Apache Overview HOWTO
Daniel Lopez Ridruejo, ridruejo@apache.org
v0.9, 2002-10-10
This document gives you an overview of the different Apache projects,
such as the Apache HTTP server and the Tomcat Servlet and JSP engine.
It provides pointers for further information and implementation details.
This document gives you an overview of the Apache world, including
Apache Software Foundation projects such as the Apache web server
and commercial and open source third party software. Apache is the
most popular server on the Internet. New Apache users, especially those
coming from a Windows background, are often unaware of the possibilities of
Apache, its useful addons and, more in general, how everything works
together. This document aims to show a general picture of such possibilities
with a brief description of each one and pointers for further information.
The information has been gathered from many sources, including projects' web
pages, conference talks, mailing lists, Apache websites and my own hands-on
experience. Full credit is given to these authors. Without them and
their work, this document would not have been possible or necessary.
Copyright 2002 Daniel Lopez Ridruejo
Permission is granted to copy, distribute and/or modify this document
under the terms of the Open Content Open Publication License, Version
1.1. A copy of the license is included in the appendix entitled "Open
Content Open Publication License", or at www.opencontent.org/openpub/.
The Apache Software Foundation provides support for the Apache community of
open-source software projects. The Apache projects are characterized by a
collaborative, consensus based development process, an open and pragmatic
software license, and a desire to create high quality software that leads
the way in its field. We consider ourselves not simply a group of projects
sharing a server, but rather a community of developers and users.
The ASF is home to many successful Open Source projects, such as the
Tomcat Servlet/JSP engine and the ANT build tool.
You can learn more about the foundation
here.
The first part of this document deals with the Apache Web Server and
related modules. It covers the history, architecture and capabilities of the
server and describes ways in which you can extend and customize it.
The second part of this document covers projects of the Apache Software
Foundation, such as those form the Jakarta and Java XML communities. Rather
than organizing the projects around a certain programming language or
technology, they are organized based on functionality provided.
Apache is the leading internet web server, with over 60% market share, according
to the
Netcraft survey.
Several key factors have contributed to Apache's success:
- The
Apache license. It is
an open source, BSD-like license that allows for both commercial and non-commercial
uses of Apache.
- Talented community of
developers
with a variety of backgrounds and an open development process based on technical merits.
- Modular architecture. Apache users can easily add functionality or tailor Apache to their
specific enviroment.
- Portable: Apache runs on nearly all flavors of Unix (and Linux), Windows, BeOs, mainframes...
- Robustness and security.
Many commercial vendors have adopted Apache-based solutions for their products, including
Oracle,
Red Hat and
IBM.
In addition,
Covalent provides add-on modules and 24x7 support for Apache.
The following websites use Apache or derivatives. Chances are that if Apache
is good enough for them, it is also good enough for you :)
>From the
Apache website:
The Apache HTTP Server Project is an effort to develop and maintain an
open-source HTTP server for modern operating systems including UNIX and
Windows NT. The goal of this project is to provide a secure, efficient and
extensible server that provides HTTP services in sync with the current HTTP
standards.
Apache started its life as modifications to the NCSA Web server,
one of the first HTTP servers. You can learn more about Apache's history
here:
The Apache project has grown beyond building just a web server into developing other
critical server side technologies. The Apache Software Foundation, described
in a later section, serves as an umbrella for these projects.
There are two main versions of Apache, the 1.3 series and the
2.0 series. Although both versions are considered production quality, they
differ in architecture and capabilities.
2.1.1 Apache 1.3
Apache 1.3 has been ported to a great variety of Unix platforms and is
the most widely deployed Web server on the Internet.
Process-based Web server
Apache 1.3 on Unix is a process-based Web server. The Apache program forks
several children at startup. Forking means that a parent process makes identical copies
of itself, called children. Each one of the children can serve a
request independent of the others. This approach has the advantage of
improved stability: If one of the children misbehaves (runs out of control
or has memory leaks) it can be terminated without affecting the others.
The stability comes with a performance penalty. In most Unix operating
systems, creating processes and context switching (assigning processor time
to each process) are expensive operations. Since processes are isolated from
each other, they cannot easily share code and data, consuming system resources.
