1. Иш бошланиши
2. Git асослари
4. Git серверда
7. Git Tools
10. Git Internals
4.1 Git серверда - The Protocols
Ушбу вақтга келиб, Git ни ишлатган вақтингизда ҳар кунлик қилишингиз керак бўлган ишларни кўпгина қисмини бажара оладиган бўлишингиз керак. Бироқ, Git билан ҳамкорликда ишлаш учун сизга узоқ масофадаги омбор зарур бўлади. Сиз шахсий омборларингиздаги ўзгаришларни жўнатиш ёки қабул қилишни техник жиҳатдан амалга оширишингиз мумкинлигини биламиз лекин биз бундай қилишни сизга тавсия этмаймиз. Сиз эҳтиётлик билан ишламасангиз осонлик билан бошқалар қилайтган ишини бузиб қўйишингиз мумкин. Яна балки, сизни компьютерингиз ўчирилган ҳолатда турса ҳам, бошқалар омбордан ишлай олишларини хоҳлаган бўлардингиз. Шунинг учун кўпроқ ишончли бўлган омбор фойдадан холи эмас. Афзал усуллардан бири бу - ким биландир ўртада икки кишини ҳам ундан фойдаланиш имкони бўлган омборни яратиб, у орқали ўртада ўзгаришларни алмашиниш.
Git-серверни ишга тушириш қийин эмас. Аввалига сервер билан алоқа қилишингиз учун керак бўладиган протоколни танлашингиз керак. Қўлланиши мумкин бўлган протоколлар, уларнинг ютуқлари ва камчиликлари ҳақида ушбу бўлимнинг биринчи қисмида ёзилган. Кейинги қисмларда ушбу протоколларни қўллаб бошланғич конфигурацияларни яратиш ва улар билан ишлаш учун сизнинг серверингизни созлаш ишлари ҳақида ёритилади. Давомида агар сиз омборингизни бегона серверда қўйишга қарши бўлмасангиз ва ўз серверингизни қўллаб-қувватлаш мақсадида созлашлар билан бошингизни оғритмоқчи бўлмасангиз, биз бир қанча тайёр хостингларни кўриб ўтамиз.
Агар сизни шахсий серверни созлаш қизиқтирмаса сиз Git-хостингда янги аккаунт яратиш учун ушбу бўлимнинг охирги қисмига бирданига ўтиб, сўнгра навбатдаги бўлимга ТБТ лар билан ишлашнинг турли кўринишларини ўрганиш учун йўл олишингиз мумкин бўлади.
Узоқ масофадаги омбор бу - одатда ишчи каталогига эга бўлмаган Git омборларининг бўш (тоза, bare) омбор и. Ушбу омбор алмашиниш учун бўлганлиги сабабли файллар нусхасини дискда яратишга сабаб йўқ ва у фақат Git маълумотларини сақлайди.
Содда қилиб айтганда, бўш омбор фақатгина .git каталогига эга бўлади.
Git can use four major protocols to transfer data: Local, HTTP, Secure Shell (SSH) and Git. Here we’ll discuss what they are and in what basic circumstances you would want (or not want) to use them.
The most basic is the Local protocol, in which the remote repository is in another directory on disk. This is often used if everyone on your team has access to a shared filesystem such as an NFS mount, or in the less likely case that everyone logs in to the same computer. The latter wouldn’t be ideal, because all your code repository instances would reside on the same computer, making a catastrophic loss much more likely.
If you have a shared mounted filesystem, then you can clone, push to, and pull from a local file-based repository. To clone a repository like this or to add one as a remote to an existing project, use the path to the repository as the URL. For example, to clone a local repository, you can run something like this:
$ git clone /opt/git/project.git
Or you can do this:
$ git clone file:///opt/git/project.git
Git operates slightly differently if you explicitly specify
file:// at the beginning of the URL.
If you just specify the path, Git tries to use hardlinks or directly copy the files it needs.
If you specify
file://, Git fires up the processes that it normally uses to transfer data over a network which is generally a lot less efficient method of transferring the data.
