Source/JavaScriptCore/wasm/WasmSlowPaths.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2019 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 "WasmSlowPaths.h"

 #if ENABLE(WEBASSEMBLY)

 #include "ExceptionFuzz.h"
 #include "FrameTracers.h"
 #include "LLIntData.h"
 #include "WasmBBQPlan.h"
 #include "WasmCallee.h"
 #include "WasmCompilationMode.h"
 #include "WasmContextInlines.h"
 #include "WasmFunctionCodeBlock.h"
 #include "WasmInstance.h"
 #include "WasmModuleInformation.h"
 #include "WasmOMGForOSREntryPlan.h"
 #include "WasmOMGPlan.h"
 #include "WasmOperations.h"
 #include "WasmThunks.h"
 #include "WasmWorklist.h"

 namespace JSC { namespace LLInt {

 #define WASM_RETURN_TWO(first, second) do { \
         return encodeResult(first, second); \
     } while (false)

 #define WASM_END_IMPL() WASM_RETURN_TWO(pc, 0)

 #define WASM_THROW(exceptionType) do { \
         callFrame->setArgumentCountIncludingThis(static_cast<int>(exceptionType)); \
         WASM_RETURN_TWO(LLInt::wasmExceptionInstructions(), 0); \
     } while (false)

 #define WASM_END() do { \
         WASM_END_IMPL(); \
     } while (false)

 #define WASM_RETURN(value) do { \
         callFrame->uncheckedR(instruction.m_dst) = static_cast<EncodedJSValue>(value); \
         WASM_END_IMPL(); \
     } while (false)

 #define WASM_CALL_RETURN(targetInstance, callTarget, callTargetTag) do { \
         WASM_RETURN_TWO(retagCodePtr(callTarget, callTargetTag, SlowPathPtrTag), targetInstance); \
     } while (false)

 #define CODE_BLOCK() \
     bitwise_cast<Wasm::FunctionCodeBlock*>(callFrame->codeBlock())

 #define READ(virtualRegister) \
     (virtualRegister.isConstant() \
         ? JSValue::decode(CODE_BLOCK()->getConstant(virtualRegister.offset())) \
         : callFrame->r(virtualRegister))

 inline bool jitCompileAndSetHeuristics(Wasm::LLIntCallee* callee, Wasm::FunctionCodeBlock* codeBlock, Wasm::Instance* instance)
 {
     Wasm::LLIntTierUpCounter& tierUpCounter = codeBlock->tierUpCounter();
     if (!tierUpCounter.checkIfOptimizationThresholdReached()) {
         dataLogLnIf(Options::verboseOSR(), "    JIT threshold should be lifted.");
         return false;
     }

     if (callee->replacement())  {
         dataLogLnIf(Options::verboseOSR(), "    Code was already compiled.");
         tierUpCounter.optimizeSoon();
         return true;
     }

     bool compile = false;
     {
         auto locker = holdLock(tierUpCounter.m_lock);
         switch (tierUpCounter.m_compilationStatus) {
         case Wasm::LLIntTierUpCounter::CompilationStatus::NotCompiled:
             compile = true;
             tierUpCounter.m_compilationStatus = Wasm::LLIntTierUpCounter::CompilationStatus::Compiling;
             break;
         case Wasm::LLIntTierUpCounter::CompilationStatus::Compiling:
             tierUpCounter.optimizeAfterWarmUp();
             break;
         case Wasm::LLIntTierUpCounter::CompilationStatus::Compiled:
             break;
         }
     }

     if (compile) {
         uint32_t functionIndex = codeBlock->functionIndex();
         RefPtr<Wasm::Plan> plan;
         if (Options::wasmLLIntTiersUpToBBQ())
             plan = adoptRef(*new Wasm::BBQPlan(instance->context(), makeRef(const_cast<Wasm::ModuleInformation&>(instance->module().moduleInformation())), functionIndex, instance->codeBlock(), Wasm::Plan::dontFinalize()));
         else
             plan = adoptRef(*new Wasm::OMGPlan(instance->context(), Ref<Wasm::Module>(instance->module()), functionIndex, instance->memory()->mode(), Wasm::Plan::dontFinalize()));

         Wasm::ensureWorklist().enqueue(makeRef(*plan));
         if (UNLIKELY(!Options::useConcurrentJIT()))
             plan->waitForCompletion();
         else
             tierUpCounter.optimizeAfterWarmUp();
     }

     return !!callee->replacement();
 }

 WASM_SLOW_PATH_DECL(prologue_osr)
 {
     UNUSED_PARAM(pc);

     Wasm::LLIntCallee* callee = static_cast<Wasm::LLIntCallee*>(callFrame->callee().asWasmCallee());
     Wasm::FunctionCodeBlock* codeBlock = CODE_BLOCK();

     dataLogLnIf(Options::verboseOSR(), *callee, ": Entered epilogue_osr with tierUpCounter = ", codeBlock->tierUpCounter());

     if (!jitCompileAndSetHeuristics(callee, codeBlock, instance))
         WASM_RETURN_TWO(0, 0);

     WASM_RETURN_TWO(callee->replacement()->entrypoint().executableAddress(), 0);
 }

 WASM_SLOW_PATH_DECL(loop_osr)
 {
     if (!Options::useWebAssemblyOSR()) {
         slow_path_wasm_prologue_osr(callFrame, pc, instance);
         WASM_RETURN_TWO(0, 0);
     }

     Wasm::LLIntCallee* callee = static_cast<Wasm::LLIntCallee*>(callFrame->callee().asWasmCallee());
     Wasm::FunctionCodeBlock* codeBlock = CODE_BLOCK();
     Wasm::LLIntTierUpCounter& tierUpCounter = codeBlock->tierUpCounter();

     dataLogLnIf(Options::verboseOSR(), *callee, ": Entered loop_osr with tierUpCounter = ", codeBlock->tierUpCounter());

     unsigned loopOSREntryBytecodeOffset = codeBlock->bytecodeOffset(pc);
     const auto& osrEntryData = tierUpCounter.osrEntryDataForLoop(loopOSREntryBytecodeOffset);

     if (!tierUpCounter.checkIfOptimizationThresholdReached()) {
         dataLogLnIf(Options::verboseOSR(), "    JIT threshold should be lifted.");
         WASM_RETURN_TWO(0, 0);
     }

     const auto doOSREntry = [&] {
         Wasm::OMGForOSREntryCallee* osrEntryCallee = callee->osrEntryCallee();
         if (osrEntryCallee->loopIndex() != osrEntryData.loopIndex)
             WASM_RETURN_TWO(0, 0);

         size_t osrEntryScratchBufferSize = osrEntryCallee->osrEntryScratchBufferSize();
         RELEASE_ASSERT(osrEntryScratchBufferSize == osrEntryData.values.size());
         uint64_t* buffer = instance->context()->scratchBufferForSize(osrEntryScratchBufferSize);
         if (!buffer)
             WASM_RETURN_TWO(0, 0);

         uint32_t index = 0;
         for (VirtualRegister reg : osrEntryData.values)
             buffer[index++] = READ(reg).encodedJSValue();

         WASM_RETURN_TWO(buffer, osrEntryCallee->entrypoint().executableAddress());
     };

     if (callee->osrEntryCallee())
         return doOSREntry();

     bool compile = false;
     {
         auto locker = holdLock(tierUpCounter.m_lock);
         switch (tierUpCounter.m_loopCompilationStatus) {
         case Wasm::LLIntTierUpCounter::CompilationStatus::NotCompiled:
             compile = true;
             tierUpCounter.m_loopCompilationStatus = Wasm::LLIntTierUpCounter::CompilationStatus::Compiling;
             break;
         case Wasm::LLIntTierUpCounter::CompilationStatus::Compiling:
             tierUpCounter.optimizeAfterWarmUp();
             break;
         case Wasm::LLIntTierUpCounter::CompilationStatus::Compiled:
             break;
         }
     }

     if (compile) {
         Ref<Wasm::Plan> plan = adoptRef(*static_cast<Wasm::Plan*>(new Wasm::OMGForOSREntryPlan(instance->context(), Ref<Wasm::Module>(instance->module()), Ref<Wasm::Callee>(*callee), codeBlock->functionIndex(), osrEntryData.loopIndex, instance->memory()->mode(), Wasm::Plan::dontFinalize())));
         Wasm::ensureWorklist().enqueue(plan.copyRef());
         if (UNLIKELY(!Options::useConcurrentJIT()))
             plan->waitForCompletion();
         else
             tierUpCounter.optimizeAfterWarmUp();
     }

     if (callee->osrEntryCallee())
         return doOSREntry();

     WASM_RETURN_TWO(0, 0);
 }

 WASM_SLOW_PATH_DECL(epilogue_osr)
 {
     Wasm::LLIntCallee* callee = static_cast<Wasm::LLIntCallee*>(callFrame->callee().asWasmCallee());
     Wasm::FunctionCodeBlock* codeBlock = CODE_BLOCK();

     dataLogLnIf(Options::verboseOSR(), *callee, ": Entered epilogue_osr with tierUpCounter = ", codeBlock->tierUpCounter());

     jitCompileAndSetHeuristics(callee, codeBlock, instance);
     WASM_END_IMPL();
 }


