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android / toolchain / benchmark / honeycomb / . / webkit / src / WebCore / bindings / js / JSDOMWindowCustom.cpp
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/*
* Copyright (C) 2007, 2008, 2009 Apple Inc. All rights reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "config.h"
#include "JSDOMWindowCustom.h"
#include "AtomicString.h"
#include "Base64.h"
#include "DOMWindow.h"
#include "Document.h"
#include "ExceptionCode.h"
#include "FloatRect.h"
#include "Frame.h"
#include "FrameLoadRequest.h"
#include "FrameLoader.h"
#include "FrameTree.h"
#include "FrameView.h"
#include "HTMLCollection.h"
#include "HTMLDocument.h"
#include "History.h"
#include "JSAudioConstructor.h"
#include "JSDOMWindowShell.h"
#include "JSEvent.h"
#include "JSEventListener.h"
#include "JSEventSourceConstructor.h"
#include "JSHTMLCollection.h"
#include "JSHistory.h"
#include "JSImageConstructor.h"
#include "JSLocation.h"
#include "JSMessageChannelConstructor.h"
#include "JSMessagePort.h"
#include "JSMessagePortCustom.h"
#include "JSOptionConstructor.h"
#if ENABLE(SHARED_WORKERS)
#include "JSSharedWorkerConstructor.h"
#endif
#if ENABLE(3D_CANVAS)
#include "JSCanvasArrayBufferConstructor.h"
#include "JSCanvasByteArrayConstructor.h"
#include "JSCanvasUnsignedByteArrayConstructor.h"
#include "JSCanvasIntArrayConstructor.h"
#include "JSCanvasUnsignedIntArrayConstructor.h"
#include "JSCanvasShortArrayConstructor.h"
#include "JSCanvasUnsignedShortArrayConstructor.h"
#include "JSCanvasFloatArrayConstructor.h"
#endif
#include "JSWebKitCSSMatrixConstructor.h"
#include "JSWebKitPointConstructor.h"
#if ENABLE(WEB_SOCKETS)
#include "JSWebSocketConstructor.h"
#endif
#include "JSWorkerConstructor.h"
#include "JSXMLHttpRequestConstructor.h"
#include "JSXSLTProcessorConstructor.h"
#include "Location.h"
#include "MediaPlayer.h"
#include "MessagePort.h"
#include "NotificationCenter.h"
#include "Page.h"
#include "PlatformScreen.h"
#include "RegisteredEventListener.h"
#include "ScheduledAction.h"
#include "ScriptController.h"
#include "SerializedScriptValue.h"
#include "Settings.h"
#include "SharedWorkerRepository.h"
#include "WindowFeatures.h"
#include <runtime/Error.h>
#include <runtime/JSFunction.h>
#include <runtime/JSObject.h>
#include <runtime/PrototypeFunction.h>
using namespace JSC;
namespace WebCore {
void JSDOMWindow::markChildren(MarkStack& markStack)
{
Base::markChildren(markStack);
impl()->markEventListeners(markStack);
JSGlobalData& globalData = *Heap::heap(this)->globalData();
markDOMObjectWrapper(markStack, globalData, impl()->optionalConsole());
markDOMObjectWrapper(markStack, globalData, impl()->optionalHistory());
markDOMObjectWrapper(markStack, globalData, impl()->optionalLocationbar());
markDOMObjectWrapper(markStack, globalData, impl()->optionalMenubar());
markDOMObjectWrapper(markStack, globalData, impl()->optionalNavigator());
markDOMObjectWrapper(markStack, globalData, impl()->optionalPersonalbar());
markDOMObjectWrapper(markStack, globalData, impl()->optionalScreen());
markDOMObjectWrapper(markStack, globalData, impl()->optionalScrollbars());
markDOMObjectWrapper(markStack, globalData, impl()->optionalSelection());
markDOMObjectWrapper(markStack, globalData, impl()->optionalStatusbar());
markDOMObjectWrapper(markStack, globalData, impl()->optionalToolbar());
markDOMObjectWrapper(markStack, globalData, impl()->optionalLocation());
#if ENABLE(DOM_STORAGE)
markDOMObjectWrapper(markStack, globalData, impl()->optionalSessionStorage());
markDOMObjectWrapper(markStack, globalData, impl()->optionalLocalStorage());
#endif
#if ENABLE(OFFLINE_WEB_APPLICATIONS)
markDOMObjectWrapper(markStack, globalData, impl()->optionalApplicationCache());
#endif
}
template<NativeFunction nativeFunction, int length>
JSValue nonCachingStaticFunctionGetter(ExecState* exec, const Identifier& propertyName, const PropertySlot&)
{
return new (exec) NativeFunctionWrapper(exec, exec->lexicalGlobalObject()->prototypeFunctionStructure(), length, propertyName, nativeFunction);
}
static JSValue childFrameGetter(ExecState* exec, const Identifier& propertyName, const PropertySlot& slot)
{
return toJS(exec, static_cast<JSDOMWindow*>(asObject(slot.slotBase()))->impl()->frame()->tree()->child(AtomicString(propertyName))->domWindow());
}
static JSValue indexGetter(ExecState* exec, const Identifier&, const PropertySlot& slot)
{
return toJS(exec, static_cast<JSDOMWindow*>(asObject(slot.slotBase()))->impl()->frame()->tree()->child(slot.index())->domWindow());
}
static JSValue namedItemGetter(ExecState* exec, const Identifier& propertyName, const PropertySlot& slot)
{
JSDOMWindowBase* thisObj = static_cast<JSDOMWindow*>(asObject(slot.slotBase()));
Document* document = thisObj->impl()->frame()->document();
ASSERT(thisObj->allowsAccessFrom(exec));
ASSERT(document);
ASSERT(document->isHTMLDocument());
RefPtr<HTMLCollection> collection = document->windowNamedItems(propertyName);
if (collection->length() == 1)
return toJS(exec, collection->firstItem());
return toJS(exec, collection.get());
}
bool JSDOMWindow::getOwnPropertySlot(ExecState* exec, const Identifier& propertyName, PropertySlot& slot)
{
// When accessing a Window cross-domain, functions are always the native built-in ones, and they
// are not affected by properties changed on the Window or anything in its prototype chain.
