示例#1
0
bool
JSCompartment::wrap(JSContext *cx, JSString **strp)
{
    JS_ASSERT(!cx->runtime()->isAtomsCompartment(this));
    JS_ASSERT(cx->compartment() == this);

    /* If the string is already in this compartment, we are done. */
    JSString *str = *strp;
    if (str->zone() == zone())
        return true;

    /* If the string is an atom, we don't have to copy. */
    if (str->isAtom()) {
        JS_ASSERT(cx->runtime()->isAtomsZone(str->zone()));
        return true;
    }

    /* Check the cache. */
    RootedValue key(cx, StringValue(str));
    if (WrapperMap::Ptr p = crossCompartmentWrappers.lookup(key)) {
        *strp = p->value().get().toString();
        return true;
    }

    /*
     * No dice. Make a copy, and cache it. Directly allocate the copy in the
     * destination compartment, rather than first flattening it (and possibly
     * allocating in source compartment), because we don't know whether the
     * flattening will pay off later.
     */
    JSString *copy;
    if (str->hasPureChars()) {
        copy = js_NewStringCopyN<CanGC>(cx, str->pureChars(), str->length());
    } else {
        ScopedJSFreePtr<jschar> copiedChars;
        if (!str->copyNonPureCharsZ(cx, copiedChars))
            return false;
        copy = js_NewString<CanGC>(cx, copiedChars.forget(), str->length());
    }

    if (!copy)
        return false;
    if (!putWrapper(cx, key, StringValue(copy)))
        return false;

    *strp = copy;
    return true;
}
示例#2
0
void JSString::visitChildren(JSCell* cell, SlotVisitor& visitor)
{
    JSString* thisObject = jsCast<JSString*>(cell);
    Base::visitChildren(thisObject, visitor);
    
    MARK_LOG_MESSAGE1("[%u]: ", thisObject->length());

#if ENABLE(OBJECT_MARK_LOGGING)
    if (!thisObject->isRope()) {
        WTF::StringImpl* ourImpl = thisObject->m_value.impl();
        if (ourImpl->is8Bit())
            MARK_LOG_MESSAGE1("[8 %p]", ourImpl->characters8());
        else
            MARK_LOG_MESSAGE1("[16 %p]", ourImpl->characters16());
    } else
        MARK_LOG_MESSAGE0("[rope]: ");
#endif

    if (thisObject->isRope())
        static_cast<JSRopeString*>(thisObject)->visitFibers(visitor);
    else {
        StringImpl* impl = thisObject->m_value.impl();
        ASSERT(impl);
        visitor.reportExtraMemoryUsage(impl->costDuringGC());
    }
}
示例#3
0
// Overview: These functions convert a JSString from holding a string in rope form
// down to a simple String representation. It does so by building up the string
// backwards, since we want to avoid recursion, we expect that the tree structure
// representing the rope is likely imbalanced with more nodes down the left side
// (since appending to the string is likely more common) - and as such resolving
// in this fashion should minimize work queue size.  (If we built the queue forwards
// we would likely have to place all of the constituent StringImpls into the
// Vector before performing any concatenation, but by working backwards we likely
// only fill the queue with the number of substrings at any given level in a
// rope-of-ropes.)    
void JSRopeString::resolveRopeSlowCase8(LChar* buffer) const
{
    LChar* position = buffer + length(); // We will be working backwards over the rope.
    Vector<JSString*, 32, UnsafeVectorOverflow> workQueue; // Putting strings into a Vector is only OK because there are no GC points in this method.
    
    for (size_t i = 0; i < s_maxInternalRopeLength && fiber(i); ++i)
        workQueue.append(fiber(i).get());

    while (!workQueue.isEmpty()) {
        JSString* currentFiber = workQueue.last();
        workQueue.removeLast();

        const LChar* characters;
        
        if (currentFiber->isRope()) {
            JSRopeString* currentFiberAsRope = static_cast<JSRopeString*>(currentFiber);
            if (!currentFiberAsRope->isSubstring()) {
                for (size_t i = 0; i < s_maxInternalRopeLength && currentFiberAsRope->fiber(i); ++i)
                    workQueue.append(currentFiberAsRope->fiber(i).get());
                continue;
            }
            ASSERT(!currentFiberAsRope->substringBase()->isRope());
            characters =
                currentFiberAsRope->substringBase()->m_value.characters8() +
                currentFiberAsRope->substringOffset();
        } else
            characters = currentFiber->m_value.characters8();
        
        unsigned length = currentFiber->length();
        position -= length;
        StringImpl::copyChars(position, characters, length);
    }

    ASSERT(buffer == position);
}
示例#4
0
JSBool
EvalScriptVersion16(JSContext *cx, uintN argc, jsval *vp)
{
    JS_ASSERT(argc == 1);
    jsval *argv = JS_ARGV(cx, vp);
    JS_ASSERT(JSVAL_IS_STRING(argv[0]));
    JSString *str = JSVAL_TO_STRING(argv[0]);
    const jschar *chars = str->getChars(cx);
    JS_ASSERT(chars);
    size_t len = str->length();
    return callbackData->evalVersion(chars, len, JSVERSION_1_6);
}
示例#5
0
static TriState equalToSingleCharacter(JSValue value, UChar character)
{
    if (!value.isString())
        return FalseTriState;
    
