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

 /*
  * Copyright (C) 2012-2015 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 "Watchpoint.h"

 #include "AdaptiveInferredPropertyValueWatchpointBase.h"
 #include "CodeBlockJettisoningWatchpoint.h"
 #include "DFGAdaptiveStructureWatchpoint.h"
 #include "FunctionRareData.h"
 #include "HeapInlines.h"
 #include "LLIntPrototypeLoadAdaptiveStructureWatchpoint.h"
 #include "ObjectToStringAdaptiveStructureWatchpoint.h"
 #include "StructureStubClearingWatchpoint.h"
 #include "VM.h"
 #include <wtf/CompilationThread.h>

 namespace JSC {

 void StringFireDetail::dump(PrintStream& out) const
 {
     out.print(m_string);
 }

 Watchpoint::~Watchpoint()
 {
     if (isOnList()) {
         // This will happen if we get destroyed before the set fires. That's totally a valid
         // possibility. For example:
         //
         // CodeBlock has a Watchpoint on transition from structure S1. The transition never
         // happens, but the CodeBlock gets destroyed because of GC.
         remove();
     }
 }

 void Watchpoint::fire(VM& vm, const FireDetail& detail)
 {
     RELEASE_ASSERT(!isOnList());
     switch (m_type) {
 #define JSC_DEFINE_WATCHPOINT_DISPATCH(type, cast) \
     case Type::type: \
         static_cast<cast*>(this)->fireInternal(vm, detail); \
         break;
     JSC_WATCHPOINT_TYPES(JSC_DEFINE_WATCHPOINT_DISPATCH)
 #undef JSC_DEFINE_WATCHPOINT_DISPATCH
     }
 }

 WatchpointSet::WatchpointSet(WatchpointState state)
     : m_state(state)
     , m_setIsNotEmpty(false)
 {
 }

 WatchpointSet::~WatchpointSet()
 {
     // Remove all watchpoints, so that they don't try to remove themselves. Note that we
     // don't fire watchpoints on deletion. We assume that any code that is interested in
     // watchpoints already also separately has a mechanism to make sure that the code is
     // either keeping the watchpoint set's owner alive, or does some weak reference thing.
     while (!m_set.isEmpty())
         m_set.begin()->remove();
 }

 void WatchpointSet::add(Watchpoint* watchpoint)
 {
     ASSERT(!isCompilationThread());
     ASSERT(state() != IsInvalidated);
     if (!watchpoint)
         return;
     m_set.push(watchpoint);
     m_setIsNotEmpty = true;
     m_state = IsWatched;
 }

 void WatchpointSet::fireAllSlow(VM& vm, const FireDetail& detail)
 {
     ASSERT(state() == IsWatched);

     WTF::storeStoreFence();
     m_state = IsInvalidated; // Do this first. Needed for adaptive watchpoints.
     fireAllWatchpoints(vm, detail);
     WTF::storeStoreFence();
 }

 void WatchpointSet::fireAllSlow(VM&, DeferredWatchpointFire* deferredWatchpoints)
 {
     ASSERT(state() == IsWatched);

     WTF::storeStoreFence();
     deferredWatchpoints->takeWatchpointsToFire(this);
     m_state = IsInvalidated; // Do after moving watchpoints to deferredWatchpoints so deferredWatchpoints gets our current state.
     WTF::storeStoreFence();
 }

 void WatchpointSet::fireAllSlow(VM& vm, const char* reason)
 {
     fireAllSlow(vm, StringFireDetail(reason));
 }

 void WatchpointSet::fireAllWatchpoints(VM& vm, const FireDetail& detail)
 {
     // In case there are any adaptive watchpoints, we need to make sure that they see that this
     // watchpoint has been already invalidated.
     RELEASE_ASSERT(hasBeenInvalidated());

     // Firing a watchpoint may cause a GC to happen. This GC could destroy various
     // Watchpoints themselves while they're in the process of firing. It's not safe
     // for most Watchpoints to be destructed while they're in the middle of firing.
     // This GC could also destroy us, and we're not in a safe state to be destroyed.
     // The safest thing to do is to DeferGCForAWhile to prevent this GC from happening.
     DeferGCForAWhile deferGC(vm.heap);

     while (!m_set.isEmpty()) {
         Watchpoint* watchpoint = m_set.begin();
         ASSERT(watchpoint->isOnList());

