Source/WebKit2/UIProcess/WebProcessProxy.cpp - WebKit - Git at Google

 /*
  * 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 "WebProcessProxy.h"

 #include "DataReference.h"
 #include "PluginInfoStore.h"
 #include "PluginProcessManager.h"
 #include "TextChecker.h"
 #include "TextCheckerState.h"
 #include "WebBackForwardListItem.h"
 #include "WebContext.h"
 #include "WebNavigationDataStore.h"
 #include "WebNotificationManagerProxy.h"
 #include "WebPageProxy.h"
 #include "WebProcessMessages.h"
 #include "WebProcessProxyMessages.h"
 #include <WebCore/KURL.h>
 #include <stdio.h>
 #include <wtf/text/CString.h>
 #include <wtf/text/WTFString.h>

 using namespace WebCore;
 using namespace std;

 #define MESSAGE_CHECK_URL(url) MESSAGE_CHECK_BASE(checkURLReceivedFromWebProcess(url), connection())

 namespace WebKit {

 template<typename HashMap>
 static inline bool isGoodKey(const typename HashMap::KeyType& key)
 {
     return key != HashTraits<typename HashMap::KeyType>::emptyValue() && !HashTraits<typename HashMap::KeyType>::isDeletedValue(key);
 }

 static uint64_t generatePageID()
 {
     static uint64_t uniquePageID = 1;
     return uniquePageID++;
 }

 PassRefPtr<WebProcessProxy> WebProcessProxy::create(PassRefPtr<WebContext> context)
 {
     return adoptRef(new WebProcessProxy(context));
 }

 WebProcessProxy::WebProcessProxy(PassRefPtr<WebContext> context)
     : m_responsivenessTimer(this)
     , m_context(context)
     , m_mayHaveUniversalFileReadSandboxExtension(false)
 {
     connect();
 }

 WebProcessProxy::~WebProcessProxy()
 {
     if (m_connection)
         m_connection->invalidate();

     for (size_t i = 0; i < m_pendingMessages.size(); ++i)
         m_pendingMessages[i].first.releaseArguments();

     if (m_processLauncher) {
         m_processLauncher->invalidate();
         m_processLauncher = 0;
     }

     if (m_threadLauncher) {
         m_threadLauncher->invalidate();
         m_threadLauncher = 0;
     }
 }

 void WebProcessProxy::connect()
 {
     if (m_context->processModel() == ProcessModelSharedSecondaryThread) {
         ASSERT(!m_threadLauncher);
         m_threadLauncher = ThreadLauncher::create(this);
     } else {
         ASSERT(!m_processLauncher);

         ProcessLauncher::LaunchOptions launchOptions;
         launchOptions.processType = ProcessLauncher::WebProcess;

 #if PLATFORM(MAC)
         // We want the web process to match the architecture of the UI process.
         launchOptions.architecture = ProcessLauncher::LaunchOptions::MatchCurrentArchitecture;
         launchOptions.executableHeap = false;
 #endif
         m_processLauncher = ProcessLauncher::create(this, launchOptions);
     }
 }

 void WebProcessProxy::disconnect()
 {
     if (m_connection) {
         m_connection->connection()->removeQueueClient(this);
         m_connection->invalidate();
         m_connection = nullptr;
     }

     m_responsivenessTimer.stop();

     Vector<RefPtr<WebFrameProxy> > frames;
     copyValuesToVector(m_frameMap, frames);

     for (size_t i = 0, size = frames.size(); i < size; ++i)
         frames[i]->disconnect();
     m_frameMap.clear();

     m_context->disconnectProcess(this);
 }

 bool WebProcessProxy::sendMessage(CoreIPC::MessageID messageID, PassOwnPtr<CoreIPC::ArgumentEncoder> arguments, unsigned messageSendFlags)
 {
     // If we're waiting for the web process to launch, we need to stash away the messages so we can send them once we have
     // a CoreIPC connection.
     if (isLaunching()) {
         m_pendingMessages.append(make_pair(CoreIPC::Connection::OutgoingMessage(messageID, arguments), messageSendFlags));
         return true;
     }

     // If the web process has exited, m_connection will be null here.
     if (!m_connection)
         return false;

     return connection()->sendMessage(messageID, arguments, messageSendFlags);
 }

 bool WebProcessProxy::isLaunching() const
 {
     if (m_processLauncher)
         return m_processLauncher->isLaunching();
     if (m_threadLauncher)
         return m_threadLauncher->isLaunching();

     return false;
 }

 void WebProcessProxy::terminate()
 {
     if (m_processLauncher)
         m_processLauncher->terminateProcess();
 }

 WebPageProxy* WebProcessProxy::webPage(uint64_t pageID) const
 {
     return m_pageMap.get(pageID);
 }

 PassRefPtr<WebPageProxy> WebProcessProxy::createWebPage(PageClient* pageClient, WebContext* context, WebPageGroup* pageGroup)
 {
     ASSERT(context->process() == this);

     uint64_t pageID = generatePageID();
     RefPtr<WebPageProxy> webPage = WebPageProxy::create(pageClient, this, pageGroup, pageID);
     m_pageMap.set(pageID, webPage.get());
     return webPage.release();
 }

 void WebProcessProxy::addExistingWebPage(WebPageProxy* webPage, uint64_t pageID)
 {
     m_pageMap.set(pageID, webPage);
 }

 void WebProcessProxy::removeWebPage(uint64_t pageID)
 {
     m_pageMap.remove(pageID);
 }

 WebBackForwardListItem* WebProcessProxy::webBackForwardItem(uint64_t itemID) const
 {
     return m_backForwardListItemMap.get(itemID).get();
 }

 void WebProcessProxy::registerNewWebBackForwardListItem(WebBackForwardListItem* item)
 {
     // This item was just created by the UIProcess and is being added to the map for the first time
     // so we should not already have an item for this ID.
     ASSERT(!m_backForwardListItemMap.contains(item->itemID()));

     m_backForwardListItemMap.set(item->itemID(), item);
 }

 void WebProcessProxy::assumeReadAccessToBaseURL(const String& urlString)
 {
     KURL url(KURL(), urlString);
     if (!url.isLocalFile())
         return;

     // There's a chance that urlString does not point to a directory.
     // Get url's base URL to add to m_localPathsWithAssumedReadAccess.
     KURL baseURL(KURL(), url.baseAsString());

     // Client loads an alternate string. This doesn't grant universal file read, but the web process is assumed
     // to have read access to this directory already.
     m_localPathsWithAssumedReadAccess.add(baseURL.fileSystemPath());
 }

 bool WebProcessProxy::checkURLReceivedFromWebProcess(const String& urlString)
 {
     return checkURLReceivedFromWebProcess(KURL(KURL(), urlString));
 }

 bool WebProcessProxy::checkURLReceivedFromWebProcess(const KURL& url)
 {
     // FIXME: Consider checking that the URL is valid. Currently, WebProcess sends invalid URLs in many cases, but it probably doesn't have good reasons to do that.

     // Any other non-file URL is OK.
     if (!url.isLocalFile())
         return true;

     // Any file URL is also OK if we've loaded a file URL through API before, granting universal read access.
     if (m_mayHaveUniversalFileReadSandboxExtension)
         return true;

     // If we loaded a string with a file base URL before, loading resources from that subdirectory is fine.
     // There are no ".." components, because all URLs received from WebProcess are parsed with KURL, which removes those.
     String path = url.fileSystemPath();
     for (HashSet<String>::const_iterator iter = m_localPathsWithAssumedReadAccess.begin(); iter != m_localPathsWithAssumedReadAccess.end(); ++iter) {
         if (path.startsWith(*iter))
             return true;
     }

     // A Web process that was never asked to load a file URL should not ever ask us to do anything with a file URL.
     return false;
 }

 #if !PLATFORM(MAC)
 bool WebProcessProxy::fullKeyboardAccessEnabled()
 {
     return false;
 }
 #endif

 void WebProcessProxy::addBackForwardItem(uint64_t itemID, const String& originalURL, const String& url, const String& title, const CoreIPC::DataReference& backForwardData)
 {
     MESSAGE_CHECK_URL(originalURL);
     MESSAGE_CHECK_URL(url);

     std::pair<WebBackForwardListItemMap::iterator, bool> result = m_backForwardListItemMap.add(itemID, 0);
     if (result.second) {
         // New item.
         result.first->second = WebBackForwardListItem::create(originalURL, url, title, backForwardData.data(), backForwardData.size(), itemID);
         return;
     }

     // Update existing item.
     result.first->second->setOriginalURL(originalURL);
     result.first->second->setURL(url);
     result.first->second->setTitle(title);
     result.first->second->setBackForwardData(backForwardData.data(), backForwardData.size());
 }

