// 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. #ifndef BASE_MAC_FOUNDATION_UTIL_H_ #define BASE_MAC_FOUNDATION_UTIL_H_ #include #include #include #include "base/logging.h" #include "base/mac/scoped_cftyperef.h" #include "util/build_config.h" #if defined(__OBJC__) #import @class NSFont; @class UIFont; #else // __OBJC__ #include class NSBundle; class NSFont; class NSString; class UIFont; #endif // __OBJC__ #if defined(OS_IOS) #include #else #include #endif // Adapted from NSObjCRuntime.h NS_ENUM definition (used in Foundation starting // with the OS X 10.8 SDK and the iOS 6.0 SDK). #if __has_extension(cxx_strong_enums) && \ (defined(OS_IOS) || \ (defined(MAC_OS_X_VERSION_10_8) && \ MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_X_VERSION_10_8)) #define CR_FORWARD_ENUM(_type, _name) enum _name : _type _name #else #define CR_FORWARD_ENUM(_type, _name) _type _name #endif // Adapted from NSPathUtilities.h and NSObjCRuntime.h. #if __LP64__ || NS_BUILD_32_LIKE_64 typedef CR_FORWARD_ENUM(unsigned long, NSSearchPathDirectory); typedef unsigned long NSSearchPathDomainMask; #else typedef CR_FORWARD_ENUM(unsigned int, NSSearchPathDirectory); typedef unsigned int NSSearchPathDomainMask; #endif typedef struct OpaqueSecTrustRef* SecACLRef; typedef struct OpaqueSecTrustedApplicationRef* SecTrustedApplicationRef; #if defined(OS_IOS) typedef struct CF_BRIDGED_TYPE(id) __SecKey* SecKeyRef; typedef struct CF_BRIDGED_TYPE(id) __SecPolicy* SecPolicyRef; #else typedef struct OpaqueSecKeyRef* SecKeyRef; typedef struct OpaqueSecPolicyRef* SecPolicyRef; #endif namespace base { class FilePath; namespace mac { // Returns true if the application is running from a bundle bool AmIBundled(); void SetOverrideAmIBundled(bool value); #if defined(UNIT_TEST) // This is required because instantiating some tests requires checking the // directory structure, which sets the AmIBundled cache state. Individual tests // may or may not be bundled, and this would trip them up if the cache weren't // cleared. This should not be called from individual tests, just from test // instantiation code that gets a path from PathService. void ClearAmIBundledCache(); #endif // Returns true if this process is marked as a "Background only process". bool IsBackgroundOnlyProcess(); // Returns the path to a resource within the framework bundle. FilePath PathForFrameworkBundleResource(CFStringRef resourceName); // Returns the creator code associated with the CFBundleRef at bundle. OSType CreatorCodeForCFBundleRef(CFBundleRef bundle); // Returns the creator code associated with this application, by calling // CreatorCodeForCFBundleRef for the application's main bundle. If this // information cannot be determined, returns kUnknownType ('????'). This // does not respect the override app bundle because it's based on CFBundle // instead of NSBundle, and because callers probably don't want the override // app bundle's creator code anyway. OSType CreatorCodeForApplication(); // Searches for directories for the given key in only the given |domain_mask|. // If found, fills result (which must always be non-NULL) with the // first found directory and returns true. Otherwise, returns false. bool GetSearchPathDirectory(NSSearchPathDirectory directory, NSSearchPathDomainMask domain_mask, FilePath* result); // Searches for directories for the given key in only the local domain. // If found, fills result (which must always be