https://github.com/mozilla/gecko-dev
Tip revision: 53b0723cdb6d14b3edc57fb30157c6a424ef80ae authored by tbirdbld on 03 May 2016, 12:47:32 UTC
Automated checkin: version bump for thunderbird 38.8.0 release. DONTBUILD CLOSED TREE a=release
Automated checkin: version bump for thunderbird 38.8.0 release. DONTBUILD CLOSED TREE a=release
Tip revision: 53b0723
RootMarking.cpp
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=8 sts=4 et sw=4 tw=99:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "mozilla/ArrayUtils.h"
#ifdef MOZ_VALGRIND
# include <valgrind/memcheck.h>
#endif
#include "jscntxt.h"
#include "jsgc.h"
#include "jsprf.h"
#include "jstypes.h"
#include "jswatchpoint.h"
#include "builtin/MapObject.h"
#include "frontend/BytecodeCompiler.h"
#include "gc/GCInternals.h"
#include "gc/Marking.h"
#include "jit/MacroAssembler.h"
#include "js/HashTable.h"
#include "vm/Debugger.h"
#include "vm/JSONParser.h"
#include "vm/PropDesc.h"
#include "jsgcinlines.h"
#include "jsobjinlines.h"
using namespace js;
using namespace js::gc;
using mozilla::ArrayEnd;
using JS::AutoGCRooter;
typedef RootedValueMap::Range RootRange;
typedef RootedValueMap::Entry RootEntry;
typedef RootedValueMap::Enum RootEnum;
// Note: the following two functions cannot be static as long as we are using
// GCC 4.4, since it requires template function parameters to have external
// linkage.
void
MarkBindingsRoot(JSTracer* trc, Bindings* bindings, const char* name)
{
bindings->trace(trc);
}
void
MarkPropertyDescriptorRoot(JSTracer* trc, JSPropertyDescriptor* pd, const char* name)
{
pd->trace(trc);
}
void
MarkPropDescRoot(JSTracer* trc, PropDesc* pd, const char* name)
{
pd->trace(trc);
}
template <class T>
static inline bool
IgnoreExactRoot(T* thingp)
{
return false;
}
template <class T>
inline bool
IgnoreExactRoot(T** thingp)
{
return IsNullTaggedPointer(*thingp);
}
template <>
inline bool
IgnoreExactRoot(JSObject** thingp)
{
return IsNullTaggedPointer(*thingp) || *thingp == TaggedProto::LazyProto;
}
template <class T, void MarkFunc(JSTracer* trc, T* ref, const char* name), class Source>
static inline void
MarkExactStackRootList(JSTracer* trc, Source* s, const char* name)
{
Rooted<T>* rooter = s->template gcRooters<T>();
while (rooter) {
T* addr = rooter->address();
if (!IgnoreExactRoot(addr))
MarkFunc(trc, addr, name);
rooter = rooter->previous();
}
}
template<class T>
static void
MarkExactStackRootsAcrossTypes(T context, JSTracer* trc)
{
MarkExactStackRootList<JSObject*, MarkObjectRoot>(trc, context, "exact-object");
MarkExactStackRootList<Shape*, MarkShapeRoot>(trc, context, "exact-shape");
MarkExactStackRootList<BaseShape*, MarkBaseShapeRoot>(trc, context, "exact-baseshape");
MarkExactStackRootList<ObjectGroup*, MarkObjectGroupRoot>(
trc, context, "exact-objectgroup");
MarkExactStackRootList<JSString*, MarkStringRoot>(trc, context, "exact-string");
MarkExactStackRootList<JS::Symbol*, MarkSymbolRoot>(trc, context, "exact-symbol");
MarkExactStackRootList<jit::JitCode*, MarkJitCodeRoot>(trc, context, "exact-jitcode");
MarkExactStackRootList<JSScript*, MarkScriptRoot>(trc, context, "exact-script");
