https://github.com/mozilla/gecko-dev
Tip revision: 5173df029664d710c8f38f63eea15781d77c1111 authored by seabld on 19 January 2012, 09:10:27 UTC
Added tag SEAMONKEY_2_7b4_RELEASE for changeset FIREFOX_10_0b5_BUILD1. CLOSED TREE a=release
Added tag SEAMONKEY_2_7b4_RELEASE for changeset FIREFOX_10_0b5_BUILD1. CLOSED TREE a=release
Tip revision: 5173df0
jscompartment.cpp
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=4 sw=4 et tw=99:
*
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is Mozilla SpiderMonkey JavaScript 1.9 code, released
* May 28, 2008.
*
* The Initial Developer of the Original Code is
* Mozilla Foundation
* Portions created by the Initial Developer are Copyright (C) 2010
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the terms of
* either of the GNU General Public License Version 2 or later (the "GPL"),
* or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
#include "jscntxt.h"
#include "jscompartment.h"
#include "jsgc.h"
#include "jsgcmark.h"
#include "jsiter.h"
#include "jsmath.h"
#include "jsproxy.h"
#include "jsscope.h"
#include "jstracer.h"
#include "jswatchpoint.h"
#include "jswrapper.h"
#include "assembler/wtf/Platform.h"
#include "assembler/jit/ExecutableAllocator.h"
#include "yarr/BumpPointerAllocator.h"
#include "methodjit/MethodJIT.h"
#include "methodjit/PolyIC.h"
#include "methodjit/MonoIC.h"
#include "vm/Debugger.h"
#include "jsgcinlines.h"
#include "jsscopeinlines.h"
#if ENABLE_YARR_JIT
#include "assembler/jit/ExecutableAllocator.h"
#endif
using namespace mozilla;
using namespace js;
using namespace js::gc;
JSCompartment::JSCompartment(JSRuntime *rt)
: rt(rt),
principals(NULL),
gcBytes(0),
gcTriggerBytes(0),
gcLastBytes(0),
hold(false),
typeLifoAlloc(TYPE_LIFO_ALLOC_PRIMARY_CHUNK_SIZE),
#ifdef JS_TRACER
traceMonitor_(NULL),
#endif
data(NULL),
active(false),
hasDebugModeCodeToDrop(false),
#ifdef JS_METHODJIT
jaegerCompartment_(NULL),
#endif
#if ENABLE_YARR_JIT
regExpAllocator(NULL),
#endif
propertyTree(thisForCtor()),
emptyArgumentsShape(NULL),
emptyBlockShape(NULL),
emptyCallShape(NULL),
emptyDeclEnvShape(NULL),
emptyEnumeratorShape(NULL),
emptyWithShape(NULL),
initialRegExpShape(NULL),
initialStringShape(NULL),
debugModeBits(rt->debugMode ? DebugFromC : 0),
mathCache(NULL),
breakpointSites(rt),
watchpointMap(NULL)
{
PodArrayZero(evalCache);
}
JSCompartment::~JSCompartment()
{
#if ENABLE_YARR_JIT
Foreground::delete_(regExpAllocator);
#endif
#ifdef JS_METHODJIT
Foreground::delete_(jaegerCompartment_);
#endif
#ifdef JS_TRACER
Foreground::delete_(traceMonitor_);
#endif
Foreground::delete_(mathCache);
Foreground::delete_(watchpointMap);
#ifdef DEBUG
for (size_t i = 0; i < ArrayLength(evalCache); ++i)
JS_ASSERT(!evalCache[i]);
#endif
}
bool
JSCompartment::init(JSContext *cx)
{
activeAnalysis = activeInference = false;
types.init(cx);
if (!crossCompartmentWrappers.init())
return false;
if (!scriptFilenameTable.init())
return false;
regExpAllocator = rt->new_<WTF::BumpPointerAllocator>();
if (!regExpAllocator)
return false;
if (!backEdgeTable.init())
return false;
return debuggees.init() && breakpointSites.init();
}
#ifdef JS_METHODJIT
bool
JSCompartment::ensureJaegerCompartmentExists(JSContext *cx)
{
if (jaegerCompartment_)
return true;
mjit::JaegerCompartment *jc = cx->new_<mjit::JaegerCompartment>();
if (!jc)
return false;
if (!jc->Initialize()) {
cx->delete_(jc);
return false;
}
jaegerCompartment_ = jc;
return true;
}
void
JSCompartment::getMjitCodeStats(size_t& method, size_t& regexp, size_t& unused) const
