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webkit / WebKit / 85d3939fadf6cb9377a60b340608f5b928ff4383 / . / Source / WebKit2 / UIProcess / WebPageProxy.cpp
blob: 52ff6c02d3f9093e1df2e0fe313b1abb77863d82 [file] [log] [blame]
/*
* Copyright (C) 2010, 2011 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. AND ITS CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO,
* THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR ITS CONTRIBUTORS
* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
#include "config.h"
#include "WebPageProxy.h"
#include "AuthenticationChallengeProxy.h"
#include "AuthenticationDecisionListener.h"
#include "DataReference.h"
#include "DownloadProxy.h"
#include "DrawingAreaProxy.h"
#include "EventDispatcherMessages.h"
#include "FindIndicator.h"
#include "Logging.h"
#include "MessageID.h"
#include "NativeWebKeyboardEvent.h"
#include "NativeWebMouseEvent.h"
#include "NativeWebWheelEvent.h"
#include "NotificationPermissionRequest.h"
#include "NotificationPermissionRequestManager.h"
#include "PageClient.h"
#include "PrintInfo.h"
#include "SessionState.h"
#include "StringPairVector.h"
#include "TextChecker.h"
#include "TextCheckerState.h"
#include "WKContextPrivate.h"
#include "WebBackForwardList.h"
#include "WebBackForwardListItem.h"
#include "WebCertificateInfo.h"
#include "WebContext.h"
#include "WebContextMenuProxy.h"
#include "WebContextUserMessageCoders.h"
#include "WebCoreArgumentCoders.h"
#include "WebData.h"
#include "WebEditCommandProxy.h"
#include "WebEvent.h"
#include "WebFormSubmissionListenerProxy.h"
#include "WebFramePolicyListenerProxy.h"
#include "WebFullScreenManagerProxy.h"
#include "WebInspectorProxy.h"
#include "WebNotificationManagerProxy.h"
#include "WebOpenPanelResultListenerProxy.h"
#include "WebPageCreationParameters.h"
#include "WebPageGroup.h"
#include "WebPageGroupData.h"
#include "WebPageMessages.h"
#include "WebPopupItem.h"
#include "WebPopupMenuProxy.h"
#include "WebPreferences.h"
#include "WebProcessMessages.h"
#include "WebProcessProxy.h"
#include "WebProtectionSpace.h"
#include "WebSecurityOrigin.h"
#include "WebURLRequest.h"
#include <WebCore/DragController.h>
#include <WebCore/DragData.h>
#include <WebCore/DragSession.h>
#include <WebCore/FloatRect.h>
#include <WebCore/FocusDirection.h>
#include <WebCore/MIMETypeRegistry.h>
#include <WebCore/TextCheckerClient.h>
#include <WebCore/WindowFeatures.h>
#include <stdio.h>
#if USE(ACCELERATED_COMPOSITING) && USE(TEXTURE_MAPPER)
#include "LayerTreeHostProxyMessages.h"
#endif
#if PLATFORM(QT)
#include "ArgumentCodersQt.h"
#endif
#if PLATFORM(GTK)
#include "ArgumentCodersGtk.h"
#endif
#ifndef NDEBUG
#include <wtf/RefCountedLeakCounter.h>
#endif
// This controls what strategy we use for mouse wheel coalescing.
#define MERGE_WHEEL_EVENTS 1
#define MESSAGE_CHECK(assertion) MESSAGE_CHECK_BASE(assertion, m_process->connection())
#define MESSAGE_CHECK_URL(url) MESSAGE_CHECK_BASE(m_process->checkURLReceivedFromWebProcess(url), m_process->connection())
using namespace WebCore;
namespace WebKit {
WKPageDebugPaintFlags WebPageProxy::s_debugPaintFlags = 0;
DEFINE_DEBUG_ONLY_GLOBAL(WTF::RefCountedLeakCounter, webPageProxyCounter, ("WebPageProxy"));
#if !LOG_DISABLED
static const char* webKeyboardEventTypeString(WebEvent::Type type)
{
switch (type) {
case WebEvent::KeyDown:
return "KeyDown";
case WebEvent::KeyUp:
return "KeyUp";
case WebEvent::RawKeyDown:
return "RawKeyDown";
case WebEvent::Char:
return "Char";
default:
ASSERT_NOT_REACHED();
return "<unknown>";
}
}
#endif // !LOG_DISABLED
PassRefPtr<WebPageProxy> WebPageProxy::create(PageClient* pageClient, PassRefPtr<WebProcessProxy> process, WebPageGroup* pageGroup, uint64_t pageID)
{
return adoptRef(new WebPageProxy(pageClient, process, pageGroup, pageID));
}
WebPageProxy::WebPageProxy(PageClient* pageClient, PassRefPtr<WebProcessProxy> process, WebPageGroup* pageGroup, uint64_t pageID)
: m_pageClient(pageClient)
, m_process(process)
, m_pageGroup(pageGroup)
, m_mainFrame(0)
, m_userAgent(standardUserAgent())
, m_geolocationPermissionRequestManager(this)
, m_notificationPermissionRequestManager(this)
, m_estimatedProgress(0)
, m_isInWindow(m_pageClient->isViewInWindow())
, m_isVisible(m_pageClient->isViewVisible())
, m_backForwardList(WebBackForwardList::create(this))
, m_loadStateAtProcessExit(WebFrameProxy::LoadStateFinished)
, m_textZoomFactor(1)
, m_pageZoomFactor(1)
, m_pageScaleFactor(1)
, m_intrinsicDeviceScaleFactor(1)
, m_customDeviceScaleFactor(0)
, m_drawsBackground(true)
, m_drawsTransparentBackground(false)
, m_areMemoryCacheClientCallsEnabled(true)
, m_useFixedLayout(false)
, m_paginationMode(Page::Pagination::Unpaginated)
, m_pageLength(0)
, m_gapBetweenPages(0)
, m_isValid(true)
, m_isClosed(false)
, m_isInPrintingMode(false)
, m_isPerformingDOMPrintOperation(false)
, m_inDecidePolicyForResponse(false)
, m_syncMimeTypePolicyActionIsValid(false)
, m_syncMimeTypePolicyAction(PolicyUse)
, m_syncMimeTypePolicyDownloadID(0)
, m_inDecidePolicyForNavigationAction(false)
, m_syncNavigationActionPolicyActionIsValid(false)
, m_syncNavigationActionPolicyAction(PolicyUse)
, m_syncNavigationActionPolicyDownloadID(0)
, m_processingMouseMoveEvent(false)
#if ENABLE(TOUCH_EVENTS)
, m_needTouchEvents(false)
#endif
, m_pageID(pageID)
#if PLATFORM(MAC)
, m_isSmartInsertDeleteEnabled(TextChecker::isSmartInsertDeleteEnabled())
#endif
, m_spellDocumentTag(0)
, m_hasSpellDocumentTag(false)
, m_pendingLearnOrIgnoreWordMessageCount(0)
, m_mainFrameHasCustomRepresentation(false)
, m_mainFrameHasHorizontalScrollbar(false)
, m_mainFrameHasVerticalScrollbar(false)
, m_mainFrameIsPinnedToLeftSide(false)
, m_mainFrameIsPinnedToRightSide(false)
, m_pageCount(0)
, m_renderTreeSize(0)
, m_shouldSendEventsSynchronously(false)
{
#ifndef NDEBUG
webPageProxyCounter.increment();
#endif
WebContext::statistics().wkPageCount++;
m_pageGroup->addPage(this);
}
WebPageProxy::~WebPageProxy()
{
if (!m_isClosed)
close();
WebContext::statistics().wkPageCount--;
if (m_hasSpellDocumentTag)
TextChecker::closeSpellDocumentWithTag(m_spellDocumentTag);
m_pageGroup->removePage(this);
#ifndef NDEBUG
webPageProxyCounter.decrement();
#endif
}
WebProcessProxy* WebPageProxy::process() const
{
return m_process.get();
}
PlatformProcessIdentifier WebPageProxy::processIdentifier() const
{
if (!m_process)
return 0;
return m_process->processIdentifier();
}
bool WebPageProxy::isValid()
{
// A page that has been explicitly closed is never valid.
if (m_isClosed)
return false;
return m_isValid;
}
void WebPageProxy::initializeLoaderClient(const WKPageLoaderClient* loadClient)
{
m_loaderClient.initialize(loadClient);
}
void WebPageProxy::initializePolicyClient(const WKPagePolicyClient* policyClient)
{
m_policyClient.initialize(policyClient);
}
void WebPageProxy::initializeFormClient(const WKPageFormClient* formClient)
{
m_formClient.initialize(formClient);
}
void WebPageProxy::initializeResourceLoadClient(const WKPageResourceLoadClient* client)
{
m_resourceLoadClient.initialize(client);
}
void WebPageProxy::initializeUIClient(const WKPageUIClient* client)
{
if (!isValid())
return;
m_uiClient.initialize(client);
process()->send(Messages::WebPage::SetCanRunBeforeUnloadConfirmPanel(m_uiClient.canRunBeforeUnloadConfirmPanel()), m_pageID);
process()->send(Messages::WebPage::SetCanRunModal(m_uiClient.canRunModal()), m_pageID);
}
void WebPageProxy::initializeFindClient(const WKPageFindClient* client)
{
m_findClient.initialize(client);
}
void WebPageProxy::initializeContextMenuClient(const WKPageContextMenuClient* client)
{
m_contextMenuClient.initialize(client);
}
void WebPageProxy::reattachToWebProcess()
{
ASSERT(!isValid());
m_isValid = true;
m_process = m_process->context()->relaunchProcessIfNecessary();
process()->addExistingWebPage(this, m_pageID);
initializeWebPage();
m_pageClient->didRelaunchProcess();
m_drawingArea->waitForBackingStoreUpdateOnNextPaint();
}
void WebPageProxy::reattachToWebProcessWithItem(WebBackForwardListItem* item)
{
if (item && item != m_backForwardList->currentItem())
m_backForwardList->goToItem(item);
reattachToWebProcess();
if (!item)
return;
SandboxExtension::Handle sandboxExtensionHandle;
bool createdExtension = maybeInitializeSandboxExtensionHandle(KURL(KURL(), item->url()), sandboxExtensionHandle);
if (createdExtension)
process()->willAcquireUniversalFileReadSandboxExtension();
process()->send(Messages::WebPage::GoToBackForwardItem(item->itemID(), sandboxExtensionHandle), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::initializeWebPage()
{
ASSERT(isValid());
BackForwardListItemVector items = m_backForwardList->entries();
for (size_t i = 0; i < items.size(); ++i)
process()->registerNewWebBackForwardListItem(items[i].get());
m_drawingArea = m_pageClient->createDrawingAreaProxy();
ASSERT(m_drawingArea);
process()->send(Messages::WebProcess::CreateWebPage(m_pageID, creationParameters()), 0);
}
void WebPageProxy::close()
{
if (!isValid())
return;
m_isClosed = true;
m_backForwardList->pageClosed();
m_pageClient->pageClosed();
process()->disconnectFramesFromPage(this);
m_mainFrame = 0;
#if ENABLE(INSPECTOR)
if (m_inspector) {
m_inspector->invalidate();
m_inspector = 0;
}
#endif
#if ENABLE(FULLSCREEN_API)
if (m_fullScreenManager) {
m_fullScreenManager->invalidate();
m_fullScreenManager = 0;
}
#endif
if (m_openPanelResultListener) {
m_openPanelResultListener->invalidate();
m_openPanelResultListener = 0;
}
m_geolocationPermissionRequestManager.invalidateRequests();
m_notificationPermissionRequestManager.invalidateRequests();
m_toolTip = String();
m_mainFrameHasHorizontalScrollbar = false;
m_mainFrameHasVerticalScrollbar = false;
m_mainFrameIsPinnedToLeftSide = false;
m_mainFrameIsPinnedToRightSide = false;
m_visibleScrollerThumbRect = IntRect();
invalidateCallbackMap(m_voidCallbacks);
invalidateCallbackMap(m_dataCallbacks);
invalidateCallbackMap(m_stringCallbacks);
m_loadDependentStringCallbackIDs.clear();
invalidateCallbackMap(m_scriptValueCallbacks);
invalidateCallbackMap(m_computedPagesCallbacks);
Vector<WebEditCommandProxy*> editCommandVector;
copyToVector(m_editCommandSet, editCommandVector);
m_editCommandSet.clear();
for (size_t i = 0, size = editCommandVector.size(); i < size; ++i)
editCommandVector[i]->invalidate();
m_activePopupMenu = 0;
m_estimatedProgress = 0.0;
m_loaderClient.initialize(0);
m_policyClient.initialize(0);
m_uiClient.initialize(0);
m_drawingArea = nullptr;
process()->send(Messages::WebPage::Close(), m_pageID);
process()->removeWebPage(m_pageID);
}
bool WebPageProxy::tryClose()
{
if (!isValid())
return true;
process()->send(Messages::WebPage::TryClose(), m_pageID);
process()->responsivenessTimer()->start();
return false;
}
bool WebPageProxy::maybeInitializeSandboxExtensionHandle(const KURL& url, SandboxExtension::Handle& sandboxExtensionHandle)
{
if (!url.isLocalFile())
return false;
#if ENABLE(INSPECTOR)
// Don't give the inspector full access to the file system.
