NSFileManager class reference

/** NSFileManager.m Copyright (C) 1997-1999 Free Software Foundation, Inc. Author: Mircea Oancea Author: Ovidiu Predescu Date: Feb 1997 Updates and fixes: Richard Frith-Macdonald Author: Nicola Pero Date: Apr 2001 Rewritten NSDirectoryEnumerator This file is part of the GNUstep Base Library. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111 USA. NSFileManager class reference $Date$ $Revision$ */ #include #include #include #include #include #include #include #include #include #include /* determine directory reading files */ #if defined(HAVE_DIRENT_H) # include #elif defined(HAVE_SYS_DIR_H) # include #elif defined(HAVE_SYS_NDIR_H) # include #elif defined(HAVE_NDIR_H) # include #endif #if HAVE_UNISTD_H #include #endif #if HAVE_WINDOWS_H # include #endif #if defined(__MINGW__) #define WIN32ERR ((DWORD)0xFFFFFFFF) #endif /* determine filesystem max path length */ #if defined(_POSIX_VERSION) || defined(__WIN32__) # include /* for PATH_MAX */ # if defined(__MINGW32__) # include # else # include # endif #else # if HAVE_SYS_PARAM_H # include /* for MAXPATHLEN */ # endif #endif #ifndef PATH_MAX # ifdef _POSIX_VERSION # define PATH_MAX _POSIX_PATH_MAX # else # ifdef MAXPATHLEN # define PATH_MAX MAXPATHLEN # else # define PATH_MAX 1024 # endif # endif #endif /* determine if we have statfs struct and function */ #ifdef HAVE_SYS_VFS_H # include # ifdef HAVE_SYS_STATVFS_H # include # endif #endif #ifdef HAVE_SYS_STATFS_H # include #endif #if HAVE_SYS_FILE_H #include #endif #if HAVE_SYS_MOUNT_H #include #endif #include #ifdef HAVE_SYS_STAT_H #include #endif #include #if HAVE_PWD_H #include /* For struct passwd */ #endif #if HAVE_GRP_H #include /* For struct group */ #endif #if HAVE_UTIME_H # include #endif /* * On systems that have the O_BINARY flag, use it for a binary copy. */ #if defined(O_BINARY) #define GSBINIO O_BINARY #else #define GSBINIO 0 #endif /* include usual headers */ #include #include #include #include #include #include #include #include @interface NSFileManager (PrivateMethods) /* Copies the contents of source file to destination file. Assumes source and destination are regular files or symbolic links. */ - (BOOL) _copyFile: (NSString*)source toFile: (NSString*)destination handler: (id)handler; /* Recursively copies the contents of source directory to destination. */ - (BOOL) _copyPath: (NSString*)source toPath: (NSString*)destination handler: (id)handler; - (NSDictionary*) _attributesAtPath: (NSString*)path traverseLink: (BOOL)traverse forCopy: (BOOL)copy; @end /* NSFileManager (PrivateMethods) */ @interface NSDirectoryEnumerator (PrivateMethods) - (NSDictionary*) _attributesForCopy; @end /* * NSFileManager implementation */ @implementation NSFileManager // Getting the default manager static NSFileManager* defaultManager = nil; + (NSFileManager*) defaultManager { if (!defaultManager) { NS_DURING { [gnustep_global_lock lock]; defaultManager = [[self alloc] init]; [gnustep_global_lock unlock]; } NS_HANDLER { // unlock then re-raise the exception [gnustep_global_lock unlock]; [localException raise]; } NS_ENDHANDLER } return defaultManager; } - (void) dealloc { TEST_RELEASE(_lastError); [super dealloc]; } // Directory operations - (BOOL) changeCurrentDirectoryPath: (NSString*)path { const char* cpath = [self fileSystemRepresentationWithPath: path]; #if defined(__MINGW__) return SetCurrentDirectory(cpath) == TRUE ? YES : NO; #else return (chdir(cpath) == 0); #endif } - (BOOL) createDirectoryAtPath: (NSString*)path attributes: (NSDictionary*)attributes { #if defined(__MINGW__) NSEnumerator *paths = [[path pathComponents] objectEnumerator]; NSString *subPath; NSString *completePath = nil; while ((subPath = [paths nextObject])) { BOOL isDir = NO; if (completePath == nil) completePath = subPath; else completePath = [completePath stringByAppendingPathComponent:subPath]; if ([self fileExistsAtPath:completePath isDirectory:&isDir]) { if (!isDir) NSLog(@"WARNING: during creation of directory %@:" @" sub path %@ exists, but is not a directory !", path, completePath); } else { const char *cpath; cpath = [self fileSystemRepresentationWithPath: completePath]; if (CreateDirectory(cpath, NULL) == FALSE) return NO; } } // change attributes of last directory return [self changeFileAttributes: attributes atPath: path]; #else const char *cpath; char dirpath[PATH_MAX+1]; struct stat statbuf; int len, cur; NSDictionary *needChown = nil; /* * If there is no file owner specified, and we are running setuid to * root, then we assume we need to change ownership to correct user. */ if ([attributes objectForKey: NSFileOwnerAccountName] == nil && [attributes objectForKey: NSFileOwnerAccountNumber] == nil && geteuid() == 0 && [@"root" isEqualToString: NSUserName()] == NO) { needChown = [NSDictionary dictionaryWithObjectsAndKeys: NSFileOwnerAccountName, NSUserName(), nil]; } cpath = [self fileSystemRepresentationWithPath: path]; len = strlen(cpath); if (len > PATH_MAX) // name too long { ASSIGN(_lastError, @"Could not create directory - name too long"); return NO; } if (strcmp(cpath, "/") == 0 || len == 0) // cannot use "/" or "" { ASSIGN(_lastError, @"Could not create directory - no name given"); return NO; } strcpy(dirpath, cpath); dirpath[len] = '\0'; if (dirpath[len-1] == '/') dirpath[len-1] = '\0'; cur = 0; do { // find next '/' while (dirpath[cur] != '/' && cur < len) cur++; // if first char is '/' then again; (cur == len) -> last component if (cur == 0) { cur++; continue; } // check if path from 0 to cur is valid dirpath[cur] = '\0'; if (stat(dirpath, &statbuf) == 0) { if (cur == len) { ASSIGN(_lastError, @"Could not create directory - already exists"); return NO; } } else { // make new directory if (mkdir(dirpath, 0777) != 0) { NSString *s; s = [NSString stringWithFormat: @"Could not create '%s' - '%s'", dirpath, GSLastErrorStr(errno)]; ASSIGN(_lastError, s); return NO; } // if last directory and attributes then change if (cur == len && attributes) { if ([self changeFileAttributes: attributes atPath: [self stringWithFileSystemRepresentation: dirpath length: cur]] == NO) return NO; if (needChown) { if ([self changeFileAttributes: needChown atPath: [self stringWithFileSystemRepresentation: dirpath length: cur]] == NO) { NSLog(@"Failed to change ownership of '%s' to '%@'", dirpath, NSUserName()); } } return YES; } } dirpath[cur] = '/'; cur++; } while (cur < len); return YES; #endif /* !MINGW */ } - (NSString*) currentDirectoryPath { char path[PATH_MAX]; #if defined(__MINGW__) if (GetCurrentDirectory(PATH_MAX, path) > PATH_MAX) return nil; #else #ifdef HAVE_GETCWD if (getcwd(path, PATH_MAX-1) == NULL) return nil; #else if (getwd(path) == NULL) return nil; #endif /* HAVE_GETCWD */ #endif /* !MINGW */ return [self stringWithFileSystemRepresentation: path length: strlen(path)]; } // File operations - (BOOL) copyPath: (NSString*)source toPath: (NSString*)destination handler: handler { BOOL fileExists; NSDictionary *attrs; NSString *fileType; attrs = [self _attributesAtPath: source traverseLink: NO forCopy: YES]; if (attrs == nil) { return NO; } fileExists = [self fileExistsAtPath: destination]; if (fileExists) { return NO; } fileType = [attrs objectForKey: NSFileType]; if ([fileType isEqualToString: NSFileTypeDirectory] == YES) { /* If destination directory is a descendant of source directory copying isn't possible. */ if ([[destination stringByAppendingString: @"/"] hasPrefix: [source stringByAppendingString: @"/"]]) { return NO; } [handler fileManager: self willProcessPath: destination]; if ([self createDirectoryAtPath: destination attributes: attrs] == NO) { if (handler) { NSDictionary* errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: destination, @"Path", _lastError, @"Error", nil]; return [handler fileManager: self shouldProceedAfterError: errorInfo]; } else { return NO; } } if ([self _copyPath: source toPath: destination handler: handler] == NO) { return NO; } } else if ([fileType isEqualToString: NSFileTypeSymbolicLink] == YES) { NSString *path; BOOL result; [handler fileManager: self willProcessPath: source]; path = [self pathContentOfSymbolicLinkAtPath: source]; result = [self createSymbolicLinkAtPath: destination pathContent: path]; if (result == NO) { if (handler != nil) { NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: source, @"Path", destination, @"ToPath", @"cannot link to file", @"Error", nil]; result = [handler fileManager: self shouldProceedAfterError: errorInfo]; } if (result == NO) { return NO; } } } else { [handler fileManager: self willProcessPath: source]; if ([self _copyFile: source toFile: destination handler: handler] == NO) { return NO; } } [self changeFileAttributes: attrs atPath: destination]; return YES; } - (BOOL) movePath: (NSString*)source toPath: (NSString*)destination handler: handler { BOOL sourceIsDir, fileExists; const char* sourcePath = [self fileSystemRepresentationWithPath: source]; const char* destPath = [self fileSystemRepresentationWithPath: destination]; NSString* destinationParent; unsigned int sourceDevice, destinationDevice; fileExists = [self fileExistsAtPath: source isDirectory: &sourceIsDir]; if (!fileExists) return NO; fileExists = [self fileExistsAtPath: destination]; if (fileExists) return NO; /* Check to see if the source and destination's parent are on the same physical device so we can perform a rename syscall directly. */ sourceDevice = [[[self fileSystemAttributesAtPath: source] objectForKey: NSFileSystemNumber] unsignedIntValue]; destinationParent = [destination stringByDeletingLastPathComponent]; if ([destinationParent isEqual: @""]) destinationParent = @"."; destinationDevice = [[[self fileSystemAttributesAtPath: destinationParent] objectForKey: NSFileSystemNumber] unsignedIntValue]; if (sourceDevice != destinationDevice) { /* If destination directory is a descendant of source directory moving isn't possible. */ if (sourceIsDir && [[destination stringByAppendingString: @"/"] hasPrefix: [source stringByAppendingString: @"/"]]) return NO; if ([self copyPath: source toPath: destination handler: handler]) { NSDictionary* attributes; attributes = [self _attributesAtPath: source traverseLink: NO forCopy: YES]; [self changeFileAttributes: attributes atPath: destination]; return [self removeFileAtPath: source handler: handler]; } else return NO; } else { /* source and destination are on the same device so we can simply invoke rename on source. */ [handler fileManager: self willProcessPath: source]; if (rename (sourcePath, destPath) == -1) { if (handler) { NSDictionary* errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: source, @"Path", destination, @"ToPath", @"cannot move file", @"Error", nil]; if ([handler fileManager: self shouldProceedAfterError: errorInfo]) return YES; } return NO; } return YES; } return NO; } - (BOOL) linkPath: (NSString*)source toPath: (NSString*)destination handler: handler { // TODO [self notImplemented: _cmd]; return NO; } - (BOOL) removeFileAtPath: (NSString*)path handler: handler { BOOL is_dir; const char *cpath; if ([path isEqualToString: @"."] || [path isEqualToString: @".."]) { [NSException raise: NSInvalidArgumentException format: @"Attempt to remove