/**************************************************************************** * fs/unionfs/fs_unionfs.c * * 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. * ****************************************************************************/ /**************************************************************************** * Included Files ****************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "inode/inode.h" #include "fs_heap.h" #if !defined(CONFIG_DISABLE_MOUNTPOINT) && defined(CONFIG_FS_UNIONFS) /**************************************************************************** * Private Types ****************************************************************************/ struct unionfs_dir_s { struct fs_dirent_s fu_base; /* Vfs directory structure */ uint8_t fu_ndx; /* Index of file system being enumerated */ bool fu_eod; /* True: At end of directory */ bool fu_prefix[2]; /* True: Fake directory in prefix */ FAR char *fu_relpath; /* Path being enumerated */ FAR struct fs_dirent_s *fu_lower[2]; /* dirent struct used by contained file system */ }; /* This structure describes one contained file system mountpoint */ struct unionfs_mountpt_s { FAR struct inode *um_node; /* Filesystem inode */ FAR char *um_prefix; /* Path prefix to filesystem */ }; /* This structure describes the union file system */ struct unionfs_inode_s { struct unionfs_mountpt_s ui_fs[2]; /* Contained file systems */ mutex_t ui_lock; /* Enforces mutually exclusive access */ int16_t ui_nopen; /* Number of open references */ bool ui_unmounted; /* File system has been unmounted */ }; /* This structure descries one opened file */ struct unionfs_file_s { uint8_t uf_ndx; /* Filesystem index */ FAR struct file uf_file; /* Filesystem open file description */ }; /**************************************************************************** * Private Function Prototypes ****************************************************************************/ /* Helper functions */ static FAR const char *unionfs_offsetpath(FAR const char *relpath, FAR const char *prefix); static bool unionfs_ispartprefix(FAR const char *partprefix, FAR const char *prefix); static int unionfs_tryopen(FAR struct file *filep, FAR const char *relpath, FAR const char *prefix, int oflags, mode_t mode); static int unionfs_tryopendir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, FAR struct fs_dirent_s **dir); static int unionfs_trymkdir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, mode_t mode); static int unionfs_tryrmdir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix); static int unionfs_tryunlink(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix); static int unionfs_tryrename(FAR struct inode *mountpt, FAR const char *oldrelpath, FAR const char *newrelpath, FAR const char *prefix); static int unionfs_trystat(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, FAR struct stat *buf); static int unionfs_trychstat(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, FAR const struct stat *buf, int flags); static int unionfs_trystatdir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix); static int unionfs_trystatfile(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix); static FAR char *unionfs_relpath(FAR const char *path, FAR const char *name); static int unionfs_unbind_child(FAR struct unionfs_mountpt_s *um); static void unionfs_destroy(FAR struct unionfs_inode_s *ui); /* Operations on opened files (with struct file) */ static int unionfs_open(FAR struct file *filep, FAR const char *relpath, int oflags, mode_t mode); static int unionfs_close(FAR struct file *filep); static ssize_t unionfs_read(FAR struct file *filep, FAR char *buffer, size_t buflen); static ssize_t unionfs_write(FAR struct file *filep, FAR const char *buffer, size_t buflen); static off_t unionfs_seek(FAR struct file *filep, off_t offset, int whence); static int unionfs_ioctl(FAR struct file *filep, int cmd, unsigned long arg); static int unionfs_sync(FAR struct file *filep); static int unionfs_dup(FAR const struct file *oldp, FAR struct file *newp); static int unionfs_fstat(FAR const struct file *filep, FAR struct stat *buf); static int unionfs_fchstat(FAR const struct file *filep, FAR const struct stat *buf, int flags); static int unionfs_truncate(FAR struct file *filep, off_t length); /* Operations on directories */ static int unionfs_opendir(FAR struct inode *mountpt, FAR const char *relpath, FAR struct fs_dirent_s **dir); static int unionfs_closedir(FAR struct inode *mountpt, FAR struct fs_dirent_s *dir); static int unionfs_readdir(FAR struct inode *mountpt, FAR struct fs_dirent_s *dir, FAR struct dirent *entry); static int unionfs_rewinddir(FAR struct inode *mountpt, FAR struct fs_dirent_s *dir); static int unionfs_bind(FAR struct inode *blkdriver, FAR const void *data, FAR void **handle); static int unionfs_unbind(FAR void *handle, FAR struct inode **blkdriver, unsigned int flags); static int unionfs_statfs(FAR struct inode *mountpt, FAR struct statfs *buf); /* Operations on paths */ static int unionfs_unlink(FAR struct inode *mountpt, FAR const char *relpath); static int unionfs_mkdir(FAR struct inode *mountpt, FAR const char *relpath, mode_t mode); static int unionfs_rmdir(FAR struct inode *mountpt, FAR const char *relpath); static int unionfs_rename(FAR struct inode *mountpt, FAR const char *oldrelpath, FAR const char *newrelpath); static int unionfs_stat(FAR struct inode *mountpt, FAR const char *relpath, FAR struct stat *buf); static int unionfs_chstat(FAR struct inode *mountpt, FAR const char *relpath, FAR const struct stat *buf, int flags); /* Initialization */ static int unionfs_getmount(FAR const char *path, FAR struct inode **inode); static int unionfs_dobind(FAR const char *fspath1, FAR const char *prefix1, FAR const char *fspath2, FAR const char *prefix2, FAR void **handle); /**************************************************************************** * Public Data ****************************************************************************/ /* See fs_mount.c -- this structure is explicitly extern'ed there. * We use the old-fashioned kind of initializers so that this will compile * with any compiler. */ const struct mountpt_operations g_unionfs_operations = { unionfs_open, /* open */ unionfs_close, /* close */ unionfs_read, /* read */ unionfs_write, /* write */ unionfs_seek, /* seek */ unionfs_ioctl, /* ioctl */ NULL, /* mmap */ unionfs_truncate, /* truncate */ NULL, /* pool */ unionfs_sync, /* sync */ unionfs_dup, /* dup */ unionfs_fstat, /* fstat */ unionfs_fchstat, /* fchstat */ unionfs_opendir, /* opendir */ unionfs_closedir, /* closedir */ unionfs_readdir, /* readdir */ unionfs_rewinddir, /* rewinddir */ unionfs_bind, /* bind */ unionfs_unbind, /* unbind */ unionfs_statfs, /* statfs */ unionfs_unlink, /* unlink */ unionfs_mkdir, /* mkdir */ unionfs_rmdir, /* rmdir */ unionfs_rename, /* rename */ unionfs_stat, /* stat */ unionfs_chstat /* chstat */ }; /**************************************************************************** * Private Functions ****************************************************************************/ /**************************************************************************** * Name: unionfs_offsetpath ****************************************************************************/ static FAR const char *unionfs_offsetpath(FAR const char *relpath, FAR const char *prefix) { FAR const char *trypath; int pfxlen; /* Is there a prefix on the path to this file system? */ if (prefix && (pfxlen = strlen(prefix)) > 0) { /* Does the prefix match? */ if (strncmp(prefix, relpath, pfxlen) != 0) { /* No, then this relative cannot be within this file system */ return NULL; } /* Skip over the prefix */ trypath = relpath + pfxlen; /* Make sure that what is left is a valid, relative path */ for (; *trypath == '/'; trypath++); } else { /* No.. use the full, relative path */ trypath = relpath; } return trypath; } /**************************************************************************** * Name: unionfs_ispartprefix ****************************************************************************/ static bool unionfs_ispartprefix(FAR const char *partprefix, FAR const char *prefix) { int partlen = 0; int pfxlen = 0; /* Trim any '/' characters in the partial prefix */ if (partprefix != NULL) { /* Skip over any leading '/' */ for (; *partprefix == '/'; partprefix++); /* Skip over any tailing '/' */ partlen = strlen(partprefix); for (; partlen > 1 && partprefix[partlen - 1] == '/'; partlen--); } /* Check for NUL or empty partial prefix */ if (partprefix == NULL || *partprefix == '\0') { /* A NUL partial prefix is always contained in the full prefix, even * if there is no prefix. */ return true; } /* Trim any '/' characters in the partial prefix */ if (prefix != NULL) { /* Skip over any leading '/' */ for (; *prefix == '/'; prefix++); /* Skip over any tailing '/' */ pfxlen = strlen(prefix); for (; pfxlen > 1 && prefix[pfxlen - 1] == '/'; pfxlen--); } /* Check for NUL or empty full prefix */ if (prefix == NULL || *prefix == '\0') { /* A non-NUL partial path cannot be a contained in a NUL prefix */ return false; } #if 0 /* Only whole offset is currently supported */ /* Both the partial path and the prefix are non-NULL. Check if the partial * path is contained in the prefix. */ if (partlen > pfxlen) { return false; } #else /* Check if the trimmed offsets are identical */ if (partlen != pfxlen) { return false; } #endif if (strncmp(partprefix, prefix, partlen) == 0) { return true; } else { return false; } } /**************************************************************************** * Name: unionfs_tryopen ****************************************************************************/ static int unionfs_tryopen(FAR struct file *filep, FAR const char *relpath, FAR const char *prefix, int oflags, mode_t mode) { FAR const struct mountpt_operations *ops; FAR const char *trypath; /* Is this path valid on this file system? */ trypath = unionfs_offsetpath(relpath, prefix); if (trypath == NULL) { /* No.. return -ENOENT */ return -ENOENT; } /* Yes.. try to open this directory */ DEBUGASSERT(filep->f_inode->u.i_mops != NULL); ops = filep->f_inode->u.i_mops; if (!ops->open) { return -ENOSYS; } return ops->open(filep, trypath, oflags, mode); } /**************************************************************************** * Name: unionfs_tryopendir ****************************************************************************/ static int unionfs_tryopendir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, FAR struct fs_dirent_s **dir) { FAR const struct mountpt_operations *ops; FAR const char *trypath; /* Is this path valid on this file system? */ trypath = unionfs_offsetpath(relpath, prefix); if (trypath == NULL) { /* No.. return -ENOENT */ return -ENOENT; } /* Yes.. Try to open this directory */ ops = inode->u.i_mops; DEBUGASSERT(ops && ops->opendir); if (!ops->opendir) { return -ENOSYS; } return ops->opendir(inode, trypath, dir); } /**************************************************************************** * Name: unionfs_trymkdir ****************************************************************************/ static int unionfs_trymkdir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, mode_t mode) { FAR const struct mountpt_operations *ops; FAR const char *trypath; /* Is this path valid on this file system? */ trypath = unionfs_offsetpath(relpath, prefix); if (trypath == NULL) { /* No.. return -ENOENT */ return -ENOENT; } /* Yes.. Try to create the directory */ ops = inode->u.i_mops; if (!ops->mkdir) { return -ENOSYS; } return ops->mkdir(inode, trypath, mode); } /**************************************************************************** * Name: unionfs_tryrename ****************************************************************************/ static int unionfs_tryrename(FAR struct inode *mountpt, FAR const char *oldrelpath, FAR const char *newrelpath, FAR const char *prefix) { FAR const struct mountpt_operations *ops; FAR const char *tryoldpath; FAR const char *trynewpath; /* Is source path valid on this file system? */ tryoldpath = unionfs_offsetpath(oldrelpath, prefix); if (tryoldpath == NULL) { /* No.. return -ENOENT. This should not fail because the existence * of the file has already been verified. */ return -ENOENT; } /* Is source path valid on this file system? * REVISIT: There is no logic currently to rename the file by copying i * to a different file system. So we just fail if the destination name * is not within the same file system. I might, however, be on the other * file system and that rename should be supported as a file copy and * delete. */ trynewpath = unionfs_offsetpath(newrelpath, prefix); if (trynewpath == NULL) { /* No.. return -ENOSYS. We should be able to do this, but we can't * yet. */ return -ENOSYS; } /* Yes.. Try to rename the file */ ops = mountpt->u.i_mops; if (!ops->rename) { return -ENOSYS; } return ops->rename(mountpt, tryoldpath, trynewpath); } /**************************************************************************** * Name: unionfs_trystat ****************************************************************************/ static int unionfs_trystat(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, FAR struct stat *buf) { FAR const struct mountpt_operations *ops; FAR const char *trypath; /* Is this path valid on this file system? */ trypath = unionfs_offsetpath(relpath, prefix); if (trypath == NULL) { /* No.. return -ENOENT */ return -ENOENT; } /* Yes.. Try to create the directory */ ops = inode->u.i_mops; if (!ops->stat) { return -ENOSYS; } return ops->stat(inode, trypath, buf); } /**************************************************************************** * Name: unionfs_trychstat ****************************************************************************/ static int unionfs_trychstat(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix, FAR const struct stat *buf, int flags) { FAR const struct mountpt_operations *ops; FAR const char *trypath; /* Is this path valid on this file system? */ trypath = unionfs_offsetpath(relpath, prefix); if (trypath == NULL) { /* No.. return -ENOENT */ return -ENOENT; } /* Yes.. Try to change the status */ ops = inode->u.i_mops; if (!ops->chstat) { return -ENOSYS; } return ops->chstat(inode, trypath, buf, flags); } /**************************************************************************** * Name: unionfs_trystatdir ****************************************************************************/ static int unionfs_trystatdir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix) { struct stat buf; int ret; /* Check if relative path refers to a directory. */ ret = unionfs_trystat(inode, relpath, prefix, &buf); if (ret >= 0 && !S_ISDIR(buf.st_mode)) { return -ENOTDIR; } return ret; } /**************************************************************************** * Name: unionfs_trystatfile ****************************************************************************/ static int unionfs_trystatfile(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix) { struct stat buf; int ret; /* Check if relative path refers to a regular file. We specifically * exclude directories but neither do we expect any kind of special file * to reside on the mounted filesystem. */ ret = unionfs_trystat(inode, relpath, prefix, &buf); if (ret >= 0 && !S_ISREG(buf.st_mode)) { return -EISDIR; } return ret; } /**************************************************************************** * Name: unionfs_tryrmdir ****************************************************************************/ static int unionfs_tryrmdir(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix) { FAR const struct mountpt_operations *ops; FAR const char *trypath; /* Is this path valid on this file system? */ trypath = unionfs_offsetpath(relpath, prefix); if (trypath == NULL) { /* No.. return -ENOENT */ return -ENOENT; } /* Yes.. Try to remove the directory */ ops = inode->u.i_mops; if (!ops->rmdir) { return -ENOSYS; } return ops->rmdir(inode, trypath); } /**************************************************************************** * Name: unionfs_tryunlink ****************************************************************************/ static int unionfs_tryunlink(FAR struct inode *inode, FAR const char *relpath, FAR const char *prefix) { FAR const struct mountpt_operations *ops; FAR const char *trypath; /* Is this path valid on this file system? */ trypath = unionfs_offsetpath(relpath, prefix); if (trypath == NULL) { /* No.. return -ENOENT */ return -ENOENT; } /* Yes.. Try to unlink the file */ ops = inode->u.i_mops; if (!ops->unlink) { return -ENOSYS; } return ops->unlink(inode, trypath); } /**************************************************************************** * Name: unionfs_relpath ****************************************************************************/ static FAR char *unionfs_relpath(FAR const char *path, FAR const char *name) { FAR char *relpath; int pathlen; int ret; /* Check if there is a valid, non-zero-legnth path */ if (path && (pathlen = strlen(path)) > 0) { /* Yes.. extend the file name by prepending the path */ if (path[pathlen - 1] == '/') { ret = asprintf(&relpath, "%s%s", path, name); } else { ret = asprintf(&relpath, "%s/%s", path, name); } /* Handle errors */ if (ret < 0) { return NULL; } else { return relpath; } } else { /* There is no path... just duplicate the name (so that fs_heap_free() * will work later). */ return strdup(name); } } /**************************************************************************** * Name: unionfs_unbind_child ****************************************************************************/ static int unionfs_unbind_child(FAR struct unionfs_mountpt_s *um) { FAR struct inode *mpinode = um->um_node; FAR struct inode *bdinode = NULL; int ret; /* Unbind the block driver from the file system (destroying any fs * private data). This logic is essentially the same as the logic in * nuttx/fs/mount/fs_umount2.c. */ if (!mpinode->u.i_mops->unbind) { /* The filesystem does not support the unbind operation ??? */ return -EINVAL; } /* The unbind method returns the number of references to the file system * (i.e., open files), zero if the unbind was performed, or a negated * error code on a failure. */ ret = mpinode->u.i_mops->unbind(mpinode->i_private, &bdinode, MNT_FORCE); if (ret < 0) { /* Some failure occurred */ return ret; } else if (ret > 0) { /* REVISIT: This is bad if the file system cannot support a deferred * unmount. Ideally it would perform the unmount when the last file * is closed. But I don't think any file system do that. */ return -EBUSY; } /* Successfully unbound */ mpinode->i_private = NULL; /* Release the mountpoint inode and any block driver inode * returned by the file system unbind above. This should cause * the inode to be deleted (unless there are other references) */ inode_release(mpinode); /* Did the unbind method return a contained block driver */ if (bdinode) { inode_release(bdinode); } return OK; } /**************************************************************************** * Name: unionfs_destroy ****************************************************************************/ static void unionfs_destroy(FAR struct unionfs_inode_s *ui) { DEBUGASSERT(ui != NULL && ui->ui_fs[0].um_node != NULL && ui->ui_fs[1].um_node != NULL && ui->ui_nopen == 0); /* Unbind the contained file systems */ unionfs_unbind_child(&ui->ui_fs[0]); unionfs_unbind_child(&ui->ui_fs[1]); /* Free any allocated prefix strings */ if (ui->ui_fs[0].um_prefix) { lib_free(ui->ui_fs[0].um_prefix); } if (ui->ui_fs[1].um_prefix) { lib_free(ui->ui_fs[1].um_prefix); } /* And finally free the allocated unionfs state structure as well */ nxmutex_destroy(&ui->ui_lock); fs_heap_free(ui); } /**************************************************************************** * Name: unionfs_open ****************************************************************************/ static int unionfs_open(FAR struct file *filep, FAR const char *relpath, int oflags, mode_t mode) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; int ret; /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; finfo("Opening: ui_nopen=%d\n", ui->ui_nopen); /* Get exclusive access to the file system data structures */ ret = nxmutex_lock(&ui->ui_lock); if (ret < 0) { return ret; } /* Allocate a container to hold the open file system information */ uf = (FAR struct unionfs_file_s *) fs_heap_zalloc(sizeof(struct unionfs_file_s)); if (uf == NULL) { ret = -ENOMEM; goto errout_with_lock; } /* Try to open the file on file system 1 */ um = &ui->ui_fs[0]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); uf->uf_file.f_oflags = filep->f_oflags; uf->uf_file.f_inode = um->um_node; ret = unionfs_tryopen(&uf->uf_file, relpath, um->um_prefix, oflags, mode); if (ret >= 0) { /* Successfully opened on file system 1 */ uf->uf_ndx = 0; } else { /* Try to open the file on file system 1 */ um = &ui->ui_fs[1]; uf->uf_file.f_oflags = filep->f_oflags; uf->uf_file.f_inode = um->um_node; ret = unionfs_tryopen(&uf->uf_file, relpath, um->um_prefix, oflags, mode); if (ret < 0) { goto errout_with_lock; } /* Successfully opened on file system 1 */ uf->uf_ndx = 1; } /* Increment the open reference count */ ui->ui_nopen++; DEBUGASSERT(ui->ui_nopen > 0); /* Save our private data in the file structure */ filep->f_priv = (FAR void *)uf; ret = OK; errout_with_lock: nxmutex_unlock(&ui->ui_lock); return ret; } /**************************************************************************** * Name: unionfs_close ****************************************************************************/ static int unionfs_close(FAR struct file *filep) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; int ret = OK; /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; /* Get exclusive access to the file system data structures */ ret = nxmutex_lock(&ui->ui_lock); if (ret < 0) { return ret; } DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; finfo("Closing: ui_nopen=%d\n", ui->ui_nopen); /* Perform the lower level close operation */ if (ops->close != NULL) { ret = ops->close(&uf->uf_file); } /* Decrement the count of open reference. If that count would go to zero * and if the file system has been unmounted, then destroy the file system * now. */ if (--ui->ui_nopen <= 0 && ui->ui_unmounted) { unionfs_destroy(ui); } else { nxmutex_unlock(&ui->ui_lock); } /* Free the open file container */ fs_heap_free(uf); filep->f_priv = NULL; return ret; } /**************************************************************************** * Name: unionfs_read ****************************************************************************/ static ssize_t unionfs_read(FAR struct file *filep, FAR char *buffer, size_t buflen) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("buflen: %lu\n", (unsigned long)buflen); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level read operation */ return ops->read ? ops->read(&uf->uf_file, buffer, buflen) : -EPERM; } /**************************************************************************** * Name: unionfs_write ****************************************************************************/ static ssize_t unionfs_write(FAR struct file *filep, FAR const char *buffer, size_t buflen) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("buflen: %lu\n", (unsigned long)buflen); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level write operation */ return ops->write ? ops->write(&uf->uf_file, buffer, buflen) : -EPERM; } /**************************************************************************** * Name: unionfs_seek ****************************************************************************/ static off_t unionfs_seek(FAR struct file *filep, off_t offset, int whence) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("offset: %lu whence: %d\n", (unsigned long)offset, whence); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Invoke the file seek method if available */ if (ops->seek != NULL) { offset = ops->seek(&uf->uf_file, offset, whence); } else { int ret; /* Get exclusive access to the file system data structures */ ret = nxmutex_lock(&ui->ui_lock); if (ret < 0) { return ret; } /* No... Just set the common file position value */ switch (whence) { case SEEK_CUR: offset += filep->f_pos; case SEEK_SET: if (offset >= 0) { filep->f_pos = offset; /* Might be beyond the end-of-file */ } else { offset = (off_t)-EINVAL; } break; case SEEK_END: offset = (off_t)-ENOSYS; break; default: offset = (off_t)-EINVAL; break; } nxmutex_unlock(&ui->ui_lock); } return offset; } /**************************************************************************** * Name: unionfs_ioctl ****************************************************************************/ static int unionfs_ioctl(FAR struct file *filep, int cmd, unsigned long arg) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("cmd: %d arg: %lu\n", cmd, arg); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level ioctl operation */ return ops->ioctl ? ops->ioctl(&uf->uf_file, cmd, arg) : -ENOTTY; } /**************************************************************************** * Name: unionfs_sync ****************************************************************************/ static int unionfs_sync(FAR struct file *filep) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("filep=%p\n", filep); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level sync operation */ return ops->sync ? ops->sync(&uf->uf_file) : -EINVAL; } /**************************************************************************** * Name: unionfs_dup ****************************************************************************/ static int unionfs_dup(FAR const struct file *oldp, FAR struct file *newp) { FAR struct unionfs_file_s *oldpriv; FAR struct unionfs_file_s *newpriv; FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; int ret = -ENOMEM; finfo("oldp=%p newp=%p\n", oldp, newp); /* Recover the open file data from the struct file instance */ DEBUGASSERT(oldp != NULL && oldp->f_inode != NULL); ui = oldp->f_inode->i_private; DEBUGASSERT(ui != NULL && oldp->f_priv != NULL); oldpriv = (FAR struct unionfs_file_s *)oldp->f_priv; DEBUGASSERT(oldpriv->uf_ndx == 0 || oldpriv->uf_ndx == 1); um = &ui->ui_fs[oldpriv->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; DEBUGASSERT(newp != NULL && newp->f_priv == NULL); /* Allocate a new container for the union FS open file */ newpriv = (FAR struct unionfs_file_s *) fs_heap_malloc(sizeof(struct unionfs_file_s)); if (newpriv != NULL) { /* Clone the old file structure into the newly allocated one */ memcpy(newpriv, oldpriv, sizeof(struct unionfs_file_s)); newpriv->uf_file.f_priv = NULL; /* Then perform the lower lowel dup operation */ ret = OK; if (ops->dup != NULL) { ret = ops->dup(&oldpriv->uf_file, &newpriv->uf_file); if (ret < 0) { fs_heap_free(newpriv); newpriv = NULL; } } /* Save the new container in the new file structure */ newp->f_priv = newpriv; } return ret; } /**************************************************************************** * Name: unionfs_fstat * * Description: * Obtain information about an open file associated with the file * descriptor 'fd', and will write it to the area pointed to by 'buf'. * ****************************************************************************/ static int unionfs_fstat(FAR const struct file *filep, FAR struct stat *buf) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("filep=%p buf=%p\n", filep, buf); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level write operation */ return ops->fstat ? ops->fstat(&uf->uf_file, buf) : -EPERM; } /**************************************************************************** * Name: unionfs_fchstat * * Description: * Change information about an open file associated with the file * descriptor 'filep'. * ****************************************************************************/ static int unionfs_fchstat(FAR const struct file *filep, FAR const struct stat *buf, int flags) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("filep=%p buf=%p\n", filep, buf); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level change operation */ return ops->fchstat ? ops->fchstat(&uf->uf_file, buf, flags) : -EPERM; } /**************************************************************************** * Name: unionfs_truncate * * Description: * Set the size of the file references by 'filep' to 'length'. * ****************************************************************************/ static int unionfs_truncate(FAR struct file *filep, off_t length) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_file_s *uf; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; finfo("filep=%p