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

 /*
  * Copyright (C) 2016-2018 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 "WasmBBQPlan.h"

 #if ENABLE(WEBASSEMBLY)

 #include "B3Compilation.h"
 #include "WasmB3IRGenerator.h"
 #include "WasmBinding.h"
 #include "WasmCallee.h"
 #include "WasmCallingConvention.h"
 #include "WasmFaultSignalHandler.h"
 #include "WasmMemory.h"
 #include "WasmModuleParser.h"
 #include "WasmTierUpCount.h"
 #include "WasmValidate.h"
 #include <wtf/DataLog.h>
 #include <wtf/Locker.h>
 #include <wtf/MonotonicTime.h>
 #include <wtf/StdLibExtras.h>
 #include <wtf/SystemTracing.h>
 #include <wtf/text/StringBuilder.h>

 namespace JSC { namespace Wasm {

 namespace WasmBBQPlanInternal {
 static const bool verbose = false;
 }

 BBQPlan::BBQPlan(Context* context, Ref<ModuleInformation> info, AsyncWork work, CompletionTask&& task, CreateEmbedderWrapper&& createEmbedderWrapper, ThrowWasmException throwWasmException)
     : Base(context, WTFMove(info), WTFMove(task), WTFMove(createEmbedderWrapper), throwWasmException)
     , m_state(State::Validated)
     , m_asyncWork(work)
 {
 }

 BBQPlan::BBQPlan(Context* context, Vector<uint8_t>&& source, AsyncWork work, CompletionTask&& task, CreateEmbedderWrapper&& createEmbedderWrapper, ThrowWasmException throwWasmException)
     : BBQPlan(context, adoptRef(*new ModuleInformation(WTFMove(source))), work, WTFMove(task), WTFMove(createEmbedderWrapper), throwWasmException)
 {
     m_state = State::Initial;
 }

 BBQPlan::BBQPlan(Context* context, const uint8_t* source, size_t sourceLength, AsyncWork work, CompletionTask&& task)
     : Base(context, source, sourceLength, WTFMove(task))
     , m_state(State::Initial)
     , m_asyncWork(work)
 {
 }

 const char* BBQPlan::stateString(State state)
 {
     switch (state) {
     case State::Initial: return "Initial";
     case State::Validated: return "Validated";
     case State::Prepared: return "Prepared";
     case State::Compiled: return "Compiled";
     case State::Completed: return "Completed";
     }
     RELEASE_ASSERT_NOT_REACHED();
 }

 void BBQPlan::moveToState(State state)
 {
     ASSERT(state >= m_state);
     dataLogLnIf(WasmBBQPlanInternal::verbose && state != m_state, "moving to state: ", stateString(state), " from state: ", stateString(m_state));
     m_state = state;
 }

 bool BBQPlan::parseAndValidateModule()
 {
     if (m_state != State::Initial)
         return true;

     dataLogLnIf(WasmBBQPlanInternal::verbose, "starting validation");
     MonotonicTime startTime;
     if (WasmBBQPlanInternal::verbose || Options::reportCompileTimes())
         startTime = MonotonicTime::now();

     {
         ModuleParser moduleParser(m_source, m_sourceLength, m_moduleInformation);
         auto parseResult = moduleParser.parse();
         if (!parseResult) {
             Base::fail(holdLock(m_lock), WTFMove(parseResult.error()));
             return false;
         }
     }

     const auto& functionLocations = m_moduleInformation->functionLocationInBinary;
     for (unsigned functionIndex = 0; functionIndex < functionLocations.size(); ++functionIndex) {
         dataLogLnIf(WasmBBQPlanInternal::verbose, "Processing function starting at: ", functionLocations[functionIndex].start, " and ending at: ", functionLocations[functionIndex].end);
         const uint8_t* functionStart = m_source + functionLocations[functionIndex].start;
         size_t functionLength = functionLocations[functionIndex].end - functionLocations[functionIndex].start;
         ASSERT(functionLength <= m_sourceLength);
         SignatureIndex signatureIndex = m_moduleInformation->internalFunctionSignatureIndices[functionIndex];
         const Signature& signature = SignatureInformation::get(signatureIndex);

