// Copyright (c) 2009 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 "chrome/browser/app_controller_mac.h" #include "base/command_line.h" #include "base/message_loop.h" #include "base/sys_string_conversions.h" #include "chrome/app/chrome_dll_resource.h" #include "chrome/browser/browser.h" #include "chrome/browser/browser_init.h" #include "chrome/browser/browser_list.h" #include "chrome/browser/browser_shutdown.h" #import "chrome/browser/cocoa/about_window_controller.h" #import "chrome/browser/cocoa/bookmark_menu_bridge.h" #import "chrome/browser/cocoa/clear_browsing_data_controller.h" #import "chrome/browser/cocoa/encoding_menu_controller_delegate_mac.h" #import "chrome/browser/cocoa/menu_localizer.h" #import "chrome/browser/cocoa/preferences_window_controller.h" #import "chrome/browser/cocoa/tab_strip_controller.h" #import "chrome/browser/cocoa/tab_window_controller.h" #include "chrome/browser/command_updater.h" #include "chrome/common/pref_names.h" #include "chrome/common/pref_service.h" #include "chrome/browser/profile_manager.h" #include "chrome/common/temp_scaffolding_stubs.h" @interface AppController(PRIVATE) - (void)initMenuState; - (void)openURLs:(const std::vector&)urls; - (void)openPendingURLs; - (void)getUrl:(NSAppleEventDescriptor*)event withReply:(NSAppleEventDescriptor*)reply; - (void)openFiles:(NSAppleEventDescriptor*)event withReply:(NSAppleEventDescriptor*)reply; - (void)windowLayeringDidChange:(NSNotification*)inNotification; @end @implementation AppController // This method is called very early in application startup (ie, before // the profile is loaded or any preferences have been registered). Defer any // user-data initialization until -applicationDidFinishLaunching:. - (void)awakeFromNib { pendingURLs_.reset(new std::vector()); // We need to register the handlers early to catch events fired on launch. NSAppleEventManager* em = [NSAppleEventManager sharedAppleEventManager]; [em setEventHandler:self andSelector:@selector(getUrl:withReply:) forEventClass:kInternetEventClass andEventID:kAEGetURL]; [em setEventHandler:self andSelector:@selector(getUrl:withReply:) forEventClass:'WWW!' // A particularly ancient AppleEvent that dates andEventID:'OURL']; // back to the Spyglass days. [em setEventHandler:self andSelector:@selector(openFiles:withReply:) forEventClass:kCoreEventClass andEventID:kAEOpenDocuments]; // Register for various window layering changes. We use these to update // various UI elements (command-key equivalents, etc) when the frontmost // window changes. NSNotificationCenter* notificationCenter = [NSNotificationCenter defaultCenter]; [notificationCenter addObserver:self selector:@selector(windowLayeringDidChange:) name:NSWindowDidBecomeKeyNotification object:nil]; [notificationCenter addObserver:self selector:@selector(windowLayeringDidChange:) name:NSWindowDidResignKeyNotification object:nil]; [notificationCenter addObserver:self selector:@selector(windowLayeringDidChange:) name:NSWindowDidBecomeMainNotification object:nil]; [notificationCenter addObserver:self selector:@selector(windowLayeringDidChange:) name:NSWindowDidResignMainNotification object:nil]; // Register for a notification that the number of tabs changes in windows // so we can adjust the close tab/window command keys. [notificationCenter addObserver:self selector:@selector(tabsChanged:) name:kTabStripNumberOfTabsChanged object:nil]; // Set up the command updater for when there are no windows open [self initMenuState]; } // Called when the app is shutting down. Clean-up as appropriate. - (void)applicationWillTerminate:(NSNotification *)aNotification { [[NSNotificationCenter defaultCenter] removeObserver:self]; } // Helper routine to get the window controller if the key window is a tabbed // window, or nil if not. Examples of non-tabbed windows are "about" or // "preferences". - (TabWindowController*)keyWindowTabController { NSWindowController* keyWindowController = [[[NSApplication sharedApplication] keyWindow] windowController]; if ([keyWindowController isKindOfClass:[TabWindowController class]]) return (TabWindowController*)keyWindowController; return nil; } // If the window has tabs, make "close window" be cmd-shift-w, otherwise leave // it as the normal cmd-w. Capitalization of the key equivalent affects whether // the shift modifer is used. - (void)adjustCloseWindowMenuItemKeyEquivalent:(BOOL)inHaveTabs { [closeWindowMenuItem_ setKeyEquivalent:(inHaveTabs ? @"W" : @"w")]; } // If the window has tabs, make "close