/* * Copyright (C) 2011, 2012, 2013 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 "LLIntSlowPaths.h" #if ENABLE(LLINT) #include "Arguments.h" #include "ArrayConstructor.h" #include "CallFrame.h" #include "CommonSlowPaths.h" #include "CommonSlowPathsExceptions.h" #include "GetterSetter.h" #include "HostCallReturnValue.h" #include "Interpreter.h" #include "JIT.h" #include "JITExceptions.h" #include "JSActivation.h" #include "JSCJSValue.h" #include "JSGlobalObjectFunctions.h" #include "JSNameScope.h" #include "JSPropertyNameIterator.h" #include "JSStackInlines.h" #include "JSString.h" #include "JSWithScope.h" #include "LLIntCommon.h" #include "LLIntExceptions.h" #include "LowLevelInterpreter.h" #include "ObjectConstructor.h" #include "Operations.h" #include "StructureRareDataInlines.h" #include namespace JSC { namespace LLInt { #define LLINT_BEGIN_NO_SET_PC() \ VM& vm = exec->vm(); \ NativeCallFrameTracer tracer(&vm, exec) #ifndef NDEBUG #define LLINT_SET_PC_FOR_STUBS() do { \ exec->codeBlock()->bytecodeOffset(pc); \ exec->setCurrentVPC(pc + 1); \ } while (false) #else #define LLINT_SET_PC_FOR_STUBS() do { \ exec->setCurrentVPC(pc + 1); \ } while (false) #endif #define LLINT_BEGIN() \ LLINT_BEGIN_NO_SET_PC(); \ LLINT_SET_PC_FOR_STUBS() #define LLINT_OP(index) (exec->uncheckedR(pc[index].u.operand)) #define LLINT_OP_C(index) (exec->r(pc[index].u.operand)) #define LLINT_RETURN_TWO(first, second) do { \ return encodeResult(first, second); \ } while (false) #define LLINT_END_IMPL() LLINT_RETURN_TWO(pc, exec) #define LLINT_THROW(exceptionToThrow) do { \ vm.throwException(exec, exceptionToThrow); \ pc = returnToThrow(exec); \ LLINT_END_IMPL(); \ } while (false) #define LLINT_CHECK_EXCEPTION() do { \ if (UNLIKELY(vm.exception())) { \ pc = returnToThrow(exec); \ LLINT_END_IMPL(); \ } \ } while (false) #define LLINT_END() do { \ LLINT_CHECK_EXCEPTION(); \ LLINT_END_IMPL(); \ } while (false) #define LLINT_BRANCH(opcode, condition) do { \ bool __b_condition = (condition); \ LLINT_CHECK_EXCEPTION(); \ if (__b_condition) \ pc += pc[OPCODE_LENGTH(opcode) - 1].u.operand; \ else \ pc += OPCODE_LENGTH(opcode); \ LLINT_END_IMPL(); \ } while (false) #define LLINT_RETURN(value) do { \ JSValue __r_returnValue = (value); \ LLINT_CHECK_EXCEPTION(); \ LLINT_OP(1) = __r_returnValue; \ LLINT_END_IMPL(); \ } while (false) #if ENABLE(VALUE_PROFILER) #define LLINT_RETURN_PROFILED(opcode, value) do { \ JSValue __rp_returnValue = (value); \ LLINT_CHECK_EXCEPTION(); \ LLINT_OP(1) = __rp_returnValue; \ LLINT_PROFILE_VALUE(opcode, __rp_returnValue); \ LLINT_END_IMPL(); \ } while (false) #define LLINT_PROFILE_VALUE(opcode, value) do { \ pc[OPCODE_LENGTH(opcode) - 1].u.profile->m_buckets[0] = \ JSValue::encode(value); \ } while (false) #else // ENABLE(VALUE_PROFILER) #define LLINT_RETURN_PROFILED(opcode, value) LLINT_RETURN(value) #define LLINT_PROFILE_VALUE(opcode, value) do { } while (false) #endif // ENABLE(VALUE_PROFILER) #define LLINT_CALL_END_IMPL(exec, callTarget) LLINT_RETURN_TWO((callTarget), (exec)) #define LLINT_CALL_THROW(exec, exceptionToThrow) do { \ ExecState* __ct_exec = (exec); \ vm.throwException(__ct_exec, exceptionToThrow); \ LLINT_CALL_END_IMPL(__ct_exec, callToThrow(__ct_exec)); \ } while (false) #define LLINT_CALL_CHECK_EXCEPTION(exec) do { \ ExecState* __cce_exec = (exec); \ if (UNLIKELY(vm.exception())) \ LLINT_CALL_END_IMPL(__cce_exec, callToThrow(__cce_exec)); \ } while (false) #define LLINT_CALL_RETURN(exec, callTarget) do { \ ExecState* __cr_exec = (exec); \ void* __cr_callTarget = (callTarget); \ LLINT_CALL_CHECK_EXCEPTION(__cr_exec->callerFrame()); \ LLINT_CALL_END_IMPL(__cr_exec, __cr_callTarget); \ } while (false) extern "C" SlowPathReturnType llint_trace_operand(ExecState* exec, Instruction* pc, int fromWhere, int operand) { LLINT_BEGIN(); dataLogF("%p / %p: executing bc#%zu, op#%u: Trace(%d): %d: %d\n", exec->codeBlock(), exec, static_cast(pc - exec->codeBlock()->instructions().begin()), exec->vm().interpreter->getOpcodeID(pc[0].u.opcode), fromWhere, operand, pc[operand].u.operand); LLINT_END(); } extern "C" SlowPathReturnType llint_trace_value(ExecState* exec, Instruction* pc, int fromWhere, int operand) { JSValue value = LLINT_OP_C(operand).jsValue(); union { struct { uint32_t tag; uint32_t payload; } bits; EncodedJSValue asValue; } u; u.asValue = JSValue::encode(value); dataLogF( "%p / %p: executing bc#%zu, op#%u: Trace(%d): %d: %d: %08x:%08x: %s\n", exec->codeBlock(), exec, static_cast(pc - exec->codeBlock()->instructions().begin()), exec->vm().interpreter->getOpcodeID(pc[0].u.opcode), fromWhere, operand, pc[operand].u.operand, u.bits.tag, u.bits.payload, toCString(value).data()); LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(trace_prologue) { dataLogF("%p / %p: in prologue.\n", exec->codeBlock(), exec); LLINT_END_IMPL(); } static void traceFunctionPrologue(ExecState* exec, const char* comment, CodeSpecializationKind kind) { JSFunction* callee = jsCast(exec->callee()); FunctionExecutable* executable = callee->jsExecutable(); CodeBlock* codeBlock = executable->codeBlockFor(kind); dataLogF("%p / %p: in %s of function %p, executable %p; numVars = %u, numParameters = %u, numCalleeRegisters = %u, caller = %p.