cef/tests/cefclient/cefclient_mac.mm

602 lines
21 KiB
Plaintext

// Copyright (c) 2013 The Chromium Embedded Framework Authors.
// Portions copyright (c) 2010 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#import <Cocoa/Cocoa.h>
#include "include/cef_app.h"
#import "include/cef_application_mac.h"
#include "include/cef_command_ids.h"
#import "include/wrapper/cef_library_loader.h"
#include "tests/cefclient/browser/main_context_impl.h"
#include "tests/cefclient/browser/resource.h"
#include "tests/cefclient/browser/root_window.h"
#include "tests/cefclient/browser/test_runner.h"
#include "tests/shared/browser/client_app_browser.h"
#include "tests/shared/browser/main_message_loop_external_pump.h"
#include "tests/shared/browser/main_message_loop_std.h"
#include "tests/shared/common/client_switches.h"
namespace {
// Returns the top menu bar with the specified |tag|.
NSMenuItem* GetMenuBarMenuWithTag(NSInteger tag) {
NSMenu* main_menu = [[NSApplication sharedApplication] mainMenu];
NSInteger found_index = [main_menu indexOfItemWithTag:tag];
if (found_index >= 0) {
return [main_menu itemAtIndex:found_index];
}
return nil;
}
// Returns the item in |menu| that has the specified |action_selector|.
NSMenuItem* GetMenuItemWithAction(NSMenu* menu, SEL action_selector) {
for (NSInteger i = 0; i < menu.numberOfItems; ++i) {
NSMenuItem* item = [menu itemAtIndex:i];
if (item.action == action_selector) {
return item;
}
}
return nil;
}
} // namespace
// Receives notifications from the application. Will delete itself when done.
@interface ClientAppDelegate : NSObject <NSApplicationDelegate> {
@private
bool with_controls_;
bool with_osr_;
}
- (id)initWithControls:(bool)with_controls andOsr:(bool)with_osr;
- (void)createApplication:(id)object;
- (void)tryToTerminateApplication:(NSApplication*)app;
- (void)testsItemSelected:(int)command_id;
- (IBAction)menuTestsGetText:(id)sender;
- (IBAction)menuTestsGetSource:(id)sender;
- (IBAction)menuTestsWindowNew:(id)sender;
- (IBAction)menuTestsWindowPopup:(id)sender;
- (IBAction)menuTestsRequest:(id)sender;
- (IBAction)menuTestsZoomIn:(id)sender;
- (IBAction)menuTestsZoomOut:(id)sender;
- (IBAction)menuTestsZoomReset:(id)sender;
- (IBAction)menuTestsSetFPS:(id)sender;
- (IBAction)menuTestsSetScaleFactor:(id)sender;
- (IBAction)menuTestsTracingBegin:(id)sender;
- (IBAction)menuTestsTracingEnd:(id)sender;
- (IBAction)menuTestsPrint:(id)sender;
- (IBAction)menuTestsPrintToPdf:(id)sender;
- (IBAction)menuTestsMuteAudio:(id)sender;
- (IBAction)menuTestsUnmuteAudio:(id)sender;
- (IBAction)menuTestsOtherTests:(id)sender;
- (void)enableAccessibility:(bool)bEnable;
@end
// Provide the CefAppProtocol implementation required by CEF.
@interface ClientApplication : NSApplication <CefAppProtocol> {
@private
BOOL handlingSendEvent_;
}
@end
@implementation ClientApplication
- (BOOL)isHandlingSendEvent {
return handlingSendEvent_;
}
- (void)setHandlingSendEvent:(BOOL)handlingSendEvent {
handlingSendEvent_ = handlingSendEvent;
}
- (void)sendEvent:(NSEvent*)event {
CefScopedSendingEvent sendingEventScoper;
[super sendEvent:event];
}
// |-terminate:| is the entry point for orderly "quit" operations in Cocoa. This
// includes the application menu's quit menu item and keyboard equivalent, the
// application's dock icon menu's quit menu item, "quit" (not "force quit") in
// the Activity Monitor, and quits triggered by user logout and system restart
// and shutdown.
//
// The default |-terminate:| implementation ends the process by calling exit(),
// and thus never leaves the main run loop. This is unsuitable for Chromium
// since Chromium depends on leaving the main run loop to perform an orderly
// shutdown. We support the normal |-terminate:| interface by overriding the
// default implementation. Our implementation, which is very specific to the
// needs of Chromium, works by asking the application delegate to terminate
// using its |-tryToTerminateApplication:| method.
