mirror of
https://github.com/kdave/btrfs-progs
synced 2024-12-27 00:22:22 +00:00
451db51bdb
Kernel has removed support for this feature in 5.7 so let's remove support from progs as well. Signed-off-by: Nikolay Borisov <nborisov@suse.com> Signed-off-by: David Sterba <dsterba@suse.com>
499 lines
17 KiB
Markdown
499 lines
17 KiB
Markdown
libbtrfsutil
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============
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libbtrfsutil is a library for managing Btrfs filesystems. It is licensed under
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the LGPL. libbtrfsutil provides interfaces for a subset of the operations
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offered by the `btrfs` command line utility. It also includes official Python
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bindings (Python 3 only).
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API Overview
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------------
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This section provides an overview of the interfaces available in libbtrfsutil
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as well as example usages. Detailed documentation for the C API can be found in
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[`btrfsutil.h`](btrfsutil.h). Detailed documentation for the Python bindings is
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available with `pydoc3 btrfsutil` or in the interpreter:
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```
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>>> import btrfsutil
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>>> help(btrfsutil)
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```
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Many functions in the C API have a variant taking a path and a variant taking a
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file descriptor. The latter has the same name as the former with an `_fd`
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suffix. The Python bindings for these functions can take a path, a file object,
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or a file descriptor.
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Error handling is omitted from most of these examples for brevity. Please
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handle errors in production code.
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### Error Handling
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In the C API, all functions that can return an error return an `enum
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btrfs_util_error` and set `errno`. `BTRFS_UTIL_OK` (zero) is returned on
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success. `btrfs_util_strerror()` converts an error code to a string
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description suitable for human-friendly error reporting.
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```c
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enum btrfs_util_err err;
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err = btrfs_util_sync("/");
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if (err)
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fprintf(stderr, "%s: %m\n", btrfs_util_strerror(err));
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```
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In the Python bindings, functions may raise a `BtrfsUtilError`, which is a
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subclass of `OSError` with an added `btrfsutilerror` error code member. Error
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codes are available as `ERROR_*` constants.
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```python
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try:
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btrfsutil.sync('/')
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except btrfsutil.BtrfsUtilError as e:
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print(e, file=sys.stderr)
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```
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### Filesystem Operations
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There are several operations which act on the entire filesystem.
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#### Sync
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Btrfs can commit all caches for a specific filesystem to disk.
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`btrfs_util_sync()` forces a sync on the filesystem containing the given file
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and waits for it to complete.
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`btrfs_wait_sync()` waits for a previously started transaction to complete. The
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transaction is specified by ID, which may be zero to indicate the current
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transaction.
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`btrfs_start_sync()` asynchronously starts a sync and returns a transaction ID
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which can then be passed to `btrfs_wait_sync()`.
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```c
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uint64_t transid;
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btrfs_util_sync("/");
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btrfs_util_start_sync("/", &transid);
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btrfs_util_wait_sync("/", &transid);
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btrfs_util_wait_sync("/", 0);
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```
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```python
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btrfsutil.sync('/')
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transid = btrfsutil.start_sync('/')
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btrfsutil.wait_sync('/', transid)
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btrfsutil.wait_sync('/') # equivalent to wait_sync('/', 0)
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```
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All of these functions have `_fd` variants.
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The equivalent `btrfs-progs` command is `btrfs filesystem sync`.
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### Subvolume Operations
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Functions which take a file and a subvolume ID can be used in two ways. If zero
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is given as the subvolume ID, then the given file is used as the subvolume.
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Otherwise, the given file can be any file in the filesystem, and the subvolume
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with the given ID is used.
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#### Subvolume Information
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`btrfs_util_is_subvolume()` returns whether a given file is a subvolume.
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`btrfs_util_subvolume_id()` returns the ID of the subvolume containing the
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given file.
