Using lighttpd Web Server on Ubuntu 16.04 (Xenial Xerus)

Select distribution:
Traducciones al Español
Estamos traduciendo nuestros guías y tutoriales al Español. Es posible que usted esté viendo una traducción generada automáticamente. Estamos trabajando con traductores profesionales para verificar las traducciones de nuestro sitio web. Este proyecto es un trabajo en curso.
Deprecated

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

Lighttpd provides a lightweight web server that is capable of serving large loads while using less memory than servers like Apache. It is commonly deployed on high traffic sites, including WhatsApp and xkcd.

This guide explains how to install and configure the lighttpd (“lighty”) web server on Ubuntu 16.04 (Xenial Xerus). Consult the resources at the end for more information about deploying other services commonly found in web server stacks.

Before You Begin

  1. Familiarize yourself with and complete the Setting Up and Securing a Compute Instance , setting your Linode’s hostname and timezone.

  2. Lighttpd is a network-facing service and failing to secure your server may expose you to vulnerabilities. Consult the Securing Your Server Guide to create a standard user account, harden SSH access and remove unnecessary network services.

  3. If you’re switching from a different web server like Apache, remember to turn off the other server for testing purposes, or configure lighttpd to use an alternate port until it’s configured properly.

  4. Update your system:

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

How To Install Lighttpd Web Server On Ubuntu 16.04

Install the server from the Ubuntu package repository:

sudo apt-get install lighttpd

After the server is installed, make sure that the server is running and is enabled. Visit http://192.0.0.0:80 in your browser, replacing 192.0.0.0 with your Linode’s IP address. If you configured lighttpd to run on an alternate port for testing, be sure to replace 80 with this port. You’ll see a placeholder page for lighttpd that contains some important information:

  • Configuration files are located in /etc/lighttpd.
  • By default, the DocumentRoot (where all HTML files are stored) is located in the /var/www directory. You can configure this later.
  • Ubuntu provides helper scripts to enable and disable server modules without directly editing the config file: lighty-enable-mod and lighty-disable-mod.

Configure Lighttpd Web Server

The main lighttpd configuration file is located at /etc/lighttpd/lighttpd.conf. This file provides a list of server modules to be loaded and allows you to change global settings for the web server.

The first directive in the configuration is server.modules, which lists modules to be loaded upon starting or reloading the lighttpd server. To disable a module, add a # at the beginning of the corresponding line to comment it out. Remove the # to enable the module. Modules can also be added to this list. For example, in the default file, you can enable the mod_rewrite (rewriting URL requests) module by uncommenting the appropriate line, or add mod_auth to enable the authentication module. Note that these modules are loaded in the order they appear.

Following the server.modules block is a list of other settings to configure the server and its modules. Most directives are self-explanatory, but not all available options are listed by default and you may want to add them, depending on your needs. A few performance settings you may want to add yourself include:

  • server.max-connections - Specifies how many concurrent connections are supported
  • server.max-keep-alive-requests - Sets the maximum number of requests within a keep alive session before the connection is terminated
  • server.max-worker - Specifies the number of worker processes to spawn. If you’re familiar with Apache, a worker is analogous to a child process.
  • server.bind - Defines the IP address, hostname, or path to the socket lighttpd will listen on. Multiple lines can be created to listen on different IP addresses. The default setting is to bind to all interfaces.

Some settings depend on certain modules. For example, url.rewrite requires that mod_rewrite be enabled because it is specific to that module. However, for ease of use, most modules have their own configuration files and can be enabled and disabled using command line rather than by editing the configuration file.

Enable and Disable Modules via Command Line

For ease of use, you may wish to enable and disable modules using the command line. Lighttpd provides a simple method to do this, so the configuration need not be edited every time a new module is needed.

Run lighty-enable-mod from the command line to see a list of available modules and a list of already enabled modules, as well as a prompt to enable a module. This can also be accomplished in one line command. For example, to enable the auth authentication module:

sudo lighty-enable-mod auth

This command creates a symbolic link to the configuration file of the module in /etc/lighttpd/conf-enabled, which is read by a script in the main configuration file. To edit the configuration for a specific module, look for its .conf file in /etc/lighttpd/conf-available.

There are many additional modules that are included in separate Ubuntu packages. Some useful ones are:

  • lighttpd-mod-mysql-vhost - Manages virtual hosts using a MySQL database. This module works well when you need to manage a large number of virtual hosts
  • lighttpd-mod-webdav - Supports WebDAV extensions to HTTP for distributed authoring of HTTP resources
  • lighttpd-mod-magnet - Controls the request handling module

When you have installed these packages you can enable them using lighty-enable-mod.

