/*
* Copyright (C) 2009 Google 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:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * 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.
* * Neither the name of Google Inc. nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "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 THE COPYRIGHT
* OWNER 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 "V8GCController.h"
#include "ActiveDOMObject.h"
#include "Attr.h"
#include "DOMDataStore.h"
#include "DOMImplementation.h"
#include "HTMLImageElement.h"
#include "HTMLNames.h"
#include "MessagePort.h"
#include "PlatformBridge.h"
#include "RetainedDOMInfo.h"
#include "RetainedObjectInfo.h"
#include "V8Binding.h"
#include "V8CSSRule.h"
#include "V8CSSRuleList.h"
#include "V8CSSStyleDeclaration.h"
#include "V8DOMImplementation.h"
#include "V8MessagePort.h"
#include "V8StyleSheet.h"
#include "V8StyleSheetList.h"
#include "WrapperTypeInfo.h"
#include <algorithm>
#include <utility>
#include <v8-debug.h>
#include <wtf/HashMap.h>
#include <wtf/StdLibExtras.h>
#include <wtf/UnusedParam.h>
namespace WebCore {
#ifndef NDEBUG
// Keeps track of global handles created (not JS wrappers
// of DOM objects). Often these global handles are source
// of leaks.
//
// If you want to let a C++ object hold a persistent handle
// to a JS object, you should register the handle here to
// keep track of leaks.
//
// When creating a persistent handle, call:
//
// #ifndef NDEBUG
// V8GCController::registerGlobalHandle(type, host, handle);
// #endif
//
// When releasing the handle, call:
//
// #ifndef NDEBUG
// V8GCController::unregisterGlobalHandle(type, host, handle);
// #endif
//
typedef HashMap<v8::Value*, GlobalHandleInfo*> GlobalHandleMap;
static GlobalHandleMap& globalHandleMap()
{
DEFINE_STATIC_LOCAL(GlobalHandleMap, staticGlobalHandleMap, ());
return staticGlobalHandleMap;
}
// The function is the place to set the break point to inspect
// live global handles. Leaks are often come from leaked global handles.
static void enumerateGlobalHandles()
{
for (GlobalHandleMap::iterator it = globalHandleMap().begin(), end = globalHandleMap().end(); it != end; ++it) {
GlobalHandleInfo* info = it->second;
UNUSED_PARAM(info);
v8::Value* handle = it->first;
UNUSED_PARAM(handle);
}
}
void V8GCController::registerGlobalHandle(GlobalHandleType type, void* host, v8::Persistent<v8::Value> handle)
{
ASSERT(!globalHandleMap().contains(*handle));
globalHandleMap().set(*handle, new GlobalHandleInfo(host, type));
}
void V8GCController::unregisterGlobalHandle(void* host, v8::Persistent<v8::Value> handle)
{
ASSERT(globalHandleMap().contains(*handle));
GlobalHandleInfo* info = globalHandleMap().take(*handle);
ASSERT(info->m_host == host);
delete info;
}
#endif // ifndef NDEBUG
typedef HashMap<Node*, v8::Object*> DOMNodeMap;
typedef HashMap<void*, v8::Object*> DOMObjectMap;
#ifndef NDEBUG
class DOMObjectVisitor : public DOMWrapperMap<void>::Visitor {
public:
void visitDOMWrapper(DOMDataStore* store, void* object, v8::Persistent<v8::Object> wrapper)
{
WrapperTypeInfo* type = V8DOMWrapper::domWrapperType(wrapper);
UNUSED_PARAM(type);
UNUSED_PARAM(object);
}
};
class EnsureWeakDOMNodeVisitor : public DOMWrapperMap<Node>::Visitor {
public:
void visitDOMWrapper(DOMDataStore* store, Node* object, v8::Persistent<v8::Object> wrapper)
{
UNUSED_PARAM(object);
ASSERT(wrapper.IsWeak());
}
};
#endif // NDEBUG
class GCPrologueVisitor : public DOMWrapperMap<void>::Visitor {
public:
void visitDOMWrapper(DOMDataStore* store, void* object, v8::Persistent<v8::Object> wrapper)
{
WrapperTypeInfo* typeInfo = V8DOMWrapper::domWrapperType(wrapper);
// Additional handling of message port ensuring that entangled ports also
// have their wrappers entangled. This should ideally be handled when the
// ports are actually entangled in MessagePort::entangle, but to avoid
// forking MessagePort.* this is postponed to GC time. Having this postponed
// has the drawback that the wrappers are "entangled/unentangled" for each
// GC even though their entaglement most likely is still the same.
if (V8MessagePort::info.equals(typeInfo)) {
// Mark each port as in-use if it's entangled. For simplicity's sake, we assume all ports are remotely entangled,
// since the Chromium port implementation can't tell the difference.