length=%ld\n", filep, (long)length); /* Recover the open file data from the struct file instance */ ui = filep->f_inode->i_private; DEBUGASSERT(ui != NULL && filep->f_priv != NULL); uf = (FAR struct unionfs_file_s *)filep->f_priv; DEBUGASSERT(uf->uf_ndx == 0 || uf->uf_ndx == 1); um = &ui->ui_fs[uf->uf_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level write operation */ return ops->truncate ? ops->truncate(&uf->uf_file, length) : -EPERM; } /**************************************************************************** * Name: unionfs_opendir ****************************************************************************/ static int unionfs_opendir(FAR struct inode *mountpt, FAR const char *relpath, FAR struct fs_dirent_s **dir) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; FAR struct unionfs_dir_s *udir; int ret; finfo("relpath: \"%s\"\n", relpath ? relpath : "NULL"); if (!relpath) { return -EINVAL; } /* Recover the filesystem data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL); ui = mountpt->i_private; udir = fs_heap_zalloc(sizeof(*udir)); if (udir == NULL) { return -ENOMEM; } /* Get exclusive access to the file system data structures */ ret = nxmutex_lock(&ui->ui_lock); if (ret < 0) { goto errout_with_udir; } DEBUGASSERT(dir); /* Clone the path. We will need this when we traverse file system 2 to * omit duplicates on file system 1. */ if (strlen(relpath) > 0) { udir->fu_relpath = strdup(relpath); if (!udir->fu_relpath) { goto errout_with_lock; } } /* Check file system 2 first. */ um = &ui->ui_fs[1]; ret = unionfs_tryopendir(um->um_node, relpath, um->um_prefix, &udir->fu_lower[1]); if (ret >= 0) { /* Save the file system 2 access info */ udir->fu_ndx = 1; udir->fu_lower[1]->fd_root = um->um_node; } /* Check if the user is stat'ing some "fake" node between the unionfs root * and the file system 1/2 root directory. */ else if (unionfs_ispartprefix(relpath, ui->ui_fs[1].um_prefix)) { /* File system 2 prefix includes this relpath */ udir->fu_ndx = 1; udir->fu_prefix[1] = true; } /* Check file system 1 last, possibly overwriting fu_ndx */ um = &ui->ui_fs[0]; ret = unionfs_tryopendir(um->um_node, relpath, um->um_prefix, &udir->fu_lower[0]); if (ret >= 0) { /* Save the file system 1 access info */ udir->fu_ndx = 0; udir->fu_lower[0]->fd_root = um->um_node; } else { /* Check if the user is stat'ing some "fake" node between the unionfs * root and the file system 1 root directory. */ if (unionfs_ispartprefix(relpath, ui->ui_fs[0].um_prefix)) { /* File system 1 offset includes this relpath. Make sure that only * one */ udir->fu_ndx = 0; udir->fu_prefix[0] = true; udir->fu_prefix[1] = false; } /* If the directory was not found on either file system, then we have * failed to open this path on either file system. */ else if (udir->fu_lower[1] == NULL && !udir->fu_prefix[1]) { /* Neither of the two path file systems include this relpath */ ret = -ENOENT; goto errout_with_relpath; } } /* Increment the number of open references and return success */ ui->ui_nopen++; DEBUGASSERT(ui->ui_nopen > 0); nxmutex_unlock(&ui->ui_lock); *dir = &udir->fu_base; return OK; errout_with_relpath: if (udir->fu_relpath != NULL) { lib_free(udir->fu_relpath); } errout_with_lock: nxmutex_unlock(&ui->ui_lock); errout_with_udir: fs_heap_free(udir); return ret; } /**************************************************************************** * Name: unionfs_closedir ****************************************************************************/ static int unionfs_closedir(FAR struct inode *mountpt, FAR struct fs_dirent_s *dir) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; FAR struct unionfs_dir_s *udir; int ret = OK; int i; finfo("mountpt=%p dir=%p\n", mountpt, dir); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL); ui = mountpt->i_private; /* Get exclusive access to the file system data structures */ ret = nxmutex_lock(&ui->ui_lock); if (ret < 0) { return ret; } DEBUGASSERT(dir); udir = (FAR struct unionfs_dir_s *)dir; /* Close both contained file systems */ for (i = 0; i < 2; i++) { /* Was this file system opened? */ if (udir->fu_lower[i] != NULL) { um = &ui->ui_fs[i]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the lower level closedir operation */ if (ops->closedir != NULL) { ret = ops->closedir(um->um_node, udir->fu_lower[i]); } } } /* Free any allocated path */ if (udir->fu_relpath != NULL) { fs_heap_free(udir->fu_relpath); } fs_heap_free(udir); /* Decrement the count of open reference. If that count would go to zero * and if the file system has been unmounted, then destroy the file system * now. */ if (--ui->ui_nopen <= 0 && ui->ui_unmounted) { unionfs_destroy(ui); } else { nxmutex_unlock(&ui->ui_lock); } return ret; } /**************************************************************************** * Name: unionfs_readdir ****************************************************************************/ static int unionfs_readdir(FAR struct inode *mountpt, FAR struct fs_dirent_s *dir, FAR struct dirent *entry) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; FAR struct unionfs_mountpt_s *um0; FAR const struct mountpt_operations *ops; FAR struct unionfs_dir_s *udir; FAR char *relpath; struct stat buf; bool duplicate; int ret = -ENOSYS; /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL); ui = mountpt->i_private; DEBUGASSERT(dir); udir = (FAR struct unionfs_dir_s *)dir; /* Check if we are at the end of the directory listing. */ if (udir->fu_eod) { /* End of file and error conditions are not distinguishable * with readdir. Here we return -ENOENT to signal the end * of the directory. */ return -ENOENT; } DEBUGASSERT(udir->fu_ndx == 0 || udir->fu_ndx == 1); um = &ui->ui_fs[udir->fu_ndx]; /* Special case: If the open directory is a 'fake' node in the prefix on * one of the mounted file system, then we must also fake the return value. */ if (udir->fu_prefix[udir->fu_ndx]) { DEBUGASSERT(udir->fu_lower[udir->fu_ndx] == NULL && um->um_prefix != NULL); /* Copy the file system offset into the dirent structure. * REVISIT: This will not handle the case where the prefix contains * the '/' character the so the offset appears to be multiple * directories. */ strlcpy(entry->d_name, um->um_prefix, sizeof(entry->d_name)); /* Describe this as a read only directory */ entry->d_type = DTYPE_DIRECTORY; /* Increment the index to file system 2 (maybe) */ if (udir->fu_ndx == 0 && (udir->fu_prefix[1] || udir->fu_lower[1] != NULL)) { /* Yes.. set up to do file system 2 next time */ udir->fu_ndx++; } else { /* No.. we are finished */ udir->fu_eod = true; } return OK; } /* This is a normal, mediated file system readdir() */ DEBUGASSERT(udir->fu_lower[udir->fu_ndx] != NULL); DEBUGASSERT(um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; finfo("fu_ndx: %d\n", udir->fu_ndx); /* Perform the lower level readdir operation */ if (ops->readdir != NULL) { /* Loop if we discard duplicate directory entries in filey system 2 */ do { /* Read the directory entry */ ret = ops->readdir(um->um_node, udir->fu_lower[udir->fu_ndx], entry); /* Did the read operation fail because we reached the end of the * directory? In that case, the error