Manage Source Code Versions with Subversion

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Deprecated

This guide has been deprecated and is no longer being maintained.

Subversion (SVN) is a centralized version control system. Used by software developers to track changes during the production and maintenance of a project. SVN is a familiar and standard component in many development tool chains. Subversion was developed as a replacement for the Concurrent Versions System (CVS). SVN attempts to fix many of the major problems with CVS without requiring any paradigm shifts in the way software is developed:

  • Commit operations are atomic. When a user saves a revision and sends it to the svn server, the server process will not put the commit data in the server’s database until specifically told to.
  • Files and directories can be renamed while still maintaining a coherent record of the files.

Because Subversion uses a centralized architecture, in order to collaborate with others you must have a server to host the project. This guide outlines both the installation and setup of Subversion as well as the basic use of svn tools.

There are many options for accessing and managing Subversion repositories on local systems. You can use any Subversion client to connect to and interact with the repositories that you configure on your Linode. This guide will use standard shell commands and the svn utility to connect to Subversion repositories.

Before You Begin

  1. Familiarize yourself with our Getting Started guide and complete the steps for setting your Linode’s hostname and timezone.

  2. Complete the sections of our Securing Your Server to create a standard user account, harden SSH access and remove unnecessary network services.

  3. Update your system:

    sudo apt-get update && sudo apt-get upgrade
    
    Note
    The steps in this guide require root privileges. Be sure to run the steps below as root or with the sudo prefix. For more information on privileges, see our Users and Groups guide.

Install Subversion

Subversion is included in the software repositories of most major Linux distributions. Installing the subversion package installs all of the tools that you need to administer and maintain your Subversion repositories, as well as client utilities.

Debian and Ubuntu

Install the Subversion repository:

apt-get install subversion

CentOS and Fedora

Install the subversion package:

yum install subversion

Arch

Install svn using pacman:

pacman -S subversion

Gentoo

emerge dev-util/subversion

Create a Subversion Repository

  1. Create a directory to host your Subversion repositories:

    mkdir -p /srv/svn/
    
  2. Use svnadmin to create a new SVN repository:

    svnadmin create /srv/svn/subversion-test
    

    In this example, we’ve created a single subversion-test repository in the /srv/svn/ directory. Because SVN allows you to only check out the specific portions of the repository you need, administrators will frequently create a single repository for a project and developers will only check out and work on the portions of the project that they need.

Manage Subversion Repositories

The svnadmin tool provides a number of additional commands which are useful for administering and maintaining a Subversion repository.

Verify Repository Integrity

Check the integrity of a repository:

svnadmin verify /srv/svn/subversion-test

Upgrade Schema

Upgrade a repository’s data store to the latest version of the schema:

svnadmin upgrade /srv/svn/subversion-test

Back Up a Repository

In cases where you’re manipulating Subversion’s data store (e.g. an upgrade or moving to a new machine), it’s useful to create a dump of your Subversion repository to store as a backup. By default, this contains the full content of each commit.

  1. Create a directory to store your backups:

    mkdir /var/svn
    
  2. Create an svn dump:

    svnadmin dump /srv/svn/subversion-test > /var/svn/subversion-test-1259853077.svn
    

    In this example, the repository is located at /srv/svn/subversion-test and the dump file is located at /var/svn/subversion-test-1259853077.svn. To make it easier to organize, name your svn backups with file names that refer to the revision or time when the backup was created, as well as the name of the repository contained in the backup.

  3. You can also save your backups in an incremental format, which outputs the differences between revisions rather than full copies of each revision:

    svnadmin dump /srv/svn/subversion-test --incremental > /var/svn/subversion-test-1259853077.svn
    
  4. Create an empty repository:

    svnadmin create /srv/svn/subversion-test-backup
    
  5. Load the backup into the empty repository:

    svnadmin load /srv/svn/subversion-test-backup < /var/svn/subversion-test-1259853077.svn
    
    Note
    If you store critical information in a Subversion repository, you may wish to create backups automatically using a cron job.