if (WebInspectorProxy::isInspectorPage(this))
return false;
#endif
SandboxExtension::createHandle("/", SandboxExtension::ReadOnly, sandboxExtensionHandle);
return true;
}
void WebPageProxy::loadURL(const String& url)
{
setPendingAPIRequestURL(url);
if (!isValid())
reattachToWebProcess();
SandboxExtension::Handle sandboxExtensionHandle;
bool createdExtension = maybeInitializeSandboxExtensionHandle(KURL(KURL(), url), sandboxExtensionHandle);
if (createdExtension)
process()->willAcquireUniversalFileReadSandboxExtension();
process()->send(Messages::WebPage::LoadURL(url, sandboxExtensionHandle), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::loadURLRequest(WebURLRequest* urlRequest)
{
setPendingAPIRequestURL(urlRequest->resourceRequest().url());
if (!isValid())
reattachToWebProcess();
SandboxExtension::Handle sandboxExtensionHandle;
bool createdExtension = maybeInitializeSandboxExtensionHandle(urlRequest->resourceRequest().url(), sandboxExtensionHandle);
if (createdExtension)
process()->willAcquireUniversalFileReadSandboxExtension();
process()->send(Messages::WebPage::LoadURLRequest(urlRequest->resourceRequest(), sandboxExtensionHandle), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::loadHTMLString(const String& htmlString, const String& baseURL)
{
if (!isValid())
reattachToWebProcess();
process()->assumeReadAccessToBaseURL(baseURL);
process()->send(Messages::WebPage::LoadHTMLString(htmlString, baseURL), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::loadAlternateHTMLString(const String& htmlString, const String& baseURL, const String& unreachableURL)
{
if (!isValid())
reattachToWebProcess();
if (m_mainFrame)
m_mainFrame->setUnreachableURL(unreachableURL);
process()->assumeReadAccessToBaseURL(baseURL);
process()->send(Messages::WebPage::LoadAlternateHTMLString(htmlString, baseURL, unreachableURL), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::loadPlainTextString(const String& string)
{
if (!isValid())
reattachToWebProcess();
process()->send(Messages::WebPage::LoadPlainTextString(string), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::stopLoading()
{
if (!isValid())
return;
process()->send(Messages::WebPage::StopLoading(), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::reload(bool reloadFromOrigin)
{
if (m_backForwardList->currentItem())
setPendingAPIRequestURL(m_backForwardList->currentItem()->url());
if (!isValid()) {
reattachToWebProcessWithItem(m_backForwardList->currentItem());
return;
}
process()->send(Messages::WebPage::Reload(reloadFromOrigin), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::goForward()
{
if (isValid() && !canGoForward())
return;
WebBackForwardListItem* forwardItem = m_backForwardList->forwardItem();
if (forwardItem)
setPendingAPIRequestURL(forwardItem->url());
if (!isValid()) {
reattachToWebProcessWithItem(forwardItem);
return;
}
SandboxExtension::Handle sandboxExtensionHandle;
bool createdExtension = maybeInitializeSandboxExtensionHandle(KURL(KURL(), forwardItem->url()), sandboxExtensionHandle);
if (createdExtension)
process()->willAcquireUniversalFileReadSandboxExtension();
process()->send(Messages::WebPage::GoForward(forwardItem->itemID(), sandboxExtensionHandle), m_pageID);
process()->responsivenessTimer()->start();
}
bool WebPageProxy::canGoForward() const
{
return m_backForwardList->forwardItem();
}
void WebPageProxy::goBack()
{
if (isValid() && !canGoBack())
return;
WebBackForwardListItem* backItem = m_backForwardList->backItem();
if (backItem)
setPendingAPIRequestURL(backItem->url());
if (!isValid()) {
reattachToWebProcessWithItem(backItem);
return;
}
SandboxExtension::Handle sandboxExtensionHandle;
bool createdExtension = maybeInitializeSandboxExtensionHandle(KURL(KURL(), backItem->url()), sandboxExtensionHandle);
if (createdExtension)
process()->willAcquireUniversalFileReadSandboxExtension();
process()->send(Messages::WebPage::GoBack(backItem->itemID(), sandboxExtensionHandle), m_pageID);
process()->responsivenessTimer()->start();
}
bool WebPageProxy::canGoBack() const
{
return m_backForwardList->backItem();
}
void WebPageProxy::goToBackForwardItem(WebBackForwardListItem* item)
{
if (!isValid()) {
reattachToWebProcessWithItem(item);
return;
}
setPendingAPIRequestURL(item->url());
SandboxExtension::Handle sandboxExtensionHandle;
bool createdExtension = maybeInitializeSandboxExtensionHandle(KURL(KURL(), item->url()), sandboxExtensionHandle);
if (createdExtension)
process()->willAcquireUniversalFileReadSandboxExtension();
process()->send(Messages::WebPage::GoToBackForwardItem(item->itemID(), sandboxExtensionHandle), m_pageID);
process()->responsivenessTimer()->start();
}
void WebPageProxy::tryRestoreScrollPosition()
{
if (!isValid())
return;
process()->send(Messages::WebPage::TryRestoreScrollPosition(), m_pageID);
}
void WebPageProxy::didChangeBackForwardList(WebBackForwardListItem* added, Vector<RefPtr<APIObject> >* removed)
{
m_loaderClient.didChangeBackForwardList(this, added, removed);
}
void WebPageProxy::shouldGoToBackForwardListItem(uint64_t itemID, bool& shouldGoToBackForwardItem)
{
WebBackForwardListItem* item = process()->webBackForwardItem(itemID);
shouldGoToBackForwardItem = item && m_loaderClient.shouldGoToBackForwardListItem(this, item);
}
String WebPageProxy::activeURL() const
{
if (!m_mainFrame)
return String();
// If there is a currently pending url, it is the active URL.
if (!m_pendingAPIRequestURL.isNull())
return m_pendingAPIRequestURL;
// FIXME: What do we do in the case of the unreachable URL?
switch (m_mainFrame->loadState()) {
case WebFrameProxy::LoadStateProvisional:
return m_mainFrame->provisionalURL();
case WebFrameProxy::LoadStateCommitted:
case WebFrameProxy::LoadStateFinished:
return m_mainFrame->url();
}
ASSERT_NOT_REACHED();
return String();
}
String WebPageProxy::provisionalURL() const
{
if (!m_mainFrame)
return String();
return m_mainFrame->provisionalURL();
}
String WebPageProxy::committedURL() const
{
if (!m_mainFrame)
return String();
return m_mainFrame->url();
}
bool WebPageProxy::canShowMIMEType(const String& mimeType) const
{
if (MIMETypeRegistry::isSupportedNonImageMIMEType(mimeType))
return true;
if (MIMETypeRegistry::isSupportedImageMIMEType(mimeType))
return true;
if (mimeType.startsWith("text/", false))
return !MIMETypeRegistry::isUnsupportedTextMIMEType(mimeType);
String newMimeType = mimeType;
PluginModuleInfo plugin = m_process->context()->pluginInfoStore().findPlugin(newMimeType, KURL());
if (!plugin.path.isNull())
return true;
return false;
}
void WebPageProxy::setDrawsBackground(bool drawsBackground)
{
if (m_drawsBackground == drawsBackground)
return;
m_drawsBackground = drawsBackground;
if (isValid())
process()->send(Messages::WebPage::SetDrawsBackground(drawsBackground), m_pageID);
}
void WebPageProxy::setDrawsTransparentBackground(bool drawsTransparentBackground)
{
if (m_drawsTransparentBackground == drawsTransparentBackground)
return;
m_drawsTransparentBackground = drawsTransparentBackground;
if (isValid())
process()->send(Messages::WebPage::SetDrawsTransparentBackground(drawsTransparentBackground), m_pageID);
}
void WebPageProxy::viewWillStartLiveResize()
{
if (!isValid())
return;
process()->send(Messages::WebPage::ViewWillStartLiveResize(), m_pageID);
}
void WebPageProxy::viewWillEndLiveResize()
{
if (!isValid())
return;
process()->send(Messages::WebPage::ViewWillEndLiveResize(), m_pageID);
}
void WebPageProxy::setViewNeedsDisplay(const IntRect& rect)
{
m_pageClient->setViewNeedsDisplay(rect);
}
void WebPageProxy::displayView()
{
m_pageClient->displayView();
}
void WebPageProxy::scrollView(const IntRect& scrollRect, const IntSize& scrollOffset)
{
m_pageClient->scrollView(scrollRect, scrollOffset);
}
void WebPageProxy::viewStateDidChange(ViewStateFlags flags)
{
if (!isValid())
return;
if (flags & ViewIsFocused)
process()->send(Messages::WebPage::SetFocused(m_pageClient->isViewFocused()), m_pageID);
if (flags & ViewWindowIsActive)
process()->send(Messages::WebPage::SetActive(m_pageClient->isViewWindowActive()), m_pageID);
if (flags & ViewIsVisible) {
bool isVisible = m_pageClient->isViewVisible();
if (isVisible != m_isVisible) {
m_isVisible = isVisible;
m_drawingArea->visibilityDidChange();
if (!m_isVisible) {
// If we've started the responsiveness timer as part of telling the web process to update the backing store
// state, it might not send back a reply (since it won't paint anything if the web page is hidden) so we
// stop the unresponsiveness timer here.
process()->responsivenessTimer()->stop();
}
}
}
if (flags & ViewIsInWindow) {
bool isInWindow = m_pageClient->isViewInWindow();
if (m_isInWindow != isInWindow) {
m_isInWindow = isInWindow;
process()->send(Messages::WebPage::SetIsInWindow(isInWindow), m_pageID);
}
}
updateBackingStoreDiscardableState();
}
IntSize WebPageProxy::viewSize() const
{
return m_pageClient->viewSize();
}
void WebPageProxy::setInitialFocus(bool forward, bool isKeyboardEventValid, const WebKeyboardEvent& keyboardEvent)
{
if (!isValid())
return;
process()->send(Messages::WebPage::SetInitialFocus(forward, isKeyboardEventValid, keyboardEvent), m_pageID);
}
void WebPageProxy::setWindowResizerSize(const IntSize& windowResizerSize)
{
if (!isValid())
return;
process()->send(Messages::WebPage::SetWindowResizerSize(windowResizerSize), m_pageID);
}
void WebPageProxy::clearSelection()
{
if (!isValid())
return;
process()->send(Messages::WebPage::ClearSelection(), m_pageID);
}
void WebPageProxy::validateCommand(const String& commandName, PassRefPtr<ValidateCommandCallback> callback)
{
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_validateCommandCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::ValidateCommand(commandName, callbackID), m_pageID);
}
void WebPageProxy::setMaintainsInactiveSelection(bool newValue)
{
m_maintainsInactiveSelection = newValue;
}
void WebPageProxy::executeEditCommand(const String& commandName)
{
if (!isValid())
return;
DEFINE_STATIC_LOCAL(String, ignoreSpellingCommandName, ("ignoreSpelling"));
if (commandName == ignoreSpellingCommandName)
++m_pendingLearnOrIgnoreWordMessageCount;
process()->send(Messages::WebPage::ExecuteEditCommand(commandName), m_pageID);
}
#if USE(TILED_BACKING_STORE)
void WebPageProxy::setFixedVisibleContentRect(const IntRect& rect)
{
if (!isValid())
return;
process()->send(Messages::WebPage::SetFixedVisibleContentRect(rect), m_pageID);
}
void WebPageProxy::setViewportSize(const IntSize& size)
{
if (!isValid())
return;
process()->send(Messages::WebPage::SetViewportSize(size), m_pageID);
}
#endif
void WebPageProxy::dragEntered(DragData* dragData, const String& dragStorageName)
{
SandboxExtension::Handle sandboxExtensionHandle;
performDragControllerAction(DragControllerActionEntered, dragData, dragStorageName, sandboxExtensionHandle);
}
void WebPageProxy::dragUpdated(DragData* dragData, const String& dragStorageName)
{
SandboxExtension::Handle sandboxExtensionHandle;
performDragControllerAction(DragControllerActionUpdated, dragData, dragStorageName, sandboxExtensionHandle);
}
void WebPageProxy::dragExited(DragData* dragData, const String& dragStorageName)
{
SandboxExtension::Handle sandboxExtensionHandle;
performDragControllerAction(DragControllerActionExited, dragData, dragStorageName, sandboxExtensionHandle);
}
void WebPageProxy::performDrag(DragData* dragData, const String& dragStorageName, const SandboxExtension::Handle& sandboxExtensionHandle)
{
performDragControllerAction(DragControllerActionPerformDrag, dragData, dragStorageName, sandboxExtensionHandle);
}
void WebPageProxy::performDragControllerAction(DragControllerAction action, DragData* dragData, const String& dragStorageName, const SandboxExtension::Handle& sandboxExtensionHandle)
{
if (!isValid())
return;
#if PLATFORM(WIN)
// FIXME: We should pass the drag data map only on DragEnter.
process()->send(Messages::WebPage::PerformDragControllerAction(action, dragData->clientPosition(), dragData->globalPosition(),
dragData->draggingSourceOperationMask(), dragData->dragDataMap(), dragData->flags()), m_pageID);
#elif PLATFORM(QT) || PLATFORM(GTK)
process()->send(Messages::WebPage::PerformDragControllerAction(action, *dragData), m_pageID);
#else
process()->send(Messages::WebPage::PerformDragControllerAction(action, dragData->clientPosition(), dragData->globalPosition(), dragData->draggingSourceOperationMask(), dragStorageName, dragData->flags(), sandboxExtensionHandle), m_pageID);
#endif
}
void WebPageProxy::didPerformDragControllerAction(WebCore::DragSession dragSession)
{
m_currentDragSession = dragSession;
}
#if PLATFORM(QT) || PLATFORM(GTK)
void WebPageProxy::startDrag(const DragData& dragData, const ShareableBitmap::Handle& dragImageHandle)
{
RefPtr<ShareableBitmap> dragImage = 0;
if (!dragImageHandle.isNull()) {
dragImage = ShareableBitmap::create(dragImageHandle);
if (!dragImage)
return;
}
m_pageClient->startDrag(dragData, dragImage.release());
}
#endif
void WebPageProxy::dragEnded(const IntPoint& clientPosition, const IntPoint& globalPosition, uint64_t operation)
{
if (!isValid())
return;
process()->send(Messages::WebPage::DragEnded(clientPosition, globalPosition, operation), m_pageID);
}
void WebPageProxy::handleMouseEvent(const NativeWebMouseEvent& event)
{
if (!isValid())
return;
// NOTE: This does not start the responsiveness timer because mouse move should not indicate interaction.