    JSString* jsString = asString(value);
    if (jsString->length() != 1)
        return FalseTriState;
    
    const StringImpl* string = jsString->tryGetValueImpl();
    if (!string)
        return MixedTriState;
    
    return triState(string->at(0) == character);
}
示例#6
0
JSObjectRef JSFunction::MakeFunction(const JSContext& js_context, const JSString& body, const std::vector<JSString>& parameter_names, const JSString& function_name, const JSString& source_url, int starting_line_number) {
	JSValueRef exception { nullptr };
	JSStringRef source_url_ref = (source_url.length() > 0) ? static_cast<JSStringRef>(source_url) : nullptr;
	JSObjectRef js_object_ref = nullptr;
	if (!parameter_names.empty()) {
		std::vector<JSStringRef> parameter_name_array = detail::to_vector(parameter_names);
		js_object_ref = JSObjectMakeFunction(static_cast<JSContextRef>(js_context), static_cast<JSStringRef>(function_name), static_cast<unsigned>(parameter_name_array.size()), &parameter_name_array[0], static_cast<JSStringRef>(body), source_url_ref, starting_line_number, &exception);
	} else {
		js_object_ref = JSObjectMakeFunction(static_cast<JSContextRef>(js_context), static_cast<JSStringRef>(function_name), 0, nullptr, static_cast<JSStringRef>(body), source_url_ref, starting_line_number, &exception);
	}
	
	if (exception) {
		// If this assert fails then we need to JSValueUnprotect
		// js_object_ref.
		assert(!js_object_ref);
		detail::ThrowRuntimeError("JSFunction", JSValue(js_context, exception));
	}

	return js_object_ref;
}
示例#7
0
/**
 * Handles an assertion failure in self-hosted code just like an assertion
 * failure in C++ code. Information about the failure can be provided in args[0].
 */
static bool
intrinsic_AssertionFailed(JSContext *cx, unsigned argc, Value *vp)
{
#ifdef DEBUG
    CallArgs args = CallArgsFromVp(argc, vp);
    if (args.length() > 0) {
        // try to dump the informative string
        JSString *str = ToString<CanGC>(cx, args[0]);
        if (str) {
            const jschar *chars = str->getChars(cx);
            if (chars) {
                fprintf(stderr, "Self-hosted JavaScript assertion info: ");
                JSString::dumpChars(chars, str->length());
                fputc('\n', stderr);
            }
        }
    }
#endif
    JS_ASSERT(false);
    return false;
}
示例#8
0
bool
GetPropIRGenerator::tryAttachStringChar(ValOperandId valId, ValOperandId indexId)
{
    MOZ_ASSERT(idVal_.isInt32());

    if (!val_.isString())
        return false;

    JSString* str = val_.toString();
    int32_t index = idVal_.toInt32();
    if (size_t(index) >= str->length() ||
        !str->isLinear() ||
        str->asLinear().latin1OrTwoByteChar(index) >= StaticStrings::UNIT_STATIC_LIMIT)
    {
        return false;
    }

    StringOperandId strId = writer.guardIsString(valId);
    Int32OperandId int32IndexId = writer.guardIsInt32(indexId);
    writer.loadStringCharResult(strId, int32IndexId);
    writer.returnFromIC();
    return true;
}
示例#9
0
文件: json.cpp 项目: 3l13/APE_Server
static JSBool
JO(JSContext *cx, Value *vp, StringifyContext *scx)
{
    JSObject *obj = &vp->toObject();

    CycleDetector detect(scx, obj);
    if (!detect.init(cx))
        return JS_FALSE;

    if (!scx->sb.append('{'))
        return JS_FALSE;

    Value vec[3] = { NullValue(), NullValue(), NullValue() };
    AutoArrayRooter tvr(cx, JS_ARRAY_LENGTH(vec), vec);
    Value& outputValue = vec[0];
    Value& whitelistElement = vec[1];
    AutoIdRooter idr(cx);
    jsid& id = *idr.addr();

    Value *keySource = vp;
    bool usingWhitelist = false;

    // if the replacer is an array, we use the keys from it
    if (scx->replacer && JS_IsArrayObject(cx, scx->replacer)) {
        usingWhitelist = true;
        vec[2].setObject(*scx->replacer);
        keySource = &vec[2];
    }

    JSBool memberWritten = JS_FALSE;
    AutoIdVector props(cx);
    if (!GetPropertyNames(cx, &keySource->toObject(), JSITER_OWNONLY, &props))
        return JS_FALSE;

    for (size_t i = 0, len = props.length(); i < len; i++) {
        outputValue.setUndefined();

        if (!usingWhitelist) {
            if (!js_ValueToStringId(cx, IdToValue(props[i]), &id))
                return JS_FALSE;
        } else {
            // skip non-index properties
            jsuint index = 0;
            if (!js_IdIsIndex(props[i], &index))
                continue;

            if (!scx->replacer->getProperty(cx, props[i], &whitelistElement))
                return JS_FALSE;

            if (!js_ValueToStringId(cx, whitelistElement, &id))
                return JS_FALSE;
        }

        // We should have a string id by this point. Either from 
        // JS_Enumerate's id array, or by converting an element
        // of the whitelist.
        JS_ASSERT(JSID_IS_ATOM(id));

        if (!JS_GetPropertyById(cx, obj, id, Jsvalify(&outputValue)))
            return JS_FALSE;

        if (outputValue.isObjectOrNull() && !js_TryJSON(cx, &outputValue))
            return JS_FALSE;

        // call this here, so we don't write out keys if the replacer function
        // wants to elide the value.
        if (!CallReplacerFunction(cx, id, obj, scx, &outputValue))
            return JS_FALSE;

        JSType type = JS_TypeOfValue(cx, Jsvalify(outputValue));

        // elide undefined values and functions and XML
        if (outputValue.isUndefined() || type == JSTYPE_FUNCTION || type == JSTYPE_XML)
            continue;

        // output a comma unless this is the first member to write
        if (memberWritten && !scx->sb.append(','))
            return JS_FALSE;
        memberWritten = JS_TRUE;

        if (!WriteIndent(cx, scx, scx->depth))
            return JS_FALSE;

        // Be careful below, this string is weakly rooted
        JSString *s = js_ValueToString(cx, IdToValue(id));
        if (!s)
            return JS_FALSE;

        JS::Anchor<JSString *> anchor(s);
        size_t length = s->length();
        const jschar *chars = s->getChars(cx);
        if (!chars)
            return JS_FALSE;

        if (!write_string(cx, scx->sb, chars, length) ||
            !scx->sb.append(':') ||
            !(scx->gap.empty() || scx->sb.append(' ')) ||
            !Str(cx, id, obj, scx, &outputValue, true)) {
            return JS_FALSE;
        }
    }

    if (memberWritten && !WriteIndent(cx, scx, scx->depth - 1))
        return JS_FALSE;

    return scx->sb.append('}');
}
示例#10
0
JS_GetTraceThingInfo(char* buf, size_t bufsize, JSTracer* trc, void* thing,
                     JS::TraceKind kind, bool details)
{
    const char* name = nullptr; /* silence uninitialized warning */
    size_t n;

    if (bufsize == 0)
        return;

    switch (kind) {
    case JS::TraceKind::Object:
    {
        name = static_cast<JSObject*>(thing)->getClass()->name;
        break;
    }

    case JS::TraceKind::Script:
        name = "script";
        break;

    case JS::TraceKind::String:
        name = ((JSString*)thing)->isDependent()
               ? "substring"
               : "string";
        break;

    case JS::TraceKind::Symbol:
        name = "symbol";
        break;

    case JS::TraceKind::BaseShape:
        name = "base_shape";
        break;

    case JS::TraceKind::JitCode:
        name = "jitcode";
        break;

    case JS::TraceKind::LazyScript:
        name = "lazyscript";
        break;

    case JS::TraceKind::Shape:
        name = "shape";
        break;

    case JS::TraceKind::ObjectGroup:
        name = "object_group";
        break;

    default:
        name = "INVALID";
        break;
    }

    n = strlen(name);
    if (n > bufsize - 1)
        n = bufsize - 1;
    js_memcpy(buf, name, n + 1);
    buf += n;
    bufsize -= n;
    *buf = '\0';

    if (details && bufsize > 2) {
        switch (kind) {
        case JS::TraceKind::Object:
        {
            JSObject* obj = (JSObject*)thing;
            if (obj->is<JSFunction>()) {
                JSFunction* fun = &obj->as<JSFunction>();
                if (fun->displayAtom()) {
                    *buf++ = ' ';
                    bufsize--;
                    PutEscapedString(buf, bufsize, fun->displayAtom(), 0);
                }
            } else if (obj->getClass()->flags & JSCLASS_HAS_PRIVATE) {
                JS_snprintf(buf, bufsize, " %p", obj->as<NativeObject>().getPrivate());
            } else {
                JS_snprintf(buf, bufsize, " <no private>");
            }
            break;
        }

        case JS::TraceKind::Script:
        {
            JSScript* script = static_cast<JSScript*>(thing);
            JS_snprintf(buf, bufsize, " %s:%" PRIuSIZE, script->filename(), script->lineno());
            break;
        }

        case JS::TraceKind::String:
        {
            *buf++ = ' ';
            bufsize--;
            JSString* str = (JSString*)thing;

            if (str->isLinear()) {
                bool willFit = str->length() + strlen("<length > ") +
                               CountDecimalDigits(str->length()) < bufsize;

                n = JS_snprintf(buf, bufsize, "<length %d%s> ",
                                (int)str->length(),
                                willFit ? "" : " (truncated)");
                buf += n;
                bufsize -= n;

                PutEscapedString(buf, bufsize, &str->asLinear(), 0);
            } else {
                JS_snprintf(buf, bufsize, "<rope: length %d>", (int)str->length());
            }
            break;
        }

        case JS::TraceKind::Symbol:
        {
            JS::Symbol* sym = static_cast<JS::Symbol*>(thing);
            if (JSString* desc = sym->description()) {
                if (desc->isLinear()) {
                    *buf++ = ' ';
                    bufsize--;
                    PutEscapedString(buf, bufsize, &desc->asLinear(), 0);
                } else {
                    JS_snprintf(buf, bufsize, "<nonlinear desc>");
                }
            } else {
                JS_snprintf(buf, bufsize, "<null>");
            }
            break;
        }

        default:
            break;
        }
    }
    buf[bufsize - 1] = '\0';
}
示例#11
0
bool
JSCompartment::wrap(JSContext *cx, Value *vp)
{
    JS_ASSERT(cx->compartment == this);

    unsigned flags = 0;

