914328ac02
Finally I bit the bullet and did a full sweep of this document. The changes are mostly clarifications, adjusting old terminology to the glossary compatible one, and asciidoc formatting. Signed-off-by: Junio C Hamano <junkio@cox.net>
1349 lines
52 KiB
Plaintext
1349 lines
52 KiB
Plaintext
A short git tutorial
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====================
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v0.99.5, Aug 2005
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Introduction
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------------
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This is trying to be a short tutorial on setting up and using a git
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repository, mainly because being hands-on and using explicit examples is
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often the best way of explaining what is going on.
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In normal life, most people wouldn't use the "core" git programs
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directly, but rather script around them to make them more palatable.
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Understanding the core git stuff may help some people get those scripts
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done, though, and it may also be instructive in helping people
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understand what it is that the higher-level helper scripts are actually
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doing.
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The core git is often called "plumbing", with the prettier user
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interfaces on top of it called "porcelain". You may not want to use the
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plumbing directly very often, but it can be good to know what the
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plumbing does for when the porcelain isn't flushing...
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Creating a git repository
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-------------------------
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Creating a new git repository couldn't be easier: all git repositories start
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out empty, and the only thing you need to do is find yourself a
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subdirectory that you want to use as a working tree - either an empty
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one for a totally new project, or an existing working tree that you want
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to import into git.
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For our first example, we're going to start a totally new repository from
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scratch, with no pre-existing files, and we'll call it `git-tutorial`.
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To start up, create a subdirectory for it, change into that
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subdirectory, and initialize the git infrastructure with `git-init-db`:
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------------------------------------------------
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mkdir git-tutorial
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cd git-tutorial
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git-init-db
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------------------------------------------------
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to which git will reply
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defaulting to local storage area
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which is just git's way of saying that you haven't been doing anything
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strange, and that it will have created a local `.git` directory setup for
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your new project. You will now have a `.git` directory, and you can
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inspect that with `ls`. For your new empty project, it should show you
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three entries, among other things:
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- a symlink called `HEAD`, pointing to `refs/heads/master`
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+
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Don't worry about the fact that the file that the `HEAD` link points to
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doesn't even exist yet -- you haven't created the commit that will
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start your `HEAD` development branch yet.
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- a subdirectory called `objects`, which will contain all the
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objects of your project. You should never have any real reason to
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look at the objects directly, but you might want to know that these
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objects are what contains all the real 'data' in your repository.
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- a subdirectory called `refs`, which contains references to objects.
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In particular, the `refs` subdirectory will contain two other
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subdirectories, named `heads` and `tags` respectively. They do
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exactly what their names imply: they contain references to any number
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of different 'heads' of development (aka 'branches'), and to any
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'tags' that you have created to name specific versions in your
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repository.
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One note: the special `master` head is the default branch, which is
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why the `.git/HEAD` file was created as a symlink to it even if it
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doesn't yet exist. Basically, the `HEAD` link is supposed to always
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point to the branch you are working on right now, and you always
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start out expecting to work on the `master` branch.
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However, this is only a convention, and you can name your branches
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anything you want, and don't have to ever even 'have' a `master`
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branch. A number of the git tools will assume that `.git/HEAD` is
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valid, though.
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[NOTE]
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An 'object' is identified by its 160-bit SHA1 hash, aka 'object name',
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and a reference to an object is always the 40-byte hex
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representation of that SHA1 name. The files in the `refs`
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subdirectory are expected to contain these hex references
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(usually with a final `\'\n\'` at the end), and you should thus
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expect to see a number of 41-byte files containing these
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references in these `refs` subdirectories when you actually start
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populating your tree.
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You have now created your first git repository. Of course, since it's
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empty, that's not very useful, so let's start populating it with data.
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Populating a git repository
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---------------------------
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We'll keep this simple and stupid, so we'll start off with populating a
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few trivial files just to get a feel for it.
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Start off with just creating any random files that you want to maintain
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in your git repository. We'll start off with a few bad examples, just to
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get a feel for how this works:
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------------------------------------------------
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echo "Hello World" >hello
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echo "Silly example" >example
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------------------------------------------------
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you have now created two files in your working tree (aka 'working directory'), but to
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actually check in your hard work, you will have to go through two steps:
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- fill in the 'index' file (aka 'cache') with the information about your
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working tree state.
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- commit that index file as an object.
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The first step is trivial: when you want to tell git about any changes
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to your working tree, you use the `git-update-cache` program. That
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program normally just takes a list of filenames you want to update, but
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to avoid trivial mistakes, it refuses to add new entries to the cache
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(or remove existing ones) unless you explicitly tell it that you're
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adding a new entry with the `\--add` flag (or removing an entry with the
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`\--remove`) flag.
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So to populate the index with the two files you just created, you can do
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------------------------------------------------
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git-update-cache --add hello example
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------------------------------------------------
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and you have now told git to track those two files.
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In fact, as you did that, if you now look into your object directory,
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you'll notice that git will have added two new objects to the object
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database. If you did exactly the steps above, you should now be able to do
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ls .git/objects/??/*
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and see two files:
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.git/objects/55/7db03de997c86a4a028e1ebd3a1ceb225be238
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.git/objects/f2/4c74a2e500f5ee1332c86b94199f52b1d1d962
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which correspond with the objects with names of 557db... and f24c7..
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respectively.
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If you want to, you can use `git-cat-file` to look at those objects, but
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you'll have to use the object name, not the filename of the object:
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git-cat-file -t 557db03de997c86a4a028e1ebd3a1ceb225be238
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where the `-t` tells `git-cat-file` to tell you what the "type" of the
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object is. Git will tell you that you have a "blob" object (ie just a
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regular file), and you can see the contents with
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git-cat-file "blob" 557db03
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which will print out "Hello World". The object 557db03 is nothing
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more than the contents of your file `hello`.
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[NOTE]
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Don't confuse that object with the file `hello` itself. The
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object is literally just those specific *contents* of the file, and
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however much you later change the contents in file `hello`, the object
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we just looked at will never change. Objects are immutable.
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[NOTE]
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The second example demonstrates that you can
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abbreviate the object name to only the first several
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hexadecimal digits in most places.
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Anyway, as we mentioned previously, you normally never actually take a
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look at the objects themselves, and typing long 40-character hex
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names is not something you'd normally want to do. The above digression
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was just to show that `git-update-cache` did something magical, and
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actually saved away the contents of your files into the git object
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database.