Restart lighttpd to load changes:

sudo systemctl restart lighttpd.service

For a comprehensive list of available options and modules, refer to the lighttpd documentation of the project on configuration options .

Virtual Host Setup with Simple Vhost

This section covers configuration for simple virtual hosting. The simple-vhost module allows you to set up virtual hosts with respective document roots in user-defined folders named for the domains, below a server root. Ensure that all other virtual hosting modules are turned off before proceeding.

  1. Enable simple-vhost:

    sudo lighty-enable-mod simple-vhost
    
  2. Restart lighttpd to load the changes:

    sudo systemctl restart lighttpd.service
    
  3. Modify the following settings in the /etc/lighttpd/conf-available/10-simple-vhost.conf file:

    File: /etc/lighttpd/conf-available/10-simple-vhost.conf
    1
    2
    3
    
    simple-vhost.server-root = "/var/www/html"
    simple-vhost.document-root = "htdocs"
    simple-vhost.default-host = "example.com"

    The server-root defines the base directory under which all virtual host directories are created.

    The document-root defines the subdirectory under the host directory that contains the pages to be served. This is comparable to the public_html directory in some Apache configurations, but is called htdocs in the above configuration.

    If lighttpd receives a request and cannot find a matching directory, it serves content from the default-host.

    In the above configuration, requests are checked against existing directory names within /var/www/html. If a directory matching the requested domain exists, the result is served from the corresponding htdocs. If it doesn’t exist, content is served from htdocs within the default-host directory.

    To clarify this concept, suppose that /var/www/html contains only the directories exampleA.com and example.com, both of which contain htdocs folders with content:

    • If a request is made for the URL exampleA.com, content is served from /var/www/html/exampleA.com/htdocs.
    • If a request is made for a URL which resolves to the server, but does not have a directory, content is served from /var/www/html/example.com/htdocs, because example.com is the default host.

    For subdomains, create host directories for each subdomain in the same way. For instance, to use exampleSub as a subdomain of exampleA.com, create a directory called exampleSub.exampleA.com with a htdocs directory for content. Be sure to add DNS records for any subdomains you plan to use.

  4. Restart the web server again to reload changes:

    sudo systemctl restart lighttpd.service
    

For more examples, consult the lighttpd official documentation .

Virtual Host Setup with Enhanced Vhost

Enhanced virtual hosting works slightly differently than Simple by building the document root based on a pattern containing wildcards. Be sure that all other virtual hosting modules are disabled before beginning.

  1. Run the following command to enable the enhanced virtual hosting module:

    sudo lighty-enable-mod evhost
    
  2. Restart lighttpd to load the configuration changes:

    sudo systemctl restart lighttpd.service
    
  3. To accomplish the same directory structure with evhost as with simple-vhost above, you need to modify the /etc/lighttpd/conf-available/10-evhost.conf file:

    File: /etc/lighttpd/conf-available/10-evhost.conf
    1
    
    evhost.path-pattern = "/var/www/html/%0/htdocs/"
  4. Modify the server.document-root in the main lighttpd configuration file:

    File: /etc/lighttpd/lighttpd.conf
    1
    
    server.document-root = "/var/www/html/example.com/htdocs"

    With the configuration you set in Steps 3 and 4, if example.com is requested, and /var/www/html/example.com/htdocs/ is found, that directory becomes the document root when serving requests. The 0% in the path pattern specifies that a request will be checked against host files named in the format of domain and Top Level Domain (TLD). The server.document-root directive specifies a default host that is used when a matching directory does not exist.

    Important
    These steps configure server.document-root to /var/www/html. According to lighttpd documentation, this may expose your server to a vulnerability in which authentication can be bypassed in certain situations. If improperly configured, this may also redirect unmatched requests to the lighttpd index page rather than the default host of your choosing.
  5. Restart lighttpd to load the configuration changes:

    sudo systemctl restart lighttpd.service
    

The naming convention for these virtual hosts is derived from the domain names. Take the following web address as an example: http://exampleSub2.exampleSub.exampleA.com/ We read domain names from highest level on the right, to lowest on the left. So com is the TLD, exampleA is the domain, exampleSub is the subdomain 1 name, and exampleSub2 is the subdomain 2 name.

