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webkit / WebKit / 4cc720436197cbbb8e4c48226df34e98d98509ab / . / Source / JavaScriptCore / heap / HeapSnapshotBuilder.cpp
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/*
* Copyright (C) 2016-2019 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 "HeapSnapshotBuilder.h"
#include "DeferGC.h"
#include "Heap.h"
#include "HeapProfiler.h"
#include "HeapSnapshot.h"
#include "JSCInlines.h"
#include "JSCast.h"
#include "PreventCollectionScope.h"
#include "VM.h"
#include <wtf/HexNumber.h>
#include <wtf/text/StringBuilder.h>
namespace JSC {
static const char* rootTypeToString(SlotVisitor::RootMarkReason);
NodeIdentifier HeapSnapshotBuilder::nextAvailableObjectIdentifier = 1;
NodeIdentifier HeapSnapshotBuilder::getNextObjectIdentifier() { return nextAvailableObjectIdentifier++; }
void HeapSnapshotBuilder::resetNextAvailableObjectIdentifier() { HeapSnapshotBuilder::nextAvailableObjectIdentifier = 1; }
HeapSnapshotBuilder::HeapSnapshotBuilder(HeapProfiler& profiler, SnapshotType type)
: HeapAnalyzer()
, m_profiler(profiler)
, m_snapshotType(type)
{
}
HeapSnapshotBuilder::~HeapSnapshotBuilder()
{
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot)
m_profiler.clearSnapshots();
}
void HeapSnapshotBuilder::buildSnapshot()
{
// GCDebuggingSnapshot are always full snapshots, so clear any existing snapshots.
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot)
m_profiler.clearSnapshots();
PreventCollectionScope preventCollectionScope(m_profiler.vm().heap);
m_snapshot = makeUnique<HeapSnapshot>(m_profiler.mostRecentSnapshot());
{
ASSERT(!m_profiler.activeHeapAnalyzer());
m_profiler.setActiveHeapAnalyzer(this);
m_profiler.vm().heap.collectNow(Sync, CollectionScope::Full);
m_profiler.setActiveHeapAnalyzer(nullptr);
}
m_snapshot->finalize();
m_profiler.appendSnapshot(WTFMove(m_snapshot));
}
void HeapSnapshotBuilder::analyzeNode(JSCell* cell)
{
ASSERT(m_profiler.activeHeapAnalyzer() == this);
ASSERT(m_profiler.vm().heap.isMarked(cell));
NodeIdentifier identifier;
if (previousSnapshotHasNodeForCell(cell, identifier))
return;
std::lock_guard<Lock> lock(m_buildingNodeMutex);
m_snapshot->appendNode(HeapSnapshotNode(cell, getNextObjectIdentifier()));
}
void HeapSnapshotBuilder::analyzeEdge(JSCell* from, JSCell* to, SlotVisitor::RootMarkReason rootMarkReason)
{
ASSERT(m_profiler.activeHeapAnalyzer() == this);
ASSERT(to);
// Avoid trivial edges.
if (from == to)
return;
std::lock_guard<Lock> lock(m_buildingEdgeMutex);
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot && !from) {
if (rootMarkReason == SlotVisitor::RootMarkReason::None && m_snapshotType == SnapshotType::GCDebuggingSnapshot)
WTFLogAlways("Cell %p is a root but no root marking reason was supplied", to);
m_rootData.ensure(to, [] () -> RootData {
return { };
}).iterator->value.markReason = rootMarkReason;
}
m_edges.append(HeapSnapshotEdge(from, to));
}
void HeapSnapshotBuilder::analyzePropertyNameEdge(JSCell* from, JSCell* to, UniquedStringImpl* propertyName)
{
ASSERT(m_profiler.activeHeapAnalyzer() == this);
ASSERT(to);
std::lock_guard<Lock> lock(m_buildingEdgeMutex);
m_edges.append(HeapSnapshotEdge(from, to, EdgeType::Property, propertyName));
}
void HeapSnapshotBuilder::analyzeVariableNameEdge(JSCell* from, JSCell* to, UniquedStringImpl* variableName)