MessagePort* port1 = static_cast<MessagePort*>(object);
if (port1->isEntangled() || port1->hasPendingActivity())
wrapper.ClearWeak();
} else {
ActiveDOMObject* activeDOMObject = typeInfo->toActiveDOMObject(wrapper);
if (activeDOMObject && activeDOMObject->hasPendingActivity())
wrapper.ClearWeak();
}
}
};
// Implements v8::RetainedObjectInfo.
class UnspecifiedGroup : public RetainedObjectInfo {
public:
explicit UnspecifiedGroup(void* object)
: m_object(object)
{
ASSERT(m_object);
}
virtual void Dispose() { delete this; }
virtual bool IsEquivalent(v8::RetainedObjectInfo* other)
{
ASSERT(other);
return other == this || static_cast<WebCore::RetainedObjectInfo*>(other)->GetEquivalenceClass() == this->GetEquivalenceClass();
}
virtual intptr_t GetHash()
{
return reinterpret_cast<intptr_t>(m_object);
}
virtual const char* GetLabel()
{
return "Object group";
}
virtual intptr_t GetEquivalenceClass()
{
return reinterpret_cast<intptr_t>(m_object);
}
private:
void* m_object;
};
class GroupId {
public:
GroupId() : m_type(NullType), m_groupId(0) {}
GroupId(Node* node) : m_type(NodeType), m_node(node) {}
GroupId(void* other) : m_type(OtherType), m_other(other) {}
bool operator!() const { return m_type == NullType; }
uintptr_t groupId() const { return m_groupId; }
RetainedObjectInfo* createRetainedObjectInfo() const
{
switch (m_type) {
case NullType:
return 0;
case NodeType:
return new RetainedDOMInfo(m_node);
case OtherType:
return new UnspecifiedGroup(m_other);
default:
return 0;
}
}
private:
enum Type {
NullType,
NodeType,
OtherType
};
Type m_type;
union {
uintptr_t m_groupId;
Node* m_node;
void* m_other;
};
};
class GrouperItem {
public:
GrouperItem(GroupId groupId, v8::Persistent<v8::Object> wrapper) : m_groupId(groupId), m_wrapper(wrapper) {}
uintptr_t groupId() const { return m_groupId.groupId(); }
RetainedObjectInfo* createRetainedObjectInfo() const { return m_groupId.createRetainedObjectInfo(); }
v8::Persistent<v8::Object> wrapper() const { return m_wrapper; }
private:
GroupId m_groupId;
v8::Persistent<v8::Object> m_wrapper;
};
bool operator<(const GrouperItem& a, const GrouperItem& b)
{
return a.groupId() < b.groupId();
}
typedef Vector<GrouperItem> GrouperList;
// If the node is in document, put it in the ownerDocument's object group.
//
// If an image element was created by JavaScript "new Image",
// it is not in a document. However, if the load event has not
// been fired (still onloading), it is treated as in the document.
//
// Otherwise, the node is put in an object group identified by the root
// element of the tree to which it belongs.
static GroupId calculateGroupId(Node* node)
{
if (node->inDocument() || (node->hasTagName(HTMLNames::imgTag) && !static_cast<HTMLImageElement*>(node)->haveFiredLoadEvent()))
return GroupId(node->document());
Node* root = node;
if (node->isAttributeNode()) {
root = static_cast<Attr*>(node)->ownerElement();
// If the attribute has no element, no need to put it in the group,
// because it'll always be a group of 1.
if (!root)
return GroupId();
} else {
while (Node* parent = root->parentNode())
root = parent;
}
return GroupId(root);
}
static GroupId calculateGroupId(StyleBase* styleBase)
{
ASSERT(styleBase);
StyleBase* current = styleBase;
StyleSheet* styleSheet = 0;
while (true) {
// Special case: CSSStyleDeclarations might be either inline and in this case
// we need to group them with their node or regular ones.
if (current->isMutableStyleDeclaration()) {
CSSMutableStyleDeclaration* cssMutableStyleDeclaration = static_cast<CSSMutableStyleDeclaration*>(current);
if (cssMutableStyleDeclaration->isInlineStyleDeclaration()) {
ASSERT(cssMutableStyleDeclaration->parent()->isStyleSheet());
return calculateGroupId(cssMutableStyleDeclaration->node());
}
// Either we have no parent, or this parent is a CSSRule.