 #if ENABLE(PLUGIN_PROCESS)
 void WebProcessProxy::getPluginProcessConnection(const String& pluginPath, PassRefPtr<Messages::WebProcessProxy::GetPluginProcessConnection::DelayedReply> reply)
 {
     PluginProcessManager::shared().getPluginProcessConnection(context()->pluginInfoStore(), pluginPath, reply);
 }

 void WebProcessProxy::pluginSyncMessageSendTimedOut(const String& pluginPath)
 {
     PluginProcessManager::shared().pluginSyncMessageSendTimedOut(pluginPath);
 }
 #endif

 void WebProcessProxy::didReceiveMessage(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments)
 {
     if (messageID.is<CoreIPC::MessageClassWebProcessProxy>()) {
         didReceiveWebProcessProxyMessage(connection, messageID, arguments);
         return;
     }

     if (messageID.is<CoreIPC::MessageClassWebContext>()
         || messageID.is<CoreIPC::MessageClassWebContextLegacy>()
         || messageID.is<CoreIPC::MessageClassDownloadProxy>()
         || messageID.is<CoreIPC::MessageClassWebApplicationCacheManagerProxy>()
         || messageID.is<CoreIPC::MessageClassWebCookieManagerProxy>()
         || messageID.is<CoreIPC::MessageClassWebDatabaseManagerProxy>()
         || messageID.is<CoreIPC::MessageClassWebGeolocationManagerProxy>()
         || messageID.is<CoreIPC::MessageClassWebIconDatabase>()
         || messageID.is<CoreIPC::MessageClassWebKeyValueStorageManagerProxy>()
         || messageID.is<CoreIPC::MessageClassWebMediaCacheManagerProxy>()
         || messageID.is<CoreIPC::MessageClassWebNotificationManagerProxy>()
         || messageID.is<CoreIPC::MessageClassWebResourceCacheManagerProxy>()) {
         m_context->didReceiveMessage(connection, messageID, arguments);
         return;
     }

     uint64_t pageID = arguments->destinationID();
     if (!pageID)
         return;

     WebPageProxy* pageProxy = webPage(pageID);
     if (!pageProxy)
         return;

     pageProxy->didReceiveMessage(connection, messageID, arguments);
 }

 void WebProcessProxy::didReceiveSyncMessage(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments, OwnPtr<CoreIPC::ArgumentEncoder>& reply)
 {
     if (messageID.is<CoreIPC::MessageClassWebProcessProxy>()) {
         didReceiveSyncWebProcessProxyMessage(connection, messageID, arguments, reply);
         return;
     }

     if (messageID.is<CoreIPC::MessageClassWebContext>() || messageID.is<CoreIPC::MessageClassWebContextLegacy>()
         || messageID.is<CoreIPC::MessageClassDownloadProxy>() || messageID.is<CoreIPC::MessageClassWebIconDatabase>()) {
         m_context->didReceiveSyncMessage(connection, messageID, arguments, reply);
         return;
     }

     uint64_t pageID = arguments->destinationID();
     if (!pageID)
         return;

     WebPageProxy* pageProxy = webPage(pageID);
     if (!pageProxy)
         return;

     pageProxy->didReceiveSyncMessage(connection, messageID, arguments, reply);
 }

 void WebProcessProxy::didReceiveMessageOnConnectionWorkQueue(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments, bool& didHandleMessage)
 {
     if (messageID.is<CoreIPC::MessageClassWebProcessProxy>())
         didReceiveWebProcessProxyMessageOnConnectionWorkQueue(connection, messageID, arguments, didHandleMessage);
 }

 void WebProcessProxy::didClose(CoreIPC::Connection*)
 {
     // Protect ourselves, as the call to disconnect() below may otherwise cause us
     // to be deleted before we can finish our work.
     RefPtr<WebProcessProxy> protect(this);

     Vector<RefPtr<WebPageProxy> > pages;
     copyValuesToVector(m_pageMap, pages);

     disconnect();

     for (size_t i = 0, size = pages.size(); i < size; ++i)
         pages[i]->processDidCrash();
 }

 void WebProcessProxy::didReceiveInvalidMessage(CoreIPC::Connection*, CoreIPC::MessageID messageID)
 {
     // This fprintf is intentionally left because this function should
     // only be hit in the case of a misbehaving web process.
     fprintf(stderr, "Receive an invalid message from the web process with message ID %x\n", messageID.toInt());

