Here's my take on it.
First, let's debunk what the thing called "refspec" is, as this will be needed down the road.
The refspec stands for "reference specification". A reference is something pointing to a commit or to another reference. A branch is a reference, a tag is a reference;
HEAD is a special (the so-called "symbolic") reference. Let's ignore the distinction between various kind of references at the moment.
It's common to call references just "refs" for short.
A refspec has the form:
source designates the reference to take the series of commits from.
destination, if specified, designates a reference to update with the series of commits taken from
- A plus sign, if included, forces updating to happen even if the line of commits pointed to by
destination is not completely contained in the line of commits pointed to by
The refspecs are used for both fetching and pushing, and the meaning of source and destination refs is reversed in these cases, obviously: when we fetch, the source refs are in the remote repo, and when we push, the source refs are in our local repo.
With plain Git (I mean its reference implementation), refs are just files whose names are relative to the root of their repository (for normal repositories this is the ".git" directory, for bare repositories this is the repository root directory).
Some references, like
FETCH_HEAD) are located right in the root of the repository while some others, like branches and tags and remote branches are located in the directory named "refs" and there they are further sorted under their respective subdirectories:
- Branches are in the "refs/heads" subdirectory.
- Tags are in "refs/tags".
- Remote branches are in "refs/remotes/<remote>" directory of their appropriate remote.
- Notes are in "refs/notes".
Hence a full name of the ref representing a branch named "master" is indeed "refs/heads/master", and a remote branch named "foo" fetched from a named remote repository "origin" is "refs/remotes/origin/foo".
Git uses smart lookup mechanism to allow you to abbreviate ref names most of the time, but full (or "fuller") names might be used when there is any ambiguity of just when you want to be strict. The gory details are in the
git rev-parse manual.
(These explanations about full ref names are needed to understand how simple calls to
git fetch work which are explained below.)
Now back to fetching.
git fetch basically several modes of operation depending on what arguments you supplied to it:
git fetch <git_url> takes whatever the ref
HEAD points to in the remote repository accessed via
<git_url>, fetches its history and writes the SHA-1 name of its tip commit to the
In a bare repository
HEAD typically points at the branch named "master" (though this might be changed). In a non-bare (normal) repository
HEAD obviously points at what's currently checked out to the work tree.
git fetch <git_url> <refspec> ... uses the specified refspecs to fetch from the remote repository (instead of
HEAD), and — for those refspecs which include the "destination" part, it also tries to update those local refs with the fetched history. The SHA-1 names of each fetched refspec is written to the
git fetch git://server/repo.git master devel test
* branch master -> FETCH_HEAD
* branch devel -> FETCH_HEAD
* branch test -> FETCH_HEAD
Note that while the commits were fetched, no local refs were updated.
Now let's do it in a more involved way:
git fetch git://server/repo.git master devel:foo test:bar
* branch master -> FETCH_HEAD
* [new branch] devel -> foo
* [new branch] test -> bar
As you can see,
git fetch created two local branches, "foo" and "bar" while "master" was just fetched but was not used to create anything in our local repo. SHA-1 names of all three remote refs still end up in the
git fetch <remote> <refspec> ... — with
<remote> being a named remote repository configured using
git remote add or automatically created by
git clone — behaves exactly like the forms with explicit
git fetch obtains the url to use from the configuration of that named remote.
git fetch <remote> fetches all the branches from that remote and tries to update (or create, if they do not exist) the so-called remote branches for that remote.
This is crucial to understand that this course of operation is not magic. When you add a named remote (or
git clone creates one for you), Git adds to your repository configuration several variables describing that remote, and one of them will be the
remote.<name>.fetch parameter which is a refspec and which is used if no refspecs are passed to
git fetch directly (!).
Now, for the remote named "origin" Git will create the parameter
remote.origin.fetch set to
+refs/heads/*:refs/remotes/origin/*. You can go to your local repo and see this for yourself:
$ git config --get remote.origin.fetch
"The most magic" is plain
git fetch — it works like the call above just the remote is picked up automatically.
Pulling (fetching plus merging)
Pulling it defined as "fetch then merge what was fetched to the currently checked out branch". The refspec(s) passed to
git pull (or their lack thereof) are handed directly to
git fetch, and hence all the rules described above apply.
git pull <remote> <branch> updates the matching remote branch while `git fetch doesn't?
To understand this "mystery", it helps to keep in mind that Git employs certain convenient magic behind the scenes when it comes to remote branches and their remote-tracking branches (when yo do
git fetch origin followed by
git branch foo origin/foo, the "origin/foo" is a remote branch and "foo" is a remote-tracking branch, as it tracks a corresponding remote branch). Another point which you should keep in mind is that remote branches are there to capture the state of the corresponding branches in their remote repository at the time of the last fetch.
Now suppose you push a remote-tracking branch to the same-named branch in the remote repository (the most usual case). Let's say you did this:
$ git fetch origin
(this created the "origin/foo" branch)
$ git chekcout -b foo origin/foo
(this created a new local branch "foo" tracking "origin/foo")
$ git commit ...
$ git push origin foo
While pushing, Git notices that if you would be fetching to the matching remote branch at the same time, you'd get the same commits in it which were just pushed. So it goes on and makes "origin/foo" point to the same commit "foo" points to.
Now back to
git pull... In your case, after
git pull completed, Git noticed that you have just updated a remote-tracking branch with the commits obtained from a branch for which you have a remote branch locally, so it goes on and updates this remote branch because this is its last seen state.
- "origin/foo" is a remote branch which captures the state of a branch named "foo" in the remote repository "origin".
- "foo" is a local branch which tracks "origin/foo".
git checkout foo
git pull origin foo
Git updates your "foo" branch as the result, but this implies "foo" now has at least one commit "origin/foo" would receive if you would just
git fetch origin or
git push origin foo, so Git proceeds and updates "origin/foo" as well.
That is, in my opinion, updating of the remote branch in your case happened not because
git fetch ... was run but because a local remote-tracking branch got updated as the result of merging. Does it make sense now?
I would recommend to just read the ".git/config" file in your repository to get the idea of how all this "remote stuff" is configured.