// Copyright (c) 2012 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. #include "base/mac/mac_util.h" #import <Cocoa/Cocoa.h> #import <IOKit/IOKitLib.h> #include <errno.h> #include <string.h> #include <sys/utsname.h> #include <sys/xattr.h> #include "base/files/file_path.h" #include "base/logging.h" #include "base/mac/bundle_locations.h" #include "base/mac/foundation_util.h" #include "base/mac/mac_logging.h" #include "base/mac/scoped_cftyperef.h" #include "base/mac/scoped_ioobject.h" #include "base/mac/scoped_nsobject.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_piece.h" #include "base/strings/sys_string_conversions.h" namespace base { namespace mac { // Replicate specific 10.7 SDK declarations for building with prior SDKs. #if !defined(MAC_OS_X_VERSION_10_7) || \ MAC_OS_X_VERSION_MAX_ALLOWED < MAC_OS_X_VERSION_10_7 enum { NSApplicationPresentationFullScreen = 1 << 10 }; #endif // MAC_OS_X_VERSION_10_7 namespace { // The current count of outstanding requests for full screen mode from browser // windows, plugins, etc. int g_full_screen_requests[kNumFullScreenModes] = { 0 }; // Sets the appropriate application presentation option based on the current // full screen requests. Since only one presentation option can be active at a // given time, full screen requests are ordered by priority. If there are no // outstanding full screen requests, reverts to normal mode. If the correct // presentation option is already set, does nothing. void SetUIMode() { NSApplicationPresentationOptions current_options = [NSApp presentationOptions]; // Determine which mode should be active, based on which requests are // currently outstanding. More permissive requests take precedence. For // example, plugins request |kFullScreenModeAutoHideAll|, while browser // windows request |kFullScreenModeHideDock| when the fullscreen overlay is // down. Precedence goes to plugins in this case, so AutoHideAll wins over // HideDock. NSApplicationPresentationOptions desired_options = NSApplicationPresentationDefault; if (g_full_screen_requests[kFullScreenModeAutoHideAll] > 0) { desired_options = NSApplicationPresentationHideDock | NSApplicationPresentationAutoHideMenuBar; } else if (g_full_screen_requests[kFullScreenModeHideDock] > 0) { desired_options = NSApplicationPresentationHideDock; } else if (g_full_screen_requests[kFullScreenModeHideAll] > 0) { desired_options = NSApplicationPresentationHideDock | NSApplicationPresentationHideMenuBar; } // Mac OS X bug: if the window is fullscreened (Lion-style) and // NSApplicationPresentationDefault is requested, the result is that the menu // bar doesn't auto-hide. rdar://13576498 http://www.openradar.me/13576498 // // As a workaround, in that case, explicitly set the presentation options to // the ones that are set by the system as it fullscreens a window. if (desired_options == NSApplicationPresentationDefault && current_options & NSApplicationPresentationFullScreen) { desired_options |= NSApplicationPresentationFullScreen | NSApplicationPresentationAutoHideMenuBar | NSApplicationPresentationAutoHideDock; } if (current_options != desired_options) [NSApp setPresentationOptions:desired_options]; } // Looks into Shared File Lists corresponding to Login Items for the item // representing the current application. If such an item is found, returns a // retained reference to it. Caller is responsible for releasing the reference. LSSharedFileListItemRef GetLoginItemForApp() { ScopedCFTypeRef<LSSharedFileListRef> login_items(LSSharedFileListCreate( NULL, kLSSharedFileListSessionLoginItems, NULL)); if (!login_items.get()) { DLOG(ERROR) << "Couldn't get a Login Items