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Updating the cache did something else too: it created a `.git/index`
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file. This is the index that describes your current working tree, and
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something you should be very aware of. Again, you normally never worry
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about the index file itself, but you should be aware of the fact that
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you have not actually really "checked in" your files into git so far,
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you've only *told* git about them.
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However, since git knows about them, you can now start using some of the
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most basic git commands to manipulate the files or look at their status.
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In particular, let's not even check in the two files into git yet, we'll
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start off by adding another line to `hello` first:
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------------------------------------------------
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echo "It's a new day for git" >>hello
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------------------------------------------------
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and you can now, since you told git about the previous state of `hello`, ask
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git what has changed in the tree compared to your old index, using the
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`git-diff-files` command:
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------------
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git-diff-files
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------------
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Oops. That wasn't very readable. It just spit out its own internal
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version of a `diff`, but that internal version really just tells you
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that it has noticed that "hello" has been modified, and that the old object
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contents it had have been replaced with something else.
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To make it readable, we can tell git-diff-files to output the
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differences as a patch, using the `-p` flag:
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------------
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git-diff-files -p
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------------
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which will spit out
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------------
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diff --git a/hello b/hello
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--- a/hello
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+++ b/hello
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@@ -1 +1,2 @@
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Hello World
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+It's a new day for git
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----
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i.e. the diff of the change we caused by adding another line to `hello`.
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In other words, `git-diff-files` always shows us the difference between
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what is recorded in the index, and what is currently in the working
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tree. That's very useful.
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A common shorthand for `git-diff-files -p` is to just write `git
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diff`, which will do the same thing.
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Committing git state
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--------------------
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Now, we want to go to the next stage in git, which is to take the files
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that git knows about in the index, and commit them as a real tree. We do
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that in two phases: creating a 'tree' object, and committing that 'tree'
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object as a 'commit' object together with an explanation of what the
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tree was all about, along with information of how we came to that state.
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Creating a tree object is trivial, and is done with `git-write-tree`.
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There are no options or other input: git-write-tree will take the
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current index state, and write an object that describes that whole
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index. In other words, we're now tying together all the different
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filenames with their contents (and their permissions), and we're
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creating the equivalent of a git "directory" object:
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------------------------------------------------
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git-write-tree
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------------------------------------------------
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and this will just output the name of the resulting tree, in this case
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(if you have done exactly as I've described) it should be
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8988da15d077d4829fc51d8544c097def6644dbb
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which is another incomprehensible object name. Again, if you want to,
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you can use `git-cat-file -t 8988d\...` to see that this time the object
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is not a "blob" object, but a "tree" object (you can also use
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`git-cat-file` to actually output the raw object contents, but you'll see
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mainly a binary mess, so that's less interesting).
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However -- normally you'd never use `git-write-tree` on its own, because
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normally you always commit a tree into a commit object using the
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`git-commit-tree` command. In fact, it's easier to not actually use
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`git-write-tree` on its own at all, but to just pass its result in as an
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argument to `git-commit-tree`.
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`git-commit-tree` normally takes several arguments -- it wants to know
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what the 'parent' of a commit was, but since this is the first commit
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ever in this new repository, and it has no parents, we only need to pass in
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the object name of the tree. However, `git-commit-tree`
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also wants to get a commit message
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on its standard input, and it will write out the resulting object name for the
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commit to its standard output.
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And this is where we start using the `.git/HEAD` file. The `HEAD` file is
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supposed to contain the reference to the top-of-tree, and since that's
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exactly what `git-commit-tree` spits out, we can do this all with a simple
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shell pipeline:
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------------------------------------------------
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echo "Initial commit" | git-commit-tree $(git-write-tree) > .git/HEAD
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------------------------------------------------
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which will say:
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Committing initial tree 8988da15d077d4829fc51d8544c097def6644dbb
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just to warn you about the fact that it created a totally new commit
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that is not related to anything else. Normally you do this only *once*
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for a project ever, and all later commits will be parented on top of an
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earlier commit, and you'll never see this "Committing initial tree"
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message ever again.
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Again, normally you'd never actually do this by hand. There is a
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helpful script called `git commit` that will do all of this for you. So
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you could have just written `git commit`
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instead, and it would have done the above magic scripting for you.
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Making a change
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---------------
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Remember how we did the `git-update-cache` on file `hello` and then we
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changed `hello` afterward, and could compare the new state of `hello` with the
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state we saved in the index file?
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Further, remember how I said that `git-write-tree` writes the contents
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of the *index* file to the tree, and thus what we just committed was in
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fact the *original* contents of the file `hello`, not the new ones. We did
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that on purpose, to show the difference between the index state, and the
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state in the working tree, and how they don't have to match, even
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when we commit things.
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As before, if we do `git-diff-files -p` in our git-tutorial project,
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we'll still see the same difference we saw last time: the index file
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hasn't changed by the act of committing anything. However, now that we
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have committed something, we can also learn to use a new command:
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`git-diff-cache`.
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Unlike `git-diff-files`, which showed the difference between the index
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file and the working tree, `git-diff-cache` shows the differences
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between a committed *tree* and either the index file or the working
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tree. In other words, `git-diff-cache` wants a tree to be diffed
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against, and before we did the commit, we couldn't do that, because we
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didn't have anything to diff against.
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But now we can do
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git-diff-cache -p HEAD
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(where `-p` has the same meaning as it did in `git-diff-files`), and it
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will show us the same difference, but for a totally different reason.
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Now we're comparing the working tree not against the index file,
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but against the tree we just wrote. It just so happens that those two
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are obviously the same, so we get the same result.
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Again, because this is a common operation, you can also just shorthand
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it with
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git diff HEAD
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which ends up doing the above for you.
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In other words, `git-diff-cache` normally compares a tree against the
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working tree, but when given the `\--cached` flag, it is told to
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instead compare against just the index cache contents, and ignore the
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current working tree state entirely. Since we just wrote the index
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file to HEAD, doing `git-diff-cache \--cached -p HEAD` should thus return
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an empty set of differences, and that's exactly what it does.
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[NOTE]
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================
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`git-diff-cache` really always uses the index for its
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comparisons, and saying that it compares a tree against the working
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tree is thus not strictly accurate. In particular, the list of
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files to compare (the "meta-data") *always* comes from the index file,
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regardless of whether the `\--cached` flag is used or not. The `\--cached`
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flag really only determines whether the file *contents* to be compared
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come from the working tree or not.
