/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "apr_arch_file_io.h" #include "apr_strings.h" #include "apr_portable.h" #if APR_HAVE_SYS_SYSLIMITS_H #include #endif #if APR_HAVE_LIMITS_H #include #endif static apr_status_t dir_cleanup(void *thedir) { apr_dir_t *dir = thedir; if (closedir(dir->dirstruct) == 0) { return APR_SUCCESS; } else { return errno; } } #define PATH_SEPARATOR '/' /* Remove trailing separators that don't affect the meaning of PATH. */ static const char *path_canonicalize (const char *path, apr_pool_t *pool) { /* At some point this could eliminate redundant components. For * now, it just makes sure there is no trailing slash. */ apr_size_t len = strlen (path); apr_size_t orig_len = len; while ((len > 0) && (path[len - 1] == PATH_SEPARATOR)) len--; if (len != orig_len) return apr_pstrndup (pool, path, len); else return path; } /* Remove one component off the end of PATH. */ static char *path_remove_last_component (const char *path, apr_pool_t *pool) { const char *newpath = path_canonicalize (path, pool); int i; for (i = (strlen(newpath) - 1); i >= 0; i--) { if (path[i] == PATH_SEPARATOR) break; } return apr_pstrndup (pool, path, (i < 0) ? 0 : i); } apr_status_t apr_dir_open(apr_dir_t **new, const char *dirname, apr_pool_t *pool) { /* On some platforms (e.g., Linux+GNU libc), d_name[] in struct * dirent is declared with enough storage for the name. On other * platforms (e.g., Solaris 8 for Intel), d_name is declared as a * one-byte array. Note: gcc evaluates this at compile time. */ apr_size_t dirent_size = (sizeof((*new)->entry->d_name) > 1 ? sizeof(struct dirent) : sizeof (struct dirent) + 255); (*new) = (apr_dir_t *)apr_palloc(pool, sizeof(apr_dir_t)); (*new)->pool = pool; (*new)->dirname = apr_pstrdup(pool, dirname); (*new)->dirstruct = opendir(dirname); (*new)->entry = apr_pcalloc(pool, dirent_size); if ((*new)->dirstruct == NULL) { return errno; } else { apr_pool_cleanup_register((*new)->pool, (void *)(*new), dir_cleanup, apr_pool_cleanup_null); return APR_SUCCESS; } } apr_status_t apr_dir_close(apr_dir_t *thedir) { return apr_pool_cleanup_run(thedir->pool, thedir, dir_cleanup); } #ifdef DIRENT_TYPE static apr_filetype_e filetype_from_dirent_type(int type) { switch (type) { case DT_REG: return APR_REG; case DT_DIR: return APR_DIR; case DT_LNK: return APR_LNK; case DT_CHR: return APR_CHR; case DT_BLK: return APR_BLK; #if defined(DT_FIFO) case DT_FIFO: return APR_PIPE; #endif #if !defined(BEOS) && defined(DT_SOCK) case DT_SOCK: return APR_SOCK; #endif default: return APR_UNKFILE; } } #endif apr_status_t apr_dir_read(apr_finfo_t *finfo, apr_int32_t wanted, apr_dir_t *thedir) { apr_status_t ret = 0; #ifdef DIRENT_TYPE apr_filetype_e type; #endif #if APR_HAS_THREADS && defined(_POSIX_THREAD_SAFE_FUNCTIONS) \ && !defined(READDIR_IS_THREAD_SAFE) struct dirent *retent; ret = readdir_r(thedir->dirstruct, thedir->entry, &retent); /* Avoid the Linux problem where at end-of-directory thedir->entry * is set to NULL, but ret = APR_SUCCESS. */ if(!ret && thedir->entry != retent) ret = APR_ENOENT; /* Solaris is a bit strange, if there are no more entries in the * directory, it returns EINVAL. Since this is against POSIX, we * hack around the problem here. EINVAL is possible from other * readdir implementations, but only if the result buffer is too small. * since we control the size of that buffer, we should never have * that problem. */ if (ret == EINVAL) { ret = ENOENT; } #else /* We're about to call a non-thread-safe readdir() that may possibly set `errno', and the logic below actually cares about errno after the call. Therefore we need to clear errno first. */ errno = 0; thedir->entry = readdir(thedir->dirstruct); if (thedir->entry == NULL) { /* If NULL was returned, this can NEVER be a success. Can it?! */ if (errno == APR_SUCCESS) { ret = APR_ENOENT; } else ret = errno; } #endif /* No valid bit flag to test here - do we want one? */ finfo->fname = NULL; if (ret) { finfo->valid = 0; return ret; } #ifdef DIRENT_TYPE type = filetype_from_dirent_type(thedir->entry->DIRENT_TYPE); if (type != APR_UNKFILE) { wanted &= ~APR_FINFO_TYPE; } #endif #ifdef DIRENT_INODE if (thedir->entry->DIRENT_INODE && thedir->entry->DIRENT_INODE != -1) { wanted &= ~APR_FINFO_INODE; } #endif wanted &= ~APR_FINFO_NAME; if (wanted) { char fspec[APR_PATH_MAX]; int off; apr_cpystrn(fspec, thedir->dirname, sizeof(fspec)); off = strlen(fspec); if ((fspec[off - 1] != '/') && (off + 1 < sizeof(fspec))) fspec[off++] = '/'; apr_cpystrn(fspec + off, thedir->entry->d_name, sizeof(fspec) - off); ret = apr_lstat(finfo, fspec, wanted, thedir->pool); /* We passed a stack name that will disappear */ finfo->fname = NULL; } if (wanted && (ret == APR_SUCCESS || ret == APR_INCOMPLETE)) { wanted &= ~finfo->valid; } else { /* We don't bail because we fail to stat, when we are only -required- * to readdir... but the result will be APR_INCOMPLETE */ finfo->pool = thedir->pool; finfo->valid = 0; #ifdef DIRENT_TYPE if (type != APR_UNKFILE) { finfo->filetype = type; finfo->valid |= APR_FINFO_TYPE; } #endif #ifdef DIRENT_INODE if (thedir->entry->DIRENT_INODE && thedir->entry->DIRENT_INODE != -1) { finfo->inode = thedir->entry->DIRENT_INODE; finfo->valid |= APR_FINFO_INODE; } #endif } finfo->name = apr_pstrdup(thedir->pool, thedir->entry->d_name); finfo->valid |= APR_FINFO_NAME; if (wanted) return APR_INCOMPLETE; return APR_SUCCESS; } apr_status_t apr_dir_rewind(apr_dir_t *thedir) { rewinddir(thedir->dirstruct); return APR_SUCCESS; } apr_status_t apr_dir_make(const char *path, apr_fileperms_t perm, apr_pool_t *pool) { mode_t mode = apr_unix_perms2mode(perm); if (mkdir(path, mode) == 0) { return APR_SUCCESS; } else { return errno; } } apr_status_t apr_dir_make_recursive(const char *path, apr_fileperms_t perm, apr_pool_t *pool) { apr_status_t apr_err = 0; apr_err = apr_dir_make (path, perm, pool); /* Try to make PATH right out */ if (apr_err == EEXIST) /* It's OK if PATH exists */ return APR_SUCCESS; if (apr_err == ENOENT) { /* Missing an intermediate dir */ char *dir; dir = path_remove_last_component(path, pool); /* If there is no path left, give up. */ if (dir[0] == '\0') { return apr_err; } apr_err = apr_dir_make_recursive(dir, perm, pool); if (!apr_err) apr_err = apr_dir_make (path, perm, pool); } return apr_err; } apr_status_t apr_dir_remove(const char *path, apr_pool_t *pool) { if (rmdir(path) == 0) { return APR_SUCCESS; } else { return errno; } } apr_status_t apr_os_dir_get(apr_os_dir_t **thedir, apr_dir_t *dir) { if (dir == NULL) { return APR_ENODIR; } *thedir = dir->dirstruct; return APR_SUCCESS; } apr_status_t apr_os_dir_put(apr_dir_t **dir, apr_os_dir_t *thedir, apr_pool_t *pool) { if ((*dir) == NULL) { (*dir) = (apr_dir_t *)apr_pcalloc(pool, sizeof(apr_dir_t)); (*dir)->pool = pool; } (*dir)->dirstruct = thedir; return APR_SUCCESS; }