Windows support
Apache 1.3 is the first version of Apache to support Windows, although the
port is not considered to be as stable as its Unix counterparts. This is due
to the fact that the server had been designed with Unix in mind and the
Windows port was a later addition that did not integrate very well.
Modular
Apache 1.3 has a modular architecture. You can enable or disable modules
to add and remove Web server functionality. You can customize Apache
to improve performance and security. In addition to modules bundled with the
server, there is a great number of third party modules, providing extended
functionality.
2.1.2 Apache 2.0
Apache 2.0 is the latest and greatest version of the Apache server.
The architecture contains significant improvements over the 1.3 series. The
following are some of them.
Multi Processing Modules
Apache 2.0 abstracts the request processing architecture in special server
modules, called Multi Processing modules (MPMs). This means that Apache can be configured to be a pure process-based
server, a purely threaded server or a mixture of those models. Threads are
contained inside processes and run simultaneously. Unlike processes, threads
can share data and code. Threads are thus more "lighweight" than
processes, and in most cases threaded servers scale better than process
based servers. The disadvantage is that the server is less reliable, since
if a thread misbehaves it can corrupt data or code belonging to other threads.
Protocol Modules
The protocol handling has been encapsulated in its own layer in
Apache 2.0. That means it is possible to write modules to serve protocols
other than HTTP, such as POP3 for mail or FTP for file transfer. These
protocol modules can take advantage of a solid server framework and module
functionality, such as authentication and dynamic content generation. This
means that, for example, you can authenticate your POP3 users against the
same user database Apache uses for web requests and that FTP content can be
generated dynamically using PHP, CGI or any other technologies explained
later in this document.
Module and filter architecture.
Apache 2.0 maintains the 1.3 modular architecture and adds an additional
extension mechanism: filters. Filters allow modules to modify the content
generated by other modules. They can encrypt, scan for viruses or compress
not only static files but dynamically generated content.
Compatibility issues
Unfortunately, though the module API is similar between versions, they are not identical
and Apache 1.3 modules need to be ported to the new architecture. Most
mainstream modules such as PHP and mod_perl already have Apache 2.0 versions
and others, such as mod_dav and mod_ssl, are now part of the server
distribution. Running modules on a threaded architecture requires specific
changes to modules. Modules distributed with Apache have undergone those
changes and are considered `thread-safe', but third-party modules or
libraries may not. If you need one of those, you will be limited to running
Apache as a pure process-based server.
Portable
Apache runs equally well now on Windows and Unix platforms thanks to the
Apache Portable Runtime (APR) library. It abstracts the differences among
operating systems, such as file or network access APIs. Porting Apache to a
new platform is often as simple as porting the Apache Portable Runtime.
This abstraction layer also provides for platform-specific tuning and
optimization.
Apache provides several security-related modules for securing and
restricting access to the server.
Authentication
Authentication modules allow you to determine the identity of a client,
usually by verifying an username and password against a backend database.
Apache includes modules to authenticate against plain text and database files.
Additional authentication modules exist that connect Apache to
existing security frameworks or databases, including: NT Domain
controller, Oracle, mySQL, PostgresSQL and so on.
The LDAP modules are specially interesting, as they allow integration with
company and enterprise wide existing directory services.
You can find these modules at
http://modules.apache.org.
An Apache 2.0 LDAP module can be found
at the Apache website.
Access Control
Apache provides the mod_access module that can restrict access to
resources based on parameters of the client request, such as the presence of
a specific header or the IP address or hostname of the client. Third party
modules allow you to restrict access to clients that misbehave, as explained
in later sections on performance and bandwidth control.
SSL/TLS
The Secure Sockets Layer/Transport Layer Security protocols allow data
between the Web server and client to be encrypted. In Apache 1.3, the
protocols are implemented by mod_ssl, which is distributed separately from the
mod_ssl website and requires
applying patches to the server. This was necessary because of export
regulations on encryption. Most of those restrictions have since then being
lifted and starting with Apache 2.0, mod_ssl is now included as a base
module with Apache.