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This is not hard to understand, as soon as you realize that git simply
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never knows (or cares) about files that it is not told about
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explicitly. Git will never go *looking* for files to compare, it
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expects you to tell it what the files are, and that's what the index
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is there for.
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================
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However, our next step is to commit the *change* we did, and again, to
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understand what's going on, keep in mind the difference between "working
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tree contents", "index file" and "committed tree". We have changes
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in the working tree that we want to commit, and we always have to
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work through the index file, so the first thing we need to do is to
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update the index cache:
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------------------------------------------------
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git-update-cache hello
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------------------------------------------------
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(note how we didn't need the `\--add` flag this time, since git knew
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about the file already).
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Note what happens to the different `git-diff-\*` versions here. After
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we've updated `hello` in the index, `git-diff-files -p` now shows no
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differences, but `git-diff-cache -p HEAD` still *does* show that the
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current state is different from the state we committed. In fact, now
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`git-diff-cache` shows the same difference whether we use the `--cached`
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flag or not, since now the index is coherent with the working tree.
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Now, since we've updated `hello` in the index, we can commit the new
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version. We could do it by writing the tree by hand again, and
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committing the tree (this time we'd have to use the `-p HEAD` flag to
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tell commit that the HEAD was the *parent* of the new commit, and that
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this wasn't an initial commit any more), but you've done that once
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already, so let's just use the helpful script this time:
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------------------------------------------------
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git commit
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------------------------------------------------
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which starts an editor for you to write the commit message and tells you
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a bit about what you have done.
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Write whatever message you want, and all the lines that start with '#'
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will be pruned out, and the rest will be used as the commit message for
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the change. If you decide you don't want to commit anything after all at
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this point (you can continue to edit things and update the cache), you
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can just leave an empty message. Otherwise `git commit` will commit
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the change for you.
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You've now made your first real git commit. And if you're interested in
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looking at what `git commit` really does, feel free to investigate:
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it's a few very simple shell scripts to generate the helpful (?) commit
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message headers, and a few one-liners that actually do the
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commit itself (`git-commit-script`).
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Checking it out
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---------------
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While creating changes is useful, it's even more useful if you can tell
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later what changed. The most useful command for this is another of the
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`diff` family, namely `git-diff-tree`.
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`git-diff-tree` can be given two arbitrary trees, and it will tell you the
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differences between them. Perhaps even more commonly, though, you can
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give it just a single commit object, and it will figure out the parent
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of that commit itself, and show the difference directly. Thus, to get
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the same diff that we've already seen several times, we can now do
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git-diff-tree -p HEAD
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(again, `-p` means to show the difference as a human-readable patch),
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and it will show what the last commit (in `HEAD`) actually changed.
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More interestingly, you can also give `git-diff-tree` the `-v` flag, which
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tells it to also show the commit message and author and date of the
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commit, and you can tell it to show a whole series of diffs.
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Alternatively, you can tell it to be "silent", and not show the diffs at
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all, but just show the actual commit message.
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In fact, together with the `git-rev-list` program (which generates a
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list of revisions), `git-diff-tree` ends up being a veritable fount of
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changes. A trivial (but very useful) script called `git-whatchanged` is
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included with git which does exactly this, and shows a log of recent
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activities.
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To see the whole history of our pitiful little git-tutorial project, you
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can do
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git log
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which shows just the log messages, or if we want to see the log together
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with the associated patches use the more complex (and much more
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powerful)
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git-whatchanged -p --root
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and you will see exactly what has changed in the repository over its
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short history.
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[NOTE]
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The `\--root` flag is a flag to `git-diff-tree` to tell it to
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show the initial aka 'root' commit too. Normally you'd probably not
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want to see the initial import diff, but since the tutorial project
|
|
was started from scratch and is so small, we use it to make the result
|
|
a bit more interesting.
|
|
|
|
With that, you should now be having some inkling of what git does, and
|
|
can explore on your own.
|
|
|
|
[NOTE]
|
|
Most likely, you are not directly using the core
|
|
git Plumbing commands, but using Porcelain like Cogito on top
|
|
of it. Cogito works a bit differently and you usually do not
|
|
have to run `git-update-cache` yourself for changed files (you
|
|
do tell underlying git about additions and removals via
|
|
`cg-add` and `cg-rm` commands). Just before you make a commit
|
|
with `cg-commit`, Cogito figures out which files you modified,
|
|
and runs `git-update-cache` on them for you.
|
|
|
|
|
|
Tagging a version
|
|
-----------------
|
|
|
|
In git, there are two kinds of tags, a "light" one, and an "annotated tag".
|
|
|
|
A "light" tag is technically nothing more than a branch, except we put
|
|
it in the `.git/refs/tags/` subdirectory instead of calling it a `head`.
|
|
So the simplest form of tag involves nothing more than
|
|
|
|
------------------------------------------------
|
|
git tag my-first-tag
|
|
------------------------------------------------
|
|
|
|
which just writes the current `HEAD` into the `.git/refs/tags/my-first-tag`
|
|
file, after which point you can then use this symbolic name for that
|
|
particular state. You can, for example, do
|
|
|
|
git diff my-first-tag
|
|
|
|
to diff your current state against that tag (which at this point will
|
|
obviously be an empty diff, but if you continue to develop and commit
|
|
stuff, you can use your tag as an "anchor-point" to see what has changed
|
|
since you tagged it.
|
|
|
|
An "annotated tag" is actually a real git object, and contains not only a
|
|
pointer to the state you want to tag, but also a small tag name and
|
|
message, along with optionally a PGP signature that says that yes,
|
|
you really did
|
|
that tag. You create these annotated tags with either the `-a` or
|
|
`-s` flag to `git tag`:
|
|
|
|
git tag -s <tagname>
|
|
|
|
which will sign the current `HEAD` (but you can also give it another
|
|
argument that specifies the thing to tag, ie you could have tagged the
|
|
current `mybranch` point by using `git tag <tagname> mybranch`).
|
|
|
|
You normally only do signed tags for major releases or things
|
|
like that, while the light-weight tags are useful for any marking you
|
|
want to do -- any time you decide that you want to remember a certain
|
|
point, just create a private tag for it, and you have a nice symbolic
|
|
name for the state at that point.
|
|
|
|
|
|
Copying repositories
|
|
--------------------
|
|
|
|
Git repositories are normally totally self-sufficient, and it's worth noting
|
|
that unlike CVS, for example, there is no separate notion of
|
|
"repository" and "working tree". A git repository normally *is* the
|
|
working tree, with the local git information hidden in the `.git`
|
|
subdirectory. There is nothing else. What you see is what you got.