{
if (jaegerCompartment_) {
jaegerCompartment_->execAlloc()->getCodeStats(method, regexp, unused);
} else {
method = 0;
regexp = 0;
unused = 0;
}
}
#endif
bool
JSCompartment::wrap(JSContext *cx, Value *vp)
{
JS_ASSERT(cx->compartment == this);
uintN flags = 0;
JS_CHECK_RECURSION(cx, return false);
/* Only GC things have to be wrapped or copied. */
if (!vp->isMarkable())
return true;
if (vp->isString()) {
JSString *str = vp->toString();
/* If the string is already in this compartment, we are done. */
if (str->compartment() == this)
return true;
/* If the string is an atom, we don't have to copy. */
if (str->isAtom()) {
JS_ASSERT(str->compartment() == cx->runtime->atomsCompartment);
return true;
}
}
/*
* Wrappers should really be parented to the wrapped parent of the wrapped
* object, but in that case a wrapped global object would have a NULL
* parent without being a proper global object (JSCLASS_IS_GLOBAL). Instead,
* we parent all wrappers to the global object in their home compartment.
* This loses us some transparency, and is generally very cheesy.
*/
JSObject *global;
if (cx->hasfp()) {
global = cx->fp()->scopeChain().getGlobal();
} else {
global = JS_ObjectToInnerObject(cx, cx->globalObject);
if (!global)
return false;
}
/* Unwrap incoming objects. */
if (vp->isObject()) {
JSObject *obj = &vp->toObject();
/* If the object is already in this compartment, we are done. */
if (obj->compartment() == this)
return true;
/* Translate StopIteration singleton. */
if (obj->isStopIteration())
return js_FindClassObject(cx, NULL, JSProto_StopIteration, vp);
/* Don't unwrap an outer window proxy. */
if (!obj->getClass()->ext.innerObject) {
obj = UnwrapObject(&vp->toObject(), &flags);
vp->setObject(*obj);
if (obj->compartment() == this)
return true;
if (cx->runtime->preWrapObjectCallback) {
obj = cx->runtime->preWrapObjectCallback(cx, global, obj, flags);
if (!obj)
return false;
}
vp->setObject(*obj);
if (obj->compartment() == this)
return true;
} else {
if (cx->runtime->preWrapObjectCallback) {
obj = cx->runtime->preWrapObjectCallback(cx, global, obj, flags);
if (!obj)
return false;
}
JS_ASSERT(!obj->isWrapper() || obj->getClass()->ext.innerObject);
vp->setObject(*obj);
}
#ifdef DEBUG
{
JSObject *outer = obj;
OBJ_TO_OUTER_OBJECT(cx, outer);
JS_ASSERT(outer && outer == obj);
}
#endif
}
/* If we already have a wrapper for this value, use it. */
if (WrapperMap::Ptr p = crossCompartmentWrappers.lookup(*vp)) {
*vp = p->value;
if (vp->isObject()) {
JSObject *obj = &vp->toObject();
JS_ASSERT(obj->isCrossCompartmentWrapper());
if (global->getClass() != &dummy_class && obj->getParent() != global) {
do {
obj->setParent(global);
obj = obj->getProto();
} while (obj && obj->isCrossCompartmentWrapper());
}
}
return true;
}
if (vp->isString()) {
Value orig = *vp;
JSString *str = vp->toString();
const jschar *chars = str->getChars(cx);
if (!chars)
return false;
JSString *wrapped = js_NewStringCopyN(cx, chars, str->length());
if (!wrapped)
return false;
vp->setString(wrapped);
return crossCompartmentWrappers.put(orig, *vp);
}
JSObject *obj = &vp->toObject();
/*
* Recurse to wrap the prototype. Long prototype chains will run out of
* stack, causing an error in CHECK_RECURSE.
*
* Wrapping the proto before creating the new wrapper and adding it to the
* cache helps avoid leaving a bad entry in the cache on OOM. But note that
* if we wrapped both proto and parent, we would get infinite recursion
* here (since Object.prototype->parent->proto leads to Object.prototype
* itself).