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```c
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enum btrfs_util_error err;
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err = btrfs_util_is_subvolume("/subvol");
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if (!err)
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printf("Subvolume\n");
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else if (err == BTRFS_UTIL_ERROR_NOT_BTRFS || err == BTRFS_UTIL_ERROR_NOT_SUBVOLUME)
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printf("Not subvolume\n");
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uint64_t id;
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btrfs_util_subvolume_id("/subvol", &id);
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```
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```python
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if btrfsutil.is_subvolume('/subvol'):
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print('Subvolume')
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else:
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print('Not subvolume')
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id_ = btrfsutil.subvolume_id('/subvol')
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```
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`btrfs_util_subvolume_path()` returns the path of the subvolume with the given
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ID relative to the filesystem root. This requires `CAP_SYS_ADMIN`. The path
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must be freed with `free()`.
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```c
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char *path;
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btrfs_util_subvolume_path("/", 256, &path);
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free(path);
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btrfs_util_subvolume_path("/subvol", 0, &path);
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free(path);
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```
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```python
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path = btrfsutil.subvolume_path('/', 256)
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path = btrfsutil.subvolume_path('/subvol') # equivalent to subvolume_path('/subvol', 0)
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```
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`btrfs_util_subvolume_info()` returns information (including ID, parent ID,
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UUID) about a subvolume. In the C API, this is returned as a `struct
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btrfs_util_subvolume_info`. The Python bindings use a `SubvolumeInfo` object.
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This requires `CAP_SYS_ADMIN` unless the given subvolume ID is zero and the
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kernel supports the `BTRFS_IOC_GET_SUBVOL_INFO` ioctl (added in 4.18).
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The equivalent `btrfs-progs` command is `btrfs subvolume show`.
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```c
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struct btrfs_util_subvolume_info info;
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btrfs_util_subvolume_info("/", 256, &info);
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btrfs_util_subvolume_info("/subvol", 0, &info);
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```
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```python
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info = btrfsutil.subvolume_info('/', 256)
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info = btrfsutil.subvolume_info('/subvol') # equivalent to subvolume_info('/subvol', 0)
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```
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All of these functions have `_fd` variants.
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#### Enumeration
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An iterator interface is provided for enumerating subvolumes on a filesystem.
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In the C API, a `struct btrfs_util_subvolume_iterator` is initialized by
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`btrfs_util_create_subvolume_iterator()`, which takes a top subvolume to
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enumerate under and flags. Currently, the only flag is to specify post-order
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traversal instead of the default pre-order. This function has an `_fd` variant.
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`btrfs_util_destroy_subvolume_iterator()` must be called to free a previously
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created `struct btrfs_util_subvolume_iterator`.
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`btrfs_util_subvolume_iterator_fd()` returns the file descriptor opened by
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`btrfs_util_create_subvolume_iterator()` which can be used for other functions.
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`btrfs_util_subvolume_iterator_next()` returns the path (relative to the top
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subvolume that the iterator was created with) and ID of the next subvolume.
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`btrfs_util_subvolume_iterator_next_info()` returns a `struct
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btrfs_subvolume_info` instead of the ID. It is slightly more efficient than
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doing separate `btrfs_util_subvolume_iterator_next()` and
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`btrfs_util_subvolume_info()` calls if the subvolume information is needed. The
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path returned by these functions must be freed with `free()`. When there are no
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more subvolumes, they return `BTRFS_UTIL_ERROR_STOP_ITERATION`.
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```c
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struct btrfs_util_subvolume_iterator *iter;
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enum btrfs_util_error err;
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char *path;
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uint64_t id;
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struct btrfs_util_subvolume_info info;
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btrfs_util_create_subvolume_iterator("/", 256, 0, &iter);
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/*
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* This is just an example use-case for btrfs_util_subvolume_iterator_fd(). It
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* is not necessary.