//
// |-tryToTerminateApplication:| differs from the standard
// |-applicationShouldTerminate:| in that no special event loop is run in the
// case that immediate termination is not possible (e.g., if dialog boxes
// allowing the user to cancel have to be shown). Instead, this method tries to
// close all browsers by calling CloseBrowser(false) via
// ClientHandler::CloseAllBrowsers. Calling CloseBrowser will result in a call
// to ClientHandler::DoClose and execution of |-performClose:| on the NSWindow.
// DoClose sets a flag that is used to differentiate between new close events
// (e.g., user clicked the window close button) and in-progress close events
// (e.g., user approved the close window dialog). The NSWindowDelegate
// |-windowShouldClose:| method checks this flag and either calls
// CloseBrowser(false) in the case of a new close event or destructs the
// NSWindow in the case of an in-progress close event.
// ClientHandler::OnBeforeClose will be called after the CEF NSView hosted in
// the NSWindow is dealloc'ed.
//
// After the final browser window has closed ClientHandler::OnBeforeClose will
// begin actual tear-down of the application by calling CefQuitMessageLoop.
// This ends the NSApplication event loop and execution then returns to the
// main() function for cleanup before application termination.
//
// The standard |-applicationShouldTerminate:| is not supported, and code paths
// leading to it must be redirected.
- (void)terminate:(id)sender {
ClientAppDelegate* delegate = static_cast<ClientAppDelegate*>(
[[NSApplication sharedApplication] delegate]);
[delegate tryToTerminateApplication:self];
// Return, don't exit. The application is responsible for exiting on its own.
}
// Detect dynamically if VoiceOver is running. Like Chromium, rely upon the
// undocumented accessibility attribute @"AXEnhancedUserInterface" which is set
// when VoiceOver is launched and unset when VoiceOver is closed.
- (void)accessibilitySetValue:(id)value forAttribute:(NSString*)attribute {
if ([attribute isEqualToString:@"AXEnhancedUserInterface"]) {
ClientAppDelegate* delegate = static_cast<ClientAppDelegate*>(
[[NSApplication sharedApplication] delegate]);
[delegate enableAccessibility:([value intValue] == 1)];
}
return [super accessibilitySetValue:value forAttribute:attribute];
}
@end
@implementation ClientAppDelegate
- (id)initWithControls:(bool)with_controls andOsr:(bool)with_osr {
if (self = [super init]) {
with_controls_ = with_controls;
with_osr_ = with_osr;
}
return self;
}
// Create the application on the UI thread.
- (void)createApplication:(id)object {
NSApplication* application = [NSApplication sharedApplication];
// The top menu is configured using Interface Builder (IB). To modify the menu
// start by loading MainMenu.xib in IB.
//
// To associate MainMenu.xib with ClientAppDelegate:
// 1. Select "File's Owner" from the "Placeholders" section in the left side
// pane.
// 2. Load the "Identity inspector" tab in the top-right side pane.
// 3. In the "Custom Class" section set the "Class" value to
// "ClientAppDelegate".
// 4. Pass an instance of ClientAppDelegate as the |owner| parameter to
// loadNibNamed:.
//
// To create a new top menu:
// 1. Load the "Object library" tab in the bottom-right side pane.
// 2. Drag a "Submenu Menu Item" widget from the Object library to the desired
// location in the menu bar shown in the center pane.
// 3. Select the newly created top menu by left clicking on it.
// 4. Load the "Attributes inspector" tab in the top-right side pane.
// 5. Under the "Menu Item" section set the "Tag" value to a unique integer.
// This is necessary for the GetMenuBarMenuWithTag function to work
// properly.
//
// To create a new menu item in a top menu:
// 1. Add a new receiver method in ClientAppDelegate (e.g. menuTestsDoStuff:).
// 2. Load the "Object library" tab in the bottom-right side pane.
// 3. Drag a "Menu Item" widget from the Object library to the desired
// location in the menu bar shown in the center pane.
// 4. Double-click on the new menu item to set the label.
// 5. Right click on the new menu item to show the "Get Source" dialog.
// 6. In the "Sent Actions" section drag from the circle icon and drop on the
// new receiver method in the ClientAppDelegate source code file.
//
// Load the top menu from MainMenu.xib.
[[NSBundle mainBundle] loadNibNamed:@"MainMenu"
owner:self
topLevelObjects:nil];
// Set the delegate for application events.
