Config::Model enables a project developer to provide an interactive configuration editor (graphical, curses based or plain terminal) to his users. For this he must:
describe the structure and constraints of his project's configuration
find a way to read and write configuration data. This can be provided by Config::Model backends or by custom code
With the elements above, Config::Model will generate interactive configuration editors (with integrated help and data validation). These editors can be graphical (with Config::Model::TkUI), curses based (with Config::Model::CursesUI) or based on ReadLine.
Using this project, a typical configuration editor will be made of 3 parts :
The user interface ( cme program and some other optional modules)
The validation engine which is in charge of validating all the configuration information provided by the user. This engine is made of the framework provided by this module and the configuration description (often refered as "configuration model").
The storage facility that store the configuration information (currently several backends are provided: ini files, perl files, and Augeas)
You're probably thinking of tools like webmin. Yes, these tools exist and work fine, but they have their set of drawbacks.
Usually, the validation of configuration data is done with a script which performs semantic validation and often ends up being quite complex (e.g. 2500 lines for Debian's xserver-xorg.config script which handles xorg.conf file).
In most cases, the configuration model is expressed in instructions (whatever programming language is used) and interspersed with a lot of processing to handle the actual configuration data.
Config::Model projects provide a way to get a validation engine where the configuration model is completely separated from the actual processing instructions.
A configuration model can be created and modified with the graphical interface provided by config-model-edit distributed with Config::Model::Itself. The model is saved in a declarative form (currently, a Perl data structure). Such a model is easier to maintain than a lot of code.
The model specifies:
the structure of the configuration data (which can be queried by generic user interfaces)
the properties of each element (boundaries check, integer or string, enum like type ...)
the default values of parameters (if any)
Warning conditions (and optionally, instructions to fix warnings)
on-line help (for each parameter or value of parameter)
So, in the end:
maintenance and evolution of the configuration content is easier
user will see a common interface for all programs using this project.
upgrade of configuration data is easier and sanity check is performed
audit of configuration is possible to check what was modified by the user compared to default values
Config::Model interface can be:
a shell-like interface (plain or based on Term::ReadLine).
Graphical with Config::Model::TkUI (Perl/Tk interface).
based on curses with Config::Model::CursesUI.
All these interfaces are generated from the configuration model.
And configuration model can be created or modified with a graphical user interface (config-model-edit)
Since the syntax of configuration files vary wildly form one program to another, most people who want to use this framework will have to provide a dedicated parser/writer.
Nevertheless, this project provides a writer/parser for some common format: ini style file and perl file.
With the additional Config::Model::Backend::Augeas, Augeas library can be used to read and write some configuration files.
Subscribe to the config-model-users list: