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This guide gives a basic introduction to nginx and describes some simple tasks that can be done with it. It is supposed that nginx is already installed on the reader’s machine. If it is not, see the Installing nginx page. This guide describes how to start and stop nginx, and reload its configuration, explains the structure of the configuration file and describes how to set up nginx to serve out static content, how to configure nginx as a proxy server, and how to connect it with a FastCGI application.
nginx has one master process and several worker processes. The main purpose of the master process is to read and evaluate configuration, and maintain worker processes. Worker processes do actual processing of requests. nginx employs event-based model and OS-dependent mechanisms to efficiently distribute requests among worker processes. The number of worker processes is defined in the configuration file and may be fixed for a given configuration or automatically adjusted to the number of available CPU cores (seeworker_processes).
The way nginx and its modules work is determined in the configuration file. By default, the configuration file is named nginx.conf
and placed in the directory /usr/local/nginx/conf
, /etc/nginx
, or /usr/local/etc/nginx
.
To start nginx, run the executable file. Once nginx is started, it can be controlled by invoking the executable with the -s
parameter. Use the following syntax:
nginx -s <em>signal</em>
Where signal may be one of the following:
stop
— fast shutdownquit
— graceful shutdownreload
— reloading the configuration filereopen
— reopening the log filesFor example, to stop nginx processes with waiting for the worker processes to finish serving current requests, the following command can be executed:
nginx -s quit
This command should be executed under the same user that started nginx.
Changes made in the configuration file will not be applied until the command to reload configuration is sent to nginx or it is restarted. To reload configuration, execute:
nginx -s reload
Once the master process receives the signal to reload configuration, it checks the syntax validity of the new configuration file and tries to apply the configuration provided in it. If this is a success, the master process starts new worker processes and sends messages to old worker processes, requesting them to shut down. Otherwise, the master process rolls back the changes and continues to work with the old configuration. Old worker processes, receiving a command to shut down, stop accepting new connections and continue to service current requests until all such requests are serviced. After that, the old worker processes exit.
A signal may also be sent to nginx processes with the help of Unix tools such as the kill
utility. In this case a signal is sent directly to a process with a given process ID. The process ID of the nginx master process is written, by default, to
the nginx.pid
in the directory /usr/local/nginx/logs
or /var/run
. For example, if the master process ID is 1628, to send the QUIT signal resulting in nginx’s graceful shutdown, execute:
kill -s QUIT 1628
For getting the list of all running nginx processes, the ps
utility may be used, for example, in the following way:
ps -ax | grep nginx
For more information on sending signals to nginx, see Controlling nginx.
nginx consists of modules which are controlled by directives specified in the configuration file. Directives are divided into simple directives and block directives. A simple directive consists of the name and parameters separated by spaces and ends with a
semicolon (;
). A block directive has the same structure as a simple directive, but instead of the semicolon it ends with a set of additional instructions surrounded by braces ({
and}
). If a block directive can have other
directives inside braces, it is called a context (examples: events, http,server,
and location).
Directives placed in the configuration file outside of any contexts are considered to be in the main context. Theevents
and http
directives reside in the main
context, server
in http
,
and location
in server
.
The rest of a line after the #
sign is considered a comment.
An important web server task is serving out files (such as images or static HTML pages). You will implement an example where, depending on the request, files will be served from different local directories: /data/www
(which may contain HTML files)
and /data/images
(containing images). This will require editing of the configuration file and setting up of a server block inside the http block
with two location blocks.
First, create the /data/www
directory and put an index.html
file with any text content into it and create the/data/images
directory and place some images in it.
Next, open the configuration file. The default configuration file already includes several examples of the server
block, mostly commented out. For now comment out all such blocks and start a new server
block:
http { server { } }
Generally, the configuration file may include several server
blocks distinguished by ports on which they listento
and by server names. Once nginx decides which server
processes a request, it tests the URI specified in the request’s header against the parameters of the location
directives
defined inside the server
block.
Add the following location
block to the server
block:
location / { root /data/www; }
This location
block specifies the “/
” prefix compared with the URI from the request. For matching requests, the URI will be added to the path specified in the root directive,
that is, to /data/www
, to form the path to the requested file on the local file system. If there are several matching location
blocks nginx selects the one with the longest prefix. The location
block above provides the
shortest prefix, of length one, and so only if all otherlocation
blocks fail to provide a match, this block will be used.
