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/*
* Copyright (C) 2010-2022 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 "TestController.h"
#include "DictionaryFunctions.h"
#include "EventSenderProxy.h"
#include "Options.h"
#include "PlatformWebView.h"
#include "TestCommand.h"
#include "TestInvocation.h"
#include "WebCoreTestSupport.h"
#include <JavaScriptCore/InitializeThreading.h>
#include <WebKit/WKArray.h>
#include <WebKit/WKAuthenticationChallenge.h>
#include <WebKit/WKAuthenticationDecisionListener.h>
#include <WebKit/WKContextConfigurationRef.h>
#include <WebKit/WKContextPrivate.h>
#include <WebKit/WKCredential.h>
#include <WebKit/WKDownloadClient.h>
#include <WebKit/WKDownloadRef.h>
#include <WebKit/WKFrameHandleRef.h>
#include <WebKit/WKFrameInfoRef.h>
#include <WebKit/WKHTTPCookieStoreRef.h>
#include <WebKit/WKIconDatabase.h>
#include <WebKit/WKMediaKeySystemPermissionCallback.h>
#include <WebKit/WKMessageListener.h>
#include <WebKit/WKMockDisplay.h>
#include <WebKit/WKMockMediaDevice.h>
#include <WebKit/WKNavigationActionRef.h>
#include <WebKit/WKNavigationResponseRef.h>
#include <WebKit/WKNotification.h>
#include <WebKit/WKNotificationManager.h>
#include <WebKit/WKNotificationPermissionRequest.h>
#include <WebKit/WKNumber.h>
#include <WebKit/WKOpenPanelResultListener.h>
#include <WebKit/WKPageGroup.h>
#include <WebKit/WKPageInjectedBundleClient.h>
#include <WebKit/WKPagePrivate.h>
#include <WebKit/WKPluginInformation.h>
#include <WebKit/WKPreferencesRefPrivate.h>
#include <WebKit/WKProtectionSpace.h>
#include <WebKit/WKRetainPtr.h>
#include <WebKit/WKSecurityOriginRef.h>
#include <WebKit/WKSpeechRecognitionPermissionCallback.h>
#include <WebKit/WKTextChecker.h>
#include <WebKit/WKURL.h>
#include <WebKit/WKUserContentControllerRef.h>
#include <WebKit/WKUserContentExtensionStoreRef.h>
#include <WebKit/WKUserMediaPermissionCheck.h>
#include <WebKit/WKWebsiteDataStoreConfigurationRef.h>
#include <WebKit/WKWebsiteDataStoreRef.h>
#include <WebKit/WKWebsitePolicies.h>
#include <algorithm>
#include <cstdio>
#include <ctype.h>
#include <fstream>
#include <stdlib.h>
#include <string>
#include <wtf/AutodrainedPool.h>
#include <wtf/CompletionHandler.h>
#include <wtf/CryptographicallyRandomNumber.h>
#include <wtf/FileSystem.h>
#include <wtf/MainThread.h>
#include <wtf/ProcessPrivilege.h>
#include <wtf/RefCounted.h>
#include <wtf/RunLoop.h>
#include <wtf/SetForScope.h>
#include <wtf/UUID.h>
#include <wtf/UniqueArray.h>
#include <wtf/UniqueRef.h>
#include <wtf/text/CString.h>
#include <wtf/text/StringConcatenateNumbers.h>
#if PLATFORM(COCOA)
#include <WebKit/WKContextPrivateMac.h>
#include <WebKit/WKPagePrivateMac.h>
#endif
#if PLATFORM(WIN)
#include <direct.h>
#define getcwd _getcwd
#define PATH_MAX _MAX_PATH
#else
#include <unistd.h>
#endif
namespace WTR {
#if OS(WINDOWS)
static constexpr auto pathSeparator = '\\';
#else
static constexpr auto pathSeparator = '/';
#endif
const WTF::Seconds TestController::defaultShortTimeout = 5_s;
const WTF::Seconds TestController::noTimeout = -1_s;
static WKURLRef blankURL()
{
static WKURLRef staticBlankURL = WKURLCreateWithUTF8CString("about:blank");
return staticBlankURL;
}
static WKDataRef copyWebCryptoMasterKey(WKPageRef, const void*)
{
// Any 128 bit key would do, all we need for testing is to implement the callback.
return WKDataCreate((const uint8_t*)"\x00\x01\x02\x03\x04\x05\x06\x07\x08\x09\x0a\x0b\x0c\x0d\x0e\x0f", 16);
}
static WKStringRef copySignedPublicKeyAndChallengeString(WKPageRef, const void*)
{
// Any fake response would do, all we need for testing is to implement the callback.
return WKStringCreateWithUTF8CString("MIHFMHEwXDANBgkqhkiG9w0BAQEFAANLADBIAkEAnX0TILJrOMUue%2BPtwBRE6XfV%0AWtKQbsshxk5ZhcUwcwyvcnIq9b82QhJdoACdD34rqfCAIND46fXKQUnb0mvKzQID%0AAQABFhFNb3ppbGxhSXNNeUZyaWVuZDANBgkqhkiG9w0BAQQFAANBAAKv2Eex2n%2FS%0Ar%2F7iJNroWlSzSMtTiQTEB%2BADWHGj9u1xrUrOilq%2Fo2cuQxIfZcNZkYAkWP4DubqW%0Ai0%2F%2FrgBvmco%3D");
}
void TestController::navigationDidBecomeDownloadShared(WKDownloadRef download, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->downloadDidStart(download);
WKDownloadClientV0 client {
{ 0, clientInfo },
TestController::downloadDidReceiveServerRedirectToURL,
TestController::downloadDidReceiveAuthenticationChallenge,
TestController::decideDestinationWithSuggestedFilename,
TestController::downloadDidWriteData,
TestController::downloadDidFinish,
TestController::downloadDidFail
};
WKDownloadSetClient(download, &client.base);
}
void TestController::navigationActionDidBecomeDownload(WKPageRef, WKNavigationActionRef, WKDownloadRef download, const void* clientInfo)
{
navigationDidBecomeDownloadShared(download, clientInfo);
}
void TestController::navigationResponseDidBecomeDownload(WKPageRef, WKNavigationResponseRef, WKDownloadRef download, const void* clientInfo)
{
navigationDidBecomeDownloadShared(download, clientInfo);
}
AsyncTask* AsyncTask::m_currentTask;
bool AsyncTask::run()
{
m_currentTask = this;
m_task();
TestController::singleton().runUntil(m_taskDone, m_timeout);
m_currentTask = nullptr;
return m_taskDone;
}
AsyncTask* AsyncTask::currentTask()
{
return m_currentTask;
}
static TestController* controller;
TestController& TestController::singleton()
{
ASSERT(controller);
return *controller;
}
TestController::TestController(int argc, const char* argv[])
{
initialize(argc, argv);
controller = this;
run();
controller = nullptr;
}
TestController::~TestController()
{
// The context will be null if WebKitTestRunner was in server mode, but ran no tests.
if (m_context)
WKIconDatabaseClose(WKContextGetIconDatabase(m_context.get()));
platformDestroy();
}
static WKRect getWindowFrame(WKPageRef page, const void* clientInfo)
{
PlatformWebView* view = static_cast<PlatformWebView*>(const_cast<void*>(clientInfo));
return view->windowFrame();
}
static void setWindowFrame(WKPageRef page, WKRect frame, const void* clientInfo)
{
PlatformWebView* view = static_cast<PlatformWebView*>(const_cast<void*>(clientInfo));
view->setWindowFrame(frame);
}
static bool runBeforeUnloadConfirmPanel(WKPageRef page, WKStringRef message, WKFrameRef frame, const void*)
{
printf("CONFIRM NAVIGATION: %s\n", toSTD(message).c_str());
return TestController::singleton().beforeUnloadReturnValue();
}
static void runOpenPanel(WKPageRef page, WKFrameRef frame, WKOpenPanelParametersRef parameters, WKOpenPanelResultListenerRef resultListenerRef, const void*)
{
printf("OPEN FILE PANEL\n");
if (WKOpenPanelParametersGetAllowsDirectories(parameters))
printf("-> DIRECTORIES ARE ALLOWED\n");
WKArrayRef fileURLs = TestController::singleton().openPanelFileURLs();
if (!fileURLs || !WKArrayGetSize(fileURLs)) {
WKOpenPanelResultListenerCancel(resultListenerRef);
return;
}
WKTypeRef firstItem = WKArrayGetItemAtIndex(fileURLs, 0);
#if PLATFORM(IOS_FAMILY)
auto displayString = adoptWK(WKURLCopyLastPathComponent(static_cast<WKURLRef>(firstItem)));
WKDataRef mediaIcon = TestController::singleton().openPanelFileURLsMediaIcon();
if (mediaIcon) {
if (WKOpenPanelParametersGetAllowsMultipleFiles(parameters)) {
WKOpenPanelResultListenerChooseMediaFiles(resultListenerRef, fileURLs, displayString.get(), mediaIcon);
return;
}
WKOpenPanelResultListenerChooseMediaFiles(resultListenerRef, adoptWK(WKArrayCreate(&firstItem, 1)).get(), displayString.get(), mediaIcon);
return;
}
#endif
WKArrayRef allowedMimeTypes = WKOpenPanelParametersCopyAllowedMIMETypes(parameters);
if (WKOpenPanelParametersGetAllowsMultipleFiles(parameters)) {
WKOpenPanelResultListenerChooseFiles(resultListenerRef, fileURLs, allowedMimeTypes);
return;
}
WKOpenPanelResultListenerChooseFiles(resultListenerRef, adoptWK(WKArrayCreate(&firstItem, 1)).get(), allowedMimeTypes);
}
void TestController::runModal(WKPageRef page, const void* clientInfo)
{
PlatformWebView* view = static_cast<PlatformWebView*>(const_cast<void*>(clientInfo));
TestController::singleton().mainWebView()->setWindowIsKey(false);
runModal(view);
TestController::singleton().mainWebView()->setWindowIsKey(true);
}
void TestController::closeOtherPage(WKPageRef page, const void* clientInfo)
{
PlatformWebView* view = static_cast<PlatformWebView*>(const_cast<void*>(clientInfo));
TestController::singleton().closeOtherPage(page, view);
}
static void focus(WKPageRef page, const void* clientInfo)
{
PlatformWebView* view = static_cast<PlatformWebView*>(const_cast<void*>(clientInfo));
view->focus();
view->setWindowIsKey(true);
}
static void unfocus(WKPageRef page, const void* clientInfo)
{
PlatformWebView* view = static_cast<PlatformWebView*>(const_cast<void*>(clientInfo));
view->setWindowIsKey(false);
}
static void decidePolicyForGeolocationPermissionRequest(WKPageRef, WKFrameRef, WKSecurityOriginRef, WKGeolocationPermissionRequestRef permissionRequest, const void* clientInfo)
{
TestController::singleton().handleGeolocationPermissionRequest(permissionRequest);
}
static void decidePolicyForUserMediaPermissionRequest(WKPageRef, WKFrameRef frame, WKSecurityOriginRef userMediaDocumentOrigin, WKSecurityOriginRef topLevelDocumentOrigin, WKUserMediaPermissionRequestRef permissionRequest, const void* clientInfo)
{
TestController::singleton().handleUserMediaPermissionRequest(frame, userMediaDocumentOrigin, topLevelDocumentOrigin, permissionRequest);
}
static void runJavaScriptAlert(WKPageRef page, WKStringRef alertText, WKFrameRef frame, WKSecurityOriginRef securityOrigin, WKPageRunJavaScriptAlertResultListenerRef listener, const void *clientInfo)
{
TestController::singleton().handleJavaScriptAlert(listener);
}
static void checkUserMediaPermissionForOrigin(WKPageRef, WKFrameRef frame, WKSecurityOriginRef userMediaDocumentOrigin, WKSecurityOriginRef topLevelDocumentOrigin, WKUserMediaPermissionCheckRef checkRequest, const void*)
{
TestController::singleton().handleCheckOfUserMediaPermissionForOrigin(frame, userMediaDocumentOrigin, topLevelDocumentOrigin, checkRequest);
}
static void requestPointerLock(WKPageRef page, const void*)
{
WKPageDidAllowPointerLock(page);
}
static void printFrame(WKPageRef page, WKFrameRef frame, const void*)
{
WKPageBeginPrinting(page, frame, WKPrintInfo { 1, 21, 29.7f });
WKPageEndPrinting(page);
}
static bool shouldAllowDeviceOrientationAndMotionAccess(WKPageRef, WKSecurityOriginRef origin, WKFrameInfoRef frame, const void*)
{
return TestController::singleton().handleDeviceOrientationAndMotionAccessRequest(origin, frame);
}
// A placeholder to tell WebKit the client is WebKitTestRunner.
static void runWebAuthenticationPanel()
{
}
static void decidePolicyForSpeechRecognitionPermissionRequest(WKPageRef, WKSecurityOriginRef, WKSpeechRecognitionPermissionCallbackRef callback)
{
TestController::singleton().completeSpeechRecognitionPermissionCheck(callback);
}
void TestController::completeSpeechRecognitionPermissionCheck(WKSpeechRecognitionPermissionCallbackRef callback)
{
WKSpeechRecognitionPermissionCallbackComplete(callback, m_isSpeechRecognitionPermissionGranted);
}
void TestController::setIsSpeechRecognitionPermissionGranted(bool granted)
{
m_isSpeechRecognitionPermissionGranted = granted;
}
static void decidePolicyForMediaKeySystemPermissionRequest(WKPageRef, WKSecurityOriginRef, WKStringRef, WKMediaKeySystemPermissionCallbackRef callback)
{
TestController::singleton().completeMediaKeySystemPermissionCheck(callback);
}
void TestController::completeMediaKeySystemPermissionCheck(WKMediaKeySystemPermissionCallbackRef callback)
{
WKMediaKeySystemPermissionCallbackComplete(callback, m_isMediaKeySystemPermissionGranted);
}
void TestController::setIsMediaKeySystemPermissionGranted(bool granted)
{
m_isMediaKeySystemPermissionGranted = granted;
}
void TestController::closeOtherPage(WKPageRef page, PlatformWebView* view)
{
WKPageClose(page);
auto index = m_auxiliaryWebViews.findIf([view](auto& auxiliaryWebView) { return auxiliaryWebView.ptr() == view; });
if (index != notFound)
m_auxiliaryWebViews.remove(index);
}
WKPageRef TestController::createOtherPage(WKPageRef, WKPageConfigurationRef configuration, WKNavigationActionRef navigationAction, WKWindowFeaturesRef windowFeatures, const void *clientInfo)
{
PlatformWebView* parentView = static_cast<PlatformWebView*>(const_cast<void*>(clientInfo));
return TestController::singleton().createOtherPage(parentView, configuration, navigationAction, windowFeatures);
}
WKPageRef TestController::createOtherPage(PlatformWebView* parentView, WKPageConfigurationRef configuration, WKNavigationActionRef navigationAction, WKWindowFeaturesRef windowFeatures)
{
m_currentInvocation->willCreateNewPage();
// The test called testRunner.preventPopupWindows() to prevent opening new windows.
if (!m_currentInvocation->canOpenWindows())
return nullptr;
m_createdOtherPage = true;
auto view = platformCreateOtherPage(parentView, configuration, parentView->options());
WKPageRef newPage = view->page();
view->resizeTo(800, 600);
WKPageUIClientV8 otherPageUIClient = {
{ 8, view.ptr() },
nullptr, // createNewPage_deprecatedForUseWithV0
nullptr, // showPage
closeOtherPage,
nullptr, // takeFocus
focus,
unfocus,
nullptr, // runJavaScriptAlert_deprecatedForUseWithV0
nullptr, // runJavaScriptAlert_deprecatedForUseWithV0
nullptr, // runJavaScriptAlert_deprecatedForUseWithV0
nullptr, // setStatusText
nullptr, // mouseDidMoveOverElement_deprecatedForUseWithV0
nullptr, // missingPluginButtonClicked
nullptr, // didNotHandleKeyEvent
nullptr, // didNotHandleWheelEvent
nullptr, // toolbarsAreVisible
nullptr, // setToolbarsAreVisible
nullptr, // menuBarIsVisible
nullptr, // setMenuBarIsVisible
nullptr, // statusBarIsVisible
nullptr, // setStatusBarIsVisible
nullptr, // isResizable
nullptr, // setIsResizable
getWindowFrame,
setWindowFrame,
runBeforeUnloadConfirmPanel,
nullptr, // didDraw
nullptr, // pageDidScroll
nullptr, // exceededDatabaseQuota
runOpenPanel,
decidePolicyForGeolocationPermissionRequest,
nullptr, // headerHeight
nullptr, // footerHeight
nullptr, // drawHeader
nullptr, // drawFooter
printFrame,
runModal,
nullptr, // didCompleteRubberBandForMainFrame
nullptr, // saveDataToFileInDownloadsFolder
nullptr, // shouldInterruptJavaScript
nullptr, // createNewPage_deprecatedForUseWithV1
nullptr, // mouseDidMoveOverElement
nullptr, // decidePolicyForNotificationPermissionRequest
nullptr, // unavailablePluginButtonClicked_deprecatedForUseWithV1
nullptr, // showColorPicker
nullptr, // hideColorPicker
nullptr, // unavailablePluginButtonClicked
nullptr, // pinnedStateDidChange
nullptr, // didBeginTrackingPotentialLongMousePress
nullptr, // didRecognizeLongMousePress
nullptr, // didCancelTrackingPotentialLongMousePress
nullptr, // isPlayingAudioDidChange
decidePolicyForUserMediaPermissionRequest,
nullptr, // didClickAutofillButton
nullptr, // runJavaScriptAlert
nullptr, // runJavaScriptConfirm
nullptr, // runJavaScriptPrompt
nullptr, // unused5
createOtherPage,
runJavaScriptAlert,
nullptr, // runJavaScriptConfirm
nullptr, // runJavaScriptPrompt
checkUserMediaPermissionForOrigin,
nullptr, // runBeforeUnloadConfirmPanel
nullptr, // fullscreenMayReturnToInline
requestPointerLock,
nullptr, // didLosePointerLock
};
WKPageSetPageUIClient(newPage, &otherPageUIClient.base);
WKPageNavigationClientV3 pageNavigationClient = {
{ 3, &TestController::singleton() },
decidePolicyForNavigationAction,
decidePolicyForNavigationResponse,
decidePolicyForPluginLoad,
nullptr, // didStartProvisionalNavigation
didReceiveServerRedirectForProvisionalNavigation,
nullptr, // didFailProvisionalNavigation
nullptr, // didCommitNavigation
nullptr, // didFinishNavigation
nullptr, // didFailNavigation
nullptr, // didFailProvisionalLoadInSubframe
nullptr, // didFinishDocumentLoad
nullptr, // didSameDocumentNavigation
nullptr, // renderingProgressDidChange
canAuthenticateAgainstProtectionSpace,
didReceiveAuthenticationChallenge,
nullptr, // webProcessDidCrash
copyWebCryptoMasterKey,
didBeginNavigationGesture,
willEndNavigationGesture,
didEndNavigationGesture,
didRemoveNavigationGestureSnapshot,
webProcessDidTerminate, // webProcessDidTerminate
nullptr, // contentRuleListNotification
copySignedPublicKeyAndChallengeString,
navigationActionDidBecomeDownload,
navigationResponseDidBecomeDownload,
nullptr // contextMenuDidCreateDownload
};
WKPageSetPageNavigationClient(newPage, &pageNavigationClient.base);
WKPageInjectedBundleClientV1 injectedBundleClient = {
{ 1, this },
didReceivePageMessageFromInjectedBundle,
nullptr,
didReceiveSynchronousPageMessageFromInjectedBundleWithListener,
};
WKPageSetPageInjectedBundleClient(newPage, &injectedBundleClient.base);
view->didInitializeClients();
TestController::singleton().updateWindowScaleForTest(view.ptr(), *TestController::singleton().m_currentInvocation);
m_auxiliaryWebViews.append(WTFMove(view));
WKRetain(newPage);
return newPage;
}
const char* TestController::libraryPathForTesting()
{
// FIXME: This may not be sufficient to prevent interactions/crashes
// when running more than one copy of DumpRenderTree.
// See https://bugs.webkit.org/show_bug.cgi?id=10906
char* dumpRenderTreeTemp = getenv("DUMPRENDERTREE_TEMP");
if (dumpRenderTreeTemp)
return dumpRenderTreeTemp;
return platformLibraryPathForTesting();
}
void TestController::initialize(int argc, const char* argv[])
{
AutodrainedPool pool;
JSC::initialize();
WTF::initializeMainThread();
WTF::setProcessPrivileges(allPrivileges());
WebCoreTestSupport::populateJITOperations();
Options options;
OptionsHandler optionsHandler(options);
if (argc < 2) {
optionsHandler.printHelp();
exit(1);
}
if (!optionsHandler.parse(argc, argv))
exit(1);
platformInitialize(options);
m_useWaitToDumpWatchdogTimer = options.useWaitToDumpWatchdogTimer;
m_forceNoTimeout = options.forceNoTimeout;
m_verbose = options.verbose;
m_gcBetweenTests = options.gcBetweenTests;
m_shouldDumpPixelsForAllTests = options.shouldDumpPixelsForAllTests;
m_forceComplexText = options.forceComplexText;
m_paths = options.paths;
m_allowedHosts = options.allowedHosts;
m_checkForWorldLeaks = options.checkForWorldLeaks;
m_allowAnyHTTPSCertificateForAllowedHosts = options.allowAnyHTTPSCertificateForAllowedHosts;
m_enableAllExperimentalFeatures = options.enableAllExperimentalFeatures;
m_globalFeatures = std::move(options.features);
m_usingServerMode = (m_paths.size() == 1 && m_paths[0] == "-");
if (m_usingServerMode)
m_printSeparators = true;
else
m_printSeparators = m_paths.size() > 1;
initializeInjectedBundlePath();
initializeTestPluginDirectory();
#if ENABLE(GAMEPAD)
WebCoreTestSupport::installMockGamepadProvider();
#endif
m_pageGroup.adopt(WKPageGroupCreateWithIdentifier(toWK("WebKitTestRunnerPageGroup").get()));
m_eventSenderProxy = makeUnique<EventSenderProxy>(this);
}
WKRetainPtr<WKContextConfigurationRef> TestController::generateContextConfiguration(const TestOptions& options) const
{
auto configuration = adoptWK(WKContextConfigurationCreate());
WKContextConfigurationSetInjectedBundlePath(configuration.get(), injectedBundlePath());
WKContextConfigurationSetFullySynchronousModeIsAllowedForTesting(configuration.get(), true);
WKContextConfigurationSetIgnoreSynchronousMessagingTimeoutsForTesting(configuration.get(), options.ignoreSynchronousMessagingTimeouts());
auto overrideLanguages = adoptWK(WKMutableArrayCreate());
for (auto& language : options.overrideLanguages())
WKArrayAppendItem(overrideLanguages.get(), toWK(language).get());
WKContextConfigurationSetOverrideLanguages(configuration.get(), overrideLanguages.get());
if (options.shouldEnableProcessSwapOnNavigation()) {
WKContextConfigurationSetProcessSwapsOnNavigation(configuration.get(), true);
if (options.enableProcessSwapOnWindowOpen())
WKContextConfigurationSetProcessSwapsOnWindowOpenWithOpener(configuration.get(), true);
}
WKContextConfigurationSetShouldConfigureJSCForTesting(configuration.get(), true);
return configuration;
}
void TestController::configureWebsiteDataStoreTemporaryDirectories(WKWebsiteDataStoreConfigurationRef configuration)
{
if (const char* dumpRenderTreeTemp = libraryPathForTesting()) {
String temporaryFolder = String::fromUTF8(dumpRenderTreeTemp);
auto randomNumber = cryptographicallyRandomNumber();
WKWebsiteDataStoreConfigurationSetApplicationCacheDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "ApplicationCache", pathSeparator, randomNumber)).get());
WKWebsiteDataStoreConfigurationSetNetworkCacheDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "Cache", pathSeparator, randomNumber)).get());
WKWebsiteDataStoreConfigurationSetCacheStorageDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "CacheStorage", pathSeparator, randomNumber)).get());
WKWebsiteDataStoreConfigurationSetIndexedDBDatabaseDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "Databases", pathSeparator, "IndexedDB", pathSeparator, randomNumber)).get());
WKWebsiteDataStoreConfigurationSetLocalStorageDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "LocalStorage", pathSeparator, randomNumber)).get());
WKWebsiteDataStoreConfigurationSetMediaKeysStorageDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "MediaKeys", pathSeparator, randomNumber)).get());
WKWebsiteDataStoreConfigurationSetResourceLoadStatisticsDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "ResourceLoadStatistics", pathSeparator, randomNumber)).get());
WKWebsiteDataStoreConfigurationSetServiceWorkerRegistrationDirectory(configuration, toWK(makeString(temporaryFolder, pathSeparator, "ServiceWorkers", pathSeparator, randomNumber)).get());
#if PLATFORM(WIN)
WKWebsiteDataStoreConfigurationSetCookieStorageFile(configuration, toWK(makeString(temporaryFolder, pathSeparator, "cookies", pathSeparator, randomNumber, pathSeparator, "cookiejar.db")).get());
#endif
WKWebsiteDataStoreConfigurationSetPerOriginStorageQuota(configuration, 400 * 1024);
WKWebsiteDataStoreConfigurationSetNetworkCacheSpeculativeValidationEnabled(configuration, true);
WKWebsiteDataStoreConfigurationSetStaleWhileRevalidateEnabled(configuration, true);
WKWebsiteDataStoreConfigurationSetTestingSessionEnabled(configuration, true);
WKWebsiteDataStoreConfigurationSetPCMMachServiceName(configuration, nullptr);
}
}
WKWebsiteDataStoreRef TestController::defaultWebsiteDataStore()
{
static WKWebsiteDataStoreRef dataStore = nullptr;
if (!dataStore) {
auto configuration = adoptWK(WKWebsiteDataStoreConfigurationCreate());
configureWebsiteDataStoreTemporaryDirectories(configuration.get());
dataStore = WKWebsiteDataStoreCreateWithConfiguration(configuration.get());
}
return dataStore;
}
WKWebsiteDataStoreRef TestController::websiteDataStore()
{
return m_websiteDataStore.get();
}
WKRetainPtr<WKPageConfigurationRef> TestController::generatePageConfiguration(const TestOptions& options)
{
if (!m_context || !m_mainWebView || !m_mainWebView->viewSupportsOptions(options)) {
auto contextConfiguration = generateContextConfiguration(options);
m_context = platformAdjustContext(adoptWK(WKContextCreateWithConfiguration(contextConfiguration.get())).get(), contextConfiguration.get());
m_geolocationProvider = makeUnique<GeolocationProviderMock>(m_context.get());
if (const char* dumpRenderTreeTemp = libraryPathForTesting()) {
String temporaryFolder = String::fromUTF8(dumpRenderTreeTemp);
// FIXME: This should be migrated to WKContextConfigurationRef.
// Disable icon database to avoid fetching <http://127.0.0.1:8000/favicon.ico> and making tests flaky.
// Invividual tests can enable it using testRunner.setIconDatabaseEnabled, although it's not currently supported in WebKitTestRunner.
WKContextSetIconDatabasePath(m_context.get(), toWK(emptyString()).get());
}
WKContextSetCacheModel(m_context.get(), kWKCacheModelDocumentBrowser);
platformInitializeContext();
}
WKContextInjectedBundleClientV2 injectedBundleClient = {
{ 2, this },
didReceiveMessageFromInjectedBundle,
nullptr,
getInjectedBundleInitializationUserData,
didReceiveSynchronousMessageFromInjectedBundleWithListener,
};
WKContextSetInjectedBundleClient(m_context.get(), &injectedBundleClient.base);
WKContextClientV3 contextClient = {
{ 3, this },
0, // plugInAutoStartOriginHashesChanged
networkProcessDidCrash,
0, // plugInInformationBecameAvailable
0, // copyWebCryptoMasterKey
serviceWorkerProcessDidCrash,
gpuProcessDidCrash
};
WKContextSetClient(m_context.get(), &contextClient.base);
WKContextHistoryClientV0 historyClient = {
{ 0, this },
didNavigateWithNavigationData,
didPerformClientRedirect,
didPerformServerRedirect,
didUpdateHistoryTitle,
0, // populateVisitedLinks
};
WKContextSetHistoryClient(m_context.get(), &historyClient.base);
WKNotificationManagerRef notificationManager = WKContextGetNotificationManager(m_context.get());
WKNotificationProviderV0 notificationKit = m_webNotificationProvider.provider();
WKNotificationManagerSetProvider(notificationManager, &notificationKit.base);
if (testPluginDirectory())
WKContextSetAdditionalPluginsDirectory(m_context.get(), testPluginDirectory());
if (m_forceComplexText)
WKContextSetAlwaysUsesComplexTextCodePath(m_context.get(), true);
auto pageConfiguration = adoptWK(WKPageConfigurationCreate());
WKPageConfigurationSetContext(pageConfiguration.get(), m_context.get());
WKPageConfigurationSetPageGroup(pageConfiguration.get(), m_pageGroup.get());
if (options.useEphemeralSession()) {
auto ephemeralDataStore = adoptWK(WKWebsiteDataStoreCreateNonPersistentDataStore());
WKPageConfigurationSetWebsiteDataStore(pageConfiguration.get(), ephemeralDataStore.get());
}
m_userContentController = adoptWK(WKUserContentControllerCreate());
WKPageConfigurationSetUserContentController(pageConfiguration.get(), userContentController());
return pageConfiguration;
}
void TestController::createWebViewWithOptions(const TestOptions& options)
{
auto applicationBundleIdentifier = options.applicationBundleIdentifier();
#if PLATFORM(COCOA)
if (!applicationBundleIdentifier.empty()) {
// The bundle identifier can only be set once per test, and is cleared between tests.
RELEASE_ASSERT(!m_hasSetApplicationBundleIdentifier);
setApplicationBundleIdentifier(applicationBundleIdentifier);
m_hasSetApplicationBundleIdentifier = true;
}
#endif
auto configuration = generatePageConfiguration(options);
platformInitializeDataStore(configuration.get(), options);
// Some preferences (notably mock scroll bars setting) currently cannot be re-applied to an existing view, so we need to set them now.
// FIXME: Migrate these preferences to WKContextConfigurationRef.
resetPreferencesToConsistentValues(options);
WKHTTPCookieStoreDeleteAllCookies(WKWebsiteDataStoreGetHTTPCookieStore(websiteDataStore()), nullptr, nullptr);
platformCreateWebView(configuration.get(), options);
WKPageUIClientV16 pageUIClient = {
{ 16, m_mainWebView.get() },
0, // createNewPage_deprecatedForUseWithV0
0, // showPage
0, // close
0, // takeFocus
focus,
unfocus,
0, // runJavaScriptAlert_deprecatedForUseWithV0
0, // runJavaScriptAlert_deprecatedForUseWithV0
0, // runJavaScriptAlert_deprecatedForUseWithV0
0, // setStatusText
0, // mouseDidMoveOverElement_deprecatedForUseWithV0
0, // missingPluginButtonClicked
0, // didNotHandleKeyEvent
0, // didNotHandleWheelEvent
0, // toolbarsAreVisible
0, // setToolbarsAreVisible
0, // menuBarIsVisible
0, // setMenuBarIsVisible
0, // statusBarIsVisible
0, // setStatusBarIsVisible
0, // isResizable
0, // setIsResizable
getWindowFrame,
setWindowFrame,
runBeforeUnloadConfirmPanel,
0, // didDraw
0, // pageDidScroll
0, // exceededDatabaseQuota,
options.shouldHandleRunOpenPanel() ? runOpenPanel : 0,
decidePolicyForGeolocationPermissionRequest,
0, // headerHeight
0, // footerHeight
0, // drawHeader
0, // drawFooter
printFrame,
runModal,
0, // didCompleteRubberBandForMainFrame
0, // saveDataToFileInDownloadsFolder
0, // shouldInterruptJavaScript
0, // createNewPage_deprecatedForUseWithV1
0, // mouseDidMoveOverElement
decidePolicyForNotificationPermissionRequest, // decidePolicyForNotificationPermissionRequest
0, // unavailablePluginButtonClicked_deprecatedForUseWithV1
0, // showColorPicker
0, // hideColorPicker
unavailablePluginButtonClicked,
0, // pinnedStateDidChange
0, // didBeginTrackingPotentialLongMousePress
0, // didRecognizeLongMousePress
0, // didCancelTrackingPotentialLongMousePress
0, // isPlayingAudioDidChange
decidePolicyForUserMediaPermissionRequest,
0, // didClickAutofillButton
0, // runJavaScriptAlert
0, // runJavaScriptConfirm
0, // runJavaScriptPrompt
0, // unused5
createOtherPage,
runJavaScriptAlert,
0, // runJavaScriptConfirm
0, // runJavaScriptPrompt
checkUserMediaPermissionForOrigin,
0, // runBeforeUnloadConfirmPanel
0, // fullscreenMayReturnToInline
requestPointerLock,
0, // didLosePointerLock
0, // handleAutoplayEvent
0, // hasVideoInPictureInPictureDidChange
0, // didExceedBackgroundResourceLimitWhileInForeground
0, // didResignInputElementStrongPasswordAppearance
0, // requestStorageAccessConfirm
shouldAllowDeviceOrientationAndMotionAccess,
runWebAuthenticationPanel,
decidePolicyForSpeechRecognitionPermissionRequest,
decidePolicyForMediaKeySystemPermissionRequest
};
WKPageSetPageUIClient(m_mainWebView->page(), &pageUIClient.base);
WKPageNavigationClientV3 pageNavigationClient = {
{ 3, this },
decidePolicyForNavigationAction,
decidePolicyForNavigationResponse,
decidePolicyForPluginLoad,
nullptr, // didStartProvisionalNavigation
didReceiveServerRedirectForProvisionalNavigation,
nullptr, // didFailProvisionalNavigation
didCommitNavigation,
didFinishNavigation,
nullptr, // didFailNavigation
nullptr, // didFailProvisionalLoadInSubframe
nullptr, // didFinishDocumentLoad
nullptr, // didSameDocumentNavigation
nullptr, // renderingProgressDidChange
canAuthenticateAgainstProtectionSpace,
didReceiveAuthenticationChallenge,
nullptr,
copyWebCryptoMasterKey,
didBeginNavigationGesture,
willEndNavigationGesture,
didEndNavigationGesture,
didRemoveNavigationGestureSnapshot,
webProcessDidTerminate, // webProcessDidTerminate
nullptr, // contentRuleListNotification
copySignedPublicKeyAndChallengeString,
navigationActionDidBecomeDownload,
navigationResponseDidBecomeDownload,
nullptr // contextMenuDidCreateDownload
};
WKPageSetPageNavigationClient(m_mainWebView->page(), &pageNavigationClient.base);
// this should just be done on the page?