// This is consistent with the behavior of Firefox.
const HashEntry* entry;
// We don't want any properties other than "close" and "closed" on a closed window.
if (!impl()->frame()) {
// The following code is safe for cross-domain and same domain use.
// It ignores any custom properties that might be set on the DOMWindow (including a custom prototype).
entry = s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry && !(entry->attributes() & Function) && entry->propertyGetter() == jsDOMWindowClosed) {
slot.setCustom(this, entry->propertyGetter());
return true;
}
entry = JSDOMWindowPrototype::s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry && (entry->attributes() & Function) && entry->function() == jsDOMWindowPrototypeFunctionClose) {
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionClose, 0>);
return true;
}
// FIXME: We should have a message here that explains why the property access/function call was
// not allowed.
slot.setUndefined();
return true;
}
// We need to check for cross-domain access here without printing the generic warning message
// because we always allow access to some function, just different ones depending whether access
// is allowed.
String errorMessage;
bool allowsAccess = allowsAccessFrom(exec, errorMessage);
// Look for overrides before looking at any of our own properties, but ignore overrides completely
// if this is cross-domain access.
if (allowsAccess && JSGlobalObject::getOwnPropertySlot(exec, propertyName, slot))
return true;
// We need this code here because otherwise JSDOMWindowBase will stop the search before we even get to the
// prototype due to the blanket same origin (allowsAccessFrom) check at the end of getOwnPropertySlot.
// Also, it's important to get the implementation straight out of the DOMWindow prototype regardless of
// what prototype is actually set on this object.
entry = JSDOMWindowPrototype::s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry) {
if (entry->attributes() & Function) {
if (entry->function() == jsDOMWindowPrototypeFunctionBlur) {
if (!allowsAccess) {
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionBlur, 0>);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionClose) {
if (!allowsAccess) {
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionClose, 0>);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionFocus) {
if (!allowsAccess) {
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionFocus, 0>);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionPostMessage) {
if (!allowsAccess) {
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionPostMessage, 2>);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionShowModalDialog) {
if (!DOMWindow::canShowModalDialog(impl()->frame())) {
slot.setUndefined();
return true;
}
}
}
} else {
// Allow access to toString() cross-domain, but always Object.prototype.toString.
if (propertyName == exec->propertyNames().toString) {
if (!allowsAccess) {
slot.setCustom(this, objectToStringFunctionGetter);
return true;
}
}
}
entry = JSDOMWindow::s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry) {
slot.setCustom(this, entry->propertyGetter());
return true;
}
// Check for child frames by name before built-in properties to
// match Mozilla. This does not match IE, but some sites end up
// naming frames things that conflict with window properties that
// are in Moz but not IE. Since we have some of these, we have to do
// it the Moz way.
if (impl()->frame()->tree()->child(propertyName)) {
slot.setCustom(this, childFrameGetter);
return true;
}
// Do prototype lookup early so that functions and attributes in the prototype can have
// precedence over the index and name getters.
JSValue proto = prototype();
if (proto.isObject()) {
if (asObject(proto)->getPropertySlot(exec, propertyName, slot)) {
if (!allowsAccess) {
printErrorMessage(errorMessage);
slot.setUndefined();
}
return true;
}
}
// FIXME: Search the whole frame hierachy somewhere around here.
// We need to test the correct priority order.