tab" take over cmd-w, otherwise it // shouldn't have any key-equivalent because it should be disabled. - (void)adjustCloseTabMenuItemKeyEquivalent:(BOOL)hasTabs { if (hasTabs) { [closeTabMenuItem_ setKeyEquivalent:@"w"]; [closeTabMenuItem_ setKeyEquivalentModifierMask:NSCommandKeyMask]; } else { [closeTabMenuItem_ setKeyEquivalent:@""]; [closeTabMenuItem_ setKeyEquivalentModifierMask:0]; } } // See if we have a window with tabs open, and adjust the key equivalents for // Close Tab/Close Window accordingly - (void)fixCloseMenuItemKeyEquivalents { TabWindowController* tabController = [self keyWindowTabController]; BOOL windowWithMultipleTabs = (tabController && [tabController numberOfTabs] > 1); [self adjustCloseWindowMenuItemKeyEquivalent:windowWithMultipleTabs]; [self adjustCloseTabMenuItemKeyEquivalent:windowWithMultipleTabs]; fileMenuUpdatePending_ = NO; } // Fix up the "close tab/close window" command-key equivalents. We do this // after a delay to ensure that window layer state has been set by the time // we do the enabling. - (void)delayedFixCloseMenuItemKeyEquivalents { if (!fileMenuUpdatePending_) { [self performSelector:@selector(fixCloseMenuItemKeyEquivalents) withObject:nil afterDelay:0]; fileMenuUpdatePending_ = YES; } } // Called when we get a notification about the window layering changing to // update the UI based on the new main window. - (void)windowLayeringDidChange:(NSNotification*)notify { [self delayedFixCloseMenuItemKeyEquivalents]; // TODO(pinkerton): If we have other things here, such as inspector panels // that follow the contents of the selected webpage, we would update those // here. } // Called when the number of tabs changes in one of the browser windows. The // object is the tab strip controller, but we don't currently care. - (void)tabsChanged:(NSNotification*)notify { [self delayedFixCloseMenuItemKeyEquivalents]; } // If the auto-update interval is not set, make it 5 hours. // This code is specific to Mac Chrome Dev Channel. // Placed here for 2 reasons: // 1) Same spot as other Pref stuff // 2) Try and be friendly by keeping this after app launch // TODO(jrg): remove once we go Beta. - (void)setUpdateCheckInterval { #if defined(GOOGLE_CHROME_BUILD) CFStringRef app = (CFStringRef)@"com.google.Keystone.Agent"; CFStringRef checkInterval = (CFStringRef)@"checkInterval"; CFPropertyListRef plist = CFPreferencesCopyAppValue(checkInterval, app); if (!plist) { const float fiveHoursInSeconds = 5.0 * 60.0 * 60.0; NSNumber *value = [NSNumber numberWithFloat:fiveHoursInSeconds]; CFPreferencesSetAppValue(checkInterval, value, app); CFPreferencesAppSynchronize(app); } #endif } // This is called after profiles have been loaded and preferences registered. // It is safe to access the default profile here. - (void)applicationDidFinishLaunching:(NSNotification*)notify { // Hold an extra ref to the BrowserProcess singleton so it doesn't go away // when all the browser windows get closed. We'll release it on quit which // will be the signal to exit. DCHECK(g_browser_process); g_browser_process->AddRefModule(); // Create the localizer for the main menu. We can't do this in the nib // because it's too early. Do it before we create any bookmark menus as well, // just in case one has a title that matches any of our strings (unlikely, // but technically possible). scoped_nsobject localizer( [[MenuLocalizer alloc] initWithBundle:nil]); [localizer localizeObject:[NSApplication sharedApplication] recursively:YES]; bookmarkMenuBridge_.reset(new BookmarkMenuBridge()); // Register any Mac-specific preferences. PrefService* prefs = [self defaultProfile]->GetPrefs(); prefs->RegisterBooleanPref(prefs::kShowPageOptionsButtons, false); [self setUpdateCheckInterval]; // Build up the encoding menu, the order of the items differs based on the // current locale (see http://crbug.com/7647 for details). // We need a valid g_browser_process to get the profile which is why we can't // call this from awakeFromNib. EncodingMenuControllerDelegate::BuildEncodingMenu([self defaultProfile]); // Now that we're initialized we can open any URLs we've been holding onto. [self openPendingURLs]; } // We can't use the standard terminate: method because it will abruptly exit // the app and leave things on the stack in an unfinalized state. We need to // post a quit message to our run loop so the stack can gracefully unwind. - (IBAction)quit:(id)sender { // TODO(pinkerton): // since we have to roll it ourselves, ask the delegate (ourselves, really) // if