MarkExactStackRootList<LazyScript*, MarkLazyScriptRoot>(trc, context, "exact-lazy-script");
MarkExactStackRootList<jsid, MarkIdRoot>(trc, context, "exact-id");
MarkExactStackRootList<Value, MarkValueRoot>(trc, context, "exact-value");
MarkExactStackRootList<TypeSet::Type, TypeSet::MarkTypeRoot>(trc, context, "TypeSet::Type");
MarkExactStackRootList<Bindings, MarkBindingsRoot>(trc, context, "Bindings");
MarkExactStackRootList<JSPropertyDescriptor, MarkPropertyDescriptorRoot>(
trc, context, "JSPropertyDescriptor");
MarkExactStackRootList<PropDesc, MarkPropDescRoot>(trc, context, "PropDesc");
}
static void
MarkExactStackRoots(JSRuntime* rt, JSTracer* trc)
{
for (ContextIter cx(rt); !cx.done(); cx.next())
MarkExactStackRootsAcrossTypes<JSContext*>(cx.get(), trc);
MarkExactStackRootsAcrossTypes<PerThreadData*>(&rt->mainThread, trc);
}
void
JS::AutoIdArray::trace(JSTracer* trc)
{
MOZ_ASSERT(tag_ == IDARRAY);
gc::MarkIdRange(trc, idArray->length, idArray->vector, "JSAutoIdArray.idArray");
}
inline void
AutoGCRooter::trace(JSTracer* trc)
{
switch (tag_) {
case PARSER:
frontend::MarkParser(trc, this);
return;
case IDARRAY: {
JSIdArray* ida = static_cast<AutoIdArray*>(this)->idArray;
MarkIdRange(trc, ida->length, ida->vector, "JS::AutoIdArray.idArray");
return;
}
case DESCVECTOR: {
AutoPropDescVector::VectorImpl& descriptors =
static_cast<AutoPropDescVector*>(this)->vector;
for (size_t i = 0, len = descriptors.length(); i < len; i++)
descriptors[i].trace(trc);
return;
}
case VALVECTOR: {
AutoValueVector::VectorImpl& vector = static_cast<AutoValueVector*>(this)->vector;
MarkValueRootRange(trc, vector.length(), vector.begin(), "js::AutoValueVector.vector");
return;
}
case IDVECTOR: {
AutoIdVector::VectorImpl& vector = static_cast<AutoIdVector*>(this)->vector;
MarkIdRootRange(trc, vector.length(), vector.begin(), "js::AutoIdVector.vector");
return;
}
case SHAPEVECTOR: {
AutoShapeVector::VectorImpl& vector = static_cast<js::AutoShapeVector*>(this)->vector;
MarkShapeRootRange(trc, vector.length(), const_cast<Shape**>(vector.begin()),
"js::AutoShapeVector.vector");
return;
}
case OBJVECTOR: {
AutoObjectVector::VectorImpl& vector = static_cast<AutoObjectVector*>(this)->vector;
MarkObjectRootRange(trc, vector.length(), vector.begin(), "js::AutoObjectVector.vector");
return;
}
case FUNVECTOR: {
AutoFunctionVector::VectorImpl& vector = static_cast<AutoFunctionVector*>(this)->vector;
MarkObjectRootRange(trc, vector.length(), vector.begin(), "js::AutoFunctionVector.vector");
return;
}
case STRINGVECTOR: {
AutoStringVector::VectorImpl& vector = static_cast<AutoStringVector*>(this)->vector;
MarkStringRootRange(trc, vector.length(), vector.begin(), "js::AutoStringVector.vector");
return;
}
case NAMEVECTOR: {
AutoNameVector::VectorImpl& vector = static_cast<AutoNameVector*>(this)->vector;
MarkStringRootRange(trc, vector.length(), vector.begin(), "js::AutoNameVector.vector");
return;
}
case VALARRAY: {
/*
* We don't know the template size parameter, but we can safely treat it
* as an AutoValueArray<1> because the length is stored separately.