    JS_CHECK_RECURSION(cx, return false);

#ifdef DEBUG
    struct AutoDisableProxyCheck {
        JSRuntime *runtime;
        AutoDisableProxyCheck(JSRuntime *rt) : runtime(rt) {
            runtime->gcDisableStrictProxyCheckingCount++;
        }
        ~AutoDisableProxyCheck() { runtime->gcDisableStrictProxyCheckingCount--; }
    } adpc(rt);
#endif

    /* 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.
     */
    HandleObject global = cx->global();

    /* Unwrap incoming objects. */
    if (vp->isObject()) {
        Rooted<JSObject*> obj(cx, &vp->toObject());

        if (obj->compartment() == this)
            return WrapForSameCompartment(cx, obj, vp);

        /* Translate StopIteration singleton. */
        if (obj->isStopIteration()) {
            RootedValue vvp(cx, *vp);
            bool result = js_FindClassObject(cx, JSProto_StopIteration, &vvp);
            *vp = vvp;
            return result;
        }

        /* Unwrap the object, but don't unwrap outer windows. */
        obj = UnwrapObject(&vp->toObject(), /* stopAtOuter = */ true, &flags);

        if (obj->compartment() == this)
            return WrapForSameCompartment(cx, obj, vp);

        if (cx->runtime->preWrapObjectCallback) {
            obj = cx->runtime->preWrapObjectCallback(cx, global, obj, flags);
            if (!obj)
                return false;
        }

        if (obj->compartment() == this)
            return WrapForSameCompartment(cx, obj, vp);
        vp->setObject(*obj);

#ifdef DEBUG
        {
            JSObject *outer = GetOuterObject(cx, obj);
            JS_ASSERT(outer && outer == obj);
        }
#endif
    }

    RootedValue key(cx, *vp);

    /* If we already have a wrapper for this value, use it. */
    if (WrapperMap::Ptr p = crossCompartmentWrappers.lookup(key)) {
        *vp = p->value;
        if (vp->isObject()) {
            RootedObject obj(cx, &vp->toObject());
            JS_ASSERT(obj->isCrossCompartmentWrapper());
            if (obj->getParent() != global) {
                do {
                    if (!JSObject::setParent(cx, obj, global))
                        return false;
                    obj = obj->getProto();
                } while (obj && obj->isCrossCompartmentWrapper());
            }
        }
        return true;
    }

    if (vp->isString()) {
        RootedValue orig(cx, *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);
    }

    RootedObject obj(cx, &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).
     */
    RootedObject proto(cx, obj->getProto());
    if (!wrap(cx, proto.address()))
        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.
     */
    RootedObject wrapper(cx, cx->runtime->wrapObjectCallback(cx, obj, proto, global, flags));
    if (!wrapper)
        return false;

    // We maintain the invariant that the key in the cross-compartment wrapper
    // map is always directly wrapped by the value.
    JS_ASSERT(Wrapper::wrappedObject(wrapper) == &key.get().toObject());

    vp->setObject(*wrapper);

    if (!crossCompartmentWrappers.put(key, *vp))
        return false;

    return true;
}
示例#12
0
static void
StatsCellCallback(JSRuntime *rt, void *data, void *thing, JSGCTraceKind traceKind,
                  size_t thingSize)
{
    IteratorClosure *closure = static_cast<IteratorClosure *>(data);
    RuntimeStats *rtStats = closure->rtStats;
    ZoneStats *zStats = rtStats->currZoneStats;
    switch (traceKind) {
      case JSTRACE_OBJECT: {
        JSObject *obj = static_cast<JSObject *>(thing);
        CompartmentStats *cStats = GetCompartmentStats(obj->compartment());
        if (obj->is<JSFunction>())
            cStats->gcHeapObjectsFunction += thingSize;
        else if (obj->is<ArrayObject>())
            cStats->gcHeapObjectsDenseArray += thingSize;
        else if (obj->isCrossCompartmentWrapper())
            cStats->gcHeapObjectsCrossCompartmentWrapper += thingSize;
        else
            cStats->gcHeapObjectsOrdinary += thingSize;

        JS::ObjectsExtraSizes objectsExtra;
        obj->sizeOfExcludingThis(rtStats->mallocSizeOf_, &objectsExtra);
        cStats->objectsExtra.add(objectsExtra);

        // JSObject::sizeOfExcludingThis() doesn't measure objectsExtraPrivate,
        // so we do it here.
        if (ObjectPrivateVisitor *opv = closure->opv) {
            nsISupports *iface;
            if (opv->getISupports_(obj, &iface) && iface) {
                cStats->objectsExtra.private_ += opv->sizeOfIncludingThis(iface);
            }
        }
        break;
      }

      case JSTRACE_STRING: {
        JSString *str = static_cast<JSString *>(thing);

        size_t strSize = str->sizeOfExcludingThis(rtStats->mallocSizeOf_);