         auto validationResult = validateFunction(functionStart, functionLength, signature, m_moduleInformation.get());
         if (!validationResult) {
             if (WasmBBQPlanInternal::verbose) {
                 for (unsigned i = 0; i < functionLength; ++i)
                     dataLog(RawPointer(reinterpret_cast<void*>(functionStart[i])), ", ");
                 dataLogLn();
             }
             Base::fail(holdLock(m_lock), makeString(validationResult.error(), ", in function at index ", String::number(functionIndex))); // FIXME make this an Expected.
             return false;
         }
     }

     if (WasmBBQPlanInternal::verbose || Options::reportCompileTimes())
         dataLogLn("Took ", (MonotonicTime::now() - startTime).microseconds(), " us to validate module");

     moveToState(State::Validated);
     if (m_asyncWork == Validation)
         complete(holdLock(m_lock));
     return true;
 }

 void BBQPlan::prepare()
 {
     ASSERT(m_state == State::Validated);
     dataLogLnIf(WasmBBQPlanInternal::verbose, "Starting preparation");

     auto tryReserveCapacity = [this] (auto& vector, size_t size, const char* what) {
         if (UNLIKELY(!vector.tryReserveCapacity(size))) {
             StringBuilder builder;
             builder.appendLiteral("Failed allocating enough space for ");
             builder.appendNumber(size);
             builder.append(what);
             fail(holdLock(m_lock), builder.toString());
             return false;
         }
         return true;
     };

     const auto& functionLocations = m_moduleInformation->functionLocationInBinary;
     if (!tryReserveCapacity(m_wasmToWasmExitStubs, m_moduleInformation->importFunctionSignatureIndices.size(), " WebAssembly to JavaScript stubs")
         || !tryReserveCapacity(m_unlinkedWasmToWasmCalls, functionLocations.size(), " unlinked WebAssembly to WebAssembly calls")
         || !tryReserveCapacity(m_wasmInternalFunctions, functionLocations.size(), " WebAssembly functions")
         || !tryReserveCapacity(m_compilationContexts, functionLocations.size(), " compilation contexts")
         || !tryReserveCapacity(m_tierUpCounts, functionLocations.size(), " tier-up counts"))
         return;

     m_unlinkedWasmToWasmCalls.resize(functionLocations.size());
     m_wasmInternalFunctions.resize(functionLocations.size());
     m_compilationContexts.resize(functionLocations.size());
     m_tierUpCounts.resize(functionLocations.size());

     for (unsigned importIndex = 0; importIndex < m_moduleInformation->imports.size(); ++importIndex) {
         Import* import = &m_moduleInformation->imports[importIndex];
         if (import->kind != ExternalKind::Function)
             continue;
         unsigned importFunctionIndex = m_wasmToWasmExitStubs.size();
         dataLogLnIf(WasmBBQPlanInternal::verbose, "Processing import function number ", importFunctionIndex, ": ", makeString(import->module), ": ", makeString(import->field));
         auto binding = wasmToWasm(importFunctionIndex);
         if (UNLIKELY(!binding)) {
             switch (binding.error()) {
             case BindingFailure::OutOfMemory:
                 return fail(holdLock(m_lock), makeString("Out of executable memory at import ", String::number(importIndex)));
             }
             RELEASE_ASSERT_NOT_REACHED();
         }
         m_wasmToWasmExitStubs.uncheckedAppend(binding.value());
     }

     const uint32_t importFunctionCount = m_moduleInformation->importFunctionCount();
     for (const auto& exp : m_moduleInformation->exports) {
         if (exp.kindIndex >= importFunctionCount)
             m_exportedFunctionIndices.add(exp.kindIndex - importFunctionCount);
     }

     for (const auto& element : m_moduleInformation->elements) {
         for (const uint32_t elementIndex : element.functionIndices) {
             if (elementIndex >= importFunctionCount)
                 m_exportedFunctionIndices.add(elementIndex - importFunctionCount);
         }
     }