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*/
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btrfs_util_sync_fd(btrfs_util_subvolume_iterator_fd(iter));
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while (!(err = btrfs_util_subvolume_iterator_next(iter, &path, &id))) {
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printf("%" PRIu64 " %s\n", id, path);
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free(path);
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}
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btrfs_util_destroy_subvolume_iterator(iter);
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btrfs_util_create_subvolume_iterator("/subvol", 0,
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BTRFS_UTIL_SUBVOLUME_ITERATOR_POST_ORDER,
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&iter);
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while (!(err = btrfs_util_subvolume_iterator_next_info(iter, &path, &info))) {
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printf("%" PRIu64 " %" PRIu64 " %s\n", info.id, info.parent_id, path);
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free(path);
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}
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btrfs_util_destroy_subvolume_iterator(iter);
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```
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The Python bindings provide this interface as an iterable `SubvolumeIterator`
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class. It should be used as a context manager to ensure that the underlying
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file descriptor is closed. Alternatively, it has a `close()` method for closing
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explicitly. It also has a `fileno()` method to get the underlying file
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descriptor.
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```python
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with btrfsutil.SubvolumeIterator('/', 256) as it:
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# This is just an example use-case for fileno(). It is not necessary.
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btrfsutil.sync(it.fileno())
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for path, id_ in it:
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print(id_, path)
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it = btrfsutil.SubvolumeIterator('/subvol', info=True, post_order=True)
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try:
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for path, info in it:
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print(info.id, info.parent_id, path)
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finally:
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it.close()
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```
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This interface requires `CAP_SYS_ADMIN` unless the given top subvolume ID is
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zero and the kernel supports the `BTRFS_IOC_GET_SUBVOL_ROOTREF` and
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`BTRFS_IOC_INO_LOOKUP_USER` ioctls (added in 4.18). In the unprivileged case,
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subvolumes which cannot be accessed are skipped.
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The equivalent `btrfs-progs` command is `btrfs subvolume list`.
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#### Creation
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`btrfs_util_create_subvolume()` creates a new subvolume at the given path. The
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subvolume can inherit from quota groups (qgroups).
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Qgroups to inherit are specified with a `struct btrfs_util_qgroup_inherit`,
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which is created by `btrfs_util_create_qgroup_inherit()` and freed by
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`btrfs_util_destroy_qgroup_inherit()`. Qgroups are added with
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`btrfs_util_qgroup_inherit_add_group()`. The list of added groups can be
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retrieved with `btrfs_util_qgroup_inherit_get_groups()`; note that the returned
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array does not need to be freed and is no longer valid when the `struct
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btrfs_util_qgroup_inherit` is freed.
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The Python bindings provide a `QgroupInherit` class. It has an `add_group()`
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method and a `groups` member, which is a list of ints.
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```c
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btrfs_util_create_subvolume("/subvol2", 0, NULL, NULL);
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struct btrfs_util_qgroup_inherit *qgroups;
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btrfs_util_create_qgroup_inherit(0, &qgroups);
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btrfs_util_qgroup_inherit_add_group(&qgroups, 256);
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btrfs_util_create_subvolume("/subvol2", 0, NULL, qgroups);
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btrfs_util_destroy_qgroup_inherit(qgroups);
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```
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```python
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btrfsutil.create_subvolume('/subvol2')
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qgroups = btrfsutil.QgroupInherit()
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qgroups.add_group(256)
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btrfsutil.create_subvolume('/subvol2', qgroup_inherit=qgroups)
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```
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The C API has an `_fd` variant which takes a name and a file descriptor
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referring to the parent directory.
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The equivalent `btrfs-progs` command is `btrfs subvolume create`.
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#### Snapshotting
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Snapshots are created with `btrfs_util_create_snapshot()`, which takes a source
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path, a destination path, and flags. It can also inherit from quota groups;
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see [subvolume creation](#Creation).
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Snapshot creation can be recursive, in which case subvolumes underneath the
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subvolume being snapshotted will also be snapshotted onto the same location in
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the new snapshot (note that this is implemented in userspace non-atomically and
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has the same capability requirements as a [subvolume iterator](#Enumeration)).
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The newly created snapshot can also be read-only, but not if doing a recursive
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snapshot.