// allow window[1] or parent[1] etc. (#56983)
bool ok;
unsigned i = propertyName.toArrayIndex(&ok);
if (ok && i < impl()->frame()->tree()->childCount()) {
slot.setCustomIndex(this, i, indexGetter);
return true;
}
if (!allowsAccess) {
printErrorMessage(errorMessage);
slot.setUndefined();
return true;
}
// Allow shortcuts like 'Image1' instead of document.images.Image1
Document* document = impl()->frame()->document();
if (document->isHTMLDocument()) {
AtomicStringImpl* atomicPropertyName = AtomicString::find(propertyName);
if (atomicPropertyName && (static_cast<HTMLDocument*>(document)->hasNamedItem(atomicPropertyName) || document->hasElementWithId(atomicPropertyName))) {
slot.setCustom(this, namedItemGetter);
return true;
}
}
return Base::getOwnPropertySlot(exec, propertyName, slot);
}
bool JSDOMWindow::getOwnPropertyDescriptor(ExecState* exec, const Identifier& propertyName, PropertyDescriptor& descriptor)
{
// When accessing a Window cross-domain, functions are always the native built-in ones, and they
// are not affected by properties changed on the Window or anything in its prototype chain.
// This is consistent with the behavior of Firefox.
const HashEntry* entry;
// We don't want any properties other than "close" and "closed" on a closed window.
if (!impl()->frame()) {
// The following code is safe for cross-domain and same domain use.
// It ignores any custom properties that might be set on the DOMWindow (including a custom prototype).
entry = s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry && !(entry->attributes() & Function) && entry->propertyGetter() == jsDOMWindowClosed) {
descriptor.setDescriptor(jsBoolean(true), ReadOnly | DontDelete | DontEnum);
return true;
}
entry = JSDOMWindowPrototype::s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry && (entry->attributes() & Function) && entry->function() == jsDOMWindowPrototypeFunctionClose) {
PropertySlot slot;
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionClose, 0>);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
descriptor.setUndefined();
return true;
}
String errorMessage;
bool allowsAccess = allowsAccessFrom(exec, errorMessage);
if (allowsAccess && JSGlobalObject::getOwnPropertyDescriptor(exec, propertyName, descriptor))
return true;
// We need this code here because otherwise JSDOMWindowBase will stop the search before we even get to the
// prototype due to the blanket same origin (allowsAccessFrom) check at the end of getOwnPropertySlot.
// Also, it's important to get the implementation straight out of the DOMWindow prototype regardless of
// what prototype is actually set on this object.
entry = JSDOMWindowPrototype::s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry) {
if (entry->attributes() & Function) {
if (entry->function() == jsDOMWindowPrototypeFunctionBlur) {
if (!allowsAccess) {
PropertySlot slot;
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionBlur, 0>);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionClose) {
if (!allowsAccess) {
PropertySlot slot;
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionClose, 0>);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionFocus) {
if (!allowsAccess) {
PropertySlot slot;
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionFocus, 0>);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionPostMessage) {
if (!allowsAccess) {
PropertySlot slot;
slot.setCustom(this, nonCachingStaticFunctionGetter<jsDOMWindowPrototypeFunctionPostMessage, 2>);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
} else if (entry->function() == jsDOMWindowPrototypeFunctionShowModalDialog) {
if (!DOMWindow::canShowModalDialog(impl()->frame())) {
descriptor.setUndefined();
return true;
}
}
}
} else {
// Allow access to toString() cross-domain, but always Object.prototype.toString.
if (propertyName == exec->propertyNames().toString) {
if (!allowsAccess) {
PropertySlot slot;
slot.setCustom(this, objectToStringFunctionGetter);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
}
}
entry = JSDOMWindow::s_info.propHashTable(exec)->entry(exec, propertyName);
if (entry) {
PropertySlot slot;
slot.setCustom(this, entry->propertyGetter());
descriptor.setDescriptor(slot.getValue(exec, propertyName), entry->attributes());
return true;
}
// Check for child frames by name before built-in properties to
// match Mozilla. This does not match IE, but some sites end up
// naming frames things that conflict with window properties that
// are in Moz but not IE. Since we have some of these, we have to do
// it the Moz way.
if (impl()->frame()->tree()->child(propertyName)) {
PropertySlot slot;
slot.setCustom(this, childFrameGetter);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
// Do prototype lookup early so that functions and attributes in the prototype can have
// precedence over the index and name getters.