A proxy is a program that performs requests on behalf of another. There
are different kind of Web proxies. A traditional HTTP proxy, also called a
forward proxy, accepts requests from clients (usually Web
browsers), contacts the remote server, and returns the responses.
A reverse proxy is a Web server that is placed in front of other servers,
providing a unified front end and offloading certain tasks, such as SSL
processing, from the backend Web servers.
Apache supports both types of proxy, caching of proxied content and
differente proxy backends such as FTP.
Raw performance is only one of the factors to consider in a web server
(flexibility and stability come usually first).
Having said that, there are solutions to improve performance on heavy loaded
webservers serving static content. If you are in the hosting business
Apache also provides ways in which you can measure and control bandwidth usage.
Throttling in this context usually means slowing down the delivery of content
based on the file requested, a specific client IP address and so on. This is done
to prevent abuse.
- mod_mmap: Included in current Apache 1.3 releases, it maps to
memory a statically configured list of files that are frequently requested
but infrequently changed. This functionality is included in mod_file_cache
in Apache 2.
-
Mod_bandwidth: This Apache 1.3 module
enables the setting of server-wide or per connection bandwidth limits, based
on the specific directory, size of files and remote IP/domain.
-
Bandwidth share module: provides
bandwidth throttling and balancing by client IP address. It supports Apache 1.3 and earlier versions of Apache 2.
-
Mod_throttle:Throttle
bandwidth per virtual host or user. For Apache 1.3
Load Balancing
Using the Apache reverse proxy and mod_rewrite you can have an Apache
process distributing requests among a variety of backend web servers.
You can find more information at
http://www.apache.org/docs/misc/rewriteguide.html
Additionally, mod_backhand is an Apache 1.3 module that allows seamless
redirection of HTTP requests from one web server to another. This
redirection can be used to target machines with under-utilized resources,
thus providing fine-grained, per-request load balancing of web
requests. You can find more information at
http://www.backhand.org/.
Compression
Apache 2.0 includes mod_deflate, a filtering module that compresses
content before delivering it to clients. This saves bandwidth but can have a
performance impact. The
mod_gzip module
provides this functionality for Apache 1.3
CGI stands for Common Gateway Interface. CGI programs are external programs
that are called when a user requests a certain page. The CGI program receives information
from the web server (form variable values, type of browser, IP
address of the client and so on) and uses that information to output a web page to the client.
Apache has support for CGIs and there is a third-party Apache 1.3 module
that provides support for the FastCGI protocol. It avoids the performance
penalties associated with starting and stopping a CGI program with every
request. You can find it at
http://fastcgi.com/
Web applications are written in high-level languages such as Java, Perl,
C# and so on and Apache has several modules that integrate them with the
server. In many cases the modules expose the Apache API so entire Apache
modules can be written in those languages.
Perl
mod_perl is one of the most
veteran and successful Apache projects. It embeds a Perl interpreter
in Apache and allows access to the web server internals from
Perl. This allows for entire modules to be written in Perl or a
mixture of Perl and C code. In the 1.3 Apache versions, one
interpreter has to be embedded in each child, since the server is
multiprocess based. In heavy traffic dynamic sites, the increased
size could make a difference. In threaded versions of Apache 2.0
mod_perl allows for sharing of code, data and session state among
interpreters. This results in a faster, leaner solution.
mod_perl is in itself another platform, with a great variety of modules
available such as
Mason and
Embperl for
embedding Perl in HTML pages and
AxKit for
XML-driven templates.
PHP
From the
PHP website:
PHP is a server-side, cross-platform, HTML embedded scripting
language. It is
the
most popular module for Apache
and this is due to a variety of reasons:
- Learning curve is quite low
- Great documentation
- Extensive database support
- Modularity
PHP has a modular design. Among many others, there are modules that provide
support for:
- Database connetivity for popular databases such as Oracle,
MS-SQL server, ODBC interface, MySQL, mSQL, PostgreSQL and so on.