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```c
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btrfs_util_create_snapshot("/subvol", "/snapshot", 0, NULL, NULL);
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btrfs_util_create_snapshot("/nested_subvol", "/nested_snapshot",
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BTRFS_UTIL_CREATE_SNAPSHOT_RECURSIVE, NULL, NULL);
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btrfs_util_create_snapshot("/subvol", "/rosnapshot",
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BTRFS_UTIL_CREATE_SNAPSHOT_READ_ONLY, NULL, NULL);
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```
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```python
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btrfsutil.create_snapshot('/subvol', '/snapshot')
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btrfsutil.create_snapshot('/nested_subvol', '/nested_snapshot', recursive=True)
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btrfsutil.create_snapshot('/subvol', '/rosnapshot', read_only=True)
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```
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The C API has two `_fd` variants. `btrfs_util_create_snapshot_fd()` takes the
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source subvolume as a file descriptor. `btrfs_util_create_snapshot_fd2()` takes
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the source subvolume as a file descriptor and the destination as a name and
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parent file descriptor.
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The equivalent `btrfs-progs` command is `btrfs subvolume snapshot`.
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#### Deletion
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`btrfs_util_delete_subvolume()` takes a subvolume to delete and flags. This
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requires `CAP_SYS_ADMIN` if the filesystem was not mounted with
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`user_subvol_rm_allowed`. Deletion may be recursive, in which case all
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subvolumes beneath the given subvolume are deleted before the given subvolume
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is deleted. This is implemented in user-space non-atomically and has the same
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capability requirements as a [subvolume iterator](#Enumeration).
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```c
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btrfs_util_delete_subvolume("/subvol", 0);
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btrfs_util_delete_subvolume("/nested_subvol",
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BTRFS_UTIL_DELETE_SUBVOLUME_RECURSIVE);
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```
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```python
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btrfsutil.delete_subvolume('/subvol')
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btrfsutil.delete_subvolume('/nested_subvol', recursive=True)
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```
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The C API has an `_fd` variant which takes a name and a file descriptor
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referring to the parent directory.
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The equivalent `btrfs-progs` command is `btrfs subvolume delete`.
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#### Deleted Subvolumes
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Btrfs lazily cleans up deleted subvolumes. `btrfs_util_deleted_subvolumes()`
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returns an array of subvolume IDs which have been deleted but not yet cleaned
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up. The returned array should be freed with `free()`.
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```c
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uint64_t *ids;
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size_t n; /* Number of returned IDs. */
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btrfs_util_deleted_subvolumes("/", &ids, &n);
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free(ids);
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```
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The Python binding returns a list of ints.
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```python
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ids = btrfsutil.deleted_subvolumes('/')
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```
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This function also has an `_fd` variant. It requires `CAP_SYS_ADMIN`.
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The closest `btrfs-progs` command is `btrfs subvolume sync`, which waits for
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deleted subvolumes to be cleaned up.
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#### Read-Only Flag
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Subvolumes can be set to read-only. `btrfs_util_get_subvolume_read_only()`
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returns whether a subvolume is read-only.
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`btrfs_util_set_subvolume_read_only()` sets the read-only flag to the desired
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value.
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```c
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bool read_only;
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btrfs_util_get_subvolume_read_only("/subvol", &read_only);
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btrfs_util_set_subvolume_read_only("/subvol", true);
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btrfs_util_set_subvolume_read_only("/subvol", false);
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```
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```python
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read_only = btrfsutil.get_subvolume_read_only('/subvol')
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btrfsutil.set_subvolume_read_only('/subvol', True)
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btrfsutil.set_subvolume_read_only('/subvol', False)
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```
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Both of these functions have `_fd` variants.
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The equivalent `btrfs-progs` commands are `btrfs property get` and `btrfs
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property set` with the `ro` property.
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#### Default Subvolume
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The default subvolume of a filesystem is the subvolume which is mounted when no
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`subvol` or `subvolid` mount option is passed.
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`btrfs_util_get_default_subvolume()` gets the ID of the default subvolume for
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the filesystem containing the given file.
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`btrfs_util_set_default_subvolume()` sets the default subvolume.