Next, add the second location
block:
location /images/ { root /data; }
It will be a match for requests starting with /images/
(location /
also matches such requests, but has shorter prefix).
The resulting configuration of the server
block should look like this:
server { location / { root /data/www; } location /images/ { root /data; } }
This is already a working configuration of a server that listens on the standard port 80 and is accessible on the local machine at http://localhost/
. In response to requests with URIs starting with /images/
, the server will send files
from the /data/images
directory. For example, in response to the http://localhost/images/example.png
request nginx will send the /data/images/example.png
file. If such file does not exist, nginx will send a response indicating
the 404 error. Requests with URIs not starting with /images/
will be mapped onto the /data/www
directory. For example, in response to the http://localhost/some/example.html
request nginx will send the/data/www/some/example.html
file.
To apply the new configuration, start nginx if it is not yet started or send the reload
signal to the nginx’s master process, by executing:
nginx -s reload
In case something does not work as expected, you may try to find out the reason inaccess.log
anderror.log
files in the directory/usr/local/nginx/logs
or/var/log/nginx
.
One of the frequent uses of nginx is setting it up as a proxy server, which means a server that receives requests, passes them to the proxied servers, retrieves responses from them, and sends them to the clients.
We will configure a basic proxy server, which serves requests of images with files from the local directory and sends all other requests to a proxied server. In this example, both servers will be defined on a single nginx instance.
First, define the proxied server by adding one more server
block to the nginx’s configuration file with the following contents:
server { listen 8080; root /data/up1; location / { } }
This will be a simple server that listens on the port 8080 (previously, the listen
directive has not been specified since the standard port 80 was used) and maps all requests to the /data/up1
directory on the local file system. Create
this directory and put the index.html
file into it. Note that the root
directive is placed in theserver
context. Such root
directive is used when the location
block selected for serving a request
does not include own root
directive.
Next, use the server configuration from the previous section and modify it to make it a proxy server configuration. In the first location
block, put the proxy_pass directive
with the protocol, name and port of the proxied server specified in the parameter (in our case, it is http://localhost:8080
):
server { location / { proxy_pass http://localhost:8080; } location /images/ { root /data; } }
We will modify the second location
block, which currently maps requests with the /images/
prefix to the files under the /data/images
directory, to make it match the requests of images with typical file extensions. The
modified location
block looks like this:
location ~ \.(gif|jpg|png)$ { root /data/images; }
The parameter is a regular expression matching all URIs ending with .gif
, .jpg
, or .png
. A regular expression should be preceded with ~
. The corresponding requests will be mapped to the /data/images
directory.
When nginx selects a location
block to serve a request it first checks location directives that specify prefixes, remembering location
with
the longest prefix, and then checks regular expressions. If there is a match with a regular expression, nginx picks this location
or, otherwise, it picks the one remembered earlier.
The resulting configuration of a proxy server will look like this:
server { location / { proxy_pass http://localhost:8080/; } location ~ \.(gif|jpg|png)$ { root /data/images; } }
This server will filter requests ending with .gif
, .jpg
, or .png
and map them to the /data/images
directory (by adding URI to the root
directive’s parameter) and pass all other requests to the
proxied server configured above.
To apply new configuration, send the reload
signal to nginx as described in the previous sections.
There are many more directives that may be used to further configure a proxy connection.
nginx can be used to route requests to FastCGI servers which run applications built with various frameworks and programming languages such as PHP.
The most basic nginx configuration to work with a FastCGI server includes using the fastcgi_pass directive instead of the proxy_pass
directive,
and fastcgi_param directives to set parameters passed to a FastCGI server. Suppose the FastCGI server is accessible on localhost:9000
. Taking
the proxy configuration from the previous section as a basis, replace the proxy_pass
directive with the fastcgi_pass
directive and change the parameter to localhost:9000
. In PHP, the SCRIPT_FILENAME
parameter
is used for determining the script name, and the QUERY_STRING
parameter is used to pass request parameters. The resulting configuration would be:
server { location / { fastcgi_pass localhost:9000; fastcgi_param SCRIPT_FILENAME $document_root$fastcgi_script_name; fastcgi_param QUERY_STRING $query_string; } location ~ \.(gif|jpg|png)$ { root /data/images; } }
This will set up a server that will route all requests except for requests for static images to the proxied server operating on localhost:9000
through the FastCGI protocol.
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