JSValue proto = prototype();
if (proto.isObject()) {
if (asObject(proto)->getPropertyDescriptor(exec, propertyName, descriptor)) {
if (!allowsAccess) {
printErrorMessage(errorMessage);
descriptor.setUndefined();
}
return true;
}
}
bool ok;
unsigned i = propertyName.toArrayIndex(&ok);
if (ok && i < impl()->frame()->tree()->childCount()) {
PropertySlot slot;
slot.setCustomIndex(this, i, indexGetter);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
// Allow shortcuts like 'Image1' instead of document.images.Image1
Document* document = impl()->frame()->document();
if (document->isHTMLDocument()) {
AtomicStringImpl* atomicPropertyName = AtomicString::find(propertyName);
if (atomicPropertyName && (static_cast<HTMLDocument*>(document)->hasNamedItem(atomicPropertyName) || document->hasElementWithId(atomicPropertyName))) {
PropertySlot slot;
slot.setCustom(this, namedItemGetter);
descriptor.setDescriptor(slot.getValue(exec, propertyName), ReadOnly | DontDelete | DontEnum);
return true;
}
}
return Base::getOwnPropertyDescriptor(exec, propertyName, descriptor);
}
void JSDOMWindow::put(ExecState* exec, const Identifier& propertyName, JSValue value, PutPropertySlot& slot)
{
if (!impl()->frame())
return;
// Optimization: access JavaScript global variables directly before involving the DOM.
if (JSGlobalObject::hasOwnPropertyForWrite(exec, propertyName)) {
if (allowsAccessFrom(exec))
JSGlobalObject::put(exec, propertyName, value, slot);
return;
}
if (lookupPut<JSDOMWindow>(exec, propertyName, value, s_info.propHashTable(exec), this))
return;
if (allowsAccessFrom(exec))
Base::put(exec, propertyName, value, slot);
}
bool JSDOMWindow::deleteProperty(ExecState* exec, const Identifier& propertyName)
{
// Only allow deleting properties by frames in the same origin.
if (!allowsAccessFrom(exec))
return false;
return Base::deleteProperty(exec, propertyName);
}
void JSDOMWindow::getPropertyNames(ExecState* exec, PropertyNameArray& propertyNames)
{
// Only allow the window to enumerated by frames in the same origin.
if (!allowsAccessFrom(exec))
return;
Base::getPropertyNames(exec, propertyNames);
}
void JSDOMWindow::getOwnPropertyNames(ExecState* exec, PropertyNameArray& propertyNames)
{
// Only allow the window to enumerated by frames in the same origin.
if (!allowsAccessFrom(exec))
return;
Base::getOwnPropertyNames(exec, propertyNames);
}
bool JSDOMWindow::getPropertyAttributes(ExecState* exec, const Identifier& propertyName, unsigned& attributes) const
{
// Only allow getting property attributes properties by frames in the same origin.
if (!allowsAccessFrom(exec))
return false;
return Base::getPropertyAttributes(exec, propertyName, attributes);
}
void JSDOMWindow::defineGetter(ExecState* exec, const Identifier& propertyName, JSObject* getterFunction, unsigned attributes)
{
// Only allow defining getters by frames in the same origin.
if (!allowsAccessFrom(exec))
return;
// Don't allow shadowing location using defineGetter.
if (propertyName == "location")
return;
Base::defineGetter(exec, propertyName, getterFunction, attributes);
}
void JSDOMWindow::defineSetter(ExecState* exec, const Identifier& propertyName, JSObject* setterFunction, unsigned attributes)
{
// Only allow defining setters by frames in the same origin.
if (!allowsAccessFrom(exec))
return;
Base::defineSetter(exec, propertyName, setterFunction, attributes);
}
bool JSDOMWindow::defineOwnProperty(JSC::ExecState* exec, const JSC::Identifier& propertyName, JSC::PropertyDescriptor& descriptor, bool shouldThrow)
{
// Only allow defining properties in this way by frames in the same origin, as it allows setters to be introduced.
if (!allowsAccessFrom(exec))
return false;
return Base::defineOwnProperty(exec, propertyName, descriptor, shouldThrow);
}
JSValue JSDOMWindow::lookupGetter(ExecState* exec, const Identifier& propertyName)
{
// Only allow looking-up getters by frames in the same origin.
if (!allowsAccessFrom(exec))
return jsUndefined();
return Base::lookupGetter(exec, propertyName);
}
JSValue JSDOMWindow::lookupSetter(ExecState* exec, const Identifier& propertyName)
{
// Only allow looking-up setters by frames in the same origin.
if (!allowsAccessFrom(exec))
return jsUndefined();
return Base::lookupSetter(exec, propertyName);
}
// Custom Attributes
JSValue JSDOMWindow::history(ExecState* exec) const
{
History* history = impl()->history();
if (DOMObject* wrapper = getCachedDOMObjectWrapper(exec->globalData(), history))
return wrapper;
JSDOMWindow* window = const_cast<JSDOMWindow*>(this);
JSHistory* jsHistory = new (exec) JSHistory(getDOMStructure<JSHistory>(exec, window), window, history);
cacheDOMObjectWrapper(exec->globalData(), history, jsHistory);
return jsHistory;
}
JSValue JSDOMWindow::location(ExecState* exec) const
{
Location* location = impl()->location();
if (DOMObject* wrapper = getCachedDOMObjectWrapper(exec->globalData(), location))
return wrapper;
JSDOMWindow* window = const_cast<JSDOMWindow*>(this);
JSLocation* jsLocation = new (exec) JSLocation(getDOMStructure<JSLocation>(exec, window), window, location);
cacheDOMObjectWrapper(exec->globalData(), location, jsLocation);
return jsLocation;
}
void JSDOMWindow::setLocation(ExecState* exec, JSValue value)
{
Frame* lexicalFrame = toLexicalFrame(exec);
if (!lexicalFrame)
return;
#if ENABLE(DASHBOARD_SUPPORT)
// To avoid breaking old widgets, make "var location =" in a top-level frame create
// a property named "location" instead of performing a navigation (<rdar://problem/5688039>).