|
|
|
|
[NOTE]
|
|
You can tell git to split the git internal information from
|
|
the directory that it tracks, but we'll ignore that for now: it's not
|
|
how normal projects work, and it's really only meant for special uses.
|
|
So the mental model of "the git information is always tied directly to
|
|
the working tree that it describes" may not be technically 100%
|
|
accurate, but it's a good model for all normal use.
|
|
|
|
This has two implications:
|
|
|
|
- if you grow bored with the tutorial repository you created (or you've
|
|
made a mistake and want to start all over), you can just do simple
|
|
|
|
rm -rf git-tutorial
|
|
+
|
|
and it will be gone. There's no external repository, and there's no
|
|
history outside the project you created.
|
|
|
|
- if you want to move or duplicate a git repository, you can do so. There
|
|
is `git clone` command, but if all you want to do is just to
|
|
create a copy of your repository (with all the full history that
|
|
went along with it), you can do so with a regular
|
|
`cp -a git-tutorial new-git-tutorial`.
|
|
+
|
|
Note that when you've moved or copied a git repository, your git index
|
|
file (which caches various information, notably some of the "stat"
|
|
information for the files involved) will likely need to be refreshed.
|
|
So after you do a `cp -a` to create a new copy, you'll want to do
|
|
|
|
git-update-cache --refresh
|
|
+
|
|
in the new repository to make sure that the index file is up-to-date.
|
|
|
|
Note that the second point is true even across machines. You can
|
|
duplicate a remote git repository with *any* regular copy mechanism, be it
|
|
`scp`, `rsync` or `wget`.
|
|
|
|
When copying a remote repository, you'll want to at a minimum update the
|
|
index cache when you do this, and especially with other peoples'
|
|
repositories you often want to make sure that the index cache is in some
|
|
known state (you don't know *what* they've done and not yet checked in),
|
|
so usually you'll precede the `git-update-cache` with a
|
|
|
|
git-read-tree --reset HEAD
|
|
git-update-cache --refresh
|
|
|
|
which will force a total index re-build from the tree pointed to by `HEAD`.
|
|
It resets the index contents to `HEAD`, and then the `git-update-cache`
|
|
makes sure to match up all index entries with the checked-out files.
|
|
If the original repository had uncommitted changes in its
|
|
working tree, `git-update-cache --refresh` notices them and
|
|
tells you they need to be updated.
|
|
|
|
The above can also be written as simply
|
|
|
|
git reset
|
|
|
|
and in fact a lot of the common git command combinations can be scripted
|
|
with the `git xyz` interfaces, and you can learn things by just looking
|
|
at what the `git-*-script` scripts do (`git reset` is the above two lines
|
|
implemented in `git-reset-script`, but some things like `git status` and
|
|
`git commit` are slightly more complex scripts around the basic git
|
|
commands).
|
|
|
|
Many (most?) public remote repositories will not contain any of
|
|
the checked out files or even an index file, and will *only* contain the
|
|
actual core git files. Such a repository usually doesn't even have the
|
|
`.git` subdirectory, but has all the git files directly in the
|
|
repository.
|
|
|
|
To create your own local live copy of such a "raw" git repository, you'd
|
|
first create your own subdirectory for the project, and then copy the
|
|
raw repository contents into the `.git` directory. For example, to
|
|
create your own copy of the git repository, you'd do the following
|
|
|
|
mkdir my-git
|
|
cd my-git
|
|
rsync -rL rsync://rsync.kernel.org/pub/scm/git/git.git/ .git
|
|
|
|
followed by
|
|
|
|
git-read-tree HEAD
|
|
|
|
to populate the index. However, now you have populated the index, and
|
|
you have all the git internal files, but you will notice that you don't
|
|
actually have any of the working tree files to work on. To get
|
|
those, you'd check them out with
|
|
|
|
git-checkout-cache -u -a
|
|
|
|
where the `-u` flag means that you want the checkout to keep the index
|
|
up-to-date (so that you don't have to refresh it afterward), and the
|
|
`-a` flag means "check out all files" (if you have a stale copy or an
|
|
older version of a checked out tree you may also need to add the `-f`
|
|
flag first, to tell git-checkout-cache to *force* overwriting of any old
|
|
files).
|
|
|
|
Again, this can all be simplified with
|
|
|
|
git clone rsync://rsync.kernel.org/pub/scm/git/git.git/ my-git
|
|
cd my-git
|
|
git checkout
|
|
|
|
which will end up doing all of the above for you.
|
|
|
|
You have now successfully copied somebody else's (mine) remote
|
|
repository, and checked it out.
|
|
|
|
|
|
Creating a new branch
|
|
---------------------
|
|
|
|
Branches in git are really nothing more than pointers into the git
|
|
object database from within the `.git/refs/` subdirectory, and as we
|
|
already discussed, the `HEAD` branch is nothing but a symlink to one of
|
|
these object pointers.
|
|
|
|
You can at any time create a new branch by just picking an arbitrary
|
|
point in the project history, and just writing the SHA1 name of that
|
|
object into a file under `.git/refs/heads/`. You can use any filename you
|
|
want (and indeed, subdirectories), but the convention is that the
|
|
"normal" branch is called `master`. That's just a convention, though,
|
|
and nothing enforces it.
|
|
|
|
To show that as an example, let's go back to the git-tutorial repository we
|
|
used earlier, and create a branch in it. You do that by simply just
|
|
saying that you want to check out a new branch:
|
|
|
|
------------
|
|
git checkout -b mybranch
|
|
------------
|
|
|
|
will create a new branch based at the current `HEAD` position, and switch
|
|
to it.
|
|
|
|
[NOTE]
|
|
================================================
|
|
If you make the decision to start your new branch at some
|
|
other point in the history than the current `HEAD`, you can do so by
|
|
just telling `git checkout` what the base of the checkout would be.
|
|
In other words, if you have an earlier tag or branch, you'd just do
|
|
|
|
git checkout -b mybranch earlier-commit
|
|
|
|
and it would create the new branch `mybranch` at the earlier commit,
|
|
and check out the state at that time.
|
|
================================================
|
|
|
|
You can always just jump back to your original `master` branch by doing
|
|
|
|
git checkout master
|
|
|
|
(or any other branch-name, for that matter) and if you forget which
|
|
branch you happen to be on, a simple
|
|
|
|
ls -l .git/HEAD
|
|
|
|
will tell you where it's pointing. To get the list of branches
|
|
you have, you can say
|
|
|
|
git branch
|
|
|
|
which is nothing more than a simple script around `ls .git/refs/heads`.