[application setDelegate:self];
if (!with_osr_) {
// Remove the OSR-related menu items when OSR is disabled.
NSMenuItem* tests_menu = GetMenuBarMenuWithTag(8);
if (tests_menu) {
NSMenuItem* set_fps_item = GetMenuItemWithAction(
tests_menu.submenu, @selector(menuTestsSetFPS:));
if (set_fps_item) {
[tests_menu.submenu removeItem:set_fps_item];
}
NSMenuItem* set_scale_factor_item = GetMenuItemWithAction(
tests_menu.submenu, @selector(menuTestsSetScaleFactor:));
if (set_scale_factor_item) {
[tests_menu.submenu removeItem:set_scale_factor_item];
}
}
}
auto window_config = std::make_unique<client::RootWindowConfig>();
window_config->with_controls = with_controls_;
window_config->with_osr = with_osr_;
// Create the first window.
client::MainContext::Get()->GetRootWindowManager()->CreateRootWindow(
std::move(window_config));
}
- (void)tryToTerminateApplication:(NSApplication*)app {
client::MainContext::Get()->GetRootWindowManager()->CloseAllWindows(false);
}
- (void)orderFrontStandardAboutPanel:(id)sender {
[[NSApplication sharedApplication] orderFrontStandardAboutPanel:nil];
}
- (void)testsItemSelected:(int)command_id {
if (auto browser = [self getActiveBrowser]) {
client::test_runner::RunTest(browser, command_id);
}
}
- (IBAction)menuTestsGetText:(id)sender {
[self testsItemSelected:ID_TESTS_GETTEXT];
}
- (IBAction)menuTestsGetSource:(id)sender {
[self testsItemSelected:ID_TESTS_GETSOURCE];
}
- (IBAction)menuTestsWindowNew:(id)sender {
[self testsItemSelected:ID_TESTS_WINDOW_NEW];
}
- (IBAction)menuTestsWindowPopup:(id)sender {
[self testsItemSelected:ID_TESTS_WINDOW_POPUP];
}
- (IBAction)menuTestsRequest:(id)sender {
[self testsItemSelected:ID_TESTS_REQUEST];
}
- (IBAction)menuTestsZoomIn:(id)sender {
[self testsItemSelected:ID_TESTS_ZOOM_IN];
}
- (IBAction)menuTestsZoomOut:(id)sender {
[self testsItemSelected:ID_TESTS_ZOOM_OUT];
}
- (IBAction)menuTestsZoomReset:(id)sender {
[self testsItemSelected:ID_TESTS_ZOOM_RESET];
}
- (IBAction)menuTestsSetFPS:(id)sender {
[self testsItemSelected:ID_TESTS_OSR_FPS];
}
- (IBAction)menuTestsSetScaleFactor:(id)sender {
[self testsItemSelected:ID_TESTS_OSR_DSF];
}
- (IBAction)menuTestsTracingBegin:(id)sender {
[self testsItemSelected:ID_TESTS_TRACING_BEGIN];
}
- (IBAction)menuTestsTracingEnd:(id)sender {
[self testsItemSelected:ID_TESTS_TRACING_END];
}
- (IBAction)menuTestsPrint:(id)sender {
[self testsItemSelected:ID_TESTS_PRINT];
}
- (IBAction)menuTestsPrintToPdf:(id)sender {
[self testsItemSelected:ID_TESTS_PRINT_TO_PDF];
}
- (IBAction)menuTestsMuteAudio:(id)sender {
[self testsItemSelected:ID_TESTS_MUTE_AUDIO];
}
- (IBAction)menuTestsUnmuteAudio:(id)sender {
[self testsItemSelected:ID_TESTS_UNMUTE_AUDIO];
}
- (IBAction)menuTestsOtherTests:(id)sender {
[self testsItemSelected:ID_TESTS_OTHER_TESTS];
}
- (CefRefPtr<CefBrowser>)getActiveBrowser {
auto root_window =
client::MainContext::Get()->GetRootWindowManager()->GetActiveRootWindow();
if (root_window) {
return root_window->GetBrowser();
}
return nullptr;
}
- (NSWindow*)getActiveBrowserNSWindow {
if (auto browser = [self getActiveBrowser]) {
if (auto view = CAST_CEF_WINDOW_HANDLE_TO_NSVIEW(
browser->GetHost()->GetWindowHandle())) {
return [view window];
}
}
return nil;
}
- (void)enableAccessibility:(bool)bEnable {
if (auto browser = [self getActiveBrowser]) {
browser->GetHost()->SetAccessibilityState(bEnable ? STATE_ENABLED
: STATE_DISABLED);
}
}
- (NSApplicationTerminateReply)applicationShouldTerminate:
(NSApplication*)sender {
return NSTerminateNow;
}
// Returns true if there is a modal window (either window- or application-
// modal) blocking the active browser. Note that tab modal dialogs (HTTP auth
// sheets) will not count as blocking the browser. But things like open/save
// dialogs that are window modal will block the browser.