list."; return NULL; } base::scoped_nsobject<NSArray> login_items_array( CFToNSCast(LSSharedFileListCopySnapshot(login_items, NULL))); NSURL* url = [NSURL fileURLWithPath:[base::mac::MainBundle() bundlePath]]; for(NSUInteger i = 0; i < [login_items_array count]; ++i) { LSSharedFileListItemRef item = reinterpret_cast<LSSharedFileListItemRef>( [login_items_array objectAtIndex:i]); CFURLRef item_url_ref = NULL; if (LSSharedFileListItemResolve(item, 0, &item_url_ref, NULL) == noErr) { ScopedCFTypeRef<CFURLRef> item_url(item_url_ref); if (CFEqual(item_url, url)) { CFRetain(item); return item; } } } return NULL; } bool IsHiddenLoginItem(LSSharedFileListItemRef item) { ScopedCFTypeRef<CFBooleanRef> hidden(reinterpret_cast<CFBooleanRef>( LSSharedFileListItemCopyProperty(item, reinterpret_cast<CFStringRef>(kLSSharedFileListLoginItemHidden)))); return hidden && hidden == kCFBooleanTrue; } } // namespace std::string PathFromFSRef(const FSRef& ref) { ScopedCFTypeRef<CFURLRef> url( CFURLCreateFromFSRef(kCFAllocatorDefault, &ref)); NSString *path_string = [(NSURL *)url.get() path]; return [path_string fileSystemRepresentation]; } bool FSRefFromPath(const std::string& path, FSRef* ref) { OSStatus status = FSPathMakeRef((const UInt8*)path.c_str(), ref, nil); return status == noErr; } CGColorSpaceRef GetGenericRGBColorSpace() { // Leaked. That's OK, it's scoped to the lifetime of the application. static CGColorSpaceRef g_color_space_generic_rgb( CGColorSpaceCreateWithName(kCGColorSpaceGenericRGB)); DLOG_IF(ERROR, !g_color_space_generic_rgb) << "Couldn't get the generic RGB color space"; return g_color_space_generic_rgb; } CGColorSpaceRef GetSRGBColorSpace() { // Leaked. That's OK, it's scoped to the lifetime of the application. static CGColorSpaceRef g_color_space_sRGB = CGColorSpaceCreateWithName(kCGColorSpaceSRGB); DLOG_IF(ERROR, !g_color_space_sRGB) << "Couldn't get the sRGB color space"; return g_color_space_sRGB; } CGColorSpaceRef GetSystemColorSpace() { // Leaked. That's OK, it's scoped to the lifetime of the application. // Try to get the main display's color space. static CGColorSpaceRef g_system_color_space = CGDisplayCopyColorSpace(CGMainDisplayID()); if (!g_system_color_space) { // Use a generic RGB color space. This is better than nothing. g_system_color_space = CGColorSpaceCreateDeviceRGB(); if (g_system_color_space) { DLOG(WARNING) << "Couldn't get the main display's color space, using generic"; } else { DLOG(ERROR) << "Couldn't get any color space"; } } return g_system_color_space; } // Add a request for full screen mode. Must be called on the main thread. void RequestFullScreen(FullScreenMode mode) { DCHECK_LT(mode, kNumFullScreenModes); if (mode >= kNumFullScreenModes) return; DCHECK_GE(g_full_screen_requests[mode], 0); if (mode < 0) return; g_full_screen_requests[mode] = std::max(g_full_screen_requests[mode] + 1, 1); SetUIMode(); } // Release a request for full screen mode. Must be called on the main thread. void ReleaseFullScreen(FullScreenMode mode) { DCHECK_LT(mode, kNumFullScreenModes); if (mode >= kNumFullScreenModes) return; DCHECK_GE(g_full_screen_requests[mode], 0); if (mode < 0) return; g_full_screen_requests[mode] = std::max(g_full_screen_requests[mode] - 1, 0); SetUIMode(); } // Switches full screen modes. Releases a request for |from_mode| and adds a // new request for |to_mode|. Must be called on the main thread. void SwitchFullScreenModes(FullScreenMode from_mode, FullScreenMode to_mode) { DCHECK_LT(from_mode, kNumFullScreenModes); DCHECK_LT(to_mode, kNumFullScreenModes); if (from_mode >= kNumFullScreenModes || to_mode >= kNumFullScreenModes) return; DCHECK_GT(g_full_screen_requests[from_mode], 