WKPageInjectedBundleClientV1 injectedBundleClient = {
{ 1, this },
didReceivePageMessageFromInjectedBundle,
nullptr,
didReceiveSynchronousPageMessageFromInjectedBundleWithListener,
};
WKPageSetPageInjectedBundleClient(m_mainWebView->page(), &injectedBundleClient.base);
m_mainWebView->didInitializeClients();
// Generally, the tests should default to running at 1x. updateWindowScaleForTest() will adjust the scale to
// something else for specific tests that need to run at a different window scale.
m_mainWebView->changeWindowScaleIfNeeded(1);
if (!applicationBundleIdentifier.empty()) {
reinitializeAppBoundDomains();
updateBundleIdentifierInNetworkProcess(applicationBundleIdentifier);
}
}
void TestController::ensureViewSupportsOptionsForTest(const TestInvocation& test)
{
auto options = test.options();
if (m_mainWebView) {
// Having created another page (via window.open()) prevents process swapping on navigation and it may therefore
// cause flakiness to reuse the view. We should also always make a new view if the test is marked as app-bound, because
// the view configuration must change.
if (!m_createdOtherPage && m_mainWebView->viewSupportsOptions(options) && !options.isAppBoundWebView())
return;
willDestroyWebView();
WKPageSetPageUIClient(m_mainWebView->page(), nullptr);
WKPageSetPageNavigationClient(m_mainWebView->page(), nullptr);
WKPageClose(m_mainWebView->page());
m_mainWebView = nullptr;
m_createdOtherPage = false;
}
createWebViewWithOptions(options);
if (!resetStateToConsistentValues(options, ResetStage::BeforeTest))
TestInvocation::dumpWebProcessUnresponsiveness("<unknown> - TestController::run - Failed to reset state to consistent values\n");
}
template<typename F> static void batchUpdatePreferences(WKPreferencesRef preferences, F&& functor)
{
WKPreferencesStartBatchingUpdates(preferences);
functor(preferences);
WKPreferencesEndBatchingUpdates(preferences);
}
void TestController::resetPreferencesToConsistentValues(const TestOptions& options)
{
batchUpdatePreferences(platformPreferences(), [options, enableAllExperimentalFeatures = m_enableAllExperimentalFeatures] (auto preferences) {
WKPreferencesResetTestRunnerOverrides(preferences);
if (enableAllExperimentalFeatures)
WKPreferencesEnableAllExperimentalFeatures(preferences);
WKPreferencesResetAllInternalDebugFeatures(preferences);
WKPreferencesSetProcessSwapOnNavigationEnabled(preferences, options.shouldEnableProcessSwapOnNavigation());
WKPreferencesSetStorageBlockingPolicy(preferences, kWKAllowAllStorage); // FIXME: We should be testing the default.
for (const auto& [key, value] : options.boolWebPreferenceFeatures())
WKPreferencesSetBoolValueForKeyForTesting(preferences, value, toWK(key).get());
for (const auto& [key, value] : options.doubleWebPreferenceFeatures())
WKPreferencesSetDoubleValueForKeyForTesting(preferences, value, toWK(key).get());
for (const auto& [key, value] : options.uint32WebPreferenceFeatures())
WKPreferencesSetUInt32ValueForKeyForTesting(preferences, value, toWK(key).get());
for (const auto& [key, value] : options.stringWebPreferenceFeatures())
WKPreferencesSetStringValueForKeyForTesting(preferences, toWK(value).get(), toWK(key).get());
});
}
bool TestController::resetStateToConsistentValues(const TestOptions& options, ResetStage resetStage)
{
SetForScope<State> changeState(m_state, Resetting);
m_beforeUnloadReturnValue = true;
for (auto& auxiliaryWebView : std::exchange(m_auxiliaryWebViews, { }))
WKPageClose(auxiliaryWebView->page());
// This setting differs between the antique and modern Mac WebKit2 API.
// For now, maintain the antique behavior, because some tests depend on it!
// FIXME: We should be testing the default.
WKPageSetBackgroundExtendsBeyondPage(m_mainWebView->page(), false);
WKPageSetCustomUserAgent(m_mainWebView->page(), nullptr);
auto resetMessageBody = adoptWK(WKMutableDictionaryCreate());
setValue(resetMessageBody, "ShouldGC", m_gcBetweenTests);
auto allowedHostsValue = adoptWK(WKMutableArrayCreate());
for (auto& host : m_allowedHosts)
WKArrayAppendItem(allowedHostsValue.get(), toWK(host.c_str()).get());
setValue(resetMessageBody, "AllowedHosts", allowedHostsValue);
#if ENABLE(ACCESSIBILITY_ISOLATED_TREE)
setValue(resetMessageBody, "AccessibilityIsolatedTree", options.accessibilityIsolatedTreeMode());
#endif
auto jscOptions = options.jscOptions();
if (!jscOptions.empty())
setValue(resetMessageBody, "JSCOptions", jscOptions.c_str());
WKPagePostMessageToInjectedBundle(TestController::singleton().mainWebView()->page(), toWK("Reset").get(), resetMessageBody.get());
WKContextSetShouldUseFontSmoothing(TestController::singleton().context(), false);
WKContextSetCacheModel(TestController::singleton().context(), kWKCacheModelDocumentBrowser);
WKWebsiteDataStoreClearCachedCredentials(websiteDataStore());
WKWebsiteDataStoreResetServiceWorkerFetchTimeoutForTesting(websiteDataStore());
WKWebsiteDataStoreSetResourceLoadStatisticsEnabled(websiteDataStore(), true);
WKWebsiteDataStoreClearAllDeviceOrientationPermissions(websiteDataStore());
WKHTTPCookieStoreDeleteAllCookies(WKWebsiteDataStoreGetHTTPCookieStore(websiteDataStore()), nullptr, nullptr);
clearIndexedDatabases();
clearLocalStorage();
clearServiceWorkerRegistrations();
clearDOMCaches();
resetQuota();
clearStorage();
WKContextClearCurrentModifierStateForTesting(TestController::singleton().context());
WKContextSetUseSeparateServiceWorkerProcess(TestController::singleton().context(), false);
WKPageSetMockCameraOrientation(m_mainWebView->page(), 0);
resetMockMediaDevices();
WKPageSetMediaCaptureReportingDelayForTesting(m_mainWebView->page(), 0);
// FIXME: This function should also ensure that there is only one page open.
// Reset the EventSender for each test.
m_eventSenderProxy = makeUnique<EventSenderProxy>(this);
// FIXME: Is this needed? Nothing in TestController changes preferences during tests, and if there is
// some other code doing this, it should probably be responsible for cleanup too.
resetPreferencesToConsistentValues(options);
// Make sure the view is in the window (a test can unparent it).
m_mainWebView->addToWindow();
// In the case that a test using the chrome input field failed, be sure to clean up for the next test.
m_mainWebView->removeChromeInputField();
m_mainWebView->focus();
// Re-set to the default backing scale factor by setting the custom scale factor to 0.
WKPageSetCustomBackingScaleFactor(m_mainWebView->page(), 0);
WKPageClearWheelEventTestMonitor(m_mainWebView->page());
// GStreamer uses fakesink to avoid sound output during testing and doing this creates trouble with volume events.
#if !USE(GSTREAMER)
WKPageSetMediaVolume(m_mainWebView->page(), 0);
#endif
WKPageClearUserMediaState(m_mainWebView->page());
// Reset notification permissions
m_webNotificationProvider.reset();
// Reset Geolocation permissions.
m_geolocationPermissionRequests.clear();
m_isGeolocationPermissionSet = false;
m_isGeolocationPermissionAllowed = false;
// Reset UserMedia permissions.
m_userMediaPermissionRequests.clear();
m_cachedUserMediaPermissions.clear();
setUserMediaPermission(true);
// Reset Custom Policy Delegate.
setCustomPolicyDelegate(false, false);
// Reset Content Extensions.
resetContentExtensions();
m_shouldDownloadUndisplayableMIMETypes = false;
m_shouldAllowDeviceOrientationAndMotionAccess = false;
m_workQueueManager.clearWorkQueue();
m_rejectsProtectionSpaceAndContinueForAuthenticationChallenges = false;
m_handlesAuthenticationChallenges = false;
m_authenticationUsername = String();
m_authenticationPassword = String();
setBlockAllPlugins(false);
setPluginSupportedMode({ });
m_shouldLogDownloadCallbacks = false;
m_shouldLogHistoryClientCallbacks = false;
m_shouldLogCanAuthenticateAgainstProtectionSpace = false;
setHidden(false);
if (!platformResetStateToConsistentValues(options))
return false;
m_shouldDecideNavigationPolicyAfterDelay = false;
m_shouldDecideResponsePolicyAfterDelay = false;
setNavigationGesturesEnabled(false);
setIgnoresViewportScaleLimits(options.ignoresViewportScaleLimits());
m_openPanelFileURLs = nullptr;
#if PLATFORM(IOS_FAMILY)
m_openPanelFileURLsMediaIcon = nullptr;
#endif
setAllowsAnySSLCertificate(true);
statisticsResetToConsistentState();
clearLoadedSubresourceDomains();
clearAppBoundSession();
clearPrivateClickMeasurement();
WKPageDispatchActivityStateUpdateForTesting(m_mainWebView->page());
m_didReceiveServerRedirectForProvisionalNavigation = false;
m_serverTrustEvaluationCallbackCallsCount = 0;
m_shouldDismissJavaScriptAlertsAsynchronously = false;
setIsSpeechRecognitionPermissionGranted(true);
auto loadAboutBlank = [this] {
m_doneResetting = false;
WKPageLoadURL(m_mainWebView->page(), blankURL());
runUntil(m_doneResetting, m_currentInvocation->shortTimeout());
return m_doneResetting;
};
// Reset main page back to about:blank
if (!loadAboutBlank()) {
WTFLogAlways("Failed to load 'about:blank', terminating process and trying again.");
WKPageTerminate(m_mainWebView->page());
if (!loadAboutBlank()) {
WTFLogAlways("Failed to load 'about:blank' again after termination.");
return false;
}
}
if (resetStage == ResetStage::AfterTest) {
updateLiveDocumentsAfterTest();
#if PLATFORM(COCOA)
clearApplicationBundleIdentifierTestingOverride();
clearAppPrivacyReportTestingData();
#endif
clearBundleIdentifierInNetworkProcess();
}
m_downloadTotalBytesWritten = { };
return m_doneResetting;
}
void TestController::updateLiveDocumentsAfterTest()
{
if (!m_checkForWorldLeaks)
return;
AsyncTask([]() {
// After each test, we update the list of live documents so that we can detect when an abandoned document first showed up.
WKPagePostMessageToInjectedBundle(TestController::singleton().mainWebView()->page(), toWK("GetLiveDocuments").get(), nullptr);
}, 5_s).run();
}
void TestController::checkForWorldLeaks()
{
if (!m_checkForWorldLeaks || !TestController::singleton().mainWebView())
return;
AsyncTask([]() {
// This runs at the end of a series of tests. It clears caches, runs a GC and then fetches the list of documents.
WKPagePostMessageToInjectedBundle(TestController::singleton().mainWebView()->page(), toWK("CheckForWorldLeaks").get(), nullptr);
}, 20_s).run();
}
void TestController::dumpResponse(const String& result)
{
unsigned resultLength = result.length();
printf("Content-Type: text/plain\n");
printf("Content-Length: %u\n", resultLength);
fwrite(result.utf8().data(), 1, resultLength, stdout);
printf("#EOF\n");
fprintf(stderr, "#EOF\n");
fflush(stdout);
fflush(stderr);
}
void TestController::findAndDumpWebKitProcessIdentifiers()
{
#if PLATFORM(COCOA)
auto page = TestController::singleton().mainWebView()->page();
dumpResponse(makeString(
TestController::webProcessName(), ": "
, WKPageGetProcessIdentifier(page), '\n'
, TestController::networkProcessName(), ": "
, WKWebsiteDataStoreGetNetworkProcessIdentifier(websiteDataStore()), '\n'
#if ENABLE(GPU_PROCESS)
, TestController::gpuProcessName(), ": "
, WKPageGetGPUProcessIdentifier(page), '\n'
#endif
));
#else
dumpResponse("\n"_s);
#endif
}
void TestController::findAndDumpWorldLeaks()
{
if (!m_checkForWorldLeaks)
return;
checkForWorldLeaks();
StringBuilder builder;
if (m_abandonedDocumentInfo.size()) {
for (const auto& it : m_abandonedDocumentInfo) {
auto documentURL = it.value.abandonedDocumentURL;
if (documentURL.isEmpty())
documentURL = "(no url)";
builder.append("TEST: ");
builder.append(it.value.testURL);
builder.append('\n');
builder.append("ABANDONED DOCUMENT: ");
builder.append(documentURL);
builder.append('\n');
}
} else
builder.append("no abandoned documents\n");
dumpResponse(builder.toString());
}
void TestController::willDestroyWebView()
{
// Before we kill the web view, look for abandoned documents before that web process goes away.
checkForWorldLeaks();
}
void TestController::terminateWebContentProcess()
{
WKPageTerminate(m_mainWebView->page());
}
void TestController::reattachPageToWebProcess()
{
// Loading a web page is the only way to reattach an existing page to a process.
SetForScope<State> changeState(m_state, Resetting);
m_doneResetting = false;
WKPageLoadURL(m_mainWebView->page(), blankURL());
runUntil(m_doneResetting, noTimeout);
}
const char* TestController::webProcessName()
{
// FIXME: Find a way to not hardcode the process name.
#if PLATFORM(IOS_FAMILY) && !PLATFORM(IOS_FAMILY_SIMULATOR)
return "com.apple.WebKit.WebContent";
#elif PLATFORM(COCOA)
return "com.apple.WebKit.WebContent.Development";
#elif PLATFORM(GTK)
return "WebKitWebProcess";
#elif PLATFORM(WPE)
return "WPEWebProcess";
#else
return "WebProcess";
#endif
}
const char* TestController::networkProcessName()
{
// FIXME: Find a way to not hardcode the process name.
#if PLATFORM(IOS_FAMILY) && !PLATFORM(IOS_FAMILY_SIMULATOR)
return "com.apple.WebKit.Networking";
#elif PLATFORM(COCOA)
return "com.apple.WebKit.Networking.Development";
#elif PLATFORM(GTK)
return "WebKitNetworkProcess";
#elif PLATFORM(WPE)
return "WPENetworkProcess";
#else
return "NetworkProcess";
#endif
}
const char* TestController::gpuProcessName()
{
// FIXME: Find a way to not hardcode the process name.
#if PLATFORM(IOS_FAMILY) && !PLATFORM(IOS_FAMILY_SIMULATOR)
return "com.apple.WebKit.GPU";
#elif PLATFORM(COCOA)
return "com.apple.WebKit.GPU.Development";
#else
return "GPUProcess";
#endif
}
#if !PLATFORM(COCOA)
void TestController::setAllowsAnySSLCertificate(bool allows)
{
m_allowsAnySSLCertificate = allows;
WKWebsiteDataStoreSetAllowsAnySSLCertificateForWebSocketTesting(websiteDataStore(), allows);
}
#endif
WKURLRef TestController::createTestURL(const char* pathOrURL)
{
if (strstr(pathOrURL, "http://") || strstr(pathOrURL, "https://") || strstr(pathOrURL, "file://"))
return WKURLCreateWithUTF8CString(pathOrURL);
// Creating from filesytem path.
size_t length = strlen(pathOrURL);
if (!length)
return 0;
#if PLATFORM(WIN)
bool isAbsolutePath = false;
if (strlen(pathOrURL) >= 3 && pathOrURL[1] == ':' && pathOrURL[2] == pathSeparator)
isAbsolutePath = true;
#else
bool isAbsolutePath = pathOrURL[0] == pathSeparator;
#endif
const char* filePrefix = "file://";
static const size_t prefixLength = strlen(filePrefix);
UniqueArray<char> buffer;
if (isAbsolutePath) {
buffer = makeUniqueArray<char>(prefixLength + length + 1);
strcpy(buffer.get(), filePrefix);
strcpy(buffer.get() + prefixLength, pathOrURL);
} else {
buffer = makeUniqueArray<char>(prefixLength + PATH_MAX + length + 2); // 1 for the pathSeparator
strcpy(buffer.get(), filePrefix);
if (!getcwd(buffer.get() + prefixLength, PATH_MAX))
return 0;
size_t numCharacters = strlen(buffer.get());
buffer[numCharacters] = pathSeparator;
strcpy(buffer.get() + numCharacters + 1, pathOrURL);
}
return WKURLCreateWithUTF8CString(buffer.get());
}
TestOptions TestController::testOptionsForTest(const TestCommand& command) const
{
TestFeatures features = TestOptions::defaults();
merge(features, m_globalFeatures);
merge(features, hardcodedFeaturesBasedOnPathForTest(command));
merge(features, platformSpecificFeatureDefaultsForTest(command));
merge(features, featureDefaultsFromSelfComparisonHeader(command, TestOptions::keyTypeMapping()));
merge(features, featureDefaultsFromTestHeaderForTest(command, TestOptions::keyTypeMapping()));
merge(features, platformSpecificFeatureOverridesDefaultsForTest(command));
return TestOptions { features };
}
void TestController::updateWebViewSizeForTest(const TestInvocation& test)
{
mainWebView()->resizeTo(test.options().viewWidth(), test.options().viewHeight());
}
void TestController::updateWindowScaleForTest(PlatformWebView* view, const TestInvocation& test)
{
view->changeWindowScaleIfNeeded(test.options().deviceScaleFactor());
}
void TestController::configureViewForTest(const TestInvocation& test)
{
ensureViewSupportsOptionsForTest(test);
updateWebViewSizeForTest(test);
updateWindowScaleForTest(mainWebView(), test);
configureContentExtensionForTest(test);
platformConfigureViewForTest(test);
}
#if ENABLE(CONTENT_EXTENSIONS) && !PLATFORM(COCOA)
struct ContentExtensionStoreCallbackContext {
explicit ContentExtensionStoreCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
uint32_t status { kWKUserContentExtensionStoreSuccess };
WKRetainPtr<WKUserContentFilterRef> filter;
bool done { false };
};
static void contentExtensionStoreCallback(WKUserContentFilterRef filter, uint32_t status, void* userData)
{
auto* context = static_cast<ContentExtensionStoreCallbackContext*>(userData);
context->status = status;
context->filter = filter ? adoptWK(filter) : nullptr;
context->done = true;
context->testController.notifyDone();
}
static std::string testPath(WKURLRef url)
{
auto scheme = adoptWK(WKURLCopyScheme(url));
if (WKStringIsEqualToUTF8CStringIgnoringCase(scheme.get(), "file")) {
auto path = adoptWK(WKURLCopyPath(url));
auto buffer = std::vector<char>(WKStringGetMaximumUTF8CStringSize(path.get()));
auto length = WKStringGetUTF8CString(path.get(), buffer.data(), buffer.size());
RELEASE_ASSERT(length > 0);
#if OS(WINDOWS)
// Remove the first '/' if it starts with something like "/C:/".