 WASM_SLOW_PATH_DECL(trace)
 {
     UNUSED_PARAM(instance);

     if (!Options::traceLLIntExecution())
         WASM_END_IMPL();

     WasmOpcodeID opcodeID = pc->opcodeID<WasmOpcodeTraits>();
     dataLogF("<%p> %p / %p: executing bc#%zu, %s, pc = %p\n",
         &Thread::current(),
         callFrame->codeBlock(),
         callFrame,
         static_cast<intptr_t>(CODE_BLOCK()->bytecodeOffset(pc)),
         pc->name<WasmOpcodeTraits>(),
         pc);
     if (opcodeID == wasm_enter) {
         dataLogF("Frame will eventually return to %p\n", callFrame->returnPC().value());
         *removeCodePtrTag<volatile char*>(callFrame->returnPC().value());
     }
     if (opcodeID == wasm_ret) {
         dataLogF("Will be returning to %p\n", callFrame->returnPC().value());
         dataLogF("The new cfr will be %p\n", callFrame->callerFrame());
     }
     WASM_END_IMPL();
 }

 WASM_SLOW_PATH_DECL(out_of_line_jump_target)
 {
     UNUSED_PARAM(instance);

     pc = CODE_BLOCK()->outOfLineJumpTarget(pc);
     WASM_END_IMPL();
 }

 WASM_SLOW_PATH_DECL(ref_func)
 {
     auto instruction = pc->as<WasmRefFunc, WasmOpcodeTraits>();
     WASM_RETURN(Wasm::operationWasmRefFunc(instance, instruction.m_functionIndex));
 }

 WASM_SLOW_PATH_DECL(table_get)
 {
     auto instruction = pc->as<WasmTableGet, WasmOpcodeTraits>();
     int32_t index = READ(instruction.m_index).unboxedInt32();
     EncodedJSValue result = Wasm::operationGetWasmTableElement(instance, instruction.m_tableIndex, index);
     if (!result)
         WASM_THROW(Wasm::ExceptionType::OutOfBoundsTableAccess);
     WASM_RETURN(result);
 }

 WASM_SLOW_PATH_DECL(table_set)
 {
     auto instruction = pc->as<WasmTableSet, WasmOpcodeTraits>();
     int32_t index = READ(instruction.m_index).unboxedInt32();
     EncodedJSValue value = READ(instruction.m_value).encodedJSValue();
     if (!Wasm::operationSetWasmTableElement(instance, instruction.m_tableIndex, index, value))
         WASM_THROW(Wasm::ExceptionType::OutOfBoundsTableAccess);
     WASM_END();
 }

 WASM_SLOW_PATH_DECL(table_size)
 {
     auto instruction = pc->as<WasmTableSize, WasmOpcodeTraits>();
     WASM_RETURN(Wasm::operationGetWasmTableSize(instance, instruction.m_tableIndex));
 }

 WASM_SLOW_PATH_DECL(table_fill)
 {
     auto instruction = pc->as<WasmTableFill, WasmOpcodeTraits>();
     int32_t offset = READ(instruction.m_offset).unboxedInt32();
     EncodedJSValue fill = READ(instruction.m_fill).encodedJSValue();
     int32_t size = READ(instruction.m_size).unboxedInt32();
     if (!Wasm::operationWasmTableFill(instance, instruction.m_tableIndex, offset, fill, size))
         WASM_THROW(Wasm::ExceptionType::OutOfBoundsTableAccess);
     WASM_END();
 }

 WASM_SLOW_PATH_DECL(table_grow)
 {
     auto instruction = pc->as<WasmTableGrow, WasmOpcodeTraits>();
     EncodedJSValue fill = READ(instruction.m_fill).encodedJSValue();
     int32_t size = READ(instruction.m_size).unboxedInt32();
     WASM_RETURN(Wasm::operationWasmTableGrow(instance, instruction.m_tableIndex, fill, size));
 }

 WASM_SLOW_PATH_DECL(grow_memory)
 {
     auto instruction = pc->as<WasmGrowMemory, WasmOpcodeTraits>();
     int32_t delta = READ(instruction.m_delta).unboxedInt32();
     WASM_RETURN(Wasm::operationGrowMemory(callFrame, instance, delta));
 }

 inline SlowPathReturnType doWasmCall(Wasm::Instance* instance, unsigned functionIndex)
 {
     uint32_t importFunctionCount = instance->module().moduleInformation().importFunctionCount();

