This page describes how to set up a web server on a Linux machine. If you are unfamiliar with using Linux from the command line, you should read the Linux guide first.
- 1 SSH
- 2 SUDO Users
- 3 Apache
When connecting as an administrator to your machine over the internet or intranet, you will most likelly be using ssh (secure shell). SSH access requires that the sshd daemon is running in your machine.
By default, SSH is preinstalled on your EC2 instance. If you are not using an EC2 instance, simply install it from yum or aptitude.
Normally, you can SSH into your machine with one of two ways: you can use traditional username/password authentication, or you can use a public/private key pair. A public/private key pair is generally considered to be more secure, but it requires that you always have access to your private key file when you want to log into your remote machine. By default, EC2 instances allow only public/private key pair authentication. You can enable password-based authentication by changing the PaswordAuthentication option in /etc/ssh/sshd_config to yes:
SSH Server Configuration
The configuration files for SSH are in /etc/ssh. You can modify the files to affect SSH permissions, among other things. For example, it is always a good idea to disable root access over ssh. This could be done by editing /etc/ssh/sshd_config and setting
For more detail on editing files on the command line, see the Linux guide.
Note that you must restart the ssh process for this to take effect. Should that fail, rebooting your server should do the trick.
Warning: Disabling root access over SSH for your EC2 instance should only be done after setting up an additional user account and adding that account to the sudoers list.
SSH Client Configuration
Unix-Based Systems (including Mac OS X)
Mac OS X is based on BSD, a flavor of Unix. As such, Mac OS X comes pre-built with all the tools you need to use SSH! Simply fire up Terminal and enter the command
To use SSH with a key pair, use the command
ssh -i /path/to/key.pem username@hostname
Non-Unix-Based Systems (including Microsoft Windows)
Unfortunately, using SSH with Windows is more complicated. It is necessary to install an SSH client to support the connections. A widely used SSH client for Windows is PuTTY. You can download PuTTY from http://www.chiark.greenend.org.uk/~sgtatham/putty/
PuTTY is fairly simple and straight forward with one caveat: Amazon's .pem key pair files are not compatible with PuTTY keys. In order to convert .pem keys to a PuTTY .ppk privte key file, you should use the puttygen.exe utility available from the same page  as PuTTY. Next select import under the conversions menu,load the amazon .pem key file and press the save private key button. Be sure to save the file in the directory where PuTTY looks for its keys.
Copy and paste works similarly to the X Window System in Unix. You use the left mouse button to select text in the PuTTY window. The act of selection automatically copies the text to the clipboard: there is no need to press Ctrl-Ins or Ctrl-C or anything else. In fact, pressing Ctrl-C will send a Ctrl-C character to the other end of your connection (just like it does the rest of the time), which may have unpleasant effects. The only thing you need to do, to copy text to the clipboard, is to select it.
To paste the clipboard contents into a PuTTY window, by default you click the right mouse button. If you have a three-button mouse and are used to X applications, you can configure pasting to be done by the middle button instead, but this is not the default because most Windows users don't have a middle button at all.
Also, here is a good PuTTY tutorial that you might find useful to get started: http://kb.mediatemple.net/questions/1595/Using+SSH+in+Putty+%28Windows%29
SSHFS is a filesystem client which allows secure mounting of remote file systems. While there are other ways to mount remote file systems, SSHFS has the advantage of being able to mount a file system located on any host that has an SSH daemon running without any host side installation or configuration. This means that you can easily access and edit your files using all of your local applications including IDEs.
As you may have inferred from the name, the underlying implementation utilizes SSH File Transfer Protocol in combination with FUSE, a package now included in the kernel that allows unprivileged users to easily create their own file systems in userspace (see the wikipedia entry for more information ).
To mount a share using password based authentication, the command is
sshfs user@domain:/path/to/remote/directory /path/to/local/mountpoint
e.g. To mount the directory /home/joe/myfiles in the user joe's home directory for a machine with the domain schmoesfiles.org using SSHFS you would enter the command
Note that if you are using public key authentication, the command to mount the remote share is slightly different
sshfs -o IdentityFile=/path/to/private/key user@domain:/path/to/remote/directory /path/to/local/mountpoint
To unmount the filesystem you can use the following command
fusermount -u /path/to/local/mountpoint
Any server running an SSH server is also compatible with SFTP or Secure File Transfer Protocol. (Compare to FTP, or File Transfer Protocol.)
You can use SFTP from the command line, or you can use any GUI file transfer client. All FTP clients I have seen also support SFTP. One popular FTP client is Filezilla.
For security reasons, you should never SSH into your server as the root user. Instead, you should use a normal user to whom you give sudo privileges. (For more detail on sudo, see the Linux guide.)
When you create an Amazon EC2 instance, the user you set up initially is already given SUDO privileges. If you want to give more users SUDO privileges, use the command visudo, which opens up the SUDO configuration file in the system's default text editor. (Never edit the file /etc/sudoers directly!) SUDO users are specified using lines similar to
alice ALL=(ALL) ALL
In this case, Alice can run any command as SUDO privileges on the computer. For more detail on SUDO configuration, see http://www.linuxhelp.net/guides/sudo/
Apache is the industry standard web server for Linux distributions. It is highly configurable and has a wide range of modules ready for different needs.