*/
AutoValueArray<1>* array = static_cast<AutoValueArray<1>*>(this);
MarkValueRootRange(trc, array->length(), array->begin(), "js::AutoValueArray");
return;
}
case SCRIPTVECTOR: {
AutoScriptVector::VectorImpl& vector = static_cast<AutoScriptVector*>(this)->vector;
MarkScriptRootRange(trc, vector.length(), vector.begin(), "js::AutoScriptVector.vector");
return;
}
case OBJOBJHASHMAP: {
AutoObjectObjectHashMap::HashMapImpl& map = static_cast<AutoObjectObjectHashMap*>(this)->map;
for (AutoObjectObjectHashMap::Enum e(map); !e.empty(); e.popFront()) {
MarkObjectRoot(trc, &e.front().value(), "AutoObjectObjectHashMap value");
trc->setTracingLocation((void*)&e.front().key());
JSObject* key = e.front().key();
MarkObjectRoot(trc, &key, "AutoObjectObjectHashMap key");
if (key != e.front().key())
e.rekeyFront(key);
}
return;
}
case OBJU32HASHMAP: {
AutoObjectUnsigned32HashMap* self = static_cast<AutoObjectUnsigned32HashMap*>(this);
AutoObjectUnsigned32HashMap::HashMapImpl& map = self->map;
for (AutoObjectUnsigned32HashMap::Enum e(map); !e.empty(); e.popFront()) {
JSObject* key = e.front().key();
MarkObjectRoot(trc, &key, "AutoObjectUnsignedHashMap key");
if (key != e.front().key())
e.rekeyFront(key);
}
return;
}
case OBJHASHSET: {
AutoObjectHashSet* self = static_cast<AutoObjectHashSet*>(this);
AutoObjectHashSet::HashSetImpl& set = self->set;
for (AutoObjectHashSet::Enum e(set); !e.empty(); e.popFront()) {
JSObject* obj = e.front();
MarkObjectRoot(trc, &obj, "AutoObjectHashSet value");
if (obj != e.front())
e.rekeyFront(obj);
}
return;
}
case HASHABLEVALUE: {
AutoHashableValueRooter* rooter = static_cast<AutoHashableValueRooter*>(this);
rooter->trace(trc);
return;
}
case IONMASM: {
static_cast<js::jit::MacroAssembler::AutoRooter*>(this)->masm()->trace(trc);
return;
}
case WRAPPER: {
/*
* We need to use MarkValueUnbarriered here because we mark wrapper
* roots in every slice. This is because of some rule-breaking in
* RemapAllWrappersForObject; see comment there.
*/
MarkValueUnbarriered(trc, &static_cast<AutoWrapperRooter*>(this)->value.get(),
"JS::AutoWrapperRooter.value");
return;
}
case WRAPVECTOR: {
AutoWrapperVector::VectorImpl& vector = static_cast<AutoWrapperVector*>(this)->vector;
/*
* We need to use MarkValueUnbarriered here because we mark wrapper
* roots in every slice. This is because of some rule-breaking in
* RemapAllWrappersForObject; see comment there.
*/
for (WrapperValue* p = vector.begin(); p < vector.end(); p++)
MarkValueUnbarriered(trc, &p->get(), "js::AutoWrapperVector.vector");
return;
}
case JSONPARSER:
static_cast<js::JSONParserBase*>(this)->trace(trc);
return;
case CUSTOM:
static_cast<JS::CustomAutoRooter*>(this)->trace(trc);
return;
}
MOZ_ASSERT(tag_ >= 0);
if (Value* vp = static_cast<AutoArrayRooter*>(this)->array)
MarkValueRootRange(trc, tag_, vp, "JS::AutoArrayRooter.array");
}
/* static */ void
AutoGCRooter::traceAll(JSTracer* trc)
{
for (ContextIter cx(trc->runtime()); !cx.done(); cx.next())
traceAllInContext(&*cx, trc);
}
/* static */ void
AutoGCRooter::traceAllWrappers(JSTracer* trc)
{
for (ContextIter cx(trc->runtime()); !cx.done(); cx.next()) {
for (AutoGCRooter* gcr = cx->autoGCRooters; gcr; gcr = gcr->down) {
if (gcr->tag_ == WRAPVECTOR || gcr->tag_ == WRAPPER)
gcr->trace(trc);
}
}
}
void