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```c
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uint64_t id;
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btrfs_util_get_default_subvolume("/", &id);
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btrfs_util_set_default_subvolume("/", 256);
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btrfs_util_set_default_subvolume("/subvol", 0);
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```
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```python
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id = btrfsutil.get_default_subvolume('/')
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btrfsutil.set_default_subvolume('/', 256)
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btrfsutil.set_default_subvolume('/subvol') # equivalent to set_default_subvolume('/subvol', 0)
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```
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Both of these functions have an `_fd` variant. They both require
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`CAP_SYS_ADMIN`.
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The equivalent `btrfs-progs` commands are `btrfs subvolume get-default` and
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`btrfs subvolume set-default`.
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Development
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-----------
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The [development process for btrfs-progs](../README.md#development) applies.
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libbtrfsutil only includes operations that are done through the filesystem and
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ioctl interface, not operations that modify the filesystem directly (e.g., mkfs
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or fsck). This is by design but also a legal necessity, as the filesystem
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implementation is GPL but libbtrfsutil is LGPL. That is also why the
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libbtrfsutil code is a reimplementation of the btrfs-progs code rather than a
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refactoring. Be wary of this when porting functionality.
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libbtrfsutil is semantically versioned separately from btrfs-progs. It is the
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maintainers' responsibility to bump the version as needed (at most once per
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release of btrfs-progs).
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A few guidelines:
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* All interfaces must be documented in this README and in `btrfsutil.h` using
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the kernel-doc style
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* Error codes should be specific about what _exactly_ failed
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* Functions should have a path and an fd variant whenever possible
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* Spell out terms in function names, etc. rather than abbreviating whenever
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possible
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* Don't require the Btrfs UAPI headers for any interfaces (e.g., instead of
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directly exposing a type from `linux/btrfs_tree.h`, abstract it away in a
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type specific to `libbtrfsutil`)
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* Preserve API and ABI compatibility at all times (i.e., we don't want to bump
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the library major version if we don't have to)
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* Include Python bindings for all interfaces
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* Write tests for all interfaces
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### Extending API
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Adding a new function to the API requires updating several locations scattered
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everywhere. The following checklist should help to make sure nothing is missing:
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* `libbtrfsutil/btrfsutil.h` add exported functions, with proper documentation
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following examples of the others (documented parameters, behaviour, return
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values, other relevant information/quirks)
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* `libbtrfsutil/btrfsutil.h` add any new error 'btrfs\_util\_error' enums
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specific to the added functions and in `libbtrfsutil/errors.c` write text
|
|
descriptions
|
|
* `libbtrfsutil/btrfsutil.h` add new constants if necessary, new values must be
|
|
defined even if there's already an existing one in another 'btrfs-progs' header,
|
|
prefix them with 'BTRFS\_UTIL\_'
|
|
* implementation goes to `*.c`, existing one if the class of the API already
|
|
exists or create a new one, in that case update `Makefile` and variable
|
|
'libbtrfsutil\_objects'
|
|
* `libbtrfsutil.sym` add new exported symbols, add a new versioned section if
|
|
necessary, bump minor version
|
|
* `python/btrfsutilpy.h` declare C functions implementing the binding
|
|
* `python/*.c` add the implementation, filenames follow the library '\*.c',
|
|
follow examples of other functions how the bindings are done, this can be the
|
|
hard part in case there are non-trivial return values
|
|
* `python/module.c` add binding description entry for the new functions
|
|
* `python/tests/test_*.py` write test for the new functionality
|
|
* `README.md` add documentation for the new functions
|
|
|
|
### API summary
|
|
|
|
* filesystem
|
|
* sync
|
|
* wait for sync
|
|
* subvolume
|
|
* create
|
|
* delete
|
|
* is subvolume
|
|
* get containing subvolume id
|
|
* get path of id
|
|
* get info
|
|
* set/get default
|
|
* set/get read-only flag
|
|
* list (live and deleted)
|
|
* qgroups
|
|
* create
|
|
* inherit
|
|
* add relation
|
|
* destroy
|