if (Settings* settings = lexicalFrame->settings()) {
if (settings->usesDashboardBackwardCompatibilityMode() && !lexicalFrame->tree()->parent()) {
if (allowsAccessFrom(exec))
putDirect(Identifier(exec, "location"), value);
return;
}
}
#endif
Frame* frame = impl()->frame();
ASSERT(frame);
KURL url = completeURL(exec, value.toString(exec));
if (url.isNull())
return;
if (!shouldAllowNavigation(exec, frame))
return;
if (!protocolIsJavaScript(url) || allowsAccessFrom(exec)) {
// We want a new history item if this JS was called via a user gesture
frame->redirectScheduler()->scheduleLocationChange(url, lexicalFrame->loader()->outgoingReferrer(), !lexicalFrame->script()->anyPageIsProcessingUserGesture(), false, processingUserGesture(exec));
}
}
JSValue JSDOMWindow::crypto(ExecState*) const
{
return jsUndefined();
}
JSValue JSDOMWindow::event(ExecState* exec) const
{
Event* event = currentEvent();
if (!event)
return jsUndefined();
return toJS(exec, event);
}
#if ENABLE(EVENTSOURCE)
JSValue JSDOMWindow::eventSource(ExecState* exec) const
{
return getDOMConstructor<JSEventSourceConstructor>(exec, this);
}
#endif
JSValue JSDOMWindow::image(ExecState* exec) const
{
return getDOMConstructor<JSImageConstructor>(exec, this);
}
JSValue JSDOMWindow::option(ExecState* exec) const
{
return getDOMConstructor<JSOptionConstructor>(exec, this);
}
#if ENABLE(VIDEO)
JSValue JSDOMWindow::audio(ExecState* exec) const
{
if (!MediaPlayer::isAvailable())
return jsUndefined();
return getDOMConstructor<JSAudioConstructor>(exec, this);
}
#endif
JSValue JSDOMWindow::webKitPoint(ExecState* exec) const
{
return getDOMConstructor<JSWebKitPointConstructor>(exec, this);
}
JSValue JSDOMWindow::webKitCSSMatrix(ExecState* exec) const
{
return getDOMConstructor<JSWebKitCSSMatrixConstructor>(exec, this);
}
#if ENABLE(3D_CANVAS)
JSValue JSDOMWindow::canvasArrayBuffer(ExecState* exec) const
{
return getDOMConstructor<JSCanvasArrayBufferConstructor>(exec, this);
}
JSValue JSDOMWindow::canvasByteArray(ExecState* exec) const
{
return getDOMConstructor<JSCanvasByteArrayConstructor>(exec, this);
}
JSValue JSDOMWindow::canvasUnsignedByteArray(ExecState* exec) const
{
return getDOMConstructor<JSCanvasUnsignedByteArrayConstructor>(exec, this);
}
JSValue JSDOMWindow::canvasIntArray(ExecState* exec) const
{
return getDOMConstructor<JSCanvasIntArrayConstructor>(exec, this);
}
JSValue JSDOMWindow::canvasUnsignedIntArray(ExecState* exec) const
{
return getDOMConstructor<JSCanvasUnsignedIntArrayConstructor>(exec, this);
}
JSValue JSDOMWindow::canvasShortArray(ExecState* exec) const
{
return getDOMConstructor<JSCanvasShortArrayConstructor>(exec, this);
}
JSValue JSDOMWindow::canvasUnsignedShortArray(ExecState* exec) const
{
return getDOMConstructor<JSCanvasUnsignedShortArrayConstructor>(exec, this);
}
JSValue JSDOMWindow::canvasFloatArray(ExecState* exec) const
{
return getDOMConstructor<JSCanvasFloatArrayConstructor>(exec, this);
}
#endif
JSValue JSDOMWindow::xmlHttpRequest(ExecState* exec) const
{
return getDOMConstructor<JSXMLHttpRequestConstructor>(exec, this);
}
#if ENABLE(XSLT)
JSValue JSDOMWindow::xsltProcessor(ExecState* exec) const
{
return getDOMConstructor<JSXSLTProcessorConstructor>(exec, this);
}
#endif
#if ENABLE(CHANNEL_MESSAGING)
JSValue JSDOMWindow::messageChannel(ExecState* exec) const
{
return getDOMConstructor<JSMessageChannelConstructor>(exec, this);
}
#endif
#if ENABLE(WORKERS)
JSValue JSDOMWindow::worker(ExecState* exec) const
{
return getDOMConstructor<JSWorkerConstructor>(exec, this);
}
#endif
#if ENABLE(SHARED_WORKERS)
JSValue JSDOMWindow::sharedWorker(ExecState* exec) const
{
if (SharedWorkerRepository::isAvailable())
return getDOMConstructor<JSSharedWorkerConstructor>(exec, this);
return jsUndefined();
}
#endif
#if ENABLE(WEB_SOCKETS)
JSValue JSDOMWindow::webSocket(ExecState* exec) const
{
Frame* frame = impl()->frame();
if (!frame)
return jsUndefined();
Settings* settings = frame->settings();
if (!settings)
return jsUndefined();
return getDOMConstructor<JSWebSocketConstructor>(exec, this);
}
#endif
// Custom functions
// Helper for window.open() and window.showModalDialog()
static Frame* createWindow(ExecState* exec, Frame* lexicalFrame, Frame* dynamicFrame,
Frame* openerFrame, const String& url, const String& frameName,
const WindowFeatures& windowFeatures, JSValue dialogArgs)
{
ASSERT(lexicalFrame);
ASSERT(dynamicFrame);
ResourceRequest request;
// For whatever reason, Firefox uses the dynamicGlobalObject to determine
// the outgoingReferrer. We replicate that behavior here.
