/* * Copyright (C) 2011, 2012 Apple Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * 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. */ #include "config.h" #include "DFGRepatch.h" #if ENABLE(DFG_JIT) #include "DFGCCallHelpers.h" #include "DFGScratchRegisterAllocator.h" #include "DFGSpeculativeJIT.h" #include "DFGThunks.h" #include "GCAwareJITStubRoutine.h" #include "LinkBuffer.h" #include "Operations.h" #include "PolymorphicPutByIdList.h" #include "RepatchBuffer.h" #include "StructureRareDataInlines.h" #include namespace JSC { namespace DFG { static void dfgRepatchCall(CodeBlock* codeblock, CodeLocationCall call, FunctionPtr newCalleeFunction) { RepatchBuffer repatchBuffer(codeblock); repatchBuffer.relink(call, newCalleeFunction); } static void dfgRepatchByIdSelfAccess(CodeBlock* codeBlock, StructureStubInfo& stubInfo, Structure* structure, PropertyOffset offset, const FunctionPtr &slowPathFunction, bool compact) { RepatchBuffer repatchBuffer(codeBlock); // Only optimize once! repatchBuffer.relink(stubInfo.callReturnLocation, slowPathFunction); // Patch the structure check & the offset of the load. repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabelPtrAtOffset(-(intptr_t)stubInfo.patch.dfg.deltaCheckImmToCall), structure); repatchBuffer.setLoadInstructionIsActive(stubInfo.callReturnLocation.convertibleLoadAtOffset(stubInfo.patch.dfg.deltaCallToStorageLoad), isOutOfLineOffset(offset)); #if USE(JSVALUE64) if (compact) repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabelCompactAtOffset(stubInfo.patch.dfg.deltaCallToLoadOrStore), offsetRelativeToPatchedStorage(offset)); else repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabel32AtOffset(stubInfo.patch.dfg.deltaCallToLoadOrStore), offsetRelativeToPatchedStorage(offset)); #elif USE(JSVALUE32_64) if (compact) { repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabelCompactAtOffset(stubInfo.patch.dfg.deltaCallToTagLoadOrStore), offsetRelativeToPatchedStorage(offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)); repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabelCompactAtOffset(stubInfo.patch.dfg.deltaCallToPayloadLoadOrStore), offsetRelativeToPatchedStorage(offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)); } else { repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabel32AtOffset(stubInfo.patch.dfg.deltaCallToTagLoadOrStore), offsetRelativeToPatchedStorage(offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)); repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabel32AtOffset(stubInfo.patch.dfg.deltaCallToPayloadLoadOrStore), offsetRelativeToPatchedStorage(offset) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)); } #endif } static void addStructureTransitionCheck( JSCell* object, Structure* structure, CodeBlock* codeBlock, StructureStubInfo& stubInfo, MacroAssembler& jit, MacroAssembler::JumpList& failureCases, GPRReg scratchGPR) { if (object->structure() == structure && structure->transitionWatchpointSetIsStillValid()) { structure->addTransitionWatchpoint(stubInfo.addWatchpoint(codeBlock)); #if DFG_ENABLE(JIT_ASSERT) // If we execute this code, the object must have the structure we expect. Assert // this in debug modes. jit.move(MacroAssembler::TrustedImmPtr(object), scratchGPR); MacroAssembler::Jump ok = jit.branchPtr( MacroAssembler::Equal, MacroAssembler::Address(scratchGPR, JSCell::structureOffset()), MacroAssembler::TrustedImmPtr(structure)); jit.breakpoint(); ok.link(&jit); #endif return; } jit.move(MacroAssembler::TrustedImmPtr(object), scratchGPR); failureCases.append( jit.branchPtr( MacroAssembler::NotEqual, MacroAssembler::Address(scratchGPR, JSCell::structureOffset()), MacroAssembler::TrustedImmPtr(structure))); } static void addStructureTransitionCheck( JSValue prototype, CodeBlock* codeBlock, StructureStubInfo& stubInfo, MacroAssembler& jit, MacroAssembler::JumpList& failureCases, GPRReg scratchGPR) { if (prototype.isNull()) return; ASSERT(prototype.isCell()); addStructureTransitionCheck( prototype.asCell(), prototype.asCell()->structure(), codeBlock, stubInfo, jit, failureCases, scratchGPR); } static void replaceWithJump(RepatchBuffer& repatchBuffer, StructureStubInfo& stubInfo, const MacroAssemblerCodePtr target) { if (MacroAssembler::canJumpReplacePatchableBranchPtrWithPatch()) { repatchBuffer.replaceWithJump( RepatchBuffer::startOfPatchableBranchPtrWithPatchOnAddress( stubInfo.callReturnLocation.dataLabelPtrAtOffset( -(intptr_t)stubInfo.patch.dfg.deltaCheckImmToCall)), CodeLocationLabel(target)); return; } repatchBuffer.relink( stubInfo.callReturnLocation.jumpAtOffset( stubInfo.patch.dfg.deltaCallToStructCheck), CodeLocationLabel(target)); } static void emitRestoreScratch(MacroAssembler& stubJit, bool needToRestoreScratch, GPRReg scratchGPR, MacroAssembler::Jump& success, MacroAssembler::Jump& fail, MacroAssembler::JumpList failureCases) { if (needToRestoreScratch) { stubJit.pop(scratchGPR); success = stubJit.jump(); // link failure cases here, so we can pop scratchGPR, and then jump back. failureCases.link(&stubJit); stubJit.pop(scratchGPR); fail = stubJit.jump(); return; } success = stubJit.jump(); } static void linkRestoreScratch(LinkBuffer& patchBuffer, bool needToRestoreScratch, MacroAssembler::Jump success, MacroAssembler::Jump fail, MacroAssembler::JumpList failureCases, CodeLocationLabel successLabel, CodeLocationLabel slowCaseBegin) { patchBuffer.link(success, successLabel); if (needToRestoreScratch) { patchBuffer.link(fail, slowCaseBegin); return; } // link failure cases directly back to normal path patchBuffer.link(failureCases, slowCaseBegin); } static void linkRestoreScratch(LinkBuffer& patchBuffer, bool needToRestoreScratch, StructureStubInfo& stubInfo, MacroAssembler::Jump success, MacroAssembler::Jump fail, MacroAssembler::JumpList failureCases) { linkRestoreScratch(patchBuffer, needToRestoreScratch, success, fail, failureCases, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToDone), stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase)); } static void generateProtoChainAccessStub(ExecState* exec, StructureStubInfo& stubInfo, StructureChain* chain, size_t count, PropertyOffset offset, Structure* structure, CodeLocationLabel successLabel, CodeLocationLabel slowCaseLabel, RefPtr& stubRoutine) { VM* vm = &exec->vm(); MacroAssembler