we should terminate. For example, we might not want to if the user // has ongoing downloads or multiple windows/tabs open. However, this would // require posting UI and may require spinning up another run loop to // handle it. If it says to continue, post the quit message, otherwise // go back to normal. NSAppleEventManager* em = [NSAppleEventManager sharedAppleEventManager]; [em removeEventHandlerForEventClass:kInternetEventClass andEventID:kAEGetURL]; [em removeEventHandlerForEventClass:'WWW!' andEventID:'OURL']; [em removeEventHandlerForEventClass:kCoreEventClass andEventID:kAEOpenDocuments]; // TODO(pinkerton): Not sure where this should live, including it here // causes all sorts of asserts from the open renderers. On Windows, it // lives in Browser::OnWindowClosing, but that's not appropriate on Mac // since we don't shut down when we reach zero windows. // browser_shutdown::OnShutdownStarting(browser_shutdown::WINDOW_CLOSE); // Close all the windows. BrowserList::CloseAllBrowsers(true); // Release the reference to the browser process. Once all the browsers get // dealloc'd, it will stop the RunLoop and fall back into main(). g_browser_process->ReleaseModule(); } // Called to validate menu items when there are no key windows. All the // items we care about have been set with the |commandDispatch:| action and // a target of FirstResponder in IB. If it's not one of those, let it // continue up the responder chain to be handled elsewhere. We pull out the // tag as the cross-platform constant to differentiate and dispatch the // various commands. - (BOOL)validateUserInterfaceItem:(id)item { SEL action = [item action]; BOOL enable = NO; if (action == @selector(commandDispatch:)) { NSInteger tag = [item tag]; if (menuState_->SupportsCommand(tag)) enable = menuState_->IsCommandEnabled(tag) ? YES : NO; } else if (action == @selector(quit:)) { enable = YES; } else if (action == @selector(showPreferences:)) { enable = YES; } else if (action == @selector(orderFrontStandardAboutPanel:)) { enable = YES; } return enable; } // Called when the user picks a menu item when there are no key windows. Calls // through to the browser object to execute the command. This assumes that the // command is supported and doesn't check, otherwise it would have been disabled // in the UI in validateUserInterfaceItem:. - (void)commandDispatch:(id)sender { Profile* defaultProfile = [self defaultProfile]; NSInteger tag = [sender tag]; switch (tag) { case IDC_NEW_WINDOW: Browser::OpenEmptyWindow(defaultProfile); break; case IDC_NEW_INCOGNITO_WINDOW: Browser::OpenURLOffTheRecord(defaultProfile, GURL()); break; case IDC_OPEN_FILE: Browser::OpenEmptyWindow(defaultProfile); BrowserList::GetLastActive()-> ExecuteCommandWithDisposition(IDC_OPEN_FILE, CURRENT_TAB); break; case IDC_CLEAR_BROWSING_DATA: // There may not be a browser open, so use the default profile. scoped_nsobject controller( [[ClearBrowsingDataController alloc] initWithProfile:defaultProfile]); [controller runModalDialog]; break; }; } // NSApplication delegate method called when someone clicks on the // dock icon and there are no open windows. To match standard mac // behavior, we should open a new window. - (BOOL)applicationShouldHandleReopen:(NSApplication*)theApplication hasVisibleWindows:(BOOL)flag { // Don't do anything if there are visible windows. This will cause // AppKit to unminimize the most recently minimized window. if (flag) return YES; // Otherwise open a new window. Browser::OpenEmptyWindow([self defaultProfile]); // We've handled the reopen event, so return NO to tell AppKit not // to do anything. return NO; } - (void)initMenuState { menuState_.reset(new CommandUpdater(NULL)); menuState_->UpdateCommandEnabled(IDC_NEW_WINDOW, true); menuState_->UpdateCommandEnabled(IDC_NEW_INCOGNITO_WINDOW, true); menuState_->UpdateCommandEnabled(IDC_OPEN_FILE, true); menuState_->UpdateCommandEnabled(IDC_CLEAR_BROWSING_DATA, true); // TODO(pinkerton): ...more to come... } - (Profile*)defaultProfile { // TODO(jrg): Find a better way to get the "default" profile. if (g_browser_process->profile_manager()) return* g_browser_process->profile_manager()->begin(); return NULL; } // Various methods to open URLs that we get in a native fashion. We use // BrowserInit here because on the other platforms, URLs to open come through // the ProcessSingleton, and it calls BrowserInit. It's best to bottleneck the // openings through that for uniform handling. - (void)openURLs:(const std::vector&)urls { if (pendingURLs_.get()) { // too early to open; save for later pendingURLs_->insert(pendingURLs_->end(), urls.begin(), urls.end()); return; } Browser* browser = BrowserList::GetLastActive(); // if no browser window exists then create one with no tabs to be filled in if (!browser) { browser = Browser::Create([self defaultProfile]); browser->window()->Show(); } CommandLine dummy((std::wstring())); BrowserInit::LaunchWithProfile launch(std::wstring(), dummy); launch.OpenURLsInBrowser(browser, false, urls); } - (void)openPendingURLs { // Since the existence of pendingURLs_ is a flag that it's too early to // open URLs, we need to reset pendingURLs_. std::vector urls; swap(urls, *pendingURLs_); pendingURLs_.reset(); if (urls.size()) [self openURLs:urls]; } - (void)getUrl:(NSAppleEventDescriptor*)event withReply:(NSAppleEventDescriptor*)reply { NSString* urlStr = [[event paramDescriptorForKeyword:keyDirectObject] stringValue]; GURL gurl(base::SysNSStringToUTF8(urlStr)); std::vector gurlVector; gurlVector.push_back(gurl); [self openURLs:gurlVector]; } - (void)openFiles:(NSAppleEventDescriptor*)event withReply:(NSAppleEventDescriptor*)reply { // Ordinarily we'd use the NSApplication delegate method // -application:openFiles:, but Cocoa tries to be smart and it sends files // specified on the command line into that delegate method. That's too smart // for us (our setup isn't done by the time Cocoa triggers the delegate method // and we crash). Since all we want are files dropped on the app icon, and we // have cross-platform code to handle the command-line files anyway, an Apple // Event handler fits the bill just right. NSAppleEventDescriptor* fileList = [event paramDescriptorForKeyword:keyDirectObject]; if (!fileList) return; std::vector gurlVector; for (NSInteger i = 1; i <= [fileList numberOfItems]; ++i) { NSAppleEventDescriptor* fileAliasDesc = [fileList descriptorAtIndex:i]; if (!fileAliasDesc) continue; NSAppleEventDescriptor* fileURLDesc = [fileAliasDesc coerceToDescriptorType:typeFileURL]; if (!fileURLDesc) continue; NSData* fileURLData = [fileURLDesc data]; if (!fileURLData) continue; GURL gurl(std::string((char*)[fileURLData bytes], [fileURLData length])); gurlVector.push_back(gurl); } [self openURLs:gurlVector]; } // Called when the preferences window is closed. We use this to release the // window controller. - (void)prefsWindowClosed:(NSNotification*)notify { [[NSNotificationCenter defaultCenter] removeObserver:self name:kUserDoneEditingPrefsNotification object:prefsController_.get()]; prefsController_.reset(NULL); } // Show the preferences window, or bring it to the front if it's already // visible. - (IBAction)showPreferences:(id)sender { if (!prefsController_.get()) { prefsController_.reset([[PreferencesWindowController alloc] initWithProfile:[self defaultProfile]]); // Watch for a notification of when it goes away so that we can destroy // the controller. [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(prefsWindowClosed:) name:kUserDoneEditingPrefsNotification object:prefsController_.get()]; } [prefsController_ showPreferences:sender]; } // Called when the about window is closed. We use this to release the // window controller. - (void)aboutWindowClosed:(NSNotification*)notify { [[NSNotificationCenter defaultCenter] removeObserver:self name:kUserClosedAboutNotification object:aboutController_.get()]; aboutController_.reset(NULL); } - (IBAction)orderFrontStandardAboutPanel:(id)sender { #if !defined(GOOGLE_CHROME_BUILD) // If not branded behave like a generic Cocoa app. [NSApp orderFrontStandardAboutPanel:sender]; #else // Otherwise bring up our special dialog (e.g. with an auto-update button). if (!aboutController_) { aboutController_.reset([[AboutWindowController alloc] initWithWindowNibName:@"About"]); if (!aboutController_) { // If we get here something is wacky. I managed to do it when // testing by explicitly forcing an auto-update to an older // version then trying to open the about box again (missing // nib). This shouldn't be possible in general but let's try // hard to not do nothing. [NSApp orderFrontStandardAboutPanel:sender]; return; } // Watch for a notification of when it goes away so that we can destroy // the controller. [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(aboutWindowClosed:) name:kUserClosedAboutNotification object:aboutController_.get()]; } if (![[aboutController_ window] isVisible]) [[aboutController_ window] center]; [aboutController_ showWindow:self]; #endif } @end