if (event.type() != WebEvent::MouseMove)
process()->responsivenessTimer()->start();
else {
if (m_processingMouseMoveEvent) {
m_nextMouseMoveEvent = adoptPtr(new NativeWebMouseEvent(event));
return;
}
m_processingMouseMoveEvent = true;
}
// <https://bugs.webkit.org/show_bug.cgi?id=57904> We need to keep track of the mouse down event in the case where we
// display a popup menu for select elements. When the user changes the selected item,
// we fake a mouse up event by using this stored down event. This event gets cleared
// when the mouse up message is received from WebProcess.
if (event.type() == WebEvent::MouseDown)
m_currentlyProcessedMouseDownEvent = adoptPtr(new NativeWebMouseEvent(event));
if (m_shouldSendEventsSynchronously) {
bool handled = false;
process()->sendSync(Messages::WebPage::MouseEventSyncForTesting(event), Messages::WebPage::MouseEventSyncForTesting::Reply(handled), m_pageID);
didReceiveEvent(event.type(), handled);
} else
process()->send(Messages::WebPage::MouseEvent(event), m_pageID);
}
void WebPageProxy::handleWheelEvent(const NativeWebWheelEvent& event)
{
if (!isValid())
return;
if (!m_currentlyProcessedWheelEvents.isEmpty()) {
m_wheelEventQueue.append(event);
return;
}
m_currentlyProcessedWheelEvents.append(event);
process()->responsivenessTimer()->start();
if (m_shouldSendEventsSynchronously) {
bool handled = false;
process()->sendSync(Messages::WebPage::WheelEventSyncForTesting(event), Messages::WebPage::WheelEventSyncForTesting::Reply(handled), m_pageID);
didReceiveEvent(event.type(), handled);
} else
process()->send(Messages::EventDispatcher::WheelEvent(m_pageID, event), 0);
}
void WebPageProxy::handleKeyboardEvent(const NativeWebKeyboardEvent& event)
{
if (!isValid())
return;
LOG(KeyHandling, "WebPageProxy::handleKeyboardEvent: %s", webKeyboardEventTypeString(event.type()));
m_keyEventQueue.append(event);
process()->responsivenessTimer()->start();
if (m_shouldSendEventsSynchronously) {
bool handled = false;
process()->sendSync(Messages::WebPage::KeyEventSyncForTesting(event), Messages::WebPage::KeyEventSyncForTesting::Reply(handled), m_pageID);
didReceiveEvent(event.type(), handled);
} else
process()->send(Messages::WebPage::KeyEvent(event), m_pageID);
}
#if ENABLE(GESTURE_EVENTS)
void WebPageProxy::handleGestureEvent(const WebGestureEvent& event)
{
if (!isValid())
return;
m_gestureEventQueue.append(event);
process()->responsivenessTimer()->start();
process()->send(Messages::EventDispatcher::GestureEvent(m_pageID, event), 0);
}
#endif
#if ENABLE(TOUCH_EVENTS)
void WebPageProxy::handleTouchEvent(const NativeWebTouchEvent& event)
{
if (!isValid())
return;
if (m_needTouchEvents) {
m_touchEventQueue.append(event);
process()->responsivenessTimer()->start();
if (m_shouldSendEventsSynchronously) {
bool handled = false;
process()->sendSync(Messages::WebPage::TouchEventSyncForTesting(event), Messages::WebPage::TouchEventSyncForTesting::Reply(handled), m_pageID);
didReceiveEvent(event.type(), handled);
} else
process()->send(Messages::WebPage::TouchEvent(event), m_pageID);
} else {
if (m_touchEventQueue.isEmpty()) {
bool isEventHandled = false;
m_pageClient->doneWithTouchEvent(event, isEventHandled);
} else {
// We attach the incoming events to the newest queued event so that all
// the events are delivered in the correct order when the event is dequed.
QueuedTouchEvents& lastEvent = m_touchEventQueue.last();
lastEvent.deferredTouchEvents.append(event);
}
}
}
#endif
void WebPageProxy::scrollBy(ScrollDirection direction, ScrollGranularity granularity)
{
if (!isValid())
return;
process()->send(Messages::WebPage::ScrollBy(direction, granularity), m_pageID);
}
void WebPageProxy::centerSelectionInVisibleArea()
{
if (!isValid())
return;
process()->send(Messages::WebPage::CenterSelectionInVisibleArea(), m_pageID);
}
void WebPageProxy::receivedPolicyDecision(PolicyAction action, WebFrameProxy* frame, uint64_t listenerID)
{
if (!isValid())
return;
if (action == PolicyIgnore)
clearPendingAPIRequestURL();
uint64_t downloadID = 0;
if (action == PolicyDownload) {
// Create a download proxy.
DownloadProxy* download = m_process->context()->createDownloadProxy();
downloadID = download->downloadID();
#if PLATFORM(QT)
// Our design does not suppport downloads without a WebPage.
handleDownloadRequest(download);
#endif
}
// If we received a policy decision while in decidePolicyForResponse the decision will
// be sent back to the web process by decidePolicyForResponse.
if (m_inDecidePolicyForResponse) {
m_syncMimeTypePolicyActionIsValid = true;
m_syncMimeTypePolicyAction = action;
m_syncMimeTypePolicyDownloadID = downloadID;
return;
}
// If we received a policy decision while in decidePolicyForNavigationAction the decision will
// be sent back to the web process by decidePolicyForNavigationAction.
if (m_inDecidePolicyForNavigationAction) {
m_syncNavigationActionPolicyActionIsValid = true;
m_syncNavigationActionPolicyAction = action;
m_syncNavigationActionPolicyDownloadID = downloadID;
return;
}
process()->send(Messages::WebPage::DidReceivePolicyDecision(frame->frameID(), listenerID, action, downloadID), m_pageID);
}
String WebPageProxy::pageTitle() const
{
// Return the null string if there is no main frame (e.g. nothing has been loaded in the page yet, WebProcess has
// crashed, page has been closed).
if (!m_mainFrame)
return String();
return m_mainFrame->title();
}
void WebPageProxy::setUserAgent(const String& userAgent)
{
if (m_userAgent == userAgent)
return;
m_userAgent = userAgent;
if (!isValid())
return;
process()->send(Messages::WebPage::SetUserAgent(m_userAgent), m_pageID);
}
void WebPageProxy::setApplicationNameForUserAgent(const String& applicationName)
{
if (m_applicationNameForUserAgent == applicationName)
return;
m_applicationNameForUserAgent = applicationName;
if (!m_customUserAgent.isEmpty())
return;
setUserAgent(standardUserAgent(m_applicationNameForUserAgent));
}
void WebPageProxy::setCustomUserAgent(const String& customUserAgent)
{
if (m_customUserAgent == customUserAgent)
return;
m_customUserAgent = customUserAgent;
if (m_customUserAgent.isEmpty()) {
setUserAgent(standardUserAgent(m_applicationNameForUserAgent));
return;
}
setUserAgent(m_customUserAgent);
}
bool WebPageProxy::supportsTextEncoding() const
{
return !m_mainFrameHasCustomRepresentation && m_mainFrame && !m_mainFrame->isDisplayingStandaloneImageDocument();
}
void WebPageProxy::setCustomTextEncodingName(const String& encodingName)
{
if (m_customTextEncodingName == encodingName)
return;
m_customTextEncodingName = encodingName;
if (!isValid())
return;
process()->send(Messages::WebPage::SetCustomTextEncodingName(encodingName), m_pageID);
}
void WebPageProxy::terminateProcess()
{
// NOTE: This uses a check of m_isValid rather than calling isValid() since
// we want this to run even for pages being closed or that already closed.
if (!m_isValid)
return;
process()->terminate();
}
#if !USE(CF) || defined(BUILDING_QT__)
PassRefPtr<WebData> WebPageProxy::sessionStateData(WebPageProxySessionStateFilterCallback, void* context) const
{
// FIXME: Return session state data for saving Page state.
return 0;
}
void WebPageProxy::restoreFromSessionStateData(WebData*)
{
// FIXME: Restore the Page from the passed in session state data.
}
#endif
bool WebPageProxy::supportsTextZoom() const
{
if (m_mainFrameHasCustomRepresentation)
return false;
// FIXME: This should also return false for standalone media and plug-in documents.
if (!m_mainFrame || m_mainFrame->isDisplayingStandaloneImageDocument())
return false;
return true;
}
void WebPageProxy::setTextZoomFactor(double zoomFactor)
{
if (!isValid())
return;
if (m_mainFrameHasCustomRepresentation)
return;
if (m_textZoomFactor == zoomFactor)
return;
m_textZoomFactor = zoomFactor;
process()->send(Messages::WebPage::SetTextZoomFactor(m_textZoomFactor), m_pageID);
}
double WebPageProxy::pageZoomFactor() const
{
return m_mainFrameHasCustomRepresentation ? m_pageClient->customRepresentationZoomFactor() : m_pageZoomFactor;
}
void WebPageProxy::setPageZoomFactor(double zoomFactor)
{
if (!isValid())
return;
if (m_mainFrameHasCustomRepresentation) {
m_pageClient->setCustomRepresentationZoomFactor(zoomFactor);
return;
}
if (m_pageZoomFactor == zoomFactor)
return;
m_pageZoomFactor = zoomFactor;
process()->send(Messages::WebPage::SetPageZoomFactor(m_pageZoomFactor), m_pageID);
}
void WebPageProxy::setPageAndTextZoomFactors(double pageZoomFactor, double textZoomFactor)
{
if (!isValid())
return;
if (m_mainFrameHasCustomRepresentation) {
m_pageClient->setCustomRepresentationZoomFactor(pageZoomFactor);
return;
}
if (m_pageZoomFactor == pageZoomFactor && m_textZoomFactor == textZoomFactor)
return;
m_pageZoomFactor = pageZoomFactor;
m_textZoomFactor = textZoomFactor;
process()->send(Messages::WebPage::SetPageAndTextZoomFactors(m_pageZoomFactor, m_textZoomFactor), m_pageID);
}
void WebPageProxy::scalePage(double scale, const IntPoint& origin)
{
if (!isValid())
return;
process()->send(Messages::WebPage::ScalePage(scale, origin), m_pageID);
}
void WebPageProxy::setIntrinsicDeviceScaleFactor(float scaleFactor)
{
if (!isValid())
return;
if (m_intrinsicDeviceScaleFactor == scaleFactor)
return;
m_intrinsicDeviceScaleFactor = scaleFactor;
m_drawingArea->deviceScaleFactorDidChange();
}
void WebPageProxy::windowScreenDidChange(PlatformDisplayID displayID)
{
if (!isValid())
return;
process()->send(Messages::WebPage::WindowScreenDidChange(displayID), m_pageID);
}
float WebPageProxy::deviceScaleFactor() const
{
if (m_customDeviceScaleFactor)
return m_customDeviceScaleFactor;
return m_intrinsicDeviceScaleFactor;
}
void WebPageProxy::setCustomDeviceScaleFactor(float customScaleFactor)
{
if (!isValid())
return;
if (m_customDeviceScaleFactor == customScaleFactor)
return;
float oldScaleFactor = deviceScaleFactor();
m_customDeviceScaleFactor = customScaleFactor;
if (deviceScaleFactor() != oldScaleFactor)
m_drawingArea->deviceScaleFactorDidChange();
}
void WebPageProxy::setUseFixedLayout(bool fixed)
{
if (!isValid())
return;
// This check is fine as the value is initialized in the web
// process as part of the creation parameters.