- XML support
- File transfer: FTP
- HTTP
- Directory support: LDAP
- Mail support: IMAP, POP3, NNTP
- PDF document generation
- CORBA
- SNMP
You only need to compile/use the modules you need. PHP can be used with Apache, as an external CGI or with other webservers.
It is crossplatform and it runs on most flavors of Unix and Windows. If you come from a Windows background, you probably have used Internet
Information Server with Active Server Pages and MS-SQL Server. A common
replacement in the Unix world for this trio is Apache with PHP and MySQL.
Since PHP works:
- with Apache and with Microsoft IIS
- with MySQL and with MS-SQL server
- on Unix and on Windows
you have a nice, gradual migration path from a Microsoft-centric solution to Unix based solutions.
Python
Python is a popular object oriented scripting language.
Mod_Python, which is now
an official Apache project, allows you to integrate Python with the Apache
web server. You can develop complex web applications or accelerate existing
Python CGI scripts. Recent versions run on Apache 2.0.
Tcl
The
Tcl Apache project integrates
Tcl with the Apache webserver. Tcl is a lightweight, extensible
scripting language. You can learn more about Tcl
here.
There are several modules currently under the Apache Tcl umbrella:
- Both
Mod_dtcl and
Neowebscript allow
embedding Tcl on HTML pages.
Rivet combines the best of both modules.
-
Mod_tcl takes an approach similar
to mod_perl, exposing the Apache API.
-
WebSH provides a Tcl Web
application environment
Microsoft technologies
Several modules allow integration with Microsoft languages and
technologies such as the .Net framework or Active Server Pages.
.Net
mod_haydn integrates
Mono with Apache and exposes
the Apache API to the .Net framework, allowing you to write modules in C#,
for example.
Covalent provides
mod_asp.net, an commercial Windows module that allows Apache to run ASP.Net
applications, allowing you to replace Microsoft IIS.
ASP
ASP stands for Active Server Pages and is a Microsoft technology that
allows you to embed code, usually Visual Basic, in HTML pages. Several
companies such as
ChilliSoft and
Stryon provide products that can run ASP
applications on Unix environments.
ISAPI
ISAPI is an API that you can use to extend Microsoft IIS, similarly to
how you would use the Apache API. Apache includes a module mod_isapi that
mirrors this functionality and allows you to run ISAPI modules.
Java
Most applications servers, such as those from Oracle, IBM and BEA provide
modules to integrate with the Apache web server. Additionally, several
modules such as mod_jk and mod_webapp allow you to connect to Tomcat, a
Servlet and JavaServer Pages container that is also part of the Apache
Software Foundation.
Modules for other languages
This document has described modules for popular server side languages
such as Perl, Python and PHP. You can find additional language modules (JavaScript, Haskell, Ruby and others)
at the
Apache modules directory.
An important part of Web server administration includes building,
configuring and monitoring different servers.
Build tools
Apache can be extended and customized in many different ways. Integration
of different modules with the server can sometimes be a difficult task.
Tools such as the
Apache Toolbox can make this task easier, by
providing a menu driven build framework.
User Interfaces for Apache
Apache is configured thru text configuration files, and that sometimes
can be hard, specially for people coming from a Windows background.
There are open source graphical tools that make this task easier:
-
Comanche, by yours truly,
is crossplatform and runs on Unix/Linux, Windows and Mac.
-
Webmin: A nice
web based interface.
-
gui.apache.org: GUI interfaces
for Apache project. Programs are in various degrees of development.
SNMP
SNMP stands for Simple Network Management Protocol. It allows monitoring
and management of network servers, equipment and so on. SNMP modules for Apache
help manage large deployments of web servers, measure the quality of service
offered and integration of Apache with existing management frameworks.
- Open source
Mod SNMP for Apache 1.3.
-
Covalent SNMP provides
a commercial SNMP module, support for the latest SNMPv3 standard, integration
with HP-Openview, Tivoli and so on.
Authors of Web content require a means of managing that content and
uploading it to the server. One of the protocols used for this purpose is
DAV (Distributed Authoring and Versioning). DAV is an extension to the HTTP
protocol that enables users and applications to publish and modify Web
content. DAV technology is widely implemented, Microsoft supports it
at the operating system level (WebFolders) and in its Office suite. Same
goes for Apple OS-X and a variety of third party products from Adobe,
Oracle and so on. You can get the mod_dav module for Apache 1.3 at
http://www.webdav.org/mod_dav/. In Apache 2.0, mod_dav is
included with the base distribution.
