Part 1: Getting your push done without worrying about
(Note: actually, it's already done. See note towards the bottom of part 1.)
git push with no additional arguments.
If you run
git push with two more arguments, they specify exactly what to push where. The git documents call these the
<repository> and the
In your case, the repository is always
origin (which is the usual standard one git sets up when you clone something). So the
refspec is the more interesting part.
Here's the long1 form:
git push origin feature/mybranch:feature/mybranch
This limits git to only attempting to push your branch
feature/mybranch, telling the remote,
origin, that it should update the branch
feature/mybranch on its side too.
If you leave out the
:<same-name> part, the default is to use the branch name on the left of the colon, so:
git push origin feature/mybranch
does exactly the same thing, with a bit less command-typing.
Now, what happens when you leave out the
<refspec>? The answer is in the git push and git config documentation, although in my 188.8.131.52 text version it's really hard to read, and the on-line version I linked to above is, if anything, worse: :-)
When the command line does not specify what to push with <refspec>...
arguments or --all, --mirror, --tags options, the command finds the
default by consulting remote.*.push configuration, and if it
is not found, honors push.default configuration to decide what to push
(See gitlink:git-config for the meaning of push.default).
To simplify this a lot, I can tell2 that you have not set either
push.default, so you're getting the "default default", which is called
matching, which means your
git push calls up
origin on the metaphorical Internet-phone and says
Hey, what branches do ya got?
and it says:
So your git then says:
OK, well, here's what I think
master should be, and here's what I think
feature/mybranch should be.
To which he says:
Whoa there buddy, that would set
master back a couple of revs!
... and that's when you got the
! [rejected] master -> master (non-fast-forward) thing.
So, there's a couple of really simple solutions.
Solution #0: do nothing
If you still have the original
push output available, you should be able to see something like this:
a430f6d..676699a feature/mybranch -> feature/mybranch
! [rejected] master -> master (non-fast-forward)
This means that even though the change for
master -> master was rejected, the change for
feature/mybranch -> feature/mybranch was accepted. The branch you wanted to push, you did! You just got this annoying error message to go with the success (and now you're wondering what to do with branch
Solution #1: be explicit in the
If you run:
git push origin feature/mybranch
your Git and origin's Git will have a shorter conversation. Instead of your Git asking him "hey, whaddaya got there?" and then trying to push all "matching" branches, yours will just say: "I have some updates for
feature/mybranch". The fact that you're behind on
master will be irrelevant; neither you, nor your Git, nor the remote Git will look there.
Solution #2: change your
This only works if your git is new enough, although by now, most are:
git config --global push.default simple
The Git folks
are planning to change changed (as of Git version 2.0) the "default default", because
matching turns out to be more annoying than helpful, a lot of the time. The new "default default" will be
simple. (For details on what this means, see the git config documentation.)
--global version will change the default default for you, but not for other people. If any repositories—your own, or others—have a local
push.default setting, that will override your personal global setting, but for those that don't, your global setting is the one git will use. You can choose instead to set the local setting in each repo, which will affect you and anyone else who uses your own repos, but then you need to remember to set it in all your repos.)
1Actually this is only the semi-long form: you can add
refs/heads/ in front of each branch name to make it even longer. That's just for showing off though. :-)
2I'm just guessing, really, but it's a pretty safe bet. Someone who configures
push.default probably already knows all of this stuff.
Part 2: Why won't
I'm much less sure about this, but it looks as though someone had accidentally committed a bunch of (17)
.java binaries into the
master branch, probably from not having a correct
At some point they noticed, oops, didn't want all these binaries! So they updated
.gitignore and committed that, but probably didn't actually
git rm --cached all of them, so some are still being tracked. If a file that is now listed as ignored was previously committed, git "obeys the commit" rather than the ignore directive, and you get a lot of this:
# Changes not staged for commit:
# (use "git add <file>..." to update what will be committed)
# (use "git checkout -- <file>..." to discard changes in working directory)
# modified: bin/b1
Depending on how you
git add and what's in the
.gitignore it's possible to add the in-repository tracked files (that are overriding the ignore entry), and make them "staged for commit" and commit them.
In any case, your
master is two revs behind, and definitely has some binaries in it—and it's possible that your
feature/mybranch branch has a "bad"
.gitignore (some variation on it) that also does not ignore the "right set" of binaries.
Git notices that 7 of your binaries (perhaps re-built with your feature branch features) don't match what's checked in on the
master branch. These would be "unsafely" clobbered (at least, as far as git can tell). If/when you do
git checkout -f master (or something equivalent), git clobbers them after all, but you are still left with "untracked" files, implying a bad
Once you're quite certain that it's safe to clobber anything in your work-tree—that you have all your work saved away—you can do this to resync your
git checkout -f master
git fetch # resync with origin in case they've fixed more stuff
git reset --hard origin/master
Assuming you don't want binaries in the branches, check over the various
.gitignore files and make sure they're correct—you'll probably need to fix some. Then, use
git ls-files and/or
git ls-tree to see what's in the index and repo (
git ls-tree requires that you specify a particular tree object, e.g.,
git ls-tree HEAD:bin to see what's in the
bin tree, if it exists).
To remove committed (even though ignored) files, e.g., to remove everything in
git rm --cached -r bin
--cached says only remove things in the index), or you can allow git to remove the binaries. Once you have the right stuff "git rm"-ed and any updated
.gitignore files added,
git commit the changes:
$ cat bin/.gitignore
$ git status
# On branch master
# Changes to be committed:
# (use "git reset HEAD <file>..." to unstage)
# new file: bin/.gitignore
# deleted: bin/b1
# deleted: bin/b2
$ git commit -m 'remove binaries, ignore them in the future'
[master ac60888] remove binaries, ignore them in the future
3 files changed, 1 insertion(+)
create mode 100644 bin/.gitignore
delete mode 100644 bin/b1
delete mode 100644 bin/b2
(Finally, rebuild any removed binaries as needed, run tests, do a push if appropriate, etc.)
(It's possible that you do want the
.java binaries in the branches, or that you don't and yet no one has fixed up any
.gitignore entries, etc.; so that's why I'm much less sure about this.)