Use Subversion for Version Control

By default, Subversion will track the version history for all of the files in a directory tree. Furthermore, Subversion does not specify or require any particular workflow or repository layout. However, many users organize their repositories into three directories:

  • trunk: Where core development and changes are stored. A full copy of the project’s source is located in the trunk directory.

  • tags: Where snapshots of specific revisions, versions, or other meaningful points in the project are kept for future reference. Tags are frequently used to mark release versions.

  • branches: Where copies of the project are stored in cases where developers need to track ongoing and potentially divergent revision histories. Branches are frequently used to manage the ongoing maintenance of legacy releases and host experimental development of new features.

Branches and tags are created using the svn copy command. Because Subversion tracks the history of a file independently of a filename or location on the file system, copies share history. As a result, branches and tags don’t increase the amount of space a repository consumes.

Subversion is a centralized version control system, which means that in order to perform version control operations on your local copy you need to have an active connection to the server that hosts the repository. While you can add, move, and delete files without a network connection, committing changes to the repository requires an active connection to the repository. By convention, the local copy of your repository is called the checkout and individual sets of changes are called commits.

Subversion also makes it possible for you to only check out portions of a repository. If you only need to work with the trunk portion of the repository, you can specify the URL to only that path of the repository.

Common Subversion Commands

If you have prior experience using a CVS, you may already be familiar with many of the commands used for interacting with Subversion repositories. Subversion aims to be compatible with CVS user workflows.

  • svn checkout [repository-path] or svn co [repository-path]. The [repository-path] refers to the location of the remote repository. You must provide the location of the repository in the form of a URL.

    If you want to check out the repository at a specific revision, use the -r [revision-number] option with the svn co command to specify a particular revision.

  • svn update or svn up downloads all changes and brings your copy up to date with any changes that have been committed since your last update. Run svn update frequently to avoid working on an out-of-date codebase and complicated commits.

  • svn commit saves the changes to the current checkout and creates a new commit on the server for this change-set. When invoked without arguments, this opens your default text editor so that you can enter a commit message. If you want to specify a commit message from the command line, use svn commit -m "[commit-message]".

  • svn add stages a previously untracked file for the next commit.

  • svn delete removes a file from the next commit and deletes it from the filesystem. This command should be used instead of your system’s rm command to allow Subversion to track the removal of files. Subversion also provides the svn rm and svn del commands, which are functionally identical to svn delete

  • svn copy creates a copy of a file in a new location and name in the repository. In these circumstances Subversion treats the history of both files (previous to the copy) as a single series of changes.

  • svn move moves the specified file or files to a new location while retaining the history, despite the change in file name. Functionally, this is equivalent to running the svn copy command followed by the svn delete command.

  • svn diff displays the differences between two revisions in the repository. Without any arguments it displays the differences between the current status of the working copy (i.e. checkout) and the latest version of the repository.

  • svn log generates and displays the revision history of the current directory in the filesystem. You may also specify a specific file name, for instance svn log roster.txt produces the revision history for the roster.txt file. You can also use svn log to access the revision history of a remote repository:

      svn log http://example.com/repos/subversion-test/files/txt/ roster.txt data.txt
    

    In this example, svn log displays the revision history of the files roster.txt and data.txt in the remote repository.

Access Subversion over HTTP

If you and your developers only need to access your repository over SSH with the ssh+svn:// protocols, skip the remainder of this guide.

If you need to access your repository over the http:// or https:// protocols, configure Apache to host your Subversion repository.

Install Apache and mod_dav_svn

Developers frequently access Subversion repositories via the SSH protocol and manage permissions and authentication credentials using OpenSSH and system user accounts. This can be difficult to manage if you are hosting a large number of repositories with a large number of users on a single server. For these cases, many users provide access to their repositories using the “WebDAV” protocol over HTTP or HTTPS with the Apache Web Server.

Install the Apache module mod_dav_svn:

  • Debian and Ubuntu:

    1. Install Apache:

      apt-get install libapache2-svn apache2
      
    2. Restart Apache:

      systemctl restart apache2
      
  • CentOS and Fedora:

      yum install mod_dav_svn httpd
    
  • Arch and Gentoo:

    mod_dav_svn is installed by default with the Apache package.