|
|
There will be asterisk in front of the branch you are currently on.
|
|
|
|
Sometimes you may wish to create a new branch _without_ actually
|
|
checking it out and switching to it. If so, just use the command
|
|
|
|
git branch <branchname> [startingpoint]
|
|
|
|
which will simply _create_ the branch, but will not do anything further.
|
|
You can then later -- once you decide that you want to actually develop
|
|
on that branch -- switch to that branch with a regular `git checkout`
|
|
with the branchname as the argument.
|
|
|
|
|
|
Merging two branches
|
|
--------------------
|
|
|
|
One of the ideas of having a branch is that you do some (possibly
|
|
experimental) work in it, and eventually merge it back to the main
|
|
branch. So assuming you created the above `mybranch` that started out
|
|
being the same as the original `master` branch, let's make sure we're in
|
|
that branch, and do some work there.
|
|
|
|
------------------------------------------------
|
|
git checkout mybranch
|
|
echo "Work, work, work" >>hello
|
|
git commit -m 'Some work.' hello
|
|
------------------------------------------------
|
|
|
|
Here, we just added another line to `hello`, and we used a shorthand for
|
|
both going a `git-update-cache hello` and `git commit` by just giving the
|
|
filename directly to `git commit`. The `-m` flag is to give the
|
|
commit log message from the command line.
|
|
|
|
Now, to make it a bit more interesting, let's assume that somebody else
|
|
does some work in the original branch, and simulate that by going back
|
|
to the master branch, and editing the same file differently there:
|
|
|
|
------------
|
|
git checkout master
|
|
------------
|
|
|
|
Here, take a moment to look at the contents of `hello`, and notice how they
|
|
don't contain the work we just did in `mybranch` -- because that work
|
|
hasn't happened in the `master` branch at all. Then do
|
|
|
|
------------
|
|
echo "Play, play, play" >>hello
|
|
echo "Lots of fun" >>example
|
|
git commit -m 'Some fun.' hello example
|
|
------------
|
|
|
|
since the master branch is obviously in a much better mood.
|
|
|
|
Now, you've got two branches, and you decide that you want to merge the
|
|
work done. Before we do that, let's introduce a cool graphical tool that
|
|
helps you view what's going on:
|
|
|
|
gitk --all
|
|
|
|
will show you graphically both of your branches (that's what the `\--all`
|
|
means: normally it will just show you your current `HEAD`) and their
|
|
histories. You can also see exactly how they came to be from a common
|
|
source.
|
|
|
|
Anyway, let's exit `gitk` (`^Q` or the File menu), and decide that we want
|
|
to merge the work we did on the `mybranch` branch into the `master`
|
|
branch (which is currently our `HEAD` too). To do that, there's a nice
|
|
script called `git resolve`, which wants to know which branches you want
|
|
to resolve and what the merge is all about:
|
|
|
|
------------
|
|
git resolve HEAD mybranch "Merge work in mybranch"
|
|
------------
|
|
|
|
where the third argument is going to be used as the commit message if
|
|
the merge can be resolved automatically.
|
|
|
|
Now, in this case we've intentionally created a situation where the
|
|
merge will need to be fixed up by hand, though, so git will do as much
|
|
of it as it can automatically (which in this case is just merge the `example`
|
|
file, which had no differences in the `mybranch` branch), and say:
|
|
|
|
Simple merge failed, trying Automatic merge
|
|
Auto-merging hello.
|
|
merge: warning: conflicts during merge
|
|
ERROR: Merge conflict in hello.
|
|
fatal: merge program failed
|
|
Automatic merge failed, fix up by hand
|
|
|
|
which is way too verbose, but it basically tells you that it failed the
|
|
really trivial merge ("Simple merge") and did an "Automatic merge"
|
|
instead, but that too failed due to conflicts in `hello`.
|
|
|
|
Not to worry. It left the (trivial) conflict in `hello` in the same form you
|
|
should already be well used to if you've ever used CVS, so let's just
|
|
open `hello` in our editor (whatever that may be), and fix it up somehow.
|
|
I'd suggest just making it so that `hello` contains all four lines:
|
|
|
|
------------
|
|
Hello World
|
|
It's a new day for git
|
|
Play, play, play
|
|
Work, work, work
|
|
------------
|
|
|
|
and once you're happy with your manual merge, just do a
|
|
|
|
------------
|
|
git commit hello
|
|
------------
|
|
|
|
which will very loudly warn you that you're now committing a merge
|
|
(which is correct, so never mind), and you can write a small merge
|
|
message about your adventures in git-merge-land.
|
|
|
|
After you're done, start up `gitk --all` to see graphically what the
|
|
history looks like. Notice that `mybranch` still exists, and you can
|
|
switch to it, and continue to work with it if you want to. The
|
|
`mybranch` branch will not contain the merge, but next time you merge it
|
|
from the `master` branch, git will know how you merged it, so you'll not
|
|
have to do _that_ merge again.
|
|
|
|
Another useful tool, especially if you do not always work in X-Window
|
|
environment, is `git show-branch`.
|
|
|
|
------------------------------------------------
|
|
$ git show-branch master mybranch
|
|
* [master] Merged "mybranch" changes.
|
|
! [mybranch] Some work.
|
|
--
|
|
+ [master] Merged "mybranch" changes.
|
|
+ [master~1] Some fun.
|
|
++ [mybranch] Some work.
|
|
------------------------------------------------
|
|
|
|
The first two lines indicate that it is showing the two branches
|
|
and the first line of the commit log message from their
|
|
top-of-the-tree commits, you are currently on `master` branch
|
|
(notice the asterisk `*` character), and the first column for
|
|
the later output lines is used to show commits contained in the
|
|
`master` branch, and the second column for the `mybranch`
|
|
branch. Three commits are shown along with their log messages.
|
|
All of them have plus `+` characters in the first column, which
|
|
means they are now part of the `master` branch. Only the "Some
|
|
work" commit has the plus `+` character in the second column,
|
|
because `mybranch` has not been merged to incorporate these
|
|
commits from the master branch.
|
|
|
|
Now, let's pretend you are the one who did all the work in
|
|
`mybranch`, and the fruit of your hard work has finally been merged
|
|
to the `master` branch. Let's go back to `mybranch`, and run
|
|
resolve to get the "upstream changes" back to your branch.
|
|
|
|
git checkout mybranch
|
|
git resolve HEAD master "Merge upstream changes."
