Apache HTTP Server Version 2.4
This document describes what a Multi-Processing Module is and how they are used by the Apache HTTP Server.
The Apache HTTP Server is designed to be a powerful and flexible web server that can work on a very wide variety of platforms in a range of different environments. Different platforms and different environments often require different features, or may have different ways of implementing the same feature most efficiently. Apache httpd has always accommodated a wide variety of environments through its modular design. This design allows the webmaster to choose which features will be included in the server by selecting which modules to load either at compile-time or at run-time.
Apache HTTP Server 2.0 extends this modular design to the most basic functions of a web server. The server ships with a selection of Multi-Processing Modules (MPMs) which are responsible for binding to network ports on the machine, accepting requests, and dispatching children to handle the requests.
Extending the modular design to this level of the server allows two important benefits:
mpm_winnt
can use native
networking features in place of the POSIX layer used in
Apache httpd 1.3. This benefit also extends to other operating
systems that implement specialized MPMs.
worker
or event
, while sites requiring
stability or compatibility with older software can use a
prefork
.
At the user level, MPMs appear much like other Apache httpd modules. The main difference is that one and only one MPM must be loaded into the server at any time. The list of available MPMs appears on the module index page.
The following table lists the default MPMs for various operating systems. This will be the MPM selected if you do not make another choice at compile-time.
Netware | mpm_netware |
OS/2 | mpmt_os2 |
Unix | prefork , worker , or
event , depending on platform capabilities
|
Windows | mpm_winnt |
Here, 'Unix' is used to mean Unix-like operating systems, such as Linux, BSD, Solaris, Mac OS X, etc.
In the case of Unix, the decision as to which MPM is installed is based on two questions:
1. Does the system support threads?
2. Does the system support thread-safe polling (Specifically, the kqueue and epoll functions)?
If the answer to both questions is 'yes', the default MPM is
event
.
If The answer to #1 is 'yes', but the answer to #2 is 'no', the
default will be worker
.
If the answer to both questions is 'no', then the default MPM will be
prefork
.
In practical terms, this means that the default will almost always be
event
, as all modern operating systems support these
two features.
MPMs can be built as static modules on all platforms. A single MPM is chosen at build time and linked into the server. The server must be rebuilt in order to change the MPM.
To override the default MPM choice, use the
--with-mpm=NAME
option of the
configure
script. NAME is the name of the
desired MPM.
Once the server has been compiled, it is possible to determine which MPM
was chosen by using ./httpd -l
. This command will list every
module that is compiled into the server, including the MPM.
On Unix and similar platforms, MPMs can be built as DSO modules and
dynamically loaded into the server in the same manner as other DSO
modules. Building MPMs as DSO modules allows the MPM to be changed by
updating the LoadModule
directive
for the MPM instead of by rebuilding the server.
LoadModule mpm_prefork_module modules/mod_mpm_prefork.so
Attempting to LoadModule
more than one MPM will result in a startup failure with the
following error.
AH00534: httpd: Configuration error: More than one MPM
loaded.
This feature is enabled using the
--enable-mpms-shared
option of the configure
script.
With argument all
, all possible MPMs for the platform
will be installed. Alternately, a list of MPMs can be specified as the
argument.
The default MPM, either selected automatically or specified with the
--with-mpm
option of the configure
script, will be loaded in the generated server configuration file. Edit the
LoadModule
directive to select a
different MPM.