Template:Redirect3 FastCGI is a protocol for interfacing interactive programs with a web server. FastCGI is a variation on the earlier Common Gateway Interface (CGI); FastCGI's main aim is to reduce the overhead associated with interfacing the web server and CGI programs, allowing a server to handle more web page requests at once.
CGI is a protocol for interfacing external applications to web servers. CGI applications run in a separate process, which is created at the start of each request and torn down at the end. This "one process per request" model makes CGI programs very simple to implement, but limits efficiency and scalability. At high loads, the operating system process creation and destruction overhead becomes significant and limits scalability. In addition, the CGI process model limits resource reuse techniques (such as reusing database connections, in-memory caching, etc.).
To address the scalability shortcomings of CGI, Open Market developed FastCGI and first introduced it in their webserver product in the mid-1990s. Open Market originally developed FastCGI in part as a competitive response to Netscape's proprietary, in-process API (NSAPI) for developing Web applications.
Although initially developed by Open Market, FastCGI was implemented by a number of other webserver makers. The FastCGI approach, however, competed against other techniques which also aimed to speed and simplify server-subprogram communications, but which didn't follow the CGI paradigm. Apache modules such as mod_perl and mod_php appeared around the same time and seemed to be even better replacements for CGI, allowing closer integration with the core webserver.
Instead of creating a new process for every request, FastCGI can use a single persistent process which handles many requests over its lifetime. Processing of multiple requests simultaneously is achieved either by using a single connection with internal multiplexing (ie. multiple requests over a single connection) and/or by using multiple connections. Many such processes can exist, something that can increase stability and scalability. FastCGI also allows programs to get the web server to do certain simple operations, like reading in a file, before the request is handed over. Environment information and page requests are sent from the web server to the process over a TCP connection (for remote processes) or Unix domain sockets (for local processes). Responses are returned from the process to the web server over the same connection. The connection may be closed at the end of a response, but the web server and the process are left standing.
Many web site administrators and programmers are finding that the separation of web applications from the web server in FastCGI (and the simpler SCGI) has many desirable advantages over embedded interpreters (mod_perl, mod_php, etc.). This separation allows server and application processes to be restarted independently — an important consideration for busy web sites. It also facilitates per-application security policies — important for ISPs and web hosting companies.
- Note: unless stated, completeness of FastCGI implementation is unknown
- Abyss Web Server
- Apache HTTP Server (partial)
- Implemented by either of the third-party modules mod_fastcgi or mod_fcgid
- Multiplexing of requests through a single connection is prohibited by Apache's design, so this isn't supported
- Cherokee HTTP Server 
- Hiawatha webserver 
- Loadbalancing FastCGI support
- Supports chrooted FastCGI servers
- Lighttpd (partial)
- Multiplexing of requests through a single connection is not implemented
- LiteSpeed Web Server
- Microsoft IIS 
- Open Market Web Server
- Roxen Web Server
- Sun Java System Web Server
- Kerio WebSTAR
- Zeus Web Server
FastCGI can be implemented in any language that supports sockets. APIs existTemplate:Fact for:
- Borland Delphi/FreePascal at ExtPascal
- C / C++
- Chicken Scheme
- Common Lisp: CLISP and CMUCL
- D programming language
- Guile Scheme
- Goanna Eiffel
- HP BASIC for OpenVMS
- Mono XSP
- Perl 
- Roadsend PHP
- Smalltalk: FasTalk and Dolphin Smalltalk
FastCGI has enabled web application portability; in contrast, applications developed for embedded interpreters (such as mod_python) are often tightly bound to the Apache API. Recent frameworks such as Ruby on Rails, Catalyst, Django and Kepler allow use with either the embedded interpreters (mod_ruby, mod_perl, mod_python or mod_lua, respectively) or with FastCGI.