     // Terminate the WebProcesses.
     terminate();
 }

 void WebProcessProxy::syncMessageSendTimedOut(CoreIPC::Connection*)
 {
 }

 void WebProcessProxy::didBecomeUnresponsive(ResponsivenessTimer*)
 {
     Vector<RefPtr<WebPageProxy> > pages;
     copyValuesToVector(m_pageMap, pages);
     for (size_t i = 0, size = pages.size(); i < size; ++i)
         pages[i]->processDidBecomeUnresponsive();
 }

 void WebProcessProxy::didBecomeResponsive(ResponsivenessTimer*)
 {
     Vector<RefPtr<WebPageProxy> > pages;
     copyValuesToVector(m_pageMap, pages);
     for (size_t i = 0, size = pages.size(); i < size; ++i)
         pages[i]->processDidBecomeResponsive();
 }

 void WebProcessProxy::didFinishLaunching(ProcessLauncher*, CoreIPC::Connection::Identifier connectionIdentifier)
 {
     didFinishLaunching(connectionIdentifier);
 }

 void WebProcessProxy::didFinishLaunching(ThreadLauncher*, CoreIPC::Connection::Identifier connectionIdentifier)
 {
     didFinishLaunching(connectionIdentifier);
 }

 void WebProcessProxy::didFinishLaunching(CoreIPC::Connection::Identifier connectionIdentifier)
 {
     ASSERT(!m_connection);

     m_connection = WebConnectionToWebProcess::create(this, connectionIdentifier, RunLoop::main());
     m_connection->connection()->addQueueClient(this);
     m_connection->connection()->open();

     for (size_t i = 0; i < m_pendingMessages.size(); ++i) {
         CoreIPC::Connection::OutgoingMessage& outgoingMessage = m_pendingMessages[i].first;
         unsigned messageSendFlags = m_pendingMessages[i].second;
         connection()->sendMessage(outgoingMessage.messageID(), adoptPtr(outgoingMessage.arguments()), messageSendFlags);
     }

     m_pendingMessages.clear();

     // Tell the context that we finished launching.
     m_context->processDidFinishLaunching(this);
 }

 WebFrameProxy* WebProcessProxy::webFrame(uint64_t frameID) const
 {
     return isGoodKey<WebFrameProxyMap>(frameID) ? m_frameMap.get(frameID).get() : 0;
 }

 bool WebProcessProxy::canCreateFrame(uint64_t frameID) const
 {
     return isGoodKey<WebFrameProxyMap>(frameID) && !m_frameMap.contains(frameID);
 }

 void WebProcessProxy::frameCreated(uint64_t frameID, WebFrameProxy* frameProxy)
 {
     ASSERT(canCreateFrame(frameID));
     m_frameMap.set(frameID, frameProxy);
 }

 void WebProcessProxy::didDestroyFrame(uint64_t frameID)
 {
     // If the page is closed before it has had the chance to send the DidCreateMainFrame message
     // back to the UIProcess, then the frameDestroyed message will still be received because it
     // gets sent directly to the WebProcessProxy.
     ASSERT(isGoodKey<WebFrameProxyMap>(frameID));
     m_frameMap.remove(frameID);
 }

 void WebProcessProxy::disconnectFramesFromPage(WebPageProxy* page)
 {
     Vector<RefPtr<WebFrameProxy> > frames;
     copyValuesToVector(m_frameMap, frames);
     for (size_t i = 0, size = frames.size(); i < size; ++i) {
         if (frames[i]->page() == page)
             frames[i]->disconnect();
     }
 }

 size_t WebProcessProxy::frameCountInPage(WebPageProxy* page) const
 {
     size_t result = 0;
     for (HashMap<uint64_t, RefPtr<WebFrameProxy> >::const_iterator iter = m_frameMap.begin(); iter != m_frameMap.end(); ++iter) {
         if (iter->second->page() == page)
             ++result;
     }
     return result;
 }

 void WebProcessProxy::shouldTerminate(bool& shouldTerminate)
 {
     if (!m_pageMap.isEmpty() || !m_context->shouldTerminate(this)) {
         shouldTerminate = false;
         return;
     }

     shouldTerminate = true;

