Source/JavaScriptCore/bytecode/StructureStubInfo.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2008-2019 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 "StructureStubInfo.h"

 #include "JSObject.h"
 #include "JSCInlines.h"
 #include "PolymorphicAccess.h"
 #include "Repatch.h"

 namespace JSC {

 #if ENABLE(JIT)

 namespace StructureStubInfoInternal {
 static constexpr bool verbose = false;
 }

 StructureStubInfo::StructureStubInfo(AccessType accessType)
     : callSiteIndex(UINT_MAX)
     , accessType(accessType)
     , cacheType(CacheType::Unset)
     , countdown(1) // For a totally clear stub, we'll patch it after the first execution.
     , repatchCount(0)
     , numberOfCoolDowns(0)
     , bufferingCountdown(Options::repatchBufferingCountdown())
     , resetByGC(false)
     , tookSlowPath(false)
     , everConsidered(false)
     , prototypeIsKnownObject(false)
     , sawNonCell(false)
 {
 }

 StructureStubInfo::~StructureStubInfo()
 {
 }

 void StructureStubInfo::initGetByIdSelf(CodeBlock* codeBlock, Structure* baseObjectStructure, PropertyOffset offset)
 {
     cacheType = CacheType::GetByIdSelf;

     u.byIdSelf.baseObjectStructure.set(
         codeBlock->vm(), codeBlock, baseObjectStructure);
     u.byIdSelf.offset = offset;
 }

 void StructureStubInfo::initArrayLength()
 {
     cacheType = CacheType::ArrayLength;
 }

 void StructureStubInfo::initStringLength()
 {
     cacheType = CacheType::StringLength;
 }

 void StructureStubInfo::initPutByIdReplace(CodeBlock* codeBlock, Structure* baseObjectStructure, PropertyOffset offset)
 {
     cacheType = CacheType::PutByIdReplace;

     u.byIdSelf.baseObjectStructure.set(
         codeBlock->vm(), codeBlock, baseObjectStructure);
     u.byIdSelf.offset = offset;
 }

 void StructureStubInfo::initInByIdSelf(CodeBlock* codeBlock, Structure* baseObjectStructure, PropertyOffset offset)
 {
     cacheType = CacheType::InByIdSelf;

     u.byIdSelf.baseObjectStructure.set(
         codeBlock->vm(), codeBlock, baseObjectStructure);
     u.byIdSelf.offset = offset;
 }

 void StructureStubInfo::deref()
 {
     switch (cacheType) {
     case CacheType::Stub:
         delete u.stub;
         return;
     case CacheType::Unset:
     case CacheType::GetByIdSelf:
     case CacheType::PutByIdReplace:
     case CacheType::InByIdSelf:
     case CacheType::ArrayLength:
     case CacheType::StringLength:
         return;
     }

     RELEASE_ASSERT_NOT_REACHED();
 }

 void StructureStubInfo::aboutToDie()
 {
     switch (cacheType) {
     case CacheType::Stub:
         u.stub->aboutToDie();
         return;
     case CacheType::Unset:
     case CacheType::GetByIdSelf:
     case CacheType::PutByIdReplace:
     case CacheType::InByIdSelf:
     case CacheType::ArrayLength:
     case CacheType::StringLength:
         return;
     }

     RELEASE_ASSERT_NOT_REACHED();
 }

 AccessGenerationResult StructureStubInfo::addAccessCase(
     const GCSafeConcurrentJSLocker& locker, CodeBlock* codeBlock, const Identifier& ident, std::unique_ptr<AccessCase> accessCase)
 {
     VM& vm = codeBlock->vm();
     ASSERT(vm.heap.isDeferred());
     AccessGenerationResult result = ([&] () -> AccessGenerationResult {
         if (StructureStubInfoInternal::verbose)
             dataLog("Adding access case: ", accessCase, "\n");

         if (!accessCase)
             return AccessGenerationResult::GaveUp;