String referrer = dynamicFrame->loader()->outgoingReferrer();
request.setHTTPReferrer(referrer);
FrameLoader::addHTTPOriginIfNeeded(request, dynamicFrame->loader()->outgoingOrigin());
FrameLoadRequest frameRequest(request, frameName);
// FIXME: It's much better for client API if a new window starts with a URL, here where we
// know what URL we are going to open. Unfortunately, this code passes the empty string
// for the URL, but there's a reason for that. Before loading we have to set up the opener,
// openedByDOM, and dialogArguments values. Also, to decide whether to use the URL we currently
// do an allowsAccessFrom call using the window we create, which can't be done before creating it.
// We'd have to resolve all those issues to pass the URL instead of "".
bool created;
// We pass in the opener frame here so it can be used for looking up the frame name, in case the active frame
// is different from the opener frame, and the name references a frame relative to the opener frame, for example
// "_self" or "_parent".
Frame* newFrame = lexicalFrame->loader()->createWindow(openerFrame->loader(), frameRequest, windowFeatures, created);
if (!newFrame)
return 0;
newFrame->loader()->setOpener(openerFrame);
newFrame->page()->setOpenedByDOM();
// FIXME: If a window is created from an isolated world, what are the consequences of this? 'dialogArguments' only appears back in the normal world?
JSDOMWindow* newWindow = toJSDOMWindow(newFrame, normalWorld(exec->globalData()));
if (dialogArgs)
newWindow->putDirect(Identifier(exec, "dialogArguments"), dialogArgs);
if (!protocolIsJavaScript(url) || newWindow->allowsAccessFrom(exec)) {
KURL completedURL = url.isEmpty() ? KURL(ParsedURLString, "") : completeURL(exec, url);
bool userGesture = processingUserGesture(exec);
if (created)
newFrame->loader()->changeLocation(completedURL, referrer, false, false, userGesture);
else if (!url.isEmpty())
newFrame->redirectScheduler()->scheduleLocationChange(completedURL.string(), referrer, !lexicalFrame->script()->anyPageIsProcessingUserGesture(), false, userGesture);
}
return newFrame;
}
JSValue JSDOMWindow::open(ExecState* exec, const ArgList& args)
{
String urlString = valueToStringWithUndefinedOrNullCheck(exec, args.at(0));
AtomicString frameName = args.at(1).isUndefinedOrNull() ? "_blank" : AtomicString(args.at(1).toString(exec));
WindowFeatures windowFeatures(valueToStringWithUndefinedOrNullCheck(exec, args.at(2)));
Frame* frame = impl()->frame();
if (!frame)
return jsUndefined();
Frame* lexicalFrame = toLexicalFrame(exec);
if (!lexicalFrame)
return jsUndefined();
Frame* dynamicFrame = toDynamicFrame(exec);
if (!dynamicFrame)
return jsUndefined();
Page* page = frame->page();
// Because FrameTree::find() returns true for empty strings, we must check for empty framenames.
// Otherwise, illegitimate window.open() calls with no name will pass right through the popup blocker.
if (!DOMWindow::allowPopUp(dynamicFrame) && (frameName.isEmpty() || !frame->tree()->find(frameName)))
return jsUndefined();
// Get the target frame for the special cases of _top and _parent. In those
// cases, we can schedule a location change right now and return early.
bool topOrParent = false;
if (frameName == "_top") {
frame = frame->tree()->top();
topOrParent = true;
} else if (frameName == "_parent") {
if (Frame* parent = frame->tree()->parent())
frame = parent;
topOrParent = true;
}
if (topOrParent) {
String completedURL;
if (!urlString.isEmpty())
completedURL = completeURL(exec, urlString).string();
if (!shouldAllowNavigation(exec, frame))
return jsUndefined();
const JSDOMWindow* targetedWindow = toJSDOMWindow(frame, currentWorld(exec));
if (!completedURL.isEmpty() && (!protocolIsJavaScript(completedURL) || (targetedWindow && targetedWindow->allowsAccessFrom(exec)))) {
bool userGesture = processingUserGesture(exec);
// For whatever reason, Firefox uses the dynamicGlobalObject to
// determine the outgoingReferrer. We replicate that behavior
// here.