illegal path"]; } if (handler != nil) { [handler fileManager: self willProcessPath: path]; } cpath = [self fileSystemRepresentationWithPath: path]; if (cpath == 0 || *cpath == '\0') { return NO; } else { #if defined(__MINGW__) DWORD res; res = GetFileAttributes(cpath); if (res == WIN32ERR) return NO; if (res & FILE_ATTRIBUTE_DIRECTORY) is_dir = YES; else is_dir = NO; #else struct stat statbuf; if (lstat(cpath, &statbuf) != 0) return NO; is_dir = ((statbuf.st_mode & S_IFMT) == S_IFDIR); #endif /* MINGW */ } if (!is_dir) { #if defined(__MINGW__) if (DeleteFile(cpath) == FALSE) #else if (unlink(cpath) < 0) #endif { BOOL result; if (handler) { NSMutableDictionary *info; info = [[NSMutableDictionary alloc] initWithCapacity: 3]; [info setObject: path forKey: @"Path"]; [info setObject: [NSString stringWithCString: GSLastErrorStr(errno)] forKey: @"Error"]; result = [handler fileManager: self shouldProceedAfterError: info]; RELEASE(info); } else result = NO; return result; } else return YES; } else { NSArray *contents = [self directoryContentsAtPath: path]; unsigned count = [contents count]; unsigned i; for (i = 0; i < count; i++) { NSString *item; NSString *next; BOOL result; CREATE_AUTORELEASE_POOL(arp); item = [contents objectAtIndex: i]; next = [path stringByAppendingPathComponent: item]; result = [self removeFileAtPath: next handler: handler]; RELEASE(arp); if (result == NO) return NO; } if (rmdir([path fileSystemRepresentation]) < 0) { BOOL result; if (handler) { NSMutableDictionary *info; info = [[NSMutableDictionary alloc] initWithCapacity: 3]; [info setObject: path forKey: @"Path"]; [info setObject: [NSString stringWithCString: GSLastErrorStr(errno)] forKey: @"Error"]; result = [handler fileManager: self shouldProceedAfterError: info]; RELEASE(info); } else result = NO; return result; } else return YES; } } - (BOOL) createFileAtPath: (NSString*)path contents: (NSData*)contents attributes: (NSDictionary*)attributes { const char *cpath = [self fileSystemRepresentationWithPath: path]; #if defined(__MINGW__) HANDLE fh; DWORD written = 0; DWORD len = [contents length]; fh = CreateFile(cpath, GENERIC_WRITE, 0, 0, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0); if (fh == INVALID_HANDLE_VALUE) { return NO; } else { if (len > 0) { WriteFile(fh, [contents bytes], len, &written, NULL); } CloseHandle(fh); if ([self changeFileAttributes: attributes atPath: path] == NO) { return NO; } } #else int fd; int len; int written; fd = open(cpath, GSBINIO|O_WRONLY|O_TRUNC|O_CREAT, 0644); if (fd < 0) { return NO; } if ([self changeFileAttributes: attributes atPath: path] == NO) { close (fd); return NO; } /* * If there is no file owner specified, and we are running setuid to * root, then we assume we need to change ownership to correct user. */ if ([attributes objectForKey: NSFileOwnerAccountName] == nil && [attributes objectForKey: NSFileOwnerAccountNumber] == nil && geteuid() == 0 && [@"root" isEqualToString: NSUserName()] == NO) { attributes = [NSDictionary dictionaryWithObjectsAndKeys: NSFileOwnerAccountName, NSUserName(), nil]; if (![self changeFileAttributes: attributes atPath: path]) { NSLog(@"Failed to change ownership of '%@' to '%@'", path, NSUserName()); } } len = [contents length]; if (len > 0) { written = write(fd, [contents bytes], len); } else { written = 0; } close (fd); #endif return written == len; } // Getting and comparing file contents - (NSData*) contentsAtPath: (NSString*)path { return [NSData dataWithContentsOfFile: path]; } - (BOOL) contentsEqualAtPath: (NSString*)path1 andPath: (NSString*)path2 { NSDictionary *d1; NSDictionary *d2; NSString *t; if ([path1 isEqual: path2]) return YES; d1 = [self fileAttributesAtPath: path1 traverseLink: NO]; d2 = [self fileAttributesAtPath: path2 traverseLink: NO]; t = [d1 objectForKey: NSFileType]; if ([t isEqual: [d2 objectForKey: NSFileType]] == NO) return NO; if ([t isEqual: NSFileTypeRegular]) { id s1 = [d1 objectForKey: NSFileSize]; id s2 = [d2 objectForKey: NSFileSize]; if ([s1 isEqual: s2] == YES) { NSData *c1 = [NSData dataWithContentsOfFile: path1]; NSData *c2 = [NSData dataWithContentsOfFile: path2]; if ([c1 isEqual: c2]) return YES; } return NO; } else if ([t isEqual: NSFileTypeDirectory]) { NSArray *a1 = [self directoryContentsAtPath: path1]; NSArray *a2 = [self directoryContentsAtPath: path2]; unsigned index, count = [a1 count]; BOOL ok = YES; if ([a1 isEqual: a2] == NO) return NO; for (index = 0; ok == YES && index < count; index++) { NSString *n = [a1 objectAtIndex: index]; NSString *p1; NSString *p2; CREATE_AUTORELEASE_POOL(pool); p1 = [path1 stringByAppendingPathComponent: n]; p2 = [path2 stringByAppendingPathComponent: n]; d1 = [self fileAttributesAtPath: p1 traverseLink: NO]; d2 = [self fileAttributesAtPath: p2 traverseLink: NO]; t = [d1 objectForKey: NSFileType]; if ([t isEqual: [d2 objectForKey: NSFileType]] == NO) { ok = NO; } else if ([t isEqual: NSFileTypeDirectory]) { ok = [self contentsEqualAtPath: p1 andPath: p2]; } RELEASE(pool); } return ok; } else return YES; } // Determining access to files - (BOOL) fileExistsAtPath: (NSString*)path { return [self fileExistsAtPath: path isDirectory: NULL]; } - (BOOL) fileExistsAtPath: (NSString*)path isDirectory: (BOOL*)isDirectory { const char* cpath = [self fileSystemRepresentationWithPath: path]; if (cpath == 0 || *cpath == '\0') { return NO; } else { #if defined(__MINGW__) DWORD res; res = GetFileAttributes(cpath); if (res == WIN32ERR) { return NO; } if (isDirectory != 0) { if (res & FILE_ATTRIBUTE_DIRECTORY) { *isDirectory = YES; } else { *isDirectory = NO; } } return YES; #else