A guide for astronauts (now, programmers using git) about what to do when things go wrong.
Flight Rules are the hard-earned body of knowledge recorded in manuals that list, step-by-step, what to do if X occurs, and why. Essentially, they are extremely detailed, scenario-specific standard operating procedures. [...]
NASA has been capturing our missteps, disasters and solutions since the early 1960s, when Mercury-era ground teams first started gathering "lessons learned" into a compendium that now lists thousands of problematic situations, from engine failure to busted hatch handles to computer glitches, and their solutions.
— Chris Hadfield, An Astronaut's Guide to Life.
For clarity's sake all examples in this document use a customized bash prompt in order to indicate the current branch and whether or not there are staged changes. The branch is enclosed in parentheses, and a *
next to the branch name indicates staged changes.
Table of Contents generated with DocToc
- Editing Commits
- What did I just commit?
- I wrote the wrong thing in a commit message
- I committed with the wrong name and email configured
- I want to remove a file from a commit
- I want to delete or remove my last commit
- Delete/remove arbitrary commit
- I tried to push my amended commit to a remote, but I got an error message
- I accidentally did a hard reset, and I want my changes back
- Staging
- Unstaged Edits
- Branches
- I pulled from/into the wrong branch
- I want to discard local commits so my branch is the same as one on the server
- I committed to master instead of a new branch
- I made several commits on a single branch that should be on different branches
- I want to delete local branches that were deleted upstream
- I accidentally deleted my branch
- I want to delete a branch
- Rebasing and Merging
- Miscellaneous Objects
- Tracking Files
- Configuration
- I've no idea what I did wrong
- Other Resources
Let's say that you just blindly committed changes with git commit -a
and you're not sure what the actual content of the commit you just made was. You can show the latest commit on your current HEAD with:
(master)$ git show
or
$ git log -n1 -p
If you wrote the wrong thing and the commit has not yet been pushed, you can do the following to change the commit message:
$ git commit --amend
You can specify the commit message inline if you want:
$ git commit --amend -m 'xxxxxxx'
If you have already pushed the message, you can amend the commit and force push, but this is not recommended.
If it's a single commit, amend it
$ git commit --amend --author "New Authorname <[email protected]>"
If you need to change all of history, see the man page for 'git filter-branch'.
In order to remove a file from a commit, do the following:
$ git checkout HEAD^ myfile
$ git add -A
$ git commit --amend
This is particularly useful when you have an open patch and you have commited an unnecessary file, and need to force push to update the patch on a remote.
If you need to delete pushed commits, you can use the following. However, it will irreversabily change your history, and mess up the history of anyone else who had already pulled from the repository. In short, if you're not sure, you should never do this, ever.
$ git reset HEAD^ --hard
$ git push -f [remote] [branch]
If you haven't pushed, to reset Git to the state it was in before you made your last commit (while keeping your staged changes):
(my-branch*)$ git reset --soft HEAD@{1}
This only works if you haven't pushed. If you have pushed, the only truly safe thing to do is git revert SHAofBadCommit
. That will create a new commit that undoes all the previous commit's changes. Or, if the branched you pushed to is rebase-safe (ie. other devs aren't expected to pull from it), you can just use git push -f
. For more, see the above section.
The same warning applies as above. Never do this if possible.
$ git rebase --onto SHA1_OF_BAD_COMMIT^ SHA1_OF_BAD_COMMIT
$ git push -f [remote] [branch]
Or do an interactive rebase and remove the line(s) correspoding to commit(s) you want to see removed.
To https://github.com/yourusername/repo.git
! [rejected] mybranch -> mybranch (non-fast-forward)
error: failed to push some refs to 'https://github.com/tanay1337/webmaker.org.git'
hint: Updates were rejected because the tip of your current branch is behind
hint: its remote counterpart. Integrate the remote changes (e.g.
hint: 'git pull ...') before pushing again.
hint: See the 'Note about fast-forwards' in 'git push --help' for details.
Note that, as with rebasing (see below), amending replaces the old commit with a new one, so you must force push (-f
) your changes if you have already pushed the pre-amended commit to your remote. Be careful when you do this – always make sure you specify a branch!