Previous to DAV, Microsoft had its own publishing protocol, integrated
with the Microsoft FrontPage tool. You can add server-side support for Frontpage using
the modules at
http://www.rtr.com/Ready-to-Run_Software/,
though due to the way they integrate with Apache they are not considered
secure.
Apache 2.0 introduced the concept of protocol modules. That means that
developers can reuse the Apache server framework to implement new protocols
such as those dealing with mail and file transfer. mod_ftp is a commercial
Apache-based FTP module from
Covalent.
mod_pop3 is an open source module that
implements the POP3 protocol, commonly used by mail readers to retrieve
messages from mail servers.
Apache provides extensive virtual hosting support which means that you can
serve multiple websites from a single server. In Apache 2.0, with the
per-child MPM you can have multiple children, each one serving a different
domain under different Unix user ids. This is very important for security
in shared hosting scenarios, as it allows you to isolate
customers from each other. The following are additional, alternative, virtual
hosting modules.
Apache is the web server of choice for many commercial entities,
including big enterprises. These companies have certain requirements when
adopting a technology, specially one that is at the core of their Internet
strategy, such as Web servers. Those requirements include performance,
stability, management capabilities, support, professional services and
integration with legacy systems. A number of commercial companies, such as
IBM,
Red Hat and
Covalent, provide the products and services necessary to
make Apache meet the needs of Enterprise customers.
In addition, many other companies and OEMs ship Apache as a bundled web
server with their products.
Although Apache is probably the most popular, the Apache Software
Foundation is home to many other projects. This section provides an overview
of the most relevant ones, organized logically. Most of them belong either
to the Jakarta project and the XML project. The Jakarta project hosts
Java-based projects and the XML project hosts, surprise, XML-related projects.
The following are application and development frameworks that are part
of the ASF.
3.1.1 Servers
The following are some ASF server projects.
Tomcat
Tomcat is the flagship product of the Jakarta project.
It is the official reference implementation for the Java
Servlet and JavaServer Pages technologies.
You can learn more in the
Tomcat homepage.
JAMES (Java Apache Mail Enterprise Server)
Complementary to the other Apache server side technologies, JAMES provides
a 100% pure Java server designed to be a complete and portable enterprise
mail engine solution based on currently available open protocols (SMTP, POP3,
IMAP, HTTP)
More information can be found
here.
Lucene
Jakarta Lucene is a high-performance, full-featured text search engine
written in Java and part of the Jakarta project. You can find more
information at
http://jakarta.apache.org/lucene/
Jetspeed
Jetspeed
is a web based portal written in Java. It has a modular API that
allows aggregation of different data sources (XML, SMTP, iCalendar)
3.1.2 Content management
The following are projects related to content management
Slide
Slide is a high-level content management framework.
Conceptually, it provides a hierarchical organization of binary
content which can be stored into arbitrary, heterogenous, distributed
data stores. In addition, Slide integrates security, locking and versioning
services. It also provides a
WebDAV
server and client implementation.
You can learn more at the
Slide home page.
Alexandria
Alexandria is an integrated documentation management system. It brings
together technologies common to many open source projects like CVS and JavaDoc.
The goal is to integrate source code and documentation to encourage code
documentation and sharing. More information at
http://jakarta.apache.org/alexandria/index.html
3.1.3 Frameworks
The following are application development frameworks.
Turbine
Turbine is a servlet based framework that allows experienced Java developers
to quickly build secure web applications. Turbine brings together a platform
for running Java code and reusable components. Some of its features include:
Integration with template systems, MVC style development, Access Control
Lists, localization support and so on. You can find more information at the
Turbine web site.
Avalon
If you are familiar with Perl or BSD systems, Avalon is roughly the
equivalent of
CPAN or the Ports
collection for Java Apache technologies. It does not only provide guidelines
for a common repository of code, it goes one step further: is an effort to
create, design, develop and maintain a common framework for server
applications written using the Java language. It provides the means so
server side Java projects can be easily integrated and build on each other.