     if (m_moduleInformation->startFunctionIndexSpace && m_moduleInformation->startFunctionIndexSpace >= importFunctionCount)
         m_exportedFunctionIndices.add(*m_moduleInformation->startFunctionIndexSpace - importFunctionCount);

     moveToState(State::Prepared);
 }

 // We don't have a semaphore class... and this does kinda interesting things.
 class BBQPlan::ThreadCountHolder {
 public:
     ThreadCountHolder(BBQPlan& plan)
         : m_plan(plan)
     {
         LockHolder locker(m_plan.m_lock);
         m_plan.m_numberOfActiveThreads++;
     }

     ~ThreadCountHolder()
     {
         LockHolder locker(m_plan.m_lock);
         m_plan.m_numberOfActiveThreads--;

         if (!m_plan.m_numberOfActiveThreads && !m_plan.hasWork())
             m_plan.complete(locker);
     }

     BBQPlan& m_plan;
 };

 void BBQPlan::compileFunctions(CompilationEffort effort)
 {
     ASSERT(m_state >= State::Prepared);
     dataLogLnIf(WasmBBQPlanInternal::verbose, "Starting compilation");

     if (!hasWork())
         return;

     TraceScope traceScope(WebAssemblyCompileStart, WebAssemblyCompileEnd);
     ThreadCountHolder holder(*this);

     size_t bytesCompiled = 0;
     const auto& functionLocations = m_moduleInformation->functionLocationInBinary;
     while (true) {
         if (effort == Partial && bytesCompiled >= Options::webAssemblyPartialCompileLimit())
             return;

         uint32_t functionIndex;
         {
             auto locker = holdLock(m_lock);
             if (m_currentIndex >= functionLocations.size()) {
                 if (hasWork())
                     moveToState(State::Compiled);
                 return;
             }
             functionIndex = m_currentIndex;
             ++m_currentIndex;
         }

         const uint8_t* functionStart = m_source + functionLocations[functionIndex].start;
         size_t functionLength = functionLocations[functionIndex].end - functionLocations[functionIndex].start;
         ASSERT(functionLength <= m_sourceLength);
         SignatureIndex signatureIndex = m_moduleInformation->internalFunctionSignatureIndices[functionIndex];
         const Signature& signature = SignatureInformation::get(signatureIndex);
         unsigned functionIndexSpace = m_wasmToWasmExitStubs.size() + functionIndex;
         ASSERT_UNUSED(functionIndexSpace, m_moduleInformation->signatureIndexFromFunctionIndexSpace(functionIndexSpace) == signatureIndex);
         ASSERT(validateFunction(functionStart, functionLength, signature, m_moduleInformation.get()));

         m_unlinkedWasmToWasmCalls[functionIndex] = Vector<UnlinkedWasmToWasmCall>();
         TierUpCount* tierUp = Options::useBBQTierUpChecks() ? &m_tierUpCounts[functionIndex] : nullptr;
         auto parseAndCompileResult = parseAndCompile(m_compilationContexts[functionIndex], functionStart, functionLength, signature, m_unlinkedWasmToWasmCalls[functionIndex], m_moduleInformation.get(), m_mode, CompilationMode::BBQMode, functionIndex, tierUp, m_throwWasmException);

         if (UNLIKELY(!parseAndCompileResult)) {
             auto locker = holdLock(m_lock);
             if (!m_errorMessage) {
                 // Multiple compiles could fail simultaneously. We arbitrarily choose the first.
                 fail(locker, makeString(parseAndCompileResult.error(), ", in function at index ", String::number(functionIndex))); // FIXME make this an Expected.
             }
             m_currentIndex = functionLocations.size();
             return;
         }

         m_wasmInternalFunctions[functionIndex] = WTFMove(*parseAndCompileResult);

         if (m_exportedFunctionIndices.contains(functionIndex)) {
             auto locker = holdLock(m_lock);
             auto result = m_embedderToWasmInternalFunctions.add(functionIndex, m_createEmbedderWrapper(m_compilationContexts[functionIndex], signature, &m_unlinkedWasmToWasmCalls[functionIndex], m_moduleInformation.get(), m_mode, functionIndex));
             ASSERT_UNUSED(result, result.isNewEntry);
         }