non-NULL) with the // first found directory and returns true. Otherwise, returns false. bool GetLocalDirectory(NSSearchPathDirectory directory, FilePath* result); // Searches for directories for the given key in only the user domain. // If found, fills result (which must always be non-NULL) with the // first found directory and returns true. Otherwise, returns false. bool GetUserDirectory(NSSearchPathDirectory directory, FilePath* result); // Returns the ~/Library directory. FilePath GetUserLibraryPath(); // Takes a path to an (executable) binary and tries to provide the path to an // application bundle containing it. It takes the outermost bundle that it can // find (so for "/Foo/Bar.app/.../Baz.app/..." it produces "/Foo/Bar.app"). // |exec_name| - path to the binary // returns - path to the application bundle, or empty on error FilePath GetAppBundlePath(const FilePath& exec_name); #define TYPE_NAME_FOR_CF_TYPE_DECL(TypeCF) \ std::string TypeNameForCFType(TypeCF##Ref); TYPE_NAME_FOR_CF_TYPE_DECL(CFArray); TYPE_NAME_FOR_CF_TYPE_DECL(CFBag); TYPE_NAME_FOR_CF_TYPE_DECL(CFBoolean); TYPE_NAME_FOR_CF_TYPE_DECL(CFData); TYPE_NAME_FOR_CF_TYPE_DECL(CFDate); TYPE_NAME_FOR_CF_TYPE_DECL(CFDictionary); TYPE_NAME_FOR_CF_TYPE_DECL(CFNull); TYPE_NAME_FOR_CF_TYPE_DECL(CFNumber); TYPE_NAME_FOR_CF_TYPE_DECL(CFSet); TYPE_NAME_FOR_CF_TYPE_DECL(CFString); TYPE_NAME_FOR_CF_TYPE_DECL(CFURL); TYPE_NAME_FOR_CF_TYPE_DECL(CFUUID); TYPE_NAME_FOR_CF_TYPE_DECL(CGColor); TYPE_NAME_FOR_CF_TYPE_DECL(CTFont); TYPE_NAME_FOR_CF_TYPE_DECL(CTRun); TYPE_NAME_FOR_CF_TYPE_DECL(SecKey); TYPE_NAME_FOR_CF_TYPE_DECL(SecPolicy); #undef TYPE_NAME_FOR_CF_TYPE_DECL // Retain/release calls for memory management in C++. void NSObjectRetain(void* obj); void NSObjectRelease(void* obj); // CFTypeRefToNSObjectAutorelease transfers ownership of a Core Foundation // object (one derived from CFTypeRef) to the Foundation memory management // system. In a traditional managed-memory environment, cf_object is // autoreleased and returned as an NSObject. In a garbage-collected // environment, cf_object is marked as eligible for garbage collection. // // This function should only be used to convert a concrete CFTypeRef type to // its equivalent "toll-free bridged" NSObject subclass, for example, // converting a CFStringRef to NSString. // // By calling this function, callers relinquish any ownership claim to // cf_object. In a managed-memory environment, the object's ownership will be // managed by the innermost NSAutoreleasePool, so after this function returns, // callers should not assume that cf_object is valid any longer than the // returned NSObject. // // Returns an id, typed here for C++'s sake as a void*. void* CFTypeRefToNSObjectAutorelease(CFTypeRef cf_object); // Returns the base bundle ID, which can be set by SetBaseBundleID but // defaults to a reasonable string. This never returns NULL. BaseBundleID // returns a pointer to static storage that must not be freed. const char* BaseBundleID(); // Sets the base bundle ID to override the default. The implementation will // make its own copy of new_base_bundle_id. void SetBaseBundleID(const char* new_base_bundle_id); } // namespace mac } // namespace base #if !defined(__OBJC__) #define OBJC_CPP_CLASS_DECL(x) class x; #else // __OBJC__ #define OBJC_CPP_CLASS_DECL(x) #endif // __OBJC__ // Convert toll-free bridged CFTypes to NSTypes and vice-versa. This does not // autorelease |cf_val|. This is useful for the case where there is a CFType in // a call that expects an NSType and the compiler is complaining about const // casting problems. // The calls are used like this: // NSString *foo = CFToNSCast(CFSTR("Hello")); // CFStringRef foo2 = NSToCFCast(@"Hello"); // The macro magic below is to enforce safe casting. It could possibly have // been done using template function specialization, but template function // specialization doesn't always work intuitively, // (http://www.gotw.ca/publications/mill17.htm) so the trusty combination // of macros and function overloading is used instead. #define CF_TO_NS_CAST_DECL(TypeCF, TypeNS) \ OBJC_CPP_CLASS_DECL(TypeNS) \ \ namespace base { \ namespace mac { \ TypeNS* CFToNSCast(TypeCF##Ref cf_val); \ TypeCF##Ref NSToCFCast(TypeNS* ns_val); \ } \ } #define CF_TO_NS_MUTABLE_CAST_DECL(name) \ CF_TO_NS_CAST_DECL(CF##name, NS##name) \ OBJC_CPP_CLASS_DECL(NSMutable##name) \ \ namespace base { \ namespace mac { \ NSMutable##name* CFToNSCast(CFMutable##name##Ref cf_val); \ CFMutable##name##Ref NSToCFCast(NSMutable##name* ns_val); \ } \ } // List of toll-free bridged types taken from: // http://www.cocoadev.com/index.pl?TollFreeBridged CF_TO_NS_MUTABLE_CAST_DECL(Array); CF_TO_NS_MUTABLE_CAST_DECL(AttributedString); CF_TO_NS_CAST_DECL(CFCalendar, NSCalendar); CF_TO_NS_MUTABLE_CAST_DECL(CharacterSet); CF_TO_NS_MUTABLE_CAST_DECL(Data); CF_TO_NS_CAST_DECL(CFDate, NSDate); CF_TO_NS_MUTABLE_CAST_DECL(Dictionary); CF_TO_NS_CAST_DECL(CFError, NSError); CF_TO_NS_CAST_DECL(CFLocale, NSLocale); CF_TO_NS_CAST_DECL(CFNumber, NSNumber); CF_TO_NS_CAST_DECL(CFRunLoopTimer, NSTimer); CF_TO_NS_CAST_DECL(CFTimeZone, NSTimeZone); CF_TO_NS_MUTABLE_CAST_DECL(Set); CF_TO_NS_CAST_DECL(CFReadStream, NSInputStream); CF_TO_NS_CAST_DECL(CFWriteStream, NSOutputStream); CF_TO_NS_MUTABLE_CAST_DECL(String); CF_TO_NS_CAST_DECL(CFURL, NSURL); #if defined(OS_IOS) CF_TO_NS_CAST_DECL(CTFont, UIFont); #else CF_TO_NS_CAST_DECL(CTFont, NSFont); #endif #undef CF_TO_NS_CAST_DECL #undef CF_TO_NS_MUTABLE_CAST_DECL #undef OBJC_CPP_CLASS_DECL namespace base { namespace mac { // CFCast<>() and CFCastStrict<>() cast a basic CFTypeRef to a more // specific CoreFoundation type. The compatibility of the passed // object is found by comparing its opaque type against the // requested type identifier. If the supplied object is not // compatible with the requested return type, CFCast<>() returns // NULL and CFCastStrict<>() will DCHECK. Providing a NULL pointer // to either variant results in NULL being returned without // triggering any DCHECK. // // Example usage: // CFNumberRef some_number = base::mac::CFCast( // CFArrayGetValueAtIndex(array, index)); // // CFTypeRef hello = CFSTR("hello world"); // CFStringRef some_string = base::mac::CFCastStrict(hello); template T CFCast(const CFTypeRef& cf_val); template T CFCastStrict(const CFTypeRef& cf_val); #define CF_CAST_DECL(TypeCF) \ template <> \ TypeCF##Ref CFCast(const CFTypeRef& cf_val); \ \ template <> \ TypeCF##Ref CFCastStrict(const CFTypeRef& cf_val); CF_CAST_DECL(CFArray); CF_CAST_DECL(CFBag); CF_CAST_DECL(CFBoolean); CF_CAST_DECL(CFData); CF_CAST_DECL(CFDate); CF_CAST_DECL(CFDictionary); CF_CAST_DECL(CFNull); CF_CAST_DECL(CFNumber); CF_CAST_DECL(CFSet); CF_CAST_DECL(CFString); CF_CAST_DECL(CFURL); CF_CAST_DECL(CFUUID); CF_CAST_DECL(CGColor); CF_CAST_DECL(CTFont); CF_CAST_DECL(CTFontDescriptor); CF_CAST_DECL(CTRun); CF_CAST_DECL(SecACL); CF_CAST_DECL(SecKey); CF_CAST_DECL(SecPolicy); CF_CAST_DECL(SecTrustedApplication); #undef