if (fixed == m_useFixedLayout)
return;
m_useFixedLayout = fixed;
if (!fixed)
m_fixedLayoutSize = IntSize();
process()->send(Messages::WebPage::SetUseFixedLayout(fixed), m_pageID);
}
void WebPageProxy::setFixedLayoutSize(const IntSize& size)
{
if (!isValid())
return;
if (size == m_fixedLayoutSize)
return;
m_fixedLayoutSize = size;
process()->send(Messages::WebPage::SetFixedLayoutSize(size), m_pageID);
}
void WebPageProxy::setPaginationMode(WebCore::Page::Pagination::Mode mode)
{
if (mode == m_paginationMode)
return;
m_paginationMode = mode;
if (!isValid())
return;
process()->send(Messages::WebPage::SetPaginationMode(mode), m_pageID);
}
void WebPageProxy::setPageLength(double pageLength)
{
if (pageLength == m_pageLength)
return;
m_pageLength = pageLength;
if (!isValid())
return;
process()->send(Messages::WebPage::SetPageLength(pageLength), m_pageID);
}
void WebPageProxy::setGapBetweenPages(double gap)
{
if (gap == m_gapBetweenPages)
return;
m_gapBetweenPages = gap;
if (!isValid())
return;
process()->send(Messages::WebPage::SetGapBetweenPages(gap), m_pageID);
}
void WebPageProxy::pageScaleFactorDidChange(double scaleFactor)
{
m_pageScaleFactor = scaleFactor;
}
void WebPageProxy::setMemoryCacheClientCallsEnabled(bool memoryCacheClientCallsEnabled)
{
if (!isValid())
return;
if (m_areMemoryCacheClientCallsEnabled == memoryCacheClientCallsEnabled)
return;
m_areMemoryCacheClientCallsEnabled = memoryCacheClientCallsEnabled;
process()->send(Messages::WebPage::SetMemoryCacheMessagesEnabled(memoryCacheClientCallsEnabled), m_pageID);
}
void WebPageProxy::findString(const String& string, FindOptions options, unsigned maxMatchCount)
{
if (m_mainFrameHasCustomRepresentation)
m_pageClient->findStringInCustomRepresentation(string, options, maxMatchCount);
else
process()->send(Messages::WebPage::FindString(string, options, maxMatchCount), m_pageID);
}
void WebPageProxy::hideFindUI()
{
process()->send(Messages::WebPage::HideFindUI(), m_pageID);
}
void WebPageProxy::countStringMatches(const String& string, FindOptions options, unsigned maxMatchCount)
{
if (m_mainFrameHasCustomRepresentation) {
m_pageClient->countStringMatchesInCustomRepresentation(string, options, maxMatchCount);
return;
}
if (!isValid())
return;
process()->send(Messages::WebPage::CountStringMatches(string, options, maxMatchCount), m_pageID);
}
void WebPageProxy::runJavaScriptInMainFrame(const String& script, PassRefPtr<ScriptValueCallback> prpCallback)
{
RefPtr<ScriptValueCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_scriptValueCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::RunJavaScriptInMainFrame(script, callbackID), m_pageID);
}
void WebPageProxy::getRenderTreeExternalRepresentation(PassRefPtr<StringCallback> prpCallback)
{
RefPtr<StringCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_stringCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::GetRenderTreeExternalRepresentation(callbackID), m_pageID);
}
void WebPageProxy::getSourceForFrame(WebFrameProxy* frame, PassRefPtr<StringCallback> prpCallback)
{
RefPtr<StringCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_loadDependentStringCallbackIDs.add(callbackID);
m_stringCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::GetSourceForFrame(frame->frameID(), callbackID), m_pageID);
}
void WebPageProxy::getContentsAsString(PassRefPtr<StringCallback> prpCallback)
{
RefPtr<StringCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_loadDependentStringCallbackIDs.add(callbackID);
m_stringCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::GetContentsAsString(callbackID), m_pageID);
}
void WebPageProxy::getSelectionOrContentsAsString(PassRefPtr<StringCallback> prpCallback)
{
RefPtr<StringCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_stringCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::GetSelectionOrContentsAsString(callbackID), m_pageID);
}
void WebPageProxy::getMainResourceDataOfFrame(WebFrameProxy* frame, PassRefPtr<DataCallback> prpCallback)
{
RefPtr<DataCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_dataCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::GetMainResourceDataOfFrame(frame->frameID(), callbackID), m_pageID);
}
void WebPageProxy::getResourceDataFromFrame(WebFrameProxy* frame, WebURL* resourceURL, PassRefPtr<DataCallback> prpCallback)
{
RefPtr<DataCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_dataCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::GetResourceDataFromFrame(frame->frameID(), resourceURL->string(), callbackID), m_pageID);
}
void WebPageProxy::getWebArchiveOfFrame(WebFrameProxy* frame, PassRefPtr<DataCallback> prpCallback)
{
RefPtr<DataCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_dataCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::GetWebArchiveOfFrame(frame->frameID(), callbackID), m_pageID);
}
void WebPageProxy::forceRepaint(PassRefPtr<VoidCallback> prpCallback)
{
RefPtr<VoidCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_voidCallbacks.set(callbackID, callback.get());
m_drawingArea->waitForBackingStoreUpdateOnNextPaint();
process()->send(Messages::WebPage::ForceRepaint(callbackID), m_pageID);
}
void WebPageProxy::preferencesDidChange()
{
if (!isValid())
return;
// FIXME: It probably makes more sense to send individual preference changes.
// However, WebKitTestRunner depends on getting a preference change notification
// even if nothing changed in UI process, so that overrides get removed.
// Preferences need to be updated during synchronous printing to make "print backgrounds" preference work when toggled from a print dialog checkbox.
process()->send(Messages::WebPage::PreferencesDidChange(pageGroup()->preferences()->store()), m_pageID, m_isPerformingDOMPrintOperation ? CoreIPC::DispatchMessageEvenWhenWaitingForSyncReply : 0);
}
void WebPageProxy::didReceiveMessage(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments)
{
if (messageID.is<CoreIPC::MessageClassDrawingAreaProxy>()) {
m_drawingArea->didReceiveDrawingAreaProxyMessage(connection, messageID, arguments);
return;
}
#if USE(ACCELERATED_COMPOSITING) && USE(TEXTURE_MAPPER)
if (messageID.is<CoreIPC::MessageClassLayerTreeHostProxy>()) {
m_drawingArea->didReceiveLayerTreeHostProxyMessage(connection, messageID, arguments);
return;
}
#endif
#if ENABLE(INSPECTOR)
if (messageID.is<CoreIPC::MessageClassWebInspectorProxy>()) {
if (WebInspectorProxy* inspector = this->inspector())
inspector->didReceiveWebInspectorProxyMessage(connection, messageID, arguments);
return;
}
#endif
#if ENABLE(FULLSCREEN_API)
if (messageID.is<CoreIPC::MessageClassWebFullScreenManagerProxy>()) {
fullScreenManager()->didReceiveMessage(connection, messageID, arguments);
return;
}
#endif
didReceiveWebPageProxyMessage(connection, messageID, arguments);
}
void WebPageProxy::didReceiveSyncMessage(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments, OwnPtr<CoreIPC::ArgumentEncoder>& reply)
{
#if ENABLE(INSPECTOR)
if (messageID.is<CoreIPC::MessageClassWebInspectorProxy>()) {
if (WebInspectorProxy* inspector = this->inspector())
inspector->didReceiveSyncWebInspectorProxyMessage(connection, messageID, arguments, reply);
return;
}
#endif
#if ENABLE(FULLSCREEN_API)
if (messageID.is<CoreIPC::MessageClassWebFullScreenManagerProxy>()) {
fullScreenManager()->didReceiveSyncMessage(connection, messageID, arguments, reply);
return;
}
#endif
// FIXME: Do something with reply.
didReceiveSyncWebPageProxyMessage(connection, messageID, arguments, reply);
}
void WebPageProxy::didCreateMainFrame(uint64_t frameID)
{
MESSAGE_CHECK(!m_mainFrame);
MESSAGE_CHECK(process()->canCreateFrame(frameID));
m_mainFrame = WebFrameProxy::create(this, frameID);
// Add the frame to the process wide map.
process()->frameCreated(frameID, m_mainFrame.get());
}
void WebPageProxy::didCreateSubframe(uint64_t frameID, uint64_t parentFrameID)
{
MESSAGE_CHECK(m_mainFrame);
WebFrameProxy* parentFrame = process()->webFrame(parentFrameID);
MESSAGE_CHECK(parentFrame);
MESSAGE_CHECK(parentFrame->isDescendantOf(m_mainFrame.get()));
MESSAGE_CHECK(process()->canCreateFrame(frameID));
RefPtr<WebFrameProxy> subFrame = WebFrameProxy::create(this, frameID);
// Add the frame to the process wide map.
process()->frameCreated(frameID, subFrame.get());
// Insert the frame into the frame hierarchy.
parentFrame->appendChild(subFrame.get());
}
static bool isDisconnectedFrame(WebFrameProxy* frame)
{
return !frame->page() || !frame->page()->mainFrame() || !frame->isDescendantOf(frame->page()->mainFrame());
}
void WebPageProxy::didSaveFrameToPageCache(uint64_t frameID)
{
MESSAGE_CHECK(m_mainFrame);
WebFrameProxy* subframe = process()->webFrame(frameID);
MESSAGE_CHECK(subframe);
if (isDisconnectedFrame(subframe))
return;
MESSAGE_CHECK(subframe->isDescendantOf(m_mainFrame.get()));
subframe->didRemoveFromHierarchy();
}
void WebPageProxy::didRestoreFrameFromPageCache(uint64_t frameID, uint64_t parentFrameID)
{
MESSAGE_CHECK(m_mainFrame);
WebFrameProxy* subframe = process()->webFrame(frameID);
MESSAGE_CHECK(subframe);
MESSAGE_CHECK(!subframe->parentFrame());
MESSAGE_CHECK(subframe->page() == m_mainFrame->page());
WebFrameProxy* parentFrame = process()->webFrame(parentFrameID);
MESSAGE_CHECK(parentFrame);
MESSAGE_CHECK(parentFrame->isDescendantOf(m_mainFrame.get()));
// Insert the frame into the frame hierarchy.
parentFrame->appendChild(subframe);
}
// Always start progress at initialProgressValue. This helps provide feedback as
// soon as a load starts.
static const double initialProgressValue = 0.1;
double WebPageProxy::estimatedProgress() const
{
if (!pendingAPIRequestURL().isNull())
return initialProgressValue;
return m_estimatedProgress;
}
void WebPageProxy::didStartProgress()
{
m_estimatedProgress = initialProgressValue;
m_loaderClient.didStartProgress(this);
}
void WebPageProxy::didChangeProgress(double value)
{
m_estimatedProgress = value;
m_loaderClient.didChangeProgress(this);
}
void WebPageProxy::didFinishProgress()
{
m_estimatedProgress = 1.0;
m_loaderClient.didFinishProgress(this);
}
void WebPageProxy::didStartProvisionalLoadForFrame(uint64_t frameID, const String& url, const String& unreachableURL, CoreIPC::ArgumentDecoder* arguments)
{
clearPendingAPIRequestURL();
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(url);
frame->setUnreachableURL(unreachableURL);
frame->didStartProvisionalLoad(url);
m_loaderClient.didStartProvisionalLoadForFrame(this, frame, userData.get());
}
void WebPageProxy::didReceiveServerRedirectForProvisionalLoadForFrame(uint64_t frameID, const String& url, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(url);
frame->didReceiveServerRedirectForProvisionalLoad(url);
m_loaderClient.didReceiveServerRedirectForProvisionalLoadForFrame(this, frame, userData.get());
}
void WebPageProxy::didFailProvisionalLoadForFrame(uint64_t frameID, const ResourceError& error, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
frame->didFailProvisionalLoad();
m_loaderClient.didFailProvisionalLoadWithErrorForFrame(this, frame, error, userData.get());
}
void WebPageProxy::clearLoadDependentCallbacks()
{
Vector<uint64_t> callbackIDsCopy;
copyToVector(m_loadDependentStringCallbackIDs, callbackIDsCopy);
m_loadDependentStringCallbackIDs.clear();
for (size_t i = 0; i < callbackIDsCopy.size(); ++i) {
RefPtr<StringCallback> callback = m_stringCallbacks.take(callbackIDsCopy[i]);
if (callback)
callback->invalidate();
}
}
void WebPageProxy::didCommitLoadForFrame(uint64_t frameID, const String& mimeType, bool frameHasCustomRepresentation, const PlatformCertificateInfo& certificateInfo, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
#if PLATFORM(MAC)
// FIXME (bug 59111): didCommitLoadForFrame comes too late when restoring a page from b/f cache, making us disable secure event mode in password fields.
// FIXME (bug 59121): A load going on in one frame shouldn't affect typing in sibling frames.
m_pageClient->resetTextInputState();
#if !defined(BUILDING_ON_SNOW_LEOPARD)
// FIXME: Should this be moved inside resetTextInputState()?
dismissCorrectionPanel(ReasonForDismissingCorrectionPanelIgnored);
m_pageClient->dismissDictionaryLookupPanel();
#endif
#endif
clearLoadDependentCallbacks();
frame->didCommitLoad(mimeType, certificateInfo);
if (frame->isMainFrame()) {
m_mainFrameHasCustomRepresentation = frameHasCustomRepresentation;
m_pageClient->didCommitLoadForMainFrame(frameHasCustomRepresentation);
}
m_loaderClient.didCommitLoadForFrame(this, frame, userData.get());
}
void WebPageProxy::didFinishDocumentLoadForFrame(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_loaderClient.didFinishDocumentLoadForFrame(this, frame, userData.get());
}
void WebPageProxy::didFinishLoadForFrame(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
frame->didFinishLoad();
m_loaderClient.didFinishLoadForFrame(this, frame, userData.get());
}
void WebPageProxy::didFailLoadForFrame(uint64_t frameID, const ResourceError& error, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
clearLoadDependentCallbacks();
frame->didFailLoad();
m_loaderClient.didFailLoadWithErrorForFrame(this, frame, error, userData.get());
}
void WebPageProxy::didSameDocumentNavigationForFrame(uint64_t frameID, uint32_t opaqueSameDocumentNavigationType, const String& url, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(url);
clearPendingAPIRequestURL();
frame->didSameDocumentNavigation(url);
m_loaderClient.didSameDocumentNavigationForFrame(this, frame, static_cast<SameDocumentNavigationType>(opaqueSameDocumentNavigationType), userData.get());
}
void WebPageProxy::didReceiveTitleForFrame(uint64_t frameID, const String& title, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
frame->didChangeTitle(title);
m_loaderClient.didReceiveTitleForFrame(this, title, frame, userData.get());
}
void WebPageProxy::didFirstLayoutForFrame(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_loaderClient.didFirstLayoutForFrame(this, frame, userData.get());
}
void WebPageProxy::didFirstVisuallyNonEmptyLayoutForFrame(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_loaderClient.didFirstVisuallyNonEmptyLayoutForFrame(this, frame, userData.get());
}
void WebPageProxy::didRemoveFrameFromHierarchy(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
frame->didRemoveFromHierarchy();
m_loaderClient.didRemoveFrameFromHierarchy(this, frame, userData.get());
}
void WebPageProxy::didDisplayInsecureContentForFrame(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_loaderClient.didDisplayInsecureContentForFrame(this, frame, userData.get());
}
void WebPageProxy::didRunInsecureContentForFrame(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_loaderClient.didRunInsecureContentForFrame(this, frame, userData.get());
}
void WebPageProxy::didDetectXSSForFrame(uint64_t frameID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_loaderClient.didDetectXSSForFrame(this, frame, userData.get());
}
void WebPageProxy::frameDidBecomeFrameSet(uint64_t frameID, bool value)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
frame->setIsFrameSet(value);
if (frame->isMainFrame())
m_frameSetLargestFrame = value ? m_mainFrame : 0;
}
// PolicyClient
void WebPageProxy::decidePolicyForNavigationAction(uint64_t frameID, uint32_t opaqueNavigationType, uint32_t opaqueModifiers, int32_t opaqueMouseButton, const ResourceRequest& request, uint64_t listenerID, CoreIPC::ArgumentDecoder* arguments, bool& receivedPolicyAction, uint64_t& policyAction, uint64_t& downloadID)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
if (request.url() != pendingAPIRequestURL())
clearPendingAPIRequestURL();
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(request.url());
NavigationType navigationType = static_cast<NavigationType>(opaqueNavigationType);
WebEvent::Modifiers modifiers = static_cast<WebEvent::Modifiers>(opaqueModifiers);
WebMouseEvent::Button mouseButton = static_cast<WebMouseEvent::Button>(opaqueMouseButton);
RefPtr<WebFramePolicyListenerProxy> listener = frame->setUpPolicyListenerProxy(listenerID);
ASSERT(!m_inDecidePolicyForNavigationAction);
m_inDecidePolicyForNavigationAction = true;
m_syncNavigationActionPolicyActionIsValid = false;
if (!m_policyClient.decidePolicyForNavigationAction(this, frame, navigationType, modifiers, mouseButton, request, listener.get(), userData.get()))
listener->use();
m_inDecidePolicyForNavigationAction = false;
// Check if we received a policy decision already. If we did, we can just pass it back.