struct stat statbuf; if (stat(cpath, &statbuf) != 0) return NO; if (isDirectory) { *isDirectory = ((statbuf.st_mode & S_IFMT) == S_IFDIR); } return YES; #endif /* MINGW */ } } - (BOOL) isReadableFileAtPath: (NSString*)path { const char* cpath = [self fileSystemRepresentationWithPath: path]; if (cpath == 0 || *cpath == '\0') return NO; else { #if defined(__MINGW__) DWORD res= GetFileAttributes(cpath); if (res == WIN32ERR) return NO; return YES; #else return (access(cpath, R_OK) == 0); #endif } } - (BOOL) isWritableFileAtPath: (NSString*)path { const char* cpath = [self fileSystemRepresentationWithPath: path]; if (cpath == 0 || *cpath == '\0') return NO; else { #if defined(__MINGW__) DWORD res= GetFileAttributes(cpath); if (res == WIN32ERR) return NO; return (res & FILE_ATTRIBUTE_READONLY) ? NO : YES; #else return (access(cpath, W_OK) == 0); #endif } } - (BOOL) isExecutableFileAtPath: (NSString*)path { const char* cpath = [self fileSystemRepresentationWithPath: path]; if (cpath == 0 || *cpath == '\0') return NO; else { #if defined(__MINGW__) DWORD res= GetFileAttributes(cpath); int len = strlen(cpath); if (res == WIN32ERR) return NO; if (len > 4 && strcmp(&cpath[len-4], ".exe") == 0) return YES; /* FIXME: On unix, directory accessable == executable, so we simulate that here for Windows. Is there a better check for directory access? */ if (res & FILE_ATTRIBUTE_DIRECTORY) return YES; return NO; #else return (access(cpath, X_OK) == 0); #endif } } - (BOOL) isDeletableFileAtPath: (NSString*)path { const char* cpath = [self fileSystemRepresentationWithPath: path]; if (cpath == 0 || *cpath == '\0') return NO; else { // TODO - handle directories #if defined(__MINGW__) DWORD res= GetFileAttributes(cpath); if (res == WIN32ERR) return NO; return (res & FILE_ATTRIBUTE_READONLY) ? NO : YES; #else cpath = [self fileSystemRepresentationWithPath: [path stringByDeletingLastPathComponent]]; return (access(cpath, X_OK || W_OK) != 0); #endif } } - (NSDictionary*) fileAttributesAtPath: (NSString*)path traverseLink: (BOOL)flag { return [self _attributesAtPath: path traverseLink: flag forCopy: NO]; } - (NSDictionary*) fileSystemAttributesAtPath: (NSString*)path { #if defined(__MINGW__) unsigned long long totalsize, freesize; id values[5]; id keys[5] = { NSFileSystemSize, NSFileSystemFreeSize, NSFileSystemNodes, NSFileSystemFreeNodes, NSFileSystemNumber }; DWORD SectorsPerCluster, BytesPerSector, NumberFreeClusters; DWORD TotalNumberClusters; const char *cpath = [self fileSystemRepresentationWithPath: path]; if (!GetDiskFreeSpace(cpath, &SectorsPerCluster, &BytesPerSector, &NumberFreeClusters, &TotalNumberClusters)) return nil; totalsize = (unsigned long long)TotalNumberClusters * (unsigned long long)SectorsPerCluster * (unsigned long long)BytesPerSector; freesize = (unsigned long long)NumberFreeClusters * (unsigned long long)SectorsPerCluster * (unsigned long long)BytesPerSector; values[0] = [NSNumber numberWithUnsignedLongLong: totalsize]; values[1] = [NSNumber numberWithUnsignedLongLong: freesize]; values[2] = [NSNumber numberWithLong: LONG_MAX]; values[3] = [NSNumber numberWithLong: LONG_MAX]; values[4] = [NSNumber numberWithUnsignedInt: 0]; return [NSDictionary dictionaryWithObjects: values forKeys: keys count: 5]; #else #if HAVE_SYS_VFS_H || HAVE_SYS_STATFS_H || HAVE_SYS_MOUNT_H struct stat statbuf; #if HAVE_STATVFS struct statvfs statfsbuf; #else struct statfs statfsbuf; #endif unsigned long long totalsize, freesize; const char* cpath = [self fileSystemRepresentationWithPath: path]; id values[5]; id keys[5] = { NSFileSystemSize, NSFileSystemFreeSize, NSFileSystemNodes, NSFileSystemFreeNodes, NSFileSystemNumber }; if (stat(cpath, &statbuf) != 0) return nil; #if HAVE_STATVFS if (statvfs(cpath, &statfsbuf) != 0) return nil; #else if (statfs(cpath, &statfsbuf) != 0) return nil; #endif totalsize = (unsigned long long) statfsbuf.f_bsize * (unsigned long long) statfsbuf.f_blocks; freesize = (unsigned long long) statfsbuf.f_bsize * (unsigned long long) statfsbuf.f_bavail; values[0] = [NSNumber numberWithUnsignedLongLong: totalsize]; values[1] = [NSNumber numberWithUnsignedLongLong: freesize]; values[2] = [NSNumber numberWithLong: statfsbuf.f_files]; values[3] = [NSNumber numberWithLong: statfsbuf.f_ffree]; values[4] = [NSNumber numberWithUnsignedLong: statbuf.st_dev]; return [NSDictionary dictionaryWithObjects: values forKeys: keys count: 5]; #else return nil; #endif #endif /* MINGW */ } - (BOOL) changeFileAttributes: (NSDictionary*)attributes atPath: (NSString*)path { const char *cpath = [self fileSystemRepresentationWithPath: path]; NSNumber *num; NSString *str; NSDate *date; BOOL allOk = YES; #ifndef __MINGW__ num = [attributes objectForKey: NSFileOwnerAccountNumber]; if (num) { if (chown(cpath, [num intValue], -1) != 0) { allOk = NO; str = [NSString stringWithFormat: @"Unable to change NSFileOwnerAccountNumber to '%@'", num]; ASSIGN(_lastError, str); } } else { if ((str = [attributes objectForKey: NSFileOwnerAccountName]) != nil) { BOOL ok = NO; #if HAVE_PWD_H struct passwd *pw = getpwnam([str cString]); if (pw) { ok = (chown(cpath, pw->pw_uid, -1) == 0); chown(cpath, -1, pw->pw_gid); } #endif if (ok == NO) { allOk = NO; str = [NSString stringWithFormat: @"Unable to change NSFileOwnerAccountName to '%@'", str]; ASSIGN(_lastError, str); } } } num = [attributes objectForKey: NSFileGroupOwnerAccountNumber]; if (num) { if (chown(cpath, -1, [num intValue]) != 0) { allOk = NO; str = [NSString stringWithFormat: @"Unable to change NSFileGroupOwnerAccountNumber to '%@'", num]; ASSIGN(_lastError, str); } } else if ((str=[attributes objectForKey: NSFileGroupOwnerAccountName]) != nil) { BOOL ok = NO; #if HAVE_GRP_H struct group *gp = getgrnam([str cString]); if (gp) { if (chown(cpath, -1, gp->gr_gid) == 0) ok = YES; } #endif if (ok == NO) { allOk = NO; str = [NSString stringWithFormat: @"Unable to change NSFileGroupOwnerAccountName to '%@'", str]; ASSIGN(_lastError, str); } } #endif /* __MINGW__ */ num = [attributes objectForKey: NSFilePosixPermissions]; if (num) { if (chmod(cpath, [num intValue]) != 0) { allOk = NO; str = [NSString stringWithFormat: @"Unable to change NSFilePosixPermissions to '%o'", [num intValue]]; ASSIGN(_lastError, str); } } date = [attributes objectForKey: NSFileModificationDate]; if (date) { BOOL ok = NO; struct stat sb; #if defined(__WIN32__) || defined(_POSIX_VERSION) struct utimbuf ub; #else time_t ub[2]; #endif if (stat(cpath, &sb) != 0) { ok = NO; } #if defined(__WIN32__) else if (sb.st_mode & _S_IFDIR) { ok = YES; // Directories don't have modification times. } #endif else { #if defined(__WIN32__) || defined(_POSIX_VERSION) ub.actime = sb.st_atime; ub.modtime = [date timeIntervalSince1970]; ok = (utime(cpath, &ub) == 0); #else ub[0] = sb.st_atime; ub[1] = [date timeIntervalSince1970]; ok = (utime((char*)cpath, ub) == 0); #endif } if (ok == NO) { allOk = NO; str = [NSString stringWithFormat: @"Unable to change NSFileModificationDate to '%@'", date]; ASSIGN(_lastError, str); } } return allOk; } // Discovering directory contents - (NSArray*) directoryContentsAtPath: (NSString*)path { NSDirectoryEnumerator *direnum; NSMutableArray *content; IMP nxtImp; IMP addImp; BOOL is_dir; /* * See if this is a directory (don't follow links). */ if ([self fileExistsAtPath: path isDirectory: &is_dir] == NO || is_dir == NO) return nil; /* We initialize the directory enumerator with justContents == YES, which tells the NSDirectoryEnumerator code that we only enumerate the contents non-recursively once, and exit. NSDirectoryEnumerator can perform some optms using this assumption. */ direnum = [[NSDirectoryEnumerator alloc] initWithDirectoryPath: path recurseIntoSubdirectories: NO followSymlinks: NO justContents: YES]; content = [NSMutableArray arrayWithCapacity: 128]; nxtImp = [direnum methodForSelector: @selector(nextObject)]; addImp = [content methodForSelector: @selector(addObject:)]; while ((path = (*nxtImp)(direnum, @selector(nextObject))) != nil) (*addImp)(content, @selector(addObject:), path); RELEASE(direnum); return content; } - (NSDirectoryEnumerator*) enumeratorAtPath: (NSString*)path { return AUTORELEASE([[NSDirectoryEnumerator alloc] initWithDirectoryPath: path recurseIntoSubdirectories: YES followSymlinks: NO justContents: NO]); } - (NSArray*) subpathsAtPath: (NSString*)path { NSDirectoryEnumerator *direnum; NSMutableArray *content; BOOL isDir; IMP nxtImp; IMP addImp; if (![self fileExistsAtPath: path isDirectory: &isDir] || !isDir) return nil; direnum = [[NSDirectoryEnumerator alloc] initWithDirectoryPath: path recurseIntoSubdirectories: YES followSymlinks: NO justContents: NO]; content = [NSMutableArray arrayWithCapacity: 128]; nxtImp = [direnum methodForSelector: @selector(nextObject)]; addImp = [content methodForSelector: @selector(addObject:)]; while ((path = (*nxtImp)(direnum, @selector(nextObject))) != nil) { (*addImp)(content, @selector(addObject:), path); } RELEASE(direnum); return content; } // Symbolic-link operations - (BOOL) createSymbolicLinkAtPath: (NSString*)path pathContent: (NSString*)otherPath { #if HAVE_SYMLINK const char* newpath = [self fileSystemRepresentationWithPath: path]; const char* oldpath = [self fileSystemRepresentationWithPath: otherPath]; return (symlink(oldpath, newpath) == 0); #else return NO; #endif } - (NSString*) pathContentOfSymbolicLinkAtPath: (NSString*)path { #if HAVE_READLINK char lpath[PATH_MAX]; const char* cpath = [self fileSystemRepresentationWithPath: path]; int llen = readlink(cpath, lpath, PATH_MAX-1); if (llen > 0) return [self stringWithFileSystemRepresentation: lpath length: llen]; else return nil; #else return nil; #endif } // Converting file-system representations - (const char*) fileSystemRepresentationWithPath: (NSString*)path { #ifdef __MINGW__ /* * If path is in Unix format, transmogrify it so Windows functions * can handle it */ NSString *newpath = path; const char *c_path = [path cString]; int l = [path length]; if (c_path == 0) { return 0; } if (l >= 3 && c_path[0] == '/' && c_path[1] == '/' && isalpha(c_path[2])) { if (l == 3 || c_path[3] == '/') { /* Cygwin "//c/" type absolute path */ newpath = [NSString stringWithFormat: @"%c:%s", c_path[2], &c_path[3]]; } else { /* Windows absolute UNC path "//name/" */ newpath = path; } } else if (isalpha(c_path[0]) && c_path[1] == ':') { /* Windows absolute path */ newpath = path; } else if (c_path[0] == '/') { #ifdef __CYGWIN__ NSDictionary *env; NSString *cyghome; env = [[NSProcessInfo processInfo] environment]; cyghome = [env objectForKey: @"CYGWIN_HOME"]; if (cyghome != nil) { /* FIXME: Find cygwin drive? */ newpath = cyghome; newpath = [newpath stringByAppendingPathComponent: path]; } else { newpath = path; } #else if (l >= 3 && c_path[0] == '/' && c_path[2] == '/' && isalpha(c_path[1])) { /* Mingw /drive/... format */ newpath = [NSString stringWithFormat: @"%c:%s", c_path[1], &c_path[3]]; } else { newpath = path; } #endif } else { newpath = path; } newpath = [newpath stringByReplacingString: @"/" withString: @"\\"]; return [newpath cString]; #else return [path cString]; #endif } - (NSString*) stringWithFileSystemRepresentation: (const char*)string length: (unsigned