     MacroAssemblerCodePtr<WasmEntryPtrTag> codePtr;

     if (functionIndex < importFunctionCount) {
         Wasm::Instance::ImportFunctionInfo* functionInfo = instance->importFunctionInfo(functionIndex);
         if (functionInfo->targetInstance) {
             // target is a wasm function from a different instance
             codePtr = instance->codeBlock()->wasmToWasmExitStub(functionIndex);
         } else {
             // target is JS
             codePtr = functionInfo->wasmToEmbedderStub;
         }
     } else {
         // Target is a wasm function within the same instance
         codePtr = *instance->codeBlock()->entrypointLoadLocationFromFunctionIndexSpace(functionIndex);
     }

     WASM_CALL_RETURN(instance, codePtr.executableAddress(), WasmEntryPtrTag);
 }

 WASM_SLOW_PATH_DECL(call)
 {
     UNUSED_PARAM(callFrame);

     auto instruction = pc->as<WasmCall, WasmOpcodeTraits>();
     return doWasmCall(instance, instruction.m_functionIndex);
 }

 WASM_SLOW_PATH_DECL(call_no_tls)
 {
     UNUSED_PARAM(callFrame);

     auto instruction = pc->as<WasmCallNoTls, WasmOpcodeTraits>();
     return doWasmCall(instance, instruction.m_functionIndex);
 }

 inline SlowPathReturnType doWasmCallIndirect(CallFrame* callFrame, Wasm::Instance* instance, unsigned functionIndex, unsigned tableIndex, unsigned signatureIndex)
 {
     Wasm::FuncRefTable* table = instance->table(tableIndex)->asFuncrefTable();

     if (functionIndex >= table->length())
         WASM_THROW(Wasm::ExceptionType::OutOfBoundsCallIndirect);

     Wasm::Instance* targetInstance = table->instance(functionIndex);
     const Wasm::WasmToWasmImportableFunction& function = table->function(functionIndex);

     if (function.signatureIndex == Wasm::Signature::invalidIndex)
         WASM_THROW(Wasm::ExceptionType::NullTableEntry);

     const Wasm::Signature& callSignature = CODE_BLOCK()->signature(signatureIndex);
     if (function.signatureIndex != Wasm::SignatureInformation::get(callSignature))
         WASM_THROW(Wasm::ExceptionType::BadSignature);

     if (targetInstance != instance)
         targetInstance->setCachedStackLimit(instance->cachedStackLimit());

     WASM_CALL_RETURN(targetInstance, function.entrypointLoadLocation->executableAddress(), WasmEntryPtrTag);
 }

 WASM_SLOW_PATH_DECL(call_indirect)
 {
     auto instruction = pc->as<WasmCallIndirect, WasmOpcodeTraits>();
     unsigned functionIndex = READ(instruction.m_functionIndex).unboxedInt32();
     return doWasmCallIndirect(callFrame, instance, functionIndex, instruction.m_tableIndex, instruction.m_signatureIndex);
 }

 WASM_SLOW_PATH_DECL(call_indirect_no_tls)
 {
     auto instruction = pc->as<WasmCallIndirectNoTls, WasmOpcodeTraits>();
     unsigned functionIndex = READ(instruction.m_functionIndex).unboxedInt32();
     return doWasmCallIndirect(callFrame, instance, functionIndex, instruction.m_tableIndex, instruction.m_signatureIndex);
 }

 WASM_SLOW_PATH_DECL(set_global_ref)
 {
     auto instruction = pc->as<WasmSetGlobalRef, WasmOpcodeTraits>();
     instance->setGlobal(instruction.m_globalIndex, READ(instruction.m_value).jsValue());
     WASM_END_IMPL();
 }

 extern "C" SlowPathReturnType slow_path_wasm_throw_exception(CallFrame* callFrame, const Instruction* pc, Wasm::Instance* instance, Wasm::ExceptionType exceptionType)
 {
     UNUSED_PARAM(pc);
     WASM_RETURN_TWO(Wasm::Thunks::singleton().throwWasmException()(callFrame, exceptionType, instance), 0);
 }

 extern "C" SlowPathReturnType slow_path_wasm_popcount(const Instruction* pc, uint32_t x)
 {
     void* result = bitwise_cast<void*>(static_cast<uint64_t>(__builtin_popcount(x)));
     WASM_RETURN_TWO(pc, result);
 }

 extern "C" SlowPathReturnType slow_path_wasm_popcountll(const Instruction* pc, uint64_t x)
 {
     void* result = bitwise_cast<void*>(static_cast<uint64_t>(__builtin_popcountll(x)));
     WASM_RETURN_TWO(pc, result);
 }

