Note: using an explicit "remote" is the way to go these days (see below for why). Naming a url directly is a very old (and pretty much obsolete) method.
If you were to run
gitk --all FETCH_HEAD you'd see something different (try it and see). The reason is that
--all only names all refs in
refs/ (see below).
Remotes and refspecs
What's a "remote"?
A remote is, in concrete terms, an entry in the git config file (usually
.git/config within the repo itself). Or rather, a series of entries under a section,
fetch = +refs/heads/*:refs/remotes/origin/*
url = ssh://some.host.name/path/to/repo.git
or similar. The point of this is to record some common items so that you don't have to repeat them all the time. In particular, the url (and optionally push-url) do not have to be spelled out after this. The
fetch = line is also important, as noted below. (It's different for a "mirror" than for a "regular" repository.)
If you run
git fetch with a repository argument instead of a URL ...
If you do
git fetch ../second as shown above, you're naming a repository directly, rather than a "remote". So you don't need a
remote "origin" section and all its entries, but instead, you may have to do more work / typing. You can name the other repository by a full url like
https://... or whatever; for the special case of a repository already on your own machine, you can use a relative path name, as in your example.
I find it best to think about the refspec as identifying a "remote repository", probably on some other machine over a network. This helps keep clear in my mind who has access to what. The special case of a "remote repository" being on your own local machine is, well, a special case. Obviously if it's on your local machine, it's accessible at all times. Other remotes are often less accessible.
Consider the case of cloning, e.g., the source code to git itself from some web site (kernel.org or wherever), onto a laptop. At some point you unplug the laptop and take it with you—maybe onto a plane, where you won't have network access. So "they" give you access to their repository and you copy it to yours. Once you have everything, you don't need "theirs" except to occasionally re-synchronize with them.
git fetch can take more than two arguments
If you run
git fetch repository refspec, fetch updates not only the objects in your local repository, but also some set of "ref-names" (references; see below). The last argument to
fetch is the "refspec" part, which (to ignore some technicalities) is basically a pair of ref-names, separated by colons. For instance, you might write
git fetch ssh://... master:refs/remotes/origin/master.
You need to specify which ref-names, if any, on the place you're fetching from, should have their objects brought over—but also, just as important, what name(s) those should be given in "your" repository. Sure, "they" have branch
master, but also branches
next, and so on. Initially, you could give them the same branch names in your repository—but then after you've been working, and added stuff, and you re-synchronize with them, *their
master and your
master are different. So you need a different name under which to put "their branch" when you fetch their updates to their
git fetch with a remote name, like
origin, provides a refspec for you, via that
fetch line (in fact, there can be multiple
fetch lines, for multiple refspecs). But when you're not using a remote, you have to provide your own refspecs. You didn't, so you got a default (more about this in a moment).
References include things like branch and tag names. However, they're much more general and flexible than that. In fact,
HEAD is also a reference. References have a whole "name space" thing going on: they are almost all spelled starting with
refs/, and particular kinds of refs live in different parts of this space. The four you will use all the time are
HEAD (which is kind of special—it doesn't start with
refs/ and git uses it internally all the time—but it is still a reference), branches (local branches), tags, and remote branches.
(In fact, the
HEAD reference name is so special that if you remove it, git decides that you no longer have a repository after all.)
Git will usually automatically choose the "right kind" of ref and not make you spell it all out, but it helps to know all this stuff, especially when git gets confused and its "figure it out and do what I mean" code does something you did not actually mean.
Local branches live in
refs/heads/, so your local
master branch is actually the full name
refs/heads/master. When you create new branches, this just adds more
refs/heads/ names. (Those wind up in files in your local repository. Creating a branch just needs to create a tiny 41-byte file. This is why branching is so fast and easy in git.)
Usually, you leave off the
refs/heads/ part and just write your branch name. Git knows what to do.
Tags live in
refs/tags/: the tag
v1.0 is just
git fetch just tells it to add
refs/tags/*:refs/tags/* to the refspecs it will update. (In some versions of git this is a "replace" instead of "add".)
Usually, you leave off the
refs/tags/ part and just write the tag name. Since you're running a command like
git tag or
git fetch --tags, git knows what to do.
Despite the name, "remote branches" are actually a local thing, kept in "your" repo. In other words, they come with you when you take the laptop on the plane.
Remote branches live in
refs/remotes/, and then one have more name-part that is just the name of the remote. For the
origin remote, for instance, you get
refs/remotes/origin/master to keep track of what was in
master on remote
origin also has a branch named
maint, you can keep track of "what was in
maint over there" in your own, local,
Again, usually you leave out the
refs/heads part—but this time, you keep the remote-name. So you write things like
One big reason for the extra name-part is that you can have more than one remote. If you have remotes
fred, you keep your copy of
origin/master, and you keep your copy of
fred/master. The other big reason for the extra name-part is that when you write
origin/master, git can tell that you mean the remote branch
master, not your local
These "remote branches" are what
git fetch needs to update. But, in order to update them automatically, it needs to know the name of the remote. That's why
git fetch remote is "better": it just does all this automatically. You could write them out explicitly, with
git fetch url "+refs/heads/*:refs/remotes/origin/*", but it sure is nicer to have it all saved away under
The obsolete way
Long ago, git did not have all this stuff. Instead, you ran
git fetch url refname, e.g.,
git fetch ssh://... master.
To make this work,
fetch had to not clobber your
master. So what it did—and still does—is go to the remote repository and bring over all the repository-objects needed, drop them into your repository, and then write another "special" reference,
MERGE_HEAD and a few more special names,
FETCH_HEAD does not live under the
This happens any time you write a refspec and leave out the colon. And, if you leave out the refspec entirely, that means the same as if you had written
git fetch url master means
git fetch url master:FETCH_HEAD
git fetch url maint means
git fetch url maint:FETCH_HEAD
git fetch url means
git fetch url HEAD:FETCH_HEAD
Note that the remote repository is a git repository ("well duh" :-) ). This means it has a
HEAD. If it's a typical repository for
HEAD is the same as its
master, so that the default you get is to fetch
master and write that into
pull command is basically just a convenience method. It "means" the same thing as
git fetch followed by
git merge (or, with
git pull --rebase,
git fetch followed by
git rebase, but let's ignore that here).
It's a somewhat weird and (my opinion) broken convenience method, though. (Much is to be fixed in git 1.9.) When you run:
git pull origin master
for instance, what
git pull does is to invoke
git fetch "the old way", so that this brings over
master but fails to update
refs/remotes/origin/master. Instead, it just puts the stuff-brought-over reference into
FETCH_HEAD. There, it's invisible to most commands, including
But the next thing
git pull origin master does is to run (in effect):
git merge FETCH_HEAD
This merges the changes into your current branch, which makes them visible to most commands, including
In this particular case, it does not matter whether you run
git pull remote branch or
git pull url branch, or either of those without a
branch argument, as the
pull script prevents
git fetch from updating the remote-branch names.
(In git 1.9, a
git pull with a remote name, or a
git pull with no arguments that is able to compute the remote name, will run
git fetch such that it updates the remote-branch names.)