         bytesCompiled += functionLength;
     }
 }

 void BBQPlan::complete(const AbstractLocker& locker)
 {
     ASSERT(m_state != State::Compiled || m_currentIndex >= m_moduleInformation->functionLocationInBinary.size());
     dataLogLnIf(WasmBBQPlanInternal::verbose, "Starting Completion");

     if (!failed() && m_state == State::Compiled) {
         for (uint32_t functionIndex = 0; functionIndex < m_moduleInformation->functionLocationInBinary.size(); functionIndex++) {
             CompilationContext& context = m_compilationContexts[functionIndex];
             SignatureIndex signatureIndex = m_moduleInformation->internalFunctionSignatureIndices[functionIndex];
             const Signature& signature = SignatureInformation::get(signatureIndex);
             {
                 LinkBuffer linkBuffer(*context.wasmEntrypointJIT, nullptr, JITCompilationCanFail);
                 if (UNLIKELY(linkBuffer.didFailToAllocate())) {
                     Base::fail(locker, makeString("Out of executable memory in function at index ", String::number(functionIndex)));
                     return;
                 }

                 m_wasmInternalFunctions[functionIndex]->entrypoint.compilation = std::make_unique<B3::Compilation>(
                     FINALIZE_CODE(linkBuffer, B3CompilationPtrTag, "WebAssembly function[%i] %s", functionIndex, signature.toString().ascii().data()),
                     WTFMove(context.wasmEntrypointByproducts));
             }

             if (auto embedderToWasmInternalFunction = m_embedderToWasmInternalFunctions.get(functionIndex)) {
                 LinkBuffer linkBuffer(*context.embedderEntrypointJIT, nullptr, JITCompilationCanFail);
                 if (UNLIKELY(linkBuffer.didFailToAllocate())) {
                     Base::fail(locker, makeString("Out of executable memory in function entrypoint at index ", String::number(functionIndex)));
                     return;
                 }

                 embedderToWasmInternalFunction->entrypoint.compilation = std::make_unique<B3::Compilation>(
                     FINALIZE_CODE(linkBuffer, B3CompilationPtrTag, "Embedder->WebAssembly entrypoint[%i] %s", functionIndex, signature.toString().ascii().data()),
                     WTFMove(context.embedderEntrypointByproducts));
             }
         }

         for (auto& unlinked : m_unlinkedWasmToWasmCalls) {
             for (auto& call : unlinked) {
                 MacroAssemblerCodePtr<WasmEntryPtrTag> executableAddress;
                 if (m_moduleInformation->isImportedFunctionFromFunctionIndexSpace(call.functionIndexSpace)) {
                     // FIXME imports could have been linked in B3, instead of generating a patchpoint. This condition should be replaced by a RELEASE_ASSERT. https://bugs.webkit.org/show_bug.cgi?id=166462
                     executableAddress = m_wasmToWasmExitStubs.at(call.functionIndexSpace).code();
                 } else
                     executableAddress = m_wasmInternalFunctions.at(call.functionIndexSpace - m_moduleInformation->importFunctionCount())->entrypoint.compilation->code().retagged<WasmEntryPtrTag>();
                 MacroAssembler::repatchNearCall(call.callLocation, CodeLocationLabel<WasmEntryPtrTag>(executableAddress));
             }
         }
     }

     if (!isComplete()) {
         moveToState(State::Completed);
         runCompletionTasks(locker);
     }
 }

 void BBQPlan::work(CompilationEffort effort)
 {
     switch (m_state) {
     case State::Initial:
         parseAndValidateModule();
         if (!hasWork()) {
             ASSERT(isComplete());
             return;
         }
         FALLTHROUGH;
     case State::Validated:
         prepare();
         return;
     case State::Prepared:
         compileFunctions(effort);
         return;
     default:
         break;
     }
     return;
 }