(my-branch)$ git push origin mybranch -f
In general, avoid force pushing. It is best to create and push a new commit rather than force-pushing the amended commit as it has will cause conflicts in the source history for any other developer who has interacted with the branch in question or any child branches.
If you accidentally do git reset --hard
, you can normally still get your commit back, as git keeps a log of everything for a few days.
(master)$ git reflog
You'll see a list of your past commits, and a commit for the reset. Choose the SHA of the commit you want to return to, and reset again:
(master)$ git reset --hard SHA1234
And you should be good to go.
(my-branch*)$ git commit --amend
Normally, if you want to stage part of a file, you run this:
$ git add --patch filename.x
-p
will work for short. This will open interactive mode. You would be able to use the s
option to split the commit - however, if the file is new, you will not have this option. To add a new file, do this:
$ git add -N filename.x
Then, you will need to use the e
option to manually choose which lines to add. Running git diff --cached
will show you which lines you have staged compared to which are still saved locally.
git add
will add the entire file to a commit. git add -p
will allow to interactively select which changes you want to add.
$ git checkout -b my-branch
$ git stash
$ git checkout my-branch
$ git stash pop
If you want to only reset to some commit between origin and your local, you can do this:
# one commit
(my-branch)$ git reset --hard HEAD^
# two commits
(my-branch)$ git reset --hard HEAD^^
# four commits
(my-branch)$ git reset --hard HEAD~4
# or
(master)$ git checkout -f
To reset only a specific file, you can use that the filename as the argument:
$ git reset filename
This is another chance to use git reflog
to see where your HEAD pointed before the bad pull.
(master)$ git reflog
ab7555f HEAD@{0}: pull origin wrong-branch: Fast-forward
c5bc55a HEAD@{1}: checkout: checkout message goes here
Simply reset your branch back to the desired commit:
$ git reset --hard c5bc55a
Done.
Confirm that you haven't pushed your changes to the server.
git status
should show how many commits you are ahead of origin:
(my-branch)$ git status
# On branch my-branch
# Your branch is ahead of 'origin/my-branch' by 2 commits.
# (use "git push" to publish your local commits)
#
One way of reseting to match origin (to have the same as what is on the remote) is to do this:
(master)$ git reset --hard origin/my-branch
Create the new branch while remaining on master:
(master)$ git checkout -b my-branch
(my-branch)$ git checkout master
(master)$
Reset the branch master to the previous commit:
(master)$ git reset --hard HEAD^
HEAD^
is short for HEAD^1
. You can reset further through the generations by specifying which HEAD
to set to.
Alternatively, if you don't want to use HEAD^
, find out what the commit hash you want to set your master branch to (git log
should do the trick). Then reset to that hash. git push
will make sure that this change is reflected on your remote.
For example, if the hash of the commit that your master branch is supposed to be at is a13b85e
:
(master)$ git reset --hard a13b85e
HEAD is now at a13b85e
Checkout the new branch to continue working:
(master)$ git checkout my-branch
Say you are on your master branch. Running git log
, you see you have made two commits:
(master)$ git log
commit e3851e817c451cc36f2e6f3049db528415e3c114
Author: Alex Lee <[email protected]>
Date: Tue Jul 22 15:39:27 2014 -0400
Bug #21 - Added CSRF protection
commit 5ea51731d150f7ddc4a365437931cd8be3bf3131
Author: Alex Lee <[email protected]>
Date: Tue Jul 22 15:39:12 2014 -0400
Bug #14 - Fixed spacing on title
commit a13b85e984171c6e2a1729bb061994525f626d14
Author: Aki Rose <[email protected]>
Date: Tue Jul 21 01:12:48 2014 -0400
First commit
Let's take note of our commit hashes for each bug (e3851e8
for #21, 5ea5173
for #14).
First, let's reset our master branch to the correct commit (a13b85e
):
(master)$ git reset --hard a13b85e
HEAD is now at a13b85e
Now, we can create a fresh branch for our bug #21 branch:
(master)$ git checkout -b 21
(21)$
Now, let's cherry-pick the commit for bug #21 on top of our branch. That means we will be applying that commit, and only that commit, directly on top of whatever our head is at.