if (length >= 4 && buffer[0] == '/' && buffer[2] == ':' && buffer[3] == '/')
return std::string(buffer.data() + 1, length - 1);
#endif
return std::string(buffer.data(), length - 1);
}
return std::string();
}
static std::string contentExtensionJSONPath(WKURLRef url)
{
auto path = testPath(url);
if (path.length())
return path + ".json";
return "LayoutTests/http/tests" + toSTD(adoptWK(WKURLCopyPath(url)).get()) + ".json";
}
void TestController::configureContentExtensionForTest(const TestInvocation& test)
{
const char* contentExtensionsPath = libraryPathForTesting();
if (!contentExtensionsPath)
contentExtensionsPath = "/tmp/wktr-contentextensions";
if (!test.urlContains("contentextensions/")) {
WKPageSetUserContentExtensionsEnabled(m_mainWebView->page(), false);
return;
}
std::string jsonFilePath(contentExtensionJSONPath(test.url()));
std::ifstream jsonFile(jsonFilePath);
if (!jsonFile.good()) {
WTFLogAlways("Could not open file '%s'", jsonFilePath.c_str());
return;
}
std::string jsonFileContents {std::istreambuf_iterator<char>(jsonFile), std::istreambuf_iterator<char>()};
auto jsonSource = toWK(jsonFileContents.c_str());
auto storePath = toWK(contentExtensionsPath);
auto extensionStore = adoptWK(WKUserContentExtensionStoreCreate(storePath.get()));
ASSERT(extensionStore);
auto filterIdentifier = toWK("TestContentExtension");
ContentExtensionStoreCallbackContext context(*this);
WKUserContentExtensionStoreCompile(extensionStore.get(), filterIdentifier.get(), jsonSource.get(), &context, contentExtensionStoreCallback);
runUntil(context.done, noTimeout);
ASSERT(context.status == kWKUserContentExtensionStoreSuccess);
ASSERT(context.filter);
WKPageSetUserContentExtensionsEnabled(mainWebView()->page(), true);
WKUserContentControllerAddUserContentFilter(userContentController(), context.filter.get());
}
void TestController::resetContentExtensions()
{
if (!mainWebView())
return;
WKPageSetUserContentExtensionsEnabled(mainWebView()->page(), false);
const char* contentExtensionsPath = libraryPathForTesting();
if (!contentExtensionsPath)
return;
WKUserContentControllerRemoveAllUserContentFilters(userContentController());
auto storePath = toWK(contentExtensionsPath);
auto extensionStore = adoptWK(WKUserContentExtensionStoreCreate(storePath.get()));
ASSERT(extensionStore);
auto filterIdentifier = toWK("TestContentExtension");
ContentExtensionStoreCallbackContext context(*this);
WKUserContentExtensionStoreRemove(extensionStore.get(), filterIdentifier.get(), &context, contentExtensionStoreCallback);
runUntil(context.done, noTimeout);
ASSERT(!context.filter);
}
#endif // ENABLE(CONTENT_EXTENSIONS) && !PLATFORM(COCOA)
#if !ENABLE(CONTENT_EXTENSIONS)
void TestController::configureContentExtensionForTest(const TestInvocation&)
{
}
void TestController::resetContentExtensions()
{
}
#endif // !ENABLE(CONTENT_EXTENSIONS)
bool TestController::runTest(const char* inputLine)
{
AutodrainedPool pool;
WKTextCheckerSetTestingMode(true);
auto command = parseInputLine(std::string(inputLine));
m_state = RunningTest;
TestOptions options = testOptionsForTest(command);
m_currentInvocation = makeUnique<TestInvocation>(adoptWK(createTestURL(command.pathOrURL.c_str())).get(), options);
if (command.shouldDumpPixels || m_shouldDumpPixelsForAllTests)
m_currentInvocation->setIsPixelTest(command.expectedPixelHash);
if (command.forceDumpPixels)
m_currentInvocation->setForceDumpPixels(true);
if (command.timeout > 0_s)
m_currentInvocation->setCustomTimeout(command.timeout);
m_currentInvocation->setDumpJSConsoleLogInStdErr(command.dumpJSConsoleLogInStdErr || options.dumpJSConsoleLogInStdErr());
platformWillRunTest(*m_currentInvocation);
m_currentInvocation->invoke();
m_currentInvocation = nullptr;
return true;
}
bool TestController::waitForCompletion(const WTF::Function<void ()>& function, WTF::Seconds timeout)
{
m_doneResetting = false;
function();
runUntil(m_doneResetting, timeout);
return !m_doneResetting;
}
bool TestController::handleControlCommand(const char* command)
{
if (!strncmp("#CHECK FOR WORLD LEAKS", command, 22)) {
if (m_checkForWorldLeaks)
findAndDumpWorldLeaks();
else
WTFLogAlways("WebKitTestRunner asked to check for world leaks, but was not run with --world-leaks");
return true;
}
if (!strncmp("#LIST CHILD PROCESSES", command, 21)) {
findAndDumpWebKitProcessIdentifiers();
return true;
}
return false;
}
void TestController::runTestingServerLoop()
{
char filenameBuffer[2048];
while (fgets(filenameBuffer, sizeof(filenameBuffer), stdin)) {
char* newLineCharacter = strchr(filenameBuffer, '\n');
if (newLineCharacter)
*newLineCharacter = '\0';
if (strlen(filenameBuffer) == 0)
continue;
if (handleControlCommand(filenameBuffer))
continue;
if (!runTest(filenameBuffer))
break;
}
}
void TestController::run()
{
if (m_usingServerMode)
runTestingServerLoop();
else {
for (size_t i = 0; i < m_paths.size(); ++i) {
if (!runTest(m_paths[i].c_str()))
break;
}
if (m_checkForWorldLeaks)
findAndDumpWorldLeaks();
}
}
void TestController::runUntil(bool& done, WTF::Seconds timeout)
{
if (m_forceNoTimeout)
timeout = noTimeout;
platformRunUntil(done, timeout);
}
// WKContextInjectedBundleClient
void TestController::didReceiveMessageFromInjectedBundle(WKContextRef context, WKStringRef messageName, WKTypeRef messageBody, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didReceiveMessageFromInjectedBundle(messageName, messageBody);
}
void TestController::didReceiveSynchronousMessageFromInjectedBundleWithListener(WKContextRef context, WKStringRef messageName, WKTypeRef messageBody, WKMessageListenerRef listener, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didReceiveSynchronousMessageFromInjectedBundle(messageName, messageBody, listener);
}
WKTypeRef TestController::getInjectedBundleInitializationUserData(WKContextRef, const void* clientInfo)
{
return static_cast<TestController*>(const_cast<void*>(clientInfo))->getInjectedBundleInitializationUserData().leakRef();
}
// WKPageInjectedBundleClient
void TestController::didReceivePageMessageFromInjectedBundle(WKPageRef page, WKStringRef messageName, WKTypeRef messageBody, const void* clientInfo)
{
auto* testController = static_cast<TestController*>(const_cast<void*>(clientInfo));
if (page != testController->mainWebView()->page()) {
// If this is a Done message from an auxiliary view in its own WebProcess (due to process-swapping), we need to notify the injected bundle of the main WebView
// that the test is done.
if (WKStringIsEqualToUTF8CString(messageName, "Done") && testController->m_currentInvocation)
WKPagePostMessageToInjectedBundle(testController->mainWebView()->page(), toWK("NotifyDone").get(), nullptr);
if (!WKStringIsEqualToUTF8CString(messageName, "TextOutput"))
return;
}
testController->didReceiveMessageFromInjectedBundle(messageName, messageBody);
}
void TestController::didReceiveSynchronousPageMessageFromInjectedBundleWithListener(WKPageRef page, WKStringRef messageName, WKTypeRef messageBody, WKMessageListenerRef listener, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didReceiveSynchronousMessageFromInjectedBundle(messageName, messageBody, listener);
}
void TestController::networkProcessDidCrash(WKContextRef context, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->networkProcessDidCrash();
}
void TestController::serviceWorkerProcessDidCrash(WKContextRef context, WKProcessID processID, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->serviceWorkerProcessDidCrash(processID);
}
void TestController::gpuProcessDidCrash(WKContextRef context, WKProcessID processID, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->gpuProcessDidCrash(processID);
}
void TestController::didReceiveKeyDownMessageFromInjectedBundle(WKDictionaryRef dictionary, bool synchronous)
{
m_eventSenderProxy->keyDown(stringValue(dictionary, "Key"), uint64Value(dictionary, "Modifiers"), uint64Value(dictionary, "Location"));
}
void TestController::didReceiveRawKeyDownMessageFromInjectedBundle(WKDictionaryRef dictionary, bool synchronous)
{
m_eventSenderProxy->rawKeyDown(stringValue(dictionary, "Key"), uint64Value(dictionary, "Modifiers"), uint64Value(dictionary, "Location"));
}
void TestController::didReceiveRawKeyUpMessageFromInjectedBundle(WKDictionaryRef dictionary, bool synchronous)
{
m_eventSenderProxy->rawKeyUp(stringValue(dictionary, "Key"), uint64Value(dictionary, "Modifiers"), uint64Value(dictionary, "Location"));
}
void TestController::didReceiveLiveDocumentsList(WKArrayRef liveDocumentList)
{
auto numDocuments = WKArrayGetSize(liveDocumentList);
HashMap<uint64_t, String> documentInfo;
for (size_t i = 0; i < numDocuments; ++i) {
if (auto dictionary = dictionaryValue(WKArrayGetItemAtIndex(liveDocumentList, i)))
documentInfo.add(uint64Value(dictionary, "id"), toWTFString(stringValue(dictionary, "url")));
}
if (!documentInfo.size()) {
m_abandonedDocumentInfo.clear();
return;
}
// Remove any documents which are no longer live.
m_abandonedDocumentInfo.removeIf([&](auto& keyAndValue) {
return !documentInfo.contains(keyAndValue.key);
});
// Add newly abandoned documents.
String currentTestURL = m_currentInvocation ? toWTFString(adoptWK(WKURLCopyString(m_currentInvocation->url()))) : "no test";
for (const auto& it : documentInfo)
m_abandonedDocumentInfo.add(it.key, AbandonedDocumentInfo(currentTestURL, it.value));
}
void TestController::didReceiveMessageFromInjectedBundle(WKStringRef messageName, WKTypeRef messageBody)
{
if (WKStringIsEqualToUTF8CString(messageName, "LiveDocuments")) {
ASSERT(WKGetTypeID(messageBody) == WKArrayGetTypeID());
didReceiveLiveDocumentsList(static_cast<WKArrayRef>(messageBody));
AsyncTask::currentTask()->taskComplete();
return;
}
if (WKStringIsEqualToUTF8CString(messageName, "EventSender")) {
if (m_state != RunningTest)
return;
auto dictionary = dictionaryValue(messageBody);
auto subMessageName = stringValue(dictionary, "SubMessage");
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseDown")) {
m_eventSenderProxy->mouseDown(uint64Value(dictionary, "Button"), uint64Value(dictionary, "Modifiers"), stringValue(dictionary, "PointerType"));
return;
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseUp")) {
m_eventSenderProxy->mouseUp(uint64Value(dictionary, "Button"), uint64Value(dictionary, "Modifiers"), stringValue(dictionary, "PointerType"));
return;
}
if (WKStringIsEqualToUTF8CString(subMessageName, "KeyDown")) {
didReceiveKeyDownMessageFromInjectedBundle(dictionary, false);
return;
}
if (WKStringIsEqualToUTF8CString(subMessageName, "RawKeyDown")) {
didReceiveRawKeyDownMessageFromInjectedBundle(dictionary, false);
return;
}
if (WKStringIsEqualToUTF8CString(subMessageName, "RawKeyUp")) {
didReceiveRawKeyUpMessageFromInjectedBundle(dictionary, false);
return;
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseScrollBy")) {
m_eventSenderProxy->mouseScrollBy(doubleValue(dictionary, "X"), doubleValue(dictionary, "Y"));
return;
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseScrollByWithWheelAndMomentumPhases")) {
auto x = doubleValue(dictionary, "X");
auto y = doubleValue(dictionary, "Y");
auto phase = uint64Value(dictionary, "Phase");
auto momentum = uint64Value(dictionary, "Momentum");
m_eventSenderProxy->mouseScrollByWithWheelAndMomentumPhases(x, y, phase, momentum);
return;
}
#if PLATFORM(GTK)
if (WKStringIsEqualToUTF8CString(subMessageName, "SetWheelHasPreciseDeltas")) {
auto hasPreciseDeltas = booleanValue(dictionary, "HasPreciseDeltas");
m_eventSenderProxy->setWheelHasPreciseDeltas(hasPreciseDeltas);
return;
}
#endif
ASSERT_NOT_REACHED();
}
if (!m_currentInvocation)
return;
m_currentInvocation->didReceiveMessageFromInjectedBundle(messageName, messageBody);
}
void TestController::didReceiveSynchronousMessageFromInjectedBundle(WKStringRef messageName, WKTypeRef messageBody, WKMessageListenerRef listener)
{
auto completionHandler = [listener = retainWK(listener)] (WKTypeRef reply) {
WKMessageListenerSendReply(listener.get(), reply);
};
if (WKStringIsEqualToUTF8CString(messageName, "EventSender")) {
if (m_state != RunningTest)
return completionHandler(nullptr);
auto dictionary = dictionaryValue(messageBody);
auto subMessageName = stringValue(dictionary, "SubMessage");
if (WKStringIsEqualToUTF8CString(subMessageName, "KeyDown")) {
didReceiveKeyDownMessageFromInjectedBundle(dictionary, true);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseDown")) {
m_eventSenderProxy->mouseDown(uint64Value(dictionary, "Button"), uint64Value(dictionary, "Modifiers"), stringValue(dictionary, "PointerType"));
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseUp")) {
m_eventSenderProxy->mouseUp(uint64Value(dictionary, "Button"), uint64Value(dictionary, "Modifiers"), stringValue(dictionary, "PointerType"));
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "RawKeyDown")) {
didReceiveRawKeyDownMessageFromInjectedBundle(dictionary, true);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "RawKeyUp")) {
didReceiveRawKeyUpMessageFromInjectedBundle(dictionary, true);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseMoveTo")) {
m_eventSenderProxy->mouseMoveTo(doubleValue(dictionary, "X"), doubleValue(dictionary, "Y"), stringValue(dictionary, "PointerType"));
return completionHandler(nullptr);
}
#if PLATFORM(MAC)
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseForceClick")) {
m_eventSenderProxy->mouseForceClick();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "StartAndCancelMouseForceClick")) {
m_eventSenderProxy->startAndCancelMouseForceClick();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseForceDown")) {
m_eventSenderProxy->mouseForceDown();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseForceUp")) {
m_eventSenderProxy->mouseForceUp();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "MouseForceChanged")) {
m_eventSenderProxy->mouseForceChanged(doubleValue(dictionary, "Force"));
return completionHandler(nullptr);
}
#endif // PLATFORM(MAC)
if (WKStringIsEqualToUTF8CString(subMessageName, "ContinuousMouseScrollBy")) {
auto x = doubleValue(dictionary, "X");
auto y = doubleValue(dictionary, "Y");
auto paged = booleanValue(dictionary, "Paged");
m_eventSenderProxy->continuousMouseScrollBy(x, y, paged);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "LeapForward")) {
m_eventSenderProxy->leapForward(uint64Value(dictionary, "TimeInMilliseconds"));
return completionHandler(nullptr);
}
#if ENABLE(TOUCH_EVENTS)
if (WKStringIsEqualToUTF8CString(subMessageName, "AddTouchPoint")) {
m_eventSenderProxy->addTouchPoint(uint64Value(dictionary, "X"), uint64Value(dictionary, "Y"));
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "UpdateTouchPoint")) {
auto index = uint64Value(dictionary, "Index");
auto x = uint64Value(dictionary, "X");
auto y = uint64Value(dictionary, "Y");
m_eventSenderProxy->updateTouchPoint(index, x, y);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "SetTouchModifier")) {
auto modifier = uint64Value(dictionary, "Modifier");
auto enable = booleanValue(dictionary, "Enable");
m_eventSenderProxy->setTouchModifier(modifier, enable);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "SetTouchPointRadius")) {
auto x = uint64Value(dictionary, "RadiusX");
auto y = uint64Value(dictionary, "RadiusY");
m_eventSenderProxy->setTouchPointRadius(x, y);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "TouchStart")) {
m_eventSenderProxy->touchStart();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "TouchMove")) {
m_eventSenderProxy->touchMove();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "TouchEnd")) {
m_eventSenderProxy->touchEnd();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "TouchCancel")) {
m_eventSenderProxy->touchCancel();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "ClearTouchPoints")) {
m_eventSenderProxy->clearTouchPoints();
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "ReleaseTouchPoint")) {
m_eventSenderProxy->releaseTouchPoint(uint64Value(dictionary, "Index"));
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "CancelTouchPoint")) {
m_eventSenderProxy->cancelTouchPoint(uint64Value(dictionary, "Index"));
return completionHandler(nullptr);
}
#endif
#if ENABLE(MAC_GESTURE_EVENTS)
if (WKStringIsEqualToUTF8CString(subMessageName, "ScaleGestureStart")) {
auto scale = doubleValue(dictionary, "Scale");
m_eventSenderProxy->scaleGestureStart(scale);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "ScaleGestureChange")) {
auto scale = doubleValue(dictionary, "Scale");
m_eventSenderProxy->scaleGestureChange(scale);
return completionHandler(nullptr);
}