int)len { return [NSString stringWithCString: string length: len]; } @end /* NSFileManager */ /* * NSDirectoryEnumerator implementation * * The Objective-C interface hides a traditional C implementation. * This was the only way I could get near the speed of standard unix * tools for big directories. */ /* A directory to enumerate. We keep a stack of the directories we still have to enumerate. We start by putting the top-level directory into the stack, then we start reading files from it (using readdir). If we find a file which is actually a directory, and if we have to recurse into it, we create a new GSEnumeratedDirectory struct for the subdirectory, open its DIR *pointer for reading, and put it on top of the stack, so next time -nextObject is called, it will read from that directory instead of the top level one. Once all the subdirectory is read, it is removed from the stack, so the top of the stack if the top directory again, and enumeration continues in there. */ typedef struct _GSEnumeratedDirectory { char *path; DIR *pointer; } GSEnumeratedDirectory; inline void gsedRelease(GSEnumeratedDirectory X) { free(X.path); closedir(X.pointer); } #define GSI_ARRAY_TYPES 0 #define GSI_ARRAY_TYPE GSEnumeratedDirectory #define GSI_ARRAY_RELEASE(A, X) gsedRelease(X.ext) #define GSI_ARRAY_RETAIN(A, X) #include /* Portable replacement for strdup - return a copy of original. */ inline char *custom_strdup (const char *original) { char *result; unsigned length = sizeof(char) * (strlen (original) + 1); result = NSZoneMalloc(NSDefaultMallocZone(), length); memcpy(result, original, length); return result; } /* The return value of this function is to be freed by using NSZoneFree(). The function takes for granted that path and file are correct filesystem paths; that path does not end with a path separator, and file does not begin with a path separator. */ inline char *append_file_to_path (const char *path, const char *file) { unsigned path_length = strlen(path); unsigned file_length = strlen(file); unsigned total_length = path_length + 1 + file_length; char *result; if (path_length == 0) { return custom_strdup(file); } result = NSZoneMalloc(NSDefaultMallocZone(), sizeof(char) * total_length + 1); memcpy(result, path, sizeof(char) * path_length); #ifdef __MINGW__ result[path_length] = '\\'; #else result[path_length] = '/'; #endif memcpy(&result[path_length + 1], file, sizeof(char) * file_length); result[total_length] = '\0'; return result; } static SEL swfsSel = 0; @implementation NSDirectoryEnumerator + (void) initialize { if (self == [NSDirectoryEnumerator class]) { /* Initialize the default manager which we access directly */ [NSFileManager defaultManager]; swfsSel = @selector(stringWithFileSystemRepresentation:length:); } } // Initializing - (id) initWithDirectoryPath: (NSString*)path recurseIntoSubdirectories: (BOOL)recurse followSymlinks: (BOOL)follow justContents: (BOOL)justContents { DIR *dir_pointer; const char *topPath; _stringWithFileSysImp = (NSString *(*)(id, SEL, char *, unsigned)) [defaultManager methodForSelector: swfsSel]; _stack = NSZoneMalloc([self zone], sizeof(GSIArray_t)); GSIArrayInitWithZoneAndCapacity(_stack, [self zone], 64); _flags.isRecursive = recurse; _flags.isFollowing = follow; _flags.justContents = justContents; topPath = [defaultManager fileSystemRepresentationWithPath: path]; _top_path = custom_strdup(topPath); dir_pointer = opendir(_top_path); if (dir_pointer) { GSIArrayItem item; item.ext.path = custom_strdup(""); item.ext.pointer = dir_pointer; GSIArrayAddItem(_stack, item); } else { NSLog(@"Failed to recurse into directory '%@' - %s", path, GSLastErrorStr(errno)); } return self; } - (void) dealloc { GSIArrayEmpty(_stack); NSZoneFree([self zone], _stack); NSZoneFree(NSDefaultMallocZone(), _top_path); if (_current_file_path != NULL) { NSZoneFree(NSDefaultMallocZone(), _current_file_path); } [super dealloc]; } // Getting attributes - (NSDictionary*) directoryAttributes { NSString *topPath; topPath = _stringWithFileSysImp(defaultManager, swfsSel, _top_path, strlen(_top_path)); return [defaultManager fileAttributesAtPath: topPath traverseLink: _flags.isFollowing]; } - (NSDictionary*) fileAttributes { NSString *currentFilePath; currentFilePath = _stringWithFileSysImp(defaultManager, swfsSel, _current_file_path, strlen(_current_file_path)); return [defaultManager fileAttributesAtPath: currentFilePath traverseLink: _flags.isFollowing]; } // Skipping subdirectories - (void) skipDescendents { if (GSIArrayCount(_stack) > 0) { GSIArrayRemoveLastItem(_stack); if (_current_file_path != NULL) { NSZoneFree(NSDefaultMallocZone(), _current_file_path); _current_file_path = NULL; } } } // Enumerate next - (id) nextObject { /* finds the next file according to the top enumerator - if there is a next file it is put in currentFile - if the current file is a directory and if isRecursive calls recurseIntoDirectory: currentFile - if the current file is a symlink to a directory and if isRecursive and isFollowing calls recurseIntoDirectory: currentFile - if at end of current directory pops stack and attempts to find the next entry in the parent - sets currentFile to nil if there are no more files to enumerate */ char *return_file_name = NULL; if (_current_file_path != NULL) { NSZoneFree(NSDefaultMallocZone(), _current_file_path); _current_file_path = NULL; } while (GSIArrayCount(_stack) > 0) { GSEnumeratedDirectory dir = GSIArrayLastItem(_stack).ext; struct dirent *dirbuf; struct stat statbuf; dirbuf = readdir(dir.pointer); if (dirbuf) { /* Skip "." and ".." directory entries */ if (strcmp(dirbuf->d_name, ".") == 0 || strcmp(dirbuf->d_name, "..") == 0) continue; /* Name of file to return */ return_file_name = append_file_to_path(dir.path, dirbuf->d_name); /* TODO - can this one can be removed ? */ if (!