        // If we can't grow hugeStrings, let's just call this string non-huge.
        // We're probably about to OOM anyway.
        if (strSize >= JS::HugeStringInfo::MinSize() && zStats->hugeStrings.growBy(1)) {
            zStats->gcHeapStringsNormal += thingSize;
            JS::HugeStringInfo &info = zStats->hugeStrings.back();
            info.length = str->length();
            info.size = strSize;
            PutEscapedString(info.buffer, sizeof(info.buffer), &str->asLinear(), 0);
        } else if (str->isShort()) {
            MOZ_ASSERT(strSize == 0);
            zStats->gcHeapStringsShort += thingSize;
        } else {
            zStats->gcHeapStringsNormal += thingSize;
            zStats->stringCharsNonHuge += strSize;
        }
        break;
      }

      case JSTRACE_SHAPE: {
        Shape *shape = static_cast<Shape *>(thing);
        CompartmentStats *cStats = GetCompartmentStats(shape->compartment());
        size_t propTableSize, kidsSize;
        shape->sizeOfExcludingThis(rtStats->mallocSizeOf_, &propTableSize, &kidsSize);
        if (shape->inDictionary()) {
            cStats->gcHeapShapesDict += thingSize;
            cStats->shapesExtraDictTables += propTableSize;
            JS_ASSERT(kidsSize == 0);
        } else {
            if (shape->base()->getObjectParent() == shape->compartment()->maybeGlobal()) {
                cStats->gcHeapShapesTreeGlobalParented += thingSize;
            } else {
                cStats->gcHeapShapesTreeNonGlobalParented += thingSize;
            }
            cStats->shapesExtraTreeTables += propTableSize;
            cStats->shapesExtraTreeShapeKids += kidsSize;
        }
        break;
      }

      case JSTRACE_BASE_SHAPE: {
        BaseShape *base = static_cast<BaseShape *>(thing);
        CompartmentStats *cStats = GetCompartmentStats(base->compartment());
        cStats->gcHeapShapesBase += thingSize;
        break;
      }

      case JSTRACE_SCRIPT: {
        JSScript *script = static_cast<JSScript *>(thing);
        CompartmentStats *cStats = GetCompartmentStats(script->compartment());
        cStats->gcHeapScripts += thingSize;
        cStats->scriptData += script->sizeOfData(rtStats->mallocSizeOf_);
#ifdef JS_ION
        size_t baselineData = 0, baselineStubsFallback = 0;
        ion::SizeOfBaselineData(script, rtStats->mallocSizeOf_, &baselineData,
                                &baselineStubsFallback);
        cStats->baselineData += baselineData;
        cStats->baselineStubsFallback += baselineStubsFallback;
        cStats->ionData += ion::SizeOfIonData(script, rtStats->mallocSizeOf_);
#endif

        ScriptSource *ss = script->scriptSource();
        SourceSet::AddPtr entry = closure->seenSources.lookupForAdd(ss);
        if (!entry) {
            closure->seenSources.add(entry, ss); // Not much to be done on failure.
            rtStats->runtime.scriptSources += ss->sizeOfIncludingThis(rtStats->mallocSizeOf_);
        }
        break;
      }

      case JSTRACE_LAZY_SCRIPT: {
        LazyScript *lazy = static_cast<LazyScript *>(thing);
        zStats->gcHeapLazyScripts += thingSize;
        zStats->lazyScripts += lazy->sizeOfExcludingThis(rtStats->mallocSizeOf_);
        break;
      }

      case JSTRACE_IONCODE: {
#ifdef JS_ION
        zStats->gcHeapIonCodes += thingSize;
        // The code for a script is counted in ExecutableAllocator::sizeOfCode().
#endif
        break;
      }

      case JSTRACE_TYPE_OBJECT: {
        types::TypeObject *obj = static_cast<types::TypeObject *>(thing);
        zStats->gcHeapTypeObjects += thingSize;
        zStats->typeObjects += obj->sizeOfExcludingThis(rtStats->mallocSizeOf_);
        break;
      }

    }

    // Yes, this is a subtraction:  see StatsArenaCallback() for details.
    zStats->gcHeapUnusedGcThings -= thingSize;
}
示例#13
0
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;

    /* Static strings do not have to be wrapped. */
    if (vp->isString() && JSString::isStatic(vp->toString()))
        return true;

    /* Unwrap incoming objects. */
    if (vp->isObject()) {
        JSObject *obj = &vp->toObject();

        /* If the object is already in this compartment, we are done. */
        if (obj->getCompartment(cx) == this)
            return true;

        /* Don't unwrap an outer window proxy. */
        if (!obj->getClass()->ext.innerObject) {
            obj = vp->toObject().unwrap(&flags);
            OBJ_TO_OUTER_OBJECT(cx, obj);
            if (!obj)
                return false;

            vp->setObject(*obj);
        }

        /* If the wrapped object is already in this compartment, we are done. */
        if (obj->getCompartment(cx) == this)
            return true;
    }

    /* If we already have a wrapper for this value, use it. */
    if (WrapperMap::Ptr p = crossCompartmentWrappers.lookup(*vp)) {
        *vp = p->value;
        return true;
    }

    if (vp->isString()) {
        Value orig = *vp;
        JSString *str = vp->toString();
        JSString *wrapped = js_NewStringCopyN(cx, str->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, flags);
    if (!wrapper)
        return false;
    wrapper->setProto(proto);
    vp->setObject(*wrapper);
    if (!crossCompartmentWrappers.put(wrapper->getProxyPrivate(), *vp))
        return false;