 } } // namespace JSC::Wasm

 #endif // ENABLE(WEBASSEMBLY)
	/*
	* Copyright (C) 2016-2018 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 "WasmBBQPlan.h"

	#if ENABLE(WEBASSEMBLY)

	#include "B3Compilation.h"
	#include "WasmB3IRGenerator.h"
	#include "WasmBinding.h"
	#include "WasmCallee.h"
	#include "WasmCallingConvention.h"
	#include "WasmFaultSignalHandler.h"
	#include "WasmMemory.h"
	#include "WasmModuleParser.h"
	#include "WasmTierUpCount.h"
	#include "WasmValidate.h"
	#include <wtf/DataLog.h>
	#include <wtf/Locker.h>
	#include <wtf/MonotonicTime.h>
	#include <wtf/StdLibExtras.h>
	#include <wtf/SystemTracing.h>
	#include <wtf/text/StringBuilder.h>

	namespace JSC { namespace Wasm {

	namespace WasmBBQPlanInternal {
	static const bool verbose = false;
	}

	BBQPlan::BBQPlan(Context* context, Ref<ModuleInformation> info, AsyncWork work, CompletionTask&& task, CreateEmbedderWrapper&& createEmbedderWrapper, ThrowWasmException throwWasmException)
	: Base(context, WTFMove(info), WTFMove(task), WTFMove(createEmbedderWrapper), throwWasmException)
	, m_state(State::Validated)
	, m_asyncWork(work)
	{
	}

	BBQPlan::BBQPlan(Context* context, Vector<uint8_t>&& source, AsyncWork work, CompletionTask&& task, CreateEmbedderWrapper&& createEmbedderWrapper, ThrowWasmException throwWasmException)
	: BBQPlan(context, adoptRef(*new ModuleInformation(WTFMove(source))), work, WTFMove(task), WTFMove(createEmbedderWrapper), throwWasmException)
	{
	m_state = State::Initial;
	}

	BBQPlan::BBQPlan(Context* context, const uint8_t* source, size_t sourceLength, AsyncWork work, CompletionTask&& task)
	: Base(context, source, sourceLength, WTFMove(task))
	, m_state(State::Initial)
	, m_asyncWork(work)
	{
	}

	const char* BBQPlan::stateString(State state)
	{
	switch (state) {
	case State::Initial: return "Initial";
	case State::Validated: return "Validated";
	case State::Prepared: return "Prepared";
	case State::Compiled: return "Compiled";
	case State::Completed: return "Completed";
	}
	RELEASE_ASSERT_NOT_REACHED();
	}

	void BBQPlan::moveToState(State state)
	{
	ASSERT(state >= m_state);
	dataLogLnIf(WasmBBQPlanInternal::verbose && state != m_state, "moving to state: ", stateString(state), " from state: ", stateString(m_state));
	m_state = state;
	}

	bool BBQPlan::parseAndValidateModule()
	{
	if (m_state != State::Initial)
	return true;

	dataLogLnIf(WasmBBQPlanInternal::verbose, "starting validation");
	MonotonicTime startTime;
	if (WasmBBQPlanInternal::verbose \|\| Options::reportCompileTimes())
	startTime = MonotonicTime::now();

	{
	ModuleParser moduleParser(m_source, m_sourceLength, m_moduleInformation);
	auto parseResult = moduleParser.parse();
	if (!parseResult) {
	Base::fail(holdLock(m_lock), WTFMove(parseResult.error()));
	return false;
	}
	}

	const auto& functionLocations = m_moduleInformation->functionLocationInBinary;
	for (unsigned functionIndex = 0; functionIndex < functionLocations.size(); ++functionIndex) {
	dataLogLnIf(WasmBBQPlanInternal::verbose, "Processing function starting at: ", functionLocations[functionIndex].start, " and ending at: ", functionLocations[functionIndex].end);
	const uint8_t* functionStart = m_source + functionLocations[functionIndex].start;
	size_t functionLength = functionLocations[functionIndex].end - functionLocations[functionIndex].start;
	ASSERT(functionLength <= m_sourceLength);
	SignatureIndex signatureIndex = m_moduleInformation->internalFunctionSignatureIndices[functionIndex];
	const Signature& signature = SignatureInformation::get(signatureIndex);