*/
JSObject *proto = obj->getProto();
if (!wrap(cx, &proto))
return false;
/*
* We hand in the original wrapped object into the wrap hook to allow
* the wrap hook to reason over what wrappers are currently applied
* to the object.
*/
JSObject *wrapper = cx->runtime->wrapObjectCallback(cx, obj, proto, global, flags);
if (!wrapper)
return false;
vp->setObject(*wrapper);
if (wrapper->getProto() != proto && !SetProto(cx, wrapper, proto, false))
return false;
if (!crossCompartmentWrappers.put(GetProxyPrivate(wrapper), *vp))
return false;
wrapper->setParent(global);
return true;
}
bool
JSCompartment::wrap(JSContext *cx, JSString **strp)
{
AutoValueRooter tvr(cx, StringValue(*strp));
if (!wrap(cx, tvr.addr()))
return false;
*strp = tvr.value().toString();
return true;
}
bool
JSCompartment::wrap(JSContext *cx, JSObject **objp)
{
if (!*objp)
return true;
AutoValueRooter tvr(cx, ObjectValue(**objp));
if (!wrap(cx, tvr.addr()))
return false;
*objp = &tvr.value().toObject();
return true;
}
bool
JSCompartment::wrapId(JSContext *cx, jsid *idp)
{
if (JSID_IS_INT(*idp))
return true;
AutoValueRooter tvr(cx, IdToValue(*idp));
if (!wrap(cx, tvr.addr()))
return false;
return ValueToId(cx, tvr.value(), idp);
}
bool
JSCompartment::wrap(JSContext *cx, PropertyOp *propp)
{
Value v = CastAsObjectJsval(*propp);
if (!wrap(cx, &v))
return false;
*propp = CastAsPropertyOp(v.toObjectOrNull());
return true;
}
bool
JSCompartment::wrap(JSContext *cx, StrictPropertyOp *propp)
{
Value v = CastAsObjectJsval(*propp);
if (!wrap(cx, &v))
return false;
*propp = CastAsStrictPropertyOp(v.toObjectOrNull());
return true;
}
bool
JSCompartment::wrap(JSContext *cx, PropertyDescriptor *desc)
{
return wrap(cx, &desc->obj) &&
(!(desc->attrs & JSPROP_GETTER) || wrap(cx, &desc->getter)) &&
(!(desc->attrs & JSPROP_SETTER) || wrap(cx, &desc->setter)) &&
wrap(cx, &desc->value);
}
bool
JSCompartment::wrap(JSContext *cx, AutoIdVector &props)
{
jsid *vector = props.begin();
jsint length = props.length();
for (size_t n = 0; n < size_t(length); ++n) {
if (!wrapId(cx, &vector[n]))
return false;
}
return true;
}
/*
* This method marks pointers that cross compartment boundaries. It should be
* called only for per-compartment GCs, since full GCs naturally follow pointers
* across compartments.
*/
void
JSCompartment::markCrossCompartmentWrappers(JSTracer *trc)
{
JS_ASSERT(trc->context->runtime->gcCurrentCompartment);
for (WrapperMap::Enum e(crossCompartmentWrappers); !e.empty(); e.popFront())
MarkValue(trc, e.front().key, "cross-compartment wrapper");
}
void
JSCompartment::markTypes(JSTracer *trc)
{
/*
* Mark all scripts, type objects and singleton JS objects in the
* compartment. These can be referred to directly by type sets, which we
* cannot modify while code which depends on these type sets is active.