         AccessGenerationResult result;

         if (cacheType == CacheType::Stub) {
             result = u.stub->addCase(locker, vm, codeBlock, *this, ident, WTFMove(accessCase));

             if (StructureStubInfoInternal::verbose)
                 dataLog("Had stub, result: ", result, "\n");

             if (result.shouldResetStubAndFireWatchpoints())
                 return result;

             if (!result.buffered()) {
                 bufferedStructures.clear();
                 return result;
             }
         } else {
             std::unique_ptr<PolymorphicAccess> access = makeUnique<PolymorphicAccess>();

             Vector<std::unique_ptr<AccessCase>, 2> accessCases;

             std::unique_ptr<AccessCase> previousCase =
                 AccessCase::fromStructureStubInfo(vm, codeBlock, *this);
             if (previousCase)
                 accessCases.append(WTFMove(previousCase));

             accessCases.append(WTFMove(accessCase));

             result = access->addCases(locker, vm, codeBlock, *this, ident, WTFMove(accessCases));

             if (StructureStubInfoInternal::verbose)
                 dataLog("Created stub, result: ", result, "\n");

             if (result.shouldResetStubAndFireWatchpoints())
                 return result;

             if (!result.buffered()) {
                 bufferedStructures.clear();
                 return result;
             }

             cacheType = CacheType::Stub;
             u.stub = access.release();
         }

         RELEASE_ASSERT(!result.generatedSomeCode());

         // If we didn't buffer any cases then bail. If this made no changes then we'll just try again
         // subject to cool-down.
         if (!result.buffered()) {
             if (StructureStubInfoInternal::verbose)
                 dataLog("Didn't buffer anything, bailing.\n");
             bufferedStructures.clear();
             return result;
         }

         // The buffering countdown tells us if we should be repatching now.
         if (bufferingCountdown) {
             if (StructureStubInfoInternal::verbose)
                 dataLog("Countdown is too high: ", bufferingCountdown, ".\n");
             return result;
         }

         // Forget the buffered structures so that all future attempts to cache get fully handled by the
         // PolymorphicAccess.
         bufferedStructures.clear();

         result = u.stub->regenerate(locker, vm, codeBlock, *this, ident);

         if (StructureStubInfoInternal::verbose)
             dataLog("Regeneration result: ", result, "\n");

         RELEASE_ASSERT(!result.buffered());

         if (!result.generatedSomeCode())
             return result;

         // If we generated some code then we don't want to attempt to repatch in the future until we
         // gather enough cases.
         bufferingCountdown = Options::repatchBufferingCountdown();
         return result;
     })();
     vm.heap.writeBarrier(codeBlock);
     return result;
 }

 void StructureStubInfo::reset(CodeBlock* codeBlock)
 {
     bufferedStructures.clear();

     if (cacheType == CacheType::Unset)
         return;

     if (Options::verboseOSR()) {
         // This can be called from GC destructor calls, so we don't try to do a full dump
         // of the CodeBlock.
         dataLog("Clearing structure cache (kind ", static_cast<int>(accessType), ") in ", RawPointer(codeBlock), ".\n");
     }

     switch (accessType) {
     case AccessType::TryGet:
         resetGetByID(codeBlock, *this, GetByIDKind::Try);
         break;
     case AccessType::Get:
         resetGetByID(codeBlock, *this, GetByIDKind::Normal);
         break;
     case AccessType::GetWithThis:
         resetGetByID(codeBlock, *this, GetByIDKind::WithThis);
         break;
     case AccessType::GetDirect:
         resetGetByID(codeBlock, *this, GetByIDKind::Direct);
         break;
     case AccessType::Put:
         resetPutByID(codeBlock, *this);
         break;
     case AccessType::In:
         resetInByID(codeBlock, *this);
         break;
     case AccessType::InstanceOf:
         resetInstanceOf(*this);
         break;
     }

     deref();
     cacheType = CacheType::Unset;
 }

 void StructureStubInfo::visitWeakReferences(CodeBlock* codeBlock)
 {
     VM& vm = codeBlock->vm();

     bufferedStructures.genericFilter(
         [&] (Structure* structure) -> bool {
             return vm.heap.isMarked(structure);
         });

     switch (cacheType) {
     case CacheType::GetByIdSelf:
     case CacheType::PutByIdReplace:
     case CacheType::InByIdSelf:
         if (vm.heap.isMarked(u.byIdSelf.baseObjectStructure.get()))
             return;
         break;
     case CacheType::Stub:
         if (u.stub->visitWeak(vm))
             return;
         break;
     default:
         return;
     }