|
|
|
|
This outputs something like this (the actual commit object names
|
|
would be different)
|
|
|
|
Updating from ae3a2da... to a80b4aa....
|
|
example | 1 +
|
|
hello | 1 +
|
|
2 files changed, 2 insertions(+), 0 deletions(-)
|
|
|
|
Because your branch did not contain anything more than what are
|
|
already merged into the `master` branch, the resolve operation did
|
|
not actually do a merge. Instead, it just updated the top of
|
|
the tree of your branch to that of the `master` branch. This is
|
|
often called 'fast forward' merge.
|
|
|
|
You can run `gitk --all` again to see how the commit ancestry
|
|
looks like, or run `show-branch`, which tells you this.
|
|
|
|
------------------------------------------------
|
|
$ git show-branch master mybranch
|
|
! [master] Merged "mybranch" changes.
|
|
* [mybranch] Merged "mybranch" changes.
|
|
--
|
|
++ [master] Merged "mybranch" changes.
|
|
------------------------------------------------
|
|
|
|
|
|
Merging external work
|
|
---------------------
|
|
|
|
It's usually much more common that you merge with somebody else than
|
|
merging with your own branches, so it's worth pointing out that git
|
|
makes that very easy too, and in fact, it's not that different from
|
|
doing a `git resolve`. In fact, a remote merge ends up being nothing
|
|
more than "fetch the work from a remote repository into a temporary tag"
|
|
followed by a `git resolve`.
|
|
|
|
Fetching from a remote repository is done by, unsurprisingly,
|
|
`git fetch`:
|
|
|
|
git fetch <remote-repository>
|
|
|
|
One of the following transports can be used to name the
|
|
repository to download from:
|
|
|
|
Rsync::
|
|
`rsync://remote.machine/path/to/repo.git/`
|
|
+
|
|
Rsync transport is usable for both uploading and downloading,
|
|
but is completely unaware of what git does, and can produce
|
|
unexpected results when you download from the public repository
|
|
while the repository owner is uploading into it via `rsync`
|
|
transport. Most notably, it could update the files under
|
|
`refs/` which holds the object name of the topmost commits
|
|
before uploading the files in `objects/` -- the downloader would
|
|
obtain head commit object name while that object itself is still
|
|
not available in the repository. For this reason, it is
|
|
considered deprecated.
|
|
|
|
SSH::
|
|
`remote.machine:/path/to/repo.git/` or
|
|
+
|
|
`ssh://remote.machine/path/to/repo.git/`
|
|
+
|
|
This transport can be used for both uploading and downloading,
|
|
and requires you to have a log-in privilege over `ssh` to the
|
|
remote machine. It finds out the set of objects the other side
|
|
lacks by exchanging the head commits both ends have and
|
|
transfers (close to) minimum set of objects. It is by far the
|
|
most efficient way to exchange git objects between repositories.
|
|
|
|
Local directory::
|
|
`/path/to/repo.git/`
|
|
+
|
|
This transport is the same as SSH transport but uses `sh` to run
|
|
both ends on the local machine instead of running other end on
|
|
the remote machine via `ssh`.
|
|
|
|
GIT Native::
|
|
`git://remote.machine/path/to/repo.git/`
|
|
+
|
|
This transport was designed for anonymous downloading. Like SSH
|
|
transport, it finds out the set of objects the downstream side
|
|
lacks and transfers (close to) minimum set of objects.
|
|
|
|
HTTP(s)::
|
|
`http://remote.machine/path/to/repo.git/`
|
|
+
|
|
HTTP and HTTPS transport are used only for downloading. They
|
|
first obtain the topmost commit object name from the remote site
|
|
by looking at `repo.git/info/refs` file, tries to obtain the
|
|
commit object by downloading from `repo.git/objects/xx/xxx\...`
|
|
using the object name of that commit object. Then it reads the
|
|
commit object to find out its parent commits and the associate
|
|
tree object; it repeats this process until it gets all the
|
|
necessary objects. Because of this behaviour, they are
|
|
sometimes also called 'commit walkers'.
|
|
+
|
|
The 'commit walkers' are sometimes also called 'dumb
|
|
transports', because they do not require any GIT aware smart
|
|
server like GIT Native transport does. Any stock HTTP server
|
|
would suffice.
|
|
+
|
|
There are (confusingly enough) `git-ssh-pull` and `git-ssh-push`
|
|
programs, which are 'commit walkers'; they outlived their
|
|
usefulness when GIT Native and SSH transports were introduced,
|
|
and not used by `git pull` or `git push` scripts.
|
|
|
|
Once you fetch from the remote repository, you `resolve` that
|
|
with your current branch.
|
|
|
|
However -- it's such a common thing to `fetch` and then
|
|
immediately `resolve`, that it's called `git pull`, and you can
|
|
simply do
|
|
|
|
git pull <remote-repository>
|
|
|
|
and optionally give a branch-name for the remote end as a second
|
|
argument.
|
|
|
|
[NOTE]
|
|
You could do without using any branches at all, by
|
|
keeping as many local repositories as you would like to have
|
|
branches, and merging between them with `git pull`, just like
|
|
you merge between branches. The advantage of this approach is
|
|
that it lets you keep set of files for each `branch` checked
|
|
out and you may find it easier to switch back and forth if you
|
|
juggle multiple lines of development simultaneously. Of
|
|
course, you will pay the price of more disk usage to hold
|
|
multiple working trees, but disk space is cheap these days.
|
|
|
|
[NOTE]
|
|
You could even pull from your own repository by
|
|
giving '.' as <remote-repository> parameter to `git pull`.
|
|
|
|
It is likely that you will be pulling from the same remote
|
|
repository from time to time. As a short hand, you can store
|
|
the remote repository URL in a file under .git/remotes/
|
|
directory, like this:
|
|
|
|
------------------------------------------------
|
|
mkdir -p .git/remotes/
|
|
cat >.git/remotes/linus <<\EOF
|
|
URL: http://www.kernel.org/pub/scm/git/git.git/
|
|
EOF
|
|
------------------------------------------------
|
|
|
|
and use the filename to `git pull` instead of the full URL.
|
|
The URL specified in such file can even be a prefix
|
|
of a full URL, like this:
|
|
|
|
------------------------------------------------
|
|
cat >.git/remotes/jgarzik <<\EOF
|
|
URL: http://www.kernel.org/pub/scm/linux/git/jgarzik/
|
|
EOF
|
|
------------------------------------------------
|
|
|
|
|
|
Examples.