     // We know that the web process is going to terminate so disconnect it from the context.
     disconnect();
 }

 void WebProcessProxy::updateTextCheckerState()
 {
     if (!isValid())
         return;

     send(Messages::WebProcess::SetTextCheckerState(TextChecker::state()), 0);
 }

 } // namespace WebKit
	/*
	* 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 "WebProcessProxy.h"

	#include "DataReference.h"
	#include "PluginInfoStore.h"
	#include "PluginProcessManager.h"
	#include "TextChecker.h"
	#include "TextCheckerState.h"
	#include "WebBackForwardListItem.h"
	#include "WebContext.h"
	#include "WebNavigationDataStore.h"
	#include "WebNotificationManagerProxy.h"
	#include "WebPageProxy.h"
	#include "WebProcessMessages.h"
	#include "WebProcessProxyMessages.h"
	#include <WebCore/KURL.h>
	#include <stdio.h>
	#include <wtf/text/CString.h>
	#include <wtf/text/WTFString.h>

	using namespace WebCore;
	using namespace std;

	#define MESSAGE_CHECK_URL(url) MESSAGE_CHECK_BASE(checkURLReceivedFromWebProcess(url), connection())

	namespace WebKit {

	template<typename HashMap>
	static inline bool isGoodKey(const typename HashMap::KeyType& key)
	{
	return key != HashTraits<typename HashMap::KeyType>::emptyValue() && !HashTraits<typename HashMap::KeyType>::isDeletedValue(key);
	}

	static uint64_t generatePageID()
	{
	static uint64_t uniquePageID = 1;
	return uniquePageID++;
	}

	PassRefPtr<WebProcessProxy> WebProcessProxy::create(PassRefPtr<WebContext> context)
	{
	return adoptRef(new WebProcessProxy(context));
	}

	WebProcessProxy::WebProcessProxy(PassRefPtr<WebContext> context)
	: m_responsivenessTimer(this)
	, m_context(context)
	, m_mayHaveUniversalFileReadSandboxExtension(false)
	{
	connect();
	}

	WebProcessProxy::~WebProcessProxy()
	{
	if (m_connection)
	m_connection->invalidate();

	for (size_t i = 0; i < m_pendingMessages.size(); ++i)
	m_pendingMessages[i].first.releaseArguments();

	if (m_processLauncher) {
	m_processLauncher->invalidate();
	m_processLauncher = 0;
	}

	if (m_threadLauncher) {
	m_threadLauncher->invalidate();
	m_threadLauncher = 0;
	}
	}

	void WebProcessProxy::connect()
	{
	if (m_context->processModel() == ProcessModelSharedSecondaryThread) {
	ASSERT(!m_threadLauncher);
	m_threadLauncher = ThreadLauncher::create(this);
	} else {
	ASSERT(!m_processLauncher);

	ProcessLauncher::LaunchOptions launchOptions;
	launchOptions.processType = ProcessLauncher::WebProcess;

	#if PLATFORM(MAC)
	// We want the web process to match the architecture of the UI process.
	launchOptions.architecture = ProcessLauncher::LaunchOptions::MatchCurrentArchitecture;
	launchOptions.executableHeap = false;
	#endif
	m_processLauncher = ProcessLauncher::create(this, launchOptions);
	}
	}

	void WebProcessProxy::disconnect()
	{
	if (m_connection) {
	m_connection->connection()->removeQueueClient(this);
	m_connection->invalidate();
	m_connection = nullptr;
	}

	m_responsivenessTimer.stop();

	Vector<RefPtr<WebFrameProxy> > frames;
	copyValuesToVector(m_frameMap, frames);

	for (size_t i = 0, size = frames.size(); i < size; ++i)
	frames[i]->disconnect();
	m_frameMap.clear();

	m_context->disconnectProcess(this);
	}

	bool WebProcessProxy::sendMessage(CoreIPC::MessageID messageID, PassOwnPtr<CoreIPC::ArgumentEncoder> arguments, unsigned messageSendFlags)
	{
	// If we're waiting for the web process to launch, we need to stash away the messages so we can send them once we have
	// a CoreIPC connection.
	if (isLaunching()) {
	m_pendingMessages.append(make_pair(CoreIPC::Connection::OutgoingMessage(messageID, arguments), messageSendFlags));
	return true;
	}