     reset(codeBlock);
     resetByGC = true;
 }

 bool StructureStubInfo::propagateTransitions(SlotVisitor& visitor)
 {
     switch (cacheType) {
     case CacheType::Unset:
     case CacheType::ArrayLength:
     case CacheType::StringLength:
         return true;
     case CacheType::GetByIdSelf:
     case CacheType::PutByIdReplace:
     case CacheType::InByIdSelf:
         return u.byIdSelf.baseObjectStructure->markIfCheap(visitor);
     case CacheType::Stub:
         return u.stub->propagateTransitions(visitor);
     }

     RELEASE_ASSERT_NOT_REACHED();
     return true;
 }

 StubInfoSummary StructureStubInfo::summary() const
 {
     StubInfoSummary takesSlowPath = StubInfoSummary::TakesSlowPath;
     StubInfoSummary simple = StubInfoSummary::Simple;
     if (cacheType == CacheType::Stub) {
         PolymorphicAccess* list = u.stub;
         for (unsigned i = 0; i < list->size(); ++i) {
             const AccessCase& access = list->at(i);
             if (access.doesCalls()) {
                 takesSlowPath = StubInfoSummary::TakesSlowPathAndMakesCalls;
                 simple = StubInfoSummary::MakesCalls;
                 break;
             }
         }
     }

     if (tookSlowPath || sawNonCell)
         return takesSlowPath;

     if (!everConsidered)
         return StubInfoSummary::NoInformation;

     return simple;
 }

 StubInfoSummary StructureStubInfo::summary(const StructureStubInfo* stubInfo)
 {
     if (!stubInfo)
         return StubInfoSummary::NoInformation;

     return stubInfo->summary();
 }

 bool StructureStubInfo::containsPC(void* pc) const
 {
     if (cacheType != CacheType::Stub)
         return false;
     return u.stub->containsPC(pc);
 }

 #endif // ENABLE(JIT)

 } // namespace JSC
	/*
	* Copyright (C) 2008-2019 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 "StructureStubInfo.h"

	#include "JSObject.h"
	#include "JSCInlines.h"
	#include "PolymorphicAccess.h"
	#include "Repatch.h"

	namespace JSC {

	#if ENABLE(JIT)

	namespace StructureStubInfoInternal {
	static constexpr bool verbose = false;
	}

	StructureStubInfo::StructureStubInfo(AccessType accessType)
	: callSiteIndex(UINT_MAX)
	, accessType(accessType)
	, cacheType(CacheType::Unset)
	, countdown(1) // For a totally clear stub, we'll patch it after the first execution.
	, repatchCount(0)
	, numberOfCoolDowns(0)
	, bufferingCountdown(Options::repatchBufferingCountdown())
	, resetByGC(false)
	, tookSlowPath(false)
	, everConsidered(false)
	, prototypeIsKnownObject(false)
	, sawNonCell(false)
	{
	}

	StructureStubInfo::~StructureStubInfo()
	{
	}

	void StructureStubInfo::initGetByIdSelf(CodeBlock* codeBlock, Structure* baseObjectStructure, PropertyOffset offset)
	{
	cacheType = CacheType::GetByIdSelf;

	u.byIdSelf.baseObjectStructure.set(
	codeBlock->vm(), codeBlock, baseObjectStructure);
	u.byIdSelf.offset = offset;
	}

	void StructureStubInfo::initArrayLength()
	{
	cacheType = CacheType::ArrayLength;
	}

	void StructureStubInfo::initStringLength()
	{
	cacheType = CacheType::StringLength;
	}

	void StructureStubInfo::initPutByIdReplace(CodeBlock* codeBlock, Structure* baseObjectStructure, PropertyOffset offset)
	{
	cacheType = CacheType::PutByIdReplace;

	u.byIdSelf.baseObjectStructure.set(
	codeBlock->vm(), codeBlock, baseObjectStructure);
	u.byIdSelf.offset = offset;
	}