The main reason to specify the
file:// prefix is if you want a clean copy of the repository with extraneous references or objects left out – generally after an import from another version-control system or something similar (see Git Internals for maintenance tasks).
We’ll use the normal path here because doing so is almost always faster.
To add a local repository to an existing Git project, you can run something like this:
$ git remote add local_proj /opt/git/project.git
Then, you can push to and pull from that remote as though you were doing so over a network.
The pros of file-based repositories are that they’re simple and they use existing file permissions and network access. If you already have a shared filesystem to which your whole team has access, setting up a repository is very easy. You stick the bare repository copy somewhere everyone has shared access to and set the read/write permissions as you would for any other shared directory. We’ll discuss how to export a bare repository copy for this purpose in Getting Git on a Server.
This is also a nice option for quickly grabbing work from someone else’s working repository.
If you and a co-worker are working on the same project and they want you to check something out, running a command like
git pull /home/john/project is often easier than them pushing to a remote server and you pulling down.
The cons of this method are that shared access is generally more difficult to set up and reach from multiple locations than basic network access. If you want to push from your laptop when you’re at home, you have to mount the remote disk, which can be difficult and slow compared to network-based access.
It’s also important to mention that this isn’t necessarily the fastest option if you’re using a shared mount of some kind. A local repository is fast only if you have fast access to the data. A repository on NFS is often slower than the repository over SSH on the same server, allowing Git to run off local disks on each system.
The HTTP Protocols
Git can communicate over HTTP in two different modes. Prior to Git 1.6.6 there was only one way it could do this which was very simple and generally read-only. In version 1.6.6 a new, smarter protocol was introduced that involved Git being able to intelligently negotiate data transfer in a manner similar to how it does over SSH. In the last few years, this new HTTP protocol has become very popular since it’s simpler for the user and smarter about how it communicates. The newer version is often referred to as the “Smart” HTTP protocol and the older way as “Dumb” HTTP. We’ll cover the newer “smart” HTTP protocol first.
The “smart” HTTP protocol operates very similarly to the SSH or Git protocols but runs over standard HTTP/S ports and can use various HTTP authentication mechanisms, meaning it’s often easier on the user than something like SSH, since you can use things like username/password basic authentication rather than having to set up SSH keys.
It has probably become the most popular way to use Git now, since it can be set up to both serve anonymously like the
git:// protocol, and can also be pushed over with authentication and encryption like the SSH protocol. Instead of having to set up different URLs for these things, you can now use a single URL for both. If you try to push and the repository requires authentication (which it normally should), the server can prompt for a username and password. The same goes for read access.
In fact, for services like GitHub, the URL you use to view the repository online (for example, “https://github.com/schacon/simplegit”) is the same URL you can use to clone and, if you have access, push over.
If the server does not respond with a Git HTTP smart service, the Git client will try to fall back to the simpler “dumb” HTTP protocol.
The Dumb protocol expects the bare Git repository to be served like normal files from the web server.
The beauty of the Dumb HTTP protocol is the simplicity of setting it up.
Basically, all you have to do is put a bare Git repository under your HTTP document root and set up a specific
post-update hook, and you’re done (See Git Hooks).
At that point, anyone who can access the web server under which you put the repository can also clone your repository.
To allow read access to your repository over HTTP, do something like this:
$ cd /var/www/htdocs/ $ git clone --bare /path/to/git_project gitproject.git $ cd gitproject.git $ mv hooks/post-update.sample hooks/post-update $ chmod a+x hooks/post-update
post-update hook that comes with Git by default runs the appropriate command (
git update-server-info) to make HTTP fetching and cloning work properly.
This command is run when you push to this repository (over SSH perhaps); then, other people can clone via something like
$ git clone https://example.com/gitproject.git
In this particular case, we’re using the
/var/www/htdocs path that is common for Apache setups, but you can use any static web server – just put the bare repository in its path.
The Git data is served as basic static files (see Git Internals for details about exactly how it’s served).
Generally you would either choose to run a read/write Smart HTTP server or simply have the files accessible as read-only in the Dumb manner. It’s rare to run a mix of the two services.