	// If the web process has exited, m_connection will be null here.
	if (!m_connection)
	return false;

	return connection()->sendMessage(messageID, arguments, messageSendFlags);
	}

	bool WebProcessProxy::isLaunching() const
	{
	if (m_processLauncher)
	return m_processLauncher->isLaunching();
	if (m_threadLauncher)
	return m_threadLauncher->isLaunching();

	return false;
	}

	void WebProcessProxy::terminate()
	{
	if (m_processLauncher)
	m_processLauncher->terminateProcess();
	}

	WebPageProxy* WebProcessProxy::webPage(uint64_t pageID) const
	{
	return m_pageMap.get(pageID);
	}

	PassRefPtr<WebPageProxy> WebProcessProxy::createWebPage(PageClient* pageClient, WebContext* context, WebPageGroup* pageGroup)
	{
	ASSERT(context->process() == this);

	uint64_t pageID = generatePageID();
	RefPtr<WebPageProxy> webPage = WebPageProxy::create(pageClient, this, pageGroup, pageID);
	m_pageMap.set(pageID, webPage.get());
	return webPage.release();
	}

	void WebProcessProxy::addExistingWebPage(WebPageProxy* webPage, uint64_t pageID)
	{
	m_pageMap.set(pageID, webPage);
	}

	void WebProcessProxy::removeWebPage(uint64_t pageID)
	{
	m_pageMap.remove(pageID);
	}

	WebBackForwardListItem* WebProcessProxy::webBackForwardItem(uint64_t itemID) const
	{
	return m_backForwardListItemMap.get(itemID).get();
	}

	void WebProcessProxy::registerNewWebBackForwardListItem(WebBackForwardListItem* item)
	{
	// This item was just created by the UIProcess and is being added to the map for the first time
	// so we should not already have an item for this ID.
	ASSERT(!m_backForwardListItemMap.contains(item->itemID()));

	m_backForwardListItemMap.set(item->itemID(), item);
	}

	void WebProcessProxy::assumeReadAccessToBaseURL(const String& urlString)
	{
	KURL url(KURL(), urlString);
	if (!url.isLocalFile())
	return;

	// There's a chance that urlString does not point to a directory.
	// Get url's base URL to add to m_localPathsWithAssumedReadAccess.
	KURL baseURL(KURL(), url.baseAsString());

	// Client loads an alternate string. This doesn't grant universal file read, but the web process is assumed
	// to have read access to this directory already.
	m_localPathsWithAssumedReadAccess.add(baseURL.fileSystemPath());
	}

	bool WebProcessProxy::checkURLReceivedFromWebProcess(const String& urlString)
	{
	return checkURLReceivedFromWebProcess(KURL(KURL(), urlString));
	}

	bool WebProcessProxy::checkURLReceivedFromWebProcess(const KURL& url)
	{
	// FIXME: Consider checking that the URL is valid. Currently, WebProcess sends invalid URLs in many cases, but it probably doesn't have good reasons to do that.

	// Any other non-file URL is OK.
	if (!url.isLocalFile())
	return true;

	// Any file URL is also OK if we've loaded a file URL through API before, granting universal read access.
	if (m_mayHaveUniversalFileReadSandboxExtension)
	return true;

	// If we loaded a string with a file base URL before, loading resources from that subdirectory is fine.
	// There are no ".." components, because all URLs received from WebProcess are parsed with KURL, which removes those.
	String path = url.fileSystemPath();
	for (HashSet<String>::const_iterator iter = m_localPathsWithAssumedReadAccess.begin(); iter != m_localPathsWithAssumedReadAccess.end(); ++iter) {
	if (path.startsWith(*iter))
	return true;
	}

	// A Web process that was never asked to load a file URL should not ever ask us to do anything with a file URL.
	return false;
	}

	#if !PLATFORM(MAC)
	bool WebProcessProxy::fullKeyboardAccessEnabled()
	{
	return false;
	}
	#endif

	void WebProcessProxy::addBackForwardItem(uint64_t itemID, const String& originalURL, const String& url, const String& title, const CoreIPC::DataReference& backForwardData)
	{
	MESSAGE_CHECK_URL(originalURL);
	MESSAGE_CHECK_URL(url);

	std::pair<WebBackForwardListItemMap::iterator, bool> result = m_backForwardListItemMap.add(itemID, 0);
	if (result.second) {
	// New item.
	result.first->second = WebBackForwardListItem::create(originalURL, url, title, backForwardData.data(), backForwardData.size(), itemID);
	return;
	}