	void StructureStubInfo::initInByIdSelf(CodeBlock* codeBlock, Structure* baseObjectStructure, PropertyOffset offset)
	{
	cacheType = CacheType::InByIdSelf;

	u.byIdSelf.baseObjectStructure.set(
	codeBlock->vm(), codeBlock, baseObjectStructure);
	u.byIdSelf.offset = offset;
	}

	void StructureStubInfo::deref()
	{
	switch (cacheType) {
	case CacheType::Stub:
	delete u.stub;
	return;
	case CacheType::Unset:
	case CacheType::GetByIdSelf:
	case CacheType::PutByIdReplace:
	case CacheType::InByIdSelf:
	case CacheType::ArrayLength:
	case CacheType::StringLength:
	return;
	}

	RELEASE_ASSERT_NOT_REACHED();
	}

	void StructureStubInfo::aboutToDie()
	{
	switch (cacheType) {
	case CacheType::Stub:
	u.stub->aboutToDie();
	return;
	case CacheType::Unset:
	case CacheType::GetByIdSelf:
	case CacheType::PutByIdReplace:
	case CacheType::InByIdSelf:
	case CacheType::ArrayLength:
	case CacheType::StringLength:
	return;
	}

	RELEASE_ASSERT_NOT_REACHED();
	}

	AccessGenerationResult StructureStubInfo::addAccessCase(
	const GCSafeConcurrentJSLocker& locker, CodeBlock* codeBlock, const Identifier& ident, std::unique_ptr<AccessCase> accessCase)
	{
	VM& vm = codeBlock->vm();
	ASSERT(vm.heap.isDeferred());
	AccessGenerationResult result = ([&] () -> AccessGenerationResult {
	if (StructureStubInfoInternal::verbose)
	dataLog("Adding access case: ", accessCase, "\n");

	if (!accessCase)
	return AccessGenerationResult::GaveUp;

	AccessGenerationResult result;

	if (cacheType == CacheType::Stub) {
	result = u.stub->addCase(locker, vm, codeBlock, *this, ident, WTFMove(accessCase));

	if (StructureStubInfoInternal::verbose)
	dataLog("Had stub, result: ", result, "\n");

	if (result.shouldResetStubAndFireWatchpoints())
	return result;

	if (!result.buffered()) {
	bufferedStructures.clear();
	return result;
	}
	} else {
	std::unique_ptr<PolymorphicAccess> access = makeUnique<PolymorphicAccess>();

	Vector<std::unique_ptr<AccessCase>, 2> accessCases;

	std::unique_ptr<AccessCase> previousCase =
	AccessCase::fromStructureStubInfo(vm, codeBlock, *this);
	if (previousCase)
	accessCases.append(WTFMove(previousCase));

	accessCases.append(WTFMove(accessCase));

	result = access->addCases(locker, vm, codeBlock, *this, ident, WTFMove(accessCases));

	if (StructureStubInfoInternal::verbose)
	dataLog("Created stub, result: ", result, "\n");

	if (result.shouldResetStubAndFireWatchpoints())
	return result;

	if (!result.buffered()) {
	bufferedStructures.clear();
	return result;
	}

	cacheType = CacheType::Stub;
	u.stub = access.release();
	}

	RELEASE_ASSERT(!result.generatedSomeCode());

	// If we didn't buffer any cases then bail. If this made no changes then we'll just try again
	// subject to cool-down.
	if (!result.buffered()) {
	if (StructureStubInfoInternal::verbose)
	dataLog("Didn't buffer anything, bailing.\n");
	bufferedStructures.clear();
	return result;
	}

	// The buffering countdown tells us if we should be repatching now.
	if (bufferingCountdown) {
	if (StructureStubInfoInternal::verbose)
	dataLog("Countdown is too high: ", bufferingCountdown, ".\n");
	return result;
	}

	// Forget the buffered structures so that all future attempts to cache get fully handled by the
	// PolymorphicAccess.
	bufferedStructures.clear();

	result = u.stub->regenerate(locker, vm, codeBlock, *this, ident);

	if (StructureStubInfoInternal::verbose)
	dataLog("Regeneration result: ", result, "\n");

	RELEASE_ASSERT(!result.buffered());

	if (!result.generatedSomeCode())
	return result;