*/
JS_ASSERT(activeAnalysis);
for (CellIterUnderGC i(this, FINALIZE_SCRIPT); !i.done(); i.next()) {
JSScript *script = i.get<JSScript>();
MarkScript(trc, script, "mark_types_script");
}
for (size_t thingKind = FINALIZE_OBJECT0;
thingKind <= FINALIZE_FUNCTION_AND_OBJECT_LAST;
thingKind++) {
for (CellIterUnderGC i(this, AllocKind(thingKind)); !i.done(); i.next()) {
JSObject *object = i.get<JSObject>();
if (!object->isNewborn() && object->hasSingletonType())
MarkObject(trc, *object, "mark_types_singleton");
}
}
for (CellIterUnderGC i(this, FINALIZE_TYPE_OBJECT); !i.done(); i.next())
MarkTypeObject(trc, i.get<types::TypeObject>(), "mark_types_scan");
}
void
JSCompartment::sweep(JSContext *cx, bool releaseTypes)
{
/* Remove dead wrappers from the table. */
for (WrapperMap::Enum e(crossCompartmentWrappers); !e.empty(); e.popFront()) {
JS_ASSERT_IF(IsAboutToBeFinalized(cx, e.front().key.toGCThing()) &&
!IsAboutToBeFinalized(cx, e.front().value.toGCThing()),
e.front().key.isString());
if (IsAboutToBeFinalized(cx, e.front().key.toGCThing()) ||
IsAboutToBeFinalized(cx, e.front().value.toGCThing())) {
e.removeFront();
}
}
/* Remove dead empty shapes. */
if (emptyArgumentsShape && IsAboutToBeFinalized(cx, emptyArgumentsShape))
emptyArgumentsShape = NULL;
if (emptyBlockShape && IsAboutToBeFinalized(cx, emptyBlockShape))
emptyBlockShape = NULL;
if (emptyCallShape && IsAboutToBeFinalized(cx, emptyCallShape))
emptyCallShape = NULL;
if (emptyDeclEnvShape && IsAboutToBeFinalized(cx, emptyDeclEnvShape))
emptyDeclEnvShape = NULL;
if (emptyEnumeratorShape && IsAboutToBeFinalized(cx, emptyEnumeratorShape))
emptyEnumeratorShape = NULL;
if (emptyWithShape && IsAboutToBeFinalized(cx, emptyWithShape))
emptyWithShape = NULL;
if (initialRegExpShape && IsAboutToBeFinalized(cx, initialRegExpShape))
initialRegExpShape = NULL;
if (initialStringShape && IsAboutToBeFinalized(cx, initialStringShape))
initialStringShape = NULL;
sweepBreakpoints(cx);
#ifdef JS_TRACER
if (hasTraceMonitor())
traceMonitor()->sweep(cx);
#endif
/*
* Kick all frames on the stack into the interpreter, and release all JIT
* code in the compartment.
*/
#ifdef JS_METHODJIT
mjit::ClearAllFrames(this);
for (CellIterUnderGC i(this, FINALIZE_SCRIPT); !i.done(); i.next()) {
JSScript *script = i.get<JSScript>();
mjit::ReleaseScriptCode(cx, script);
/*
* Use counts for scripts are reset on GC. After discarding code we
* need to let it warm back up to get information like which opcodes
* are setting array holes or accessing getter properties.
*/
script->resetUseCount();
}
#endif
if (!activeAnalysis) {
/*
* Clear the analysis pool, but don't release its data yet. While
* sweeping types any live data will be allocated into the pool.
*/
LifoAlloc oldAlloc(typeLifoAlloc.defaultChunkSize());
oldAlloc.steal(&typeLifoAlloc);
/*
* Periodically release observed types for all scripts. This is safe to
* do when there are no frames for the compartment on the stack.
*/
if (active)
releaseTypes = false;
/*
* Sweep analysis information and everything depending on it from the
* compartment, including all remaining mjit code if inference is
* enabled in the compartment.
*/
if (types.inferenceEnabled) {
for (CellIterUnderGC i(this, FINALIZE_SCRIPT); !i.done(); i.next()) {
JSScript *script = i.get<JSScript>();
if (script->types) {
types::TypeScript::Sweep(cx, script);
if (releaseTypes) {
script->types->destroy();
script->types = NULL;
script->typesPurged = true;
}
}
}
}
types.sweep(cx);
for (CellIterUnderGC i(this, FINALIZE_SCRIPT); !i.done(); i.next()) {
JSScript *script = i.get<JSScript>();
script->clearAnalysis();
}
}
active = false;
}
void
JSCompartment::purge(JSContext *cx)
{
arenas.purge();
dtoaCache.purge();
/*
* Clear the hash and reset all evalHashLink to null before the GC. This
* way MarkChildren(trc, JSScript *) can assume that JSScript::u.object is
* not null when we have script owned by an object and not from the eval
* cache.