receivedPolicyAction = m_syncNavigationActionPolicyActionIsValid;
if (m_syncNavigationActionPolicyActionIsValid) {
policyAction = m_syncNavigationActionPolicyAction;
downloadID = m_syncNavigationActionPolicyDownloadID;
}
}
void WebPageProxy::decidePolicyForNewWindowAction(uint64_t frameID, uint32_t opaqueNavigationType, uint32_t opaqueModifiers, int32_t opaqueMouseButton, const ResourceRequest& request, const String& frameName, uint64_t listenerID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(request.url());
NavigationType navigationType = static_cast<NavigationType>(opaqueNavigationType);
WebEvent::Modifiers modifiers = static_cast<WebEvent::Modifiers>(opaqueModifiers);
WebMouseEvent::Button mouseButton = static_cast<WebMouseEvent::Button>(opaqueMouseButton);
RefPtr<WebFramePolicyListenerProxy> listener = frame->setUpPolicyListenerProxy(listenerID);
if (!m_policyClient.decidePolicyForNewWindowAction(this, frame, navigationType, modifiers, mouseButton, request, frameName, listener.get(), userData.get()))
listener->use();
}
void WebPageProxy::decidePolicyForResponse(uint64_t frameID, const ResourceResponse& response, const ResourceRequest& request, uint64_t listenerID, CoreIPC::ArgumentDecoder* arguments, bool& receivedPolicyAction, uint64_t& policyAction, uint64_t& downloadID)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(request.url());
MESSAGE_CHECK_URL(response.url());
RefPtr<WebFramePolicyListenerProxy> listener = frame->setUpPolicyListenerProxy(listenerID);
ASSERT(!m_inDecidePolicyForResponse);
m_inDecidePolicyForResponse = true;
m_syncMimeTypePolicyActionIsValid = false;
if (!m_policyClient.decidePolicyForResponse(this, frame, response, request, listener.get(), userData.get()))
listener->use();
m_inDecidePolicyForResponse = false;
// Check if we received a policy decision already. If we did, we can just pass it back.
receivedPolicyAction = m_syncMimeTypePolicyActionIsValid;
if (m_syncMimeTypePolicyActionIsValid) {
policyAction = m_syncMimeTypePolicyAction;
downloadID = m_syncMimeTypePolicyDownloadID;
}
}
void WebPageProxy::unableToImplementPolicy(uint64_t frameID, const ResourceError& error, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_policyClient.unableToImplementPolicy(this, frame, error, userData.get());
}
// FormClient
void WebPageProxy::willSubmitForm(uint64_t frameID, uint64_t sourceFrameID, const StringPairVector& textFieldValues, uint64_t listenerID, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
WebFrameProxy* sourceFrame = process()->webFrame(sourceFrameID);
MESSAGE_CHECK(sourceFrame);
RefPtr<WebFormSubmissionListenerProxy> listener = frame->setUpFormSubmissionListenerProxy(listenerID);
if (!m_formClient.willSubmitForm(this, frame, sourceFrame, textFieldValues.stringPairVector(), userData.get(), listener.get()))
listener->continueSubmission();
}
// ResourceLoad Client
void WebPageProxy::didInitiateLoadForResource(uint64_t frameID, uint64_t resourceIdentifier, const ResourceRequest& request, bool pageIsProvisionallyLoading)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(request.url());
m_resourceLoadClient.didInitiateLoadForResource(this, frame, resourceIdentifier, request, pageIsProvisionallyLoading);
}
void WebPageProxy::didSendRequestForResource(uint64_t frameID, uint64_t resourceIdentifier, const ResourceRequest& request, const ResourceResponse& redirectResponse)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(request.url());
m_resourceLoadClient.didSendRequestForResource(this, frame, resourceIdentifier, request, redirectResponse);
}
void WebPageProxy::didReceiveResponseForResource(uint64_t frameID, uint64_t resourceIdentifier, const ResourceResponse& response)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
MESSAGE_CHECK_URL(response.url());
m_resourceLoadClient.didReceiveResponseForResource(this, frame, resourceIdentifier, response);
}
void WebPageProxy::didReceiveContentLengthForResource(uint64_t frameID, uint64_t resourceIdentifier, uint64_t contentLength)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_resourceLoadClient.didReceiveContentLengthForResource(this, frame, resourceIdentifier, contentLength);
}
void WebPageProxy::didFinishLoadForResource(uint64_t frameID, uint64_t resourceIdentifier)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_resourceLoadClient.didFinishLoadForResource(this, frame, resourceIdentifier);
}
void WebPageProxy::didFailLoadForResource(uint64_t frameID, uint64_t resourceIdentifier, const ResourceError& error)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_resourceLoadClient.didFailLoadForResource(this, frame, resourceIdentifier, error);
}
// UIClient
void WebPageProxy::createNewPage(const ResourceRequest& request, const WindowFeatures& windowFeatures, uint32_t opaqueModifiers, int32_t opaqueMouseButton, uint64_t& newPageID, WebPageCreationParameters& newPageParameters)
{
RefPtr<WebPageProxy> newPage = m_uiClient.createNewPage(this, request, windowFeatures, static_cast<WebEvent::Modifiers>(opaqueModifiers), static_cast<WebMouseEvent::Button>(opaqueMouseButton));
if (newPage) {
newPageID = newPage->pageID();
newPageParameters = newPage->creationParameters();
} else
newPageID = 0;
}
void WebPageProxy::showPage()
{
m_uiClient.showPage(this);
}
void WebPageProxy::closePage(bool stopResponsivenessTimer)
{
if (stopResponsivenessTimer)
process()->responsivenessTimer()->stop();
m_pageClient->clearAllEditCommands();
m_uiClient.close(this);
}
void WebPageProxy::runJavaScriptAlert(uint64_t frameID, const String& message)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
// Since runJavaScriptAlert() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
m_uiClient.runJavaScriptAlert(this, message, frame);
}
void WebPageProxy::runJavaScriptConfirm(uint64_t frameID, const String& message, bool& result)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
// Since runJavaScriptConfirm() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
result = m_uiClient.runJavaScriptConfirm(this, message, frame);
}
void WebPageProxy::runJavaScriptPrompt(uint64_t frameID, const String& message, const String& defaultValue, String& result)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
// Since runJavaScriptPrompt() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
result = m_uiClient.runJavaScriptPrompt(this, message, defaultValue, frame);
}
void WebPageProxy::shouldInterruptJavaScript(bool& result)
{
// Since shouldInterruptJavaScript() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
result = m_uiClient.shouldInterruptJavaScript(this);
}
void WebPageProxy::setStatusText(const String& text)
{
m_uiClient.setStatusText(this, text);
}
void WebPageProxy::mouseDidMoveOverElement(const WebHitTestResult::Data& hitTestResultData, uint32_t opaqueModifiers, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
WebEvent::Modifiers modifiers = static_cast<WebEvent::Modifiers>(opaqueModifiers);
m_uiClient.mouseDidMoveOverElement(this, hitTestResultData, modifiers, userData.get());
}
void WebPageProxy::missingPluginButtonClicked(const String& mimeType, const String& url, const String& pluginsPageURL)
{
MESSAGE_CHECK_URL(url);
MESSAGE_CHECK_URL(pluginsPageURL);
m_uiClient.missingPluginButtonClicked(this, mimeType, url, pluginsPageURL);
}
void WebPageProxy::setToolbarsAreVisible(bool toolbarsAreVisible)
{
m_uiClient.setToolbarsAreVisible(this, toolbarsAreVisible);
}
void WebPageProxy::getToolbarsAreVisible(bool& toolbarsAreVisible)
{
toolbarsAreVisible = m_uiClient.toolbarsAreVisible(this);
}
void WebPageProxy::setMenuBarIsVisible(bool menuBarIsVisible)
{
m_uiClient.setMenuBarIsVisible(this, menuBarIsVisible);
}
void WebPageProxy::getMenuBarIsVisible(bool& menuBarIsVisible)
{
menuBarIsVisible = m_uiClient.menuBarIsVisible(this);
}
void WebPageProxy::setStatusBarIsVisible(bool statusBarIsVisible)
{
m_uiClient.setStatusBarIsVisible(this, statusBarIsVisible);
}
void WebPageProxy::getStatusBarIsVisible(bool& statusBarIsVisible)
{
statusBarIsVisible = m_uiClient.statusBarIsVisible(this);
}
void WebPageProxy::setIsResizable(bool isResizable)
{
m_uiClient.setIsResizable(this, isResizable);
}
void WebPageProxy::getIsResizable(bool& isResizable)
{
isResizable = m_uiClient.isResizable(this);
}
void WebPageProxy::setWindowFrame(const FloatRect& newWindowFrame)
{
m_uiClient.setWindowFrame(this, m_pageClient->convertToDeviceSpace(newWindowFrame));
}
void WebPageProxy::getWindowFrame(FloatRect& newWindowFrame)
{
newWindowFrame = m_pageClient->convertToUserSpace(m_uiClient.windowFrame(this));
}
void WebPageProxy::screenToWindow(const IntPoint& screenPoint, IntPoint& windowPoint)
{
windowPoint = m_pageClient->screenToWindow(screenPoint);
}
void WebPageProxy::windowToScreen(const IntRect& viewRect, IntRect& result)
{
result = m_pageClient->windowToScreen(viewRect);
}
void WebPageProxy::runBeforeUnloadConfirmPanel(const String& message, uint64_t frameID, bool& shouldClose)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
// Since runBeforeUnloadConfirmPanel() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
shouldClose = m_uiClient.runBeforeUnloadConfirmPanel(this, message, frame);
}
#if USE(TILED_BACKING_STORE)
void WebPageProxy::pageDidRequestScroll(const IntPoint& point)
{
m_pageClient->pageDidRequestScroll(point);
}
#endif
void WebPageProxy::didChangeViewportProperties(const ViewportArguments& args)
{
m_pageClient->didChangeViewportProperties(args);
}
void WebPageProxy::pageDidScroll()
{
m_uiClient.pageDidScroll(this);
#if PLATFORM(MAC) && !defined(BUILDING_ON_SNOW_LEOPARD)
dismissCorrectionPanel(ReasonForDismissingCorrectionPanelIgnored);
#endif
}
void WebPageProxy::runOpenPanel(uint64_t frameID, const FileChooserSettings& settings)
{
if (m_openPanelResultListener) {
m_openPanelResultListener->invalidate();
m_openPanelResultListener = 0;
}
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
RefPtr<WebOpenPanelParameters> parameters = WebOpenPanelParameters::create(settings);
m_openPanelResultListener = WebOpenPanelResultListenerProxy::create(this);
// Since runOpenPanel() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
if (!m_uiClient.runOpenPanel(this, frame, parameters.get(), m_openPanelResultListener.get()))
didCancelForOpenPanel();
}
void WebPageProxy::printFrame(uint64_t frameID)
{
ASSERT(!m_isPerformingDOMPrintOperation);
m_isPerformingDOMPrintOperation = true;
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_uiClient.printFrame(this, frame);
m_isPerformingDOMPrintOperation = false;
}
void WebPageProxy::printMainFrame()
{
printFrame(m_mainFrame->frameID());
}
#if PLATFORM(QT)
void WebPageProxy::didChangeContentsSize(const IntSize& size)
{
m_pageClient->didChangeContentsSize(size);
}
void WebPageProxy::didFindZoomableArea(const IntPoint& target, const IntRect& area)
{
m_pageClient->didFindZoomableArea(target, area);
}
void WebPageProxy::findZoomableAreaForPoint(const IntPoint& point)
{
if (!isValid())
return;
process()->send(Messages::WebPage::FindZoomableAreaForPoint(point), m_pageID);
}
void WebPageProxy::didReceiveMessageFromNavigatorQtObject(const String& contents)
{
m_pageClient->didReceiveMessageFromNavigatorQtObject(contents);
}
void WebPageProxy::handleDownloadRequest(DownloadProxy* download)
{
m_pageClient->handleDownloadRequest(download);
}
void WebPageProxy::authenticationRequiredRequest(const String& hostname, const String& realm, const String& prefilledUsername, String& username, String& password)
{
m_pageClient->handleAuthenticationRequiredRequest(hostname, realm, prefilledUsername, username, password);
}
#endif // PLATFORM(QT).