    /*
     * 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 = cx->globalObject;
        OBJ_TO_INNER_OBJECT(cx, global);
        if (!global)
            return false;
    }

    wrapper->setParent(global);
    return true;
}
示例#14
0
JS_GetTraceThingInfo(char *buf, size_t bufsize, JSTracer *trc, void *thing,
                     JSGCTraceKind kind, bool details)
{
    const char *name = nullptr; /* silence uninitialized warning */
    size_t n;

    if (bufsize == 0)
        return;

    switch (kind) {
      case JSTRACE_OBJECT:
      {
        name = static_cast<JSObject *>(thing)->getClass()->name;
        break;
      }

      case JSTRACE_STRING:
        name = ((JSString *)thing)->isDependent()
               ? "substring"
               : "string";
        break;

      case JSTRACE_SCRIPT:
        name = "script";
        break;

      case JSTRACE_LAZY_SCRIPT:
        name = "lazyscript";
        break;

      case JSTRACE_JITCODE:
        name = "jitcode";
        break;

      case JSTRACE_SHAPE:
        name = "shape";
        break;

      case JSTRACE_BASE_SHAPE:
        name = "base_shape";
        break;

      case JSTRACE_TYPE_OBJECT:
        name = "type_object";
        break;
    }

    n = strlen(name);
    if (n > bufsize - 1)
        n = bufsize - 1;
    js_memcpy(buf, name, n + 1);
    buf += n;
    bufsize -= n;
    *buf = '\0';

    if (details && bufsize > 2) {
        switch (kind) {
          case JSTRACE_OBJECT:
          {
            JSObject *obj = (JSObject *)thing;
            if (obj->is<JSFunction>()) {
                JSFunction *fun = &obj->as<JSFunction>();
                if (fun->displayAtom()) {
                    *buf++ = ' ';
                    bufsize--;
                    PutEscapedString(buf, bufsize, fun->displayAtom(), 0);
                }
            } else if (obj->getClass()->flags & JSCLASS_HAS_PRIVATE) {
                JS_snprintf(buf, bufsize, " %p", obj->getPrivate());
            } else {
                JS_snprintf(buf, bufsize, " <no private>");
            }
            break;
          }

          case JSTRACE_STRING:
          {
            *buf++ = ' ';
            bufsize--;
            JSString *str = (JSString *)thing;

            if (str->isLinear()) {
                bool willFit = str->length() + strlen("<length > ") +
                               CountDecimalDigits(str->length()) < bufsize;

                n = JS_snprintf(buf, bufsize, "<length %d%s> ",
                                (int)str->length(),
                                willFit ? "" : " (truncated)");
                buf += n;
                bufsize -= n;

                PutEscapedString(buf, bufsize, &str->asLinear(), 0);
            }
            else
                JS_snprintf(buf, bufsize, "<rope: length %d>", (int)str->length());
            break;
          }

          case JSTRACE_SCRIPT:
          {
            JSScript *script = static_cast<JSScript *>(thing);
            JS_snprintf(buf, bufsize, " %s:%u", script->filename(), unsigned(script->lineno()));
            break;
          }

          case JSTRACE_LAZY_SCRIPT:
          case JSTRACE_JITCODE:
          case JSTRACE_SHAPE:
          case JSTRACE_BASE_SHAPE:
          case JSTRACE_TYPE_OBJECT:
            break;
        }
    }
    buf[bufsize - 1] = '\0';
}
static void
StatsCellCallback(JSRuntime *rt, void *data, void *thing, JSGCTraceKind traceKind,
                  size_t thingSize)
{
    IteratorClosure *closure = static_cast<IteratorClosure *>(data);
    RuntimeStats *rtStats = closure->rtStats;
    CompartmentStats *cStats = rtStats->currCompartmentStats;
    switch (traceKind) {
    case JSTRACE_OBJECT:
    {
        JSObject *obj = static_cast<JSObject *>(thing);
        if (obj->isFunction()) {
            cStats->gcHeapObjectsFunction += thingSize;
        } else if (obj->isDenseArray()) {
            cStats->gcHeapObjectsDenseArray += thingSize;
        } else if (obj->isSlowArray()) {
            cStats->gcHeapObjectsSlowArray += thingSize;
        } else if (obj->isCrossCompartmentWrapper()) {
            cStats->gcHeapObjectsCrossCompartmentWrapper += thingSize;
        } else {
            cStats->gcHeapObjectsOrdinary += thingSize;
        }
        size_t slotsSize, elementsSize, argumentsDataSize, regExpStaticsSize,
               propertyIteratorDataSize;
        obj->sizeOfExcludingThis(rtStats->mallocSizeOf, &slotsSize, &elementsSize,
                                 &argumentsDataSize, &regExpStaticsSize,
                                 &propertyIteratorDataSize);
        cStats->objectsExtraSlots += slotsSize;
        cStats->objectsExtraElements += elementsSize;
        cStats->objectsExtraArgumentsData += argumentsDataSize;
        cStats->objectsExtraRegExpStatics += regExpStaticsSize;
        cStats->objectsExtraPropertyIteratorData += propertyIteratorDataSize;

        if (ObjectPrivateVisitor *opv = closure->opv) {
            js::Class *clazz = js::GetObjectClass(obj);
            if (clazz->flags & JSCLASS_HAS_PRIVATE &&
                clazz->flags & JSCLASS_PRIVATE_IS_NSISUPPORTS)
            {
                cStats->objectsExtraPrivate += opv->sizeOfIncludingThis(GetObjectPrivate(obj));
            }
        }
        break;
    }
    case JSTRACE_STRING:
    {
        JSString *str = static_cast<JSString *>(thing);

        size_t strSize = str->sizeOfExcludingThis(rtStats->mallocSizeOf);