*/
for (size_t i = 0; i < ArrayLength(evalCache); ++i) {
for (JSScript **listHeadp = &evalCache[i]; *listHeadp; ) {
JSScript *script = *listHeadp;
JS_ASSERT(GetGCThingTraceKind(script) == JSTRACE_SCRIPT);
*listHeadp = NULL;
listHeadp = &script->u.evalHashLink;
}
}
nativeIterCache.purge();
toSourceCache.destroyIfConstructed();
#ifdef JS_TRACER
/*
* If we are about to regenerate shapes, we have to flush the JIT cache,
* which will eventually abort any current recording.
*/
if (cx->runtime->gcRegenShapes)
if (hasTraceMonitor())
traceMonitor()->needFlush = JS_TRUE;
#endif
}
MathCache *
JSCompartment::allocMathCache(JSContext *cx)
{
JS_ASSERT(!mathCache);
mathCache = cx->new_<MathCache>();
if (!mathCache)
js_ReportOutOfMemory(cx);
return mathCache;
}
#ifdef JS_TRACER
TraceMonitor *
JSCompartment::allocAndInitTraceMonitor(JSContext *cx)
{
JS_ASSERT(!traceMonitor_);
traceMonitor_ = cx->new_<TraceMonitor>();
if (!traceMonitor_)
return NULL;
if (!traceMonitor_->init(cx->runtime)) {
Foreground::delete_(traceMonitor_);
return NULL;
}
return traceMonitor_;
}
#endif
size_t
JSCompartment::backEdgeCount(jsbytecode *pc) const
{
if (BackEdgeMap::Ptr p = backEdgeTable.lookup(pc))
return p->value;
return 0;
}
size_t
JSCompartment::incBackEdgeCount(jsbytecode *pc)
{
if (BackEdgeMap::Ptr p = backEdgeTable.lookupWithDefault(pc, 0))
return ++p->value;
return 1; /* oom not reported by backEdgeTable, so ignore. */
}
bool
JSCompartment::hasScriptsOnStack(JSContext *cx)
{
for (AllFramesIter i(cx->stack.space()); !i.done(); ++i) {
JSScript *script = i.fp()->maybeScript();
if (script && script->compartment() == this)
return true;
}
return false;
}
bool
JSCompartment::setDebugModeFromC(JSContext *cx, bool b)
{
bool enabledBefore = debugMode();
bool enabledAfter = (debugModeBits & ~uintN(DebugFromC)) || b;
// Debug mode can be enabled only when no scripts from the target
// compartment are on the stack. It would even be incorrect to discard just
// the non-live scripts' JITScripts because they might share ICs with live
// scripts (bug 632343).
//
// We do allow disabling debug mode while scripts are on the stack. In
// that case the debug-mode code for those scripts remains, so subsequently
// hooks may be called erroneously, even though debug mode is supposedly
// off, and we have to live with it.
//
bool onStack = false;
if (enabledBefore != enabledAfter) {
onStack = hasScriptsOnStack(cx);
if (b && onStack) {
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_DEBUG_NOT_IDLE);
return false;
}
}
debugModeBits = (debugModeBits & ~uintN(DebugFromC)) | (b ? DebugFromC : 0);
JS_ASSERT(debugMode() == enabledAfter);
if (enabledBefore != enabledAfter)
updateForDebugMode(cx);
return true;
}
void
JSCompartment::updateForDebugMode(JSContext *cx)
{
for (ThreadContextRange r(cx); !r.empty(); r.popFront()) {
JSContext *cx = r.front();
if (cx->compartment == this)
cx->updateJITEnabled();
}
#ifdef JS_METHODJIT
bool enabled = debugMode();
if (enabled) {
JS_ASSERT(!hasScriptsOnStack(cx));
} else if (hasScriptsOnStack(cx)) {
hasDebugModeCodeToDrop = true;
return;
}
/*
* Discard JIT code for any scripts that change debugMode. This assumes
* that 'comp' is in the same thread as 'cx'.
