/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2010 Thomas Martitz * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #define RB_FILESYSTEM_OS #include /* snprintf */ #include #include #include #include #include #include #include "config.h" #include "system.h" #include "file.h" #include "dir.h" #include "file_internal.h" #include "pathfuncs.h" #include "string-extra.h" #include "rbpaths.h" #include "logf.h" #if (CONFIG_PLATFORM & PLATFORM_ANDROID) static const char rbhome[] = "/sdcard"; #elif (CONFIG_PLATFORM & (PLATFORM_SDL|PLATFORM_MAEMO|PLATFORM_PANDORA)) \ && !defined(__PCTOOL__) const char *rbhome; #else /* YPR0, YPR1 */ static const char rbhome[] = HOME_DIR; #endif #if !(defined(SAMSUNG_YPR0) || defined(SAMSUNG_YPR1)) && !defined(__PCTOOL__) /* Special dirs are user-accessible (and user-writable) dirs which take priority * over the ones where Rockbox is installed to. Classic example would be * $HOME/.config/rockbox.org vs /usr/share/rockbox */ #define HAVE_SPECIAL_DIRS #endif #ifdef HAVE_MULTIDRIVE /* This is to compare any opened directories with the home directory so that the special drive links may be returned for it only */ static int rbhome_fildes = -1; /* A special link is created under e.g. HOME_DIR/, e.g. to access * external storage in a convenient location, much similar to the mount * point on our native targets. Here they are treated as symlink (one which * doesn't actually exist in the filesystem and therefore we have to override * readlink() */ static const char *handle_special_links(const char* link, unsigned flags, char *buf, const size_t bufsize) { (void) flags; char vol_string[VOL_MAX_LEN + 1]; int len; for (int i = 1; i < NUM_VOLUMES; i++) { len = get_volume_name(i, vol_string); /* link might be passed with or without HOME_DIR expanded. To handle * both perform substring matching (VOL_NAMES is unique enough) */ const char *begin = strstr(link, vol_string); if (begin) { /* begin now points to the start of vol_string within link, * we want to copy the remainder of the paths, prefixed by * the actual mount point (the remainder might be "") */ snprintf(buf, bufsize, MULTIDRIVE_DIR"%s", begin + len); return buf; } } return link; } #endif #ifdef HAVE_MULTIDRIVE /* we keep an open descriptor of the home directory to detect when it has been opened by opendir() so that its "symlinks" may be enumerated */ static void cleanup_rbhome(void) { os_close(rbhome_fildes); rbhome_fildes = -1; } #endif /* HAVE_MULTIDRIVE */ void paths_init(void) { #ifdef HAVE_SPECIAL_DIRS /* make sure $HOME/.config/rockbox.org exists, it's needed for config.cfg */ #if (CONFIG_PLATFORM & PLATFORM_ANDROID) os_mkdir("/sdcard/rockbox" __MKDIR_MODE_ARG); os_mkdir("/sdcard/rockbox/rocks.data" __MKDIR_MODE_ARG); os_mkdir("/sdcard/rockbox/eqs" __MKDIR_MODE_ARG); #else char config_dir[MAX_PATH]; const char *home = getenv("RBROOT"); if (!home) { home = getenv("HOME"); } if (!home) { logf("HOME environment var not set. Can't write config"); return; } rbhome = home; snprintf(config_dir, sizeof(config_dir), "%s/.config", home); os_mkdir(config_dir __MKDIR_MODE_ARG); snprintf(config_dir, sizeof(config_dir), "%s/.config/rockbox.org", home); os_mkdir(config_dir __MKDIR_MODE_ARG); /* Plugin data directory */ snprintf(config_dir, sizeof(config_dir), "%s/.config/rockbox.org/rocks.data", home); os_mkdir(config_dir __MKDIR_MODE_ARG); #endif #endif /* HAVE_SPECIAL_DIRS */ #ifdef HAVE_MULTIDRIVE /* if this fails then alternate volumes will not work, but this function cannot return that fact */ rbhome_fildes = os_opendirfd(rbhome); if (rbhome_fildes >= 0) atexit(cleanup_rbhome); #endif /* HAVE_MULTIDRIVE */ } #ifdef HAVE_SPECIAL_DIRS static const char* _get_user_file_path(const char *path, unsigned flags, char* buf, const size_t bufsize) { const char *ret = path; const char *pos = path; /* replace ROCKBOX_DIR in path with $HOME/.config/rockbox.org */ pos += ROCKBOX_DIR_LEN; if (*pos == '/') pos += 1; #if (CONFIG_PLATFORM & PLATFORM_ANDROID) if (path_append(buf, "/sdcard/rockbox", pos, bufsize) >= bufsize) return NULL; #else if (path_append(buf, rbhome, ".config/rockbox.org", bufsize) >= bufsize || path_append(buf, PA_SEP_SOFT, pos, bufsize) >= bufsize) return NULL; #endif /* always return the replacement buffer (pointing to $HOME) if * write access is needed */ if (flags & NEED_WRITE) ret = buf; else if (os_file_exists(buf)) ret = buf; if (ret != buf) /* not found in $HOME, try ROCKBOX_BASE_DIR, !NEED_WRITE only */ { if (path_append(buf, ROCKBOX_SHARE_PATH, pos, bufsize) >= bufsize) return NULL; if (os_file_exists(buf)) ret = buf; } return ret; } #endif const char * handle_special_dirs(const char *dir, unsigned flags, char *buf, const size_t bufsize) { (void) flags; (void) buf; (void) bufsize; #ifdef HAVE_SPECIAL_DIRS if (!strncmp(HOME_DIR, dir, HOME_DIR_LEN)) { const char *p = dir + HOME_DIR_LEN; while (*p == '/') p++; snprintf(buf, bufsize, "%s/%s", rbhome, p); dir = buf; } else if (!strncmp(ROCKBOX_DIR, dir, ROCKBOX_DIR_LEN)) dir = _get_user_file_path(dir, flags, buf, bufsize); #endif #ifdef HAVE_MULTIDRIVE dir = handle_special_links(dir, flags, buf, bufsize); #endif return dir; } int app_open(const char *path, int oflag, ...) { int flags = IS_FILE; if (oflag & O_ACCMODE) flags |= NEED_WRITE; char realpath[MAX_PATH]; const char *fpath = handle_special_dirs(path, flags, realpath, sizeof (realpath)); if (!fpath) FILE_ERROR_RETURN(ENAMETOOLONG, -1); return os_open(fpath, oflag __OPEN_MODE_ARG); } int app_creat(const char *path, mode_t mode) { return app_open(path, O_CREAT|O_WRONLY|O_TRUNC, mode); } int app_remove(const char *path) { char realpath[MAX_PATH]; const char *fpath = handle_special_dirs(path, NEED_WRITE, realpath, sizeof (realpath)); if (!fpath) FILE_ERROR_RETURN(ENAMETOOLONG, -1); return os_remove(fpath); } int app_rename(const char *old, const char *new) { char realpath_old[MAX_PATH], realpath_new[MAX_PATH]; const char *fold = handle_special_dirs(old, NEED_WRITE, realpath_old, sizeof (realpath_old)); const char *fnew = handle_special_dirs(new, NEED_WRITE, realpath_new, sizeof (realpath_new)); if (!fold || !fnew) FILE_ERROR_RETURN(ENAMETOOLONG, -1); return os_rename(fold, fnew); } #ifdef HAVE_SDL_THREADS ssize_t app_read(int fd, void *buf, size_t nbyte) { return os_read(fd, buf, nbyte); } ssize_t app_write(int fd, const void *buf, size_t nbyte) { return os_write(fd, buf, nbyte); } #endif /* HAVE_SDL_THREADS */ int app_relate(const char *path1, const char *path2) { char realpath_1[MAX_PATH], realpath_2[MAX_PATH]; const char *fpath1 = handle_special_dirs(path1, 0, realpath_1, sizeof (realpath_1)); const char *fpath2 = handle_special_dirs(path2, 0, realpath_2, sizeof (realpath_2)); if (!fpath1 || !fpath2) FILE_ERROR_RETURN(ENAMETOOLONG, -1); return os_relate(fpath1, fpath2); } bool app_file_exists(const char *path) { char realpath[MAX_PATH]; const char *fpath = handle_special_dirs(path, NEED_WRITE, realpath, sizeof (realpath)); if (!fpath) FILE_ERROR_RETURN(ENAMETOOLONG, false); return os_file_exists(fpath); } /* need to wrap around DIR* because we need to save the parent's directory * path in order to determine dirinfo for volumes or convert the path to UTF-8; * also is required to implement get_dir_info() */ struct __dir { OS_DIR_T *osdirp; #ifdef HAVE_MULTIDRIVE int volumes_returned; #endif int osfd; bool osfd_is_opened; #if defined(OS_DIRENT_CONVERT) || defined (HAVE_MULTIDRIVE) #define USE_DIRENTP struct dirent *direntp; size_t d_name_size; #endif char path[]; }; static void __dir_free(struct __dir *this) { if (!this) return; #ifdef USE_DIRENTP free(this->direntp); #endif if (this->osfd_is_opened) os_close(this->osfd); free(this); } DIR * app_opendir(const char *dirname) { int rc; char realpath[MAX_PATH]; const char *fname = handle_special_dirs(dirname, 0, realpath, sizeof (realpath)); if (!fname) FILE_ERROR_RETURN(ENAMETOOLONG, NULL); size_t name_len = path_strip_trailing_separators(fname, &fname); struct __dir *this = calloc(1, sizeof (*this) + name_len + 1); if (!this) FILE_ERROR(ENOMEM, RC); #ifdef USE_DIRENTP /* allocate what we're really going to return to callers, making certain it has at least the d_name size we want */ this->d_name_size = MAX(MAX_PATH, sizeof (this->direntp->d_name)); this->direntp = calloc(1, offsetof(typeof (*this->direntp), d_name) + this->d_name_size); if (!this->direntp) FILE_ERROR(ENOMEM, RC); /* only the d_name field will be valid but that is all that anyone may truely count on portably existing */ #endif /* USE_DIRENTP */ strmemcpy(this->path, fname, name_len); rc = os_opendir_and_fd(this->path, &this->osdirp, &this->osfd); if (rc < 0) FILE_ERROR(ERRNO, RC); this->osfd_is_opened = rc > 0; #ifdef HAVE_MULTIDRIVE this->volumes_returned = INT_MAX; /* assume NOT $HOME */ if (rbhome_fildes >= 0 && os_fsamefile(rbhome_fildes, this->osfd) > 0) this->volumes_returned = 0; /* there's no place like $HOME */ #endif /* HAVE_MULTIDRIVE */ return (DIR *)this; file_error: __dir_free(this); return NULL; } int app_closedir(DIR *dirp) { struct __dir *this = (struct __dir *)dirp; if (!this) FILE_ERROR_RETURN(EBADF, -1); OS_DIR_T *osdirp = this->osdirp; __dir_free(this); return os_closedir(osdirp); } struct dirent * app_readdir(DIR *dirp) { struct __dir *this = (struct __dir *)dirp; if (!this) FILE_ERROR_RETURN(EBADF, NULL); #ifdef HAVE_MULTIDRIVE if (this->volumes_returned < NUM_VOLUMES) { while (++this->volumes_returned < NUM_VOLUMES) { if (!volume_present(this->volumes_returned)) continue; get_volume_name(this->volumes_returned, this->direntp->d_name); return this->direntp; } } /* do normal directory reads */ #endif /* HAVE_MULTIDRIVE */ OS_DIRENT_T *osdirent = os_readdir(this->osdirp); #ifdef OS_DIRENT_CONVERT if (strlcpy_from_os(this->direntp->d_name, osdirent->d_name, this->d_name_size) >= this->d_name_size) { this->direntp->d_name[0] = '\0'; errno = EOVERFLOW; return NULL; } osdirent = (OS_DIRENT_T *)this->direntp; #endif /* OS_DIRENT_CONVERT */ return (struct dirent *)osdirent; } int app_mkdir(const char *path) { char realpath[MAX_PATH]; const char *fname = handle_special_dirs(path, NEED_WRITE, realpath, sizeof (realpath)); if (!fname) FILE_ERROR_RETURN(ENAMETOOLONG, -1); return os_mkdir(fname __MKDIR_MODE_ARG); } int app_rmdir(const char *path) { char realpath[MAX_PATH]; const char *fname = handle_special_dirs(path, NEED_WRITE, realpath, sizeof (realpath)); if (!fname) FILE_ERROR_RETURN(ENAMETOOLONG, -1); return os_rmdir(fname); } int app_samedir(DIR *dirp1, DIR *dirp2) { struct __dir *this1 = (struct __dir *)dirp1; struct __dir *this2 = (struct __dir *)dirp2; if (!this1 || !this2) { errno = EBADF; return -1; } return os_fsamefile(this1->osfd, this2->osfd); } bool app_dir_exists(const char *dirname) { char realpath[MAX_PATH]; const char *fname = handle_special_dirs(dirname, 0, realpath, sizeof (realpath)); if (!fname) FILE_ERROR_RETURN(ENAMETOOLONG, false); OS_DIR_T *osdirp = os_opendir(fname); if (!osdirp) return false; os_closedir(osdirp); return true; } struct dirinfo dir_get_info(DIR *dirp, struct dirent *entry) { struct __dir *this = (struct __dir *)dirp; struct dirinfo ret = { .attribute = 0, .mtime = 0 }; if (!this) FILE_ERROR_RETURN(EBADF, ret); if (!entry || entry->d_name[0] == '\0') FILE_ERROR_RETURN(ENOENT, ret); char path[MAX_PATH]; #ifdef HAVE_MULTIDRIVE if (this->volumes_returned < NUM_VOLUMES) { /* last thing read was a "symlink" */ ret.attribute = ATTR_LINK; strcpy(path, MULTIDRIVE_DIR); } else #endif if (path_append(path, this->path, entry->d_name, sizeof (path)) >= sizeof (path)) { FILE_ERROR_RETURN(ENAMETOOLONG, ret); } struct stat s; if (os_lstat(path, &s) < 0) FILE_ERROR_RETURN(ERRNO, ret); int err = 0; if (S_ISLNK(s.st_mode)) { ret.attribute |= ATTR_LINK; err = os_stat(path, &s); } if (err < 0) FILE_ERROR_RETURN(ERRNO, ret); if (S_ISDIR(s.st_mode)) ret.attribute |= ATTR_DIRECTORY; ret.size = s.st_size; struct tm tm; if (!localtime_r(&s.st_mtime, &tm)) FILE_ERROR_RETURN(ERRNO, ret); ret.mtime = mktime(&tm); return ret; } /* On MD we create a virtual symlink for the external drive, * for this we need to override readlink(). */ ssize_t app_readlink(const char *path, char *buf, size_t bufsiz) { char _buf[MAX_PATH]; path = handle_special_dirs(path, 0, _buf, sizeof(_buf)); #ifdef HAVE_MULTIDRIVE /* if path == _buf then we can be sure handle_special_dir() did something * and path is not an ordinary directory */ if (path == _buf && !strncmp(path, MULTIDRIVE_DIR, sizeof(MULTIDRIVE_DIR)-1)) { /* copying NUL is not required as per readlink specification */ ssize_t len = strlen(path); memcpy(buf, path, len); return len; } #endif /* does not append NUL !! */ return os_readlink(path, buf, bufsiz); (void) path; (void) buf; (void) bufsiz; } int os_volume_path(IF_MV(int volume, ) char *buffer, size_t bufsize) { #ifdef HAVE_MULTIVOLUME char volname[VOL_MAX_LEN + 1]; get_volume_name(volume, volname); #else const char *volname = "/"; #endif if (!handle_special_dirs(volname, NEED_WRITE, buffer, bufsize)) { errno = ENAMETOOLONG; return -1; } return 0; }