stubJit; GPRReg baseGPR = static_cast(stubInfo.patch.dfg.baseGPR); #if USE(JSVALUE32_64) GPRReg resultTagGPR = static_cast(stubInfo.patch.dfg.valueTagGPR); #endif GPRReg resultGPR = static_cast(stubInfo.patch.dfg.valueGPR); GPRReg scratchGPR = RegisterSet(stubInfo.patch.dfg.usedRegisters).getFreeGPR(); bool needToRestoreScratch = false; if (scratchGPR == InvalidGPRReg) { #if USE(JSVALUE64) scratchGPR = SpeculativeJIT::selectScratchGPR(baseGPR, resultGPR); #else scratchGPR = SpeculativeJIT::selectScratchGPR(baseGPR, resultGPR, resultTagGPR); #endif stubJit.push(scratchGPR); needToRestoreScratch = true; } MacroAssembler::JumpList failureCases; failureCases.append(stubJit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR, JSCell::structureOffset()), MacroAssembler::TrustedImmPtr(structure))); Structure* currStructure = structure; WriteBarrier* it = chain->head(); JSObject* protoObject = 0; for (unsigned i = 0; i < count; ++i, ++it) { protoObject = asObject(currStructure->prototypeForLookup(exec)); addStructureTransitionCheck( protoObject, protoObject->structure(), exec->codeBlock(), stubInfo, stubJit, failureCases, scratchGPR); currStructure = it->get(); } if (isInlineOffset(offset)) { #if USE(JSVALUE64) stubJit.load64(protoObject->locationForOffset(offset), resultGPR); #elif USE(JSVALUE32_64) stubJit.move(MacroAssembler::TrustedImmPtr(protoObject->locationForOffset(offset)), resultGPR); stubJit.load32(MacroAssembler::Address(resultGPR, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR); stubJit.load32(MacroAssembler::Address(resultGPR, OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultGPR); #endif } else { stubJit.loadPtr(protoObject->butterflyAddress(), resultGPR); #if USE(JSVALUE64) stubJit.load64(MacroAssembler::Address(resultGPR, offsetInButterfly(offset) * sizeof(WriteBarrier)), resultGPR); #elif USE(JSVALUE32_64) stubJit.load32(MacroAssembler::Address(resultGPR, offsetInButterfly(offset) * sizeof(WriteBarrier) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR); stubJit.load32(MacroAssembler::Address(resultGPR, offsetInButterfly(offset) * sizeof(WriteBarrier) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultGPR); #endif } MacroAssembler::Jump success, fail; emitRestoreScratch(stubJit, needToRestoreScratch, scratchGPR, success, fail, failureCases); LinkBuffer patchBuffer(*vm, &stubJit, exec->codeBlock()); linkRestoreScratch(patchBuffer, needToRestoreScratch, success, fail, failureCases, successLabel, slowCaseLabel); stubRoutine = FINALIZE_CODE_FOR_DFG_STUB( patchBuffer, ("DFG prototype chain access stub for %s, return point %p", toCString(*exec->codeBlock()).data(), successLabel.executableAddress())); } static bool tryCacheGetByID(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot, StructureStubInfo& stubInfo) { // FIXME: Write a test that proves we need to check for recursion here just // like the interpreter does, then add a check for recursion. CodeBlock* codeBlock = exec->codeBlock(); VM* vm = &exec->vm(); if (isJSArray(baseValue) && propertyName == exec->propertyNames().length) { GPRReg baseGPR = static_cast(stubInfo.patch.dfg.baseGPR); #if USE(JSVALUE32_64) GPRReg resultTagGPR = static_cast(stubInfo.patch.dfg.valueTagGPR); #endif GPRReg resultGPR = static_cast(stubInfo.patch.dfg.valueGPR); GPRReg scratchGPR = RegisterSet(stubInfo.patch.dfg.usedRegisters).getFreeGPR(); bool needToRestoreScratch = false; MacroAssembler stubJit; if (scratchGPR == InvalidGPRReg) { #if USE(JSVALUE64) scratchGPR = SpeculativeJIT::selectScratchGPR(baseGPR, resultGPR); #else scratchGPR = SpeculativeJIT::selectScratchGPR(baseGPR, resultGPR, resultTagGPR); #endif stubJit.push(scratchGPR); needToRestoreScratch = true; } MacroAssembler::JumpList failureCases; stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSCell::structureOffset()), scratchGPR); stubJit.load8(MacroAssembler::Address(scratchGPR, Structure::indexingTypeOffset()), scratchGPR); failureCases.append(stubJit.branchTest32(MacroAssembler::Zero, scratchGPR, MacroAssembler::TrustedImm32(IsArray))); failureCases.append(stubJit.branchTest32(MacroAssembler::Zero, scratchGPR, MacroAssembler::TrustedImm32(IndexingShapeMask))); stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), scratchGPR); stubJit.load32(MacroAssembler::Address(scratchGPR, ArrayStorage::lengthOffset()), scratchGPR); failureCases.append(stubJit.branch32(MacroAssembler::LessThan, scratchGPR, MacroAssembler::TrustedImm32(0))); #if USE(JSVALUE64) stubJit.or64(GPRInfo::tagTypeNumberRegister, scratchGPR, resultGPR); #elif USE(JSVALUE32_64) stubJit.move(scratchGPR, resultGPR); stubJit.move(JITCompiler::TrustedImm32(0xffffffff), resultTagGPR); // JSValue::Int32Tag #endif MacroAssembler::Jump success, fail; emitRestoreScratch(stubJit, needToRestoreScratch, scratchGPR, success, fail, failureCases); LinkBuffer patchBuffer(*vm, &stubJit, codeBlock); linkRestoreScratch(patchBuffer, needToRestoreScratch, stubInfo, success, fail, failureCases); stubInfo.stubRoutine = FINALIZE_CODE_FOR_DFG_STUB( patchBuffer, ("DFG GetById array length stub for %s, return point %p", toCString(*exec->codeBlock()).data(), stubInfo.callReturnLocation.labelAtOffset( stubInfo.patch.dfg.deltaCallToDone).executableAddress())); RepatchBuffer repatchBuffer(codeBlock); replaceWithJump(repatchBuffer, stubInfo, stubInfo.stubRoutine->code().code()); repatchBuffer.relink(stubInfo.callReturnLocation, operationGetById); return true; } // FIXME: should support length access for String. // FIXME: Cache property access for immediates. if (!baseValue.isCell()) return false; JSCell* baseCell = baseValue.asCell(); Structure* structure = baseCell->structure(); if (!slot.isCacheable()) return false; if (!structure->propertyAccessesAreCacheable()) return false; // Optimize self access. if (slot.slotBase() == baseValue) { if ((slot.cachedPropertyType() != PropertySlot::Value) || !MacroAssembler::isCompactPtrAlignedAddressOffset(maxOffsetRelativeToPatchedStorage(slot.cachedOffset()))) { dfgRepatchCall(codeBlock, stubInfo.callReturnLocation, operationGetByIdBuildList); return true; } dfgRepatchByIdSelfAccess(codeBlock, stubInfo, structure, slot.cachedOffset(), operationGetByIdBuildList, true); stubInfo.initGetByIdSelf(*vm, codeBlock->ownerExecutable(), structure); return true; } if (structure->isDictionary()) return