	// If we generated some code then we don't want to attempt to repatch in the future until we
	// gather enough cases.
	bufferingCountdown = Options::repatchBufferingCountdown();
	return result;
	})();
	vm.heap.writeBarrier(codeBlock);
	return result;
	}

	void StructureStubInfo::reset(CodeBlock* codeBlock)
	{
	bufferedStructures.clear();

	if (cacheType == CacheType::Unset)
	return;

	if (Options::verboseOSR()) {
	// This can be called from GC destructor calls, so we don't try to do a full dump
	// of the CodeBlock.
	dataLog("Clearing structure cache (kind ", static_cast<int>(accessType), ") in ", RawPointer(codeBlock), ".\n");
	}

	switch (accessType) {
	case AccessType::TryGet:
	resetGetByID(codeBlock, *this, GetByIDKind::Try);
	break;
	case AccessType::Get:
	resetGetByID(codeBlock, *this, GetByIDKind::Normal);
	break;
	case AccessType::GetWithThis:
	resetGetByID(codeBlock, *this, GetByIDKind::WithThis);
	break;
	case AccessType::GetDirect:
	resetGetByID(codeBlock, *this, GetByIDKind::Direct);
	break;
	case AccessType::Put:
	resetPutByID(codeBlock, *this);
	break;
	case AccessType::In:
	resetInByID(codeBlock, *this);
	break;
	case AccessType::InstanceOf:
	resetInstanceOf(*this);
	break;
	}

	deref();
	cacheType = CacheType::Unset;
	}

	void StructureStubInfo::visitWeakReferences(CodeBlock* codeBlock)
	{
	VM& vm = codeBlock->vm();

	bufferedStructures.genericFilter(
	[&] (Structure* structure) -> bool {
	return vm.heap.isMarked(structure);
	});

	switch (cacheType) {
	case CacheType::GetByIdSelf:
	case CacheType::PutByIdReplace:
	case CacheType::InByIdSelf:
	if (vm.heap.isMarked(u.byIdSelf.baseObjectStructure.get()))
	return;
	break;
	case CacheType::Stub:
	if (u.stub->visitWeak(vm))
	return;
	break;
	default:
	return;
	}

	reset(codeBlock);
	resetByGC = true;
	}

	bool StructureStubInfo::propagateTransitions(SlotVisitor& visitor)
	{
	switch (cacheType) {
	case CacheType::Unset:
	case CacheType::ArrayLength:
	case CacheType::StringLength:
	return true;
	case CacheType::GetByIdSelf:
	case CacheType::PutByIdReplace:
	case CacheType::InByIdSelf:
	return u.byIdSelf.baseObjectStructure->markIfCheap(visitor);
	case CacheType::Stub:
	return u.stub->propagateTransitions(visitor);
	}

	RELEASE_ASSERT_NOT_REACHED();
	return true;
	}

	StubInfoSummary StructureStubInfo::summary() const
	{
	StubInfoSummary takesSlowPath = StubInfoSummary::TakesSlowPath;
	StubInfoSummary simple = StubInfoSummary::Simple;
	if (cacheType == CacheType::Stub) {
	PolymorphicAccess* list = u.stub;
	for (unsigned i = 0; i < list->size(); ++i) {
	const AccessCase& access = list->at(i);
	if (access.doesCalls()) {
	takesSlowPath = StubInfoSummary::TakesSlowPathAndMakesCalls;
	simple = StubInfoSummary::MakesCalls;
	break;
	}
	}
	}

	if (tookSlowPath \|\| sawNonCell)
	return takesSlowPath;

	if (!everConsidered)
	return StubInfoSummary::NoInformation;

	return simple;
	}

	StubInfoSummary StructureStubInfo::summary(const StructureStubInfo* stubInfo)
	{
	if (!stubInfo)
	return StubInfoSummary::NoInformation;

	return stubInfo->summary();
	}

	bool StructureStubInfo::containsPC(void* pc) const
	{
	if (cacheType != CacheType::Stub)
	return false;
	return u.stub->containsPC(pc);
	}

	#endif // ENABLE(JIT)

	} // namespace JSC