    Gentoo users will need to compile the subversion package with the following USE flags:

      USE="apache2 webdav-neon"
    

Configure Repository Permissions

To permit the Apache module mod_dav_svn to provide access to your Subversion repository, allow the web server process to access the repository.

On Debian and Ubuntu systems, Apache runs under the www-data user:

chown -R www-data /srv/svn/subversion-test

On CentOS and Fedora systems, Apache runs as apache or httpd:

chown -R apache /srv/svn/subversion-test
chown -R httpd /srv/svn/subversion-test

On Arch Linux, Apache runs under the nobody user:

chown -R nobody /srv/svn/subversion-test

Add a User Group

If local system accounts need to access the repository, add those users to the group that has ownership of the given files. The following example creates a new group and adds a number of users to a group. You can then change the group ownership of the repository as described above.

  1. Create a new group:

    groupadd svnuser
    
  2. Add the example users, user1, user2, and user3 to the svnuser group.\ (either create these users first with useradd or replace them with usernames already on your system):

    usermod -G svnuser user1
    usermod -G svnuser user2
    usermod -G svnuser user3
    
  3. Give the svnuser group ownership of the repository:

    chgrp -R svnuser /srv/svn/subversion-test
    
  4. In order to avoid permission conflicts with multiple users, set the sticky bit (+s) for the entire repository in a recursive (-R) fashion:

    chmod -R +s /srv/svn/subversion-test
    
    Important
    The sticky bit allows all users with access to the files (i.e. members of the group) to create files that are owned by the user or group that owns the directory, rather than by their own default user and group. This also allows users to execute scripts in these directories as the user that owns them, and thus poses a potential security risk. See our Linux Users and Groups guide for more information.

Configure the Apache Web Server

This section demonstrates configuration for Debian and Ubuntu systems. Similar steps will work on other distributions. Please adjust accordingly.

In this example, subversion-test corresponds to the name of the repository, and /srv/www/svn.example.com is a directory distinct from your Subversion repositories. Maintaining a separate htpasswd for each repository hosted on your Linode makes sense if each repository is used by a distinctly different set of users. Conversely, if each repository that you administer is used by a subset of a larger group of users you may wish to configure user groups to organize your users’ access.

  1. Enable the mod_dav_svn and mod_dav Apache modules. This will make it possible to use the WebDAV system to access the Subversion repository.

    a2enmod dav
    a2enmod dav_svn
    
  2. Restart Apache:

    systemctl restart apache2
    
  3. Configure HTTP AUTH passwords for Subversion users. You can read more about HTTP AUTH in our Apache Authentication guide. Store your htpasswd file for your Subversion repositories in a location such as:

    /srv/www/svn.example.com/subversion-test.htpasswd
    

Manage a Single Repository

  1. In a text editor, open /etc/apache2/sites-available/svn.example.com.conf and add the following content. Replace svn.example.com with the public IP address or FQDN of your Linode:

    File: /etc/apache2/sites-available/svn.example.com.conf
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    <VirtualHost *:80>
      ServerAdmin svnadmin@example.com
      ServerName svn.example.com
      ErrorLog /srv/www/svn.example.com/logs/error.log
      CustomLog /srv/www/svn.example.com/logs/access.log combined
    
      <Location />
        DAV svn
        SVNPath /srv/svn/subversion-test
        AuthType Basic
        AuthName "Subversion Repository"
        AuthUserFile /srv/www/svn.example.com/subversion-test.htpasswd
        Require valid-user
      </Location>
    </VirtualHost>

    This configuration forwards all requests for http://svn.example.com/ to mod_dav_svn. This will provide an overview of the most recent revision of the repository within a web browser. Note that this setup provides unencrypted access to your repository over http.