if (WKStringIsEqualToUTF8CString(subMessageName, "ScaleGestureEnd")) {
auto scale = doubleValue(dictionary, "Scale");
m_eventSenderProxy->scaleGestureEnd(scale);
return completionHandler(nullptr);
}
#endif // ENABLE(MAC_GESTURE_EVENTS)
ASSERT_NOT_REACHED();
}
auto setHTTPCookieAcceptPolicy = [&] (WKHTTPCookieAcceptPolicy policy, CompletionHandler<void(WKTypeRef)>&& completionHandler) {
auto context = new CompletionHandler<void(WKTypeRef)>(WTFMove(completionHandler));
WKHTTPCookieStoreSetHTTPCookieAcceptPolicy(WKWebsiteDataStoreGetHTTPCookieStore(websiteDataStore()), policy, context, [] (void* context) {
auto completionHandlerPointer = static_cast<CompletionHandler<void(WKTypeRef)>*>(context);
(*completionHandlerPointer)(nullptr);
delete completionHandlerPointer;
});
};
if (WKStringIsEqualToUTF8CString(messageName, "SetAlwaysAcceptCookies")) {
auto policy = WKBooleanGetValue(static_cast<WKBooleanRef>(messageBody))
? kWKHTTPCookieAcceptPolicyAlways
: kWKHTTPCookieAcceptPolicyOnlyFromMainDocumentDomain;
return setHTTPCookieAcceptPolicy(policy, WTFMove(completionHandler));
}
if (WKStringIsEqualToUTF8CString(messageName, "SetOnlyAcceptFirstPartyCookies")) {
auto policy = WKBooleanGetValue(static_cast<WKBooleanRef>(messageBody))
? kWKHTTPCookieAcceptPolicyExclusivelyFromMainDocumentDomain
: kWKHTTPCookieAcceptPolicyOnlyFromMainDocumentDomain;
return setHTTPCookieAcceptPolicy(policy, WTFMove(completionHandler));
}
completionHandler(m_currentInvocation->didReceiveSynchronousMessageFromInjectedBundle(messageName, messageBody).get());
}
WKRetainPtr<WKTypeRef> TestController::getInjectedBundleInitializationUserData()
{
return nullptr;
}
// WKContextClient
void TestController::networkProcessDidCrash()
{
pid_t pid = WKWebsiteDataStoreGetNetworkProcessIdentifier(websiteDataStore());
fprintf(stderr, "#CRASHED - %s (pid %ld)\n", networkProcessName(), static_cast<long>(pid));
exit(1);
}
void TestController::serviceWorkerProcessDidCrash(WKProcessID processID)
{
fprintf(stderr, "#CRASHED - ServiceWorkerProcess (pid %ld)\n", static_cast<long>(processID));
if (m_shouldExitWhenWebProcessCrashes)
exit(1);
}
void TestController::gpuProcessDidCrash(WKProcessID processID)
{
fprintf(stderr, "#CRASHED - GPUProcess (pid %ld)\n", static_cast<long>(processID));
if (m_shouldExitWhenWebProcessCrashes)
exit(1);
}
// WKPageNavigationClient
void TestController::didCommitNavigation(WKPageRef page, WKNavigationRef navigation, WKTypeRef, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didCommitNavigation(page, navigation);
}
void TestController::didFinishNavigation(WKPageRef page, WKNavigationRef navigation, WKTypeRef, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didFinishNavigation(page, navigation);
}
void TestController::didReceiveServerRedirectForProvisionalNavigation(WKPageRef page, WKNavigationRef navigation, WKTypeRef userData, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didReceiveServerRedirectForProvisionalNavigation(page, navigation, userData);
}
bool TestController::canAuthenticateAgainstProtectionSpace(WKPageRef page, WKProtectionSpaceRef protectionSpace, const void* clientInfo)
{
return static_cast<TestController*>(const_cast<void*>(clientInfo))->canAuthenticateAgainstProtectionSpace(page, protectionSpace);
}
void TestController::didReceiveAuthenticationChallenge(WKPageRef page, WKAuthenticationChallengeRef authenticationChallenge, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didReceiveAuthenticationChallenge(page, /*frame,*/ authenticationChallenge);
}
void TestController::webProcessDidTerminate(WKPageRef page, WKProcessTerminationReason reason, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->webProcessDidTerminate(reason);
}
void TestController::didBeginNavigationGesture(WKPageRef page, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didBeginNavigationGesture(page);
}
void TestController::willEndNavigationGesture(WKPageRef page, WKBackForwardListItemRef backForwardListItem, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->willEndNavigationGesture(page, backForwardListItem);
}
void TestController::didEndNavigationGesture(WKPageRef page, WKBackForwardListItemRef backForwardListItem, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didEndNavigationGesture(page, backForwardListItem);
}
void TestController::didRemoveNavigationGestureSnapshot(WKPageRef page, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didRemoveNavigationGestureSnapshot(page);
}
WKPluginLoadPolicy TestController::decidePolicyForPluginLoad(WKPageRef page, WKPluginLoadPolicy currentPluginLoadPolicy, WKDictionaryRef pluginInformation, WKStringRef* unavailabilityDescription, const void* clientInfo)
{
return static_cast<TestController*>(const_cast<void*>(clientInfo))->decidePolicyForPluginLoad(page, currentPluginLoadPolicy, pluginInformation, unavailabilityDescription);
}
WKPluginLoadPolicy TestController::decidePolicyForPluginLoad(WKPageRef, WKPluginLoadPolicy currentPluginLoadPolicy, WKDictionaryRef pluginInformation, WKStringRef* unavailabilityDescription)
{
if (m_shouldBlockAllPlugins)
return kWKPluginLoadPolicyBlocked;
#if PLATFORM(MAC)
WKStringRef bundleIdentifier = (WKStringRef)WKDictionaryGetItemForKey(pluginInformation, WKPluginInformationBundleIdentifierKey());
if (!bundleIdentifier)
return currentPluginLoadPolicy;
if (WKStringIsEqualToUTF8CString(bundleIdentifier, "com.apple.QuickTime Plugin.plugin"))
return currentPluginLoadPolicy;
if (WKStringIsEqualToUTF8CString(bundleIdentifier, "com.apple.testnetscapeplugin"))
return currentPluginLoadPolicy;
// Please don't use any other plug-ins in tests, as they will not be installed on all machines.
RELEASE_ASSERT_NOT_REACHED_WITH_MESSAGE("Unexpected plugin bundle identifier: %s", toSTD(bundleIdentifier).c_str());
#else
return currentPluginLoadPolicy;
#endif
}
void TestController::setBlockAllPlugins(bool shouldBlock)
{
m_shouldBlockAllPlugins = shouldBlock;
#if PLATFORM(MAC)
auto policy = shouldBlock ? kWKPluginLoadClientPolicyBlock : kWKPluginLoadClientPolicyAllow;
WKContextSetPluginLoadClientPolicy(m_context.get(), policy, toWK("").get(), toWK("com.apple.testnetscapeplugin").get(), toWK("").get());
WKContextSetPluginLoadClientPolicy(m_context.get(), policy, toWK("").get(), toWK("com.macromedia.Flash Player.plugin").get(), toWK("").get());
#endif
}
void TestController::setPluginSupportedMode(const String& mode)
{
if (m_unsupportedPluginMode == mode)
return;
m_unsupportedPluginMode = mode;
if (m_unsupportedPluginMode.isEmpty()) {
WKContextClearSupportedPlugins(m_context.get());
return;
}
auto emptyArray = adoptWK(WKMutableArrayCreate());
WKContextAddSupportedPlugin(m_context.get(), toWK("").get(), toWK("My personal PDF").get(), emptyArray.get(), emptyArray.get());
auto nameNetscape = toWK("com.apple.testnetscapeplugin");
auto mimeTypesNetscape = adoptWK(WKMutableArrayCreate());
WKArrayAppendItem(mimeTypesNetscape.get(), toWK("application/x-webkit-test-netscape").get());
auto namePdf = toWK("WebKit built-in PDF");
if (m_unsupportedPluginMode == "allOrigins") {
WKContextAddSupportedPlugin(m_context.get(), toWK("").get(), nameNetscape.get(), mimeTypesNetscape.get(), emptyArray.get());
WKContextAddSupportedPlugin(m_context.get(), toWK("").get(), namePdf.get(), emptyArray.get(), emptyArray.get());
return;
}
if (m_unsupportedPluginMode == "specificOrigin") {
WKContextAddSupportedPlugin(m_context.get(), toWK("localhost").get(), nameNetscape.get(), mimeTypesNetscape.get(), emptyArray.get());
WKContextAddSupportedPlugin(m_context.get(), toWK("localhost").get(), namePdf.get(), emptyArray.get(), emptyArray.get());
return;
}
}
void TestController::didCommitNavigation(WKPageRef page, WKNavigationRef navigation)
{
mainWebView()->focus();
}
void TestController::didReceiveServerRedirectForProvisionalNavigation(WKPageRef page, WKNavigationRef navigation, WKTypeRef userData)
{
m_didReceiveServerRedirectForProvisionalNavigation = true;
return;
}
static const char* toString(WKProtectionSpaceAuthenticationScheme scheme)
{
switch (scheme) {
case kWKProtectionSpaceAuthenticationSchemeDefault:
return "ProtectionSpaceAuthenticationSchemeDefault";
case kWKProtectionSpaceAuthenticationSchemeHTTPBasic:
return "ProtectionSpaceAuthenticationSchemeHTTPBasic";
case kWKProtectionSpaceAuthenticationSchemeHTMLForm:
return "ProtectionSpaceAuthenticationSchemeHTMLForm";
case kWKProtectionSpaceAuthenticationSchemeNTLM:
return "ProtectionSpaceAuthenticationSchemeNTLM";
case kWKProtectionSpaceAuthenticationSchemeNegotiate:
return "ProtectionSpaceAuthenticationSchemeNegotiate";
case kWKProtectionSpaceAuthenticationSchemeClientCertificateRequested:
return "ProtectionSpaceAuthenticationSchemeClientCertificateRequested";
case kWKProtectionSpaceAuthenticationSchemeServerTrustEvaluationRequested:
return "ProtectionSpaceAuthenticationSchemeServerTrustEvaluationRequested";
case kWKProtectionSpaceAuthenticationSchemeOAuth:
return "ProtectionSpaceAuthenticationSchemeOAuth";
case kWKProtectionSpaceAuthenticationSchemeUnknown:
return "ProtectionSpaceAuthenticationSchemeUnknown";
}
ASSERT_NOT_REACHED();
return "ProtectionSpaceAuthenticationSchemeUnknown";
}
bool TestController::canAuthenticateAgainstProtectionSpace(WKPageRef page, WKProtectionSpaceRef protectionSpace)
{
if (m_shouldLogCanAuthenticateAgainstProtectionSpace)
m_currentInvocation->outputText("canAuthenticateAgainstProtectionSpace\n");
auto scheme = WKProtectionSpaceGetAuthenticationScheme(protectionSpace);
if (scheme == kWKProtectionSpaceAuthenticationSchemeServerTrustEvaluationRequested) {
auto host = toSTD(adoptWK(WKProtectionSpaceCopyHost(protectionSpace)));
return host == "localhost" || host == "127.0.0.1" || (m_allowAnyHTTPSCertificateForAllowedHosts && m_allowedHosts.find(host) != m_allowedHosts.end());
}
return scheme <= kWKProtectionSpaceAuthenticationSchemeHTTPDigest || scheme == kWKProtectionSpaceAuthenticationSchemeOAuth;
}
void TestController::didFinishNavigation(WKPageRef page, WKNavigationRef navigation)
{
if (m_state != Resetting)
return;
if (!WKURLIsEqual(adoptWK(WKFrameCopyURL(WKPageGetMainFrame(page))).get(), blankURL()))
return;
m_doneResetting = true;
singleton().notifyDone();
}
void TestController::didReceiveAuthenticationChallenge(WKPageRef page, WKAuthenticationChallengeRef authenticationChallenge)
{
WKProtectionSpaceRef protectionSpace = WKAuthenticationChallengeGetProtectionSpace(authenticationChallenge);
WKAuthenticationDecisionListenerRef decisionListener = WKAuthenticationChallengeGetDecisionListener(authenticationChallenge);
WKProtectionSpaceAuthenticationScheme authenticationScheme = WKProtectionSpaceGetAuthenticationScheme(protectionSpace);
if (authenticationScheme == kWKProtectionSpaceAuthenticationSchemeServerTrustEvaluationRequested) {
// Any non-empty credential signals to accept the server trust. Since the cross-platform API
// doesn't expose a way to create a credential from server trust, we use a password credential.
m_serverTrustEvaluationCallbackCallsCount++;
if (m_allowsAnySSLCertificate) {
auto credential = adoptWK(WKCredentialCreate(toWK("accept server trust").get(), toWK("").get(), kWKCredentialPersistenceNone));
WKAuthenticationDecisionListenerUseCredential(decisionListener, credential.get());
return;
}
WKAuthenticationDecisionListenerRejectProtectionSpaceAndContinue(decisionListener);
return;
}
if (m_rejectsProtectionSpaceAndContinueForAuthenticationChallenges) {
m_currentInvocation->outputText("Simulating reject protection space and continue for authentication challenge\n");
WKAuthenticationDecisionListenerRejectProtectionSpaceAndContinue(decisionListener);
return;
}
auto host = toWTFString(adoptWK(WKProtectionSpaceCopyHost(protectionSpace)).get());
int port = WKProtectionSpaceGetPort(protectionSpace);
String message = makeString(host, ':', port, " - didReceiveAuthenticationChallenge - ", toString(authenticationScheme), " - ");
if (!m_handlesAuthenticationChallenges)
message.append("Simulating cancelled authentication sheet\n");
else
message.append("Responding with " + m_authenticationUsername + ":" + m_authenticationPassword + "\n");
m_currentInvocation->outputText(message);
if (!m_handlesAuthenticationChallenges) {
WKAuthenticationDecisionListenerUseCredential(decisionListener, 0);
return;
}
auto credential = adoptWK(WKCredentialCreate(toWK(m_authenticationUsername).get(), toWK(m_authenticationPassword).get(), kWKCredentialPersistenceForSession));
WKAuthenticationDecisionListenerUseCredential(decisionListener, credential.get());
}
// WKDownloadClient
WKStringRef TestController::decideDestinationWithSuggestedFilename(WKDownloadRef download, WKURLResponseRef response, WKStringRef suggestedFilename, const void* clientInfo)
{
return static_cast<TestController*>(const_cast<void*>(clientInfo))->decideDestinationWithSuggestedFilename(download, suggestedFilename);
}
void TestController::downloadDidFinish(WKDownloadRef download, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->downloadDidFinish(download);
}
void TestController::downloadDidFail(WKDownloadRef download, WKErrorRef error, WKDataRef, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->downloadDidFail(download, error);
}
bool TestController::downloadDidReceiveServerRedirectToURL(WKDownloadRef download, WKURLResponseRef, WKURLRequestRef newRequest, const void* clientInfo)
{
return static_cast<TestController*>(const_cast<void*>(clientInfo))->downloadDidReceiveServerRedirectToURL(download, newRequest);
}
void TestController::downloadDidStart(WKDownloadRef download)
{
if (m_shouldLogDownloadCallbacks)
m_currentInvocation->outputText("Download started.\n");
}
WKStringRef TestController::decideDestinationWithSuggestedFilename(WKDownloadRef download, WKStringRef filename)
{
String suggestedFilename = toWTFString(filename);
if (m_shouldLogDownloadCallbacks) {
StringBuilder builder;
builder.append("Downloading URL with suggested filename \"");
builder.append(suggestedFilename);
builder.append("\"\n");
m_currentInvocation->outputText(builder.toString());
}
const char* dumpRenderTreeTemp = libraryPathForTesting();
if (!dumpRenderTreeTemp)
return nullptr;
String temporaryFolder = String::fromUTF8(dumpRenderTreeTemp);
if (suggestedFilename.isEmpty())
suggestedFilename = "Unknown";
String destination = temporaryFolder + pathSeparator + suggestedFilename;
if (FileSystem::fileExists(destination))
FileSystem::deleteFile(destination);
return toWK(destination).leakRef();
}
void TestController::downloadDidFinish(WKDownloadRef)
{
if (m_shouldLogDownloadSize)
m_currentInvocation->outputText(makeString("Download size: ", m_downloadTotalBytesWritten.value_or(0), ".\n"));
if (m_shouldLogDownloadCallbacks)
m_currentInvocation->outputText("Download completed.\n");
m_currentInvocation->notifyDownloadDone();
}
bool TestController::downloadDidReceiveServerRedirectToURL(WKDownloadRef, WKURLRequestRef request)
{
auto url = adoptWK(WKURLRequestCopyURL(request));
if (m_shouldLogDownloadCallbacks)
m_currentInvocation->outputText(makeString("Download was redirected to \"", toWTFString(adoptWK(WKURLCopyString(url.get()))), "\".\n"));
return true;
}
void TestController::downloadDidFail(WKDownloadRef, WKErrorRef error)
{
if (m_shouldLogDownloadCallbacks) {
m_currentInvocation->outputText("Download failed.\n"_s);
auto domain = toWTFString(adoptWK(WKErrorCopyDomain(error)));
auto description = toWTFString(adoptWK(WKErrorCopyLocalizedDescription(error)));
int code = WKErrorGetErrorCode(error);
m_currentInvocation->outputText(makeString("Failed: ", domain, ", code=", code, ", description=", description, "\n"));
}
m_currentInvocation->notifyDownloadDone();
}
void TestController::downloadDidReceiveAuthenticationChallenge(WKDownloadRef, WKAuthenticationChallengeRef authenticationChallenge, const void *clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didReceiveAuthenticationChallenge(nullptr, authenticationChallenge);
}
void TestController::downloadDidWriteData(long long totalBytesWritten)
{
if (!m_shouldLogDownloadCallbacks)
return;
m_downloadTotalBytesWritten = totalBytesWritten;
}
void TestController::downloadDidWriteData(WKDownloadRef download, long long bytesWritten, long long totalBytesWritten, long long totalBytesExpectedToWrite, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->downloadDidWriteData(totalBytesWritten);
}
void TestController::webProcessDidTerminate(WKProcessTerminationReason reason)
{
// This function can be called multiple times when crash logs are being saved on Windows, so
// ensure we only print the crashed message once.