#if ENABLE(TOUCH_EVENTS)
void WebPageProxy::needTouchEvents(bool needTouchEvents)
{
m_needTouchEvents = needTouchEvents;
}
#endif
void WebPageProxy::didDraw()
{
m_uiClient.didDraw(this);
}
// Inspector
#if ENABLE(INSPECTOR)
WebInspectorProxy* WebPageProxy::inspector()
{
if (isClosed() || !isValid())
return 0;
if (!m_inspector)
m_inspector = WebInspectorProxy::create(this);
return m_inspector.get();
}
#endif
#if ENABLE(FULLSCREEN_API)
WebFullScreenManagerProxy* WebPageProxy::fullScreenManager()
{
if (!m_fullScreenManager)
m_fullScreenManager = WebFullScreenManagerProxy::create(this);
return m_fullScreenManager.get();
}
#endif
// BackForwardList
void WebPageProxy::backForwardAddItem(uint64_t itemID)
{
m_backForwardList->addItem(process()->webBackForwardItem(itemID));
}
void WebPageProxy::backForwardGoToItem(uint64_t itemID)
{
m_backForwardList->goToItem(process()->webBackForwardItem(itemID));
}
void WebPageProxy::backForwardItemAtIndex(int32_t index, uint64_t& itemID)
{
WebBackForwardListItem* item = m_backForwardList->itemAtIndex(index);
itemID = item ? item->itemID() : 0;
}
void WebPageProxy::backForwardBackListCount(int32_t& count)
{
count = m_backForwardList->backListCount();
}
void WebPageProxy::backForwardForwardListCount(int32_t& count)
{
count = m_backForwardList->forwardListCount();
}
void WebPageProxy::editorStateChanged(const EditorState& editorState)
{
#if PLATFORM(MAC)
bool couldChangeSecureInputState = m_editorState.isInPasswordField != editorState.isInPasswordField || m_editorState.selectionIsNone;
#endif
m_editorState = editorState;
#if PLATFORM(MAC)
m_pageClient->updateTextInputState(couldChangeSecureInputState);
#elif PLATFORM(QT)
m_pageClient->updateTextInputState();
#endif
}
// Undo management
void WebPageProxy::registerEditCommandForUndo(uint64_t commandID, uint32_t editAction)
{
registerEditCommand(WebEditCommandProxy::create(commandID, static_cast<EditAction>(editAction), this), Undo);
}
void WebPageProxy::canUndoRedo(uint32_t action, bool& result)
{
result = m_pageClient->canUndoRedo(static_cast<UndoOrRedo>(action));
}
void WebPageProxy::executeUndoRedo(uint32_t action, bool& result)
{
m_pageClient->executeUndoRedo(static_cast<UndoOrRedo>(action));
result = true;
}
void WebPageProxy::clearAllEditCommands()
{
m_pageClient->clearAllEditCommands();
}
void WebPageProxy::didCountStringMatches(const String& string, uint32_t matchCount)
{
m_findClient.didCountStringMatches(this, string, matchCount);
}
void WebPageProxy::setFindIndicator(const FloatRect& selectionRectInWindowCoordinates, const Vector<FloatRect>& textRectsInSelectionRectCoordinates, float contentImageScaleFactor, const ShareableBitmap::Handle& contentImageHandle, bool fadeOut, bool animate)
{
RefPtr<FindIndicator> findIndicator = FindIndicator::create(selectionRectInWindowCoordinates, textRectsInSelectionRectCoordinates, contentImageScaleFactor, contentImageHandle);
m_pageClient->setFindIndicator(findIndicator.release(), fadeOut, animate);
}
void WebPageProxy::didFindString(const String& string, uint32_t matchCount)
{
m_findClient.didFindString(this, string, matchCount);
}
void WebPageProxy::didFailToFindString(const String& string)
{
m_findClient.didFailToFindString(this, string);
}
void WebPageProxy::valueChangedForPopupMenu(WebPopupMenuProxy*, int32_t newSelectedIndex)
{
process()->send(Messages::WebPage::DidChangeSelectedIndexForActivePopupMenu(newSelectedIndex), m_pageID);
}
void WebPageProxy::setTextFromItemForPopupMenu(WebPopupMenuProxy*, int32_t index)
{
process()->send(Messages::WebPage::SetTextForActivePopupMenu(index), m_pageID);
}
NativeWebMouseEvent* WebPageProxy::currentlyProcessedMouseDownEvent()
{
return m_currentlyProcessedMouseDownEvent.get();
}
#if PLATFORM(GTK)
void WebPageProxy::failedToShowPopupMenu()
{
process()->send(Messages::WebPage::FailedToShowPopupMenu(), m_pageID);
}
#endif
void WebPageProxy::showPopupMenu(const IntRect& rect, uint64_t textDirection, const Vector<WebPopupItem>& items, int32_t selectedIndex, const PlatformPopupMenuData& data)
{
if (m_activePopupMenu) {
m_activePopupMenu->hidePopupMenu();
m_activePopupMenu->invalidate();
m_activePopupMenu = 0;
}
m_activePopupMenu = m_pageClient->createPopupMenuProxy(this);
// Since showPopupMenu() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
RefPtr<WebPopupMenuProxy> protectedActivePopupMenu = m_activePopupMenu;
protectedActivePopupMenu->showPopupMenu(rect, static_cast<TextDirection>(textDirection), m_pageScaleFactor, items, data, selectedIndex);
// Since Qt doesn't use a nested mainloop the show the popup and get the answer, we need to keep the client pointer valid.
#if !PLATFORM(QT)
protectedActivePopupMenu->invalidate();
#endif
protectedActivePopupMenu = 0;
}
void WebPageProxy::hidePopupMenu()
{
if (!m_activePopupMenu)
return;
m_activePopupMenu->hidePopupMenu();
m_activePopupMenu->invalidate();
m_activePopupMenu = 0;
}
void WebPageProxy::showContextMenu(const IntPoint& menuLocation, const ContextMenuState& contextMenuState, const Vector<WebContextMenuItemData>& proposedItems, CoreIPC::ArgumentDecoder* arguments)
{
internalShowContextMenu(menuLocation, contextMenuState, proposedItems, arguments);
// No matter the result of internalShowContextMenu, always notify the WebProcess that the menu is hidden so it starts handling mouse events again.
process()->send(Messages::WebPage::ContextMenuHidden(), m_pageID);
}
void WebPageProxy::internalShowContextMenu(const IntPoint& menuLocation, const ContextMenuState& contextMenuState, const Vector<WebContextMenuItemData>& proposedItems, CoreIPC::ArgumentDecoder* arguments)
{
RefPtr<APIObject> userData;
WebContextUserMessageDecoder messageDecoder(userData, m_process->context());
if (!arguments->decode(messageDecoder))
return;
m_activeContextMenuState = contextMenuState;
if (m_activeContextMenu) {
m_activeContextMenu->hideContextMenu();
m_activeContextMenu = 0;
}
m_activeContextMenu = m_pageClient->createContextMenuProxy(this);
// Since showContextMenu() can spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
// Give the PageContextMenuClient one last swipe at changing the menu.
Vector<WebContextMenuItemData> items;
if (!m_contextMenuClient.getContextMenuFromProposedMenu(this, proposedItems, items, userData.get()))
m_activeContextMenu->showContextMenu(menuLocation, proposedItems);
else
m_activeContextMenu->showContextMenu(menuLocation, items);
m_contextMenuClient.contextMenuDismissed(this);
}
void WebPageProxy::contextMenuItemSelected(const WebContextMenuItemData& item)
{
// Application custom items don't need to round-trip through to WebCore in the WebProcess.
if (item.action() >= ContextMenuItemBaseApplicationTag) {
m_contextMenuClient.customContextMenuItemSelected(this, item);
return;
}
#if PLATFORM(MAC)
if (item.action() == ContextMenuItemTagSmartCopyPaste) {
setSmartInsertDeleteEnabled(!isSmartInsertDeleteEnabled());
return;
}
if (item.action() == ContextMenuItemTagSmartQuotes) {
TextChecker::setAutomaticQuoteSubstitutionEnabled(!TextChecker::state().isAutomaticQuoteSubstitutionEnabled);
process()->updateTextCheckerState();
return;
}
if (item.action() == ContextMenuItemTagSmartDashes) {
TextChecker::setAutomaticDashSubstitutionEnabled(!TextChecker::state().isAutomaticDashSubstitutionEnabled);
process()->updateTextCheckerState();
return;
}
if (item.action() == ContextMenuItemTagSmartLinks) {
TextChecker::setAutomaticLinkDetectionEnabled(!TextChecker::state().isAutomaticLinkDetectionEnabled);
process()->updateTextCheckerState();
return;
}
if (item.action() == ContextMenuItemTagTextReplacement) {
TextChecker::setAutomaticTextReplacementEnabled(!TextChecker::state().isAutomaticTextReplacementEnabled);
process()->updateTextCheckerState();
return;
}
if (item.action() == ContextMenuItemTagCorrectSpellingAutomatically) {
TextChecker::setAutomaticSpellingCorrectionEnabled(!TextChecker::state().isAutomaticSpellingCorrectionEnabled);
process()->updateTextCheckerState();
return;
}
if (item.action() == ContextMenuItemTagShowSubstitutions) {
TextChecker::toggleSubstitutionsPanelIsShowing();
return;
}
#endif
if (item.action() == ContextMenuItemTagDownloadImageToDisk) {
m_process->context()->download(this, KURL(KURL(), m_activeContextMenuState.absoluteImageURLString));
return;
}
if (item.action() == ContextMenuItemTagDownloadLinkToDisk) {
m_process->context()->download(this, KURL(KURL(), m_activeContextMenuState.absoluteLinkURLString));
return;
}
if (item.action() == ContextMenuItemTagCheckSpellingWhileTyping) {
TextChecker::setContinuousSpellCheckingEnabled(!TextChecker::state().isContinuousSpellCheckingEnabled);
process()->updateTextCheckerState();
return;
}
if (item.action() == ContextMenuItemTagCheckGrammarWithSpelling) {
TextChecker::setGrammarCheckingEnabled(!TextChecker::state().isGrammarCheckingEnabled);
process()->updateTextCheckerState();
return;
}
if (item.action() == ContextMenuItemTagShowSpellingPanel) {
if (!TextChecker::spellingUIIsShowing())
advanceToNextMisspelling(true);
TextChecker::toggleSpellingUIIsShowing();
return;
}
if (item.action() == ContextMenuItemTagLearnSpelling || item.action() == ContextMenuItemTagIgnoreSpelling)
++m_pendingLearnOrIgnoreWordMessageCount;
process()->send(Messages::WebPage::DidSelectItemFromActiveContextMenu(item), m_pageID);
}
void WebPageProxy::didChooseFilesForOpenPanel(const Vector<String>& fileURLs)
{
if (!isValid())
return;
#if ENABLE(WEB_PROCESS_SANDBOX)
// FIXME: The sandbox extensions should be sent with the DidChooseFilesForOpenPanel message. This
// is gated on a way of passing SandboxExtension::Handles in a Vector.