String referrer = dynamicFrame->loader()->outgoingReferrer();
frame->redirectScheduler()->scheduleLocationChange(completedURL, referrer, !lexicalFrame->script()->anyPageIsProcessingUserGesture(), false, userGesture);
}
return toJS(exec, frame->domWindow());
}
// In the case of a named frame or a new window, we'll use the createWindow() helper
FloatRect windowRect(windowFeatures.xSet ? windowFeatures.x : 0, windowFeatures.ySet ? windowFeatures.y : 0,
windowFeatures.widthSet ? windowFeatures.width : 0, windowFeatures.heightSet ? windowFeatures.height : 0);
DOMWindow::adjustWindowRect(screenAvailableRect(page ? page->mainFrame()->view() : 0), windowRect, windowRect);
windowFeatures.x = windowRect.x();
windowFeatures.y = windowRect.y();
windowFeatures.height = windowRect.height();
windowFeatures.width = windowRect.width();
frame = createWindow(exec, lexicalFrame, dynamicFrame, frame, urlString, frameName, windowFeatures, JSValue());
if (!frame)
return jsUndefined();
return toJS(exec, frame->domWindow());
}
JSValue JSDOMWindow::showModalDialog(ExecState* exec, const ArgList& args)
{
String url = valueToStringWithUndefinedOrNullCheck(exec, args.at(0));
JSValue dialogArgs = args.at(1);
String featureArgs = valueToStringWithUndefinedOrNullCheck(exec, args.at(2));
Frame* frame = impl()->frame();
if (!frame)
return jsUndefined();
Frame* lexicalFrame = toLexicalFrame(exec);
if (!lexicalFrame)
return jsUndefined();
Frame* dynamicFrame = toDynamicFrame(exec);
if (!dynamicFrame)
return jsUndefined();
if (!DOMWindow::canShowModalDialogNow(frame) || !DOMWindow::allowPopUp(dynamicFrame))
return jsUndefined();
HashMap<String, String> features;
DOMWindow::parseModalDialogFeatures(featureArgs, features);
const bool trusted = false;
// The following features from Microsoft's documentation are not implemented:
// - default font settings
// - width, height, left, and top specified in units other than "px"
// - edge (sunken or raised, default is raised)
// - dialogHide: trusted && boolFeature(features, "dialoghide"), makes dialog hide when you print
// - help: boolFeature(features, "help", true), makes help icon appear in dialog (what does it do on Windows?)
// - unadorned: trusted && boolFeature(features, "unadorned");
FloatRect screenRect = screenAvailableRect(frame->view());
WindowFeatures wargs;
wargs.width = WindowFeatures::floatFeature(features, "dialogwidth", 100, screenRect.width(), 620); // default here came from frame size of dialog in MacIE
wargs.widthSet = true;
wargs.height = WindowFeatures::floatFeature(features, "dialogheight", 100, screenRect.height(), 450); // default here came from frame size of dialog in MacIE
wargs.heightSet = true;
wargs.x = WindowFeatures::floatFeature(features, "dialogleft", screenRect.x(), screenRect.right() - wargs.width, -1);
wargs.xSet = wargs.x > 0;
wargs.y = WindowFeatures::floatFeature(features, "dialogtop", screenRect.y(), screenRect.bottom() - wargs.height, -1);
wargs.ySet = wargs.y > 0;
if (WindowFeatures::boolFeature(features, "center", true)) {
if (!wargs.xSet) {
wargs.x = screenRect.x() + (screenRect.width() - wargs.width) / 2;
wargs.xSet = true;
}
if (!wargs.ySet) {
wargs.y = screenRect.y() + (screenRect.height() - wargs.height) / 2;
wargs.ySet = true;
}
}
wargs.dialog = true;
wargs.resizable = WindowFeatures::boolFeature(features, "resizable");
wargs.scrollbarsVisible = WindowFeatures::boolFeature(features, "scroll", true);
wargs.statusBarVisible = WindowFeatures::boolFeature(features, "status", !trusted);
wargs.menuBarVisible = false;
wargs.toolBarVisible = false;
wargs.locationBarVisible = false;
wargs.fullscreen = false;
Frame* dialogFrame = createWindow(exec, lexicalFrame, dynamicFrame, frame, url, "", wargs, dialogArgs);
if (!dialogFrame)
return jsUndefined();
JSDOMWindow* dialogWindow = toJSDOMWindow(dialogFrame, currentWorld(exec));
dialogFrame->page()->chrome()->runModal();
Identifier returnValue(exec, "returnValue");
if (dialogWindow->allowsAccessFromNoErrorMessage(exec)) {
PropertySlot slot;
// This is safe, we have already performed the origin security check and we are
// not interested in any of the DOM properties of the window.