AutoHashableValueRooter::trace(JSTracer* trc)
{
MarkValueRoot(trc, reinterpret_cast<Value*>(&value), "AutoHashableValueRooter");
}
void
StackShape::trace(JSTracer* trc)
{
if (base)
MarkBaseShapeRoot(trc, (BaseShape**) &base, "StackShape base");
MarkIdRoot(trc, (jsid*) &propid, "StackShape id");
if ((attrs & JSPROP_GETTER) && rawGetter)
MarkObjectRoot(trc, (JSObject**)&rawGetter, "StackShape getter");
if ((attrs & JSPROP_SETTER) && rawSetter)
MarkObjectRoot(trc, (JSObject**)&rawSetter, "StackShape setter");
}
void
JSPropertyDescriptor::trace(JSTracer* trc)
{
if (obj)
MarkObjectRoot(trc, &obj, "Descriptor::obj");
MarkValueRoot(trc, &value, "Descriptor::value");
if ((attrs & JSPROP_GETTER) && getter) {
JSObject* tmp = JS_FUNC_TO_DATA_PTR(JSObject*, getter);
MarkObjectRoot(trc, &tmp, "Descriptor::get");
getter = JS_DATA_TO_FUNC_PTR(JSPropertyOp, tmp);
}
if ((attrs & JSPROP_SETTER) && setter) {
JSObject* tmp = JS_FUNC_TO_DATA_PTR(JSObject*, setter);
MarkObjectRoot(trc, &tmp, "Descriptor::set");
setter = JS_DATA_TO_FUNC_PTR(JSStrictPropertyOp, tmp);
}
}
namespace js {
namespace gc {
template<typename T>
struct PersistentRootedMarker
{
typedef PersistentRooted<T> Element;
typedef mozilla::LinkedList<Element> List;
typedef void (*MarkFunc)(JSTracer* trc, T* ref, const char* name);
template <MarkFunc Mark>
static void
markChainIfNotNull(JSTracer* trc, List& list, const char* name)
{
for (Element* r = list.getFirst(); r; r = r->getNext()) {
if (r->get())
Mark(trc, r->address(), name);
}
}
template <MarkFunc Mark>
static void
markChain(JSTracer* trc, List& list, const char* name)
{
for (Element* r = list.getFirst(); r; r = r->getNext())
Mark(trc, r->address(), name);
}
};
}
}
void
js::gc::MarkPersistentRootedChains(JSTracer* trc)
{
JSRuntime* rt = trc->runtime();
// Mark the PersistentRooted chains of types that may be null.
PersistentRootedMarker<JSFunction*>::markChainIfNotNull<MarkObjectRoot>(
trc, rt->functionPersistentRooteds, "PersistentRooted<JSFunction*>");
PersistentRootedMarker<JSObject*>::markChainIfNotNull<MarkObjectRoot>(
trc, rt->objectPersistentRooteds, "PersistentRooted<JSObject*>");
PersistentRootedMarker<JSScript*>::markChainIfNotNull<MarkScriptRoot>(
trc, rt->scriptPersistentRooteds, "PersistentRooted<JSScript*>");
PersistentRootedMarker<JSString*>::markChainIfNotNull<MarkStringRoot>(
trc, rt->stringPersistentRooteds, "PersistentRooted<JSString*>");
// Mark the PersistentRooted chains of types that are never null.
PersistentRootedMarker<jsid>::markChain<MarkIdRoot>(trc, rt->idPersistentRooteds,
"PersistentRooted<jsid>");
PersistentRootedMarker<Value>::markChain<MarkValueRoot>(trc, rt->valuePersistentRooteds,
"PersistentRooted<Value>");
}
void
js::gc::GCRuntime::markRuntime(JSTracer* trc,
TraceOrMarkRuntime traceOrMark,
TraceRootsOrUsedSaved rootsSource)
{
gcstats::AutoPhase ap(stats, gcstats::PHASE_MARK_ROOTS);
MOZ_ASSERT(trc->callback != GCMarker::GrayCallback);
MOZ_ASSERT(traceOrMark == TraceRuntime || traceOrMark == MarkRuntime);
MOZ_ASSERT(rootsSource == TraceRoots || rootsSource == UseSavedRoots);
MOZ_ASSERT(!rt->mainThread.suppressGC);
if (traceOrMark == MarkRuntime) {
gcstats::AutoPhase ap(stats, gcstats::PHASE_MARK_CCWS);
for (CompartmentsIter c(rt, SkipAtoms); !c.done(); c.next()) {
if (!c->zone()->isCollecting())