CF_CAST_DECL #if defined(__OBJC__) // ObjCCast<>() and ObjCCastStrict<>() cast a basic id to a more // specific (NSObject-derived) type. The compatibility of the passed // object is found by checking if it's a kind of the requested type // identifier. If the supplied object is not compatible with the // requested return type, ObjCCast<>() returns nil and // ObjCCastStrict<>() will DCHECK. Providing a nil pointer to either // variant results in nil being returned without triggering any DCHECK. // // The strict variant is useful when retrieving a value from a // collection which only has values of a specific type, e.g. an // NSArray of NSStrings. The non-strict variant is useful when // retrieving values from data that you can't fully control. For // example, a plist read from disk may be beyond your exclusive // control, so you'd only want to check that the values you retrieve // from it are of the expected types, but not crash if they're not. // // Example usage: // NSString* version = base::mac::ObjCCast( // [bundle objectForInfoDictionaryKey:@"CFBundleShortVersionString"]); // // NSString* str = base::mac::ObjCCastStrict( // [ns_arr_of_ns_strs objectAtIndex:0]); template T* ObjCCast(id objc_val) { if ([objc_val isKindOfClass:[T class]]) { return reinterpret_cast(objc_val); } return nil; } template T* ObjCCastStrict(id objc_val) { T* rv = ObjCCast(objc_val); DCHECK(objc_val == nil || rv); return rv; } #endif // defined(__OBJC__) // Helper function for GetValueFromDictionary to create the error message // that appears when a type mismatch is encountered. std::string GetValueFromDictionaryErrorMessage(CFStringRef key, const std::string& expected_type, CFTypeRef value); // Utility function to pull out a value from a dictionary, check its type, and // return it. Returns NULL if the key is not present or of the wrong type. template T GetValueFromDictionary(CFDictionaryRef dict, CFStringRef key) { CFTypeRef value = CFDictionaryGetValue(dict, key); T value_specific = CFCast(value); if (value && !value_specific) { std::string expected_type = TypeNameForCFType(value_specific); DLOG(WARNING) << GetValueFromDictionaryErrorMessage(key, expected_type, value); } return value_specific; } // Converts |path| to an autoreleased NSString. Returns nil if |path| is empty. NSString* FilePathToNSString(const FilePath& path); // Converts |str| to a FilePath. Returns an empty path if |str| is nil. FilePath NSStringToFilePath(NSString* str); #if defined(__OBJC__) // Converts |range| to an NSRange, returning the new range in |range_out|. // Returns true if conversion was successful, false if the values of |range| // could not be converted to NSUIntegers. bool CFRangeToNSRange(CFRange range, NSRange* range_out) WARN_UNUSED_RESULT; #endif // defined(__OBJC__) } // namespace mac } // namespace base // Stream operations for CFTypes. They can be used with NSTypes as well // by using the NSToCFCast methods above. // e.g. LOG(INFO) << base::mac::NSToCFCast(@"foo"); // Operator << can not be overloaded for ObjectiveC types as the compiler // can not distinguish between overloads for id with overloads for void*. extern std::ostream& operator<<(std::ostream& o, const CFErrorRef err); extern std::ostream& operator<<(std::ostream& o, const CFStringRef str); #endif // BASE_MAC_FOUNDATION_UTIL_H_