{
ASSERT(m_profiler.activeHeapAnalyzer() == this);
ASSERT(to);
std::lock_guard<Lock> lock(m_buildingEdgeMutex);
m_edges.append(HeapSnapshotEdge(from, to, EdgeType::Variable, variableName));
}
void HeapSnapshotBuilder::analyzeIndexEdge(JSCell* from, JSCell* to, uint32_t index)
{
ASSERT(m_profiler.activeHeapAnalyzer() == this);
ASSERT(to);
std::lock_guard<Lock> lock(m_buildingEdgeMutex);
m_edges.append(HeapSnapshotEdge(from, to, index));
}
void HeapSnapshotBuilder::setOpaqueRootReachabilityReasonForCell(JSCell* cell, const char* reason)
{
if (!reason || !*reason || m_snapshotType != SnapshotType::GCDebuggingSnapshot)
return;
std::lock_guard<Lock> lock(m_buildingEdgeMutex);
m_rootData.ensure(cell, [] () -> RootData {
return { };
}).iterator->value.reachabilityFromOpaqueRootReasons = reason;
}
void HeapSnapshotBuilder::setWrappedObjectForCell(JSCell* cell, void* wrappedPtr)
{
m_wrappedObjectPointers.set(cell, wrappedPtr);
}
bool HeapSnapshotBuilder::previousSnapshotHasNodeForCell(JSCell* cell, NodeIdentifier& identifier)
{
if (!m_snapshot->previous())
return false;
auto existingNode = m_snapshot->previous()->nodeForCell(cell);
if (existingNode) {
identifier = existingNode.value().identifier;
return true;
}
return false;
}
// Heap Snapshot JSON Format:
//
// Inspector snapshots:
//
// {
// "version": 2,
// "type": "Inspector",
// // [<address>, <labelIndex>, <wrappedAddress>] only present in GCDebuggingSnapshot-type snapshots
// "nodes": [
// <nodeId>, <sizeInBytes>, <nodeClassNameIndex>, <flags>
// <nodeId>, <sizeInBytes>, <nodeClassNameIndex>, <flags>
// ...
// ],
// "nodeClassNames": [
// "string", "Structure", "Object", ...
// ],
// "edges": [
// <fromNodeId>, <toNodeId>, <edgeTypeIndex>, <edgeExtraData>,
// <fromNodeId>, <toNodeId>, <edgeTypeIndex>, <edgeExtraData>,
// ...
// ],
// "edgeTypes": [
// "Internal", "Property", "Index", "Variable"
// ],
// "edgeNames": [
// "propertyName", "variableName", ...
// ]
// }
//
// GC heap debugger snapshots:
//
// {
// "version": 2,
// "type": "GCDebugging",
// "nodes": [
// <nodeId>, <sizeInBytes>, <nodeClassNameIndex>, <flags>, <labelIndex>, <cellEddress>, <wrappedAddress>,
// <nodeId>, <sizeInBytes>, <nodeClassNameIndex>, <flags>, <labelIndex>, <cellEddress>, <wrappedAddress>,
// ...
// ],
// "nodeClassNames": [
// "string", "Structure", "Object", ...
// ],
// "edges": [
// <fromNodeId>, <toNodeId>, <edgeTypeIndex>, <edgeExtraData>,
// <fromNodeId>, <toNodeId>, <edgeTypeIndex>, <edgeExtraData>,
// ...
// ],
// "edgeTypes": [
// "Internal", "Property", "Index", "Variable"
// ],
// "edgeNames": [
// "propertyName", "variableName", ...
// ],
// "roots" : [
// <nodeId>, <rootReasonIndex>, <reachabilityReasonIndex>,
// <nodeId>, <rootReasonIndex>, <reachabilityReasonIndex>,
// ... // <nodeId> may be repeated
// ],
// "labels" : [
// "foo", "bar", ...
// ]
// }
//
// Notes:
//
// <nodeClassNameIndex>
// - index into the "nodeClassNames" list.
//
// <flags>
// - 0b0000 - no flags
// - 0b0001 - internal instance
// - 0b0010 - Object subclassification
//
// <edgeTypeIndex>
// - index into the "edgeTypes" list.
//
// <edgeExtraData>
// - for Internal edges this should be ignored (0).
// - for Index edges this is the index value.
// - for Property or Variable edges this is an index into the "edgeNames" list.