*/
for (gc::CellIter i(cx, this, gc::FINALIZE_SCRIPT); !i.done(); i.next()) {
JSScript *script = i.get<JSScript>();
if (script->debugMode != enabled) {
mjit::ReleaseScriptCode(cx, script);
script->debugMode = enabled;
}
}
hasDebugModeCodeToDrop = false;
#endif
}
bool
JSCompartment::addDebuggee(JSContext *cx, js::GlobalObject *global)
{
bool wasEnabled = debugMode();
if (!debuggees.put(global)) {
js_ReportOutOfMemory(cx);
return false;
}
debugModeBits |= DebugFromJS;
if (!wasEnabled)
updateForDebugMode(cx);
return true;
}
void
JSCompartment::removeDebuggee(JSContext *cx,
js::GlobalObject *global,
js::GlobalObjectSet::Enum *debuggeesEnum)
{
bool wasEnabled = debugMode();
JS_ASSERT(debuggees.has(global));
if (debuggeesEnum)
debuggeesEnum->removeFront();
else
debuggees.remove(global);
if (debuggees.empty()) {
debugModeBits &= ~DebugFromJS;
if (wasEnabled && !debugMode())
updateForDebugMode(cx);
}
}
BreakpointSite *
JSCompartment::getBreakpointSite(jsbytecode *pc)
{
BreakpointSiteMap::Ptr p = breakpointSites.lookup(pc);
return p ? p->value : NULL;
}
BreakpointSite *
JSCompartment::getOrCreateBreakpointSite(JSContext *cx, JSScript *script, jsbytecode *pc,
GlobalObject *scriptGlobal)
{
JS_ASSERT(script->code <= pc);
JS_ASSERT(pc < script->code + script->length);
BreakpointSiteMap::AddPtr p = breakpointSites.lookupForAdd(pc);
if (!p) {
BreakpointSite *site = cx->runtime->new_<BreakpointSite>(script, pc);
if (!site || !breakpointSites.add(p, pc, site)) {
js_ReportOutOfMemory(cx);
return NULL;
}
}
BreakpointSite *site = p->value;
if (site->scriptGlobal)
JS_ASSERT_IF(scriptGlobal, site->scriptGlobal == scriptGlobal);
else
site->scriptGlobal = scriptGlobal;
return site;
}
void
JSCompartment::clearBreakpointsIn(JSContext *cx, js::Debugger *dbg, JSScript *script,
JSObject *handler)
{
JS_ASSERT_IF(script, script->compartment() == this);
for (BreakpointSiteMap::Enum e(breakpointSites); !e.empty(); e.popFront()) {
BreakpointSite *site = e.front().value;
if (!script || site->script == script) {
Breakpoint *nextbp;
for (Breakpoint *bp = site->firstBreakpoint(); bp; bp = nextbp) {
nextbp = bp->nextInSite();
if ((!dbg || bp->debugger == dbg) && (!handler || bp->getHandler() == handler))
bp->destroy(cx, &e);
}
}
}
}
void
JSCompartment::clearTraps(JSContext *cx, JSScript *script)
{
for (BreakpointSiteMap::Enum e(breakpointSites); !e.empty(); e.popFront()) {
BreakpointSite *site = e.front().value;
if (!script || site->script == script)
site->clearTrap(cx, &e);
}
}
bool
JSCompartment::markTrapClosuresIteratively(JSTracer *trc)
{
bool markedAny = false;
JSContext *cx = trc->context;
for (BreakpointSiteMap::Range r = breakpointSites.all(); !r.empty(); r.popFront()) {
BreakpointSite *site = r.front().value;
// Put off marking trap state until we know the script is live.
if (site->trapHandler && !IsAboutToBeFinalized(cx, site->script)) {
if (site->trapClosure.isMarkable() &&
IsAboutToBeFinalized(cx, site->trapClosure.toGCThing()))
{
markedAny = true;
}
MarkValue(trc, site->trapClosure, "trap closure");
}
}
return markedAny;
}
void
JSCompartment::sweepBreakpoints(JSContext *cx)
{
for (BreakpointSiteMap::Enum e(breakpointSites); !e.empty(); e.popFront()) {
BreakpointSite *site = e.front().value;
// clearTrap and nextbp are necessary here to avoid possibly
// reading *site or *bp after destroying it.
bool scriptGone = IsAboutToBeFinalized(cx, site->script);
bool clearTrap = scriptGone && site->hasTrap();
Breakpoint *nextbp;
for (Breakpoint *bp = site->firstBreakpoint(); bp; bp = nextbp) {
nextbp = bp->nextInSite();
if (scriptGone || IsAboutToBeFinalized(cx, bp->debugger->toJSObject()))
bp->destroy(cx, &e);
}
if (clearTrap)
site->clearTrap(cx, &e);
}
}