What is a web server?
A web server is software that listens for connections to your machine, and when a connection is receive, processes the request and responds with the appropriate information. Most web servers listen on port 80, which is reserved for the purpose, and use the HTTP protocol.
For example, when you visit this wiki, you are sending a request over the internet to some machine that is probably located somewhere in EIT (the user seldom knows exactly where the machine is located). The web server receives your request, and it processes the data you sent. Finally, the server prepares a response (the web page), and sends it back to you.
In yum, Apache is distributed under the package name httpd (for hypertext transfer protocol daemon). In aptitude, it is distributed under the name apache2. Use the package manager associated with your distribution to install Apache. (For more information on how to use yum and aptitude, see the Linux guide.)
When Apache is installed through yum or aptitude, the HTTP Daemon will be automatically to added as a startup item.
In RHEL, all Apache configurations are stored in /etc/httpd/httpd.conf. Debian takes a more modular approach, having separate directories for each type of configuration, all located in /etc/apache2/. For more detail on Debian's approach, see http://www.control-escape.com/web/configuring-apache2-debian.html
You define your settings for Apache using directives. Some of the directives you will likely encounter include:
- DocumentRoot: The path to the directory where the top level web files are going to be stored.
- IfModule: The following block would be included if specified module exists.
- User: Which user apache2 will run as.
- Group: Which group will have group access to default web files.
- AccessFileName: The name of the access file (that specifies user names/passwords and other limitations to files/directories).
- ErrorLog: Where any errors will be written.
- Include: Include some other files.
- LogFormat: How to write a log message.
- ErrorDocument: Files to display for some HTTP errors (500, 404, 402 etc.).
- Alias: Map a directory URL to some other location on your filesystem. Requires that the Alias module be loaded.
You can also specify some Apache configurations without delving into the master configuration file. To do this, put a file named .htaccess in any directory that Apache is serving. All directives in it will be interpreted as if they were in a Directory directive in the master configuration file.
Note: The directory containing .htaccess must not have the AllowOverride None directive in the master configuration file in order for .htaccess to be read. (In Debian, AllowOverride None is enabled by default!)
Use the Directory directive to assign other directives to a specific directory. For example:
<Directory /var/www/> Options Indexes FollowSymLinks AllowOverride None Order allow,deny allow from all RedirectMatch ^/$ /apache2-default/ </Directory>
This sets options for the /var/www directory.
- The Options directive says that:
- If no index page is present in a directory, display a directory index page instead
- Apache will follow symbolic links in the directory
- AllowOverride None says that .htaccess files cannot alter the Apache options in this directory and all sub-directories
- Order allow,deny and Allow from all specifies that anybody is allowed to access this server via HTTP.
Note that this directory is actually the root directory of the web server.
Apache records all access attempts and errors associated with your server in log files. It is useful to check your access logs to ensure that things are subbing smoothly and that, for example, you aren't experiencing any denial-of-service-like attacks on your server.
In RHEL, the Apache logs are located in /var/log/httpd. In Debian, the Apache logs are located in /var/log/apache2.
Virtual Hosts are used to run multiple Apache web servers from the same machine. Virtual hosts can listen for connections on different ports and/or different hostnames, serving completely different web sites to each. For example:
<VirtualHost cse330.dyndns.org> ServerAdmin webmaster@localhost ServerName cse330.dyndns.org DocumentRoot /home/www/cse330/ ErrorLog /var/log/httpd/error_log LogLevel warn CustomLog /var/log/apache2/access_log combined ServerSignature On </VirtualHost>
This configuration enables any requests that use a host name of cse330.dyndns.org will use /home/www/cse330 as the root document directory. Make sure that the DocumentRoot directory exists and is readable by the httpd process. In RHEL, Apache runs as the apache user. In Debian, it runs as the www-data user.
It is good practice to put raw server configuration files in /etc/httpd/sites-available in RHEL or /etc/apache2/sites-available in Debian. To activate a site, create a symlink from the configuration in sites-available to a sibling directory called sites-enabled. In Debian, these directories are already set up for you, and Debian Apache even provides the a2ensite and a2dissite commands to create or destroy the symlinks! In RHEL, you have to do this by hand.
Whenever you make changes to the Apache configuration files, you will need to restart Apache for the changes to take effect. There are several different ways to restart Apache; they all do the same thing, so choose your favorite:
$ /etc/init.d/httpd restart $ /sbin/service httpd restart $ service httpd restart # if /sbin is in your PATH $ /usr/sbin/apachectl restart $ apachectl restart # if /usr/sbin is in yoru PATH
Note: restart performs a hard restart of Apache. To perform a soft restart, use graceful instead (e.g.
apachectl graceful). To only reload the configuration files but not restart the server, use reload (e.g.