//
// <rootReasonIndex>
// - index into the "labels" list.
enum class NodeFlags {
Internal = 1 << 0,
ObjectSubtype = 1 << 1,
};
static uint8_t edgeTypeToNumber(EdgeType type)
{
return static_cast<uint8_t>(type);
}
static const char* edgeTypeToString(EdgeType type)
{
switch (type) {
case EdgeType::Internal:
return "Internal";
case EdgeType::Property:
return "Property";
case EdgeType::Index:
return "Index";
case EdgeType::Variable:
return "Variable";
}
ASSERT_NOT_REACHED();
return "Internal";
}
static const char* snapshotTypeToString(HeapSnapshotBuilder::SnapshotType type)
{
switch (type) {
case HeapSnapshotBuilder::SnapshotType::InspectorSnapshot:
return "Inspector";
case HeapSnapshotBuilder::SnapshotType::GCDebuggingSnapshot:
return "GCDebugging";
}
ASSERT_NOT_REACHED();
return "Inspector";
}
static const char* rootTypeToString(SlotVisitor::RootMarkReason type)
{
switch (type) {
case SlotVisitor::RootMarkReason::None:
return "None";
case SlotVisitor::RootMarkReason::ConservativeScan:
return "Conservative scan";
case SlotVisitor::RootMarkReason::StrongReferences:
return "Strong references";
case SlotVisitor::RootMarkReason::ProtectedValues:
return "Protected values";
case SlotVisitor::RootMarkReason::MarkListSet:
return "Mark list set";
case SlotVisitor::RootMarkReason::VMExceptions:
return "VM exceptions";
case SlotVisitor::RootMarkReason::StrongHandles:
return "Strong handles";
case SlotVisitor::RootMarkReason::Debugger:
return "Debugger";
case SlotVisitor::RootMarkReason::JITStubRoutines:
return "JIT stub routines";
case SlotVisitor::RootMarkReason::WeakSets:
return "Weak sets";
case SlotVisitor::RootMarkReason::Output:
return "Output";
case SlotVisitor::RootMarkReason::DFGWorkLists:
return "DFG work lists";
case SlotVisitor::RootMarkReason::CodeBlocks:
return "Code blocks";
case SlotVisitor::RootMarkReason::DOMGCOutput:
return "DOM GC output";
}
ASSERT_NOT_REACHED();
return "None";
}
String HeapSnapshotBuilder::json()
{
return json([] (const HeapSnapshotNode&) { return true; });
}
void HeapSnapshotBuilder::setLabelForCell(JSCell* cell, const String& label)
{
m_cellLabels.set(cell, label);
}
String HeapSnapshotBuilder::descriptionForCell(JSCell *cell) const
{
if (cell->isString())
return emptyString(); // FIXME: get part of string.
VM& vm = m_profiler.vm();
Structure* structure = cell->structure(vm);
if (structure->classInfo()->isSubClassOf(Structure::info())) {
Structure* cellAsStructure = jsCast<Structure*>(cell);
return cellAsStructure->classInfo()->className;
}
return emptyString();
}
String HeapSnapshotBuilder::json(Function<bool (const HeapSnapshotNode&)> allowNodeCallback)
{
VM& vm = m_profiler.vm();
DeferGCForAWhile deferGC(vm.heap);
// Build a node to identifier map of allowed nodes to use when serializing edges.
HashMap<JSCell*, NodeIdentifier> allowedNodeIdentifiers;
// Build a list of used class names.
HashMap<String, unsigned> classNameIndexes;
classNameIndexes.set("<root>"_s, 0);
unsigned nextClassNameIndex = 1;
// Build a list of labels (this is just a string table).
HashMap<String, unsigned> labelIndexes;
labelIndexes.set(emptyString(), 0);
unsigned nextLabelIndex = 1;
// Build a list of used edge names.
HashMap<UniquedStringImpl*, unsigned> edgeNameIndexes;
unsigned nextEdgeNameIndex = 0;
StringBuilder json;
auto appendNodeJSON = [&] (const HeapSnapshotNode& node) {
// Let the client decide if they want to allow or disallow certain nodes.
if (!allowNodeCallback(node))
return;
unsigned flags = 0;
allowedNodeIdentifiers.set(node.cell, node.identifier);
String className = node.cell->classInfo(vm)->className;
if (node.cell->isObject() && className == JSObject::info()->className) {
flags |= static_cast<unsigned>(NodeFlags::ObjectSubtype);
// Skip calculating a class name if this object has a `constructor` own property.
// These cases are typically F.prototype objects and we want to treat these as
// "Object" in snapshots and not get the name of the prototype's parent.