	// Update existing item.
	result.first->second->setOriginalURL(originalURL);
	result.first->second->setURL(url);
	result.first->second->setTitle(title);
	result.first->second->setBackForwardData(backForwardData.data(), backForwardData.size());
	}

	#if ENABLE(PLUGIN_PROCESS)
	void WebProcessProxy::getPluginProcessConnection(const String& pluginPath, PassRefPtr<Messages::WebProcessProxy::GetPluginProcessConnection::DelayedReply> reply)
	{
	PluginProcessManager::shared().getPluginProcessConnection(context()->pluginInfoStore(), pluginPath, reply);
	}

	void WebProcessProxy::pluginSyncMessageSendTimedOut(const String& pluginPath)
	{
	PluginProcessManager::shared().pluginSyncMessageSendTimedOut(pluginPath);
	}
	#endif

	void WebProcessProxy::didReceiveMessage(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments)
	{
	if (messageID.is<CoreIPC::MessageClassWebProcessProxy>()) {
	didReceiveWebProcessProxyMessage(connection, messageID, arguments);
	return;
	}

	if (messageID.is<CoreIPC::MessageClassWebContext>()
	\|\| messageID.is<CoreIPC::MessageClassWebContextLegacy>()
	\|\| messageID.is<CoreIPC::MessageClassDownloadProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebApplicationCacheManagerProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebCookieManagerProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebDatabaseManagerProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebGeolocationManagerProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebIconDatabase>()
	\|\| messageID.is<CoreIPC::MessageClassWebKeyValueStorageManagerProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebMediaCacheManagerProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebNotificationManagerProxy>()
	\|\| messageID.is<CoreIPC::MessageClassWebResourceCacheManagerProxy>()) {
	m_context->didReceiveMessage(connection, messageID, arguments);
	return;
	}

	uint64_t pageID = arguments->destinationID();
	if (!pageID)
	return;

	WebPageProxy* pageProxy = webPage(pageID);
	if (!pageProxy)
	return;

	pageProxy->didReceiveMessage(connection, messageID, arguments);
	}

	void WebProcessProxy::didReceiveSyncMessage(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments, OwnPtr<CoreIPC::ArgumentEncoder>& reply)
	{
	if (messageID.is<CoreIPC::MessageClassWebProcessProxy>()) {
	didReceiveSyncWebProcessProxyMessage(connection, messageID, arguments, reply);
	return;
	}

	if (messageID.is<CoreIPC::MessageClassWebContext>() \|\| messageID.is<CoreIPC::MessageClassWebContextLegacy>()
	\|\| messageID.is<CoreIPC::MessageClassDownloadProxy>() \|\| messageID.is<CoreIPC::MessageClassWebIconDatabase>()) {
	m_context->didReceiveSyncMessage(connection, messageID, arguments, reply);
	return;
	}

	uint64_t pageID = arguments->destinationID();
	if (!pageID)
	return;

	WebPageProxy* pageProxy = webPage(pageID);
	if (!pageProxy)
	return;

	pageProxy->didReceiveSyncMessage(connection, messageID, arguments, reply);
	}

	void WebProcessProxy::didReceiveMessageOnConnectionWorkQueue(CoreIPC::Connection* connection, CoreIPC::MessageID messageID, CoreIPC::ArgumentDecoder* arguments, bool& didHandleMessage)
	{
	if (messageID.is<CoreIPC::MessageClassWebProcessProxy>())
	didReceiveWebProcessProxyMessageOnConnectionWorkQueue(connection, messageID, arguments, didHandleMessage);
	}

	void WebProcessProxy::didClose(CoreIPC::Connection*)
	{
	// Protect ourselves, as the call to disconnect() below may otherwise cause us
	// to be deleted before we can finish our work.
	RefPtr<WebProcessProxy> protect(this);

	Vector<RefPtr<WebPageProxy> > pages;
	copyValuesToVector(m_pageMap, pages);

	disconnect();

	for (size_t i = 0, size = pages.size(); i < size; ++i)
	pages[i]->processDidCrash();
	}

	void WebProcessProxy::didReceiveInvalidMessage(CoreIPC::Connection*, CoreIPC::MessageID messageID)
	{
	// This fprintf is intentionally left because this function should
	// only be hit in the case of a misbehaving web process.
	fprintf(stderr, "Receive an invalid message from the web process with message ID %x\n", messageID.toInt());