c->markCrossCompartmentWrappers(trc);
}
Debugger::markAllCrossCompartmentEdges(trc);
}
{
gcstats::AutoPhase ap(stats, gcstats::PHASE_MARK_ROOTERS);
AutoGCRooter::traceAll(trc);
if (!rt->isBeingDestroyed()) {
MarkExactStackRoots(rt, trc);
rt->markSelfHostingGlobal(trc);
}
for (RootRange r = rootsHash.all(); !r.empty(); r.popFront()) {
const RootEntry& entry = r.front();
MarkValueRoot(trc, entry.key(), entry.value());
}
MarkPersistentRootedChains(trc);
}
if (rt->scriptAndCountsVector) {
ScriptAndCountsVector& vec = *rt->scriptAndCountsVector;
for (size_t i = 0; i < vec.length(); i++)
MarkScriptRoot(trc, &vec[i].script, "scriptAndCountsVector");
}
if (!rt->isBeingDestroyed() && !trc->runtime()->isHeapMinorCollecting()) {
gcstats::AutoPhase ap(stats, gcstats::PHASE_MARK_RUNTIME_DATA);
if (traceOrMark == TraceRuntime || rt->atomsCompartment()->zone()->isCollecting()) {
MarkPermanentAtoms(trc);
MarkAtoms(trc);
MarkWellKnownSymbols(trc);
jit::JitRuntime::Mark(trc);
}
}
for (ContextIter acx(rt); !acx.done(); acx.next())
acx->mark(trc);
for (ZonesIter zone(rt, SkipAtoms); !zone.done(); zone.next()) {
if (traceOrMark == MarkRuntime && !zone->isCollecting())
continue;
/* Do not discard scripts with counts while profiling. */
if (rt->profilingScripts && !isHeapMinorCollecting()) {
for (ZoneCellIterUnderGC i(zone, FINALIZE_SCRIPT); !i.done(); i.next()) {
JSScript* script = i.get<JSScript>();
if (script->hasScriptCounts()) {
MarkScriptRoot(trc, &script, "profilingScripts");
MOZ_ASSERT(script == i.get<JSScript>());
}
}
}
}
/* We can't use GCCompartmentsIter if we're called from TraceRuntime. */
for (CompartmentsIter c(rt, SkipAtoms); !c.done(); c.next()) {
if (trc->runtime()->isHeapMinorCollecting())
c->globalWriteBarriered = false;
if (traceOrMark == MarkRuntime && !c->zone()->isCollecting())
continue;
/* During a GC, these are treated as weak pointers. */
if (traceOrMark == TraceRuntime) {
if (c->watchpointMap)
c->watchpointMap->markAll(trc);
}
/* Mark debug scopes, if present */
if (c->debugScopes)
c->debugScopes->mark(trc);
if (c->lazyArrayBuffers)
c->lazyArrayBuffers->trace(trc);
}
MarkInterpreterActivations(rt, trc);
jit::MarkJitActivations(rt, trc);
if (!isHeapMinorCollecting()) {
gcstats::AutoPhase ap(stats, gcstats::PHASE_MARK_EMBEDDING);
/*
* All JSCompartment::markRoots() does is mark the globals for
* compartments which have been entered. Globals aren't nursery
* allocated so there's no need to do this for minor GCs.
*/
for (CompartmentsIter c(rt, SkipAtoms); !c.done(); c.next())
c->markRoots(trc);
/*
* The embedding can register additional roots here.
*
* We don't need to trace these in a minor GC because all pointers into
* the nursery should be in the store buffer, and we want to avoid the
* time taken to trace all these roots.
*/
for (size_t i = 0; i < blackRootTracers.length(); i++) {
const Callback<JSTraceDataOp>& e = blackRootTracers[i];
(*e.op)(trc, e.data);
}
/* During GC, we don't mark gray roots at this stage. */
if (JSTraceDataOp op = grayRootTracer.op) {
if (traceOrMark == TraceRuntime)
(*op)(trc, grayRootTracer.data);
}
}
}
void
js::gc::GCRuntime::bufferGrayRoots()
{
marker.startBufferingGrayRoots();
if (JSTraceDataOp op = grayRootTracer.op)
(*op)(&marker, grayRootTracer.data);
marker.endBufferingGrayRoots();
}
