffset(PayloadOffset), dst); #endif } #if USE(JSVALUE32_64) ALWAYS_INLINE void JIT::loadCodeBlockConstantTag(VirtualRegister constant, RegisterID dst) { RELEASE_ASSERT(constant.isConstant()); loadAddrOfCodeBlockConstantBuffer(*this, dst); load32(Address(dst, constant.toConstantIndex() * sizeof(Register) + TagOffset), dst); } #endif } // namespace JSC #endif // ENABLE(JIT)