\n", codeBlock, exec, comment, callee, executable, codeBlock->m_numVars, codeBlock->numParameters(), codeBlock->m_numCalleeRegisters, exec->callerFrame()); } LLINT_SLOW_PATH_DECL(trace_prologue_function_for_call) { traceFunctionPrologue(exec, "call prologue", CodeForCall); LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(trace_prologue_function_for_construct) { traceFunctionPrologue(exec, "construct prologue", CodeForConstruct); LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(trace_arityCheck_for_call) { traceFunctionPrologue(exec, "call arity check", CodeForCall); LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(trace_arityCheck_for_construct) { traceFunctionPrologue(exec, "construct arity check", CodeForConstruct); LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(trace) { dataLogF("%p / %p: executing bc#%zu, %s, scope %p, pc = %p\n", exec->codeBlock(), exec, static_cast(pc - exec->codeBlock()->instructions().begin()), opcodeNames[exec->vm().interpreter->getOpcodeID(pc[0].u.opcode)], exec->scope(), pc); if (exec->vm().interpreter->getOpcodeID(pc[0].u.opcode) == op_ret) { dataLogF("Will be returning to %p\n", exec->returnPC().value()); dataLogF("The new cfr will be %p\n", exec->callerFrame()); } LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(special_trace) { dataLogF("%p / %p: executing special case bc#%zu, op#%u, return PC is %p\n", exec->codeBlock(), exec, static_cast(pc - exec->codeBlock()->instructions().begin()), exec->vm().interpreter->getOpcodeID(pc[0].u.opcode), exec->returnPC().value()); LLINT_END_IMPL(); } #if ENABLE(JIT) inline bool shouldJIT(ExecState* exec) { // You can modify this to turn off JITting without rebuilding the world. return exec->vm().canUseJIT(); } // Returns true if we should try to OSR. inline bool jitCompileAndSetHeuristics(CodeBlock* codeBlock, ExecState* exec) { VM& vm = exec->vm(); DeferGCForAWhile deferGC(vm.heap); // My callers don't set top callframe, so we don't want to GC here at all. codeBlock->updateAllValueProfilePredictions(); if (!codeBlock->checkIfJITThresholdReached()) { if (Options::verboseOSR()) dataLogF(" JIT threshold should be lifted.\n"); return false; } switch (codeBlock->jitType()) { case JITCode::BaselineJIT: { if (Options::verboseOSR()) dataLogF(" Code was already compiled.\n"); codeBlock->jitSoon(); return true; } case JITCode::InterpreterThunk: { CompilationResult result = JIT::compile(&vm, codeBlock, JITCompilationCanFail); switch (result) { case CompilationFailed: if (Options::verboseOSR()) dataLogF(" JIT compilation failed.\n"); codeBlock->dontJITAnytimeSoon(); return false; case CompilationSuccessful: if (Options::verboseOSR()) dataLogF(" JIT compilation successful.\n"); codeBlock->install(); codeBlock->jitSoon(); return true; default: RELEASE_ASSERT_NOT_REACHED(); return false; } } default: RELEASE_ASSERT_NOT_REACHED(); return false; } } enum EntryKind { Prologue, ArityCheck }; static SlowPathReturnType entryOSR(ExecState* exec, Instruction*, CodeBlock* codeBlock, const char *name, EntryKind kind) { if (Options::verboseOSR()) { dataLog( *codeBlock, ": Entered ", name, " with executeCounter = ", codeBlock->llintExecuteCounter(), "\n"); } if (!shouldJIT(exec)) { codeBlock->dontJITAnytimeSoon(); LLINT_RETURN_TWO(0, exec); } if (!jitCompileAndSetHeuristics(codeBlock, exec)) LLINT_RETURN_TWO(0, exec); if (kind == Prologue) LLINT_RETURN_TWO(codeBlock->jitCode()->executableAddress(), exec); ASSERT(kind == ArityCheck); LLINT_RETURN_TWO(codeBlock->jitCodeWithArityCheck().executableAddress(), exec); } LLINT_SLOW_PATH_DECL(entry_osr) { return entryOSR(exec, pc, exec->codeBlock(), "entry_osr", Prologue); } LLINT_SLOW_PATH_DECL(entry_osr_function_for_call) { return entryOSR(exec, pc, jsCast(exec->callee())->jsExecutable()->codeBlockForCall(), "entry_osr_function_for_call", Prologue); } LLINT_SLOW_PATH_DECL(entry_osr_function_for_construct) { return entryOSR(exec, pc, jsCast(exec->callee())->jsExecutable()->codeBlockForConstruct(), "entry_osr_function_for_construct", Prologue); } LLINT_SLOW_PATH_DECL(entry_osr_function_for_call_arityCheck) { return entryOSR(exec, pc, jsCast(exec->callee())->jsExecutable()->codeBlockForCall(), "entry_osr_function_for_call_arityCheck", ArityCheck); } LLINT_SLOW_PATH_DECL(entry_osr_function_for_construct_arityCheck) { return entryOSR(exec, pc, jsCast(exec->callee())->jsExecutable()->codeBlockForConstruct(), "entry_osr_function_for_construct_arityCheck", ArityCheck); } LLINT_SLOW_PATH_DECL(loop_osr) { CodeBlock* codeBlock = exec->codeBlock(); if (Options::verboseOSR()) { dataLog( *codeBlock, ": Entered loop_osr with executeCounter = ", codeBlock->llintExecuteCounter(), "\n"); } if (!shouldJIT(exec)) { codeBlock->dontJITAnytimeSoon(); LLINT_RETURN_TWO(0, exec); } if (!jitCompileAndSetHeuristics(codeBlock, exec)) LLINT_RETURN_TWO(0, exec); ASSERT(codeBlock->jitType() == JITCode::BaselineJIT); Vector