To modify the host directory format lighttpd recognizes, define the pattern that gets passed to the directory in which the content lives. The following table shows what host directory format is used as the document root for each pattern. It also shows which host file will be used to serve content, using the above URL as an example request:

PatternHost Directory FormatDocument Root Path
%0Domain name and TLD/var/www/html/example.com/htdocs
%1TLD only/var/www/html/com/htdocs
%2Domain name without TLD/var/www/html/example/htdocs
%3Subdomain 1 name/var/www/html/exampleSub/htdocs
%4Subdomain 2 name/var/www/html/exampleSub2/htdocs
%_Full domain name/var/www/html/exampleSub2.exampleSub.example.com/htdocs

Create Virtual Host Directories

Whether using simple-vhost or evhost, you need to create directories before lighttpd can use them to serve content. After the required directives are configured, create the required directories, replacing example.com with your domain name:

sudo mkdir -p /var/www/html/example.com/htdocs/

The following command creates two additional virtual hosts for .net and .org top level domains:

sudo mkdir -p /var/www/html/{example.net/htdocs,example.org/htdocs}

The following command creates two additional virtual hosts for the subdomains from the evhost example:

sudo mkdir -p /var/www/html/{exampleSub/htdocs,exampleSub2/htdocs}

Virtual Hosting Best Practices

The way you set up virtual hosting on the web server depends upon what kind of sites you host, their traffic, the number of domains, and their workflows. We recommend hosting all of your domains in a centralized directory (/var/www/html) and then symbolically linking these directories into more useful locations.

For instance, you can create a series of web editor user accounts. You may then link the document root of each domain into a folder in the home folder of the editor for that domain. For the user account example-user that manages the example.com site:

sudo ln -s /home/example-user/example.com/ /var/www/html/example.com

You can also use symbolic links to cause multiple virtually hosted domains to host the same files. For example, to get example.org to point to example.com’s files, create the following link:

sudo ln -s /var/www/html/example.org/ /var/www/html/example.com

No matter what you decide, Linode recommends developing a systematic method for organizing virtual hosting to simplify any modifications to your system.

Run Scripts with FastCGI

If you need your web server to execute dynamic content, you may run these scripts using FastCGI. To run a script, FastCGI externalizes the interpreter from the web server rather than running the scripts inside the web server. This is in contrast to approaches such as mod_perl, mod_python, and mod_php, but in high-traffic situations this way is often more efficient.

To set up FastCGI, make sure that an interpreter is installed on your system for your language of choice:

To install Python:

sudo apt-get install python

To install Ruby:

sudo apt-get install ruby

To install PHP 7 for CGI interfaces:

sudo apt-get install php7.0-cgi

Perl version 5.22.1 is included in Ubuntu 16.04 by default. Depending on the software you intend to run, you may need to install and set up a database system as well.

Lighttpd sends CGI requests to CGI handlers on the basis of file extensions, which can be forwarded to individual handlers. You may also forward requests for one extension to multiple servers and lighttpd automatically load balances these FastCGI connections.

For example, if you install the php7.0-cgi package and enable FastCGI with lighty-enable-mod fastcgi-php then a default FastCGI handler is configured in the file /etc/lighttpd/conf-enabled/15-fastcgi-php.conf. Though the handler likely requires specific customization, the default settings offer an effective example:

File: /etc/lighttpd/conf-enabled/15-fastcgi-php.conf
 1
 2
 3
 4
 5
 6
 7
 8
 9
10
11
12
13
14
15
fastcgi.server   += ( ".php" =>
        ((
                "bin-path" => "/usr/bin/php-cgi",
                "socket" => "/var/run/lighttpd/php.socket",
                "max-procs" => 1,
                "bin-environment" => (
                        "PHP_FCGI_CHILDREN" => "4",
                        "PHP_FCGI_MAX_REQUESTS" => "10000"
                ),
                "bin-copy-environment" => (
                        "PATH", "SHELL", "USER"
                ),
                "broken-scriptfilename" => "enable"
        ))
)

To map more than one file extension to a single FastCGI handler, add the following entry to your configuration file:

File: /etc/lighttpd/conf-enabled/15-fastcgi-php.conf
1
fastcgi.map-extensions = ( ".[ALT-EXTENSION]" => ".[EXTENSION]" )

How To Encrypt Lighttpd Configuration On Ubuntu 16.04?