JSObject* object = asObject(node.cell);
if (JSGlobalObject* globalObject = object->globalObject(vm)) {
PropertySlot slot(object, PropertySlot::InternalMethodType::VMInquiry);
if (!object->getOwnPropertySlot(object, globalObject, vm.propertyNames->constructor, slot))
className = JSObject::calculatedClassName(object);
}
}
auto result = classNameIndexes.add(className, nextClassNameIndex);
if (result.isNewEntry)
nextClassNameIndex++;
unsigned classNameIndex = result.iterator->value;
void* wrappedAddress = 0;
unsigned labelIndex = 0;
if (!node.cell->isString() && !node.cell->isBigInt()) {
Structure* structure = node.cell->structure(vm);
if (!structure || !structure->globalObject())
flags |= static_cast<unsigned>(NodeFlags::Internal);
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot) {
String nodeLabel;
auto it = m_cellLabels.find(node.cell);
if (it != m_cellLabels.end())
nodeLabel = it->value;
if (nodeLabel.isEmpty()) {
if (auto* object = jsDynamicCast<JSObject*>(vm, node.cell)) {
if (auto* function = jsDynamicCast<JSFunction*>(vm, object))
nodeLabel = function->calculatedDisplayName(vm);
}
}
String description = descriptionForCell(node.cell);
if (description.length()) {
if (nodeLabel.length())
nodeLabel.append(' ');
nodeLabel.append(description);
}
if (!nodeLabel.isEmpty() && m_snapshotType == SnapshotType::GCDebuggingSnapshot) {
auto result = labelIndexes.add(nodeLabel, nextLabelIndex);
if (result.isNewEntry)
nextLabelIndex++;
labelIndex = result.iterator->value;
}
wrappedAddress = m_wrappedObjectPointers.get(node.cell);
}
}
// <nodeId>, <sizeInBytes>, <nodeClassNameIndex>, <flags>, [<labelIndex>, <cellEddress>, <wrappedAddress>]
json.append(',');
json.appendNumber(node.identifier);
json.append(',');
json.appendNumber(node.cell->estimatedSizeInBytes(vm));
json.append(',');
json.appendNumber(classNameIndex);
json.append(',');
json.appendNumber(flags);
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot) {
json.append(',');
json.appendNumber(labelIndex);
json.appendLiteral(",\"0x");
appendUnsignedAsHex(reinterpret_cast<uintptr_t>(node.cell), json, Lowercase);
json.appendLiteral("\",\"0x");
appendUnsignedAsHex(reinterpret_cast<uintptr_t>(wrappedAddress), json, Lowercase);
json.append('"');
}
};
bool firstEdge = true;
auto appendEdgeJSON = [&] (const HeapSnapshotEdge& edge) {
if (!firstEdge)
json.append(',');
firstEdge = false;
// <fromNodeId>, <toNodeId>, <edgeTypeIndex>, <edgeExtraData>
json.appendNumber(edge.from.identifier);
json.append(',');
json.appendNumber(edge.to.identifier);
json.append(',');
json.appendNumber(edgeTypeToNumber(edge.type));
json.append(',');
switch (edge.type) {
case EdgeType::Property:
case EdgeType::Variable: {
auto result = edgeNameIndexes.add(edge.u.name, nextEdgeNameIndex);
if (result.isNewEntry)
nextEdgeNameIndex++;
unsigned edgeNameIndex = result.iterator->value;
json.appendNumber(edgeNameIndex);
break;
}
case EdgeType::Index:
json.appendNumber(edge.u.index);
break;
default:
// No data for this edge type.
json.append('0');
break;
}
};
json.append('{');
// version
json.appendLiteral("\"version\":2");
// type
json.append(',');
json.appendLiteral("\"type\":");
json.appendQuotedJSONString(snapshotTypeToString(m_snapshotType));
// nodes
json.append(',');
json.appendLiteral("\"nodes\":");
json.append('[');
// <root>
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot)
json.appendLiteral("0,0,0,0,0,\"0x0\",\"0x0\"");
else
json.appendLiteral("0,0,0,0");
for (HeapSnapshot* snapshot = m_profiler.mostRecentSnapshot(); snapshot; snapshot = snapshot->previous()) {
for (auto& node : snapshot->m_nodes)
appendNodeJSON(node);
}
json.append(']');
// node class names
json.append(',');
json.appendLiteral("\"nodeClassNames\":");
json.append('[');
Vector<String> orderedClassNames(classNameIndexes.size());
for (auto& entry : classNameIndexes)
orderedClassNames[entry.value] = entry.key;
classNameIndexes.clear();
bool firstClassName = true;
for (auto& className : orderedClassNames) {
if (!firstClassName)
json.append(',');
firstClassName = false;
json.appendQuotedJSONString(className);
}
orderedClassNames.clear();
json.append(']');
// Process edges.
// Replace pointers with identifiers.