        // If we can't grow hugeStrings, let's just call this string non-huge.
        // We're probably about to OOM anyway.
        if (strSize >= HugeStringInfo::MinSize() && cStats->hugeStrings.growBy(1)) {
            cStats->gcHeapStringsNormal += thingSize;
            HugeStringInfo &info = cStats->hugeStrings.back();
            info.length = str->length();
            info.size = strSize;
            PutEscapedString(info.buffer, sizeof(info.buffer), &str->asLinear(), 0);
        } else if (str->isShort()) {
            MOZ_ASSERT(strSize == 0);
            cStats->gcHeapStringsShort += thingSize;
        } else {
            cStats->gcHeapStringsNormal += thingSize;
            cStats->stringCharsNonHuge += strSize;
        }
        break;
    }
    case JSTRACE_SHAPE:
    {
        Shape *shape = static_cast<Shape*>(thing);
        size_t propTableSize, kidsSize;
        shape->sizeOfExcludingThis(rtStats->mallocSizeOf, &propTableSize, &kidsSize);
        if (shape->inDictionary()) {
            cStats->gcHeapShapesDict += thingSize;
            cStats->shapesExtraDictTables += propTableSize;
            JS_ASSERT(kidsSize == 0);
        } else {
            if (shape->base()->getObjectParent() == shape->compartment()->maybeGlobal()) {
                cStats->gcHeapShapesTreeGlobalParented += thingSize;
            } else {
                cStats->gcHeapShapesTreeNonGlobalParented += thingSize;
            }
            cStats->shapesExtraTreeTables += propTableSize;
            cStats->shapesExtraTreeShapeKids += kidsSize;
        }
        break;
    }
    case JSTRACE_BASE_SHAPE:
    {
        cStats->gcHeapShapesBase += thingSize;
        break;
    }
    case JSTRACE_SCRIPT:
    {
        JSScript *script = static_cast<JSScript *>(thing);
        cStats->gcHeapScripts += thingSize;
        cStats->scriptData += script->sizeOfData(rtStats->mallocSizeOf);
#ifdef JS_METHODJIT
        cStats->jaegerData += script->sizeOfJitScripts(rtStats->mallocSizeOf);
# ifdef JS_ION
        cStats->ionData += ion::MemoryUsed(script, rtStats->mallocSizeOf);
# endif
#endif

        ScriptSource *ss = script->scriptSource();
        SourceSet::AddPtr entry = closure->seenSources.lookupForAdd(ss);
        if (!entry) {
            closure->seenSources.add(entry, ss); // Not much to be done on failure.
            rtStats->runtime.scriptSources += ss->sizeOfIncludingThis(rtStats->mallocSizeOf);
        }
        break;
    }
    case JSTRACE_IONCODE:
    {
#ifdef JS_METHODJIT
# ifdef JS_ION
        cStats->gcHeapIonCodes += thingSize;
        // The code for a script is counted in ExecutableAllocator::sizeOfCode().
# endif
#endif
        break;
    }
    case JSTRACE_TYPE_OBJECT:
    {
        types::TypeObject *obj = static_cast<types::TypeObject *>(thing);
        cStats->gcHeapTypeObjects += thingSize;
        obj->sizeOfExcludingThis(&cStats->typeInferenceSizes, rtStats->mallocSizeOf);
        break;
    }
#if JS_HAS_XML_SUPPORT
    case JSTRACE_XML:
    {
        cStats->gcHeapXML += thingSize;
        break;
    }
#endif
    }
    // Yes, this is a subtraction:  see StatsArenaCallback() for details.
    cStats->gcHeapUnusedGcThings -= thingSize;
}
示例#16
0
void
GCMarker::dumpConservativeRoots()
{
    if (!conservativeDumpFileName)
        return;

    FILE *fp;
    if (!strcmp(conservativeDumpFileName, "stdout")) {
        fp = stdout;
    } else if (!strcmp(conservativeDumpFileName, "stderr")) {
        fp = stderr;
    } else if (!(fp = fopen(conservativeDumpFileName, "aw"))) {
        fprintf(stderr,
                "Warning: cannot open %s to dump the conservative roots\n",
                conservativeDumpFileName);
        return;
    }

    conservativeStats.dump(fp);

    for (void **thingp = conservativeRoots.begin(); thingp != conservativeRoots.end(); ++thingp) {
        void *thing = thingp;
        fprintf(fp, "  %p: ", thing);
        
        switch (GetGCThingTraceKind(thing)) {
          default:
            JS_NOT_REACHED("Unknown trace kind");

          case JSTRACE_OBJECT: {
            JSObject *obj = (JSObject *) thing;
            fprintf(fp, "object %s", obj->getClass()->name);
            break;
          }
          case JSTRACE_SHAPE: {
            fprintf(fp, "shape");
            break;
          }
          case JSTRACE_STRING: {
            JSString *str = (JSString *) thing;
            if (str->isLinear()) {
                char buf[50];
                PutEscapedString(buf, sizeof buf, &str->asLinear(), '"');
                fprintf(fp, "string %s", buf);
            } else {
                fprintf(fp, "rope: length %d", (int)str->length());
            }
            break;
          }
# if JS_HAS_XML_SUPPORT
          case JSTRACE_XML: {
            JSXML *xml = (JSXML *) thing;
            fprintf(fp, "xml %u", (unsigned)xml->xml_class);
            break;
          }
# endif
        }
        fputc('\n', fp);
    }
    fputc('\n', fp);