_flags.justContents) { _current_file_path = append_file_to_path(_top_path, return_file_name); } if (_flags.isRecursive == YES) { // Do not follow links #ifdef S_IFLNK if (!_flags.isFollowing) { if (lstat(_current_file_path, &statbuf) != 0) break; // If link then return it as link if (S_IFLNK == (S_IFMT & statbuf.st_mode)) break; } else #endif { if (stat(_current_file_path, &statbuf) != 0) break; } if (S_IFDIR == (S_IFMT & statbuf.st_mode)) { DIR* dir_pointer; dir_pointer = opendir(_current_file_path); if (dir_pointer) { GSIArrayItem item; item.ext.path = custom_strdup(return_file_name); item.ext.pointer = dir_pointer; GSIArrayAddItem(_stack, item); } else { NSLog(@"Failed to recurse into directory '%s' - %s", _current_file_path, GSLastErrorStr(errno)); } } } break; // Got a file name - break out of loop } else { GSIArrayRemoveLastItem(_stack); if (_current_file_path != NULL) { NSZoneFree(NSDefaultMallocZone(), _current_file_path); _current_file_path = NULL; } } } if (return_file_name == NULL) { return nil; } else { NSString *result = _stringWithFileSysImp(defaultManager, swfsSel, return_file_name, strlen(return_file_name)); NSZoneFree(NSDefaultMallocZone(), return_file_name); return result; } } @end /* NSDirectoryEnumerator */ @implementation NSDirectoryEnumerator (PrivateMethods) - (NSDictionary*) _attributesForCopy { NSString *currentFilePath; currentFilePath = _stringWithFileSysImp(defaultManager, swfsSel, _current_file_path, strlen(_current_file_path)); return [defaultManager _attributesAtPath: currentFilePath traverseLink: _flags.isFollowing forCopy: YES]; } @end /* * Attributes dictionary access */ @implementation NSDictionary(NSFileAttributes) - (unsigned long long) fileSize { return [[self objectForKey: NSFileSize] unsignedLongLongValue]; } - (NSString*) fileType { return [self objectForKey: NSFileType]; } - (NSString*) fileOwnerAccountName { return [self objectForKey: NSFileOwnerAccountName]; } - (unsigned long) fileOwnerAccountNumber { return [[self objectForKey: NSFileOwnerAccountNumber] unsignedIntValue]; } - (NSString*) fileGroupOwnerAccountName { return [self objectForKey: NSFileGroupOwnerAccountName]; } - (unsigned long) fileGroupOwnerAccountNumber { return [[self objectForKey: NSFileGroupOwnerAccountNumber] unsignedIntValue]; } - (NSDate*) fileModificationDate { return [self objectForKey: NSFileModificationDate]; } - (unsigned long) filePosixPermissions { return [[self objectForKey: NSFilePosixPermissions] unsignedLongValue]; } - (unsigned long) fileSystemNumber { return [[self objectForKey: NSFileSystemNumber] unsignedLongValue]; } - (unsigned long) fileSystemFileNumber { return [[self objectForKey: NSFileSystemFileNumber] unsignedLongValue]; } @end @implementation NSFileManager (PrivateMethods) - (BOOL) _copyFile: (NSString*)source toFile: (NSString*)destination handler: (id)handler { #if defined(__MINGW__) if (CopyFile([self fileSystemRepresentationWithPath: source], [self fileSystemRepresentationWithPath: destination], NO)) { return YES; } if (handler != nil) { NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: source, @"Path", @"cannot copy file", @"Error", destination, @"ToPath", nil]; return [handler fileManager: self shouldProceedAfterError: errorInfo]; } else { return NO; } #else NSDictionary *attributes; int i; int bufsize = 8096; int sourceFd; int destFd; int fileSize; int fileMode; int rbytes; int wbytes; char buffer[bufsize]; /* Assumes source is a file and exists! */ NSAssert1 ([self fileExistsAtPath: source], @"source file '%@' does not exist!", source); attributes = [self _attributesAtPath: source traverseLink: NO forCopy: YES]; NSAssert1 (attributes, @"could not get the attributes for file '%@'", source); fileSize = [[attributes objectForKey: NSFileSize] intValue]; fileMode = [[attributes objectForKey: NSFilePosixPermissions] intValue]; /* Open the source file. In case of error call the handler. */ sourceFd = open([self fileSystemRepresentationWithPath: source], GSBINIO|O_RDONLY); if (sourceFd < 0) { if (handler != nil) { NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: source, @"Path", @"cannot open file for reading", @"Error", nil]; return [handler fileManager: self shouldProceedAfterError: errorInfo]; } else { return NO; } } /* Open the destination file. In case of error call the handler. */ destFd = open([self fileSystemRepresentationWithPath: destination], GSBINIO|O_WRONLY|O_CREAT|O_TRUNC, fileMode); if (destFd < 0) { if (handler != nil) { NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: destination, @"ToPath", @"cannot open file for writing", @"Error", nil]; close (sourceFd); return [handler fileManager: self shouldProceedAfterError: errorInfo]; } else { return NO; } } /* Read bufsize bytes from source file and write them into the destination file. In case of errors call the handler and abort the operation. */ for (i = 0; i < fileSize; i += rbytes) { rbytes = read (sourceFd, buffer, bufsize); if (rbytes < 0) { if (handler != nil) { NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: source, @"Path", @"cannot read from file", @"Error", nil]; close (sourceFd); close (destFd); return [handler fileManager: self shouldProceedAfterError: errorInfo]; } else { return NO; } } wbytes = write (destFd, buffer, rbytes); if (wbytes != rbytes) { if (handler != nil) { NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: source, @"Path", destination, @"ToPath", @"cannot write to file", @"Error", nil]; close (sourceFd); close (destFd); return [handler fileManager: self shouldProceedAfterError: errorInfo]; } else { return NO; } } } close (sourceFd); close (destFd); return YES; #endif } - (BOOL) _copyPath: (NSString*)source toPath: (NSString*)destination handler: handler { NSDirectoryEnumerator *enumerator; NSString *dirEntry; CREATE_AUTORELEASE_POOL(pool); enumerator = [self enumeratorAtPath: source]; while ((dirEntry = [enumerator nextObject])) { NSString *sourceFile; NSString *fileType; NSString *destinationFile; NSDictionary *attributes; attributes = [enumerator _attributesForCopy]; fileType = [attributes objectForKey: NSFileType]; sourceFile = [source stringByAppendingPathComponent: dirEntry]; destinationFile = [destination stringByAppendingPathComponent: dirEntry]; [handler fileManager: self willProcessPath: sourceFile]; if ([fileType isEqual: NSFileTypeDirectory]) { if (![self createDirectoryAtPath: destinationFile attributes: attributes]) { if (handler) { NSDictionary *errorInfo; errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: destinationFile, @"Path", _lastError, @"Error", nil]; if (![handler fileManager: self shouldProceedAfterError: errorInfo]) return NO; } else return NO; } else { [enumerator skipDescendents]; if (![self _copyPath: sourceFile toPath: destinationFile handler: handler]) return NO; } } else if ([fileType isEqual: NSFileTypeRegular]) { if (![self _copyFile: sourceFile toFile: destinationFile handler: handler]) return NO; } else if ([fileType isEqual: NSFileTypeSymbolicLink]) { NSString *path; path = [self pathContentOfSymbolicLinkAtPath: sourceFile]; if (![self createSymbolicLinkAtPath: destinationFile pathContent: path]) { if (handler) { NSDictionary *errorInfo = [NSDictionary dictionaryWithObjectsAndKeys: sourceFile, @"Path", destinationFile, @"ToPath", @"cannot create symbolic link", @"Error", nil]; if (![handler fileManager: self shouldProceedAfterError: errorInfo]) { return NO; } } else { return NO; } } } else { NSString *s; s = [NSString stringWithFormat: @"cannot copy file type '%@'", fileType]; ASSIGN(_lastError, s); NSLog(@"%@: %@", sourceFile, s); continue; } [self changeFileAttributes: attributes atPath: destinationFile]; } RELEASE(pool); return YES; } #if (defined(sparc) && defined(DEBUG)) static int sparc_warn = 0; #endif - (NSDictionary*) _attributesAtPath: (NSString*)path traverseLink: (BOOL)traverse forCopy: (BOOL)copy { struct stat statbuf; const char* cpath = [self fileSystemRepresentationWithPath: path]; int mode; int count; id values[12]; id keys[12] = { NSFileSize, NSFileModificationDate, NSFileReferenceCount, NSFileSystemNumber, NSFileSystemFileNumber, NSFileDeviceIdentifier, NSFilePosixPermissions, NSFileType, NSFileOwnerAccountName, NSFileGroupOwnerAccountName, NSFileOwnerAccountNumber, NSFileGroupOwnerAccountNumber }; #if defined(__MINGW__) if (stat(cpath, &statbuf) != 0) { return nil; } #else /* !(__MINGW__) */ if (traverse) { if (stat(cpath, &statbuf) != 0) { return nil; } } #ifdef S_IFLNK else { if (lstat(cpath, &statbuf) != 0) { return nil; } } #endif /* (S_IFLNK) */ #endif /* (__MINGW__) */ values[0] = [NSNumber numberWithUnsignedLongLong: statbuf.st_size]; values[1] = [NSDate dateWithTimeIntervalSince1970: statbuf.st_mtime]; values[2] = [NSNumber numberWithUnsignedInt: statbuf.st_nlink]; values[3] = [NSNumber numberWithUnsignedLong: statbuf.st_dev]; values[4] = [NSNumber numberWithUnsignedLong: statbuf.st_ino]; values[5] = [NSNumber numberWithUnsignedInt: statbuf.st_dev]; values[6] = [NSNumber numberWithUnsignedInt: statbuf.st_mode]; mode = statbuf.st_mode & S_IFMT; if (mode == S_IFREG) values[7] = NSFileTypeRegular; else if (mode == S_IFDIR) values[7] = NSFileTypeDirectory; else if (mode == S_IFCHR) values[7] = NSFileTypeCharacterSpecial; else if (mode == S_IFBLK) values[7] = NSFileTypeBlockSpecial; #ifdef S_IFLNK else if (mode == S_IFLNK) values[7] = NSFileTypeSymbolicLink; #endif else if (mode == S_IFIFO) values[7] = NSFileTypeFifo; #ifdef S_IFSOCK else if (mode == S_IFSOCK) values[7] = NSFileTypeSocket; #endif else values[7] = NSFileTypeUnknown; if (copy == NO) { #if HAVE_PWD_H { struct passwd *pw; pw = getpwuid(statbuf.st_uid); if (pw) { values[8] = [NSString stringWithCString: pw->pw_name]; } else { values[8] = @"UnknownUser"; } } #else values[8] = @"UnknownUser"; #endif /* HAVE_PWD_H */ #if defined(HAVE_GRP_H) && !(defined(sparc) && defined(DEBUG)) { struct group *gp; setgrent(); while ((gp = getgrent()) != 0) { if (gp->gr_gid == statbuf.st_gid) { break; } } if (gp) { values[9] = [NSString stringWithCString: gp->gr_name]; } else { values[9] = @"UnknownGroup"; } endgrent(); } #else #if (defined(sparc) && defined(DEBUG)) if (sparc_warn == 0) { sparc_warn = 1; /* Can't be NSLog - causes recursion in [NSUser -synchronize] */ fprintf(stderr, "WARNING (NSFileManager): Disabling group enums (setgrent, etc) since this crashes gdb on sparc machines\n"); } #endif values[9] = @"UnknownGroup"; #endif values[10] = [NSNumber numberWithUnsignedInt: statbuf.st_uid]; values[11] = [NSNumber numberWithUnsignedInt: statbuf.st_gid]; count = 12; } else { NSString *u = NSUserName(); count = 8; /* No ownership details needed. */ /* * If we are running setuid to root - we need to specify the user * to be the owner of copied files. */ #if HAVE_GETEUID if (geteuid() == 0 && [@"root" isEqualToString: u] == NO) { values[count++] = u; } #endif } return [NSDictionary dictionaryWithObjects: values forKeys: keys count: count]; } @end /* NSFileManager (PrivateMethods) */