Short answer: you may want to use both git push --force-with-lease
and git fetch --prune
. The --force-with-lease
option requires that the Git on both the local and remote be not too terribly old, being at least version 1.8.5. Any modern distribution has this, but certain unnamed Linux distributions still use Git version 1.7 (!). (Git 2.7.2 and later also report the push result a bit better.)
Note that this is not git pull --prune
(--prune
is not documented as a flag to git pull
), it is git fetch --prune
. (Using --prune
might work with git pull
, in some versions of Git. It's just not documented as being supported.)
Discussion (theory of operation)
First, let's note that the opposite of push
is actually fetch
(not pull
), and that git pull
starts by running git fetch
. In Git, running git pull
essentially runs git fetch
for you, and then runs git merge
or git rebase
for you. Until you are very familiar with Git, I believe you are better off running each step separately. For one thing, it's possible for either step to fail, and the action to take to recover from such failures is quite different depending on which step failed. For another, you may want to inspect incoming changes before doing a merge or rebase (or perhaps even choosing to do something else entirely). If you use git pull
you are forced to decide on merge-vs-rebase before you have the information needed to make that decision.
In any case, it is the git fetch
operation that connects your Git to the Git on the remote. Once your Git and their Git are talking (usually over an Internet connection), your Git gets, from their Git, a list of all their branches and corresponding commit hashes. The --prune
option in git fetch
tells your Git to remove, from your remote-tracking branches, any branches that your Git can tell that their Git no longer has.
More specifically, consider the case of origin
. Your Git has remote-tracking branches named origin/master
, origin/develop
, and so on, but the reason it has these is that your Git called up their Git over the Internet-phone and their Git told your Git "I have a branch named master
and a branch named develop
", so your Git made your origin/master
to track their master
, and made your origin/develop
to track their develop
, and so on. Now your Git calls up their Git on the Internet-phone, and this time their Git says "I have master
and feature
" but says nothing about develop
. Since their Git is telling you all about all of their branches, it's clear that they no longer have a develop
.
Your Git now has to decide: Do we discard origin/develop
since they no longer have a develop
? Or, do we keep origin/develop
just in case you were still using it for something? The default is that your Git will keep it. Using --prune
tells your Git that you would like your Git to discard it. As noted in Briana Swift's answer, you may want to use git config
to set fetch.prune
to true
in your global (user-specific) and/or local (repository-specific) settings, so that these git fetch
operations automatically discard such branches.
(Note that when git pull
invokes git fetch
, pull
tells fetch
to bring over only one branch to its remote-tracking equivalent.1 This also inhibits pruning other remote-tracking branches—another reason to avoid git pull
. Admittedly, if you have a very slow Internet connection, it may improve the speed of the fetch
step to bring over only objects needed for the one branch.)
Asymmetry of fetch
vs push
Unless you set up Git in a very odd way,2 it's always safe to run git fetch
and pick up all the updates from a remote. The reason is that you work off local branches. You check out master
and/or develop
and/or feature
, and at most, you set up these local branches to --track
a remote-tracking branch like origin/master
. This kind of tracking simply tells git status
to report how far ahead and/or behind you are, and makes it more convenient to run git rebase
and/or git merge
.
When you run git fetch
or git fetch origin
, your Git calls up their (origin's) Git over the Internet-phone, gets a list of all branches, and receives (downloads to your repository) all the objects you need to track their branches and update your remote-tracking branches. Your Git then updates your remote-tracking branches. If you select pruning, your Git also deletes any obsolete remote-tracking branches. Since the things you depend on are in your local branches, and this only affects remote-tracking branches, it's safe.
When you ask your Git to git push
to the remote, however, the situation is different. This time your Git sends objects (starting with commits and/or tags, and adding any trees and files needed by those commits and/or tags) to the remote. Then, after sending all those objects, your Git sends a series of "update a branch or tag" requests.
With a regular (non---force
) push, your Git sends a "please, if you like, set this branch to this new commit ID" request, one for each branch to update. With a --force
push, your Git sends a more forceful "set this branch to this new commit ID" command. If you are sending tags, your Git sends the same requests or commands, but for tags. (These all have a general form and since Git acquired notes, your Git may send notes update requests or commands too. The command-ness is reduced to a single "force flag", and in fact, you can set or clear it on a per-reference basis using the +
syntax: git push remote l1:r1 +l2:r2 l3:r3
has one force update, for remote reference r2
, and two polite requests, for remote references r1
and r2
.)