0); DCHECK_GE(g_full_screen_requests[to_mode], 0); g_full_screen_requests[from_mode] = std::max(g_full_screen_requests[from_mode] - 1, 0); g_full_screen_requests[to_mode] = std::max(g_full_screen_requests[to_mode] + 1, 1); SetUIMode(); } void SetCursorVisibility(bool visible) { if (visible) [NSCursor unhide]; else [NSCursor hide]; } bool ShouldWindowsMiniaturizeOnDoubleClick() { // We use an undocumented method in Cocoa; if it doesn't exist, default to // |true|. If it ever goes away, we can do (using an undocumented pref key): // NSUserDefaults* defaults = [NSUserDefaults standardUserDefaults]; // return ![defaults objectForKey:@"AppleMiniaturizeOnDoubleClick"] || // [defaults boolForKey:@"AppleMiniaturizeOnDoubleClick"]; BOOL methodImplemented = [NSWindow respondsToSelector:@selector(_shouldMiniaturizeOnDoubleClick)]; DCHECK(methodImplemented); return !methodImplemented || [NSWindow performSelector:@selector(_shouldMiniaturizeOnDoubleClick)]; } void ActivateProcess(pid_t pid) { ProcessSerialNumber process; OSStatus status = GetProcessForPID(pid, &process); if (status == noErr) { SetFrontProcess(&process); } else { OSSTATUS_DLOG(WARNING, status) << "Unable to get process for pid " << pid; } } bool AmIForeground() { ProcessSerialNumber foreground_psn = { 0 }; OSErr err = GetFrontProcess(&foreground_psn); if (err != noErr) { OSSTATUS_DLOG(WARNING, err) << "GetFrontProcess"; return false; } ProcessSerialNumber my_psn = { 0, kCurrentProcess }; Boolean result = FALSE; err = SameProcess(&foreground_psn, &my_psn, &result); if (err != noErr) { OSSTATUS_DLOG(WARNING, err) << "SameProcess"; return false; } return result; } bool SetFileBackupExclusion(const FilePath& file_path) { NSString* file_path_ns = [NSString stringWithUTF8String:file_path.value().c_str()]; NSURL* file_url = [NSURL fileURLWithPath:file_path_ns]; // When excludeByPath is true the application must be running with root // privileges (admin for 10.6 and earlier) but the URL does not have to // already exist. When excludeByPath is false the URL must already exist but // can be used in non-root (or admin as above) mode. We use false so that // non-root (or admin) users don't get their TimeMachine drive filled up with // unnecessary backups. OSStatus os_err = CSBackupSetItemExcluded(base::mac::NSToCFCast(file_url), TRUE, FALSE); if (os_err != noErr) { OSSTATUS_DLOG(WARNING, os_err) << "Failed to set backup exclusion for file '" << file_path.value().c_str() << "'"; } return os_err == noErr; } bool CheckLoginItemStatus(bool* is_hidden) { ScopedCFTypeRef<LSSharedFileListItemRef> item(GetLoginItemForApp()); if (!item.get()) return false; if (is_hidden) *is_hidden = IsHiddenLoginItem(item); return true; } void AddToLoginItems(bool hide_on_startup) { ScopedCFTypeRef<LSSharedFileListItemRef> item(GetLoginItemForApp()); if (item.get() && (IsHiddenLoginItem(item) == hide_on_startup)) { return; // Already is a login item with required hide flag. } ScopedCFTypeRef<LSSharedFileListRef> login_items(LSSharedFileListCreate( NULL, kLSSharedFileListSessionLoginItems, NULL)); if (!login_items.get()) { DLOG(ERROR) << "Couldn't get a Login Items list."; return; } // Remove the old item, it has wrong hide flag, we'll create a new one. if (item.get()) { LSSharedFileListItemRemove(login_items, item); } NSURL* url = [NSURL fileURLWithPath:[base::mac::MainBundle() bundlePath]]; BOOL hide = hide_on_startup ? YES : NO; NSDictionary* properties = [NSDictionary dictionaryWithObject:[NSNumber