map; codeBlock->jitCodeMap()->decode(map); BytecodeAndMachineOffset* mapping = binarySearch(map, map.size(), pc - codeBlock->instructions().begin(), BytecodeAndMachineOffset::getBytecodeIndex); ASSERT(mapping); ASSERT(mapping->m_bytecodeIndex == static_cast(pc - codeBlock->instructions().begin())); void* jumpTarget = codeBlock->jitCode()->executableAddressAtOffset(mapping->m_machineCodeOffset); ASSERT(jumpTarget); LLINT_RETURN_TWO(jumpTarget, exec); } LLINT_SLOW_PATH_DECL(replace) { CodeBlock* codeBlock = exec->codeBlock(); if (Options::verboseOSR()) { dataLog( *codeBlock, ": Entered replace with executeCounter = ", codeBlock->llintExecuteCounter(), "\n"); } if (shouldJIT(exec)) jitCompileAndSetHeuristics(codeBlock, exec); else codeBlock->dontJITAnytimeSoon(); LLINT_END_IMPL(); } #endif // ENABLE(JIT) LLINT_SLOW_PATH_DECL(stack_check) { LLINT_BEGIN(); #if LLINT_SLOW_PATH_TRACING dataLogF("Checking stack height with exec = %p.\n", exec); dataLogF("CodeBlock = %p.\n", exec->codeBlock()); dataLogF("Num callee registers = %u.\n", exec->codeBlock()->m_numCalleeRegisters); dataLogF("Num vars = %u.\n", exec->codeBlock()->m_numVars); dataLogF("Current end is at %p.\n", exec->vm().interpreter->stack().end()); #endif ASSERT(!exec->vm().interpreter->stack().containsAddress(&exec->registers()[virtualRegisterForLocal(exec->codeBlock()->m_numCalleeRegisters).offset()])); if (UNLIKELY(!vm.interpreter->stack().grow(&exec->registers()[virtualRegisterForLocal(exec->codeBlock()->m_numCalleeRegisters).offset()]))) { exec = exec->callerFrame(); CommonSlowPaths::interpreterThrowInCaller(exec, createStackOverflowError(exec)); pc = returnToThrowForThrownException(exec); } LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(slow_path_create_activation) { LLINT_BEGIN(); #if LLINT_SLOW_PATH_TRACING dataLogF("Creating an activation, exec = %p!\n", exec); #endif JSActivation* activation = JSActivation::create(vm, exec, exec->codeBlock()); exec->setScope(activation); LLINT_RETURN(JSValue(activation)); } LLINT_SLOW_PATH_DECL(slow_path_new_object) { LLINT_BEGIN(); LLINT_RETURN(constructEmptyObject(exec, pc[3].u.objectAllocationProfile->structure())); } LLINT_SLOW_PATH_DECL(slow_path_new_array) { LLINT_BEGIN(); LLINT_RETURN(constructArrayNegativeIndexed(exec, pc[4].u.arrayAllocationProfile, bitwise_cast(&LLINT_OP(2)), pc[3].u.operand)); } LLINT_SLOW_PATH_DECL(slow_path_new_array_with_size) { LLINT_BEGIN(); LLINT_RETURN(constructArrayWithSizeQuirk(exec, pc[3].u.arrayAllocationProfile, exec->lexicalGlobalObject(), LLINT_OP_C(2).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_new_array_buffer) { LLINT_BEGIN(); LLINT_RETURN(constructArray(exec, pc[4].u.arrayAllocationProfile, exec->codeBlock()->constantBuffer(pc[2].u.operand), pc[3].u.operand)); } LLINT_SLOW_PATH_DECL(slow_path_new_regexp) { LLINT_BEGIN(); RegExp* regExp = exec->codeBlock()->regexp(pc[2].u.operand); if (!regExp->isValid()) LLINT_THROW(createSyntaxError(exec, "Invalid flag supplied to RegExp constructor.")); LLINT_RETURN(RegExpObject::create(vm, exec->lexicalGlobalObject()->regExpStructure(), regExp)); } LLINT_SLOW_PATH_DECL(slow_path_check_has_instance) { LLINT_BEGIN(); JSValue value = LLINT_OP_C(2).jsValue(); JSValue baseVal = LLINT_OP_C(3).jsValue(); if (baseVal.isObject()) { JSObject* baseObject = asObject(baseVal); ASSERT(!baseObject->structure()->typeInfo().implementsDefaultHasInstance()); if (baseObject->structure()->typeInfo().implementsHasInstance()) { pc += pc[4].u.operand; LLINT_RETURN(jsBoolean(baseObject->methodTable()->customHasInstance(baseObject, exec, value))); } } LLINT_THROW(createInvalidParameterError(exec, "instanceof", baseVal)); } LLINT_SLOW_PATH_DECL(slow_path_instanceof) { LLINT_BEGIN(); JSValue value = LLINT_OP_C(2).jsValue(); JSValue proto = LLINT_OP_C(3).jsValue(); ASSERT(!value.isObject() || !proto.isObject()); LLINT_RETURN(jsBoolean(JSObject::defaultHasInstance(exec, value, proto))); } LLINT_SLOW_PATH_DECL(slow_path_get_by_id) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); const Identifier& ident = codeBlock->identifier(pc[3].u.operand); JSValue baseValue = LLINT_OP_C(2).jsValue(); PropertySlot slot(baseValue); JSValue result = baseValue.get(exec, ident, slot); LLINT_CHECK_EXCEPTION(); LLINT_OP(1) = result; if (!LLINT_ALWAYS_ACCESS_SLOW && baseValue.isCell() && slot.isCacheable() && slot.slotBase() == baseValue && slot.isCacheableValue()) { JSCell* baseCell = baseValue.asCell(); Structure* structure = baseCell->structure(); if (!structure->isUncacheableDictionary() && !structure->typeInfo().prohibitsPropertyCaching()) { ConcurrentJITLocker locker(codeBlock->m_lock); pc[4].u.structure.set( vm, codeBlock->ownerExecutable(), structure); if (isInlineOffset(slot.cachedOffset())) { pc[0].u.opcode = LLInt::getOpcode(llint_op_get_by_id); pc[5].u.operand = offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue) + JSObject::offsetOfInlineStorage(); } else { pc[0].u.opcode = LLInt::getOpcode(llint_op_get_by_id_out_of_line); pc[5].u.operand = offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue); } } } if (!LLINT_ALWAYS_ACCESS_SLOW && isJSArray(baseValue) && ident == exec->propertyNames().length) { pc[0].u.opcode = LLInt::getOpcode(llint_op_get_array_length); #if ENABLE(VALUE_PROFILER) ArrayProfile* arrayProfile = codeBlock->getOrAddArrayProfile(pc - codeBlock->instructions().begin()); arrayProfile->observeStructure(baseValue.asCell()->structure()); pc[4].u.arrayProfile = arrayProfile; #endif } #if ENABLE(VALUE_PROFILER) pc[OPCODE_LENGTH(op_get_by_id) - 1].u.profile->m_buckets[0] = JSValue::encode(result); #endif LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_get_arguments_length) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); const Identifier& ident = codeBlock->identifier(pc[3].u.operand); JSValue baseValue = LLINT_OP(2).jsValue(); PropertySlot slot(baseValue); LLINT_RETURN(baseValue.get(exec, ident, slot)); } LLINT_SLOW_PATH_DECL(slow_path_put_by_id) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); const Identifier& ident = codeBlock->identifier(pc[2].u.operand); JSValue baseValue = LLINT_OP_C(1).jsValue(); PutPropertySlot slot(baseValue, codeBlock->isStrictMode(), codeBlock->putByIdContext()); if (pc[8].u.operand) asObject(baseValue)->putDirect(vm, ident, LLINT_OP_C(3).jsValue(), slot); else baseValue.put(exec, ident, LLINT_OP_C(3).jsValue(), slot); LLINT_CHECK_EXCEPTION(); if (!LLINT_ALWAYS_ACCESS_SLOW && baseValue.isCell() && slot.isCacheable()) { JSCell* baseCell = baseValue.asCell(); Structure* structure = baseCell->structure(); if (!structure->isUncacheableDictionary() && !structure->typeInfo().prohibitsPropertyCaching() && baseCell == slot.base()) { if (slot.type() == PutPropertySlot::NewProperty) { GCSafeConcurrentJITLocker locker(codeBlock->m_lock, vm.heap); if (!structure->isDictionary() && structure->previousID()->outOfLineCapacity() == structure->outOfLineCapacity()) { ASSERT(structure->previousID()->transitionWatchpointSetHasBeenInvalidated()); // This is needed because some of the methods we call // below may GC. pc[0].u.opcode = LLInt::getOpcode(llint_op_put_by_id); if (normalizePrototypeChain(exec, baseCell) != InvalidPrototypeChain) { ASSERT(structure->previousID()->isObject()); pc[4].u.structure.set( vm, codeBlock->ownerExecutable(), structure->previousID()); if (isInlineOffset(slot.cachedOffset())) pc[5].u.operand = offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue) + JSObject::offsetOfInlineStorage(); else pc[5].u.operand = offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue); pc[6].u.structure.set( vm, codeBlock->ownerExecutable(), structure); StructureChain* chain = structure->prototypeChain(exec); ASSERT(chain); pc[7].u.structureChain.set( vm, codeBlock->ownerExecutable(), chain); if (pc[8].u.operand) { if (isInlineOffset(slot.cachedOffset())) pc[0].u.opcode = LLInt::getOpcode(llint_op_put_by_id_transition_direct); else pc[0].u.opcode = LLInt::getOpcode(llint_op_put_by_id_transition_direct_out_of_line); } else { if (isInlineOffset(slot.cachedOffset())) pc[0].u.opcode = LLInt::getOpcode(llint_op_put_by_id_transition_normal); else pc[0].u.opcode = LLInt::getOpcode(llint_op_put_by_id_transition_normal_out_of_line); } } } } else { pc[4].u.structure.set( vm, codeBlock->ownerExecutable(), structure); if (isInlineOffset(slot.cachedOffset())) { pc[0].u.opcode = LLInt::getOpcode(llint_op_put_by_id); pc[5].u.operand = offsetInInlineStorage(slot.cachedOffset()) * sizeof(JSValue) + JSObject::offsetOfInlineStorage(); } else { pc[0].u.opcode = LLInt::getOpcode(llint_op_put_by_id_out_of_line); pc[5].u.operand = offsetInButterfly(slot.cachedOffset()) * sizeof(JSValue); } } } } LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_del_by_id) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); JSObject* baseObject = LLINT_OP_C(2).jsValue().toObject(exec); bool couldDelete = baseObject->methodTable()->deleteProperty(baseObject, exec, codeBlock->identifier(pc[3].u.operand)); LLINT_CHECK_EXCEPTION(); if (!couldDelete && codeBlock->isStrictMode()) LLINT_THROW(createTypeError(exec, "Unable to delete property.")); LLINT_RETURN(jsBoolean(couldDelete)); } inline JSValue getByVal(ExecState* exec, JSValue baseValue, JSValue subscript) { if (LIKELY(baseValue.isCell() && subscript.isString())) { if (JSValue result = baseValue.asCell()->fastGetOwnProperty(exec, asString(subscript)->value(exec))) return result; } if (subscript.isUInt32()) { uint32_t i = subscript.asUInt32(); if (isJSString(baseValue) && asString(baseValue)->canGetIndex(i)) return asString(baseValue)->getIndex(exec, i); return baseValue.get(exec, i); } if (isName(subscript)) return baseValue.get(exec, jsCast(subscript.asCell())->privateName()); Identifier property(exec, subscript.toString(exec)->value(exec)); return baseValue.get(exec, property); } LLINT_SLOW_PATH_DECL(slow_path_get_by_val) { LLINT_BEGIN(); LLINT_RETURN_PROFILED(op_get_by_val, getByVal(exec, LLINT_OP_C(2).jsValue(), LLINT_OP_C(3).