  2. For a secure connection, configure Apache to serve content with SSL. Once your certificate files are in place, configure the virtual host to respond to requests on port 443 rather than 80:

    File: /etc/apache2/sites-available/svn.example.com.conf
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    <VirtualHost *:443>
      ServerAdmin svnadmin@example.com
      ServerName svn.example.com
      ErrorLog /srv/www/svn.example.com/logs/error.log
      CustomLog /srv/www/svn.example.com/logs/access.log combined
    
      SSLEngine On
      SSLCertificateFile /etc/apache2/ssl/apache.pem
      SSLCertificateKeyFile /etc/apache2/ssl/apache.key
    
      <Location />
        DAV svn
        SVNPath /srv/svn/subversion-test
        AuthType Basic
        AuthName "Subversion Repository"
        AuthUserFile /srv/www/svn.example.com/subversion-test.htpasswd
        Require valid-user
      </Location>
    </VirtualHost>
  3. Create the log file directory specified in the virtual host block:

    mkdir /srv/www/svn.example.com/logs/
    
  4. Disable the default site and enable the new site configuration:

    a2dissite 000-default.conf
    a2ensite svn.example.com
    
  5. Restart Apache:

    systemctl restart apache2
    
  6. Navigate to your Linode’s IP or FQDN in a web browser; you should see a brief overview of the most recent version in your web browser.

Manage Multiple Repositories

There are two methods for specifying Subversion repositories to mod_dav_svn. The first is using the SVNParentPath. This directive is useful if you need to provide multiple repositories, located in adjacent directories. For example:

File: /etc/apache2/sites-available/svn.example.com.conf
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<VirtualHost *:80>
    ServerAdmin svnadmin@example.com
    ServerName svn.example.com
    ErrorLog /srv/www/svn.example.com/logs/error.log
    CustomLog /srv/www/svn.example.com/logs/access.log combined
    <Location />
        DAV svn
        SVNParentPath /srv/svn
        AuthType Basic
        AuthName "Subversion Repository"
        AuthUserFile /srv/www/svn.example.com/shared.htpasswd
        Require valid-user
    </Location>
</VirtualHost>

All repositories located within /srv/svn on the file system will be accessible over HTTP at URLs that begin with http://svn.example.com/.

As another option, you can specify multiple repositories using the SVNPath directive in multiple location blocks. In the following example, the Subversion repository located on the file system at /srv/svn/subversion-test will be accessible over HTTP at the URL http://example.com/subversion-test, while the repository at /srv/svn/subversion-test will be accessible at http://example.com/subversion-test. In this example each repository will use a separate set of user credentials.

File: /etc/apache2/sites-available/svn.example.com.conf
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<VirtualHost *:80>
    ServerAdmin admin@example.com
    ServerName example.com
    ServerAlias www.example.com

    DocumentRoot /srv/www/example.net/public_html/
    ErrorLog /srv/www/example.com/logs/error.log
    CustomLog /srv/www/example.com/logs/access.log combined

    <Location /subversion-test>
        DAV svn
        SVNPath /srv/svn/subversion-test
        AuthType Basic
        AuthName "Morris Subversion Repository"
        AuthUserFile /srv/www/example.com/subversion-test.htpasswd
        Require valid-user
    </Location>
    <Location /subversion-test>
        DAV svn
        SVNPath /srv/svn/subversion-test
        AuthType Basic
        AuthName "Molly Subversion Repository"
        AuthUserFile /srv/www/example.com/subversion-test.htpasswd
        Require valid-user
    </Location>
</VirtualHost>

Provide Read-Only Access

All of the preceding cases have required that a user log in before accessing your repository. If you would like to allow read only public access to your repository, add LimitExcept blocks to your virtual hosts:

File: Apache Virtual Host Configuration
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<VirtualHost *:80>
   ServerAdmin svnadmin@example.com
   ServerName svn.example.com
   ErrorLog /srv/www/svn.example.com/logs/error.log
   CustomLog /srv/www/svn.example.com/logs/access.log combined

   <Location />
       DAV svn
       SVNPath /srv/svn/subversion-test
       AuthType Basic
       AuthName "Subversion Repository"
       AuthUserFile /srv/www/svn.example.com/subversion-test.htpasswd
       <LimitExcept GET PROPFIND OPTIONS REPORT>
           Require valid-user
       </LimitExcept>
   </Location>
</VirtualHost>

More Information

You may wish to consult the following resources for additional information on this topic. While these are provided in the hope that they will be useful, please note that we cannot vouch for the accuracy or timeliness of externally hosted materials.

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