 } } // namespace JSC::LLInt

 #endif // ENABLE(WEBASSEMBLY)
	/*
	* Copyright (C) 2019 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 "WasmSlowPaths.h"

	#if ENABLE(WEBASSEMBLY)

	#include "ExceptionFuzz.h"
	#include "FrameTracers.h"
	#include "LLIntData.h"
	#include "WasmBBQPlan.h"
	#include "WasmCallee.h"
	#include "WasmCompilationMode.h"
	#include "WasmContextInlines.h"
	#include "WasmFunctionCodeBlock.h"
	#include "WasmInstance.h"
	#include "WasmModuleInformation.h"
	#include "WasmOMGForOSREntryPlan.h"
	#include "WasmOMGPlan.h"
	#include "WasmOperations.h"
	#include "WasmThunks.h"
	#include "WasmWorklist.h"

	namespace JSC { namespace LLInt {

	#define WASM_RETURN_TWO(first, second) do { \
	return encodeResult(first, second); \
	} while (false)

	#define WASM_END_IMPL() WASM_RETURN_TWO(pc, 0)

	#define WASM_THROW(exceptionType) do { \
	callFrame->setArgumentCountIncludingThis(static_cast<int>(exceptionType)); \
	WASM_RETURN_TWO(LLInt::wasmExceptionInstructions(), 0); \
	} while (false)

	#define WASM_END() do { \
	WASM_END_IMPL(); \
	} while (false)

	#define WASM_RETURN(value) do { \
	callFrame->uncheckedR(instruction.m_dst) = static_cast<EncodedJSValue>(value); \
	WASM_END_IMPL(); \
	} while (false)

	#define WASM_CALL_RETURN(targetInstance, callTarget, callTargetTag) do { \
	WASM_RETURN_TWO(retagCodePtr(callTarget, callTargetTag, SlowPathPtrTag), targetInstance); \
	} while (false)

	#define CODE_BLOCK() \
	bitwise_cast<Wasm::FunctionCodeBlock*>(callFrame->codeBlock())

	#define READ(virtualRegister) \
	(virtualRegister.isConstant() \
	? JSValue::decode(CODE_BLOCK()->getConstant(virtualRegister.offset())) \
	: callFrame->r(virtualRegister))

	inline bool jitCompileAndSetHeuristics(Wasm::LLIntCallee* callee, Wasm::FunctionCodeBlock* codeBlock, Wasm::Instance* instance)
	{
	Wasm::LLIntTierUpCounter& tierUpCounter = codeBlock->tierUpCounter();
	if (!tierUpCounter.checkIfOptimizationThresholdReached()) {
	dataLogLnIf(Options::verboseOSR(), " JIT threshold should be lifted.");
	return false;
	}

	if (callee->replacement()) {
	dataLogLnIf(Options::verboseOSR(), " Code was already compiled.");
	tierUpCounter.optimizeSoon();
	return true;
	}

	bool compile = false;
	{
	auto locker = holdLock(tierUpCounter.m_lock);
	switch (tierUpCounter.m_compilationStatus) {
	case Wasm::LLIntTierUpCounter::CompilationStatus::NotCompiled:
	compile = true;
	tierUpCounter.m_compilationStatus = Wasm::LLIntTierUpCounter::CompilationStatus::Compiling;
	break;
	case Wasm::LLIntTierUpCounter::CompilationStatus::Compiling:
	tierUpCounter.optimizeAfterWarmUp();
	break;
	case Wasm::LLIntTierUpCounter::CompilationStatus::Compiled:
	break;
	}
	}

	if (compile) {
	uint32_t functionIndex = codeBlock->functionIndex();
	RefPtr<Wasm::Plan> plan;
	if (Options::wasmLLIntTiersUpToBBQ())
	plan = adoptRef(*new Wasm::BBQPlan(instance->context(), makeRef(const_cast<Wasm::ModuleInformation&>(instance->module().moduleInformation())), functionIndex, instance->codeBlock(), Wasm::Plan::dontFinalize()));
	else
	plan = adoptRef(*new Wasm::OMGPlan(instance->context(), Ref<Wasm::Module>(instance->module()), functionIndex, instance->memory()->mode(), Wasm::Plan::dontFinalize()));

	Wasm::ensureWorklist().enqueue(makeRef(*plan));
	if (UNLIKELY(!Options::useConcurrentJIT()))
	plan->waitForCompletion();
	else
	tierUpCounter.optimizeAfterWarmUp();
	}

	return !!callee->replacement();
	}

	WASM_SLOW_PATH_DECL(prologue_osr)
	{
	UNUSED_PARAM(pc);