if (!m_didPrintWebProcessCrashedMessage) {
pid_t pid = WKPageGetProcessIdentifier(m_mainWebView->page());
fprintf(stderr, "%s terminated (pid %ld) ", webProcessName(), static_cast<long>(pid));
switch (reason) {
case kWKProcessTerminationReasonExceededMemoryLimit:
fprintf(stderr, "because the memory limit was exceeded\n");
break;
case kWKProcessTerminationReasonExceededCPULimit:
fprintf(stderr, "because the cpu limit was exceeded\n");
break;
case kWKProcessTerminationReasonRequestedByClient:
fprintf(stderr, "because the client requested\n");
break;
case kWKProcessTerminationReasonCrash:
fprintf(stderr, "because the process crashed\n");
break;
default:
fprintf(stderr, "for an unknown reason\n");
}
if (reason == kWKProcessTerminationReasonRequestedByClient) {
fflush(stderr);
return;
}
fprintf(stderr, "#CRASHED - %s (pid %ld)\n", webProcessName(), static_cast<long>(pid));
fflush(stderr);
m_didPrintWebProcessCrashedMessage = true;
}
if (m_shouldExitWhenWebProcessCrashes)
exit(1);
}
void TestController::didBeginNavigationGesture(WKPageRef)
{
m_currentInvocation->didBeginSwipe();
}
void TestController::willEndNavigationGesture(WKPageRef, WKBackForwardListItemRef)
{
m_currentInvocation->willEndSwipe();
}
void TestController::didEndNavigationGesture(WKPageRef, WKBackForwardListItemRef)
{
m_currentInvocation->didEndSwipe();
}
void TestController::didRemoveNavigationGestureSnapshot(WKPageRef)
{
m_currentInvocation->didRemoveSwipeSnapshot();
}
void TestController::simulateWebNotificationClick(WKDataRef notificationID)
{
m_webNotificationProvider.simulateWebNotificationClick(mainWebView()->page(), notificationID);
}
void TestController::setGeolocationPermission(bool enabled)
{
m_isGeolocationPermissionSet = true;
m_isGeolocationPermissionAllowed = enabled;
decidePolicyForGeolocationPermissionRequestIfPossible();
}
void TestController::setMockGeolocationPosition(double latitude, double longitude, double accuracy, std::optional<double> altitude, std::optional<double> altitudeAccuracy, std::optional<double> heading, std::optional<double> speed, std::optional<double> floorLevel)
{
m_geolocationProvider->setPosition(latitude, longitude, accuracy, altitude, altitudeAccuracy, heading, speed, floorLevel);
}
void TestController::setMockGeolocationPositionUnavailableError(WKStringRef errorMessage)
{
m_geolocationProvider->setPositionUnavailableError(errorMessage);
}
void TestController::handleGeolocationPermissionRequest(WKGeolocationPermissionRequestRef geolocationPermissionRequest)
{
m_geolocationPermissionRequests.append(geolocationPermissionRequest);
decidePolicyForGeolocationPermissionRequestIfPossible();
}
bool TestController::isGeolocationProviderActive() const
{
return m_geolocationProvider->isActive();
}
static String originUserVisibleName(WKSecurityOriginRef origin)
{
if (!origin)
return emptyString();
auto host = toWTFString(adoptWK(WKSecurityOriginCopyHost(origin)));
auto protocol = toWTFString(adoptWK(WKSecurityOriginCopyProtocol(origin)));
if (host.isEmpty() || protocol.isEmpty())
return emptyString();
if (int port = WKSecurityOriginGetPort(origin))
return makeString(protocol, "://", host, ':', port);
return makeString(protocol, "://", host);
}
static String userMediaOriginHash(WKSecurityOriginRef userMediaDocumentOrigin, WKSecurityOriginRef topLevelDocumentOrigin)
{
String userMediaDocumentOriginString = originUserVisibleName(userMediaDocumentOrigin);
String topLevelDocumentOriginString = originUserVisibleName(topLevelDocumentOrigin);
if (topLevelDocumentOriginString.isEmpty())
return userMediaDocumentOriginString;
return makeString(userMediaDocumentOriginString, '-', topLevelDocumentOriginString);
}
static String userMediaOriginHash(WKStringRef userMediaDocumentOriginString, WKStringRef topLevelDocumentOriginString)
{
auto userMediaDocumentOrigin = adoptWK(WKSecurityOriginCreateFromString(userMediaDocumentOriginString));
if (!WKStringGetLength(topLevelDocumentOriginString))
return userMediaOriginHash(userMediaDocumentOrigin.get(), nullptr);
auto topLevelDocumentOrigin = adoptWK(WKSecurityOriginCreateFromString(topLevelDocumentOriginString));
return userMediaOriginHash(userMediaDocumentOrigin.get(), topLevelDocumentOrigin.get());
}
void TestController::setUserMediaPermission(bool enabled)
{
m_isUserMediaPermissionSet = true;
m_isUserMediaPermissionAllowed = enabled;
decidePolicyForUserMediaPermissionRequestIfPossible();
}
void TestController::resetUserMediaPermission()
{
m_isUserMediaPermissionSet = false;
}
void TestController::setShouldDismissJavaScriptAlertsAsynchronously(bool value)
{
m_shouldDismissJavaScriptAlertsAsynchronously = value;
}
void TestController::handleJavaScriptAlert(WKPageRunJavaScriptAlertResultListenerRef listener)
{
if (!m_shouldDismissJavaScriptAlertsAsynchronously) {
WKPageRunJavaScriptAlertResultListenerCall(listener);
return;
}
WKRetain(listener);
callOnMainThread([listener] {
WKPageRunJavaScriptAlertResultListenerCall(listener);
WKRelease(listener);
});
}
class OriginSettings : public RefCounted<OriginSettings> {
public:
explicit OriginSettings()
{
}
bool persistentPermission() const { return m_persistentPermission; }
void setPersistentPermission(bool permission) { m_persistentPermission = permission; }
String persistentSalt() const { return m_persistentSalt; }
void setPersistentSalt(const String& salt) { m_persistentSalt = salt; }
HashMap<uint64_t, String>& ephemeralSalts() { return m_ephemeralSalts; }
void incrementRequestCount() { ++m_requestCount; }
void resetRequestCount() { m_requestCount = 0; }
unsigned requestCount() const { return m_requestCount; }
private:
HashMap<uint64_t, String> m_ephemeralSalts;
String m_persistentSalt;
unsigned m_requestCount { 0 };
bool m_persistentPermission { false };
};
String TestController::saltForOrigin(WKFrameRef frame, String originHash)
{
auto& settings = settingsForOrigin(originHash);
auto& ephemeralSalts = settings.ephemeralSalts();
auto frameHandle = adoptWK(WKFrameCreateFrameHandle(frame));
uint64_t frameIdentifier = WKFrameHandleGetFrameID(frameHandle.get());
String frameSalt = ephemeralSalts.get(frameIdentifier);
if (settings.persistentPermission()) {
if (frameSalt.length())
return frameSalt;
if (!settings.persistentSalt().length())
settings.setPersistentSalt(createCanonicalUUIDString());
return settings.persistentSalt();
}
if (!frameSalt.length()) {
frameSalt = createCanonicalUUIDString();
ephemeralSalts.add(frameIdentifier, frameSalt);
}
return frameSalt;
}
void TestController::setUserMediaPersistentPermissionForOrigin(bool permission, WKStringRef userMediaDocumentOriginString, WKStringRef topLevelDocumentOriginString)
{
auto originHash = userMediaOriginHash(userMediaDocumentOriginString, topLevelDocumentOriginString);
auto& settings = settingsForOrigin(originHash);
settings.setPersistentPermission(permission);
}
void TestController::handleCheckOfUserMediaPermissionForOrigin(WKFrameRef frame, WKSecurityOriginRef userMediaDocumentOrigin, WKSecurityOriginRef topLevelDocumentOrigin, const WKUserMediaPermissionCheckRef& checkRequest)
{
auto originHash = userMediaOriginHash(userMediaDocumentOrigin, topLevelDocumentOrigin);
auto salt = saltForOrigin(frame, originHash);
WKUserMediaPermissionCheckSetUserMediaAccessInfo(checkRequest, toWK(salt).get(), settingsForOrigin(originHash).persistentPermission());
}
bool TestController::handleDeviceOrientationAndMotionAccessRequest(WKSecurityOriginRef origin, WKFrameInfoRef frame)
{
auto frameOrigin = adoptWK(WKFrameInfoCopySecurityOrigin(frame));
m_currentInvocation->outputText(makeString("Received device orientation & motion access request for top level origin \"", originUserVisibleName(origin), "\", with frame origin \"", originUserVisibleName(frameOrigin.get()), "\".\n"));
return m_shouldAllowDeviceOrientationAndMotionAccess;
}
void TestController::handleUserMediaPermissionRequest(WKFrameRef frame, WKSecurityOriginRef userMediaDocumentOrigin, WKSecurityOriginRef topLevelDocumentOrigin, WKUserMediaPermissionRequestRef request)
{
auto originHash = userMediaOriginHash(userMediaDocumentOrigin, topLevelDocumentOrigin);
m_userMediaPermissionRequests.append(std::make_pair(originHash, request));
decidePolicyForUserMediaPermissionRequestIfPossible();
}
OriginSettings& TestController::settingsForOrigin(const String& originHash)
{
RefPtr<OriginSettings> settings = m_cachedUserMediaPermissions.get(originHash);
if (!settings) {
settings = adoptRef(*new OriginSettings());
m_cachedUserMediaPermissions.add(originHash, settings);
}
return *settings;
}
unsigned TestController::userMediaPermissionRequestCountForOrigin(WKStringRef userMediaDocumentOriginString, WKStringRef topLevelDocumentOriginString)
{
auto originHash = userMediaOriginHash(userMediaDocumentOriginString, topLevelDocumentOriginString);
return settingsForOrigin(originHash).requestCount();
}
void TestController::resetUserMediaPermissionRequestCountForOrigin(WKStringRef userMediaDocumentOriginString, WKStringRef topLevelDocumentOriginString)
{
auto originHash = userMediaOriginHash(userMediaDocumentOriginString, topLevelDocumentOriginString);
settingsForOrigin(originHash).resetRequestCount();
}
void TestController::decidePolicyForUserMediaPermissionRequestIfPossible()
{
if (!m_isUserMediaPermissionSet)
return;
for (auto& pair : m_userMediaPermissionRequests) {
auto originHash = pair.first;
auto request = pair.second.get();
auto& settings = settingsForOrigin(originHash);
settings.incrementRequestCount();
if (!m_isUserMediaPermissionAllowed && !settings.persistentPermission()) {
WKUserMediaPermissionRequestDeny(request, kWKPermissionDenied);
continue;
}
auto audioDeviceUIDs = adoptWK(WKUserMediaPermissionRequestAudioDeviceUIDs(request));
auto videoDeviceUIDs = adoptWK(WKUserMediaPermissionRequestVideoDeviceUIDs(request));
if (!WKArrayGetSize(videoDeviceUIDs.get()) && !WKArrayGetSize(audioDeviceUIDs.get())) {
WKUserMediaPermissionRequestDeny(request, kWKNoConstraints);
continue;
}
WKRetainPtr<WKStringRef> videoDeviceUID;
if (WKArrayGetSize(videoDeviceUIDs.get()))
videoDeviceUID = reinterpret_cast<WKStringRef>(WKArrayGetItemAtIndex(videoDeviceUIDs.get(), 0));
else
videoDeviceUID = toWK("");
WKRetainPtr<WKStringRef> audioDeviceUID;
if (WKArrayGetSize(audioDeviceUIDs.get()))
audioDeviceUID = reinterpret_cast<WKStringRef>(WKArrayGetItemAtIndex(audioDeviceUIDs.get(), 0));
else
audioDeviceUID = toWK("");
WKUserMediaPermissionRequestAllow(request, audioDeviceUID.get(), videoDeviceUID.get());
}
m_userMediaPermissionRequests.clear();
}
void TestController::setCustomPolicyDelegate(bool enabled, bool permissive)
{
m_policyDelegateEnabled = enabled;
m_policyDelegatePermissive = permissive;
}
void TestController::decidePolicyForGeolocationPermissionRequestIfPossible()
{
if (!m_isGeolocationPermissionSet)
return;
for (size_t i = 0; i < m_geolocationPermissionRequests.size(); ++i) {
WKGeolocationPermissionRequestRef permissionRequest = m_geolocationPermissionRequests[i].get();
if (m_isGeolocationPermissionAllowed)
WKGeolocationPermissionRequestAllow(permissionRequest);
else
WKGeolocationPermissionRequestDeny(permissionRequest);
}
m_geolocationPermissionRequests.clear();
}
void TestController::decidePolicyForNotificationPermissionRequest(WKPageRef page, WKSecurityOriginRef origin, WKNotificationPermissionRequestRef request, const void*)
{
TestController::singleton().decidePolicyForNotificationPermissionRequest(page, origin, request);
}
void TestController::decidePolicyForNotificationPermissionRequest(WKPageRef, WKSecurityOriginRef, WKNotificationPermissionRequestRef request)
{
WKNotificationPermissionRequestAllow(request);
}
void TestController::unavailablePluginButtonClicked(WKPageRef, WKPluginUnavailabilityReason, WKDictionaryRef, const void*)
{
printf("MISSING PLUGIN BUTTON PRESSED\n");
}
void TestController::decidePolicyForNavigationAction(WKPageRef, WKNavigationActionRef navigationAction, WKFramePolicyListenerRef listener, WKTypeRef, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->decidePolicyForNavigationAction(navigationAction, listener);
}
void TestController::decidePolicyForNavigationAction(WKNavigationActionRef navigationAction, WKFramePolicyListenerRef listener)
{
WKRetainPtr<WKFramePolicyListenerRef> retainedListener { listener };
WKRetainPtr<WKNavigationActionRef> retainedNavigationAction { navigationAction };
const bool shouldIgnore { m_policyDelegateEnabled && !m_policyDelegatePermissive };
auto decisionFunction = [shouldIgnore, retainedListener, retainedNavigationAction, shouldSwapToEphemeralSessionOnNextNavigation = m_shouldSwapToEphemeralSessionOnNextNavigation, shouldSwapToDefaultSessionOnNextNavigation = m_shouldSwapToDefaultSessionOnNextNavigation]() {
if (shouldIgnore)
WKFramePolicyListenerIgnore(retainedListener.get());
else if (WKNavigationActionShouldPerformDownload(retainedNavigationAction.get()))
WKFramePolicyListenerDownload(retainedListener.get());
else {
if (shouldSwapToEphemeralSessionOnNextNavigation || shouldSwapToDefaultSessionOnNextNavigation) {
ASSERT(shouldSwapToEphemeralSessionOnNextNavigation != shouldSwapToDefaultSessionOnNextNavigation);
auto policies = adoptWK(WKWebsitePoliciesCreate());
WKRetainPtr<WKWebsiteDataStoreRef> newSession = TestController::defaultWebsiteDataStore();
if (shouldSwapToEphemeralSessionOnNextNavigation)
newSession = adoptWK(WKWebsiteDataStoreCreateNonPersistentDataStore());
WKWebsitePoliciesSetDataStore(policies.get(), newSession.get());
WKFramePolicyListenerUseWithPolicies(retainedListener.get(), policies.get());
} else
WKFramePolicyListenerUse(retainedListener.get());
}
};
m_shouldSwapToEphemeralSessionOnNextNavigation = false;
m_shouldSwapToDefaultSessionOnNextNavigation = false;
if (m_shouldDecideNavigationPolicyAfterDelay)
RunLoop::main().dispatch(WTFMove(decisionFunction));
else
decisionFunction();
}
void TestController::decidePolicyForNavigationResponse(WKPageRef, WKNavigationResponseRef navigationResponse, WKFramePolicyListenerRef listener, WKTypeRef, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->decidePolicyForNavigationResponse(navigationResponse, listener);
}
void TestController::decidePolicyForNavigationResponse(WKNavigationResponseRef navigationResponse, WKFramePolicyListenerRef listener)
{
WKRetainPtr<WKNavigationResponseRef> retainedNavigationResponse { navigationResponse };
WKRetainPtr<WKFramePolicyListenerRef> retainedListener { listener };
bool shouldDownloadUndisplayableMIMETypes = m_shouldDownloadUndisplayableMIMETypes;
auto decisionFunction = [shouldDownloadUndisplayableMIMETypes, retainedNavigationResponse, retainedListener]() {
// Even though Response was already checked by WKBundlePagePolicyClient, the check did not include plugins
// so we have to re-check again.