	auto validationResult = validateFunction(functionStart, functionLength, signature, m_moduleInformation.get());
	if (!validationResult) {
	if (WasmBBQPlanInternal::verbose) {
	for (unsigned i = 0; i < functionLength; ++i)
	dataLog(RawPointer(reinterpret_cast<void*>(functionStart[i])), ", ");
	dataLogLn();
	}
	Base::fail(holdLock(m_lock), makeString(validationResult.error(), ", in function at index ", String::number(functionIndex))); // FIXME make this an Expected.
	return false;
	}
	}

	if (WasmBBQPlanInternal::verbose \|\| Options::reportCompileTimes())
	dataLogLn("Took ", (MonotonicTime::now() - startTime).microseconds(), " us to validate module");

	moveToState(State::Validated);
	if (m_asyncWork == Validation)
	complete(holdLock(m_lock));
	return true;
	}

	void BBQPlan::prepare()
	{
	ASSERT(m_state == State::Validated);
	dataLogLnIf(WasmBBQPlanInternal::verbose, "Starting preparation");

	auto tryReserveCapacity = [this] (auto& vector, size_t size, const char* what) {
	if (UNLIKELY(!vector.tryReserveCapacity(size))) {
	StringBuilder builder;
	builder.appendLiteral("Failed allocating enough space for ");
	builder.appendNumber(size);
	builder.append(what);
	fail(holdLock(m_lock), builder.toString());
	return false;
	}
	return true;
	};

	const auto& functionLocations = m_moduleInformation->functionLocationInBinary;
	if (!tryReserveCapacity(m_wasmToWasmExitStubs, m_moduleInformation->importFunctionSignatureIndices.size(), " WebAssembly to JavaScript stubs")
	\|\| !tryReserveCapacity(m_unlinkedWasmToWasmCalls, functionLocations.size(), " unlinked WebAssembly to WebAssembly calls")
	\|\| !tryReserveCapacity(m_wasmInternalFunctions, functionLocations.size(), " WebAssembly functions")
	\|\| !tryReserveCapacity(m_compilationContexts, functionLocations.size(), " compilation contexts")
	\|\| !tryReserveCapacity(m_tierUpCounts, functionLocations.size(), " tier-up counts"))
	return;

	m_unlinkedWasmToWasmCalls.resize(functionLocations.size());
	m_wasmInternalFunctions.resize(functionLocations.size());
	m_compilationContexts.resize(functionLocations.size());
	m_tierUpCounts.resize(functionLocations.size());

	for (unsigned importIndex = 0; importIndex < m_moduleInformation->imports.size(); ++importIndex) {
	Import* import = &m_moduleInformation->imports[importIndex];
	if (import->kind != ExternalKind::Function)
	continue;
	unsigned importFunctionIndex = m_wasmToWasmExitStubs.size();
	dataLogLnIf(WasmBBQPlanInternal::verbose, "Processing import function number ", importFunctionIndex, ": ", makeString(import->module), ": ", makeString(import->field));
	auto binding = wasmToWasm(importFunctionIndex);
	if (UNLIKELY(!binding)) {
	switch (binding.error()) {
	case BindingFailure::OutOfMemory:
	return fail(holdLock(m_lock), makeString("Out of executable memory at import ", String::number(importIndex)));
	}
	RELEASE_ASSERT_NOT_REACHED();
	}
	m_wasmToWasmExitStubs.uncheckedAppend(binding.value());
	}

	const uint32_t importFunctionCount = m_moduleInformation->importFunctionCount();
	for (const auto& exp : m_moduleInformation->exports) {
	if (exp.kindIndex >= importFunctionCount)
	m_exportedFunctionIndices.add(exp.kindIndex - importFunctionCount);
	}

	for (const auto& element : m_moduleInformation->elements) {
	for (const uint32_t elementIndex : element.functionIndices) {
	if (elementIndex >= importFunctionCount)
	m_exportedFunctionIndices.add(elementIndex - importFunctionCount);
	}
	}