	Wasm::LLIntCallee* callee = static_cast<Wasm::LLIntCallee*>(callFrame->callee().asWasmCallee());
	Wasm::FunctionCodeBlock* codeBlock = CODE_BLOCK();

	dataLogLnIf(Options::verboseOSR(), *callee, ": Entered epilogue_osr with tierUpCounter = ", codeBlock->tierUpCounter());

	if (!jitCompileAndSetHeuristics(callee, codeBlock, instance))
	WASM_RETURN_TWO(0, 0);

	WASM_RETURN_TWO(callee->replacement()->entrypoint().executableAddress(), 0);
	}

	WASM_SLOW_PATH_DECL(loop_osr)
	{
	if (!Options::useWebAssemblyOSR()) {
	slow_path_wasm_prologue_osr(callFrame, pc, instance);
	WASM_RETURN_TWO(0, 0);
	}

	Wasm::LLIntCallee* callee = static_cast<Wasm::LLIntCallee*>(callFrame->callee().asWasmCallee());
	Wasm::FunctionCodeBlock* codeBlock = CODE_BLOCK();
	Wasm::LLIntTierUpCounter& tierUpCounter = codeBlock->tierUpCounter();

	dataLogLnIf(Options::verboseOSR(), *callee, ": Entered loop_osr with tierUpCounter = ", codeBlock->tierUpCounter());

	unsigned loopOSREntryBytecodeOffset = codeBlock->bytecodeOffset(pc);
	const auto& osrEntryData = tierUpCounter.osrEntryDataForLoop(loopOSREntryBytecodeOffset);

	if (!tierUpCounter.checkIfOptimizationThresholdReached()) {
	dataLogLnIf(Options::verboseOSR(), " JIT threshold should be lifted.");
	WASM_RETURN_TWO(0, 0);
	}

	const auto doOSREntry = [&] {
	Wasm::OMGForOSREntryCallee* osrEntryCallee = callee->osrEntryCallee();
	if (osrEntryCallee->loopIndex() != osrEntryData.loopIndex)
	WASM_RETURN_TWO(0, 0);

	size_t osrEntryScratchBufferSize = osrEntryCallee->osrEntryScratchBufferSize();
	RELEASE_ASSERT(osrEntryScratchBufferSize == osrEntryData.values.size());
	uint64_t* buffer = instance->context()->scratchBufferForSize(osrEntryScratchBufferSize);
	if (!buffer)
	WASM_RETURN_TWO(0, 0);

	uint32_t index = 0;
	for (VirtualRegister reg : osrEntryData.values)
	buffer[index++] = READ(reg).encodedJSValue();

	WASM_RETURN_TWO(buffer, osrEntryCallee->entrypoint().executableAddress());
	};

	if (callee->osrEntryCallee())
	return doOSREntry();

	bool compile = false;
	{
	auto locker = holdLock(tierUpCounter.m_lock);
	switch (tierUpCounter.m_loopCompilationStatus) {
	case Wasm::LLIntTierUpCounter::CompilationStatus::NotCompiled:
	compile = true;
	tierUpCounter.m_loopCompilationStatus = Wasm::LLIntTierUpCounter::CompilationStatus::Compiling;
	break;
	case Wasm::LLIntTierUpCounter::CompilationStatus::Compiling:
	tierUpCounter.optimizeAfterWarmUp();
	break;
	case Wasm::LLIntTierUpCounter::CompilationStatus::Compiled:
	break;
	}
	}

	if (compile) {
	Ref<Wasm::Plan> plan = adoptRef(static_cast<Wasm::Plan>(new Wasm::OMGForOSREntryPlan(instance->context(), Ref<Wasm::Module>(instance->module()), Ref<Wasm::Callee>(*callee), codeBlock->functionIndex(), osrEntryData.loopIndex, instance->memory()->mode(), Wasm::Plan::dontFinalize())));
	Wasm::ensureWorklist().enqueue(plan.copyRef());
	if (UNLIKELY(!Options::useConcurrentJIT()))
	plan->waitForCompletion();
	else
	tierUpCounter.optimizeAfterWarmUp();
	}

	if (callee->osrEntryCallee())
	return doOSREntry();

	WASM_RETURN_TWO(0, 0);
	}

	WASM_SLOW_PATH_DECL(epilogue_osr)
	{
	Wasm::LLIntCallee* callee = static_cast<Wasm::LLIntCallee*>(callFrame->callee().asWasmCallee());
	Wasm::FunctionCodeBlock* codeBlock = CODE_BLOCK();

	dataLogLnIf(Options::verboseOSR(), *callee, ": Entered epilogue_osr with tierUpCounter = ", codeBlock->tierUpCounter());

	jitCompileAndSetHeuristics(callee, codeBlock, instance);
	WASM_END_IMPL();
	}


	WASM_SLOW_PATH_DECL(trace)
	{
	UNUSED_PARAM(instance);

	if (!Options::traceLLIntExecution())
	WASM_END_IMPL();