would be -ENOENT. If we * hit the end-of-directory on file system, we need to seamlessly * move to the second file system (if there is one). */ if (ret == -ENOENT && udir->fu_ndx == 0) { /* Special case: If the open directory is a 'fake' node in the * prefix on file system2, then we must also fake the return * value. */ if (udir->fu_prefix[1]) { DEBUGASSERT(udir->fu_lower[1] == NULL); /* Switch to the second file system */ udir->fu_ndx = 1; um = &ui->ui_fs[1]; DEBUGASSERT(um != NULL && um->um_prefix != NULL); /* Copy the file system offset into the dirent structure. * REVISIT: This will not handle the case where the prefix * contains the '/' character the so the offset appears to * be multiple directories. */ strlcpy(entry->d_name, um->um_prefix, sizeof(entry->d_name)); /* Describe this as a read only directory */ entry->d_type = DTYPE_DIRECTORY; /* Mark the end of the directory listing */ udir->fu_eod = true; /* Check if have already reported something of this name * in file system 1. */ relpath = unionfs_relpath(udir->fu_relpath, um->um_prefix); if (relpath) { int tmp; /* Check if anything exists at this path on file * system 1 */ um0 = &ui->ui_fs[0]; tmp = unionfs_trystat(um0->um_node, relpath, um0->um_prefix, &buf); /* Free the allocated relpath */ lib_free(relpath); /* Check for a duplicate */ if (tmp >= 0) { /* There is something there! * REVISIT: We could allow files and directories to * have duplicate names. */ return -ENOENT; } } return OK; } /* No.. check for a normal directory access */ else if (udir->fu_lower[1] != NULL) { /* Switch to the second file system */ udir->fu_ndx = 1; um = &ui->ui_fs[1]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Make sure that the second file system directory * enumeration is rewound to the beginning of the * directory. */ if (ops->rewinddir != NULL) { ret = ops->rewinddir(um->um_node, udir->fu_lower[1]); if (ret < 0) { return ret; } } /* Then try the read operation again */ ret = ops->readdir(um->um_node, udir->fu_lower[1], entry); } } /* Did we successfully read a directory from file system 2? If * so, we need to omit an duplicates that should be occluded by * the matching file on file system 1 (if we are enumerating * file system 1). */ duplicate = false; if (ret >= 0 && udir->fu_ndx == 1 && udir->fu_lower[0] != NULL) { /* Get the relative path to the same file on file system 1. * NOTE: the on any failures we just assume that the filep * is not a duplicate. */ relpath = unionfs_relpath(udir->fu_relpath, entry->d_name); if (relpath) { int tmp; /* Check if anything exists at this path on file system 1 */ um0 = &ui->ui_fs[0]; tmp = unionfs_trystat(um0->um_node, relpath, um0->um_prefix, &buf); if (tmp >= 0) { /* There is something there! * REVISIT: We could allow files and directories to * have duplicate names. */ duplicate = true; } /* Free the allocated relpath */ lib_free(relpath); } } } while (duplicate); } return ret; } /**************************************************************************** * Name: unionfs_rewindir ****************************************************************************/ static int unionfs_rewinddir(FAR struct inode *mountpt, FAR struct fs_dirent_s *dir) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; FAR const struct mountpt_operations *ops; FAR struct unionfs_dir_s *udir; int ret = -EINVAL; finfo("mountpt=%p dir=%p\n", mountpt, dir); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL); ui = mountpt->i_private; DEBUGASSERT(dir); udir = (FAR struct unionfs_dir_s *)dir; /* Were we currently enumerating on file system 1? If not, is an * enumeration possible on file system 1? */ DEBUGASSERT(udir->fu_ndx == 0 || udir->fu_ndx == 1); if (/* udir->fu_ndx != 0 && */ udir->fu_prefix[0] || udir->fu_lower[0] != NULL) { /* Yes.. switch to file system 1 */ udir->fu_ndx = 0; } if (!udir->fu_prefix[udir->fu_ndx]) { DEBUGASSERT(udir->fu_lower[udir->fu_ndx] != NULL); um = &ui->ui_fs[udir->fu_ndx]; DEBUGASSERT(um != NULL && um->um_node != NULL && um->um_node->u.i_mops != NULL); ops = um->um_node->u.i_mops; /* Perform the file system rewind operation */ if (ops->rewinddir != NULL) { ret = ops->rewinddir(um->um_node, udir->fu_lower[udir->fu_ndx]); } } return ret; } /**************************************************************************** * Name: unionfs_bind ****************************************************************************/ static int unionfs_bind(FAR struct inode *blkdriver, FAR const void *data, FAR void **handle) { FAR const char *fspath1 = ""; FAR const char *prefix1 = ""; FAR const char *fspath2 = ""; FAR const char *prefix2 = ""; FAR char *dup; FAR char *tmp; FAR char *tok; int ret; /* Parse options from mount syscall */ dup = tmp = strdup(data); if (!dup) { return -ENOMEM; } while ((tok = strsep(&tmp, ","))) { if (tok == strstr(tok, "fspath1=")) { fspath1 = tok + 8; } else if (tok == strstr(tok, "prefix1=")) { prefix1 = tok + 8; } else if (tok == strstr(tok, "fspath2=")) { fspath2 = tok + 8; } else if (tok == strstr(tok, "prefix2=")) { prefix2 = tok + 8; } } /* Call unionfs_dobind to do the real work. */ ret = unionfs_dobind(fspath1, prefix1, fspath2, prefix2, handle); lib_free(dup); return ret; } /**************************************************************************** * Name: unionfs_unbind ****************************************************************************/ static int unionfs_unbind(FAR void *handle, FAR struct inode **blkdriver, unsigned int flags) { FAR struct unionfs_inode_s *ui; int ret; finfo("handle=%p blkdriver=%p flags=%x\n", handle, blkdriver, flags); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(handle != NULL); ui = (FAR struct unionfs_inode_s *)handle; /* Get exclusive access to the file system data structures */ ret = nxmutex_lock(&ui->ui_lock); if (ret < 0) { return ret; } /* Mark the file system as unmounted. */ ui->ui_unmounted = true; /* If there are no open references, then we can destroy the file system * now. */ if (ui->ui_nopen <= 0) { nxmutex_unlock(&ui->ui_lock); unionfs_destroy(ui); } else { nxmutex_unlock(&ui->ui_lock); } return OK; } /**************************************************************************** * Name: unionfs_statfs ****************************************************************************/ static int unionfs_statfs(FAR struct inode *mountpt, FAR struct statfs *buf) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um1; FAR struct unionfs_mountpt_s *um2; FAR const struct mountpt_operations *ops1; FAR const struct mountpt_operations *ops2; FAR struct statfs *adj; struct statfs buf1; struct statfs buf2; uint64_t tmp; uint32_t ratiob16; int ret; finfo("mountpt=%p buf=%p\n", mountpt, buf); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL && buf != NULL); ui = mountpt->i_private; /* Get statfs info from file system 1. * * REVISIT: What would it mean if one file system did not support statfs? * Perhaps we could simplify the following by simply insisting that both * file systems support the statfs method. */ um1 = &ui->ui_fs[0]; DEBUGASSERT(um1 != NULL && um1->um_node != NULL && um1->um_node->u.i_mops != NULL); ops1 = um1->um_node->u.i_mops; um2 = &ui->ui_fs[1]; DEBUGASSERT(um2 != NULL && um2->um_node != NULL && um2->um_node->u.i_mops != NULL); ops2 = um2->um_node->u.i_mops; memset(&buf1, 0, sizeof(struct statfs)); memset(&buf2, 0, sizeof(struct statfs)); if (ops1->statfs != NULL && ops2->statfs != NULL) { ret = ops1->statfs(um1->um_node, &buf1); if (ret < 0) { return ret; } /* Get stafs info from file system 2 */ ret = ops2->statfs(um2->um_node, &buf2); if (ret < 0) { return ret; } } else if (ops1->statfs != NULL) { /* We have statfs for file system 1 only */ return ops1->statfs(um1->um_node, buf); } else if (ops2->statfs != NULL) { /* We have statfs for file system 2 only */ return ops2->statfs(um2->um_node, buf); } else { /* We could not get stafs info from either file system */ return -ENOSYS; } /* We get here is we successfully obtained statfs info from both file * systems. Now combine those results into one statfs report, trying to * reconcile any conflicts between the file system geometries. */ buf->f_type = UNIONFS_MAGIC; buf->f_namelen = MIN(buf1.f_namelen, buf2.f_namelen); buf->f_files = buf1.f_files + buf2.f_files; buf->f_ffree = buf1.f_ffree + buf2.f_ffree; /* Things expressed in units of blocks are the only tricky ones. We will * depend on a uint64_t * temporary to avoid arithmetic overflow. */ buf->f_bsize = buf1.f_bsize; if (buf1.f_bsize != buf2.f_bsize) { if (buf1.f_bsize < buf2.f_bsize) { tmp = (((uint64_t)buf2.f_blocks * (uint64_t)buf2.f_bsize) << 16); ratiob16 = (uint32_t)(tmp / buf1.f_bsize); adj = &buf2; } else { buf->f_bsize = buf2.f_bsize; tmp = (((uint64_t)buf1.f_blocks * (uint64_t)buf1.f_bsize) << 16); ratiob16 = (uint32_t)(tmp / buf2.f_bsize); adj = &buf1; } tmp = (uint64_t)adj->f_blocks * ratiob16; adj->f_blocks = (off_t)(tmp >> 16); tmp = (uint64_t)adj->f_bfree * ratiob16; adj->f_bfree = (off_t)(tmp >> 16); tmp = (uint64_t)adj->f_bavail * ratiob16; adj->f_bavail = (off_t)(tmp >> 16); } /* Then we can just sum the adjusted sizes */ buf->f_blocks = buf1.f_blocks + buf2.f_blocks; buf->f_bfree = buf1.f_bfree + buf2.f_bfree; buf->f_bavail = buf1.f_bavail + buf2.f_bavail; return OK; } /**************************************************************************** * Name: unionfs_unlink ****************************************************************************/ static int unionfs_unlink(FAR struct inode *mountpt, FAR const char *relpath) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; struct stat buf; int ret; finfo("relpath: %s\n", relpath); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL && relpath != NULL); ui = mountpt->i_private; /* Check if some exists at this path on file system 1. This might be * a file or a directory */ um = &ui->ui_fs[0]; ret = unionfs_trystat(um->um_node, relpath, um->um_prefix, &buf); if (ret >= 0) { /* Yes.. Try to unlink the file on file system 1 (perhaps exposing * a file of the same name on file system 2). This would fail * with -ENOSYS if file system 1 is a read-only only file system or * -EISDIR if the path is not a file. */ ret = unionfs_tryunlink(um->um_node, relpath, um->um_prefix); } /* There is nothing at this path on file system 1 */ else { /* Check if the file exists with name on file system 2. The only * reason that we check here is so that we can return the more * meaningful -ENOSYS if file system 2 is a read-only file system. */ um = &ui->ui_fs[1]; ret = unionfs_trystat(um->um_node, relpath, um->um_prefix, &buf); if (ret >= 0) { /* Yes.. Try to unlink the file on file system 1. This would fail * with -ENOSYS if file system 2 is a read-only only file system or * -EISDIR if the path is not a file. * */ ret = unionfs_tryunlink(um->um_node, relpath, um->um_prefix); } } return ret; } /**************************************************************************** * Name: unionfs_mkdir ****************************************************************************/ static int unionfs_mkdir(FAR struct inode *mountpt, FAR const char *relpath, mode_t mode) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; struct stat buf; int ret1; int ret2; int ret; finfo("relpath: %s\n", relpath); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL && relpath != NULL); ui = mountpt->i_private; /* Is there anything with this name on either file system? */ um = &ui->ui_fs[0]; ret = unionfs_trystat(um->um_node, relpath, um->um_prefix, &buf); if (ret >= 0) { return -EEXIST; } um = &ui->ui_fs[1]; ret = unionfs_trystat(um->um_node, relpath, um->um_prefix, &buf); if (ret >= 0) { return -EEXIST; } /* Try to create the directory on both file systems. */ um = &ui->ui_fs[0]; ret1 = unionfs_trymkdir(um->um_node, relpath, um->um_prefix, mode); um = &ui->ui_fs[1]; ret2 = unionfs_trymkdir(um->um_node, relpath, um->um_prefix, mode); /* We will say we were successful if we were able to create the * directory on either file system. Perhaps one file system is * read-only and the other is write-able? */ return (ret1 >= 0 || ret2 >= 0) ? OK : ret1; } /**************************************************************************** * Name: unionfs_rmdir ****************************************************************************/ static int unionfs_rmdir(FAR struct inode *mountpt, FAR const char *relpath) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; int ret = -ENOENT; int tmp; finfo("relpath: %s\n", relpath); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL && relpath != NULL); ui = mountpt->i_private; /* We really don't know any better so we will try to remove the directory * from both file systems. */ /* Is there a directory with this name on file system 1 */ um = &ui->ui_fs[0]; tmp = unionfs_trystatdir(um->um_node, relpath, um->um_prefix); if (tmp >= 0) { /* Yes.. remove it. Since we know that the directory exists, any * failure to remove it is a showstopper. */ ret = unionfs_tryrmdir(um->um_node, relpath, um->um_prefix); if (ret < 0) { return ret; } } /* Either the directory does not exist on file system 1, or we * successfully removed it. Try again on file system 2. */ um = &ui->ui_fs[1]; tmp = unionfs_trystatdir(um->um_node, relpath, um->um_prefix); if (tmp >= 0) { /* Yes.. remove it. Since we know that the directory exists, any * failure to remove it is a showstopper. */ ret = unionfs_tryrmdir(um->um_node, relpath, um->um_prefix); /* REVISIT: Should we try to restore the directory on file system 1 * if we failure to removed the directory on file system 2? */ } return ret; } /**************************************************************************** * Name: unionfs_rename ****************************************************************************/ static int unionfs_rename(FAR struct inode *mountpt, FAR const char *oldrelpath, FAR const char *newrelpath) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; int ret = -ENOENT; int tmp; finfo("oldrelpath: %s newrelpath: %s\n", oldrelpath, newrelpath); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL); ui = mountpt->i_private; DEBUGASSERT(oldrelpath != NULL && oldrelpath != NULL); /* Is there a file with this name on file system 1 */ um = &ui->ui_fs[0]; tmp = unionfs_trystatfile(um->um_node, oldrelpath, um->um_prefix); if (tmp >= 0) { /* Yes.. rename it. Since we know that the directory