         // Removing the Watchpoint before firing it makes it possible to implement watchpoints
         // that add themselves to a different set when they fire. This kind of "adaptive"
         // watchpoint can be used to track some semantic property that is more fine-graiend than
         // what the set can convey. For example, we might care if a singleton object ever has a
         // property called "foo". We can watch for this by checking if its Structure has "foo" and
         // then watching its transitions. But then the watchpoint fires if any property is added.
         // So, before the watchpoint decides to invalidate any code, it can check if it is
         // possible to add itself to the transition watchpoint set of the singleton object's new
         // Structure.
         watchpoint->remove();
         ASSERT(m_set.begin() != watchpoint);
         ASSERT(!watchpoint->isOnList());

         watchpoint->fire(vm, detail);
         // After we fire the watchpoint, the watchpoint pointer may be a dangling pointer. That's
         // fine, because we have no use for the pointer anymore.
     }
 }

 void WatchpointSet::take(WatchpointSet* other)
 {
     ASSERT(state() == ClearWatchpoint);
     m_set.takeFrom(other->m_set);
     m_setIsNotEmpty = other->m_setIsNotEmpty;
     m_state = other->m_state;
     other->m_setIsNotEmpty = false;
 }

 void InlineWatchpointSet::add(Watchpoint* watchpoint)
 {
     inflate()->add(watchpoint);
 }

 void InlineWatchpointSet::fireAll(VM& vm, const char* reason)
 {
     fireAll(vm, StringFireDetail(reason));
 }

 WatchpointSet* InlineWatchpointSet::inflateSlow()
 {
     ASSERT(isThin());
     ASSERT(!isCompilationThread());
     WatchpointSet* fat = adoptRef(new WatchpointSet(decodeState(m_data))).leakRef();
     WTF::storeStoreFence();
     m_data = bitwise_cast<uintptr_t>(fat);
     return fat;
 }

 void InlineWatchpointSet::freeFat()
 {
     ASSERT(isFat());
     fat()->deref();
 }

 DeferredWatchpointFire::DeferredWatchpointFire(VM& vm)
     : m_vm(vm)
     , m_watchpointsToFire(ClearWatchpoint)
 {
 }

 DeferredWatchpointFire::~DeferredWatchpointFire()
 {
 }

 void DeferredWatchpointFire::fireAll()
 {
     if (m_watchpointsToFire.state() == IsWatched)
         m_watchpointsToFire.fireAll(m_vm, *this);
 }

 void DeferredWatchpointFire::takeWatchpointsToFire(WatchpointSet* watchpointsToFire)
 {
     ASSERT(m_watchpointsToFire.state() == ClearWatchpoint);
     ASSERT(watchpointsToFire->state() == IsWatched);
     m_watchpointsToFire.take(watchpointsToFire);
 }

 } // namespace JSC

 namespace WTF {

 void printInternal(PrintStream& out, JSC::WatchpointState state)
 {
     switch (state) {
     case JSC::ClearWatchpoint:
         out.print("ClearWatchpoint");
         return;
     case JSC::IsWatched:
         out.print("IsWatched");
         return;
     case JSC::IsInvalidated:
         out.print("IsInvalidated");
         return;
     }
     RELEASE_ASSERT_NOT_REACHED();
 }

 } // namespace WTF
	/*
	* Copyright (C) 2012-2015 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 "Watchpoint.h"

	#include "AdaptiveInferredPropertyValueWatchpointBase.h"
	#include "CodeBlockJettisoningWatchpoint.h"
	#include "DFGAdaptiveStructureWatchpoint.h"
	#include "FunctionRareData.h"
	#include "HeapInlines.h"
	#include "LLIntPrototypeLoadAdaptiveStructureWatchpoint.h"
	#include "ObjectToStringAdaptiveStructureWatchpoint.h"
	#include "StructureStubClearingWatchpoint.h"
	#include "VM.h"
	#include <wtf/CompilationThread.h>

	namespace JSC {

	void StringFireDetail::dump(PrintStream& out) const
	{
	out.print(m_string);
	}

	Watchpoint::~Watchpoint()
	{
	if (isOnList()) {
	// This will happen if we get destroyed before the set fires. That's totally a valid
	// possibility. For example:
	//
	// CodeBlock has a Watchpoint on transition from structure S1. The transition never
	// happens, but the CodeBlock gets destroyed because of GC.
	remove();
	}
	}

	void Watchpoint::fire(VM& vm, const FireDetail& detail)
	{
	RELEASE_ASSERT(!isOnList());
	switch (m_type) {
	#define JSC_DEFINE_WATCHPOINT_DISPATCH(type, cast) \
	case Type::type: \
	static_cast<cast*>(this)->fireInternal(vm, detail); \
	break;
	JSC_WATCHPOINT_TYPES(JSC_DEFINE_WATCHPOINT_DISPATCH)
	#undef JSC_DEFINE_WATCHPOINT_DISPATCH
	}
	}

	WatchpointSet::WatchpointSet(WatchpointState state)
	: m_state(state)
	, m_setIsNotEmpty(false)
	{
	}

	WatchpointSet::~WatchpointSet()
	{
	// Remove all watchpoints, so that they don't try to remove themselves. Note that we
	// don't fire watchpoints on deletion. We assume that any code that is interested in
	// watchpoints already also separately has a mechanism to make sure that the code is
	// either keeping the watchpoint set's owner alive, or does some weak reference thing.
	while (!m_set.isEmpty())
	m_set.begin()->remove();
	}

	void WatchpointSet::add(Watchpoint* watchpoint)
	{
	ASSERT(!isCompilationThread());
	ASSERT(state() != IsInvalidated);
	if (!watchpoint)
	return;
	m_set.push(watchpoint);
	m_setIsNotEmpty = true;
	m_state = IsWatched;
	}

	void WatchpointSet::fireAllSlow(VM& vm, const FireDetail& detail)
	{
	ASSERT(state() == IsWatched);