if (dialogWindow->JSGlobalObject::getOwnPropertySlot(exec, returnValue, slot))
return slot.getValue(exec, returnValue);
}
return jsUndefined();
}
JSValue JSDOMWindow::postMessage(ExecState* exec, const ArgList& args)
{
DOMWindow* window = impl();
DOMWindow* source = asJSDOMWindow(exec->lexicalGlobalObject())->impl();
PassRefPtr<SerializedScriptValue> message = SerializedScriptValue::create(exec, args.at(0));
if (exec->hadException())
return jsUndefined();
MessagePortArray messagePorts;
if (args.size() > 2)
fillMessagePortArray(exec, args.at(1), messagePorts);
if (exec->hadException())
return jsUndefined();
String targetOrigin = valueToStringWithUndefinedOrNullCheck(exec, args.at((args.size() == 2) ? 1 : 2));
if (exec->hadException())
return jsUndefined();
ExceptionCode ec = 0;
window->postMessage(message, &messagePorts, targetOrigin, source, ec);
setDOMException(exec, ec);
return jsUndefined();
}
JSValue JSDOMWindow::setTimeout(ExecState* exec, const ArgList& args)
{
ScheduledAction* action = ScheduledAction::create(exec, args, currentWorld(exec));
if (exec->hadException())
return jsUndefined();
int delay = args.at(1).toInt32(exec);
return jsNumber(exec, impl()->setTimeout(action, delay));
}
JSValue JSDOMWindow::setInterval(ExecState* exec, const ArgList& args)
{
ScheduledAction* action = ScheduledAction::create(exec, args, currentWorld(exec));
if (exec->hadException())
return jsUndefined();
int delay = args.at(1).toInt32(exec);
return jsNumber(exec, impl()->setInterval(action, delay));
}
JSValue JSDOMWindow::atob(ExecState* exec, const ArgList& args)
{
if (args.size() < 1)
return throwError(exec, SyntaxError, "Not enough arguments");
JSValue v = args.at(0);
if (v.isNull())
return jsEmptyString(exec);
UString s = v.toString(exec);
if (!s.is8Bit()) {
setDOMException(exec, INVALID_CHARACTER_ERR);
return jsUndefined();
}
Vector<char> in(s.size());
for (int i = 0; i < s.size(); ++i)
in[i] = static_cast<char>(s.data()[i]);
Vector<char> out;
if (!base64Decode(in, out))
return throwError(exec, GeneralError, "Cannot decode base64");
return jsString(exec, String(out.data(), out.size()));
}
JSValue JSDOMWindow::btoa(ExecState* exec, const ArgList& args)
{
if (args.size() < 1)
return throwError(exec, SyntaxError, "Not enough arguments");
JSValue v = args.at(0);
if (v.isNull())
return jsEmptyString(exec);
UString s = v.toString(exec);
if (!s.is8Bit()) {
setDOMException(exec, INVALID_CHARACTER_ERR);
return jsUndefined();
}
Vector<char> in(s.size());
for (int i = 0; i < s.size(); ++i)
in[i] = static_cast<char>(s.data()[i]);
Vector<char> out;
base64Encode(in, out);
return jsString(exec, String(out.data(), out.size()));
}
JSValue JSDOMWindow::addEventListener(ExecState* exec, const ArgList& args)
{
Frame* frame = impl()->frame();
if (!frame)
return jsUndefined();
JSValue listener = args.at(1);
if (!listener.isObject())
return jsUndefined();
impl()->addEventListener(args.at(0).toString(exec), JSEventListener::create(asObject(listener), false, currentWorld(exec)), args.at(2).toBoolean(exec));
return jsUndefined();
}
JSValue JSDOMWindow::removeEventListener(ExecState* exec, const ArgList& args)
{
Frame* frame = impl()->frame();
if (!frame)
return jsUndefined();
JSValue listener = args.at(1);
if (!listener.isObject())
return jsUndefined();
impl()->removeEventListener(args.at(0).toString(exec), JSEventListener::create(asObject(listener), false, currentWorld(exec)).get(), args.at(2).toBoolean(exec));
return jsUndefined();
}
DOMWindow* toDOMWindow(JSValue value)
{
if (!value.isObject())
return 0;
JSObject* object = asObject(value);
if (object->inherits(&JSDOMWindow::s_info))
return static_cast<JSDOMWindow*>(object)->impl();
if (object->inherits(&JSDOMWindowShell::s_info))
return static_cast<JSDOMWindowShell*>(object)->impl();
return 0;
}
} // namespace WebCore