exists, any * failure to remove it is a showstopper. */ ret = unionfs_tryrename(um->um_node, oldrelpath, newrelpath, um->um_prefix); if (ret >= 0) { /* Return immediately on success. In the event that the file * exists in both file systems, this will produce the odd behavior * that one file on file system 1 was renamed but another obscured * file of the same relative path will become visible. */ return OK; } } /* Either the file does not exist on file system 1, or we failed to rename * it (perhaps because the file system was read-only). Try again on file * system 2. */ um = &ui->ui_fs[1]; tmp = unionfs_trystatfile(um->um_node, oldrelpath, um->um_prefix); if (tmp >= 0) { /* Yes.. remove it. Since we know that the directory exists, any * failure to remove it is a showstopper. */ ret = unionfs_tryrename(um->um_node, oldrelpath, newrelpath, um->um_prefix); } return ret; } /**************************************************************************** * Name: unionfs_stat ****************************************************************************/ static int unionfs_stat(FAR struct inode *mountpt, FAR const char *relpath, FAR struct stat *buf) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; int ret; finfo("relpath: %s\n", relpath); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL && relpath != NULL); ui = mountpt->i_private; /* stat this path on file system 1 */ um = &ui->ui_fs[0]; ret = unionfs_trystat(um->um_node, relpath, um->um_prefix, buf); if (ret >= 0) { /* Return on the first success. The first instance of the file will * shadow the second anyway. */ return OK; } /* stat failed on the file system 1. Try again on file system 2. */ um = &ui->ui_fs[1]; ret = unionfs_trystat(um->um_node, relpath, um->um_prefix, buf); if (ret >= 0) { /* Return on the first success. The first instance of the file will * shadow the second anyway. */ return OK; } /* Special case the unionfs root directory when both file systems are * offset. In that case, both of the above trystat calls will fail. */ if (ui->ui_fs[0].um_prefix != NULL && ui->ui_fs[1].um_prefix != NULL) { /* Most of the stat entries just do not apply */ memset(buf, 0, sizeof(struct stat)); /* Claim that this is a read-only directory */ buf->st_mode = S_IFDIR | S_IROTH | S_IRGRP | S_IRUSR; /* Check if the user is stat'ing some "fake" node between the unionfs * root and the file system 1 root directory. */ if (unionfs_ispartprefix(relpath, ui->ui_fs[0].um_prefix) || unionfs_ispartprefix(relpath, ui->ui_fs[1].um_prefix)) { ret = OK; } else { ret = -ENOENT; } } return ret; } /**************************************************************************** * Name: unionfs_chstat ****************************************************************************/ static int unionfs_chstat(FAR struct inode *mountpt, FAR const char *relpath, FAR const struct stat *buf, int flags) { FAR struct unionfs_inode_s *ui; FAR struct unionfs_mountpt_s *um; int ret; finfo("relpath: %s\n", relpath); /* Recover the union file system data from the struct inode instance */ DEBUGASSERT(mountpt != NULL && mountpt->i_private != NULL && relpath != NULL); ui = mountpt->i_private; /* chstat this path on file system 1 */ um = &ui->ui_fs[0]; ret = unionfs_trychstat(um->um_node, relpath, um->um_prefix, buf, flags); if (ret >= 0) { /* Return on the first success. The first instance of the file will * shadow the second anyway. */ return OK; } /* chstat failed on the file system 1. Try again on file system 2. */ um = &ui->ui_fs[1]; ret = unionfs_trychstat(um->um_node, relpath, um->um_prefix, buf, flags); if (ret >= 0) { return OK; } return ret; } /**************************************************************************** * Name: unionfs_getmount ****************************************************************************/ static int unionfs_getmount(FAR const char *path, FAR struct inode **inode) { FAR struct inode *minode; struct inode_search_s desc; int ret; /* Find the mountpt */ SETUP_SEARCH(&desc, path, false); ret = inode_find(&desc); if (ret < 0) { /* Mountpoint inode not found */ goto errout_with_search; } /* Get the search results */ minode = desc.node; DEBUGASSERT(minode != NULL); /* Verify that the inode is a mountpoint. * * REVISIT: If desc.relpath points to a non-empty string, then the path * does not really refer to a mountpoint but, rather, to a some entity * within the mounted volume. */ if (!INODE_IS_MOUNTPT(minode)) { /* Inode was found, but is it is not a mounpoint */ ret = -EINVAL; goto errout_with_inode; } /* Success! */ *inode = minode; RELEASE_SEARCH(&desc); return OK; errout_with_inode: inode_release(minode); errout_with_search: RELEASE_SEARCH(&desc); return ret; } /**************************************************************************** * Name: unionfs_dobind ****************************************************************************/ static int unionfs_dobind(FAR const char *fspath1, FAR const char *prefix1, FAR const char *fspath2, FAR const char *prefix2, FAR void **handle) { FAR struct unionfs_inode_s *ui; int ret; DEBUGASSERT(fspath1 != NULL && fspath2 != NULL && handle != NULL); /* Allocate a structure a structure that will describe the union file * system. */ ui = (FAR struct unionfs_inode_s *) fs_heap_zalloc(sizeof(struct unionfs_inode_s)); if (!ui) { ferr("ERROR: Failed to allocated union FS state structure\n"); return -ENOMEM; } nxmutex_init(&ui->ui_lock); /* Get the inodes associated with fspath1 and fspath2 */ ret = unionfs_getmount(fspath1, &ui->ui_fs[0].um_node); if (ret < 0) { ferr("ERROR: unionfs_getmount(fspath1) failed: %d\n", ret); goto errout_with_uinode; } ret = unionfs_getmount(fspath2, &ui->ui_fs[1].um_node); if (ret < 0) { ferr("ERROR: unionfs_getmount(fspath2) failed: %d\n", ret); goto errout_with_fs1; } /* Duplicate the prefix strings */ if (prefix1 && strlen(prefix1) > 0) { ui->ui_fs[0].um_prefix = strdup(prefix1); if (ui->ui_fs[0].um_prefix == NULL) { ferr("ERROR: strdup(prefix1) failed\n"); ret = -ENOMEM; goto errout_with_fs2; } } if (prefix2 && strlen(prefix2) > 0) { ui->ui_fs[1].um_prefix = strdup(prefix2); if (ui->ui_fs[1].um_prefix == NULL) { ferr("ERROR: strdup(prefix2) failed\n"); ret = -ENOMEM; goto errout_with_prefix1; } } /* Unlink the contained mountpoint inodes from the pseudo file system. * The inodes will be marked as deleted so that they will be removed when * the reference count decrements to zero in inode_release(). Because we * hold a reference count on the inodes, they will not be deleted until * this logic calls inode_release() in the unionfs_destroy() function. */ inode_remove(fspath1); inode_remove(fspath2); *handle = ui; return OK; errout_with_prefix1: if (ui->ui_fs[0].um_prefix != NULL) { lib_free(ui->ui_fs[0].um_prefix); } errout_with_fs2: inode_release(ui->ui_fs[1].um_node); errout_with_fs1: inode_release(ui->ui_fs[0].um_node); errout_with_uinode: nxmutex_destroy(&ui->ui_lock); fs_heap_free(ui); return ret; } /**************************************************************************** * Public Functions ****************************************************************************/ #endif /* !CONFIG_DISABLE_MOUNTPOINT && CONFIG_FS_UNIONFS */