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_get_argument_by_val) { LLINT_BEGIN(); JSValue arguments = LLINT_OP(2).jsValue(); if (!arguments) { arguments = Arguments::create(vm, exec); LLINT_CHECK_EXCEPTION(); LLINT_OP(2) = arguments; exec->uncheckedR(unmodifiedArgumentsRegister(VirtualRegister(pc[2].u.operand)).offset()) = arguments; } LLINT_RETURN_PROFILED(op_get_argument_by_val, getByVal(exec, arguments, LLINT_OP_C(3).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_get_by_pname) { LLINT_BEGIN(); LLINT_RETURN(getByVal(exec, LLINT_OP_C(2).jsValue(), LLINT_OP_C(3).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_put_by_val) { LLINT_BEGIN(); JSValue baseValue = LLINT_OP_C(1).jsValue(); JSValue subscript = LLINT_OP_C(2).jsValue(); JSValue value = LLINT_OP_C(3).jsValue(); if (LIKELY(subscript.isUInt32())) { uint32_t i = subscript.asUInt32(); if (baseValue.isObject()) { JSObject* object = asObject(baseValue); if (object->canSetIndexQuickly(i)) object->setIndexQuickly(vm, i, value); else object->methodTable()->putByIndex(object, exec, i, value, exec->codeBlock()->isStrictMode()); LLINT_END(); } baseValue.putByIndex(exec, i, value, exec->codeBlock()->isStrictMode()); LLINT_END(); } if (isName(subscript)) { PutPropertySlot slot(baseValue, exec->codeBlock()->isStrictMode()); baseValue.put(exec, jsCast(subscript.asCell())->privateName(), value, slot); LLINT_END(); } Identifier property(exec, subscript.toString(exec)->value(exec)); LLINT_CHECK_EXCEPTION(); PutPropertySlot slot(baseValue, exec->codeBlock()->isStrictMode()); baseValue.put(exec, property, value, slot); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_put_by_val_direct) { LLINT_BEGIN(); JSValue baseValue = LLINT_OP_C(1).jsValue(); JSValue subscript = LLINT_OP_C(2).jsValue(); JSValue value = LLINT_OP_C(3).jsValue(); RELEASE_ASSERT(baseValue.isObject()); JSObject* baseObject = asObject(baseValue); if (LIKELY(subscript.isUInt32())) { uint32_t i = subscript.asUInt32(); baseObject->putDirectIndex(exec, i, value); } else if (isName(subscript)) { PutPropertySlot slot(baseObject, exec->codeBlock()->isStrictMode()); baseObject->putDirect(exec->vm(), jsCast(subscript.asCell())->privateName(), value, slot); } else { Identifier property(exec, subscript.toString(exec)->value(exec)); if (!exec->vm().exception()) { // Don't put to an object if toString threw an exception. PutPropertySlot slot(baseObject, exec->codeBlock()->isStrictMode()); baseObject->putDirect(exec->vm(), property, value, slot); } } LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_del_by_val) { LLINT_BEGIN(); JSValue baseValue = LLINT_OP_C(2).jsValue(); JSObject* baseObject = baseValue.toObject(exec); JSValue subscript = LLINT_OP_C(3).jsValue(); bool couldDelete; uint32_t i; if (subscript.getUInt32(i)) couldDelete = baseObject->methodTable()->deletePropertyByIndex(baseObject, exec, i); else if (isName(subscript)) couldDelete = baseObject->methodTable()->deleteProperty(baseObject, exec, jsCast(subscript.asCell())->privateName()); else { LLINT_CHECK_EXCEPTION(); Identifier property(exec, subscript.toString(exec)->value(exec)); LLINT_CHECK_EXCEPTION(); couldDelete = baseObject->methodTable()->deleteProperty(baseObject, exec, property); } if (!couldDelete && exec->codeBlock()->isStrictMode()) LLINT_THROW(createTypeError(exec, "Unable to delete property.")); LLINT_RETURN(jsBoolean(couldDelete)); } LLINT_SLOW_PATH_DECL(slow_path_put_by_index) { LLINT_BEGIN(); JSValue arrayValue = LLINT_OP_C(1).jsValue(); ASSERT(isJSArray(arrayValue)); asArray(arrayValue)->putDirectIndex(exec, pc[2].u.operand, LLINT_OP_C(3).jsValue()); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_put_getter_setter) { LLINT_BEGIN(); ASSERT(LLINT_OP(1).jsValue().isObject()); JSObject* baseObj = asObject(LLINT_OP(1).jsValue()); GetterSetter* accessor = GetterSetter::create(vm); LLINT_CHECK_EXCEPTION(); JSValue getter = LLINT_OP(3).jsValue(); JSValue setter = LLINT_OP(4).jsValue(); ASSERT(getter.isObject() || getter.isUndefined()); ASSERT(setter.isObject() || setter.isUndefined()); ASSERT(getter.isObject() || setter.isObject()); if (!getter.isUndefined()) accessor->setGetter(vm, asObject(getter)); if (!setter.isUndefined()) accessor->setSetter(vm, asObject(setter)); baseObj->putDirectAccessor( exec, exec->codeBlock()->identifier(pc[2].u.operand), accessor, Accessor); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_jtrue) { LLINT_BEGIN(); LLINT_BRANCH(op_jtrue, LLINT_OP_C(1).jsValue().toBoolean(exec)); } LLINT_SLOW_PATH_DECL(slow_path_jfalse) { LLINT_BEGIN(); LLINT_BRANCH(op_jfalse, !LLINT_OP_C(1).jsValue().toBoolean(exec)); } LLINT_SLOW_PATH_DECL(slow_path_jless) { LLINT_BEGIN(); LLINT_BRANCH(op_jless, jsLess(exec, LLINT_OP_C(1).jsValue(), LLINT_OP_C(2).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_jnless) { LLINT_BEGIN(); LLINT_BRANCH(op_jnless, !jsLess(exec, LLINT_OP_C(1).jsValue(), LLINT_OP_C(2).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_jgreater) { LLINT_BEGIN(); LLINT_BRANCH(op_jgreater, jsLess(exec, LLINT_OP_C(2).jsValue(), LLINT_OP_C(1).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_jngreater) { LLINT_BEGIN(); LLINT_BRANCH(op_jngreater, !jsLess(exec, LLINT_OP_C(2).jsValue(), LLINT_OP_C(1).