	if (m_moduleInformation->startFunctionIndexSpace && m_moduleInformation->startFunctionIndexSpace >= importFunctionCount)
	m_exportedFunctionIndices.add(*m_moduleInformation->startFunctionIndexSpace - importFunctionCount);

	moveToState(State::Prepared);
	}

	// We don't have a semaphore class... and this does kinda interesting things.
	class BBQPlan::ThreadCountHolder {
	public:
	ThreadCountHolder(BBQPlan& plan)
	: m_plan(plan)
	{
	LockHolder locker(m_plan.m_lock);
	m_plan.m_numberOfActiveThreads++;
	}

	~ThreadCountHolder()
	{
	LockHolder locker(m_plan.m_lock);
	m_plan.m_numberOfActiveThreads--;

	if (!m_plan.m_numberOfActiveThreads && !m_plan.hasWork())
	m_plan.complete(locker);
	}

	BBQPlan& m_plan;
	};

	void BBQPlan::compileFunctions(CompilationEffort effort)
	{
	ASSERT(m_state >= State::Prepared);
	dataLogLnIf(WasmBBQPlanInternal::verbose, "Starting compilation");

	if (!hasWork())
	return;

	TraceScope traceScope(WebAssemblyCompileStart, WebAssemblyCompileEnd);
	ThreadCountHolder holder(*this);

	size_t bytesCompiled = 0;
	const auto& functionLocations = m_moduleInformation->functionLocationInBinary;
	while (true) {
	if (effort == Partial && bytesCompiled >= Options::webAssemblyPartialCompileLimit())
	return;

	uint32_t functionIndex;
	{
	auto locker = holdLock(m_lock);
	if (m_currentIndex >= functionLocations.size()) {
	if (hasWork())
	moveToState(State::Compiled);
	return;
	}
	functionIndex = m_currentIndex;
	++m_currentIndex;
	}

	const uint8_t* functionStart = m_source + functionLocations[functionIndex].start;
	size_t functionLength = functionLocations[functionIndex].end - functionLocations[functionIndex].start;
	ASSERT(functionLength <= m_sourceLength);
	SignatureIndex signatureIndex = m_moduleInformation->internalFunctionSignatureIndices[functionIndex];
	const Signature& signature = SignatureInformation::get(signatureIndex);
	unsigned functionIndexSpace = m_wasmToWasmExitStubs.size() + functionIndex;
	ASSERT_UNUSED(functionIndexSpace, m_moduleInformation->signatureIndexFromFunctionIndexSpace(functionIndexSpace) == signatureIndex);
	ASSERT(validateFunction(functionStart, functionLength, signature, m_moduleInformation.get()));

	m_unlinkedWasmToWasmCalls[functionIndex] = Vector<UnlinkedWasmToWasmCall>();
	TierUpCount* tierUp = Options::useBBQTierUpChecks() ? &m_tierUpCounts[functionIndex] : nullptr;
	auto parseAndCompileResult = parseAndCompile(m_compilationContexts[functionIndex], functionStart, functionLength, signature, m_unlinkedWasmToWasmCalls[functionIndex], m_moduleInformation.get(), m_mode, CompilationMode::BBQMode, functionIndex, tierUp, m_throwWasmException);

	if (UNLIKELY(!parseAndCompileResult)) {
	auto locker = holdLock(m_lock);
	if (!m_errorMessage) {
	// Multiple compiles could fail simultaneously. We arbitrarily choose the first.
	fail(locker, makeString(parseAndCompileResult.error(), ", in function at index ", String::number(functionIndex))); // FIXME make this an Expected.
	}
	m_currentIndex = functionLocations.size();
	return;
	}

	m_wasmInternalFunctions[functionIndex] = WTFMove(*parseAndCompileResult);

	if (m_exportedFunctionIndices.contains(functionIndex)) {
	auto locker = holdLock(m_lock);
	auto result = m_embedderToWasmInternalFunctions.add(functionIndex, m_createEmbedderWrapper(m_compilationContexts[functionIndex], signature, &m_unlinkedWasmToWasmCalls[functionIndex], m_moduleInformation.get(), m_mode, functionIndex));
	ASSERT_UNUSED(result, result.isNewEntry);
	}