- (BOOL)keyWindowIsModal {
if ([NSApp modalWindow]) {
return YES;
}
if (auto window = [self getActiveBrowserNSWindow]) {
return [[window attachedSheet] isKindOfClass:[NSWindow class]];
}
return NO;
}
// AppKit will call -[NSUserInterfaceValidations validateUserInterfaceItem:] to
// validate UI items. Any item whose target is FirstResponder, or nil, will
// traverse the responder chain looking for a responder that implements the
// item's selector. The top menu (configured in MainMenu.xib) can contain menu
// items with selectors that are implemented by Chromium's
// RenderWidgetHostViewCocoa or NativeWidgetMacNSWindow classes. These classes
// live in the Cocoa view hierarchy and will be triggered only if the browser
// window is focused. When the browser window is not focused these selectors
// will be forwarded (by Chromium's CommandDispatcher class) to `[NSApp
// delegate]` (this class). The particular selectors of interest here are
// |-commandDispatch:| and |-commandDispatchUsingKeyModifiers:| which will have
// a tag value from include/cef_command_ids.h. For example, 37000 is IDC_FIND
// and can be triggered via the "Find..." menu item or the Cmd+g keyboard
// shortcut:
//
// <menuItem title="Find..." tag="37000" keyEquivalent="g" id="209">
// <connections>
// <action selector="commandDispatch:" target="-1" id="241"/>
// </connections>
// </menuItem>
//
// If |-validateUserInterfaceItem:| returns YES then the menu item will be
// enabled and execution will trigger the associated selector.
//
// This implementation is based on Chromium's AppController class.
- (BOOL)validateUserInterfaceItem:(id<NSValidatedUserInterfaceItem>)item {
SEL action = [item action];
BOOL enable = NO;
// Whether opening a new browser window is allowed.
BOOL canOpenNewBrowser = YES;
// Commands from the menu bar are only handled by commandDispatch: if there is
// no key window.
if (action == @selector(commandDispatch:) ||
action == @selector(commandDispatchUsingKeyModifiers:)) {
switch ([item tag]) {
// Browser-level items that open in new tabs or perform an action in a
// current tab should not open if there's a window- or app-modal dialog.
case IDC_OPEN_FILE:
case IDC_NEW_TAB:
case IDC_FOCUS_LOCATION:
case IDC_FOCUS_SEARCH:
case IDC_SHOW_HISTORY:
case IDC_SHOW_BOOKMARK_MANAGER:
case IDC_CLEAR_BROWSING_DATA:
case IDC_SHOW_DOWNLOADS:
case IDC_IMPORT_SETTINGS:
case IDC_MANAGE_EXTENSIONS:
case IDC_HELP_PAGE_VIA_MENU:
case IDC_OPTIONS:
enable = canOpenNewBrowser && ![self keyWindowIsModal];
break;
// Browser-level items that open in new windows: allow the user to open
// a new window even if there's a window-modal dialog.
case IDC_NEW_WINDOW:
enable = canOpenNewBrowser;
break;
case IDC_TASK_MANAGER:
enable = YES;
break;
case IDC_NEW_INCOGNITO_WINDOW:
enable = canOpenNewBrowser;
break;
default:
enable = ![self keyWindowIsModal];
break;
}
} else if ([self respondsToSelector:action]) {
// All other selectors that this class implements.
enable = YES;
}
return enable;
}
// This will get called in the case where the frontmost window is not a browser
// window, and the user has command-clicked a button in a background browser
// window whose action is |-commandDispatch:|
- (void)commandDispatch:(id)sender {
// Handle the case where we're dispatching a command from a sender that's in a
// browser window. This means that the command came from a background window
// and is getting here because the foreground window is not a browser window.