	WTF::storeStoreFence();
	m_state = IsInvalidated; // Do this first. Needed for adaptive watchpoints.
	fireAllWatchpoints(vm, detail);
	WTF::storeStoreFence();
	}

	void WatchpointSet::fireAllSlow(VM&, DeferredWatchpointFire* deferredWatchpoints)
	{
	ASSERT(state() == IsWatched);

	WTF::storeStoreFence();
	deferredWatchpoints->takeWatchpointsToFire(this);
	m_state = IsInvalidated; // Do after moving watchpoints to deferredWatchpoints so deferredWatchpoints gets our current state.
	WTF::storeStoreFence();
	}

	void WatchpointSet::fireAllSlow(VM& vm, const char* reason)
	{
	fireAllSlow(vm, StringFireDetail(reason));
	}

	void WatchpointSet::fireAllWatchpoints(VM& vm, const FireDetail& detail)
	{
	// In case there are any adaptive watchpoints, we need to make sure that they see that this
	// watchpoint has been already invalidated.
	RELEASE_ASSERT(hasBeenInvalidated());

	// Firing a watchpoint may cause a GC to happen. This GC could destroy various
	// Watchpoints themselves while they're in the process of firing. It's not safe
	// for most Watchpoints to be destructed while they're in the middle of firing.
	// This GC could also destroy us, and we're not in a safe state to be destroyed.
	// The safest thing to do is to DeferGCForAWhile to prevent this GC from happening.
	DeferGCForAWhile deferGC(vm.heap);

	while (!m_set.isEmpty()) {
	Watchpoint* watchpoint = m_set.begin();
	ASSERT(watchpoint->isOnList());

	// Removing the Watchpoint before firing it makes it possible to implement watchpoints
	// that add themselves to a different set when they fire. This kind of "adaptive"
	// watchpoint can be used to track some semantic property that is more fine-graiend than
	// what the set can convey. For example, we might care if a singleton object ever has a
	// property called "foo". We can watch for this by checking if its Structure has "foo" and
	// then watching its transitions. But then the watchpoint fires if any property is added.
	// So, before the watchpoint decides to invalidate any code, it can check if it is
	// possible to add itself to the transition watchpoint set of the singleton object's new
	// Structure.
	watchpoint->remove();
	ASSERT(m_set.begin() != watchpoint);
	ASSERT(!watchpoint->isOnList());

	watchpoint->fire(vm, detail);
	// After we fire the watchpoint, the watchpoint pointer may be a dangling pointer. That's
	// fine, because we have no use for the pointer anymore.
	}
	}

	void WatchpointSet::take(WatchpointSet* other)
	{
	ASSERT(state() == ClearWatchpoint);
	m_set.takeFrom(other->m_set);
	m_setIsNotEmpty = other->m_setIsNotEmpty;
	m_state = other->m_state;
	other->m_setIsNotEmpty = false;
	}

	void InlineWatchpointSet::add(Watchpoint* watchpoint)
	{
	inflate()->add(watchpoint);
	}

	void InlineWatchpointSet::fireAll(VM& vm, const char* reason)
	{
	fireAll(vm, StringFireDetail(reason));
	}

	WatchpointSet* InlineWatchpointSet::inflateSlow()
	{
	ASSERT(isThin());
	ASSERT(!isCompilationThread());
	WatchpointSet* fat = adoptRef(new WatchpointSet(decodeState(m_data))).leakRef();
	WTF::storeStoreFence();
	m_data = bitwise_cast<uintptr_t>(fat);
	return fat;
	}

	void InlineWatchpointSet::freeFat()
	{
	ASSERT(isFat());
	fat()->deref();
	}

	DeferredWatchpointFire::DeferredWatchpointFire(VM& vm)
	: m_vm(vm)
	, m_watchpointsToFire(ClearWatchpoint)
	{
	}

	DeferredWatchpointFire::~DeferredWatchpointFire()
	{
	}

	void DeferredWatchpointFire::fireAll()
	{
	if (m_watchpointsToFire.state() == IsWatched)
	m_watchpointsToFire.fireAll(m_vm, *this);
	}

	void DeferredWatchpointFire::takeWatchpointsToFire(WatchpointSet* watchpointsToFire)
	{
	ASSERT(m_watchpointsToFire.state() == ClearWatchpoint);
	ASSERT(watchpointsToFire->state() == IsWatched);
	m_watchpointsToFire.take(watchpointsToFire);
	}

	} // namespace JSC

	namespace WTF {

	void printInternal(PrintStream& out, JSC::WatchpointState state)
	{
	switch (state) {
	case JSC::ClearWatchpoint:
	out.print("ClearWatchpoint");
	return;
	case JSC::IsWatched:
	out.print("IsWatched");
	return;
	case JSC::IsInvalidated:
	out.print("IsInvalidated");
	return;
	}
	RELEASE_ASSERT_NOT_REACHED();
	}

	} // namespace WTF