for (size_t i = 0; i < fileURLs.size(); ++i) {
SandboxExtension::Handle sandboxExtensionHandle;
SandboxExtension::createHandle(fileURLs[i], SandboxExtension::ReadOnly, sandboxExtensionHandle);
process()->send(Messages::WebPage::ExtendSandboxForFileFromOpenPanel(sandboxExtensionHandle), m_pageID);
}
#endif
process()->send(Messages::WebPage::DidChooseFilesForOpenPanel(fileURLs), m_pageID);
m_openPanelResultListener->invalidate();
m_openPanelResultListener = 0;
}
void WebPageProxy::didCancelForOpenPanel()
{
if (!isValid())
return;
process()->send(Messages::WebPage::DidCancelForOpenPanel(), m_pageID);
m_openPanelResultListener->invalidate();
m_openPanelResultListener = 0;
}
void WebPageProxy::advanceToNextMisspelling(bool startBeforeSelection) const
{
process()->send(Messages::WebPage::AdvanceToNextMisspelling(startBeforeSelection), m_pageID);
}
void WebPageProxy::changeSpellingToWord(const String& word) const
{
if (word.isEmpty())
return;
process()->send(Messages::WebPage::ChangeSpellingToWord(word), m_pageID);
}
void WebPageProxy::registerEditCommand(PassRefPtr<WebEditCommandProxy> commandProxy, UndoOrRedo undoOrRedo)
{
m_pageClient->registerEditCommand(commandProxy, undoOrRedo);
}
void WebPageProxy::addEditCommand(WebEditCommandProxy* command)
{
m_editCommandSet.add(command);
}
void WebPageProxy::removeEditCommand(WebEditCommandProxy* command)
{
m_editCommandSet.remove(command);
if (!isValid())
return;
process()->send(Messages::WebPage::DidRemoveEditCommand(command->commandID()), m_pageID);
}
bool WebPageProxy::isValidEditCommand(WebEditCommandProxy* command)
{
return m_editCommandSet.find(command) != m_editCommandSet.end();
}
int64_t WebPageProxy::spellDocumentTag()
{
if (!m_hasSpellDocumentTag) {
m_spellDocumentTag = TextChecker::uniqueSpellDocumentTag(this);
m_hasSpellDocumentTag = true;
}
return m_spellDocumentTag;
}
#if USE(UNIFIED_TEXT_CHECKING)
void WebPageProxy::checkTextOfParagraph(const String& text, uint64_t checkingTypes, Vector<TextCheckingResult>& results)
{
results = TextChecker::checkTextOfParagraph(spellDocumentTag(), text.characters(), text.length(), checkingTypes);
}
#endif
void WebPageProxy::checkSpellingOfString(const String& text, int32_t& misspellingLocation, int32_t& misspellingLength)
{
TextChecker::checkSpellingOfString(spellDocumentTag(), text.characters(), text.length(), misspellingLocation, misspellingLength);
}
void WebPageProxy::checkGrammarOfString(const String& text, Vector<GrammarDetail>& grammarDetails, int32_t& badGrammarLocation, int32_t& badGrammarLength)
{
TextChecker::checkGrammarOfString(spellDocumentTag(), text.characters(), text.length(), grammarDetails, badGrammarLocation, badGrammarLength);
}
void WebPageProxy::spellingUIIsShowing(bool& isShowing)
{
isShowing = TextChecker::spellingUIIsShowing();
}
void WebPageProxy::updateSpellingUIWithMisspelledWord(const String& misspelledWord)
{
TextChecker::updateSpellingUIWithMisspelledWord(spellDocumentTag(), misspelledWord);
}
void WebPageProxy::updateSpellingUIWithGrammarString(const String& badGrammarPhrase, const GrammarDetail& grammarDetail)
{
TextChecker::updateSpellingUIWithGrammarString(spellDocumentTag(), badGrammarPhrase, grammarDetail);
}
void WebPageProxy::getGuessesForWord(const String& word, const String& context, Vector<String>& guesses)
{
TextChecker::getGuessesForWord(spellDocumentTag(), word, context, guesses);
}
void WebPageProxy::learnWord(const String& word)
{
MESSAGE_CHECK(m_pendingLearnOrIgnoreWordMessageCount);
--m_pendingLearnOrIgnoreWordMessageCount;
TextChecker::learnWord(spellDocumentTag(), word);
}
void WebPageProxy::ignoreWord(const String& word)
{
MESSAGE_CHECK(m_pendingLearnOrIgnoreWordMessageCount);
--m_pendingLearnOrIgnoreWordMessageCount;
TextChecker::ignoreWord(spellDocumentTag(), word);
}
// Other
void WebPageProxy::setFocus(bool focused)
{
if (focused)
m_uiClient.focus(this);
else
m_uiClient.unfocus(this);
}
void WebPageProxy::takeFocus(uint32_t direction)
{
m_uiClient.takeFocus(this, (static_cast<FocusDirection>(direction) == FocusDirectionForward) ? kWKFocusDirectionForward : kWKFocusDirectionBackward);
}
void WebPageProxy::setToolTip(const String& toolTip)
{
String oldToolTip = m_toolTip;
m_toolTip = toolTip;
m_pageClient->toolTipChanged(oldToolTip, m_toolTip);
}
void WebPageProxy::setCursor(const WebCore::Cursor& cursor)
{
m_pageClient->setCursor(cursor);
}
void WebPageProxy::setCursorHiddenUntilMouseMoves(bool hiddenUntilMouseMoves)
{
m_pageClient->setCursorHiddenUntilMouseMoves(hiddenUntilMouseMoves);
}
#if MERGE_WHEEL_EVENTS
static bool canCoalesce(const WebWheelEvent& a, const WebWheelEvent& b)
{
if (a.position() != b.position())
return false;
if (a.globalPosition() != b.globalPosition())
return false;
if (a.modifiers() != b.modifiers())
return false;
if (a.granularity() != b.granularity())
return false;
#if PLATFORM(MAC)
if (a.phase() != b.phase())
return false;
if (a.momentumPhase() != b.momentumPhase())
return false;
if (a.hasPreciseScrollingDeltas() != b.hasPreciseScrollingDeltas())
return false;
#endif
return true;
}
static WebWheelEvent coalesce(const WebWheelEvent& a, const WebWheelEvent& b)
{
ASSERT(canCoalesce(a, b));
FloatSize mergedDelta = a.delta() + b.delta();
FloatSize mergedWheelTicks = a.wheelTicks() + b.wheelTicks();
#if PLATFORM(MAC)
return WebWheelEvent(WebEvent::Wheel, b.position(), b.globalPosition(), mergedDelta, mergedWheelTicks, b.granularity(), b.phase(), b.momentumPhase(), b.hasPreciseScrollingDeltas(), b.modifiers(), b.timestamp(), b.directionInvertedFromDevice());
#else
return WebWheelEvent(WebEvent::Wheel, b.position(), b.globalPosition(), mergedDelta, mergedWheelTicks, b.granularity(), b.modifiers(), b.timestamp());
#endif
}
#endif
static WebWheelEvent coalescedWheelEvent(Deque<NativeWebWheelEvent>& queue, Vector<NativeWebWheelEvent>& coalescedEvents)
{
ASSERT(!queue.isEmpty());
ASSERT(coalescedEvents.isEmpty());
#if MERGE_WHEEL_EVENTS
NativeWebWheelEvent firstEvent = queue.takeFirst();
coalescedEvents.append(firstEvent);
WebWheelEvent event = firstEvent;
while (!queue.isEmpty() && canCoalesce(event, queue.first())) {
NativeWebWheelEvent firstEvent = queue.takeFirst();
coalescedEvents.append(firstEvent);
event = coalesce(event, firstEvent);
}
return event;
#else
while (!queue.isEmpty())
coalescedEvents.append(queue.takeFirst());
return coalescedEvents.last();
#endif
}
void WebPageProxy::didReceiveEvent(uint32_t opaqueType, bool handled)
{
WebEvent::Type type = static_cast<WebEvent::Type>(opaqueType);
switch (type) {
case WebEvent::NoType:
case WebEvent::MouseMove:
break;
case WebEvent::MouseDown:
case WebEvent::MouseUp:
case WebEvent::Wheel:
case WebEvent::KeyDown:
case WebEvent::KeyUp:
case WebEvent::RawKeyDown:
case WebEvent::Char:
#if ENABLE(GESTURE_EVENTS)
case WebEvent::GestureScrollBegin:
case WebEvent::GestureScrollEnd:
case WebEvent::GestureSingleTap:
#endif
#if ENABLE(TOUCH_EVENTS)
case WebEvent::TouchStart:
case WebEvent::TouchMove:
case WebEvent::TouchEnd:
case WebEvent::TouchCancel:
#endif
process()->responsivenessTimer()->stop();
break;
}
switch (type) {
case WebEvent::NoType:
break;
case WebEvent::MouseMove:
m_processingMouseMoveEvent = false;
if (m_nextMouseMoveEvent) {
handleMouseEvent(*m_nextMouseMoveEvent);
m_nextMouseMoveEvent = nullptr;
}
break;
case WebEvent::MouseDown:
break;
#if ENABLE(GESTURE_EVENTS)
case WebEvent::GestureScrollBegin:
case WebEvent::GestureScrollEnd:
case WebEvent::GestureSingleTap: {
WebGestureEvent event = m_gestureEventQueue.first();
MESSAGE_CHECK(type == event.type());
m_gestureEventQueue.removeFirst();
m_pageClient->doneWithGestureEvent(event, handled);
break;
}
#endif
case WebEvent::MouseUp:
m_currentlyProcessedMouseDownEvent = nullptr;
break;
case WebEvent::Wheel: {
ASSERT(!m_currentlyProcessedWheelEvents.isEmpty());
// FIXME: Dispatch additional events to the didNotHandleWheelEvent client function.
if (!handled && m_uiClient.implementsDidNotHandleWheelEvent())
m_uiClient.didNotHandleWheelEvent(this, m_currentlyProcessedWheelEvents.last());
m_currentlyProcessedWheelEvents.clear();
if (!m_wheelEventQueue.isEmpty()) {
WebWheelEvent newWheelEvent = coalescedWheelEvent(m_wheelEventQueue, m_currentlyProcessedWheelEvents);
process()->responsivenessTimer()->start();
process()->send(Messages::EventDispatcher::WheelEvent(m_pageID, newWheelEvent), 0);
}
break;
}
case WebEvent::KeyDown:
case WebEvent::KeyUp:
case WebEvent::RawKeyDown:
case WebEvent::Char: {
LOG(KeyHandling, "WebPageProxy::didReceiveEvent: %s", webKeyboardEventTypeString(type));
NativeWebKeyboardEvent event = m_keyEventQueue.first();
MESSAGE_CHECK(type == event.type());
m_keyEventQueue.removeFirst();
m_pageClient->doneWithKeyEvent(event, handled);
if (handled)
break;
if (m_uiClient.implementsDidNotHandleKeyEvent())
m_uiClient.didNotHandleKeyEvent(this, event);
#if PLATFORM(WIN)
else
::TranslateMessage(event.nativeEvent());
#endif
break;
}
#if ENABLE(TOUCH_EVENTS)
case WebEvent::TouchStart:
case WebEvent::TouchMove:
case WebEvent::TouchEnd:
case WebEvent::TouchCancel: {
QueuedTouchEvents queuedEvents = m_touchEventQueue.first();
MESSAGE_CHECK(type == queuedEvents.forwardedEvent.type());
m_touchEventQueue.removeFirst();
m_pageClient->doneWithTouchEvent(queuedEvents.forwardedEvent, handled);
for (size_t i = 0; i < queuedEvents.deferredTouchEvents.size(); ++i) {
bool isEventHandled = false;
m_pageClient->doneWithTouchEvent(queuedEvents.deferredTouchEvents.at(i), isEventHandled);
}
break;
}
#endif
}
}
void WebPageProxy::stopResponsivenessTimer()
{
process()->responsivenessTimer()->stop();
}
void WebPageProxy::voidCallback(uint64_t callbackID)
{
RefPtr<VoidCallback> callback = m_voidCallbacks.take(callbackID);
if (!callback) {
// FIXME: Log error or assert.
return;
}
callback->performCallback();
}
void WebPageProxy::dataCallback(const CoreIPC::DataReference& dataReference, uint64_t callbackID)
{
RefPtr<DataCallback> callback = m_dataCallbacks.take(callbackID);
if (!callback) {
// FIXME: Log error or assert.
return;
}
callback->performCallbackWithReturnValue(WebData::create(dataReference.data(), dataReference.size()).get());
}
void WebPageProxy::stringCallback(const String& resultString, uint64_t callbackID)
{
RefPtr<StringCallback> callback = m_stringCallbacks.take(callbackID);
if (!callback) {
// FIXME: Log error or assert.
// this can validly happen if a load invalidated the callback, though
return;
}
m_loadDependentStringCallbackIDs.remove(callbackID);
callback->performCallbackWithReturnValue(resultString.impl());
}
void WebPageProxy::scriptValueCallback(const CoreIPC::DataReference& dataReference, uint64_t callbackID)
{
RefPtr<ScriptValueCallback> callback = m_scriptValueCallbacks.take(callbackID);
if (!callback) {
// FIXME: Log error or assert.
return;
}
Vector<uint8_t> data;
data.reserveInitialCapacity(dataReference.size());
data.append(dataReference.data(), dataReference.size());
callback->performCallbackWithReturnValue(data.size() ? WebSerializedScriptValue::adopt(data).get() : 0);
}
void WebPageProxy::computedPagesCallback(const Vector<IntRect>& pageRects, double totalScaleFactorForPrinting, uint64_t callbackID)
{
RefPtr<ComputedPagesCallback> callback = m_computedPagesCallbacks.take(callbackID);
if (!callback) {
// FIXME: Log error or assert.
return;
}
callback->performCallbackWithReturnValue(pageRects, totalScaleFactorForPrinting);
}
void WebPageProxy::validateCommandCallback(const String& commandName, bool isEnabled, int state, uint64_t callbackID)
{
RefPtr<ValidateCommandCallback> callback = m_validateCommandCallbacks.take(callbackID);
if (!callback) {
// FIXME: Log error or assert.
return;
}
callback->performCallbackWithReturnValue(commandName.impl(), isEnabled, state);
}
void WebPageProxy::focusedFrameChanged(uint64_t frameID)
{
if (!frameID) {
m_focusedFrame = 0;
return;
}
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_focusedFrame = frame;
}
void WebPageProxy::frameSetLargestFrameChanged(uint64_t frameID)
{
if (!frameID) {
m_frameSetLargestFrame = 0;
return;
}
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
m_frameSetLargestFrame = frame;
}
void WebPageProxy::processDidBecomeUnresponsive()
{
if (!isValid())
return;
updateBackingStoreDiscardableState();
m_loaderClient.processDidBecomeUnresponsive(this);
}
void WebPageProxy::processDidBecomeResponsive()
{
if (!isValid())
return;
updateBackingStoreDiscardableState();
m_loaderClient.processDidBecomeResponsive(this);
}
void WebPageProxy::processDidCrash()
{
ASSERT(m_pageClient);
m_isValid = false;
if (m_mainFrame) {
m_urlAtProcessExit = m_mainFrame->url();
m_loadStateAtProcessExit = m_mainFrame->loadState();
}
m_mainFrame = nullptr;
m_drawingArea = nullptr;
#if ENABLE(INSPECTOR)
if (m_inspector) {
m_inspector->invalidate();
m_inspector = nullptr;
}
#endif
#if ENABLE(FULLSCREEN_API)
if (m_fullScreenManager) {
m_fullScreenManager->invalidate();
m_fullScreenManager = nullptr;
}
#endif
if (m_openPanelResultListener) {
m_openPanelResultListener->invalidate();
m_openPanelResultListener = nullptr;
}
m_geolocationPermissionRequestManager.invalidateRequests();
m_notificationPermissionRequestManager.invalidateRequests();
m_toolTip = String();
m_mainFrameHasHorizontalScrollbar = false;
m_mainFrameHasVerticalScrollbar = false;
m_mainFrameIsPinnedToLeftSide = false;
m_mainFrameIsPinnedToRightSide = false;
m_visibleScrollerThumbRect = IntRect();
invalidateCallbackMap(m_voidCallbacks);
invalidateCallbackMap(m_dataCallbacks);
invalidateCallbackMap(m_stringCallbacks);
m_loadDependentStringCallbackIDs.clear();
invalidateCallbackMap(m_scriptValueCallbacks);
invalidateCallbackMap(m_computedPagesCallbacks);
invalidateCallbackMap(m_validateCommandCallbacks);
Vector<WebEditCommandProxy*> editCommandVector;
copyToVector(m_editCommandSet, editCommandVector);
m_editCommandSet.clear();
for (size_t i = 0, size = editCommandVector.size(); i < size; ++i)
editCommandVector[i]->invalidate();
m_pageClient->clearAllEditCommands();
m_activePopupMenu = 0;
m_estimatedProgress = 0.0;
m_pendingLearnOrIgnoreWordMessageCount = 0;
m_pageClient->processDidCrash();
m_loaderClient.processDidCrash(this);
if (!m_isValid) {
// If the call out to the loader client didn't cause the web process to be relaunched,
// we'll call setNeedsDisplay on the view so that we won't have the old contents showing.