ASSERT(cssMutableStyleDeclaration->parent() == cssMutableStyleDeclaration->parentRule());
}
if (current->isStyleSheet())
styleSheet = static_cast<StyleSheet*>(current);
StyleBase* parent = current->parent();
if (!parent)
break;
current = parent;
}
if (styleSheet) {
if (Node* ownerNode = styleSheet->ownerNode())
return calculateGroupId(ownerNode);
return GroupId(styleSheet);
}
return GroupId(current);
}
class GrouperVisitor : public DOMWrapperMap<Node>::Visitor, public DOMWrapperMap<void>::Visitor {
public:
void visitDOMWrapper(DOMDataStore* store, Node* node, v8::Persistent<v8::Object> wrapper)
{
GroupId groupId = calculateGroupId(node);
if (!groupId)
return;
m_grouper.append(GrouperItem(groupId, wrapper));
}
void visitDOMWrapper(DOMDataStore* store, void* object, v8::Persistent<v8::Object> wrapper)
{
WrapperTypeInfo* typeInfo = V8DOMWrapper::domWrapperType(wrapper);
if (typeInfo->isSubclass(&V8StyleSheetList::info)) {
StyleSheetList* styleSheetList = static_cast<StyleSheetList*>(object);
GroupId groupId(styleSheetList);
if (Document* document = styleSheetList->document())
groupId = GroupId(document);
m_grouper.append(GrouperItem(groupId, wrapper));
} else if (typeInfo->isSubclass(&V8DOMImplementation::info)) {
DOMImplementation* domImplementation = static_cast<DOMImplementation*>(object);
GroupId groupId(domImplementation);
if (Document* document = domImplementation->ownerDocument())
groupId = GroupId(document);
m_grouper.append(GrouperItem(groupId, wrapper));
} else if (typeInfo->isSubclass(&V8StyleSheet::info) || typeInfo->isSubclass(&V8CSSRule::info)) {
m_grouper.append(GrouperItem(calculateGroupId(static_cast<StyleBase*>(object)), wrapper));
} else if (typeInfo->isSubclass(&V8CSSStyleDeclaration::info)) {
CSSStyleDeclaration* cssStyleDeclaration = static_cast<CSSStyleDeclaration*>(object);
GroupId groupId = calculateGroupId(cssStyleDeclaration);
m_grouper.append(GrouperItem(groupId, wrapper));
// Keep alive "dirty" primitive values (i.e. the ones that
// have user-added properties) by creating implicit
// references between the style declaration and the values
// in it.
if (cssStyleDeclaration->isMutableStyleDeclaration()) {
CSSMutableStyleDeclaration* cssMutableStyleDeclaration = static_cast<CSSMutableStyleDeclaration*>(cssStyleDeclaration);
Vector<v8::Persistent<v8::Value> > values;
values.reserveCapacity(cssMutableStyleDeclaration->length());
CSSMutableStyleDeclaration::const_iterator end = cssMutableStyleDeclaration->end();
for (CSSMutableStyleDeclaration::const_iterator it = cssMutableStyleDeclaration->begin(); it != end; ++it) {
v8::Persistent<v8::Object> value = store->domObjectMap().get(it->value());
if (!value.IsEmpty() && value->IsDirty())
values.append(value);
}
if (!values.isEmpty())
v8::V8::AddImplicitReferences(wrapper, values.data(), values.size());
}
}
}
void applyGrouping()
{
// Group by sorting by the group id.
std::sort(m_grouper.begin(), m_grouper.end());
for (size_t i = 0; i < m_grouper.size(); ) {
// Seek to the next key (or the end of the list).
size_t nextKeyIndex = m_grouper.size();
for (size_t j = i; j < m_grouper.size(); ++j) {
if (m_grouper[i].groupId() != m_grouper[j].groupId()) {
nextKeyIndex = j;
break;
}
}
ASSERT(nextKeyIndex > i);
// We only care about a group if it has more than one object. If it only
// has one object, it has nothing else that needs to be kept alive.
if (nextKeyIndex - i <= 1) {
i = nextKeyIndex;
continue;
}
size_t rootIndex = i;
Vector<v8::Persistent<v8::Value> > group;
group.reserveCapacity(nextKeyIndex - i);
for (; i < nextKeyIndex; ++i) {
v8::Persistent<v8::Value> wrapper = m_grouper[i].wrapper();
if (!wrapper.IsEmpty())
group.append(wrapper);
}
if (group.size() > 1)
v8::V8::AddObjectGroup(&group[0], group.size(), m_grouper[rootIndex].createRetainedObjectInfo());
ASSERT(i == nextKeyIndex);
}
}
private:
GrouperList m_grouper;
};
// Create object groups for DOM tree nodes.
void V8GCController::gcPrologue()
{
v8::HandleScope scope;
#ifndef NDEBUG
DOMObjectVisitor domObjectVisitor;
visitDOMObjectsInCurrentThread(&domObjectVisitor);
#endif
// Run through all objects with possible pending activity making their
// wrappers non weak if there is pending activity.