|
|
|
|
. `git pull linus`
|
|
. `git pull linus tag v0.99.1`
|
|
. `git pull jgarzik/netdev-2.6.git/ e100`
|
|
|
|
the above are equivalent to:
|
|
|
|
. `git pull http://www.kernel.org/pub/scm/git/git.git/ HEAD`
|
|
. `git pull http://www.kernel.org/pub/scm/git/git.git/ tag v0.99.1`
|
|
. `git pull http://www.kernel.org/pub/.../jgarzik/netdev-2.6.git e100`
|
|
|
|
|
|
Publishing your work
|
|
--------------------
|
|
|
|
So we can use somebody else's work from a remote repository; but
|
|
how can *you* prepare a repository to let other people pull from
|
|
it?
|
|
|
|
Your do your real work in your working tree that has your
|
|
primary repository hanging under it as its `.git` subdirectory.
|
|
You *could* make that repository accessible remotely and ask
|
|
people to pull from it, but in practice that is not the way
|
|
things are usually done. A recommended way is to have a public
|
|
repository, make it reachable by other people, and when the
|
|
changes you made in your primary working tree are in good shape,
|
|
update the public repository from it. This is often called
|
|
'pushing'.
|
|
|
|
[NOTE]
|
|
This public repository could further be mirrored, and that is
|
|
how git repositories at `kernel.org` are managed.
|
|
|
|
Publishing the changes from your local (private) repository to
|
|
your remote (public) repository requires a write privilege on
|
|
the remote machine. You need to have an SSH account there to
|
|
run a single command, `git-receive-pack`.
|
|
|
|
First, you need to create an empty repository on the remote
|
|
machine that will house your public repository. This empty
|
|
repository will be populated and be kept up-to-date by pushing
|
|
into it later. Obviously, this repository creation needs to be
|
|
done only once.
|
|
|
|
[NOTE]
|
|
`git push` uses a pair of programs,
|
|
`git-send-pack` on your local machine, and `git-receive-pack`
|
|
on the remote machine. The communication between the two over
|
|
the network internally uses an SSH connection.
|
|
|
|
Your private repository's GIT directory is usually `.git`, but
|
|
your public repository is often named after the project name,
|
|
i.e. `<project>.git`. Let's create such a public repository for
|
|
project `my-git`. After logging into the remote machine, create
|
|
an empty directory:
|
|
|
|
mkdir my-git.git
|
|
|
|
Then, make that directory into a GIT repository by running
|
|
`git init-db`, but this time, since its name is not the usual
|
|
`.git`, we do things slightly differently:
|
|
|
|
GIT_DIR=my-git.git git-init-db
|
|
|
|
Make sure this directory is available for others you want your
|
|
changes to be pulled by via the transport of your choice. Also
|
|
you need to make sure that you have the `git-receive-pack`
|
|
program on the `$PATH`.
|
|
|
|
[NOTE]
|
|
Many installations of sshd do not invoke your shell as the login
|
|
shell when you directly run programs; what this means is that if
|
|
your login shell is `bash`, only `.bashrc` is read and not
|
|
`.bash_profile`. As a workaround, make sure `.bashrc` sets up
|
|
`$PATH` so that you can run `git-receive-pack` program.
|
|
|
|
Your "public repository" is now ready to accept your changes.
|
|
Come back to the machine you have your private repository. From
|
|
there, run this command:
|
|
|
|
git push <public-host>:/path/to/my-git.git master
|
|
|
|
This synchronizes your public repository to match the named
|
|
branch head (i.e. `master` in this case) and objects reachable
|
|
from them in your current repository.
|
|
|
|
As a real example, this is how I update my public git
|
|
repository. Kernel.org mirror network takes care of the
|
|
propagation to other publicly visible machines:
|
|
|
|
git push master.kernel.org:/pub/scm/git/git.git/
|
|
|
|
|
|
Packing your repository
|
|
-----------------------
|
|
|
|
Earlier, we saw that one file under `.git/objects/??/` directory
|
|
is stored for each git object you create. This representation
|
|
is efficient to create atomically and safely, but
|
|
not so convenient to transport over the network. Since git objects are
|
|
immutable once they are created, there is a way to optimize the
|
|
storage by "packing them together". The command
|
|
|
|
git repack
|
|
|
|
will do it for you. If you followed the tutorial examples, you
|
|
would have accumulated about 17 objects in `.git/objects/??/`
|
|
directories by now. `git repack` tells you how many objects it
|
|
packed, and stores the packed file in `.git/objects/pack`
|
|
directory.
|
|
|
|
[NOTE]
|
|
You will see two files, `pack-\*.pack` and `pack-\*.idx`,
|
|
in `.git/objects/pack` directory. They are closely related to
|
|
each other, and if you ever copy them by hand to a different
|
|
repository for whatever reason, you should make sure you copy
|
|
them together. The former holds all the data from the objects
|
|
in the pack, and the latter holds the index for random
|
|
access.
|
|
|
|
If you are paranoid, running `git-verify-pack` command would
|
|
detect if you have a corrupt pack, but do not worry too much.
|
|
Our programs are always perfect ;-).
|
|
|
|
Once you have packed objects, you do not need to leave the
|
|
unpacked objects that are contained in the pack file anymore.
|
|
|
|
git prune-packed
|
|
|
|
would remove them for you.
|
|
|
|
You can try running `find .git/objects -type f` before and after
|
|
you run `git prune-packed` if you are curious. Also `git
|
|
count-objects` would tell you how many unpacked objects are in
|
|
your repository and how much space they are consuming.
|
|
|
|
[NOTE]
|
|
`git pull` is slightly cumbersome for HTTP transport, as a
|
|
packed repository may contain relatively few objects in a
|
|
relatively large pack. If you expect many HTTP pulls from your
|
|
public repository you might want to repack & prune often, or
|
|
never.
|
|
|
|
If you run `git repack` again at this point, it will say
|
|
"Nothing to pack". Once you continue your development and
|
|
accumulate the changes, running `git repack` again will create a
|
|
new pack, that contains objects created since you packed your
|
|
repository the last time. We recommend that you pack your project
|
|
soon after the initial import (unless you are starting your
|
|
project from scratch), and then run `git repack` every once in a
|
|
while, depending on how active your project is.
|
|
|
|
When a repository is synchronized via `git push` and `git pull`
|
|
objects packed in the source repository are usually stored
|
|
unpacked in the destination, unless rsync transport is used.