Let’s add an additional layer of security to our lighttpd config by encrypting it on Ubuntu 16.04. You can use Certbot to encrypt SSL certificates. To start with encrypting your lighttpd config, you first have to install Certbot, you can install it by running the following command:

sudo apt-get update
sudo apt-get install certbot

In the example,“example.com” as the domain. To get a certificate for “example.com”, use the command certbot certonly --webroot <add your arguments here>.

sudo certbot certonly --webroot -w /var/www/html -d example.com -d www.example.com

When you run certbot certonly, it obtains SSL certificate for example.com

Configuring lighttpd with SSL certificate

Your SSL certificate files are located at /etc/letsencrypt/live/example.com. Use chown command to allow lighttpd access to this directory by running the following commands:

sudo chown :www-data /etc/letsencrypt
sudo chown :www-data /etc/letsencrypt/live
sudo chmod g+x /etc/letsencrypt
sudo chmod g+x /etc/letsencrypt/live

After access permissions are in place, you can run the following commands to merge cert.pem and privkey.pem files into lighttpd_merged.pem:

sudo cat /etc/letsencrypt/live/example.com/privkey.pem /etc/letsencrypt/live/example.com/cert.pem > /etc/letsencrypt/live/example.com/lighttpd_merged.pem

Now, you need to add the following lines to the lighttpd config file (lighttpd.conf):

File: lighttpd.conf
1
2
3
4
5
$SERVER["socket"] == ":443" {
    ssl.engine = "enable"
    ssl.pemfile = "/etc/letsencrypt/live/example.com/chain.pem"
    ssl.ca-file = "/etc/letsencrypt/live/example.com/lighttpd_merged.pem"
}
You also need to force Lighttpd server to use SSL. And finally, add the following code to the lighttpd.conf file to enable SSL usage:

File: lighttpd.conf
1
2
3
4
5
$HTTP["scheme"] == "http" {
    $HTTP["host"] =~ ".*" {
        url.redirect = (".*" => "https://%0$0")
    }
}

Now, the lighttpd.conf file should look something like this:

File: lighttpd.conf
 1
 2
 3
 4
 5
 6
 7
 8
 9
10
11
12
13
14
15
16
17
fastcgi.server = ( ".php" => ((
                        "bin-path" => "/usr/bin/php5-cgi",
                        "socket" => "/tmp/php.socket"
                 )))

$SERVER["socket"] == ":443" {
    ssl.engine = "enable"
    ssl.pemfile = "/etc/letsencrypt/live/example.com/chain.pem"
    ssl.ca-file = "/etc/letsencrypt/live/example.com/lighttpd_merged.pem"
}
$HTTP["scheme"] == "http" {
    $HTTP["host"] =~ ".*" {
        url.redirect = (".*" => "https://%0$0")
    }
}

server.max-keep-alive-requests = 0

After you save this new Lighttpd configuration, restart the Lighttpd server in order for this new configuration to apply.

How Do You Restart A Lighttpd Server?

You can restart Lighttpd server using the systemctl restart command:

systemctl restart lighttpd

How Do I Stop Lighttpd On Ubuntu?

In order to stop a Lighttpd server running on Ubuntu 16.04, you can use the following sys v style script:

/etc/init.d/lighttpd stop

You can also use the following command to kill all Lighttpd processes:

killall lighttpd

To specifically kill a user specific process, you can use the -u and add a username as shown in the command below:

pkill -KILL -u linode_httpd_user_1 lighttpd

When you run this command, it kills all Lighttpd processes specific to linode_httpd_user_1.

Things to Keep in Mind

While lighttpd is an effective and capable web server there are two caveats regarding its behavior:

Server side includes, which allows you to dynamically include content from one file in another, do not function in lighttpd in the same way as they do in Apache’s mod_ssi. While it is an effective method for quickly assembling content, lighttpd’s script handling via SSI is not a recommended work flow. See lighttpd project documentation on mod_ssi .

Because of the way FastCGI works, running web applications with lighttpd requires additional configuration, particularly for users who are writing applications using interpreters embedded in the web server (mod_perl, mod_python, mod_php). For more information, consult the lighttpd project documentation on optimizing FastCGI performance .

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.

This page was originally published on


Your Feedback Is Important

Let us know if this guide was helpful to you.


Join the conversation.
Read other comments or post your own below. Comments must be respectful, constructive, and relevant to the topic of the guide. Do not post external links or advertisements. Before posting, consider if your comment would be better addressed by contacting our Support team or asking on our Community Site.
The Disqus commenting system for Linode Docs requires the acceptance of Functional Cookies, which allow us to analyze site usage so we can measure and improve performance. To view and create comments for this article, please update your Cookie Preferences on this website and refresh this web page. Please note: You must have JavaScript enabled in your browser.