DCHECK(sender);
if ([sender respondsToSelector:@selector(window)]) {
id delegate = [[sender window] windowController];
if ([delegate respondsToSelector:@selector(commandDispatch:)]) {
[delegate commandDispatch:sender];
return;
}
}
// Handle specific commands where we want to make the last active browser
// frontmost and then re-execute the command.
switch ([sender tag]) {
case IDC_FIND:
case IDC_FIND_NEXT:
case IDC_FIND_PREVIOUS:
if (id window = [self getActiveBrowserNSWindow]) {
[window makeKeyAndOrderFront:nil];
if ([window respondsToSelector:@selector(commandDispatch:)]) {
[window commandDispatch:sender];
return;
}
}
break;
default:
break;
}
LOG(INFO) << "Unhandled commandDispatch: for tag " << [sender tag];
}
// Same as |-commandDispatch:|, but executes commands using a disposition
// determined by the key flags. This will get called in the case where the
// frontmost window is not a browser window, and the user has command-clicked
// a button in a background browser window whose action is
// |-commandDispatchUsingKeyModifiers:|
- (void)commandDispatchUsingKeyModifiers:(id)sender {
// Handle the case where we're dispatching a command from a sender that's in a
// browser window. This means that the command came from a background window
// and is getting here because the foreground window is not a browser window.
DCHECK(sender);
if ([sender respondsToSelector:@selector(window)]) {
id delegate = [[sender window] windowController];
if ([delegate
respondsToSelector:@selector(commandDispatchUsingKeyModifiers:)]) {
[delegate commandDispatchUsingKeyModifiers:sender];
return;
}
}
LOG(INFO) << "Unhandled commandDispatchUsingKeyModifiers: for tag "
<< [sender tag];
}
@end
namespace client {
namespace {
int RunMain(int argc, char* argv[]) {
// Load the CEF framework library at runtime instead of linking directly
// as required by the macOS sandbox implementation.
CefScopedLibraryLoader library_loader;
if (!library_loader.LoadInMain()) {
return 1;
}
int result = -1;
CefMainArgs main_args(argc, argv);
@autoreleasepool {
// Initialize the ClientApplication instance.
[ClientApplication sharedApplication];
// If there was an invocation to NSApp prior to this method, then the NSApp
// will not be a ClientApplication, but will instead be an NSApplication.
// This is undesirable and we must enforce that this doesn't happen.
CHECK([NSApp isKindOfClass:[ClientApplication class]]);
// Parse command-line arguments.
CefRefPtr<CefCommandLine> command_line =
CefCommandLine::CreateCommandLine();
command_line->InitFromArgv(argc, argv);
// Create a ClientApp of the correct type.
CefRefPtr<CefApp> app;
ClientApp::ProcessType process_type =
ClientApp::GetProcessType(command_line);
if (process_type == ClientApp::BrowserProcess) {
app = new ClientAppBrowser();
}
// Create the main context object.
std::unique_ptr<MainContextImpl> context(
new MainContextImpl(command_line, true));
CefSettings settings;
// When generating projects with CMake the CEF_USE_SANDBOX value will be defined
// automatically. Pass -DUSE_SANDBOX=OFF to the CMake command-line to disable
// use of the sandbox.
#if !defined(CEF_USE_SANDBOX)
settings.no_sandbox = true;
#endif
// Populate the settings based on command line arguments.
context->PopulateSettings(&settings);
// Create the main message loop object.
std::unique_ptr<MainMessageLoop> message_loop;
if (settings.external_message_pump) {
message_loop = MainMessageLoopExternalPump::Create();
} else {
message_loop.reset(new MainMessageLoopStd);
}
// Initialize CEF.
context->Initialize(main_args, settings, app, nullptr);
// Register scheme handlers.
test_runner::RegisterSchemeHandlers();
// Create the application delegate and window.
ClientAppDelegate* delegate = [[ClientAppDelegate alloc]
initWithControls:!command_line->HasSwitch(switches::kHideControls)
andOsr:settings.windowless_rendering_enabled ? true : false];
[delegate performSelectorOnMainThread:@selector(createApplication:)
withObject:nil
waitUntilDone:NO];
// Run the message loop. This will block until Quit() is called.
result = message_loop->Run();
// Shut down CEF.
context->Shutdown();
// Release objects in reverse order of creation.
#if !__has_feature(objc_arc)
[delegate release];
#endif // !__has_feature(objc_arc)
delegate = nil;
message_loop.reset();
context.reset();
} // @autoreleasepool
return result;
}
} // namespace
} // namespace client
// Entry point function for the browser process.
int main(int argc, char* argv[]) {
return client::RunMain(argc, argv);
}