false; // FIXME: optimize getters and setters if (slot.cachedPropertyType() != PropertySlot::Value) return false; PropertyOffset offset = slot.cachedOffset(); size_t count = normalizePrototypeChainForChainAccess(exec, baseValue, slot.slotBase(), propertyName, offset); if (count == InvalidPrototypeChain) return false; StructureChain* prototypeChain = structure->prototypeChain(exec); ASSERT(slot.slotBase().isObject()); generateProtoChainAccessStub(exec, stubInfo, prototypeChain, count, offset, structure, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToDone), stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase), stubInfo.stubRoutine); RepatchBuffer repatchBuffer(codeBlock); replaceWithJump(repatchBuffer, stubInfo, stubInfo.stubRoutine->code().code()); repatchBuffer.relink(stubInfo.callReturnLocation, operationGetByIdProtoBuildList); stubInfo.initGetByIdChain(*vm, codeBlock->ownerExecutable(), structure, prototypeChain, count, true); return true; } void dfgRepatchGetByID(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot, StructureStubInfo& stubInfo) { bool cached = tryCacheGetByID(exec, baseValue, propertyName, slot, stubInfo); if (!cached) dfgRepatchCall(exec->codeBlock(), stubInfo.callReturnLocation, operationGetById); } static bool tryBuildGetByIDList(ExecState* exec, JSValue baseValue, const Identifier& ident, const PropertySlot& slot, StructureStubInfo& stubInfo) { if (!baseValue.isCell() || !slot.isCacheable() || baseValue.asCell()->structure()->isUncacheableDictionary() || slot.slotBase() != baseValue) return false; if (!stubInfo.patch.dfg.registersFlushed) { // We cannot do as much inline caching if the registers were not flushed prior to this GetById. In particular, // non-Value cached properties require planting calls, which requires registers to have been flushed. Thus, // if registers were not flushed, don't do non-Value caching. if (slot.cachedPropertyType() != PropertySlot::Value) return false; } CodeBlock* codeBlock = exec->codeBlock(); JSCell* baseCell = baseValue.asCell(); Structure* structure = baseCell->structure(); VM* vm = &exec->vm(); ASSERT(slot.slotBase().isObject()); PolymorphicAccessStructureList* polymorphicStructureList; int listIndex; if (stubInfo.accessType == access_unset) { ASSERT(!stubInfo.stubRoutine); polymorphicStructureList = new PolymorphicAccessStructureList(); stubInfo.initGetByIdSelfList(polymorphicStructureList, 0); listIndex = 0; } else if (stubInfo.accessType == access_get_by_id_self) { ASSERT(!stubInfo.stubRoutine); polymorphicStructureList = new PolymorphicAccessStructureList(*vm, codeBlock->ownerExecutable(), JITStubRoutine::createSelfManagedRoutine(stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase)), stubInfo.u.getByIdSelf.baseObjectStructure.get(), true); stubInfo.initGetByIdSelfList(polymorphicStructureList, 1); listIndex = 1; } else { polymorphicStructureList = stubInfo.u.getByIdSelfList.structureList; listIndex = stubInfo.u.getByIdSelfList.listSize; } if (listIndex < POLYMORPHIC_LIST_CACHE_SIZE) { stubInfo.u.getByIdSelfList.listSize++; GPRReg baseGPR = static_cast(stubInfo.patch.dfg.baseGPR); #if USE(JSVALUE32_64) GPRReg resultTagGPR = static_cast(stubInfo.patch.dfg.valueTagGPR); #endif GPRReg resultGPR = static_cast(stubInfo.patch.dfg.valueGPR); GPRReg scratchGPR = RegisterSet(stubInfo.patch.dfg.usedRegisters).getFreeGPR(); CCallHelpers stubJit(vm, codeBlock); MacroAssembler::Jump wrongStruct = stubJit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR, JSCell::structureOffset()), MacroAssembler::TrustedImmPtr(structure)); // The strategy we use for stubs is as follows: // 1) Call DFG helper that calls the getter. // 2) Check if there was an exception, and if there was, call yet another // helper. bool isDirect = false; MacroAssembler::Call operationCall; MacroAssembler::Call handlerCall; FunctionPtr operationFunction; MacroAssembler::Jump success; if (slot.cachedPropertyType() == PropertySlot::Getter || slot.cachedPropertyType() == PropertySlot::Custom) { if (slot.cachedPropertyType() == PropertySlot::Getter) { ASSERT(scratchGPR != InvalidGPRReg); ASSERT(baseGPR != scratchGPR); if (isInlineOffset(slot.cachedOffset())) { #if USE(JSVALUE64) stubJit.load64(MacroAssembler::Address(baseGPR, offsetRelativeToBase(slot.cachedOffset())), scratchGPR); #else stubJit.load32(MacroAssembler::Address(baseGPR, offsetRelativeToBase(slot.cachedOffset())), scratchGPR); #endif } else { stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), scratchGPR); #if USE(JSVALUE64) stubJit.load64(MacroAssembler::Address(scratchGPR, offsetRelativeToBase(slot.cachedOffset())), scratchGPR); #else stubJit.load32(MacroAssembler::Address(scratchGPR, offsetRelativeToBase(slot.cachedOffset())), scratchGPR); #endif } stubJit.setupArgumentsWithExecState(baseGPR, scratchGPR); operationFunction = operationCallGetter; } else { stubJit.setupArgumentsWithExecState( baseGPR, MacroAssembler::TrustedImmPtr(FunctionPtr(slot.customGetter()).executableAddress()), MacroAssembler::TrustedImmPtr(const_cast(&ident))); operationFunction = operationCallCustomGetter; } // Need to make sure that whenever this call is made in the future, we remember the // place that we made it from. It just so happens to be the place that we are at // right now! stubJit.store32( MacroAssembler::TrustedImm32(exec->codeOriginIndexForDFG()), CCallHelpers::tagFor(static_cast(JSStack::ArgumentCount))); operationCall = stubJit.call(); #if USE(JSVALUE64) stubJit.move(GPRInfo::returnValueGPR, resultGPR); #else stubJit.setupResults(resultGPR, resultTagGPR); #endif success = stubJit.emitExceptionCheck(CCallHelpers::InvertedExceptionCheck); stubJit.setupArgumentsWithExecState( MacroAssembler::TrustedImmPtr(&stubInfo)); handlerCall = stubJit.call(); stubJit.jump(GPRInfo::returnValueGPR2); } else { if (isInlineOffset(slot.cachedOffset())) { #if USE(JSVALUE64) stubJit.load64(MacroAssembler::Address(baseGPR, offsetRelativeToBase(slot.cachedOffset())), resultGPR); #else if (baseGPR == resultTagGPR) { stubJit.load32(MacroAssembler::Address(baseGPR, offsetRelativeToBase(slot.cachedOffset()) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultGPR); stubJit.load32(MacroAssembler::Address(baseGPR, offsetRelativeToBase(slot.cachedOffset()) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR); } else { stubJit.load32(MacroAssembler::Address(baseGPR, offsetRelativeToBase(slot.cachedOffset()) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR); stubJit.load32(MacroAssembler::Address(baseGPR, offsetRelativeToBase(slot.cachedOffset()) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultGPR); } #endif } else { stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), resultGPR); #if USE(JSVALUE64) stubJit.load64(MacroAssembler::Address(resultGPR, offsetRelativeToBase(slot.cachedOffset())), resultGPR); #else stubJit.load32(MacroAssembler::Address(resultGPR, offsetRelativeToBase(slot.cachedOffset()) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag)), resultTagGPR); stubJit.load32(MacroAssembler::Address(resultGPR, offsetRelativeToBase(slot.cachedOffset()) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload)), resultGPR); #endif } success = stubJit.jump(); isDirect = true; } LinkBuffer patchBuffer(*vm, &stubJit, codeBlock); CodeLocationLabel lastProtoBegin; if (listIndex) lastProtoBegin = CodeLocationLabel(polymorphicStructureList->list[listIndex - 1].stubRoutine->code().code()); else lastProtoBegin = stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase); ASSERT(!!lastProtoBegin); patchBuffer.link(wrongStruct, lastProtoBegin); patchBuffer.link(success, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToDone)); if (!isDirect) { patchBuffer.link(operationCall, operationFunction); patchBuffer.link(handlerCall, lookupExceptionHandlerInStub); } RefPtr stubRoutine = createJITStubRoutine( FINALIZE_DFG_CODE( patchBuffer, ("DFG GetById polymorphic list access for %s, return point %p", toCString(*exec->codeBlock()).data(), stubInfo.callReturnLocation.labelAtOffset( stubInfo.patch.dfg.deltaCallToDone).executableAddress())), *vm, codeBlock->ownerExecutable(), slot.cachedPropertyType() == PropertySlot::Getter || slot.cachedPropertyType() == PropertySlot::Custom); polymorphicStructureList->list[listIndex].set(*vm, codeBlock->ownerExecutable(), stubRoutine, structure, isDirect); RepatchBuffer repatchBuffer(codeBlock); repatchBuffer.relink( stubInfo.callReturnLocation.jumpAtOffset( stubInfo.patch.dfg.deltaCallToStructCheck), CodeLocationLabel(stubRoutine->code().code())); if (listIndex < (POLYMORPHIC_LIST_CACHE_SIZE - 1)) return true; } return false; } void dfgBuildGetByIDList(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot, StructureStubInfo& stubInfo) { bool dontChangeCall = tryBuildGetByIDList(exec, baseValue, propertyName, slot, stubInfo); if (!dontChangeCall) dfgRepatchCall(exec->codeBlock(), stubInfo.callReturnLocation, operationGetById); } static bool tryBuildGetByIDProtoList(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot, StructureStubInfo& stubInfo) { if (!baseValue.isCell() || !slot.isCacheable() || baseValue.asCell()->structure()->isDictionary() || baseValue.asCell()->structure()->typeInfo().prohibitsPropertyCaching() || slot.slotBase() == baseValue || slot.cachedPropertyType() != PropertySlot::Value) return false; ASSERT(slot.slotBase().isObject()); PropertyOffset offset = slot.cachedOffset(); size_t count = normalizePrototypeChainForChainAccess(exec, baseValue, slot.slotBase(), propertyName, offset); if (count == InvalidPrototypeChain) return false; Structure* structure = baseValue.asCell()->structure(); StructureChain* prototypeChain = structure->prototypeChain(exec); CodeBlock* codeBlock = exec->codeBlock(); VM* vm = &exec->vm(); PolymorphicAccessStructureList* polymorphicStructureList; int listIndex = 1; if (stubInfo.accessType == access_get_by_id_chain) { ASSERT(!!stubInfo.stubRoutine); polymorphicStructureList = new PolymorphicAccessStructureList(*vm, codeBlock->ownerExecutable(), stubInfo.stubRoutine, stubInfo.u.getByIdChain.baseObjectStructure.get(), stubInfo.u.getByIdChain.chain.get(), true); stubInfo.stubRoutine.clear(); stubInfo.initGetByIdProtoList(polymorphicStructureList, 1); } else { ASSERT(stubInfo.accessType == access_get_by_id_proto_list); polymorphicStructureList = stubInfo.u.getByIdProtoList.structureList; listIndex = stubInfo.u.getByIdProtoList.listSize; } if (listIndex < POLYMORPHIC_LIST_CACHE_SIZE) { stubInfo.u.getByIdProtoList.listSize++; CodeLocationLabel lastProtoBegin = CodeLocationLabel(polymorphicStructureList->list[listIndex - 1].stubRoutine->code().code()); ASSERT(!!lastProtoBegin); RefPtr stubRoutine; generateProtoChainAccessStub(exec, stubInfo, prototypeChain, count, offset, structure, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToDone), lastProtoBegin, stubRoutine); polymorphicStructureList->list[listIndex].set(*vm, codeBlock->ownerExecutable(), stubRoutine, structure, true); RepatchBuffer repatchBuffer(codeBlock); replaceWithJump(repatchBuffer, stubInfo, stubRoutine->code().code()); if (listIndex < (POLYMORPHIC_LIST_CACHE_SIZE - 1)) return true; } return false; } void dfgBuildGetByIDProtoList(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PropertySlot& slot, StructureStubInfo& stubInfo) { bool dontChangeCall = tryBuildGetByIDProtoList(exec, baseValue, propertyName, slot, stubInfo); if (!dontChangeCall) dfgRepatchCall(exec->codeBlock(), stubInfo.callReturnLocation, operationGetById); } static V_DFGOperation_EJCI appropriateGenericPutByIdFunction(const PutPropertySlot &slot, PutKind putKind) { if (slot.isStrictMode()) { if (putKind == Direct) return operationPutByIdDirectStrict; return operationPutByIdStrict; } if (putKind == Direct) return operationPutByIdDirectNonStrict; return operationPutByIdNonStrict; } static V_DFGOperation_EJCI appropriateListBuildingPutByIdFunction(const PutPropertySlot &slot, PutKind putKind) { if (slot.isStrictMode()) { if (putKind == Direct) return operationPutByIdDirectStrictBuildList; return operationPutByIdStrictBuildList; } if (putKind == Direct) return operationPutByIdDirectNonStrictBuildList; return operationPutByIdNonStrictBuildList; } static void emitPutReplaceStub( ExecState* exec, JSValue, const Identifier&, const PutPropertySlot& slot, StructureStubInfo& stubInfo, PutKind, Structure* structure, CodeLocationLabel failureLabel, RefPtr& stubRoutine) { VM* vm = &exec->vm(); GPRReg baseGPR = static_cast(stubInfo.patch.dfg.baseGPR); #if USE(JSVALUE32_64) GPRReg valueTagGPR = static_cast(stubInfo.patch.dfg.valueTagGPR); #endif GPRReg valueGPR = static_cast(stubInfo.patch.dfg.valueGPR); GPRReg scratchGPR = RegisterSet(stubInfo.patch.dfg.usedRegisters).getFreeGPR(); bool needToRestoreScratch = false; #if ENABLE(WRITE_BARRIER_PROFILING) GPRReg scratchGPR2; const bool writeBarrierNeeded = true; #else const bool writeBarrierNeeded = false; #endif MacroAssembler stubJit; if (scratchGPR == InvalidGPRReg && (writeBarrierNeeded || isOutOfLineOffset(slot.cachedOffset()))) { #if USE(JSVALUE64) scratchGPR = SpeculativeJIT::selectScratchGPR(baseGPR, valueGPR); #else scratchGPR = SpeculativeJIT::selectScratchGPR(baseGPR, valueGPR, valueTagGPR); #endif needToRestoreScratch = true; stubJit.push(scratchGPR); } MacroAssembler::Jump badStructure = stubJit.branchPtr( MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR, JSCell::structureOffset()), MacroAssembler::TrustedImmPtr(structure)); #if ENABLE(WRITE_BARRIER_PROFILING) #if USE(JSVALUE64) scratchGPR2 = SpeculativeJIT::selectScratchGPR(baseGPR, valueGPR, scratchGPR); #else scratchGPR2 = SpeculativeJIT::selectScratchGPR(baseGPR, valueGPR, valueTagGPR, scratchGPR); #endif stubJit.push(scratchGPR2); SpeculativeJIT::writeBarrier(stubJit, baseGPR, scratchGPR, scratchGPR2, WriteBarrierForPropertyAccess); stubJit.pop(scratchGPR2); #endif #if USE(JSVALUE64) if (isInlineOffset(slot.cachedOffset())) stubJit.store64(valueGPR, MacroAssembler::Address(baseGPR, JSObject::offsetOfInlineStorage() + offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue))); else { stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), scratchGPR); stubJit.store64(valueGPR, MacroAssembler::Address(scratchGPR, offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue))); } #elif USE(JSVALUE32_64) if (isInlineOffset(slot.cachedOffset())) { stubJit.store32(valueGPR, MacroAssembler::Address(baseGPR, JSObject::offsetOfInlineStorage() + offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload))); stubJit.store32(valueTagGPR, MacroAssembler::Address(baseGPR, JSObject::offsetOfInlineStorage() + offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag))); } else { stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), scratchGPR); stubJit.store32(valueGPR, MacroAssembler::Address(scratchGPR, offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload))); stubJit.store32(valueTagGPR, MacroAssembler::Address(scratchGPR, offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag))); } #endif MacroAssembler::Jump success; MacroAssembler::Jump failure; if (needToRestoreScratch) { stubJit.pop(scratchGPR); success = stubJit.jump(); badStructure.link(&stubJit); stubJit.pop(scratchGPR); failure = stubJit.jump(); } else { success = stubJit.jump(); failure = badStructure; } LinkBuffer patchBuffer(*vm, &stubJit, exec->codeBlock()); patchBuffer.link(success, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToDone)); patchBuffer.link(failure, failureLabel); stubRoutine = FINALIZE_CODE_FOR_DFG_STUB( patchBuffer, ("DFG PutById replace stub for %s, return point %p", toCString(*exec->codeBlock()).data(), stubInfo.callReturnLocation.labelAtOffset( stubInfo.patch.dfg.deltaCallToDone).executableAddress())); } static void emitPutTransitionStub( ExecState* exec, JSValue, const Identifier&, const PutPropertySlot& slot, StructureStubInfo& stubInfo, PutKind putKind, Structure* structure, Structure* oldStructure, StructureChain* prototypeChain, CodeLocationLabel failureLabel, RefPtr& stubRoutine) { VM* vm = &exec->vm(); GPRReg baseGPR = static_cast(stubInfo.patch.dfg.baseGPR); #if USE(JSVALUE32_64) GPRReg valueTagGPR = static_cast(stubInfo.patch.dfg.valueTagGPR); #endif GPRReg valueGPR = static_cast(stubInfo.patch.dfg.valueGPR); ScratchRegisterAllocator allocator(stubInfo.patch.dfg.usedRegisters); allocator.lock(baseGPR); #if USE(JSVALUE32_64) allocator.lock(valueTagGPR); #endif allocator.lock(valueGPR); CCallHelpers stubJit(vm); GPRReg scratchGPR1 = allocator.allocateScratchGPR(); ASSERT(scratchGPR1 != baseGPR); ASSERT(scratchGPR1 != valueGPR); bool needSecondScratch = false; bool needThirdScratch = false; #if ENABLE(WRITE_BARRIER_PROFILING) needSecondScratch = true; #endif if (structure->outOfLineCapacity() != oldStructure->outOfLineCapacity() && oldStructure->outOfLineCapacity()) { needSecondScratch = true; needThirdScratch = true; } GPRReg scratchGPR2; if (needSecondScratch) { scratchGPR2 = allocator.allocateScratchGPR(); ASSERT(scratchGPR2 != baseGPR); ASSERT(scratchGPR2 != valueGPR); ASSERT(scratchGPR2 != scratchGPR1); } else scratchGPR2 = InvalidGPRReg; GPRReg scratchGPR3; if (needThirdScratch) { scratchGPR3 = allocator.allocateScratchGPR(); ASSERT(scratchGPR3 != baseGPR); ASSERT(scratchGPR3 != valueGPR); ASSERT(scratchGPR3 != scratchGPR1); ASSERT(scratchGPR3 != scratchGPR2); } else scratchGPR3 = InvalidGPRReg; allocator.preserveReusedRegistersByPushing(stubJit); MacroAssembler::JumpList failureCases; ASSERT(oldStructure->transitionWatchpointSetHasBeenInvalidated()); failureCases.append(stubJit.branchPtr(MacroAssembler::NotEqual, MacroAssembler::Address(baseGPR, JSCell::structureOffset()), MacroAssembler::TrustedImmPtr(oldStructure))); addStructureTransitionCheck( oldStructure->storedPrototype(), exec->codeBlock(), stubInfo, stubJit, failureCases, scratchGPR1); if (putKind == NotDirect) { for (WriteBarrier* it = prototypeChain->head(); *it; ++it) { addStructureTransitionCheck( (*it)->storedPrototype(), exec->codeBlock(), stubInfo, stubJit, failureCases, scratchGPR1); } } #if ENABLE(WRITE_BARRIER_PROFILING) ASSERT(needSecondScratch); ASSERT(scratchGPR2 != InvalidGPRReg); // Must always emit this write barrier as the structure transition itself requires it SpeculativeJIT::writeBarrier(stubJit, baseGPR, scratchGPR1, scratchGPR2, WriteBarrierForPropertyAccess); #endif MacroAssembler::JumpList slowPath; bool scratchGPR1HasStorage = false; if (structure->outOfLineCapacity() != oldStructure->outOfLineCapacity()) { size_t newSize = structure->outOfLineCapacity() * sizeof(JSValue); CopiedAllocator* copiedAllocator = &vm->heap.storageAllocator(); if (!oldStructure->outOfLineCapacity()) { stubJit.loadPtr(&copiedAllocator->m_currentRemaining, scratchGPR1); slowPath.append(stubJit.branchSubPtr(MacroAssembler::Signed, MacroAssembler::TrustedImm32(newSize), scratchGPR1)); stubJit.storePtr(scratchGPR1, &copiedAllocator->m_currentRemaining); stubJit.negPtr(scratchGPR1); stubJit.addPtr(MacroAssembler::AbsoluteAddress(&copiedAllocator->m_currentPayloadEnd), scratchGPR1); stubJit.addPtr(MacroAssembler::TrustedImm32(sizeof(JSValue)), scratchGPR1); } else { size_t oldSize = oldStructure->outOfLineCapacity() * sizeof(JSValue); ASSERT(newSize > oldSize); stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), scratchGPR3); stubJit.loadPtr(&copiedAllocator->m_currentRemaining, scratchGPR1); slowPath.append(stubJit.branchSubPtr(MacroAssembler::Signed, MacroAssembler::TrustedImm32(newSize), scratchGPR1)); stubJit.storePtr(scratchGPR1, &copiedAllocator->m_currentRemaining); stubJit.negPtr(scratchGPR1); stubJit.addPtr(MacroAssembler::AbsoluteAddress(&copiedAllocator->m_currentPayloadEnd), scratchGPR1); stubJit.addPtr(MacroAssembler::TrustedImm32(sizeof(JSValue)), scratchGPR1); // We have scratchGPR1 = new storage, scratchGPR3 = old storage, scratchGPR2 = available for (ptrdiff_t offset = 0; offset < static_cast(oldSize); offset += sizeof(void*)) { stubJit.loadPtr(MacroAssembler::Address(scratchGPR3, -(offset + sizeof(JSValue) + sizeof(void*))), scratchGPR2); stubJit.storePtr(scratchGPR2, MacroAssembler::Address(scratchGPR1, -(offset + sizeof(JSValue) + sizeof(void*)))); } } stubJit.storePtr(scratchGPR1, MacroAssembler::Address(baseGPR, JSObject::butterflyOffset())); scratchGPR1HasStorage = true; } stubJit.storePtr(MacroAssembler::TrustedImmPtr(structure), MacroAssembler::Address(baseGPR, JSCell::structureOffset())); #if USE(JSVALUE64) if (isInlineOffset(slot.cachedOffset())) stubJit.store64(valueGPR, MacroAssembler::Address(baseGPR, JSObject::offsetOfInlineStorage() + offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue))); else { if (!scratchGPR1HasStorage) stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), scratchGPR1); stubJit.store64(valueGPR, MacroAssembler::Address(scratchGPR1, offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue))); } #elif USE(JSVALUE32_64) if (isInlineOffset(slot.cachedOffset())) { stubJit.store32(valueGPR, MacroAssembler::Address(baseGPR, JSObject::offsetOfInlineStorage() + offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload))); stubJit.store32(valueTagGPR, MacroAssembler::Address(baseGPR, JSObject::offsetOfInlineStorage() + offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag))); } else { if (!scratchGPR1HasStorage) stubJit.loadPtr(MacroAssembler::Address(baseGPR, JSObject::butterflyOffset()), scratchGPR1); stubJit.store32(valueGPR, MacroAssembler::Address(scratchGPR1, offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload))); stubJit.store32(valueTagGPR, MacroAssembler::Address(scratchGPR1, offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag))); } #endif MacroAssembler::Jump success; MacroAssembler::Jump failure; if (allocator.didReuseRegisters()) { allocator.restoreReusedRegistersByPopping(stubJit); success = stubJit.jump(); failureCases.link(&stubJit); allocator.restoreReusedRegistersByPopping(stubJit); failure = stubJit.jump(); } else success = stubJit.jump(); MacroAssembler::Call operationCall; MacroAssembler::Jump successInSlowPath; if (structure->outOfLineCapacity() != oldStructure->outOfLineCapacity()) { slowPath.link(&stubJit); allocator.restoreReusedRegistersByPopping(stubJit); ScratchBuffer* scratchBuffer = vm->scratchBufferForSize(allocator.desiredScratchBufferSize()); allocator.preserveUsedRegistersToScratchBuffer(stubJit, scratchBuffer, scratchGPR1); #if USE(JSVALUE64) stubJit.setupArgumentsWithExecState(baseGPR, MacroAssembler::TrustedImmPtr(structure), MacroAssembler::TrustedImm32(slot.cachedOffset()), valueGPR); #else stubJit.setupArgumentsWithExecState(baseGPR, MacroAssembler::TrustedImmPtr(structure), MacroAssembler::TrustedImm32(slot.cachedOffset()), valueGPR, valueTagGPR); #endif operationCall = stubJit.call(); allocator.restoreUsedRegistersFromScratchBuffer(stubJit, scratchBuffer, scratchGPR1); successInSlowPath = stubJit.jump(); } LinkBuffer patchBuffer(*vm, &stubJit, exec->codeBlock()); patchBuffer.link(success, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToDone)); if (allocator.didReuseRegisters()) patchBuffer.link(failure, failureLabel); else patchBuffer.link(failureCases, failureLabel); if (structure->outOfLineCapacity() != oldStructure->outOfLineCapacity()) { patchBuffer.link(operationCall, operationReallocateStorageAndFinishPut); patchBuffer.link(successInSlowPath, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToDone)); } stubRoutine = createJITStubRoutine( FINALIZE_DFG_CODE( patchBuffer, ("DFG PutById %stransition stub (%p -> %p) for %s, return point %p", structure->outOfLineCapacity() != oldStructure->outOfLineCapacity() ? "reallocating " : "", oldStructure, structure, toCString(*exec->codeBlock()).data(), stubInfo.callReturnLocation.labelAtOffset( stubInfo.patch.dfg.deltaCallToDone).executableAddress())), *vm, exec->codeBlock()->ownerExecutable(), structure->outOfLineCapacity() != oldStructure->outOfLineCapacity(), structure); } static bool tryCachePutByID(ExecState* exec, JSValue baseValue, const Identifier& ident, const PutPropertySlot& slot, StructureStubInfo& stubInfo, PutKind putKind) { CodeBlock* codeBlock = exec->codeBlock(); VM* vm = &exec->vm(); if (!baseValue.isCell()) return false; JSCell* baseCell = baseValue.asCell(); Structure* structure = baseCell->structure(); Structure* oldStructure = structure->previousID(); if (!slot.isCacheable()) return false; if (structure->isUncacheableDictionary()) return false; // Optimize self access. if (slot.base() == baseValue) { if (slot.type() == PutPropertySlot::NewProperty) { if (structure->isDictionary()) return false; // Skip optimizing the case where we need a realloc, if we don't have // enough registers to make it happen. if (GPRInfo::numberOfRegisters < 6 && oldStructure->outOfLineCapacity() != structure->outOfLineCapacity() && oldStructure->outOfLineCapacity()) return false; // Skip optimizing the case where we need realloc, and the structure has // indexing storage. if (hasIndexingHeader(oldStructure->indexingType())) return false; if (normalizePrototypeChain(exec, baseCell) == InvalidPrototypeChain) return false; StructureChain* prototypeChain = structure->prototypeChain(exec); emitPutTransitionStub( exec, baseValue, ident, slot, stubInfo, putKind, structure, oldStructure, prototypeChain, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase), stubInfo.stubRoutine); RepatchBuffer