| --- |
| title: Locking Block Device Access |
| category: Interfaces |
| layout: default |
| --- |
| |
| # Locking Block Device Access |
| |
| *TL;DR: Use BSD file locks |
| [(`flock(2)`)](http://man7.org/linux/man-pages/man2/flock.2.html) on block |
| device nodes to synchronize access for partitioning and file system formatting |
| tools.* |
| |
| `systemd-udevd` probes all block devices showing up for file system superblock |
| and partition table information (utilizing `libblkid`). If another program |
| concurrently modifies a superblock or partition table this probing might be |
| affected, which is bad in itself, but also might in turn result in undesired |
| effects in programs subscribing to `udev` events. |
| |
| Applications manipulating a block device can temporarily stop `systemd-udevd` |
| from processing rules on it — and thus bar it from probing the device — by |
| taking a BSD file lock on the block device node. Specifically, whenever |
| `systemd-udevd` starts processing a block device it takes a `LOCK_SH|LOCK_NB` |
| lock using [`flock(2)`](http://man7.org/linux/man-pages/man2/flock.2.html) on |
| the main block device (i.e. never on any partition block device, but on the |
| device the partition belongs to). If this lock cannot be taken (i.e. `flock()` |
| returns `EBUSY`), it refrains from processing the device. If it manages to take |
| the lock it is kept for the entire time the device is processed. |
| |
| Note that `systemd-udevd` also watches all block device nodes it manages for |
| `inotify()` `IN_CLOSE` events: whenever such an event is seen, this is used as |
| trigger to re-run the rule-set for the device. |
| |
| These two concepts allow tools such as disk partitioners or file system |
| formatting tools to safely and easily take exclusive ownership of a block |
| device while operating: before starting work on the block device, they should |
| take an `LOCK_EX` lock on it. This has two effects: first of all, in case |
| `systemd-udevd` is still processing the device the tool will wait for it to |
| finish. Second, after the lock is taken, it can be sure that |
| `systemd-udevd` will refrain from processing the block device, and thus all |
| other client applications subscribed to it won't get device notifications from |
| potentially half-written data either. After the operation is complete the |
| partitioner/formatter can simply close the device node. This has two effects: |
| it implicitly releases the lock, so that `systemd-udevd` can process events on |
| the device node again. Secondly, it results an `IN_CLOSE` event, which causes |
| `systemd-udevd` to immediately re-process the device — seeing all changes the |
| tool made — and notify subscribed clients about it. |
| |
| Besides synchronizing block device access between `systemd-udevd` and such |
| tools this scheme may also be used to synchronize access between those tools |
| themselves. However, do note that `flock()` locks are advisory only. This means |
| if one tool honours this scheme and another tool does not, they will of course |
| not be synchronized properly, and might interfere with each other's work. |
| |
| Note that the file locks follow the usual access semantics of BSD locks: since |
| `systemd-udevd` never writes to such block devices it only takes a `LOCK_SH` |
| *shared* lock. A program intending to make changes to the block device should |
| take a `LOCK_EX` *exclusive* lock instead. For further details, see the |
| `flock(2)` man page. |
| |
| And please keep in mind: BSD file locks (`flock()`) and POSIX file locks |
| (`lockf()`, `F_SETLK`, …) are different concepts, and in their effect |
| orthogonal. The scheme discussed above uses the former and not the latter, |
| because these types of locks more closely match the required semantics. |
| |
| Summarizing: it is recommended to take `LOCK_EX` BSD file locks when |
| manipulating block devices in all tools that change file system block devices |
| (`mkfs`, `fsck`, …) or partition tables (`fdisk`, `parted`, …), right after |
| opening the node. |