	WasmOpcodeID opcodeID = pc->opcodeID<WasmOpcodeTraits>();
	dataLogF("<%p> %p / %p: executing bc#%zu, %s, pc = %p\n",
	&Thread::current(),
	callFrame->codeBlock(),
	callFrame,
	static_cast<intptr_t>(CODE_BLOCK()->bytecodeOffset(pc)),
	pc->name<WasmOpcodeTraits>(),
	pc);
	if (opcodeID == wasm_enter) {
	dataLogF("Frame will eventually return to %p\n", callFrame->returnPC().value());
	removeCodePtrTag<volatile char>(callFrame->returnPC().value());
	}
	if (opcodeID == wasm_ret) {
	dataLogF("Will be returning to %p\n", callFrame->returnPC().value());
	dataLogF("The new cfr will be %p\n", callFrame->callerFrame());
	}
	WASM_END_IMPL();
	}

	WASM_SLOW_PATH_DECL(out_of_line_jump_target)
	{
	UNUSED_PARAM(instance);

	pc = CODE_BLOCK()->outOfLineJumpTarget(pc);
	WASM_END_IMPL();
	}

	WASM_SLOW_PATH_DECL(ref_func)
	{
	auto instruction = pc->as<WasmRefFunc, WasmOpcodeTraits>();
	WASM_RETURN(Wasm::operationWasmRefFunc(instance, instruction.m_functionIndex));
	}

	WASM_SLOW_PATH_DECL(table_get)
	{
	auto instruction = pc->as<WasmTableGet, WasmOpcodeTraits>();
	int32_t index = READ(instruction.m_index).unboxedInt32();
	EncodedJSValue result = Wasm::operationGetWasmTableElement(instance, instruction.m_tableIndex, index);
	if (!result)
	WASM_THROW(Wasm::ExceptionType::OutOfBoundsTableAccess);
	WASM_RETURN(result);
	}

	WASM_SLOW_PATH_DECL(table_set)
	{
	auto instruction = pc->as<WasmTableSet, WasmOpcodeTraits>();
	int32_t index = READ(instruction.m_index).unboxedInt32();
	EncodedJSValue value = READ(instruction.m_value).encodedJSValue();
	if (!Wasm::operationSetWasmTableElement(instance, instruction.m_tableIndex, index, value))
	WASM_THROW(Wasm::ExceptionType::OutOfBoundsTableAccess);
	WASM_END();
	}

	WASM_SLOW_PATH_DECL(table_size)
	{
	auto instruction = pc->as<WasmTableSize, WasmOpcodeTraits>();
	WASM_RETURN(Wasm::operationGetWasmTableSize(instance, instruction.m_tableIndex));
	}

	WASM_SLOW_PATH_DECL(table_fill)
	{
	auto instruction = pc->as<WasmTableFill, WasmOpcodeTraits>();
	int32_t offset = READ(instruction.m_offset).unboxedInt32();
	EncodedJSValue fill = READ(instruction.m_fill).encodedJSValue();
	int32_t size = READ(instruction.m_size).unboxedInt32();
	if (!Wasm::operationWasmTableFill(instance, instruction.m_tableIndex, offset, fill, size))
	WASM_THROW(Wasm::ExceptionType::OutOfBoundsTableAccess);
	WASM_END();
	}

	WASM_SLOW_PATH_DECL(table_grow)
	{
	auto instruction = pc->as<WasmTableGrow, WasmOpcodeTraits>();
	EncodedJSValue fill = READ(instruction.m_fill).encodedJSValue();
	int32_t size = READ(instruction.m_size).unboxedInt32();
	WASM_RETURN(Wasm::operationWasmTableGrow(instance, instruction.m_tableIndex, fill, size));
	}

	WASM_SLOW_PATH_DECL(grow_memory)
	{
	auto instruction = pc->as<WasmGrowMemory, WasmOpcodeTraits>();
	int32_t delta = READ(instruction.m_delta).unboxedInt32();
	WASM_RETURN(Wasm::operationGrowMemory(callFrame, instance, delta));
	}

	inline SlowPathReturnType doWasmCall(Wasm::Instance* instance, unsigned functionIndex)
	{
	uint32_t importFunctionCount = instance->module().moduleInformation().importFunctionCount();