repatchBuffer(codeBlock); repatchBuffer.relink( stubInfo.callReturnLocation.jumpAtOffset( stubInfo.patch.dfg.deltaCallToStructCheck), CodeLocationLabel(stubInfo.stubRoutine->code().code())); repatchBuffer.relink(stubInfo.callReturnLocation, appropriateListBuildingPutByIdFunction(slot, putKind)); stubInfo.initPutByIdTransition(*vm, codeBlock->ownerExecutable(), oldStructure, structure, prototypeChain, putKind == Direct); return true; } dfgRepatchByIdSelfAccess(codeBlock, stubInfo, structure, slot.cachedOffset(), appropriateListBuildingPutByIdFunction(slot, putKind), false); stubInfo.initPutByIdReplace(*vm, codeBlock->ownerExecutable(), structure); return true; } return false; } void dfgRepatchPutByID(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PutPropertySlot& slot, StructureStubInfo& stubInfo, PutKind putKind) { bool cached = tryCachePutByID(exec, baseValue, propertyName, slot, stubInfo, putKind); if (!cached) dfgRepatchCall(exec->codeBlock(), stubInfo.callReturnLocation, appropriateGenericPutByIdFunction(slot, putKind)); } static bool tryBuildPutByIdList(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PutPropertySlot& slot, StructureStubInfo& stubInfo, PutKind putKind) { CodeBlock* codeBlock = exec->codeBlock(); VM* vm = &exec->vm(); if (!baseValue.isCell()) return false; JSCell* baseCell = baseValue.asCell(); Structure* structure = baseCell->structure(); Structure* oldStructure = structure->previousID(); if (!slot.isCacheable()) return false; if (structure->isUncacheableDictionary()) return false; // Optimize self access. if (slot.base() == baseValue) { PolymorphicPutByIdList* list; RefPtr stubRoutine; if (slot.type() == PutPropertySlot::NewProperty) { if (structure->isDictionary()) return false; // Skip optimizing the case where we need a realloc, if we don't have // enough registers to make it happen. if (GPRInfo::numberOfRegisters < 6 && oldStructure->outOfLineCapacity() != structure->outOfLineCapacity() && oldStructure->outOfLineCapacity()) return false; // Skip optimizing the case where we need realloc, and the structure has // indexing storage. if (hasIndexingHeader(oldStructure->indexingType())) return false; if (normalizePrototypeChain(exec, baseCell) == InvalidPrototypeChain) return false; StructureChain* prototypeChain = structure->prototypeChain(exec); // We're now committed to creating the stub. Mogrify the meta-data accordingly. list = PolymorphicPutByIdList::from( putKind, stubInfo, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase)); emitPutTransitionStub( exec, baseValue, propertyName, slot, stubInfo, putKind, structure, oldStructure, prototypeChain, CodeLocationLabel(list->currentSlowPathTarget()), stubRoutine); list->addAccess( PutByIdAccess::transition( *vm, codeBlock->ownerExecutable(), oldStructure, structure, prototypeChain, stubRoutine)); } else { // We're now committed to creating the stub. Mogrify the meta-data accordingly. list = PolymorphicPutByIdList::from( putKind, stubInfo, stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase)); emitPutReplaceStub( exec, baseValue, propertyName, slot, stubInfo, putKind, structure, CodeLocationLabel(list->currentSlowPathTarget()), stubRoutine); list->addAccess( PutByIdAccess::replace( *vm, codeBlock->ownerExecutable(), structure, stubRoutine)); } RepatchBuffer repatchBuffer(codeBlock); repatchBuffer.relink(stubInfo.callReturnLocation.jumpAtOffset(stubInfo.patch.dfg.deltaCallToStructCheck), CodeLocationLabel(stubRoutine->code().code())); if (list->isFull()) repatchBuffer.relink(stubInfo.callReturnLocation, appropriateGenericPutByIdFunction(slot, putKind)); return true; } return false; } void dfgBuildPutByIdList(ExecState* exec, JSValue baseValue, const Identifier& propertyName, const PutPropertySlot& slot, StructureStubInfo& stubInfo, PutKind putKind) { bool cached = tryBuildPutByIdList(exec, baseValue, propertyName, slot, stubInfo, putKind); if (!cached) dfgRepatchCall(exec->codeBlock(), stubInfo.callReturnLocation, appropriateGenericPutByIdFunction(slot, putKind)); } static void linkSlowFor(RepatchBuffer& repatchBuffer, VM* vm, CallLinkInfo& callLinkInfo, CodeSpecializationKind kind) { if (kind == CodeForCall) { repatchBuffer.relink(callLinkInfo.callReturnLocation, vm->getCTIStub(virtualCallThunkGenerator).code()); return; } ASSERT(kind == CodeForConstruct); repatchBuffer.relink(callLinkInfo.callReturnLocation, vm->getCTIStub(virtualConstructThunkGenerator).code()); } void dfgLinkFor(ExecState* exec, CallLinkInfo& callLinkInfo, CodeBlock* calleeCodeBlock, JSFunction* callee, MacroAssemblerCodePtr codePtr, CodeSpecializationKind kind) { ASSERT(!callLinkInfo.stub); CodeBlock* callerCodeBlock = exec->callerFrame()->codeBlock(); VM* vm = callerCodeBlock->vm(); RepatchBuffer repatchBuffer(callerCodeBlock); ASSERT(!callLinkInfo.isLinked()); callLinkInfo.callee.set(exec->callerFrame()->vm(), callLinkInfo.hotPathBegin, callerCodeBlock->ownerExecutable(), callee); callLinkInfo.lastSeenCallee.set(exec->callerFrame()->vm(), callerCodeBlock->ownerExecutable(), callee); repatchBuffer.relink(callLinkInfo.hotPathOther, codePtr); if (calleeCodeBlock) calleeCodeBlock->linkIncomingCall(&callLinkInfo); if (kind == CodeForCall) { repatchBuffer.relink(callLinkInfo.callReturnLocation, vm->getCTIStub(linkClosureCallThunkGenerator).code()); return; } ASSERT(kind == CodeForConstruct); linkSlowFor(repatchBuffer, vm, callLinkInfo, CodeForConstruct); } void dfgLinkSlowFor(ExecState* exec, CallLinkInfo& callLinkInfo, CodeSpecializationKind kind) { CodeBlock* callerCodeBlock = exec->callerFrame()->codeBlock(); VM* vm = callerCodeBlock->vm(); RepatchBuffer repatchBuffer(callerCodeBlock); linkSlowFor(repatchBuffer, vm, callLinkInfo, kind); } void dfgLinkClosureCall(ExecState* exec, CallLinkInfo& callLinkInfo, CodeBlock* calleeCodeBlock, Structure* structure, ExecutableBase* executable, MacroAssemblerCodePtr codePtr) { ASSERT(!callLinkInfo.stub); CodeBlock* callerCodeBlock = exec->callerFrame()->codeBlock(); VM* vm = callerCodeBlock->vm(); GPRReg calleeGPR = static_cast(callLinkInfo.calleeGPR); CCallHelpers stubJit(vm, callerCodeBlock); CCallHelpers::JumpList slowPath; #if USE(JSVALUE64) slowPath.append( stubJit.branchTest64( CCallHelpers::NonZero, calleeGPR, GPRInfo::tagMaskRegister)); #else // We would have already checked that the callee is a cell. #endif slowPath.append( stubJit.branchPtr( CCallHelpers::NotEqual, CCallHelpers::Address(calleeGPR, JSCell::structureOffset()), CCallHelpers::TrustedImmPtr(structure))); slowPath.append( stubJit.branchPtr( CCallHelpers::NotEqual, CCallHelpers::Address(calleeGPR, JSFunction::offsetOfExecutable()), CCallHelpers::TrustedImmPtr(executable))); stubJit.loadPtr( CCallHelpers::Address(calleeGPR, JSFunction::offsetOfScopeChain()), GPRInfo::returnValueGPR); #if USE(JSVALUE64) stubJit.store64( GPRInfo::returnValueGPR, CCallHelpers::Address(GPRInfo::callFrameRegister, static_cast(sizeof(Register) * JSStack::ScopeChain))); #else stubJit.storePtr( GPRInfo::returnValueGPR, CCallHelpers::Address(GPRInfo::callFrameRegister, static_cast(sizeof(Register) * JSStack::ScopeChain) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.payload))); stubJit.store32( CCallHelpers::TrustedImm32(JSValue::CellTag), CCallHelpers::Address(GPRInfo::callFrameRegister, static_cast(sizeof(Register) * JSStack::ScopeChain) + OBJECT_OFFSETOF(EncodedValueDescriptor, asBits.tag))); #endif JITCompiler::Call call = stubJit.nearCall(); JITCompiler::Jump done = stubJit.jump(); slowPath.link(&stubJit); stubJit.move(calleeGPR, GPRInfo::nonArgGPR0); #if USE(JSVALUE32_64) stubJit.move(CCallHelpers::TrustedImm32(JSValue::CellTag), GPRInfo::nonArgGPR1); #endif stubJit.move(CCallHelpers::TrustedImmPtr(callLinkInfo.callReturnLocation.executableAddress()), GPRInfo::nonArgGPR2); stubJit.restoreReturnAddressBeforeReturn(GPRInfo::nonArgGPR2); JITCompiler::Jump slow = stubJit.jump(); LinkBuffer patchBuffer(*vm, &stubJit, callerCodeBlock); patchBuffer.link(call, FunctionPtr(codePtr.executableAddress())); patchBuffer.link(done, callLinkInfo.callReturnLocation.labelAtOffset(0)); patchBuffer.link(slow, CodeLocationLabel(vm->getCTIStub(virtualCallThunkGenerator).code())); RefPtr stubRoutine = adoptRef(new ClosureCallStubRoutine( FINALIZE_DFG_CODE( patchBuffer, ("DFG closure call stub for %s, return point %p, target %p (%s)", toCString(*callerCodeBlock).data(), callLinkInfo.callReturnLocation.labelAtOffset(0).executableAddress(), codePtr.executableAddress(), toCString(pointerDump(calleeCodeBlock)).data())), *vm, callerCodeBlock->ownerExecutable(), structure, executable, callLinkInfo.codeOrigin)); RepatchBuffer repatchBuffer(callerCodeBlock); repatchBuffer.replaceWithJump( RepatchBuffer::startOfBranchPtrWithPatchOnRegister(callLinkInfo.hotPathBegin), CodeLocationLabel(stubRoutine->code().code())); linkSlowFor(repatchBuffer, vm, callLinkInfo, CodeForCall); callLinkInfo.stub = stubRoutine.release(); ASSERT(!calleeCodeBlock || calleeCodeBlock->isIncomingCallAlreadyLinked(&callLinkInfo)); } void dfgResetGetByID(RepatchBuffer& repatchBuffer, StructureStubInfo& stubInfo) { repatchBuffer.relink(stubInfo.callReturnLocation, operationGetByIdOptimize); CodeLocationDataLabelPtr structureLabel = stubInfo.callReturnLocation.dataLabelPtrAtOffset(-(intptr_t)stubInfo.patch.dfg.deltaCheckImmToCall); if (MacroAssembler::canJumpReplacePatchableBranchPtrWithPatch()) { repatchBuffer.revertJumpReplacementToPatchableBranchPtrWithPatch( RepatchBuffer::startOfPatchableBranchPtrWithPatchOnAddress(structureLabel), MacroAssembler::Address( static_cast(stubInfo.patch.dfg.baseGPR), JSCell::structureOffset()), reinterpret_cast(unusedPointer)); } repatchBuffer.repatch(structureLabel, reinterpret_cast(unusedPointer)); #if USE(JSVALUE64) repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabelCompactAtOffset(stubInfo.patch.dfg.deltaCallToLoadOrStore), 0); #else repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabelCompactAtOffset(stubInfo.patch.dfg.deltaCallToTagLoadOrStore), 0); repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabelCompactAtOffset(stubInfo.patch.dfg.deltaCallToPayloadLoadOrStore), 0); #endif repatchBuffer.relink(stubInfo.callReturnLocation.jumpAtOffset(stubInfo.patch.dfg.deltaCallToStructCheck), stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase)); } void dfgResetPutByID(RepatchBuffer& repatchBuffer, StructureStubInfo& stubInfo) { V_DFGOperation_EJCI unoptimizedFunction = bitwise_cast(MacroAssembler::readCallTarget(stubInfo.callReturnLocation).executableAddress()); V_DFGOperation_EJCI optimizedFunction; if (unoptimizedFunction == operationPutByIdStrict || unoptimizedFunction == operationPutByIdStrictBuildList) optimizedFunction = operationPutByIdStrictOptimize; else if (unoptimizedFunction == operationPutByIdNonStrict || unoptimizedFunction == operationPutByIdNonStrictBuildList) optimizedFunction = operationPutByIdNonStrictOptimize; else if (unoptimizedFunction == operationPutByIdDirectStrict || unoptimizedFunction == operationPutByIdDirectStrictBuildList) optimizedFunction = operationPutByIdDirectStrictOptimize; else { ASSERT(unoptimizedFunction == operationPutByIdDirectNonStrict || unoptimizedFunction == operationPutByIdDirectNonStrictBuildList); optimizedFunction = operationPutByIdDirectNonStrictOptimize; } repatchBuffer.relink(stubInfo.callReturnLocation, optimizedFunction); CodeLocationDataLabelPtr structureLabel = stubInfo.callReturnLocation.dataLabelPtrAtOffset(-(intptr_t)stubInfo.patch.dfg.deltaCheckImmToCall); if (MacroAssembler::canJumpReplacePatchableBranchPtrWithPatch()) { repatchBuffer.revertJumpReplacementToPatchableBranchPtrWithPatch( RepatchBuffer::startOfPatchableBranchPtrWithPatchOnAddress(structureLabel), MacroAssembler::Address( static_cast(stubInfo.patch.dfg.baseGPR), JSCell::structureOffset()), reinterpret_cast(unusedPointer)); } repatchBuffer.repatch(structureLabel, reinterpret_cast(unusedPointer)); #if USE(JSVALUE64) repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabel32AtOffset(stubInfo.patch.dfg.deltaCallToLoadOrStore), 0); #else repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabel32AtOffset(stubInfo.patch.dfg.deltaCallToTagLoadOrStore), 0); repatchBuffer.repatch(stubInfo.callReturnLocation.dataLabel32AtOffset(stubInfo.patch.dfg.deltaCallToPayloadLoadOrStore), 0); #endif repatchBuffer.relink(stubInfo.callReturnLocation.jumpAtOffset(stubInfo.patch.dfg.deltaCallToStructCheck), stubInfo.callReturnLocation.labelAtOffset(stubInfo.patch.dfg.deltaCallToSlowCase)); } } } // namespace JSC::DFG #endif