(21)$ git cherry-pick e3851e8
At this point, there is a possibility there might be conflicts. See the There were conflicts section in the interactive rebasing section above for how to resolve conflicts.
Now let's create a new branch for bug #14, also based on master
(21)$ git checkout master
(master)$ git checkout -b 14
(14)$
And finally, let's cherry-pick the commit for bug #14:
(14)$ git cherry-pick 5ea5173
$ git fetch -p
If you're regularly pushing to remote, you should be safe most of the time. But still sometimes you may end up deleting your branches. Let's say we create a branch and create a new file:
(master)$ git checkout -b my-branch
(my-branch)$ git branch
(my-branch)$ touch foo.txt
(my-branch)$ ls
README.md foo.txt
Let's add it and commit.
(my-branch)$ git add .
(my-branch)$ git commit -m 'foo.txt added'
(my-branch)$ foo.txt added
1 files changed, 1 insertions(+)
create mode 100644 foo.txt
(my-branch)$ git log
commit 4e3cd85a670ced7cc17a2b5d8d3d809ac88d5012
Author: siemiatj <[email protected]>
Date: Wed Jul 30 00:34:10 2014 +0200
foo.txt added
commit 69204cdf0acbab201619d95ad8295928e7f411d5
Author: Kate Hudson <[email protected]>
Date: Tue Jul 29 13:14:46 2014 -0400
Fixes #6: Force pushing after amending commits
Now we're switching back to master and 'accidentally' removing our branch.
(my-branch)$ git checkout master
Switched to branch 'master'
Your branch is up-to-date with 'origin/master'.
(master)$ git branch -D my-branch
Deleted branch my-branch (was 4e3cd85).
(master)$ echo oh noes, deleted my branch!
oh noes, deleted my branch!
At this point you should get familiar with 'reflog', an upgraded logger. It stores the history of all the action in the repo.
(master)$ git reflog
69204cd HEAD@{0}: checkout: moving from my-branch to master
4e3cd85 HEAD@{1}: commit: foo.txt added
69204cd HEAD@{2}: checkout: moving from master to my-branch
As you can see we have commit hash from our deleted branch. Let's see if we can restore our deleted branch.
(master)$ git checkout -b my-branch-help
Switched to a new branch 'my-branch-help'
(my-branch-help)$ git reset --hard 4e3cd85
HEAD is now at 4e3cd85 foo.txt added
(my-branch-help)$ ls
README.md foo.txt
Voila! We got our removed file back. Git reflog is also useful when rebasing goes terribly wrong.
To delete a remote branch:
(master)$ git push origin --delete my-branch
You can also do:
(master)$ git push origin :my-branch
To delete a local branch:
(master)$ git branch -D my-branch
Unfortunately, you have to force push, if you want those changes to be reflected on the remote branch. This is because you have fast forwarded your commit, and changed git history. The remote branch won't accept changes unless you force push. This is one of the main reasons many people use a merge workflow, instead of a rebasing workflow - large teams can get into trouble with developers force pushing. Use this with caution. A safer way to use rebase is not to reflect your changes on the remote branch at all, and instead to do the following:
(master)$ git checkout my-branch
(my-branch)$ git rebase -i master
(my-branch)$ git checkout master
(master)$ git merge --ff-only my-branch
For more, see this SO thread.
Let's suppose you are working in a branch that is/will become a pull-request against master
. In the simplest case when all you want to do is to combine all commits into a single one and you don't care about commit timestamps, you can reset and recommit. Make sure the master branch is up to date and all your changes committed, then:
(my-branch)$ git reset --soft master
(my-branch)$ git commit -am "New awesome feature"
If you want more control, and also to preserve timestamps, you need to do something called an interactive rebase:
(my-branch)$ git rebase -i master
If you aren't working against another branch you'll have to rebase relative to your HEAD
. If you want to squash the last 2 commits, for example, you'll have to rebase against HEAD~2
. For the last 3, HEAD~3
, etc.