	// Terminate the WebProcesses.
	terminate();
	}

	void WebProcessProxy::syncMessageSendTimedOut(CoreIPC::Connection*)
	{
	}

	void WebProcessProxy::didBecomeUnresponsive(ResponsivenessTimer*)
	{
	Vector<RefPtr<WebPageProxy> > pages;
	copyValuesToVector(m_pageMap, pages);
	for (size_t i = 0, size = pages.size(); i < size; ++i)
	pages[i]->processDidBecomeUnresponsive();
	}

	void WebProcessProxy::didBecomeResponsive(ResponsivenessTimer*)
	{
	Vector<RefPtr<WebPageProxy> > pages;
	copyValuesToVector(m_pageMap, pages);
	for (size_t i = 0, size = pages.size(); i < size; ++i)
	pages[i]->processDidBecomeResponsive();
	}

	void WebProcessProxy::didFinishLaunching(ProcessLauncher*, CoreIPC::Connection::Identifier connectionIdentifier)
	{
	didFinishLaunching(connectionIdentifier);
	}

	void WebProcessProxy::didFinishLaunching(ThreadLauncher*, CoreIPC::Connection::Identifier connectionIdentifier)
	{
	didFinishLaunching(connectionIdentifier);
	}

	void WebProcessProxy::didFinishLaunching(CoreIPC::Connection::Identifier connectionIdentifier)
	{
	ASSERT(!m_connection);

	m_connection = WebConnectionToWebProcess::create(this, connectionIdentifier, RunLoop::main());
	m_connection->connection()->addQueueClient(this);
	m_connection->connection()->open();

	for (size_t i = 0; i < m_pendingMessages.size(); ++i) {
	CoreIPC::Connection::OutgoingMessage& outgoingMessage = m_pendingMessages[i].first;
	unsigned messageSendFlags = m_pendingMessages[i].second;
	connection()->sendMessage(outgoingMessage.messageID(), adoptPtr(outgoingMessage.arguments()), messageSendFlags);
	}

	m_pendingMessages.clear();

	// Tell the context that we finished launching.
	m_context->processDidFinishLaunching(this);
	}

	WebFrameProxy* WebProcessProxy::webFrame(uint64_t frameID) const
	{
	return isGoodKey<WebFrameProxyMap>(frameID) ? m_frameMap.get(frameID).get() : 0;
	}

	bool WebProcessProxy::canCreateFrame(uint64_t frameID) const
	{
	return isGoodKey<WebFrameProxyMap>(frameID) && !m_frameMap.contains(frameID);
	}

	void WebProcessProxy::frameCreated(uint64_t frameID, WebFrameProxy* frameProxy)
	{
	ASSERT(canCreateFrame(frameID));
	m_frameMap.set(frameID, frameProxy);
	}

	void WebProcessProxy::didDestroyFrame(uint64_t frameID)
	{
	// If the page is closed before it has had the chance to send the DidCreateMainFrame message
	// back to the UIProcess, then the frameDestroyed message will still be received because it
	// gets sent directly to the WebProcessProxy.
	ASSERT(isGoodKey<WebFrameProxyMap>(frameID));
	m_frameMap.remove(frameID);
	}

	void WebProcessProxy::disconnectFramesFromPage(WebPageProxy* page)
	{
	Vector<RefPtr<WebFrameProxy> > frames;
	copyValuesToVector(m_frameMap, frames);
	for (size_t i = 0, size = frames.size(); i < size; ++i) {
	if (frames[i]->page() == page)
	frames[i]->disconnect();
	}
	}

	size_t WebProcessProxy::frameCountInPage(WebPageProxy* page) const
	{
	size_t result = 0;
	for (HashMap<uint64_t, RefPtr<WebFrameProxy> >::const_iterator iter = m_frameMap.begin(); iter != m_frameMap.end(); ++iter) {
	if (iter->second->page() == page)
	++result;
	}
	return result;
	}

	void WebProcessProxy::shouldTerminate(bool& shouldTerminate)
	{
	if (!m_pageMap.isEmpty() \|\| !m_context->shouldTerminate(this)) {
	shouldTerminate = false;
	return;
	}

	shouldTerminate = true;

	// We know that the web process is going to terminate so disconnect it from the context.
	disconnect();
	}

	void WebProcessProxy::updateTextCheckerState()
	{
	if (!isValid())
	return;

	send(Messages::WebProcess::SetTextCheckerState(TextChecker::state()), 0);
	}

	} // namespace WebKit