GCPrologueVisitor prologueVisitor;
visitActiveDOMObjectsInCurrentThread(&prologueVisitor);
// Create object groups.
GrouperVisitor grouperVisitor;
visitDOMNodesInCurrentThread(&grouperVisitor);
visitDOMObjectsInCurrentThread(&grouperVisitor);
grouperVisitor.applyGrouping();
// Clean single element cache for string conversions.
lastStringImpl = 0;
lastV8String.Clear();
}
class GCEpilogueVisitor : public DOMWrapperMap<void>::Visitor {
public:
void visitDOMWrapper(DOMDataStore* store, void* object, v8::Persistent<v8::Object> wrapper)
{
WrapperTypeInfo* typeInfo = V8DOMWrapper::domWrapperType(wrapper);
if (V8MessagePort::info.equals(typeInfo)) {
MessagePort* port1 = static_cast<MessagePort*>(object);
// We marked this port as reachable in GCPrologueVisitor. Undo this now since the
// port could be not reachable in the future if it gets disentangled (and also
// GCPrologueVisitor expects to see all handles marked as weak).
if ((!wrapper.IsWeak() && !wrapper.IsNearDeath()) || port1->hasPendingActivity())
wrapper.MakeWeak(port1, &DOMDataStore::weakActiveDOMObjectCallback);
} else {
ActiveDOMObject* activeDOMObject = typeInfo->toActiveDOMObject(wrapper);
if (activeDOMObject && activeDOMObject->hasPendingActivity()) {
ASSERT(!wrapper.IsWeak());
// NOTE: To re-enable weak status of the active object we use
// |object| from the map and not |activeDOMObject|. The latter
// may be a different pointer (in case ActiveDOMObject is not
// the main base class of the object's class) and pointer
// identity is required by DOM map functions.
wrapper.MakeWeak(object, &DOMDataStore::weakActiveDOMObjectCallback);
}
}
}
};
int V8GCController::workingSetEstimateMB = 0;
namespace {
int getMemoryUsageInMB()
{
#if PLATFORM(CHROMIUM) || PLATFORM(ANDROID)
return PlatformBridge::memoryUsageMB();
#else
return 0;
#endif
}
int getActualMemoryUsageInMB()
{
#if PLATFORM(CHROMIUM) || PLATFORM(ANDROID)
return PlatformBridge::actualMemoryUsageMB();
#else
return 0;
#endif
}
} // anonymous namespace
void V8GCController::gcEpilogue()
{
v8::HandleScope scope;
// Run through all objects with pending activity making their wrappers weak
// again.
GCEpilogueVisitor epilogueVisitor;
visitActiveDOMObjectsInCurrentThread(&epilogueVisitor);
workingSetEstimateMB = getActualMemoryUsageInMB();
#ifndef NDEBUG
// Check all survivals are weak.
DOMObjectVisitor domObjectVisitor;
visitDOMObjectsInCurrentThread(&domObjectVisitor);
EnsureWeakDOMNodeVisitor weakDOMNodeVisitor;
visitDOMNodesInCurrentThread(&weakDOMNodeVisitor);
enumerateGlobalHandles();
#endif
}
void V8GCController::checkMemoryUsage()
{
#if PLATFORM(CHROMIUM) || PLATFORM(QT) && !OS(SYMBIAN)
// These values are appropriate for Chromium only.
const int lowUsageMB = 256; // If memory usage is below this threshold, do not bother forcing GC.
const int highUsageMB = 1024; // If memory usage is above this threshold, force GC more aggresively.
const int highUsageDeltaMB = 128; // Delta of memory usage growth (vs. last workingSetEstimateMB) to force GC when memory usage is high.
#elif PLATFORM(ANDROID)
// Query the PlatformBridge for memory thresholds as these vary device to device.
static const int lowUsageMB = PlatformBridge::lowMemoryUsageMB();
static const int highUsageMB = PlatformBridge::highMemoryUsageMB();
static const int highUsageDeltaMB = PlatformBridge::highUsageDeltaMB();
#else
return;
#endif
int memoryUsageMB = getMemoryUsageInMB();
if ((memoryUsageMB > lowUsageMB && memoryUsageMB > 2 * workingSetEstimateMB) || (memoryUsageMB > highUsageMB && memoryUsageMB > workingSetEstimateMB + highUsageDeltaMB))
v8::V8::LowMemoryNotification();
}
} // namespace WebCore