// Remove any edges that we won't need.
m_edges.removeAllMatching([&] (HeapSnapshotEdge& edge) {
// If the from cell is null, this means a <root> edge.
if (!edge.from.cell)
edge.from.identifier = 0;
else {
auto fromLookup = allowedNodeIdentifiers.find(edge.from.cell);
if (fromLookup == allowedNodeIdentifiers.end()) {
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot)
WTFLogAlways("Failed to find node for from-edge cell %p", edge.from.cell);
return true;
}
edge.from.identifier = fromLookup->value;
}
if (!edge.to.cell)
edge.to.identifier = 0;
else {
auto toLookup = allowedNodeIdentifiers.find(edge.to.cell);
if (toLookup == allowedNodeIdentifiers.end()) {
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot)
WTFLogAlways("Failed to find node for to-edge cell %p", edge.to.cell);
return true;
}
edge.to.identifier = toLookup->value;
}
return false;
});
allowedNodeIdentifiers.clear();
m_edges.shrinkToFit();
// Sort edges based on from identifier.
std::sort(m_edges.begin(), m_edges.end(), [&] (const HeapSnapshotEdge& a, const HeapSnapshotEdge& b) {
return a.from.identifier < b.from.identifier;
});
// edges
json.append(',');
json.appendLiteral("\"edges\":");
json.append('[');
for (auto& edge : m_edges)
appendEdgeJSON(edge);
json.append(']');
// edge types
json.append(',');
json.appendLiteral("\"edgeTypes\":");
json.append('[');
json.appendQuotedJSONString(edgeTypeToString(EdgeType::Internal));
json.append(',');
json.appendQuotedJSONString(edgeTypeToString(EdgeType::Property));
json.append(',');
json.appendQuotedJSONString(edgeTypeToString(EdgeType::Index));
json.append(',');
json.appendQuotedJSONString(edgeTypeToString(EdgeType::Variable));
json.append(']');
// edge names
json.append(',');
json.appendLiteral("\"edgeNames\":");
json.append('[');
Vector<UniquedStringImpl*> orderedEdgeNames(edgeNameIndexes.size());
for (auto& entry : edgeNameIndexes)
orderedEdgeNames[entry.value] = entry.key;
edgeNameIndexes.clear();
bool firstEdgeName = true;
for (auto& edgeName : orderedEdgeNames) {
if (!firstEdgeName)
json.append(',');
firstEdgeName = false;
json.appendQuotedJSONString(edgeName);
}
orderedEdgeNames.clear();
json.append(']');
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot) {
json.append(',');
json.appendLiteral("\"roots\":");
json.append('[');
HeapSnapshot* snapshot = m_profiler.mostRecentSnapshot();
bool firstNode = true;
for (auto it : m_rootData) {
auto snapshotNode = snapshot->nodeForCell(it.key);
if (!snapshotNode) {
WTFLogAlways("Failed to find snapshot node for cell %p", it.key);
continue;
}
if (!firstNode)
json.append(',');
firstNode = false;
json.appendNumber(snapshotNode.value().identifier);
// Maybe we should just always encode the root names.
const char* rootName = rootTypeToString(it.value.markReason);
auto result = labelIndexes.add(rootName, nextLabelIndex);
if (result.isNewEntry)
nextLabelIndex++;
unsigned labelIndex = result.iterator->value;
json.append(',');
json.appendNumber(labelIndex);
unsigned reachabilityReasonIndex = 0;
if (it.value.reachabilityFromOpaqueRootReasons) {
auto result = labelIndexes.add(it.value.reachabilityFromOpaqueRootReasons, nextLabelIndex);
if (result.isNewEntry)
nextLabelIndex++;
reachabilityReasonIndex = result.iterator->value;
}
json.append(',');
json.appendNumber(reachabilityReasonIndex);
}
json.append(']');
}
if (m_snapshotType == SnapshotType::GCDebuggingSnapshot) {
// internal node descriptions
json.append(',');
json.appendLiteral("\"labels\":");
json.append('[');
Vector<String> orderedLabels(labelIndexes.size());
for (auto& entry : labelIndexes)
orderedLabels[entry.value] = entry.key;
labelIndexes.clear();
bool firstLabel = true;
for (auto& label : orderedLabels) {
if (!firstLabel)
json.append(',');
firstLabel = false;
json.appendQuotedJSONString(label);
}
orderedLabels.clear();
json.append(']');
}
json.append('}');
return json.toString();
}
} // namespace JSC