(master)$ git rebase -i HEAD~2
After you run the interactive rebase command, you will see something like this in your text editor:
pick a9c8a1d Some refactoring
pick 01b2fd8 New awesome feature
pick b729ad5 fixup
pick e3851e8 another fix
# Rebase 8074d12..b729ad5 onto 8074d12
#
# Commands:
# p, pick = use commit
# r, reword = use commit, but edit the commit message
# e, edit = use commit, but stop for amending
# s, squash = use commit, but meld into previous commit
# f, fixup = like "squash", but discard this commit's log message
# x, exec = run command (the rest of the line) using shell
#
# These lines can be re-ordered; they are executed from top to bottom.
#
# If you remove a line here THAT COMMIT WILL BE LOST.
#
# However, if you remove everything, the rebase will be aborted.
#
# Note that empty commits are commented out
All the lines beginning with a #
are comments, they won't affect your rebase.
Then you replace pick
commands with any in the list above, and you can also remove commits by removing corresponding lines.
For example, if you want to leave the oldest (first) commit alone and combine all the following commits with the second oldest, you should edit the letter next to each commit except the first and the second to say f
:
pick a9c8a1d Some refactoring
pick 01b2fd8 New awesome feature
f b729ad5 fixup
f e3851e8 another fix
If you want to combine these commits and rename the commit, you should additionally add an r
next to the second commit or simply use s
instead of f
:
pick a9c8a1d Some refactoring
pick 01b2fd8 New awesome feature
s b729ad5 fixup
s e3851e8 another fix
You can then rename the commit in the next text prompt that pops up.
Newer, awesomer features
# Please enter the commit message for your changes. Lines starting
# with '#' will be ignored, and an empty message aborts the commit.
# rebase in progress; onto 8074d12
# You are currently editing a commit while rebasing branch 'master' on '8074d12'.
#
# Changes to be committed:
# modified: README.md
#
If everything is successful, you should see something like this:
(master)$ Successfully rebased and updated refs/heads/master.
--no-commit
performs the merge but pretends the merge failed and does not autocommit, giving the user a chance to inspect and further tweak the merge result before committing. no-ff
maintains evidence that a feature branch once existed, keeping project history consistent.
(master)$ git merge --no-ff --no-commit my-branch
(master)$ git merge --squash my-branch
Sometimes you have several work in progress commits that you want to combine before you push them upstream. You don't want to accidentally combine any commits that have already been pushed upstream because someone else may have already made commits that reference them.
(master)$ git rebase -i @{u}
This will do an interactive rebase that lists only the commits that you haven't already pushed, so it will be safe to reorder/fix/squash anything in the list.
To check if all commits on a branch are merged into another branch, you should diff between the heads (or any commits) of those branches:
(master)$ git log --graph --left-right --cherry-pick --oneline HEAD...feature/120-on-scroll
This will tell you if any commits are in one but not the other, and will give you a list of any nonshared between the branches. Another option is to do this:
(master)$ git log master ^feature/120-on-scroll --no-merges
If you're seeing this:
noop
That means you are trying to rebase against a branch that is at an identical commit, or is ahead of your current branch. You can try:
- making sure your master branch is where it should be
- rebase against
HEAD~2
or earlier instead
If you are unable to successfully complete the rebase, you may have to resolve conflicts.
First run git status
to see which files have conflicts in them:
(my-branch)$ git status
On branch my-branch
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: README.md
In this example, README.md
has conflicts. Open that file and look for the following:
<<<<<<< HEAD
some code
=========
some code
>>>>>>> new-commit
You will need to resolve the differences between the code that was added in your new commit (in the example, everything from the middle line to new-commit
) and your HEAD
.
Sometimes these merges are complicated and you should use a visual diff editor:
(master*)$ git mergetool -t opendiff
After you have resolved all conflicts and tested your code, git add
the files you have changed, and then continue the rebase with git rebase --continue
(my-branch)$ git add README.md
(my-branch)$ git rebase --continue
If after resolving all the conflicts you end up with an identical tree to what it was before the commit, you need to git rebase --skip
instead.