// If the call did cause the web process to be relaunched, we'll keep the old page contents showing
// until the new web process has painted its contents.
setViewNeedsDisplay(IntRect(IntPoint(), viewSize()));
}
// Can't expect DidReceiveEvent notifications from a crashed web process.
m_keyEventQueue.clear();
m_wheelEventQueue.clear();
m_currentlyProcessedWheelEvents.clear();
m_nextMouseMoveEvent = nullptr;
m_currentlyProcessedMouseDownEvent = nullptr;
m_processingMouseMoveEvent = false;
#if ENABLE(TOUCH_EVENTS)
m_needTouchEvents = false;
m_touchEventQueue.clear();
#endif
#if PLATFORM(MAC) && !defined(BUILDING_ON_SNOW_LEOPARD)
dismissCorrectionPanel(ReasonForDismissingCorrectionPanelIgnored);
m_pageClient->dismissDictionaryLookupPanel();
#endif
}
WebPageCreationParameters WebPageProxy::creationParameters() const
{
WebPageCreationParameters parameters;
parameters.viewSize = m_pageClient->viewSize();
parameters.isActive = m_pageClient->isViewWindowActive();
parameters.isFocused = m_pageClient->isViewFocused();
parameters.isVisible = m_pageClient->isViewVisible();
parameters.isInWindow = m_pageClient->isViewInWindow();
parameters.drawingAreaType = m_drawingArea->type();
parameters.store = m_pageGroup->preferences()->store();
parameters.pageGroupData = m_pageGroup->data();
parameters.drawsBackground = m_drawsBackground;
parameters.drawsTransparentBackground = m_drawsTransparentBackground;
parameters.areMemoryCacheClientCallsEnabled = m_areMemoryCacheClientCallsEnabled;
parameters.useFixedLayout = m_useFixedLayout;
parameters.fixedLayoutSize = m_fixedLayoutSize;
parameters.paginationMode = m_paginationMode;
parameters.pageLength = m_pageLength;
parameters.gapBetweenPages = m_gapBetweenPages;
parameters.userAgent = userAgent();
parameters.sessionState = SessionState(m_backForwardList->entries(), m_backForwardList->currentIndex());
parameters.highestUsedBackForwardItemID = WebBackForwardListItem::highedUsedItemID();
parameters.canRunBeforeUnloadConfirmPanel = m_uiClient.canRunBeforeUnloadConfirmPanel();
parameters.canRunModal = m_uiClient.canRunModal();
parameters.deviceScaleFactor = m_intrinsicDeviceScaleFactor;
#if PLATFORM(MAC)
parameters.isSmartInsertDeleteEnabled = m_isSmartInsertDeleteEnabled;
#endif
#if PLATFORM(WIN)
parameters.nativeWindow = m_pageClient->nativeWindow();
#endif
return parameters;
}
#if USE(ACCELERATED_COMPOSITING)
void WebPageProxy::enterAcceleratedCompositingMode(const LayerTreeContext& layerTreeContext)
{
m_pageClient->enterAcceleratedCompositingMode(layerTreeContext);
}
void WebPageProxy::exitAcceleratedCompositingMode()
{
m_pageClient->exitAcceleratedCompositingMode();
}
#endif // USE(ACCELERATED_COMPOSITING)
void WebPageProxy::backForwardClear()
{
m_backForwardList->clear();
}
void WebPageProxy::canAuthenticateAgainstProtectionSpaceInFrame(uint64_t frameID, const ProtectionSpace& coreProtectionSpace, bool& canAuthenticate)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
RefPtr<WebProtectionSpace> protectionSpace = WebProtectionSpace::create(coreProtectionSpace);
canAuthenticate = m_loaderClient.canAuthenticateAgainstProtectionSpaceInFrame(this, frame, protectionSpace.get());
}
void WebPageProxy::didReceiveAuthenticationChallenge(uint64_t frameID, const AuthenticationChallenge& coreChallenge, uint64_t challengeID)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
RefPtr<AuthenticationChallengeProxy> authenticationChallenge = AuthenticationChallengeProxy::create(coreChallenge, challengeID, process());
m_loaderClient.didReceiveAuthenticationChallengeInFrame(this, frame, authenticationChallenge.get());
}
void WebPageProxy::exceededDatabaseQuota(uint64_t frameID, const String& originIdentifier, const String& databaseName, const String& displayName, uint64_t currentQuota, uint64_t currentOriginUsage, uint64_t currentDatabaseUsage, uint64_t expectedUsage, uint64_t& newQuota)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
RefPtr<WebSecurityOrigin> origin = WebSecurityOrigin::createFromDatabaseIdentifier(originIdentifier);
newQuota = m_uiClient.exceededDatabaseQuota(this, frame, origin.get(), databaseName, displayName, currentQuota, currentOriginUsage, currentDatabaseUsage, expectedUsage);
}
void WebPageProxy::requestGeolocationPermissionForFrame(uint64_t geolocationID, uint64_t frameID, String originIdentifier)
{
WebFrameProxy* frame = process()->webFrame(frameID);
MESSAGE_CHECK(frame);
// FIXME: Geolocation should probably be using toString() as its string representation instead of databaseIdentifier().
RefPtr<WebSecurityOrigin> origin = WebSecurityOrigin::createFromDatabaseIdentifier(originIdentifier);
RefPtr<GeolocationPermissionRequestProxy> request = m_geolocationPermissionRequestManager.createRequest(geolocationID);
if (!m_uiClient.decidePolicyForGeolocationPermissionRequest(this, frame, origin.get(), request.get()))
request->deny();
}
void WebPageProxy::requestNotificationPermission(uint64_t requestID, const String& originString)
{
if (!isRequestIDValid(requestID))
return;
RefPtr<WebSecurityOrigin> origin = WebSecurityOrigin::createFromString(originString);
RefPtr<NotificationPermissionRequest> request = m_notificationPermissionRequestManager.createRequest(requestID);
if (!m_uiClient.decidePolicyForNotificationPermissionRequest(this, origin.get(), request.get()))
request->deny();
}
void WebPageProxy::showNotification(const String& title, const String& body, const String& originString, uint64_t notificationID)
{
m_process->context()->notificationManagerProxy()->show(this, title, body, originString, notificationID);
}
float WebPageProxy::headerHeight(WebFrameProxy* frame)
{
if (frame->isDisplayingPDFDocument())
return 0;
return m_uiClient.headerHeight(this, frame);
}
float WebPageProxy::footerHeight(WebFrameProxy* frame)
{
if (frame->isDisplayingPDFDocument())
return 0;
return m_uiClient.footerHeight(this, frame);
}
void WebPageProxy::drawHeader(WebFrameProxy* frame, const FloatRect& rect)
{
if (frame->isDisplayingPDFDocument())
return;
m_uiClient.drawHeader(this, frame, rect);
}
void WebPageProxy::drawFooter(WebFrameProxy* frame, const FloatRect& rect)
{
if (frame->isDisplayingPDFDocument())
return;
m_uiClient.drawFooter(this, frame, rect);
}
void WebPageProxy::runModal()
{
// Since runModal() can (and probably will) spin a nested run loop we need to turn off the responsiveness timer.
process()->responsivenessTimer()->stop();
m_uiClient.runModal(this);
}
void WebPageProxy::notifyScrollerThumbIsVisibleInRect(const IntRect& scrollerThumb)
{
m_visibleScrollerThumbRect = scrollerThumb;
}
void WebPageProxy::recommendedScrollbarStyleDidChange(int32_t newStyle)
{
#if PLATFORM(MAC)
m_pageClient->recommendedScrollbarStyleDidChange(newStyle);
#endif
}
void WebPageProxy::didChangeScrollbarsForMainFrame(bool hasHorizontalScrollbar, bool hasVerticalScrollbar)
{
m_mainFrameHasHorizontalScrollbar = hasHorizontalScrollbar;
m_mainFrameHasVerticalScrollbar = hasVerticalScrollbar;
m_pageClient->didChangeScrollbarsForMainFrame();
}
void WebPageProxy::didChangeScrollOffsetPinningForMainFrame(bool pinnedToLeftSide, bool pinnedToRightSide)
{
m_mainFrameIsPinnedToLeftSide = pinnedToLeftSide;
m_mainFrameIsPinnedToRightSide = pinnedToRightSide;
}
void WebPageProxy::didChangePageCount(unsigned pageCount)
{
m_pageCount = pageCount;
}
void WebPageProxy::didFailToInitializePlugin(const String& mimeType)
{
m_loaderClient.didFailToInitializePlugin(this, mimeType);
}
bool WebPageProxy::willHandleHorizontalScrollEvents() const
{
return m_wheelEventHandlerCount > 0;
}
void WebPageProxy::didFinishLoadingDataForCustomRepresentation(const String& suggestedFilename, const CoreIPC::DataReference& dataReference)
{
m_pageClient->didFinishLoadingDataForCustomRepresentation(suggestedFilename, dataReference);
}
void WebPageProxy::backForwardRemovedItem(uint64_t itemID)
{
process()->send(Messages::WebPage::DidRemoveBackForwardItem(itemID), m_pageID);
}
void WebPageProxy::beginPrinting(WebFrameProxy* frame, const PrintInfo& printInfo)
{
if (m_isInPrintingMode)
return;
m_isInPrintingMode = true;
process()->send(Messages::WebPage::BeginPrinting(frame->frameID(), printInfo), m_pageID, m_isPerformingDOMPrintOperation ? CoreIPC::DispatchMessageEvenWhenWaitingForSyncReply : 0);
}
void WebPageProxy::endPrinting()
{
if (!m_isInPrintingMode)
return;
m_isInPrintingMode = false;
process()->send(Messages::WebPage::EndPrinting(), m_pageID, m_isPerformingDOMPrintOperation ? CoreIPC::DispatchMessageEvenWhenWaitingForSyncReply : 0);
}
void WebPageProxy::computePagesForPrinting(WebFrameProxy* frame, const PrintInfo& printInfo, PassRefPtr<ComputedPagesCallback> prpCallback)
{
RefPtr<ComputedPagesCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_computedPagesCallbacks.set(callbackID, callback.get());
m_isInPrintingMode = true;
process()->send(Messages::WebPage::ComputePagesForPrinting(frame->frameID(), printInfo, callbackID), m_pageID, m_isPerformingDOMPrintOperation ? CoreIPC::DispatchMessageEvenWhenWaitingForSyncReply : 0);
}
#if PLATFORM(MAC) || PLATFORM(WIN)
void WebPageProxy::drawRectToPDF(WebFrameProxy* frame, const PrintInfo& printInfo, const IntRect& rect, PassRefPtr<DataCallback> prpCallback)
{
RefPtr<DataCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_dataCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::DrawRectToPDF(frame->frameID(), printInfo, rect, callbackID), m_pageID, m_isPerformingDOMPrintOperation ? CoreIPC::DispatchMessageEvenWhenWaitingForSyncReply : 0);
}
void WebPageProxy::drawPagesToPDF(WebFrameProxy* frame, const PrintInfo& printInfo, uint32_t first, uint32_t count, PassRefPtr<DataCallback> prpCallback)
{
RefPtr<DataCallback> callback = prpCallback;
if (!isValid()) {
callback->invalidate();
return;
}
uint64_t callbackID = callback->callbackID();
m_dataCallbacks.set(callbackID, callback.get());
process()->send(Messages::WebPage::DrawPagesToPDF(frame->frameID(), printInfo, first, count, callbackID), m_pageID, m_isPerformingDOMPrintOperation ? CoreIPC::DispatchMessageEvenWhenWaitingForSyncReply : 0);
}
#endif
void WebPageProxy::flashBackingStoreUpdates(const Vector<IntRect>& updateRects)
{
m_pageClient->flashBackingStoreUpdates(updateRects);
}
void WebPageProxy::updateBackingStoreDiscardableState()
{
ASSERT(isValid());
bool isDiscardable;
if (!process()->responsivenessTimer()->isResponsive())
isDiscardable = false;
else
isDiscardable = !m_pageClient->isViewWindowActive() || !isViewVisible();
m_drawingArea->setBackingStoreIsDiscardable(isDiscardable);
}
Color WebPageProxy::viewUpdatesFlashColor()
{
return Color(0, 200, 255);
}
Color WebPageProxy::backingStoreUpdatesFlashColor()
{
return Color(200, 0, 255);
}
void WebPageProxy::saveDataToFileInDownloadsFolder(const String& suggestedFilename, const String& mimeType, const String& originatingURLString, WebData* data)
{
m_uiClient.saveDataToFileInDownloadsFolder(this, suggestedFilename, mimeType, originatingURLString, data);
}
void WebPageProxy::linkClicked(const String& url, const WebMouseEvent& event)
{
process()->send(Messages::WebPage::LinkClicked(url, event), m_pageID, 0);
}
#if PLATFORM(MAC)
void WebPageProxy::substitutionsPanelIsShowing(bool& isShowing)
{
isShowing = TextChecker::substitutionsPanelIsShowing();
}
#if !defined(BUILDING_ON_SNOW_LEOPARD)
void WebPageProxy::showCorrectionPanel(int32_t panelType, const FloatRect& boundingBoxOfReplacedString, const String& replacedString, const String& replacementString, const Vector<String>& alternativeReplacementStrings)
{
m_pageClient->showCorrectionPanel((CorrectionPanelInfo::PanelType)panelType, boundingBoxOfReplacedString, replacedString, replacementString, alternativeReplacementStrings);
}
void WebPageProxy::dismissCorrectionPanel(int32_t reason)
{
m_pageClient->dismissCorrectionPanel((ReasonForDismissingCorrectionPanel)reason);
}
void WebPageProxy::dismissCorrectionPanelSoon(int32_t reason, String& result)
{
result = m_pageClient->dismissCorrectionPanelSoon((ReasonForDismissingCorrectionPanel)reason);
}
void WebPageProxy::recordAutocorrectionResponse(int32_t responseType, const String& replacedString, const String& replacementString)
{
m_pageClient->recordAutocorrectionResponse((EditorClient::AutocorrectionResponseType)responseType, replacedString, replacementString);
}
#endif // !defined(BUILDING_ON_SNOW_LEOPARD)
void WebPageProxy::handleCorrectionPanelResult(const String& result)
{
#if !defined(BUILDING_ON_SNOW_LEOPARD)
if (!isClosed())
process()->send(Messages::WebPage::HandleCorrectionPanelResult(result), m_pageID, 0);
#endif
}
#endif // PLATFORM(MAC)
} // namespace WebKit