	bytesCompiled += functionLength;
	}
	}

	void BBQPlan::complete(const AbstractLocker& locker)
	{
	ASSERT(m_state != State::Compiled \|\| m_currentIndex >= m_moduleInformation->functionLocationInBinary.size());
	dataLogLnIf(WasmBBQPlanInternal::verbose, "Starting Completion");

	if (!failed() && m_state == State::Compiled) {
	for (uint32_t functionIndex = 0; functionIndex < m_moduleInformation->functionLocationInBinary.size(); functionIndex++) {
	CompilationContext& context = m_compilationContexts[functionIndex];
	SignatureIndex signatureIndex = m_moduleInformation->internalFunctionSignatureIndices[functionIndex];
	const Signature& signature = SignatureInformation::get(signatureIndex);
	{
	LinkBuffer linkBuffer(*context.wasmEntrypointJIT, nullptr, JITCompilationCanFail);
	if (UNLIKELY(linkBuffer.didFailToAllocate())) {
	Base::fail(locker, makeString("Out of executable memory in function at index ", String::number(functionIndex)));
	return;
	}

	m_wasmInternalFunctions[functionIndex]->entrypoint.compilation = std::make_unique<B3::Compilation>(
	FINALIZE_CODE(linkBuffer, B3CompilationPtrTag, "WebAssembly function[%i] %s", functionIndex, signature.toString().ascii().data()),
	WTFMove(context.wasmEntrypointByproducts));
	}

	if (auto embedderToWasmInternalFunction = m_embedderToWasmInternalFunctions.get(functionIndex)) {
	LinkBuffer linkBuffer(*context.embedderEntrypointJIT, nullptr, JITCompilationCanFail);
	if (UNLIKELY(linkBuffer.didFailToAllocate())) {
	Base::fail(locker, makeString("Out of executable memory in function entrypoint at index ", String::number(functionIndex)));
	return;
	}

	embedderToWasmInternalFunction->entrypoint.compilation = std::make_unique<B3::Compilation>(
	FINALIZE_CODE(linkBuffer, B3CompilationPtrTag, "Embedder->WebAssembly entrypoint[%i] %s", functionIndex, signature.toString().ascii().data()),
	WTFMove(context.embedderEntrypointByproducts));
	}
	}

	for (auto& unlinked : m_unlinkedWasmToWasmCalls) {
	for (auto& call : unlinked) {
	MacroAssemblerCodePtr<WasmEntryPtrTag> executableAddress;
	if (m_moduleInformation->isImportedFunctionFromFunctionIndexSpace(call.functionIndexSpace)) {
	// FIXME imports could have been linked in B3, instead of generating a patchpoint. This condition should be replaced by a RELEASE_ASSERT. https://bugs.webkit.org/show_bug.cgi?id=166462
	executableAddress = m_wasmToWasmExitStubs.at(call.functionIndexSpace).code();
	} else
	executableAddress = m_wasmInternalFunctions.at(call.functionIndexSpace - m_moduleInformation->importFunctionCount())->entrypoint.compilation->code().retagged<WasmEntryPtrTag>();
	MacroAssembler::repatchNearCall(call.callLocation, CodeLocationLabel<WasmEntryPtrTag>(executableAddress));
	}
	}
	}

	if (!isComplete()) {
	moveToState(State::Completed);
	runCompletionTasks(locker);
	}
	}

	void BBQPlan::work(CompilationEffort effort)
	{
	switch (m_state) {
	case State::Initial:
	parseAndValidateModule();
	if (!hasWork()) {
	ASSERT(isComplete());
	return;
	}
	FALLTHROUGH;
	case State::Validated:
	prepare();
	return;
	case State::Prepared:
	compileFunctions(effort);
	return;
	default:
	break;
	}
	return;
	}

	} } // namespace JSC::Wasm

	#endif // ENABLE(WEBASSEMBLY)