if (WKNavigationResponseCanShowMIMEType(retainedNavigationResponse.get())) {
WKFramePolicyListenerUse(retainedListener.get());
return;
}
if (shouldDownloadUndisplayableMIMETypes)
WKFramePolicyListenerDownload(retainedListener.get());
else
WKFramePolicyListenerIgnore(retainedListener.get());
};
if (m_shouldDecideResponsePolicyAfterDelay)
RunLoop::main().dispatch(WTFMove(decisionFunction));
else
decisionFunction();
}
void TestController::didNavigateWithNavigationData(WKContextRef, WKPageRef, WKNavigationDataRef navigationData, WKFrameRef frame, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didNavigateWithNavigationData(navigationData, frame);
}
void TestController::didNavigateWithNavigationData(WKNavigationDataRef navigationData, WKFrameRef)
{
if (m_state != RunningTest)
return;
if (!m_shouldLogHistoryClientCallbacks)
return;
auto url = adoptWK(WKNavigationDataCopyURL(navigationData));
auto urlString = toWTFString(adoptWK(WKURLCopyString(url.get())));
auto title = toWTFString(adoptWK(WKNavigationDataCopyTitle(navigationData)));
auto request = adoptWK(WKNavigationDataCopyOriginalRequest(navigationData));
auto method = toWTFString(adoptWK(WKURLRequestCopyHTTPMethod(request.get())));
// FIXME: Determine whether the navigation was successful / a client redirect rather than hard-coding the message here.
m_currentInvocation->outputText(makeString("WebView navigated to url \"", urlString, "\" with title \"", title, "\" with HTTP equivalent method \"", method,
"\". The navigation was successful and was not a client redirect.\n"));
}
void TestController::didPerformClientRedirect(WKContextRef, WKPageRef, WKURLRef sourceURL, WKURLRef destinationURL, WKFrameRef frame, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didPerformClientRedirect(sourceURL, destinationURL, frame);
}
void TestController::didPerformClientRedirect(WKURLRef sourceURL, WKURLRef destinationURL, WKFrameRef)
{
if (m_state != RunningTest)
return;
if (!m_shouldLogHistoryClientCallbacks)
return;
auto source = toWTFString(adoptWK(WKURLCopyString(sourceURL)));
auto destination = toWTFString(adoptWK(WKURLCopyString(destinationURL)));
m_currentInvocation->outputText(makeString("WebView performed a client redirect from \"", source, "\" to \"", destination, "\".\n"));
}
void TestController::didPerformServerRedirect(WKContextRef, WKPageRef, WKURLRef sourceURL, WKURLRef destinationURL, WKFrameRef frame, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didPerformServerRedirect(sourceURL, destinationURL, frame);
}
void TestController::didPerformServerRedirect(WKURLRef sourceURL, WKURLRef destinationURL, WKFrameRef)
{
if (m_state != RunningTest)
return;
if (!m_shouldLogHistoryClientCallbacks)
return;
auto source = toWTFString(adoptWK(WKURLCopyString(sourceURL)));
auto destination = toWTFString(adoptWK(WKURLCopyString(destinationURL)));
m_currentInvocation->outputText(makeString("WebView performed a server redirect from \"", source, "\" to \"", destination, "\".\n"));
}
void TestController::didUpdateHistoryTitle(WKContextRef, WKPageRef, WKStringRef title, WKURLRef URL, WKFrameRef frame, const void* clientInfo)
{
static_cast<TestController*>(const_cast<void*>(clientInfo))->didUpdateHistoryTitle(title, URL, frame);
}
void TestController::didUpdateHistoryTitle(WKStringRef title, WKURLRef URL, WKFrameRef)
{
if (m_state != RunningTest)
return;
if (!m_shouldLogHistoryClientCallbacks)
return;
auto urlString = toWTFString(adoptWK(WKURLCopyString(URL)));
m_currentInvocation->outputText(makeString("WebView updated the title for history URL \"", urlString, "\" to \"", toWTFString(title), "\".\n"));
}
void TestController::setNavigationGesturesEnabled(bool value)
{
m_mainWebView->setNavigationGesturesEnabled(value);
}
void TestController::setIgnoresViewportScaleLimits(bool ignoresViewportScaleLimits)
{
WKPageSetIgnoresViewportScaleLimits(m_mainWebView->page(), ignoresViewportScaleLimits);
}
void TestController::terminateGPUProcess()
{
WKContextTerminateGPUProcess(platformContext());
}
void TestController::terminateNetworkProcess()
{
WKWebsiteDataStoreTerminateNetworkProcess(websiteDataStore());
}
void TestController::terminateServiceWorkers()
{
WKContextTerminateServiceWorkers(platformContext());
}
#if !PLATFORM(COCOA)
void TestController::platformWillRunTest(const TestInvocation&)
{
}
void TestController::platformInitializeDataStore(WKPageConfigurationRef configuration, const TestOptions& options)
{
if (!options.useEphemeralSession())
WKPageConfigurationSetWebsiteDataStore(configuration, defaultWebsiteDataStore());
m_websiteDataStore = WKPageConfigurationGetWebsiteDataStore(configuration);
}
void TestController::platformCreateWebView(WKPageConfigurationRef configuration, const TestOptions& options)
{
m_mainWebView = makeUnique<PlatformWebView>(configuration, options);
}
UniqueRef<PlatformWebView> TestController::platformCreateOtherPage(PlatformWebView* parentView, WKPageConfigurationRef configuration, const TestOptions& options)
{
return makeUniqueRef<PlatformWebView>(configuration, options);
}
WKContextRef TestController::platformAdjustContext(WKContextRef context, WKContextConfigurationRef)
{
return context;
}
unsigned TestController::imageCountInGeneralPasteboard() const
{
return 0;
}
void TestController::removeAllSessionCredentials()
{
}
bool TestController::didLoadAppInitiatedRequest()
{
return false;
}
bool TestController::didLoadNonAppInitiatedRequest()
{
return false;
}
void TestController::clearAppPrivacyReportTestingData()
{
}
struct GetAllStorageAccessEntriesCallbackContext {
GetAllStorageAccessEntriesCallbackContext(TestController& controller, CompletionHandler<void(Vector<String>&&)>&& handler)
: testController(controller)
, completionHandler(WTFMove(handler))
{
}
TestController& testController;
CompletionHandler<void(Vector<String>&&)> completionHandler;
bool done { false };
};
void getAllStorageAccessEntriesCallback(void* userData, WKArrayRef domainList)
{
auto* context = static_cast<GetAllStorageAccessEntriesCallbackContext*>(userData);
Vector<String> resultDomains;
for (unsigned i = 0; i < WKArrayGetSize(domainList); i++) {
auto domain = reinterpret_cast<WKStringRef>(WKArrayGetItemAtIndex(domainList, i));
auto buffer = std::vector<char>(WKStringGetMaximumUTF8CStringSize(domain));
auto stringLength = WKStringGetUTF8CString(domain, buffer.data(), buffer.size());
resultDomains.append(String::fromUTF8(buffer.data(), stringLength - 1));
}
if (context->completionHandler)
context->completionHandler(WTFMove(resultDomains));
context->done = true;
context->testController.notifyDone();
}
void TestController::getAllStorageAccessEntries()
{
GetAllStorageAccessEntriesCallbackContext context(*this, [this] (Vector<String>&& domains) {
m_currentInvocation->didReceiveAllStorageAccessEntries(WTFMove(domains));
});
WKWebsiteDataStoreGetAllStorageAccessEntries(websiteDataStore(), m_mainWebView->page(), &context, getAllStorageAccessEntriesCallback);
runUntil(context.done, noTimeout);
}
struct LoadedSubresourceDomainsCallbackContext {
explicit LoadedSubresourceDomainsCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
Vector<String> result;
};
static void loadedSubresourceDomainsCallback(WKArrayRef domains, void* userData)
{
auto* context = static_cast<LoadedSubresourceDomainsCallbackContext*>(userData);
context->done = true;
if (domains) {
auto size = WKArrayGetSize(domains);
context->result.reserveInitialCapacity(size);
for (size_t index = 0; index < size; ++index)
context->result.uncheckedAppend(toWTFString(static_cast<WKStringRef>(WKArrayGetItemAtIndex(domains, index))));
}
context->testController.notifyDone();
}
void TestController::loadedSubresourceDomains()
{
LoadedSubresourceDomainsCallbackContext context(*this);
WKPageLoadedSubresourceDomains(m_mainWebView->page(), loadedSubresourceDomainsCallback, &context);
runUntil(context.done, noTimeout);
m_currentInvocation->didReceiveLoadedSubresourceDomains(WTFMove(context.result));
}
void TestController::clearLoadedSubresourceDomains()
{
WKPageClearLoadedSubresourceDomains(m_mainWebView->page());
}
#endif // !PLATFORM(COCOA)
struct ClearServiceWorkerRegistrationsCallbackContext {
explicit ClearServiceWorkerRegistrationsCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
};
static void clearServiceWorkerRegistrationsCallback(void* userData)
{
auto* context = static_cast<ClearServiceWorkerRegistrationsCallbackContext*>(userData);
context->done = true;
context->testController.notifyDone();
}
void TestController::clearServiceWorkerRegistrations()
{
ClearServiceWorkerRegistrationsCallbackContext context(*this);
WKWebsiteDataStoreRemoveAllServiceWorkerRegistrations(websiteDataStore(), &context, clearServiceWorkerRegistrationsCallback);
runUntil(context.done, noTimeout);
}
struct ClearDOMCacheCallbackContext {
explicit ClearDOMCacheCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
};
static void clearDOMCacheCallback(void* userData)
{
auto* context = static_cast<ClearDOMCacheCallbackContext*>(userData);
context->done = true;
context->testController.notifyDone();
}
void TestController::clearDOMCache(WKStringRef origin)
{
ClearDOMCacheCallbackContext context(*this);
auto cacheOrigin = adoptWK(WKSecurityOriginCreateFromString(origin));
WKWebsiteDataStoreRemoveFetchCacheForOrigin(websiteDataStore(), cacheOrigin.get(), &context, clearDOMCacheCallback);
runUntil(context.done, noTimeout);
}
void TestController::clearDOMCaches()
{
ClearDOMCacheCallbackContext context(*this);
WKWebsiteDataStoreRemoveAllFetchCaches(websiteDataStore(), &context, clearDOMCacheCallback);
runUntil(context.done, noTimeout);
}
struct StorageVoidCallbackContext {
explicit StorageVoidCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
};
static void StorageVoidCallback(void* userData)
{
auto* context = static_cast<StorageVoidCallbackContext*>(userData);
context->done = true;
context->testController.notifyDone();
}
void TestController::clearIndexedDatabases()
{
StorageVoidCallbackContext context(*this);
WKWebsiteDataStoreRemoveAllIndexedDatabases(websiteDataStore(), &context, StorageVoidCallback);
runUntil(context.done, noTimeout);
}
void TestController::clearLocalStorage()
{
StorageVoidCallbackContext context(*this);
WKWebsiteDataStoreRemoveLocalStorage(websiteDataStore(), &context, StorageVoidCallback);
runUntil(context.done, noTimeout);
}
void TestController::syncLocalStorage()
{
StorageVoidCallbackContext context(*this);
WKWebsiteDataStoreSyncLocalStorage(TestController::websiteDataStore(), &context, StorageVoidCallback);
runUntil(context.done, noTimeout);
}
void TestController::resetQuota()
{
StorageVoidCallbackContext context(*this);
WKWebsiteDataStoreResetQuota(TestController::websiteDataStore(), &context, StorageVoidCallback);
runUntil(context.done, noTimeout);
}
void TestController::clearStorage()
{
StorageVoidCallbackContext context(*this);
WKWebsiteDataStoreClearStorage(TestController::websiteDataStore(), &context, StorageVoidCallback);
runUntil(context.done, noTimeout);
}
struct FetchCacheOriginsCallbackContext {
FetchCacheOriginsCallbackContext(TestController& controller, WKStringRef origin)
: testController(controller)
, origin(origin)
{
}
TestController& testController;
WKStringRef origin;
bool done { false };
bool result { false };
};
static void fetchCacheOriginsCallback(WKArrayRef origins, void* userData)
{
auto* context = static_cast<FetchCacheOriginsCallbackContext*>(userData);
context->done = true;
auto size = WKArrayGetSize(origins);
for (size_t index = 0; index < size && !context->result; ++index) {
WKSecurityOriginRef securityOrigin = reinterpret_cast<WKSecurityOriginRef>(WKArrayGetItemAtIndex(origins, index));
if (WKStringIsEqual(context->origin, adoptWK(WKSecurityOriginCopyToString(securityOrigin)).get()))
context->result = true;
}
context->testController.notifyDone();
}
bool TestController::hasDOMCache(WKStringRef origin)
{
FetchCacheOriginsCallbackContext context(*this, origin);
WKWebsiteDataStoreGetFetchCacheOrigins(websiteDataStore(), &context, fetchCacheOriginsCallback);
runUntil(context.done, noTimeout);
return context.result;
}
struct FetchCacheSizeForOriginCallbackContext {
explicit FetchCacheSizeForOriginCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
uint64_t result { 0 };
};
static void fetchCacheSizeForOriginCallback(uint64_t size, void* userData)
{
auto* context = static_cast<FetchCacheSizeForOriginCallbackContext*>(userData);
context->done = true;
context->result = size;
context->testController.notifyDone();
}
uint64_t TestController::domCacheSize(WKStringRef origin)
{
FetchCacheSizeForOriginCallbackContext context(*this);
WKWebsiteDataStoreGetFetchCacheSizeForOrigin(websiteDataStore(), origin, &context, fetchCacheSizeForOriginCallback);
runUntil(context.done, noTimeout);
return context.result;
}
#if !PLATFORM(COCOA)
void TestController::setAllowStorageQuotaIncrease(bool)
{
// FIXME: To implement.
