table of contents
GIT-LFS-PRUNE(1) | GIT-LFS-PRUNE(1) |
NAME¶
git-lfs-prune - Delete old LFS files from local storage
SYNOPSIS¶
git lfs prune [options]
DESCRIPTION¶
Deletes local copies of LFS files which are old, thus freeing up disk space. Prune operates by enumerating all the locally stored objects, and then deleting any which are not referenced by at least ONE of the following:
In general terms, prune will delete files you’re not currently using and which are not 'recent', so long as they’ve been pushed i.e. the local copy is not the only one.
The reflog is not considered, only commits. Therefore LFS objects that are only referenced by orphaned commits are always deleted.
Note: you should not run git lfs prune if you have different repositories sharing the same custom storage directory; see git-lfs-config(5) for more details about lfs.storage option.
In your Git configuration or in a .lfsconfig file, you may set lfs.fetchexclude to a comma-separated list of paths. If lfs.fetchexclude is defined, then any Git LFS files whose paths match one in that list will be pruned unless they are referenced by a stash or an unpushed commit. Paths are matched using wildcard matching as per gitignore(5).
OPTIONS¶
--dry-run, -d
--force, -f
--recent
--verify-remote, -c
--no-verify-remote
--verbose, -v
RECENT FILES¶
Prune won’t delete LFS files referenced by 'recent' commits, in case you want to use them again without having to download. The definition of 'recent' is derived from the one used by git-lfs-fetch(1) to download recent objects with the --recent option, with an offset of a number of days (default 3) to ensure that we always keep files you download for a few days.
Here are the git-config(1) settings that control this behaviour:
UNPUSHED LFS FILES¶
When the only copy of an LFS file is local, and it is still reachable from any reference, that file can never be pruned, regardless of how old it is.
To determine whether an LFS file has been pushed, we check the difference between local refs and remote refs; where the local ref is ahead, any LFS files referenced in those commits is unpushed and will not be deleted. This works because the LFS pre-push hook always ensures that LFS files are pushed before the remote branch is updated.
See DEFAULT REMOTE, for which remote is considered 'pushed' for pruning purposes.
VERIFY REMOTE¶
The --verify-remote option calls the remote to ensure that any LFS files to be deleted have copies on the remote before actually deleting them.
Usually the check performed by UNPUSHED LFS FILES is enough to determine that files have been pushed, but if you want to be extra sure at the expense of extra overhead you can make prune actually call the remote API and verify the presence of the files you’re about to delete locally. See DEFAULT REMOTE for which remote is checked.
You can make this behaviour the default by setting lfs.pruneverifyremotealways to true.
In addition to the overhead of calling the remote, using this option also requires prune to distinguish between totally unreachable files (e.g. those that were added to the index but never committed, or referenced only by orphaned commits), and files which are still referenced, but by commits which are prunable. This makes the prune process take longer.
DEFAULT REMOTE¶
When identifying UNPUSHED LFS FILES and performing VERIFY REMOTE, a single remote, 'origin', is normally used as the reference. This one remote is considered canonical; even if you use multiple remotes, you probably want to retain your local copies until they’ve made it to that remote. 'origin' is used by default because that will usually be a main central repo, or your fork of it - in both cases that’s a valid remote backup of your work. If origin doesn’t exist then by default nothing will be pruned because everything is treated as 'unpushed'.
You can alter the remote via git config: lfs.pruneremotetocheck. Set this to a different remote name to check that one instead of 'origin'.
SEE ALSO¶
git-lfs-fetch(1), gitignore(5).
Part of the git-lfs(1) suite.