You can find more information at
the
Avalon web site.
The following template systems, transformation engines and other
presentation related projects.
Cocoon
Cocoon leverages other Apache XML technologies like Xerces, Xalan and FOP
to provide a comprehensive XML publishing framework. The framework can talk
to many different data sources and can transform the content into several
different delivery formats such as PDF, HTML, XML and RTF. It can run as a
servlet or as a command line program. You can learn more about Cocoon at the
project homepage
Velocity
Velocity is a Java based template engine. It can be used as a
stand-alone utility for generating source code, HTML, reports, or
it can be combined with other systems to provide template services.
Velocity has a Model View Controller paradigm that enforces separation of
Java code and the HTML template. You can learn more about Velocity
here.
AxKit
AxKit
is
a popular XML-based Application Server for mod_perl and Apache. It allows
separation of content and presentation and provides on-the-fly conversion
from XML to any format.
Xalan
Xalan is an XSLT processor available for Java and C++.
XSL is a style sheet language for XML. The T is for Transformation. XML
is good at storing structured data (information). You sometimes need to
display this data to the user or apply some other transformation.
Xalan takes the original XML document, reads transformation configuration
(stylesheet) and outputs HTML, plain text or another XML document.
You can learn more about Xalan at the
Xalan Java and
Xalan C++ project homepages.
FOP
From the website: FOP is a Java application that reads a formatting
object tree and then turns it into a PDF document. So FOP takes an
XML document and outputs PDF, in a similar way that Xalan does with HTML
or text. You can learn more about FOP
here.
The following are different libraries that can be used to parse and
manipulate a variety of document formats.
Xerces
The Xerces project provides XML parsers for a variety of languages, including
Java, C++ and Perl. The Perl bindings are based on the C++ sources.
An XML parser is a tool used for programatic access to XML documents.
This is a description of the standards supported by Xerces:
-
DOM: DOM stands for Document Object Model. XML documents
are hierarchical by nature (nested tags). XML documents can be accessed thru
a tree like interface. The process is as follows:
- Parse document
- Build tree
- add/delete/modify nodes
- Serialize tree
-
SAX:Simple API for XML. This is a stream based API. This means
that we will receive callbacks as elements are encountered. These callbacks
can be used to construct a DOM tree for example.
-
XML Namespaces
- XML Schema: The XML standard provides the syntax for writing documents. XML
Schema provides the tools for defining the contents of the XML
document (semantics). It allows to define that a certain element in the
document must be an integer between 10 and 20 or contain an IP address.
The Xerces XML project initial code base was donated by IBM. You can find more
information in the
Xerces Java,
Xerces C++ and
Xerces Perl homepages.
Batik
Batik is a Java based toolkit for applications that want to use images in the
Scalable Vector Graphics (SVG) format for various
purposes, such as viewing, generation or manipulation.
It is XML centric and compliant with the W3C specification. It is a bit atypical from other Apache
projects, in that it provides a graphical component. Batik provides hooks to extend the
framework thru custom tags and it allows conversion from SVG to other formats like JPEG or PNG.
You can learn more at the
Batik homepage
POI
The POI project consists of APIs for manipulating various file formats based
upon Microsoft's OLE 2 Compound Document format using pure Java. This
includes Word and Excel documents. You can find more information at
http://jakarta.apache.org/poi/
The following are libraries for remote communication and interoperability
between servers.
SOAP
Apache SOAP ("Simple Object Access Protocol") and Axis are
implementations of the
SOAP protocol
SOAP is a lightweight protocol for exchange of information in a
decentralized, distributed environment. It is an XML based protocol that
consists of three parts:
- An envelope that defines a framework for describing what is in a
message and how to process it,
- a set of encoding rules for expressing instances of
application-defined datatypes, and
- a convention for representing remote procedure calls and
responses.