If at any time you want to stop the entire rebase and go back to the original state of your branch, you can do so:
(my-branch)$ git rebase --abort
$ git clone --recursive git://github.com/foo/bar.git
If already cloned:
$ git submodule update --init --recursive
$ git tag -d <tag_name>
$ git push <remote> :refs/tags/<tag_name>
If you want to recover a tag that was already deleted, you can do so by following these steps: First, you need to find the unreachable tag:
$ git fsck --unreachable | grep tag
Make a note of the tag's hash. Then, restore the deleted tag with following, making use of git's update-ref:
$ git update-ref refs/tags/<tag_name> <hash>
Your tag should now have been restored.
If someone has sent you a pull request on GitHub, but then deleted their original fork, you will be unable to clone their commits or to use git am
. In such cases, it is best to manually look at their commits and copy them into a new branch on your local. Then, commit.
After commiting, change the author of the previous commit. To do this, see how to change author. Then, apply whatever changes needed on to, and make a new pull request.
(master)$ git mv --force myfile MyFile
(master)$ git rm --cached log.txt
On OS X and Linux, your git configuration file is stored in ~/.gitconfig
. I've added some example aliases I use as shortcuts (and some of my common typos) in the [aliases]
section as shown below:
[aliases]
a = add
amend = --amend
c = commit
ca = commit --amend
ci = commit -a
co = checkout
d = diff
dc = diff --changed
ds = diff --staged
f = fetch
loll = log --graph --decorate --pretty=oneline --abbrev-commit
m = merge
one = log --pretty=oneline
outstanding = rebase -i @{u}
s = status
unpushed = log @{u}
wc = whatchanged
wip = rebase -i @{u}
zap = fetch -p
You might have a repository that requires authentication. In which case you can cache a username and password so you don't have to enter it on every push / pull. Credential helper can do this for you.
$ git config --global credential.helper cache
# Set git to use the credential memory cache
$ git config --global credential.helper 'cache --timeout=3600'
# Set the cache to timeout after 1 hour (setting is in seconds)
So, you're screwed - you reset
something, or you merged the wrong branch, or you force pushed and now you can't find your commits. You know, at some point, you were doing alright, and you want to go back to some state you were at.
This is what git reflog
is for. reflog
keeps track of any changes to the tip of a branch, even if that tip isn't referenced by a branch or a tag. Basically, every time HEAD changes, a new entry is added to the reflog. This only works for local repositories, sadly, and it only tracks movements (not changes to a file that weren't recorded anywhere, for instance).
(master)$ git reflog
0a2e358 HEAD@{0}: reset: moving to HEAD~2
0254ea7 HEAD@{1}: checkout: moving from 2.2 to master
c10f740 HEAD@{2}: checkout: moving from master to 2.2
The reflog above shows a checkout from master to the 2.2 branch and back. From there, there's a hard reset to an older commit. The latest activity is represented at the top labeled HEAD@{0}
.
If it turns out that you accidentially moved back, the reflog will contain the commit master pointed to (0254ea7) before you accidentially dropped 2 commits.
$ git reset --hard 0254ea7
Using git reset it is then possible to change master back to the commit it was before. This provides a safety net in case history was accidentially changed.
(copied and edited from Source).
- Pro Git - Scott Chacon's excellent git book
- Getting solid at Git rebase vs. merge
- git-workflow - Aaron Meurer's howto on using git to contribute to open source repositories
- GitHub as a workflow - An interesting take on using GitHub as a workflow, particularly with empty PRs
- firstaidgit.io A searchable selection of the most frequently asked Git questions
- git-extra-commands - a collection of useful extra git scripts
- git-extras - GIT utilities -- repo summary, repl, changelog population, author commit percentages and more
- git-tips - Small git tips
- git-fire - git-fire is a Git plugin that helps in the event of an emergency by adding all current files, committing, and pushing to a new branch (to prevent merge conflicts).
- git-cola - another git client for Windows and OS X
- GitUp - A newish GUI that has some very opinionated ways of dealing with git's complications
- gitx-dev - another graphical git client for OS X
- Source Tree - a free graphical git client for Windows and OS X
- Tower - graphical git client for OS X (paid)