Their Git now has a chance to inspect these change requests / commands, using built-in rules and also any rules they (the owners of the remote Git) have chosen to implement in their pre-receive
and update
hooks. The default is to refuse a polite request to update a branch if it is not a fast-forward, and to refuse any polite request to update a tag.3 Commands—requests with the force flag set—are still allowed, and if the operation creates or deletes the branch or tag, it is allowed whether or not it has a force flag. In any case, the hooks may refuse the update (although they cannot allow an update that would have been refused by the default rules).
--force-with-lease
These rules work fairly well for most situations, but there are some situations where they do not quite suffice. Force-pushes of rebase operations are one such situation, and your particular desire—to update a branch on the remote Git if and only if that branch actually exists—are another. This is where --force-with-lease
comes in.
Note that any time we split an operation into "fetch from remote, then push to remote", we have a problem: there is no guarantee that our push, the one we do right after we do a fetch, is the only push4 operation that happens after the fetch. For instance, suppose we run git fetch --prune origin && git rev-parse origin/foo && git push origin foo
on our machine, and Bob runs git push origin :foo
on Bob's machine, and Bob is using the same remote we are, and Bob's machine sneaks his "delete branch foo" in between our fetch and our push? We finish our fetch and start checking to make sure origin/foo
is still valid. Then Bob runs his push, deleting branch foo
. Then, on our machine, we've decided that branch foo
does indeed exist on the remote—it did until Bob just deleted it!—and we go to push foo
, and we succeed by creating it.
(The same thing can happen with a rebase-and-force-push: we think we have everything from origin/foo
; we rebase it all, while Bob pushes his change; then we force-push our rebase and lose Bob's change. Of course, in general we should not be doing this unless everyone, including Bob, has agreed that we're allowed to rebase that branch. Bob can recover from this since Bob still has Bob's version of foo
. But it's annoying at best.)
The --force-with-lease
option is designed for these cases. The general idea is that, instead of simply commanding the other Git to set a reference, we tell the other Git two things: "set a reference" and "we believe it's currently set to <value>". In both our case and the rebase case, what we should do here is tell the remote Git the value we have stored in our remote-tracking branch: we believe refs/heads/foo
is currently a123456...
, and if that's correct, we command the other Git to set it to b987654...
instead.
If Bob sneaks in a push that changes or deletes branch foo
, our belief—that it's currently a123456...
—becomes incorrect. The remote Git answers our command with "well, I might have obeyed, but you were wrong about the value of the reference." This closes the race between "fetch to obtain the old value" and "update to set the new value". It does mean that whoever loses this race must start over, if appropriate, but that was always going to happen.
Note that on your Git's side, where you specify the --force-with-lease
argument, there are a lot of ways to specify which value you expect. The simplest, however, is to let your Git fetch the value from your remote-tracking branch, and that is what you get by default. You can therefore ignore most of the optional values listed in the documentation, although if you want to be particularly paranoid, you can take note of the "experimental" note and make it explicit:
expect=$(git rev-parse refs/remotes/origin/$branch) || exit 1
git push $remote --force-with-lease=refs/heads/$branch:$expect refs/heads/$branch
(I believe that after this much time, the experiment should be declared a success and --force-with-lease
should not change. :-) )
Note, incidentally, that --force-with-lease
is very safe, and maybe should even be the default. The only pushes that are allowed without it, that are rejected with it, are those where your push either resurrects (in fast-forward fashion) a commit that was explicitly deleted from the tip of a branch on the remote, or creates a new branch with the same name that an old branch once had (this last one is just your case, resurrecting a deleted branch).
1This requires that your Git be at least version 1.8.4. In older versions, Git did not even update the remote-tracking branch. This may suppress all pruning entirely; I have not investigated.
2In particular, if you depend on remote-tracking branches instead of local branches, or if you configure a fetch mirror (so that there are no remote-tracking branches and all local branches are simply force-copied from the remote), fetching can then lose objects you were depending on.
3In Git versions before 1.8.2, tag updates used branch update rules, so remotes allowed fast-forward operations on tags, by default.
4Or indeed any update, if the remote Git, on its remote machine, is actually local to some other users who log in to that remote machine, who are locally doing local things to their local Git.