numberWithBool:hide] forKey:(NSString*)kLSSharedFileListLoginItemHidden]; ScopedCFTypeRef<LSSharedFileListItemRef> new_item; new_item.reset(LSSharedFileListInsertItemURL( login_items, kLSSharedFileListItemLast, NULL, NULL, reinterpret_cast<CFURLRef>(url), reinterpret_cast<CFDictionaryRef>(properties), NULL)); if (!new_item.get()) { DLOG(ERROR) << "Couldn't insert current app into Login Items list."; } } void RemoveFromLoginItems() { ScopedCFTypeRef<LSSharedFileListItemRef> item(GetLoginItemForApp()); if (!item.get()) return; ScopedCFTypeRef<LSSharedFileListRef> login_items(LSSharedFileListCreate( NULL, kLSSharedFileListSessionLoginItems, NULL)); if (!login_items.get()) { DLOG(ERROR) << "Couldn't get a Login Items list."; return; } LSSharedFileListItemRemove(login_items, item); } bool WasLaunchedAsLoginOrResumeItem() { ProcessSerialNumber psn = { 0, kCurrentProcess }; base::scoped_nsobject<NSDictionary> process_info( CFToNSCast(ProcessInformationCopyDictionary( &psn, kProcessDictionaryIncludeAllInformationMask))); long long temp = [[process_info objectForKey:@"ParentPSN"] longLongValue]; ProcessSerialNumber parent_psn = { (temp >> 32) & 0x00000000FFFFFFFFLL, temp & 0x00000000FFFFFFFFLL }; base::scoped_nsobject<NSDictionary> parent_info( CFToNSCast(ProcessInformationCopyDictionary( &parent_psn, kProcessDictionaryIncludeAllInformationMask))); // Check that creator process code is that of loginwindow. BOOL result = [[parent_info objectForKey:@"FileCreator"] isEqualToString:@"lgnw"]; return result == YES; } bool WasLaunchedAsHiddenLoginItem() { if (!WasLaunchedAsLoginOrResumeItem()) return false; ScopedCFTypeRef<LSSharedFileListItemRef> item(GetLoginItemForApp()); if (!item.get()) { // Lion can launch items for the resume feature. So log an error only for // Snow Leopard or earlier. if (IsOSSnowLeopard()) DLOG(ERROR) << "Process launched at Login but can't access Login Item List."; return false; } return IsHiddenLoginItem(item); } bool RemoveQuarantineAttribute(const FilePath& file_path) { const char kQuarantineAttrName[] = "com.apple.quarantine"; int status = removexattr(file_path.value().c_str(), kQuarantineAttrName, 0); return status == 0 || errno == ENOATTR; } namespace { // Returns the running system's Darwin major version. Don't call this, it's // an implementation detail and its result is meant to be cached by // MacOSXMinorVersion. int DarwinMajorVersionInternal() { // base::OperatingSystemVersionNumbers calls Gestalt, which is a // higher-level operation than is needed. It might perform unnecessary // operations. On 10.6, it was observed to be able to spawn threads (see // http://crbug.com/53200). It might also read files or perform other // blocking operations. Actually, nobody really knows for sure just what // Gestalt might do, or what it might be taught to do in the future. // // uname, on the other hand, is implemented as a simple series of sysctl // system calls to obtain the relevant data from the kernel. The data is // compiled right into the kernel, so no threads or blocking or other // funny business is necessary. struct utsname uname_info; if (uname(&uname_info) != 0) { DPLOG(ERROR) << "uname"; return 0; } if (strcmp(uname_info.sysname, "Darwin") != 0) { DLOG(ERROR) << "unexpected uname sysname " << uname_info.sysname; return 0; } int darwin_major_version = 0; char* dot = strchr(uname_info.release, '.'); if (dot) { if (!base::StringToInt(base::StringPiece(uname_info.release, dot - uname_info.release), &darwin_major_version)) { dot = NULL; } } if (!dot) { DLOG(ERROR) << "could not parse uname release " << uname_info.release; return 0; } return darwin_major_version; } // Returns the running system's Mac OS X minor version. This is the |y| value // in 10.y or 10.y.z. Don't call this, it's an