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_jlesseq) { LLINT_BEGIN(); LLINT_BRANCH(op_jlesseq, jsLessEq(exec, LLINT_OP_C(1).jsValue(), LLINT_OP_C(2).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_jnlesseq) { LLINT_BEGIN(); LLINT_BRANCH(op_jnlesseq, !jsLessEq(exec, LLINT_OP_C(1).jsValue(), LLINT_OP_C(2).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_jgreatereq) { LLINT_BEGIN(); LLINT_BRANCH(op_jgreatereq, jsLessEq(exec, LLINT_OP_C(2).jsValue(), LLINT_OP_C(1).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_jngreatereq) { LLINT_BEGIN(); LLINT_BRANCH(op_jngreatereq, !jsLessEq(exec, LLINT_OP_C(2).jsValue(), LLINT_OP_C(1).jsValue())); } LLINT_SLOW_PATH_DECL(slow_path_switch_imm) { LLINT_BEGIN(); JSValue scrutinee = LLINT_OP_C(3).jsValue(); ASSERT(scrutinee.isDouble()); double value = scrutinee.asDouble(); int32_t intValue = static_cast(value); int defaultOffset = pc[2].u.operand; if (value == intValue) { CodeBlock* codeBlock = exec->codeBlock(); pc += codeBlock->switchJumpTable(pc[1].u.operand).offsetForValue(intValue, defaultOffset); } else pc += defaultOffset; LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_switch_char) { LLINT_BEGIN(); JSValue scrutinee = LLINT_OP_C(3).jsValue(); ASSERT(scrutinee.isString()); JSString* string = asString(scrutinee); ASSERT(string->length() == 1); int defaultOffset = pc[2].u.operand; StringImpl* impl = string->value(exec).impl(); CodeBlock* codeBlock = exec->codeBlock(); pc += codeBlock->switchJumpTable(pc[1].u.operand).offsetForValue((*impl)[0], defaultOffset); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_switch_string) { LLINT_BEGIN(); JSValue scrutinee = LLINT_OP_C(3).jsValue(); int defaultOffset = pc[2].u.operand; if (!scrutinee.isString()) pc += defaultOffset; else { CodeBlock* codeBlock = exec->codeBlock(); pc += codeBlock->stringSwitchJumpTable(pc[1].u.operand).offsetForValue(asString(scrutinee)->value(exec).impl(), defaultOffset); } LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_new_func) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); ASSERT(codeBlock->codeType() != FunctionCode || !codeBlock->needsFullScopeChain() || exec->uncheckedR(codeBlock->activationRegister().offset()).jsValue()); #if LLINT_SLOW_PATH_TRACING dataLogF("Creating function!\n"); #endif LLINT_RETURN(JSFunction::create(vm, codeBlock->functionDecl(pc[2].u.operand), exec->scope())); } LLINT_SLOW_PATH_DECL(slow_path_new_func_exp) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); FunctionExecutable* function = codeBlock->functionExpr(pc[2].u.operand); JSFunction* func = JSFunction::create(vm, function, exec->scope()); LLINT_RETURN(func); } static SlowPathReturnType handleHostCall(ExecState* execCallee, Instruction* pc, JSValue callee, CodeSpecializationKind kind) { UNUSED_PARAM(pc); #if LLINT_SLOW_PATH_TRACING dataLog("Performing host call.\n"); #endif ExecState* exec = execCallee->callerFrame(); VM& vm = exec->vm(); execCallee->setScope(exec->scope()); execCallee->setCodeBlock(0); execCallee->clearReturnPC(); if (kind == CodeForCall) { CallData callData; CallType callType = getCallData(callee, callData); ASSERT(callType != CallTypeJS); if (callType == CallTypeHost) { NativeCallFrameTracer tracer(&vm, execCallee); execCallee->setCallee(asObject(callee)); vm.hostCallReturnValue = JSValue::decode(callData.native.function(execCallee)); LLINT_CALL_RETURN(execCallee, LLInt::getCodePtr(getHostCallReturnValue)); } #if LLINT_SLOW_PATH_TRACING dataLog("Call callee is not a function: ", callee, "\n"); #endif ASSERT(callType == CallTypeNone); LLINT_CALL_THROW(exec, createNotAFunctionError(exec, callee)); } ASSERT(kind == CodeForConstruct); ConstructData constructData; ConstructType constructType = getConstructData(callee, constructData); ASSERT(constructType != ConstructTypeJS); if (constructType == ConstructTypeHost) { NativeCallFrameTracer tracer(&vm, execCallee); execCallee->setCallee(asObject(callee)); vm.hostCallReturnValue = JSValue::decode(constructData.native.function(execCallee)); LLINT_CALL_RETURN(execCallee, LLInt::getCodePtr(getHostCallReturnValue)); } #if LLINT_SLOW_PATH_TRACING dataLog("Constructor callee is not a function: ", callee, "\n"); #endif ASSERT(constructType == ConstructTypeNone); LLINT_CALL_THROW(exec, createNotAConstructorError(exec, callee)); } inline SlowPathReturnType setUpCall(ExecState* execCallee, Instruction* pc, CodeSpecializationKind kind, JSValue calleeAsValue, LLIntCallLinkInfo* callLinkInfo = 0) { #if LLINT_SLOW_PATH_TRACING dataLogF("Performing call with recorded PC = %p\n", execCallee->callerFrame()->currentVPC()); #endif JSCell* calleeAsFunctionCell = getJSFunction(calleeAsValue); if (!calleeAsFunctionCell) return handleHostCall(execCallee, pc, calleeAsValue, kind); JSFunction* callee = jsCast(calleeAsFunctionCell); JSScope* scope = callee->scopeUnchecked(); VM& vm = *scope->vm(); execCallee->setScope(scope); ExecutableBase* executable = callee->executable(); MacroAssemblerCodePtr codePtr; CodeBlock* codeBlock = 0; if (executable->isHostFunction()) codePtr = executable->hostCodeEntryFor(kind); else { FunctionExecutable* functionExecutable = static_cast(executable); JSObject* error = functionExecutable->prepareForExecution(execCallee, callee->scope(), kind); if (error) LLINT_CALL_THROW(execCallee->callerFrame(), error); codeBlock = functionExecutable->codeBlockFor(kind); ASSERT(codeBlock); if (execCallee->argumentCountIncludingThis() < static_cast(codeBlock->numParameters())) codePtr = functionExecutable->jsCodeWithArityCheckEntryFor(kind); else codePtr = functionExecutable->jsCodeEntryFor(kind); } if (!LLINT_ALWAYS_ACCESS_SLOW && callLinkInfo) { ExecState* execCaller = execCallee->callerFrame(); CodeBlock* callerCodeBlock = execCaller->codeBlock(); ConcurrentJITLocker locker(callerCodeBlock->m_lock); if (callLinkInfo->isOnList()) callLinkInfo->remove(); callLinkInfo->callee.set(vm, callerCodeBlock->ownerExecutable(), callee); callLinkInfo->lastSeenCallee.set(vm, callerCodeBlock->ownerExecutable(), callee); callLinkInfo->machineCodeTarget = codePtr; if (codeBlock) codeBlock->linkIncomingCall(execCaller, callLinkInfo); } LLINT_CALL_RETURN(execCallee, codePtr.executableAddress()); } inline SlowPathReturnType genericCall(ExecState* exec, Instruction* pc, CodeSpecializationKind kind) { // This needs to: // - Set up a call frame. // - Figure out what to call and compile it if necessary. // - If possible, link the call's inline cache. // - Return a tuple of machine code address to call and the new call frame. JSValue calleeAsValue = LLINT_OP_C(2).jsValue(); ExecState* execCallee = exec - pc[4].u.operand; execCallee->setArgumentCountIncludingThis(pc[3].u.operand); execCallee->uncheckedR(JSStack::Callee) = calleeAsValue; execCallee->setCallerFrame(exec); ASSERT(pc[5].u.callLinkInfo); return setUpCall(execCallee, pc, kind, calleeAsValue, pc[5].u.callLinkInfo); } LLINT_SLOW_PATH_DECL(slow_path_call) { LLINT_BEGIN_NO_SET_PC(); return genericCall(exec, pc, CodeForCall); } LLINT_SLOW_PATH_DECL(slow_path_construct) { LLINT_BEGIN_NO_SET_PC(); return genericCall(exec, pc, CodeForConstruct); } LLINT_SLOW_PATH_DECL(slow_path_size_and_alloc_frame_for_varargs) { LLINT_BEGIN(); // This needs to: // - Set up a call frame while respecting the variable arguments. ExecState* execCallee = sizeAndAllocFrameForVarargs(exec, &vm.interpreter->stack(), LLINT_OP_C(4).jsValue(), pc[5].u.operand); LLINT_CALL_CHECK_EXCEPTION(exec); vm.newCallFrameReturnValue = execCallee; LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_call_varargs) { LLINT_BEGIN_NO_SET_PC(); // This needs to: // - Figure out what to call and compile it if necessary. // - Return a tuple of machine code address to call and the new call frame. JSValue calleeAsValue = LLINT_OP_C(2).jsValue(); ExecState* execCallee = vm.newCallFrameReturnValue; loadVarargs(exec, execCallee, LLINT_OP_C(3).jsValue(), LLINT_OP_C(4).jsValue()); LLINT_CALL_CHECK_EXCEPTION(exec); execCallee->uncheckedR(JSStack::Callee) = calleeAsValue; execCallee->setCallerFrame(exec); exec->setCurrentVPC(pc); return setUpCall(execCallee, pc, CodeForCall, calleeAsValue); } LLINT_SLOW_PATH_DECL(slow_path_call_eval) { LLINT_BEGIN_NO_SET_PC(); JSValue calleeAsValue = LLINT_OP(2).jsValue(); ExecState* execCallee = exec - pc[4].u.operand; execCallee->setArgumentCountIncludingThis(pc[3].u.operand); execCallee->setCallerFrame(exec); execCallee->uncheckedR(JSStack::Callee) = calleeAsValue; execCallee->setScope(exec->scope()); execCallee->setReturnPC(LLInt::getCodePtr(llint_generic_return_point)); execCallee->setCodeBlock(0); exec->setCurrentVPC(pc); if (!isHostFunction(calleeAsValue, globalFuncEval)) return setUpCall(execCallee, pc, CodeForCall, calleeAsValue); vm.hostCallReturnValue = eval(execCallee); LLINT_CALL_RETURN(execCallee, LLInt::getCodePtr(getHostCallReturnValue)); } LLINT_SLOW_PATH_DECL(slow_path_tear_off_activation) { LLINT_BEGIN(); ASSERT(exec->codeBlock()->needsFullScopeChain()); jsCast(LLINT_OP(1).jsValue())->tearOff(vm); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_tear_off_arguments) { LLINT_BEGIN(); ASSERT(exec->codeBlock()->usesArguments()); Arguments* arguments = jsCast(exec->uncheckedR(unmodifiedArgumentsRegister(VirtualRegister(pc[1].u.operand)).offset()).jsValue()); if (JSValue activationValue = LLINT_OP_C(2).jsValue()) arguments->didTearOffActivation(exec, jsCast(activationValue)); else arguments->tearOff(exec); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_strcat) { LLINT_BEGIN(); LLINT_RETURN(jsStringFromRegisterArray(exec, &LLINT_OP(2), pc[3].u.operand)); } LLINT_SLOW_PATH_DECL(slow_path_to_primitive) { LLINT_BEGIN(); LLINT_RETURN(LLINT_OP_C(2).jsValue().toPrimitive(exec)); } LLINT_SLOW_PATH_DECL(slow_path_get_pnames) { LLINT_BEGIN(); JSValue v = LLINT_OP(2).jsValue(); if (v.isUndefinedOrNull()) { pc += pc[5].u.operand; LLINT_END(); } JSObject* o = v.toObject(exec); Structure* structure = o->structure(); JSPropertyNameIterator* jsPropertyNameIterator = structure->enumerationCache(); if (!jsPropertyNameIterator || jsPropertyNameIterator->cachedPrototypeChain() != structure->prototypeChain(exec)) jsPropertyNameIterator = JSPropertyNameIterator::create(exec, o); LLINT_OP(1) = JSValue(jsPropertyNameIterator); LLINT_OP(2) = JSValue(o); LLINT_OP(3) = Register::withInt(0); LLINT_OP(4) = Register::withInt(jsPropertyNameIterator->size()); pc += OPCODE_LENGTH(op_get_pnames); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_next_pname) { LLINT_BEGIN(); JSObject* base = asObject(LLINT_OP(2).jsValue()); JSString* property = asString(LLINT_OP(1).jsValue()); if (base->hasProperty(exec, Identifier(exec, property->value(exec)))) { // Go to target. pc += pc[6].u.operand; } // Else, don't change the PC, so the interpreter will reloop. LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_push_with_scope) { LLINT_BEGIN(); JSValue v = LLINT_OP_C(1).jsValue(); JSObject* o = v.toObject(exec); LLINT_CHECK_EXCEPTION(); exec->setScope(JSWithScope::create(exec, o)); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_pop_scope) { LLINT_BEGIN(); exec->setScope(exec->scope()->next()); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_push_name_scope) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); JSNameScope* scope = JSNameScope::create(exec, codeBlock->identifier(pc[1].u.operand), LLINT_OP(2).jsValue(), pc[3].u.operand); exec->setScope(scope); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_throw) { LLINT_BEGIN(); LLINT_THROW(LLINT_OP_C(1).jsValue()); } LLINT_SLOW_PATH_DECL(slow_path_throw_static_error) { LLINT_BEGIN(); if (pc[2].u.operand) LLINT_THROW(createReferenceError(exec, errorDescriptionForValue(exec, LLINT_OP_C(1).jsValue())->value(exec))); else LLINT_THROW(createTypeError(exec, errorDescriptionForValue(exec, LLINT_OP_C(1).jsValue())->value(exec))); } LLINT_SLOW_PATH_DECL(slow_path_handle_watchdog_timer) { LLINT_BEGIN_NO_SET_PC(); if (UNLIKELY(vm.watchdog.didFire(exec))) LLINT_THROW(createTerminatedExecutionException(&vm)); LLINT_RETURN_TWO(0, exec); } LLINT_SLOW_PATH_DECL(slow_path_debug) { LLINT_BEGIN(); int debugHookID = pc[1].u.operand; vm.interpreter->debug(exec, static_cast(debugHookID)); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_profile_will_call) { LLINT_BEGIN(); if (LegacyProfiler* profiler = vm.enabledProfiler()) profiler->willExecute(exec, LLINT_OP(1).jsValue()); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_profile_did_call) { LLINT_BEGIN(); if (LegacyProfiler* profiler = vm.enabledProfiler()) profiler->didExecute(exec, LLINT_OP(1).jsValue()); LLINT_END(); } LLINT_SLOW_PATH_DECL(throw_from_native_call) { LLINT_BEGIN(); ASSERT(vm.exception()); LLINT_END(); } LLINT_SLOW_PATH_DECL(slow_path_handle_exception) { LLINT_BEGIN_NO_SET_PC(); ASSERT(vm.exception()); genericUnwind(&vm, exec, vm.exception()); LLINT_END_IMPL(); } LLINT_SLOW_PATH_DECL(slow_path_resolve_scope) { LLINT_BEGIN(); const Identifier& ident = exec->codeBlock()->identifier(pc[2].u.operand); LLINT_RETURN(JSScope::resolve(exec, exec->scope(), ident)); } LLINT_SLOW_PATH_DECL(slow_path_get_from_scope) { LLINT_BEGIN(); const Identifier& ident = exec->codeBlock()->identifier(pc[3].u.operand); JSObject* scope = jsCast(LLINT_OP(2).jsValue()); ResolveModeAndType modeAndType(pc[4].u.operand); PropertySlot slot(scope); if (!scope->getPropertySlot(exec, ident, slot)) { if (modeAndType.mode() == ThrowIfNotFound) LLINT_RETURN(exec->vm().throwException(exec, createUndefinedVariableError(exec, ident))); LLINT_RETURN(jsUndefined()); } // Covers implicit globals. Since they don't exist until they first execute, we didn't know how to cache them at compile time. if (slot.isCacheableValue() && slot.slotBase() == scope && scope->structure()->propertyAccessesAreCacheable()) { if (modeAndType.type() == GlobalProperty || modeAndType.type() == GlobalPropertyWithVarInjectionChecks) { CodeBlock* codeBlock = exec->codeBlock(); ConcurrentJITLocker locker(codeBlock->m_lock); pc[5].u.structure.set(exec->vm(), codeBlock->ownerExecutable(), scope->structure()); pc[6].u.operand = slot.cachedOffset(); } } LLINT_RETURN(slot.getValue(exec, ident)); } LLINT_SLOW_PATH_DECL(slow_path_put_to_scope) { LLINT_BEGIN(); CodeBlock* codeBlock = exec->codeBlock(); const Identifier& ident = codeBlock->identifier(pc[2].u.operand); JSObject* scope = jsCast(LLINT_OP(1).jsValue()); JSValue value = LLINT_OP_C(3).jsValue(); ResolveModeAndType modeAndType = ResolveModeAndType(pc[4].u.operand); if (modeAndType.mode() == ThrowIfNotFound && !scope->hasProperty(exec, ident)) LLINT_THROW(createUndefinedVariableError(exec, ident)); PutPropertySlot slot(scope, codeBlock->isStrictMode()); scope->methodTable()->put(scope, exec, ident, value, slot); // Covers implicit globals. Since they don't exist until they first execute, we didn't know how to cache them at compile time. if (modeAndType.type() == GlobalProperty || modeAndType.type() == GlobalPropertyWithVarInjectionChecks) { if (slot.isCacheable() && slot.base() == scope && scope->structure()->propertyAccessesAreCacheable()) { ConcurrentJITLocker locker(codeBlock->m_lock); pc[5].u.structure.set(exec->vm(), codeBlock->ownerExecutable(), scope->structure()); pc[6].u.operand = slot.cachedOffset(); } } LLINT_END(); } } } // namespace JSC::LLInt #endif // ENABLE(LLINT)