|
|
While this allows you to use different packing strategies on
|
|
both ends, it also means you may need to repack both
|
|
repositories every once in a while.
|
|
|
|
|
|
Working with Others
|
|
-------------------
|
|
|
|
Although git is a truly distributed system, it is often
|
|
convenient to organize your project with an informal hierarchy
|
|
of developers. Linux kernel development is run this way. There
|
|
is a nice illustration (page 17, "Merges to Mainline") in Randy
|
|
Dunlap's presentation (`http://tinyurl.com/a2jdg`).
|
|
|
|
It should be stressed that this hierarchy is purely *informal*.
|
|
There is nothing fundamental in git that enforces the "chain of
|
|
patch flow" this hierarchy implies. You do not have to pull
|
|
from only one remote repository.
|
|
|
|
A recommended workflow for a "project lead" goes like this:
|
|
|
|
1. Prepare your primary repository on your local machine. Your
|
|
work is done there.
|
|
|
|
2. Prepare a public repository accessible to others.
|
|
+
|
|
If other people are pulling from your repository over dumb
|
|
transport protocols, you need to keep this repository 'dumb
|
|
transport friendly'. After `git init-db`,
|
|
`$GIT_DIR/hooks/post-update` copied from the standard templates
|
|
would contain a call to `git-update-server-info` but the
|
|
`post-update` hook itself is disabled by default -- enable it
|
|
with `chmod +x post-update`.
|
|
|
|
3. Push into the public repository from your primary
|
|
repository.
|
|
|
|
4. `git repack` the public repository. This establishes a big
|
|
pack that contains the initial set of objects as the
|
|
baseline, and possibly `git prune` if the transport
|
|
used for pulling from your repository supports packed
|
|
repositories.
|
|
|
|
5. Keep working in your primary repository. Your changes
|
|
include modifications of your own, patches you receive via
|
|
e-mails, and merges resulting from pulling the "public"
|
|
repositories of your "subsystem maintainers".
|
|
+
|
|
You can repack this private repository whenever you feel like.
|
|
|
|
6. Push your changes to the public repository, and announce it
|
|
to the public.
|
|
|
|
7. Every once in a while, "git repack" the public repository.
|
|
Go back to step 5. and continue working.
|
|
|
|
|
|
A recommended work cycle for a "subsystem maintainer" who works
|
|
on that project and has an own "public repository" goes like this:
|
|
|
|
1. Prepare your work repository, by `git clone` the public
|
|
repository of the "project lead". The URL used for the
|
|
initial cloning is stored in `.git/remotes/origin`.
|
|
|
|
2. Prepare a public repository accessible to others, just like
|
|
the "project lead" person does.
|
|
|
|
3. Copy over the packed files from "project lead" public
|
|
repository to your public repository.
|
|
|
|
4. Push into the public repository from your primary
|
|
repository. Run `git repack`, and possibly `git prune` if the
|
|
transport used for pulling from your repository supports
|
|
packed repositories.
|
|
|
|
5. Keep working in your primary repository. Your changes
|
|
include modifications of your own, patches you receive via
|
|
e-mails, and merges resulting from pulling the "public"
|
|
repositories of your "project lead" and possibly your
|
|
"sub-subsystem maintainers".
|
|
+
|
|
You can repack this private repository whenever you feel
|
|
like.
|
|
|
|
6. Push your changes to your public repository, and ask your
|
|
"project lead" and possibly your "sub-subsystem
|
|
maintainers" to pull from it.
|
|
|
|
7. Every once in a while, `git repack` the public repository.
|
|
Go back to step 5. and continue working.
|
|
|
|
|
|
A recommended work cycle for an "individual developer" who does
|
|
not have a "public" repository is somewhat different. It goes
|
|
like this:
|
|
|
|
1. Prepare your work repository, by `git clone` the public
|
|
repository of the "project lead" (or a "subsystem
|
|
maintainer", if you work on a subsystem). The URL used for
|
|
the initial cloning is stored in `.git/remotes/origin`.
|
|
|
|
2. Do your work in your repository on 'master' branch.
|
|
|
|
3. Run `git fetch origin` from the public repository of your
|
|
upstream every once in a while. This does only the first
|
|
half of `git pull` but does not merge. The head of the
|
|
public repository is stored in `.git/refs/heads/origin`.
|
|
|
|
4. Use `git cherry origin` to see which ones of your patches
|
|
were accepted, and/or use `git rebase origin` to port your
|
|
unmerged changes forward to the updated upstream.
|
|
|
|
5. Use `git format-patch origin` to prepare patches for e-mail
|
|
submission to your upstream and send it out. Go back to
|
|
step 2. and continue.
|
|
|
|
|
|
Working with Others, Shared Repository Style
|
|
--------------------------------------------
|
|
|
|
If you are coming from CVS background, the style of cooperation
|
|
suggested in the previous section may be new to you. You do not
|
|
have to worry. git supports "shared public repository" style of
|
|
cooperation you are probably more familiar with as well.
|
|
|
|
For this, set up a public repository on a machine that is
|
|
reachable via SSH by people with "commit privileges". Put the
|
|
committers in the same user group and make the repository
|
|
writable by that group.
|
|
|
|
You, as an individual committer, then:
|
|
|
|
- First clone the shared repository to a local repository:
|
|
------------------------------------------------
|
|
$ git clone repo.shared.xz:/pub/scm/project.git/ my-project
|
|
$ cd my-project
|
|
$ hack away
|
|
------------------------------------------------
|
|
|
|
- Merge the work others might have done while you were hacking
|
|
away:
|
|
------------------------------------------------
|
|
$ git pull origin
|
|
$ test the merge result
|
|
------------------------------------------------
|
|
[NOTE]
|
|
================================
|
|
The first `git clone` would have placed the following in
|
|
`my-project/.git/remotes/origin` file, and that's why this and
|
|
the next step work.
|
|
------------
|
|
URL: repo.shared.xz:/pub/scm/project.git/ my-project
|
|
Pull: master:origin
|
|
------------
|
|
================================
|
|
|
|
- push your work as the new head of the shared
|
|
repository.
|
|
------------------------------------------------
|
|
$ git push origin master
|
|
------------------------------------------------
|
|
If somebody else pushed into the same shared repository while
|
|
you were working locally, `git push` in the last step would
|
|
complain, telling you that the remote `master` head does not
|
|
fast forward. You need to pull and merge those other changes
|
|
back before you push your work when it happens.
|
|
|
|
|
|
[ to be continued.. cvsimports ]
|