implementation detail and the // result is meant to be cached by MacOSXMinorVersion. int MacOSXMinorVersionInternal() { int darwin_major_version = DarwinMajorVersionInternal(); // The Darwin major version is always 4 greater than the Mac OS X minor // version for Darwin versions beginning with 6, corresponding to Mac OS X // 10.2. Since this correspondence may change in the future, warn when // encountering a version higher than anything seen before. Older Darwin // versions, or versions that can't be determined, result in // immediate death. CHECK(darwin_major_version >= 6); int mac_os_x_minor_version = darwin_major_version - 4; DLOG_IF(WARNING, darwin_major_version > 13) << "Assuming Darwin " << base::IntToString(darwin_major_version) << " is Mac OS X 10." << base::IntToString(mac_os_x_minor_version); return mac_os_x_minor_version; } // Returns the running system's Mac OS X minor version. This is the |y| value // in 10.y or 10.y.z. int MacOSXMinorVersion() { static int mac_os_x_minor_version = MacOSXMinorVersionInternal(); return mac_os_x_minor_version; } enum { SNOW_LEOPARD_MINOR_VERSION = 6, LION_MINOR_VERSION = 7, MOUNTAIN_LION_MINOR_VERSION = 8, MAVERICKS_MINOR_VERSION = 9, }; } // namespace #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GE_10_7) bool IsOSSnowLeopard() { return MacOSXMinorVersion() == SNOW_LEOPARD_MINOR_VERSION; } #endif #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GT_10_7) bool IsOSLion() { return MacOSXMinorVersion() == LION_MINOR_VERSION; } #endif #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GE_10_7) bool IsOSLionOrLater() { return MacOSXMinorVersion() >= LION_MINOR_VERSION; } #endif #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GT_10_8) bool IsOSMountainLion() { return MacOSXMinorVersion() == MOUNTAIN_LION_MINOR_VERSION; } #endif #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GE_10_8) bool IsOSMountainLionOrLater() { return MacOSXMinorVersion() >= MOUNTAIN_LION_MINOR_VERSION; } #endif #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GT_10_9) bool IsOSMavericks() { return MacOSXMinorVersion() == MAVERICKS_MINOR_VERSION; } #endif #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GE_10_9) bool IsOSMavericksOrLater() { return MacOSXMinorVersion() >= MAVERICKS_MINOR_VERSION; } #endif #if !defined(BASE_MAC_MAC_UTIL_H_INLINED_GT_10_9) bool IsOSLaterThanMavericks_DontCallThis() { return MacOSXMinorVersion() > MAVERICKS_MINOR_VERSION; } #endif std::string GetModelIdentifier() { std::string return_string; ScopedIOObject<io_service_t> platform_expert( IOServiceGetMatchingService(kIOMasterPortDefault, IOServiceMatching("IOPlatformExpertDevice"))); if (platform_expert) { ScopedCFTypeRef<CFDataRef> model_data( static_cast<CFDataRef>(IORegistryEntryCreateCFProperty( platform_expert, CFSTR("model"), kCFAllocatorDefault, 0))); if (model_data) { return_string = reinterpret_cast<const char*>(CFDataGetBytePtr(model_data)); } } return return_string; } bool ParseModelIdentifier(const std::string& ident, std::string* type, int32* major, int32* minor) { size_t number_loc = ident.find_first_of("0123456789"); if (number_loc == std::string::npos) return false; size_t comma_loc = ident.find(',', number_loc); if (comma_loc == std::string::npos) return false; int32 major_tmp, minor_tmp; std::string::const_iterator begin = ident.begin(); if (!StringToInt( StringPiece(begin + number_loc, begin + comma_loc), &major_tmp) || !StringToInt( StringPiece(begin + comma_loc + 1, ident.end()), &minor_tmp)) return false; *type = ident.substr(0, number_loc); *major = major_tmp; *minor = minor_tmp; return true; } } // namespace mac } // namespace base