	MacroAssemblerCodePtr<WasmEntryPtrTag> codePtr;

	if (functionIndex < importFunctionCount) {
	Wasm::Instance::ImportFunctionInfo* functionInfo = instance->importFunctionInfo(functionIndex);
	if (functionInfo->targetInstance) {
	// target is a wasm function from a different instance
	codePtr = instance->codeBlock()->wasmToWasmExitStub(functionIndex);
	} else {
	// target is JS
	codePtr = functionInfo->wasmToEmbedderStub;
	}
	} else {
	// Target is a wasm function within the same instance
	codePtr = *instance->codeBlock()->entrypointLoadLocationFromFunctionIndexSpace(functionIndex);
	}

	WASM_CALL_RETURN(instance, codePtr.executableAddress(), WasmEntryPtrTag);
	}

	WASM_SLOW_PATH_DECL(call)
	{
	UNUSED_PARAM(callFrame);

	auto instruction = pc->as<WasmCall, WasmOpcodeTraits>();
	return doWasmCall(instance, instruction.m_functionIndex);
	}

	WASM_SLOW_PATH_DECL(call_no_tls)
	{
	UNUSED_PARAM(callFrame);

	auto instruction = pc->as<WasmCallNoTls, WasmOpcodeTraits>();
	return doWasmCall(instance, instruction.m_functionIndex);
	}

	inline SlowPathReturnType doWasmCallIndirect(CallFrame* callFrame, Wasm::Instance* instance, unsigned functionIndex, unsigned tableIndex, unsigned signatureIndex)
	{
	Wasm::FuncRefTable* table = instance->table(tableIndex)->asFuncrefTable();

	if (functionIndex >= table->length())
	WASM_THROW(Wasm::ExceptionType::OutOfBoundsCallIndirect);

	Wasm::Instance* targetInstance = table->instance(functionIndex);
	const Wasm::WasmToWasmImportableFunction& function = table->function(functionIndex);

	if (function.signatureIndex == Wasm::Signature::invalidIndex)
	WASM_THROW(Wasm::ExceptionType::NullTableEntry);

	const Wasm::Signature& callSignature = CODE_BLOCK()->signature(signatureIndex);
	if (function.signatureIndex != Wasm::SignatureInformation::get(callSignature))
	WASM_THROW(Wasm::ExceptionType::BadSignature);

	if (targetInstance != instance)
	targetInstance->setCachedStackLimit(instance->cachedStackLimit());

	WASM_CALL_RETURN(targetInstance, function.entrypointLoadLocation->executableAddress(), WasmEntryPtrTag);
	}

	WASM_SLOW_PATH_DECL(call_indirect)
	{
	auto instruction = pc->as<WasmCallIndirect, WasmOpcodeTraits>();
	unsigned functionIndex = READ(instruction.m_functionIndex).unboxedInt32();
	return doWasmCallIndirect(callFrame, instance, functionIndex, instruction.m_tableIndex, instruction.m_signatureIndex);
	}

	WASM_SLOW_PATH_DECL(call_indirect_no_tls)
	{
	auto instruction = pc->as<WasmCallIndirectNoTls, WasmOpcodeTraits>();
	unsigned functionIndex = READ(instruction.m_functionIndex).unboxedInt32();
	return doWasmCallIndirect(callFrame, instance, functionIndex, instruction.m_tableIndex, instruction.m_signatureIndex);
	}

	WASM_SLOW_PATH_DECL(set_global_ref)
	{
	auto instruction = pc->as<WasmSetGlobalRef, WasmOpcodeTraits>();
	instance->setGlobal(instruction.m_globalIndex, READ(instruction.m_value).jsValue());
	WASM_END_IMPL();
	}

	extern "C" SlowPathReturnType slow_path_wasm_throw_exception(CallFrame* callFrame, const Instruction* pc, Wasm::Instance* instance, Wasm::ExceptionType exceptionType)
	{
	UNUSED_PARAM(pc);
	WASM_RETURN_TWO(Wasm::Thunks::singleton().throwWasmException()(callFrame, exceptionType, instance), 0);
	}

	extern "C" SlowPathReturnType slow_path_wasm_popcount(const Instruction* pc, uint32_t x)
	{
	void* result = bitwise_cast<void*>(static_cast<uint64_t>(__builtin_popcount(x)));
	WASM_RETURN_TWO(pc, result);
	}

	extern "C" SlowPathReturnType slow_path_wasm_popcountll(const Instruction* pc, uint64_t x)
	{
	void* result = bitwise_cast<void*>(static_cast<uint64_t>(__builtin_popcountll(x)));
	WASM_RETURN_TWO(pc, result);
	}

	} } // namespace JSC::LLInt

	#endif // ENABLE(WEBASSEMBLY)