    if (fp != stdout && fp != stderr)
        fclose(fp);
}
bool
JSCompartment::wrap(JSContext *cx, Value *vp)
{
    JS_ASSERT(cx->compartment == this);

    unsigned 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().global();
    } 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(), true, &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 {
                    if (!obj->setParent(cx, global))
                        return false;
                    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;

    if (!wrapper->setParent(cx, global))
        return false;
    return true;
}
示例#18
0
文件: Tracer.cpp 项目: servo/mozjs
JS_PUBLIC_API void JS_GetTraceThingInfo(char* buf, size_t bufsize,
                                        JSTracer* trc, void* thing,
                                        JS::TraceKind kind, bool details) {
  const char* name = nullptr; /* silence uninitialized warning */
  size_t n;

  if (bufsize == 0) {
    return;
  }

  switch (kind) {
    case JS::TraceKind::BaseShape:
      name = "base_shape";
      break;

    case JS::TraceKind::JitCode:
      name = "jitcode";
      break;

    case JS::TraceKind::LazyScript:
      name = "lazyscript";
      break;

    case JS::TraceKind::Null:
      name = "null_pointer";
      break;

    case JS::TraceKind::Object: {
      name = static_cast<JSObject*>(thing)->getClass()->name;
      break;
    }

    case JS::TraceKind::ObjectGroup:
      name = "object_group";
      break;

    case JS::TraceKind::RegExpShared:
      name = "reg_exp_shared";
      break;

    case JS::TraceKind::Scope:
      name = "scope";
      break;

    case JS::TraceKind::Script:
      name = "script";
      break;

    case JS::TraceKind::Shape:
      name = "shape";
      break;

    case JS::TraceKind::String:
      name = ((JSString*)thing)->isDependent() ? "substring" : "string";
      break;

    case JS::TraceKind::Symbol:
      name = "symbol";
      break;

#ifdef ENABLE_BIGINT
    case JS::TraceKind::BigInt:
      name = "BigInt";
      break;
#endif

    default:
      name = "INVALID";
      break;
  }

  n = strlen(name);
  if (n > bufsize - 1) {
    n = bufsize - 1;
  }
  js_memcpy(buf, name, n + 1);
  buf += n;
  bufsize -= n;
  *buf = '\0';

  if (details && bufsize > 2) {
    switch (kind) {
      case JS::TraceKind::Object: {
        JSObject* obj = (JSObject*)thing;
        if (obj->is<JSFunction>()) {
          JSFunction* fun = &obj->as<JSFunction>();
          if (fun->displayAtom()) {
            *buf++ = ' ';
            bufsize--;
            PutEscapedString(buf, bufsize, fun->displayAtom(), 0);
          }
        } else if (obj->getClass()->flags & JSCLASS_HAS_PRIVATE) {
          snprintf(buf, bufsize, " %p", obj->as<NativeObject>().getPrivate());
        } else {
          snprintf(buf, bufsize, " <no private>");
        }
        break;
      }

      case JS::TraceKind::Script: {
        JSScript* script = static_cast<JSScript*>(thing);
        snprintf(buf, bufsize, " %s:%u", script->filename(), script->lineno());
        break;
      }

      case JS::TraceKind::LazyScript: {
        LazyScript* script = static_cast<LazyScript*>(thing);
        snprintf(buf, bufsize, " %s:%u", script->filename(), script->lineno());
        break;
      }

      case JS::TraceKind::String: {
        *buf++ = ' ';
        bufsize--;
        JSString* str = (JSString*)thing;

        if (str->isLinear()) {
          const char* header = StringKindHeader(str);
          bool willFit = str->length() + strlen("<length > ") + strlen(header) +
                             CountDecimalDigits(str->length()) <
                         bufsize;

          n = snprintf(buf, bufsize, "<%slength %zu%s> ", header, str->length(),
                       willFit ? "" : " (truncated)");
          buf += n;
          bufsize -= n;

          PutEscapedString(buf, bufsize, &str->asLinear(), 0);
        } else {
          snprintf(buf, bufsize, "<rope: length %zu>", str->length());
        }
        break;
      }

      case JS::TraceKind::Symbol: {
        JS::Symbol* sym = static_cast<JS::Symbol*>(thing);
        if (JSString* desc = sym->description()) {
          if (desc->isLinear()) {
            *buf++ = ' ';
            bufsize--;
            PutEscapedString(buf, bufsize, &desc->asLinear(), 0);
          } else {
            snprintf(buf, bufsize, "<nonlinear desc>");
          }
        } else {
          snprintf(buf, bufsize, "<null>");
        }
        break;
      }

      case JS::TraceKind::Scope: {
        js::Scope* scope = static_cast<js::Scope*>(thing);
        snprintf(buf, bufsize, " %s", js::ScopeKindString(scope->kind()));
        break;
      }

      default:
        break;
    }
  }
  buf[bufsize - 1] = '\0';
}