Basically you can think of SOAP as an remote procedure call
system, based on HTTP and XML. On the one hand this means it is
verbose and slow compared to other systems. On the other hand it eases
interoperatibility, debugging and development of clients and servers
for a variety of languages since most modern languages have HTTP and XML
modules. You can learn more at the
Apache SOAP homepage
XML-RPC
The
XML-RPC project
is a Java implementation of the XML-RPC protocol, a light-weight protocol
similar and predecessor to SOAP.
XML security
The
XML security project provides
XML document signature verification for secure exchange of documents.
Apache Portable Runtime
The
APR project provides
a portability layer that abstracts a number of APIs for file manipulation,
network access and so on. It is written in C and works on most Unix flavors,
Windows and a variety of other systems. It is the basis for Apache 2.0
Ant
Ant is a Java based
build tool. It has a modular API and can be extended by creating new tasks. It
is driven by XML configuration files.
Byte Code Library
The
Byte Code Engineering Library (BCEL) is a
library to analyze, create, and manipulate binary Java class files.
Log4j
This package provides a logging framework that Java applications can use.
It can be enabled at runtime without modifying the binary and has been designed
with performance in mind. It can be found at
http://jakarta.apache.org/log4j/
ORO and Regexp
ORO is a complete package that provides regular expression support for
Java. It includes Perl5 regular expression support, glob expressions and so on.
All under the Apache license.
You can learn more about ORO at
http://jakarta.apache.org/oro/index.html. There is another ASF
lightweight regular expression package,
Regexp.
Struts
Struts is an Apache project that tries to bring the
Model-View-Controller (MVC) design paradigm to web development. It
builds on
Servlet and
JavaServer Pages technologies. The model
part is made up of Java server objects, which represent the internal
state of the application. The view part is constructed via JavaServer Pages (JSP), which
is a combination of static HTML/XML and Java. JSPs also allow the
developer to define new tags. The controller part consists of servlets,
which take requests (GET/POST) from the client, perform actions on the
model and update the view by providing the appropriate JSP. You can
learn more at the
Struts project pages.
Taglibs
The JavaServer pages technology allows developers to provide functionality
by adding custom tags. The Taglibs project intends to be a common repository
for these extensions. It includes tags for common utilities (i.e. date),
SQL database access and so on.
You can learn about TagLibs at
http://jakarta.apache.org/taglibs/.
More documentation is included in the package.
Database
OJB is a database
mapping tool that allows persistance and storage of Java objects in
relational databases.
Xindice is a native XML database for storing
and querying XML documents.
Commons
The
Commons project
provides a great variety of reusable Java components with minimal dependencies.
The following ASF projects cover testing and performance analisys.
httpd-test
The
httpd-test project provides a testing framework for the
Apache web server and tools such as
flood for HTTP load testing.
Cactus
Cactus is a
testing framework for testing server side Java code such as Servlets and EJBs.
JMeter
This is a testing tool written in Java with a GUI frontend. It can be obtained at
http://jakarta.apache.org/jmeter/.
Lakta
Lakta is an end-to-end
HTTP testing tool
Watchdog
The
Watchdog project is a suite of validation sets for the
Servlet and JavaServer Pages specification.
Additional Apache related resources
The following are some useful websites
I maintain
a list of books related to this
document. It is not a comprehensive list, but rather I include only those
books that I have personally found well-written and useful.
You can find the Apache users mailing list at
http://httpd.apache.org/lists.html. Similar lists exist for the
rest of projects mentioned there. Make sure you read the Frequently Asked
Questions document before posting . You can also get support in the newsgroup
comp.infosystems.www.servers.unix at
http://groups.google.com.
If you want commercial support, consider contacting
Covalent, which provides expert support for Apache (at a fee,
of course). If you are using Apache on Linux, your Linux vendor may have support
plans that include Apache.
You can contact me at daniel @ rawbyte.com . I welcome suggestions
and corrections, but please, please, do not send me messages asking me to
troubleshoot your Apache installation. I just do not have the time to answer people individually.
If you need support, please refer to the resources mentioned above.
If you want to contribute a translation of this document you should use
the SGML source. Check
http://www.tldp.org for info.
Please drop me a note so I can make sure you get the most recent version.
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