}
bool TestController::isDoingMediaCapture() const
{
return false;
}
#endif
struct ResourceStatisticsCallbackContext {
explicit ResourceStatisticsCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
bool result { false };
WKRetainPtr<WKStringRef> resourceLoadStatisticsRepresentation;
};
static void resourceStatisticsStringResultCallback(WKStringRef resourceLoadStatisticsRepresentation, void* userData)
{
auto* context = static_cast<ResourceStatisticsCallbackContext*>(userData);
context->resourceLoadStatisticsRepresentation = resourceLoadStatisticsRepresentation;
context->done = true;
context->testController.notifyDone();
}
static void resourceStatisticsVoidResultCallback(void* userData)
{
auto* context = static_cast<ResourceStatisticsCallbackContext*>(userData);
context->done = true;
context->testController.notifyDone();
}
static void resourceStatisticsBooleanResultCallback(bool result, void* userData)
{
auto* context = static_cast<ResourceStatisticsCallbackContext*>(userData);
context->result = result;
context->done = true;
context->testController.notifyDone();
}
void TestController::clearStatisticsDataForDomain(WKStringRef domain)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreRemoveITPDataForDomain(websiteDataStore(), domain, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
}
bool TestController::doesStatisticsDomainIDExistInDatabase(unsigned domainID)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreDoesStatisticsDomainIDExistInDatabase(websiteDataStore(), domainID, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::setStatisticsEnabled(bool value)
{
WKWebsiteDataStoreSetResourceLoadStatisticsEnabled(websiteDataStore(), value);
}
bool TestController::isStatisticsEphemeral()
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsEphemeral(websiteDataStore(), &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::setStatisticsDebugMode(bool value)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsDebugModeWithCompletionHandler(websiteDataStore(), value, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetStatisticsDebugMode();
}
void TestController::setStatisticsPrevalentResourceForDebugMode(WKStringRef hostName)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsPrevalentResourceForDebugMode(websiteDataStore(), hostName, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetPrevalentResourceForDebugMode();
}
void TestController::setStatisticsLastSeen(WKStringRef host, double seconds)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsLastSeen(websiteDataStore(), host, seconds, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetLastSeen();
}
void TestController::setStatisticsMergeStatistic(WKStringRef host, WKStringRef topFrameDomain1, WKStringRef topFrameDomain2, double lastSeen, bool hadUserInteraction, double mostRecentUserInteraction, bool isGrandfathered, bool isPrevalent, bool isVeryPrevalent, int dataRecordsRemoved)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsMergeStatistic(websiteDataStore(), host, topFrameDomain1, topFrameDomain2, lastSeen, hadUserInteraction, mostRecentUserInteraction, isGrandfathered, isPrevalent, isVeryPrevalent, dataRecordsRemoved, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didMergeStatistic();
}
void TestController::setStatisticsExpiredStatistic(WKStringRef host, unsigned numberOfOperatingDaysPassed, bool hadUserInteraction, bool isScheduledForAllButCookieDataRemoval, bool isPrevalent)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsExpiredStatistic(websiteDataStore(), host, numberOfOperatingDaysPassed, hadUserInteraction, isScheduledForAllButCookieDataRemoval, isPrevalent, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetExpiredStatistic();
}
void TestController::setStatisticsPrevalentResource(WKStringRef host, bool value)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsPrevalentResource(websiteDataStore(), host, value, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetPrevalentResource();
}
void TestController::setStatisticsVeryPrevalentResource(WKStringRef host, bool value)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsVeryPrevalentResource(websiteDataStore(), host, value, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetVeryPrevalentResource();
}
String TestController::dumpResourceLoadStatistics()
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreDumpResourceLoadStatistics(websiteDataStore(), &context, resourceStatisticsStringResultCallback);
runUntil(context.done, noTimeout);
return toWTFString(context.resourceLoadStatisticsRepresentation.get());
}
bool TestController::isStatisticsPrevalentResource(WKStringRef host)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsPrevalentResource(websiteDataStore(), host, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
bool TestController::isStatisticsVeryPrevalentResource(WKStringRef host)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsVeryPrevalentResource(websiteDataStore(), host, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
bool TestController::isStatisticsRegisteredAsSubresourceUnder(WKStringRef subresourceHost, WKStringRef topFrameHost)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsRegisteredAsSubresourceUnder(websiteDataStore(), subresourceHost, topFrameHost, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
bool TestController::isStatisticsRegisteredAsSubFrameUnder(WKStringRef subFrameHost, WKStringRef topFrameHost)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsRegisteredAsSubFrameUnder(websiteDataStore(), subFrameHost, topFrameHost, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
bool TestController::isStatisticsRegisteredAsRedirectingTo(WKStringRef hostRedirectedFrom, WKStringRef hostRedirectedTo)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsRegisteredAsRedirectingTo(websiteDataStore(), hostRedirectedFrom, hostRedirectedTo, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::setStatisticsHasHadUserInteraction(WKStringRef host, bool value)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsHasHadUserInteraction(websiteDataStore(), host, value, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetHasHadUserInteraction();
}
bool TestController::isStatisticsHasHadUserInteraction(WKStringRef host)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsHasHadUserInteraction(websiteDataStore(), host, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
bool TestController::isStatisticsOnlyInDatabaseOnce(WKStringRef subHost, WKStringRef topHost)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsOnlyInDatabaseOnce(websiteDataStore(), subHost, topHost, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::setStatisticsGrandfathered(WKStringRef host, bool value)
{
WKWebsiteDataStoreSetStatisticsGrandfathered(websiteDataStore(), host, value);
}
bool TestController::isStatisticsGrandfathered(WKStringRef host)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreIsStatisticsGrandfathered(websiteDataStore(), host, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::setStatisticsSubframeUnderTopFrameOrigin(WKStringRef host, WKStringRef topFrameHost)
{
WKWebsiteDataStoreSetStatisticsSubframeUnderTopFrameOrigin(websiteDataStore(), host, topFrameHost);
}
void TestController::setStatisticsSubresourceUnderTopFrameOrigin(WKStringRef host, WKStringRef topFrameHost)
{
WKWebsiteDataStoreSetStatisticsSubresourceUnderTopFrameOrigin(websiteDataStore(), host, topFrameHost);
}
void TestController::setStatisticsSubresourceUniqueRedirectTo(WKStringRef host, WKStringRef hostRedirectedTo)
{
WKWebsiteDataStoreSetStatisticsSubresourceUniqueRedirectTo(websiteDataStore(), host, hostRedirectedTo);
}
void TestController::setStatisticsSubresourceUniqueRedirectFrom(WKStringRef host, WKStringRef hostRedirectedFrom)
{
WKWebsiteDataStoreSetStatisticsSubresourceUniqueRedirectFrom(websiteDataStore(), host, hostRedirectedFrom);
}
void TestController::setStatisticsTopFrameUniqueRedirectTo(WKStringRef host, WKStringRef hostRedirectedTo)
{
WKWebsiteDataStoreSetStatisticsTopFrameUniqueRedirectTo(websiteDataStore(), host, hostRedirectedTo);
}
void TestController::setStatisticsTopFrameUniqueRedirectFrom(WKStringRef host, WKStringRef hostRedirectedFrom)
{
WKWebsiteDataStoreSetStatisticsTopFrameUniqueRedirectFrom(websiteDataStore(), host, hostRedirectedFrom);
}
void TestController::setStatisticsCrossSiteLoadWithLinkDecoration(WKStringRef fromHost, WKStringRef toHost)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsCrossSiteLoadWithLinkDecoration(websiteDataStore(), fromHost, toHost, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
}
void TestController::setStatisticsTimeToLiveUserInteraction(double seconds)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsTimeToLiveUserInteraction(websiteDataStore(), seconds, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
}
void TestController::statisticsProcessStatisticsAndDataRecords()
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsProcessStatisticsAndDataRecords(websiteDataStore(), &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
}
void TestController::statisticsUpdateCookieBlocking()
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsUpdateCookieBlocking(websiteDataStore(), &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetBlockCookiesForHost();
}
void TestController::setStatisticsNotifyPagesWhenDataRecordsWereScanned(bool value)
{
WKWebsiteDataStoreSetStatisticsNotifyPagesWhenDataRecordsWereScanned(websiteDataStore(), value);
}
void TestController::setStatisticsIsRunningTest(bool value)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsIsRunningTest(websiteDataStore(), value, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
}
void TestController::setStatisticsShouldClassifyResourcesBeforeDataRecordsRemoval(bool value)
{
WKWebsiteDataStoreSetStatisticsShouldClassifyResourcesBeforeDataRecordsRemoval(websiteDataStore(), value);
}
void TestController::setStatisticsMinimumTimeBetweenDataRecordsRemoval(double seconds)
{
WKWebsiteDataStoreSetStatisticsMinimumTimeBetweenDataRecordsRemoval(websiteDataStore(), seconds);
}
void TestController::setStatisticsGrandfatheringTime(double seconds)
{
WKWebsiteDataStoreSetStatisticsGrandfatheringTime(websiteDataStore(), seconds);
}
void TestController::setStatisticsMaxStatisticsEntries(unsigned entries)
{
WKWebsiteDataStoreSetStatisticsMaxStatisticsEntries(websiteDataStore(), entries);
}
void TestController::setStatisticsPruneEntriesDownTo(unsigned entries)
{
WKWebsiteDataStoreSetStatisticsPruneEntriesDownTo(websiteDataStore(), entries);
}
void TestController::statisticsClearInMemoryAndPersistentStore()
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsClearInMemoryAndPersistentStore(websiteDataStore(), &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didClearStatisticsInMemoryAndPersistentStore();
}
void TestController::statisticsClearInMemoryAndPersistentStoreModifiedSinceHours(unsigned hours)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsClearInMemoryAndPersistentStoreModifiedSinceHours(websiteDataStore(), hours, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didClearStatisticsInMemoryAndPersistentStore();
}
void TestController::statisticsClearThroughWebsiteDataRemoval()
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsClearThroughWebsiteDataRemoval(websiteDataStore(), &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didClearStatisticsThroughWebsiteDataRemoval();
}
void TestController::statisticsDeleteCookiesForHost(WKStringRef host, bool includeHttpOnlyCookies)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsDeleteCookiesForTesting(websiteDataStore(), host, includeHttpOnlyCookies, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
}
bool TestController::isStatisticsHasLocalStorage(WKStringRef host)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsHasLocalStorage(websiteDataStore(), host, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::setStatisticsCacheMaxAgeCap(double seconds)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetStatisticsCacheMaxAgeCap(websiteDataStore(), seconds, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
}
bool TestController::hasStatisticsIsolatedSession(WKStringRef host)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsHasIsolatedSession(websiteDataStore(), host, &context, resourceStatisticsBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::setStatisticsShouldDowngradeReferrer(bool value)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsShouldDowngradeReferrerForTesting(websiteDataStore(), value, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetShouldDowngradeReferrer();
}
void TestController::setStatisticsShouldBlockThirdPartyCookies(bool value, bool onlyOnSitesWithoutUserInteraction)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsShouldBlockThirdPartyCookiesForTesting(websiteDataStore(), value, onlyOnSitesWithoutUserInteraction, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetShouldBlockThirdPartyCookies();
}
void TestController::setStatisticsFirstPartyWebsiteDataRemovalMode(bool value)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsFirstPartyWebsiteDataRemovalModeForTesting(websiteDataStore(), value, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetFirstPartyWebsiteDataRemovalMode();
}
void TestController::setStatisticsToSameSiteStrictCookies(WKStringRef hostName)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsToSameSiteStrictCookiesForTesting(websiteDataStore(), hostName, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetToSameSiteStrictCookies();
}
void TestController::setStatisticsFirstPartyHostCNAMEDomain(WKStringRef firstPartyURLString, WKStringRef cnameURLString)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsFirstPartyHostCNAMEDomainForTesting(websiteDataStore(), firstPartyURLString, cnameURLString, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetFirstPartyHostCNAMEDomain();
}
void TestController::setStatisticsThirdPartyCNAMEDomain(WKStringRef cnameURLString)
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreSetResourceLoadStatisticsThirdPartyCNAMEDomainForTesting(websiteDataStore(), cnameURLString, &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetThirdPartyCNAMEDomain();
}
struct AppBoundDomainsCallbackContext {
explicit AppBoundDomainsCallbackContext(TestController& controller)
: testController(controller)
{
}
bool done { false };
TestController& testController;
};
static void didSetAppBoundDomainsCallback(void* callbackContext)
{
auto* context = static_cast<AppBoundDomainsCallbackContext*>(callbackContext);
context->done = true;
}
void TestController::setAppBoundDomains(WKArrayRef originURLs)
{
AppBoundDomainsCallbackContext context(*this);
WKWebsiteDataStoreSetAppBoundDomainsForTesting(originURLs, &context, didSetAppBoundDomainsCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didSetAppBoundDomains();
}
void TestController::statisticsResetToConsistentState()
{
ResourceStatisticsCallbackContext context(*this);
WKWebsiteDataStoreStatisticsResetToConsistentState(websiteDataStore(), &context, resourceStatisticsVoidResultCallback);
runUntil(context.done, noTimeout);
m_currentInvocation->didResetStatisticsToConsistentState();
}
void TestController::addMockMediaDevice(WKStringRef persistentID, WKStringRef label, WKStringRef type)
{
WKAddMockMediaDevice(platformContext(), persistentID, label, type);
}
void TestController::clearMockMediaDevices()
{
WKClearMockMediaDevices(platformContext());
}
void TestController::removeMockMediaDevice(WKStringRef persistentID)
{
WKRemoveMockMediaDevice(platformContext(), persistentID);
}
void TestController::resetMockMediaDevices()
{
WKResetMockMediaDevices(platformContext());
}
void TestController::setMockCameraOrientation(uint64_t orientation)
{
WKPageSetMockCameraOrientation(m_mainWebView->page(), orientation);
}
bool TestController::isMockRealtimeMediaSourceCenterEnabled() const
{
return WKPageIsMockRealtimeMediaSourceCenterEnabled(m_mainWebView->page());
}
void TestController::setMockCameraIsInterrupted(bool isInterrupted)
{
WKPageSetMockCameraIsInterrupted(m_mainWebView->page(), isInterrupted);
}
struct InAppBrowserPrivacyCallbackContext {
explicit InAppBrowserPrivacyCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
bool result { false };
};
static void inAppBrowserPrivacyBooleanResultCallback(bool result, void* userData)
{
auto* context = static_cast<InAppBrowserPrivacyCallbackContext*>(userData);
context->result = result;
context->done = true;
context->testController.notifyDone();
}
static void inAppBrowserPrivacyVoidResultCallback(void* userData)
{
auto* context = static_cast<InAppBrowserPrivacyCallbackContext*>(userData);
context->done = true;
context->testController.notifyDone();
}
bool TestController::hasAppBoundSession()
{
InAppBrowserPrivacyCallbackContext context(*this);
WKWebsiteDataStoreHasAppBoundSession(TestController::websiteDataStore(), &context, inAppBrowserPrivacyBooleanResultCallback);
runUntil(context.done, noTimeout);
return context.result;
}
void TestController::clearAppBoundSession()
{
InAppBrowserPrivacyCallbackContext context(*this);
WKWebsiteDataStoreClearAppBoundSession(TestController::websiteDataStore(), &context, inAppBrowserPrivacyVoidResultCallback);
runUntil(context.done, noTimeout);
}
void TestController::reinitializeAppBoundDomains()
{
WKWebsiteDataStoreReinitializeAppBoundDomains(TestController::websiteDataStore());
}
void TestController::updateBundleIdentifierInNetworkProcess(const std::string& bundleIdentifier)
{
InAppBrowserPrivacyCallbackContext context(*this);
WKWebsiteDataStoreUpdateBundleIdentifierInNetworkProcess(TestController::websiteDataStore(), toWK(bundleIdentifier).get(), &context, inAppBrowserPrivacyVoidResultCallback);
runUntil(context.done, noTimeout);
}
void TestController::clearBundleIdentifierInNetworkProcess()
{
InAppBrowserPrivacyCallbackContext context(*this);
WKWebsiteDataStoreClearBundleIdentifierInNetworkProcess(TestController::websiteDataStore(), &context, inAppBrowserPrivacyVoidResultCallback);
runUntil(context.done, noTimeout);
}
#if !PLATFORM(COCOA)
TestFeatures TestController::platformSpecificFeatureOverridesDefaultsForTest(const TestCommand&) const
{
return { };
}
void TestController::injectUserScript(WKStringRef)
{
}
void TestController::addTestKeyToKeychain(const String&, const String&, const String&)
{
}
void TestController::cleanUpKeychain(const String&, const String&)
{
}
bool TestController::keyExistsInKeychain(const String&, const String&)
{
return false;
}
void TestController::installCustomMenuAction(const String&, bool)
{
}
void TestController::setAllowedMenuActions(const Vector<String>&)
{
}
#endif
#if !PLATFORM(COCOA) && !PLATFORM(GTK) && !PLATFORM(WPE)
WKRetainPtr<WKStringRef> TestController::takeViewPortSnapshot()
{
return adoptWK(WKStringCreateWithUTF8CString("not implemented"));
}
#endif
void TestController::sendDisplayConfigurationChangedMessageForTesting()
{
WKSendDisplayConfigurationChangedMessageForTesting(platformContext());
}
void TestController::setServiceWorkerFetchTimeoutForTesting(double seconds)
{
WKWebsiteDataStoreSetServiceWorkerFetchTimeoutForTesting(websiteDataStore(), seconds);
}
struct PrivateClickMeasurementStringResultCallbackContext {
explicit PrivateClickMeasurementStringResultCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
WKRetainPtr<WKStringRef> privateClickMeasurementRepresentation;
};
static void privateClickMeasurementStringResultCallback(WKStringRef privateClickMeasurementRepresentation, void* userData)
{
auto* context = static_cast<PrivateClickMeasurementStringResultCallbackContext*>(userData);
context->privateClickMeasurementRepresentation = privateClickMeasurementRepresentation;
context->done = true;
context->testController.notifyDone();
}
String TestController::dumpPrivateClickMeasurement()
{
PrivateClickMeasurementStringResultCallbackContext callbackContext(*this);
WKPageDumpPrivateClickMeasurement(m_mainWebView->page(), privateClickMeasurementStringResultCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
return toWTFString(callbackContext.privateClickMeasurementRepresentation.get());
}
struct PrivateClickMeasurementVoidCallbackContext {
explicit PrivateClickMeasurementVoidCallbackContext(TestController& controller)
: testController(controller)
{
}
TestController& testController;
bool done { false };
};
static void privateClickMeasurementVoidCallback(void* userData)
{
auto* context = static_cast<PrivateClickMeasurementVoidCallbackContext*>(userData);
context->done = true;
context->testController.notifyDone();
}
void TestController::clearPrivateClickMeasurement()
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageClearPrivateClickMeasurement(m_mainWebView->page(), privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::clearPrivateClickMeasurementsThroughWebsiteDataRemoval()
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKWebsiteDataStoreClearPrivateClickMeasurementsThroughWebsiteDataRemoval(websiteDataStore(), &callbackContext, privateClickMeasurementVoidCallback);
runUntil(callbackContext.done, noTimeout);
}
void TestController::setPrivateClickMeasurementOverrideTimerForTesting(bool value)
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSetPrivateClickMeasurementOverrideTimerForTesting(m_mainWebView->page(), value, privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::markAttributedPrivateClickMeasurementsAsExpiredForTesting()
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageMarkAttributedPrivateClickMeasurementsAsExpiredForTesting(m_mainWebView->page(), privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::setPrivateClickMeasurementEphemeralMeasurementForTesting(bool value)
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSetPrivateClickMeasurementEphemeralMeasurementForTesting(m_mainWebView->page(), value, privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::simulatePrivateClickMeasurementSessionRestart()
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSimulatePrivateClickMeasurementSessionRestart(m_mainWebView->page(), privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::setPrivateClickMeasurementTokenPublicKeyURLForTesting(WKURLRef url)
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSetPrivateClickMeasurementTokenPublicKeyURLForTesting(m_mainWebView->page(), url, privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::setPrivateClickMeasurementTokenSignatureURLForTesting(WKURLRef url)
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSetPrivateClickMeasurementTokenSignatureURLForTesting(m_mainWebView->page(), url, privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::setPrivateClickMeasurementAttributionReportURLsForTesting(WKURLRef sourceURL, WKURLRef destinationURL)
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSetPrivateClickMeasurementAttributionReportURLsForTesting(m_mainWebView->page(), sourceURL, destinationURL, privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::markPrivateClickMeasurementsAsExpiredForTesting()
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageMarkPrivateClickMeasurementsAsExpiredForTesting(m_mainWebView->page(), privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::setPCMFraudPreventionValuesForTesting(WKStringRef unlinkableToken, WKStringRef secretToken, WKStringRef signature, WKStringRef keyID)
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSetPCMFraudPreventionValuesForTesting(m_mainWebView->page(), unlinkableToken, secretToken, signature, keyID, privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
void TestController::setPrivateClickMeasurementAppBundleIDForTesting(WKStringRef appBundleID)
{
PrivateClickMeasurementVoidCallbackContext callbackContext(*this);
WKPageSetPrivateClickMeasurementAppBundleIDForTesting(m_mainWebView->page(), appBundleID, privateClickMeasurementVoidCallback, &callbackContext);
runUntil(callbackContext.done, noTimeout);
}
WKURLRef TestController::currentTestURL() const
{
return m_currentInvocation ? m_currentInvocation->url() : nullptr;
}
void TestController::setShouldAllowDeviceOrientationAndMotionAccess(bool value)
{
m_shouldAllowDeviceOrientationAndMotionAccess = value;
WKWebsiteDataStoreClearAllDeviceOrientationPermissions(websiteDataStore());
}
} // namespace WTR