We’ll concentrate on the pros of the Smart version of the HTTP protocol.
The simplicity of having a single URL for all types of access and having the server prompt only when authentication is needed makes things very easy for the end user. Being able to authenticate with a username and password is also a big advantage over SSH, since users don’t have to generate SSH keys locally and upload their public key to the server before being able to interact with it. For less sophisticated users, or users on systems where SSH is less common, this is a major advantage in usability. It is also a very fast and efficient protocol, similar to the SSH one.
You can also serve your repositories read-only over HTTPS, which means you can encrypt the content transfer; or you can go so far as to make the clients use specific signed SSL certificates.
Another nice thing is that HTTP/S are such commonly used protocols that corporate firewalls are often set up to allow traffic through these ports.
Git over HTTP/S can be a little more tricky to set up compared to SSH on some servers. Other than that, there is very little advantage that other protocols have over the “Smart” HTTP protocol for serving Git.
If you’re using HTTP for authenticated pushing, providing your credentials is sometimes more complicated than using keys over SSH. There are however several credential caching tools you can use, including Keychain access on OSX and Credential Manager on Windows, to make this pretty painless. Read Credential Storage to see how to set up secure HTTP password caching on your system.
The SSH Protocol
A common transport protocol for Git when self-hosting is over SSH. This is because SSH access to servers is already set up in most places – and if it isn’t, it’s easy to do. SSH is also an authenticated network protocol; and because it’s ubiquitous, it’s generally easy to set up and use.
To clone a Git repository over SSH, you can specify ssh:// URL like this:
$ git clone ssh://user@server/project.git
Or you can use the shorter scp-like syntax for the SSH protocol:
$ git clone user@server:project.git
You can also not specify a user, and Git assumes the user you’re currently logged in as.
The pros of using SSH are many. First, SSH is relatively easy to set up – SSH daemons are commonplace, many network admins have experience with them, and many OS distributions are set up with them or have tools to manage them. Next, access over SSH is secure – all data transfer is encrypted and authenticated. Last, like the HTTP/S, Git and Local protocols, SSH is efficient, making the data as compact as possible before transferring it.
The negative aspect of SSH is that you can’t serve anonymous access of your repository over it. People must have access to your machine over SSH to access it, even in a read-only capacity, which doesn’t make SSH access conducive to open source projects. If you’re using it only within your corporate network, SSH may be the only protocol you need to deal with. If you want to allow anonymous read-only access to your projects and also want to use SSH, you’ll have to set up SSH for you to push over but something else for others to fetch over.
The Git Protocol
Next is the Git protocol.
This is a special daemon that comes packaged with Git; it listens on a dedicated port (9418) that provides a service similar to the SSH protocol, but with absolutely no authentication.
In order for a repository to be served over the Git protocol, you must create the
git-daemon-export-ok file – the daemon won’t serve a repository without that file in it – but other than that there is no security.
Either the Git repository is available for everyone to clone or it isn’t.
This means that there is generally no pushing over this protocol.
You can enable push access; but given the lack of authentication, if you turn on push access, anyone on the internet who finds your project’s URL could push to your project.
Suffice it to say that this is rare.
The Git protocol is often the fastest network transfer protocol available. If you’re serving a lot of traffic for a public project or serving a very large project that doesn’t require user authentication for read access, it’s likely that you’ll want to set up a Git daemon to serve your project. It uses the same data-transfer mechanism as the SSH protocol but without the encryption and authentication overhead.
The downside of the Git protocol is the lack of authentication.
It’s generally undesirable for the Git protocol to be the only access to your project.
Generally, you’ll pair it with SSH or HTTPS access for the few developers who have push (write) access and have everyone else use
git:// for read-only access.
It’s also probably the most difficult protocol to set up.
It must run its own daemon, which requires
xinetd configuration or the like, which isn’t always a walk in the park.
It also requires firewall access to port 9418, which isn’t a standard port that corporate firewalls always allow.
Behind big corporate firewalls, this obscure port is commonly blocked.