In this Introduction we provide a brief overview of FreeSWITCH in laymen's terms. We will then introduce all the key concepts in FreeSWITCH, and guide you on how to navigate the documentation. By following this introduction, you should be able to setup a basic deployment of FreeSWITCH in no time. Should you decide to dig deeper, and get familiar with more advanced features, we provide the links where you can find that too. At the end we will also provide a walk-through of the default configuration, so that you can get a hands-on tutorial, and most commonly used features.
FreeSWITCH is a Software Defined Telecom Stack enabling the digital transformation from proprietary telecom switches to a versatile software implementation that runs on any commodity hardware. From a Raspberry PI to a multi-core server, FreeSWITCH can unlock the telecommunications potential of any device. Combined with our hosted cloud platform, SignalWire, FreeSWITCH can interconnect with the outside world and scale to any size. (Visit https://signalwire.com for more info)
FreeSWITCH can handle voice, video and text communications from an IP Network (VoIP) and the PSTN (i.e., regular landlines). FreeSWITCH supports all popular VoIP protocols as well as interfacing with PRIs. For a full listing of supported protocols, see the Endpoints page.
Some common capacities, that FreeSWITCH is used for, include
The default configuration showcases a full-featured PBX with many applications.
At it's core, FreeSWITCH is a library which can be embedded in your application on any device. However, more commonly, it is built to run as a background process (daemon in UNIX or Linux systems, service on Windows platforms). When you run FreeSWITCH as a daemon, you can use the CLI to interact with FreeSWITCH.
FreeSWITCH can run on many Platforms, including Linux, Mac OS X, BSD, Solaris and even Windows.
If you don't want to operate your own server, the corporate sponsor of FreeSWITCH, SignalWire, provides cloud-hosted FreeSWITCH services from dedicated FreeSWITCH servers to auto-scaling cloud-hosted services.
Although FreeSWITCH can run on many Linux distributions, such Debian, Ubuntu, CentOS, Fedora and RHEL, our preferred distribution is Debian, because we have worked out all dependencies on Debian so you can have a smooth installation and startup. Debian is also what the FreeSWITCH developers use, therefore have the most experience with. If you run on other distributions, you might have a hard time getting all dependencies right.
Hardware requirements depend on how you will use FreeSWITCH. FreeSWITCH can run on hardware as small as a Raspberry Pi, and can scale up to powerful data center servers with dozens of CPU cores. FreeSWITCH is capable of handling thousands of concurrent phone calls, depending on what hardware you have and which applications you are using.
To accomplish these goals FreeSWITCH is built using a modular system:
When you install FreeSWITCH with the default configuration, the modules that are required for most common scenarios are enabled. We will see later in the configuration section how to enable/disable modules.
The modules are grouped by the type of functionality they provide. We will now explore the types of modules, and what functionality is provided by each.
Endpoint modules are one of the most important modules in FreeSWITCH.
|Application||This is where all the action is happening! There are hundreds of application modules included in the default setup a few examples are playing a file, joining a conference, send a call to voicemail, play an IVR menu. Many of the common applications are provided by the dptools module.|
|Dialplan||A Dialplan module is responsible for routing calls, based on information such as Caller ID, Destination Number and more. The default dialplan module is the XML Dialplan. We will cover this in detail in the Dialplan section.|
|Directory||Provides authentication and configurations for users that can register with FreeSWITCH. The most common directory module is the XML Directory.|
|Codecs are used to encode and compress audio for streaming.|
|Loggers||Record log messages. Some of the included loggers are console and log file. xml_cdr is another commonly used logger to output call detail records.|
There a few more types of modules, but these are the common ones. For a listing of common module see the Modules page. If you require some functionality that's not provided by one of the existing modules, you can write your own module. Modules can be written in many popular programming languages. See the developer documentation for more information.
Many modules also have API commands that can be issued from the command line, script or sent from a remote computer via the event socket. What the API commands can do are up to each individual module, but some common functionalities include returning status information (such as how many listeners are in a conference) or control the currently running application (such as pausing a file being played) There are hundreds of APIs available from the different modules. In the command line you can type show api to see all APIs based on the modules that are loaded.
There are also API commands provided by the core, these are in the Commands module.
This table provides a roadmap you can use to go through the documentation in a structured fashion.
|Installation||How to download and install FreeSWITCH|
|Configuration||Overview of the structure of FreeSWITCH Configuration files.|
|Running FreeSWITCH||How to run FreeSWITCH in the console or as a daemon|
|Call Legs||Explains an important concept required to better understand Endpoints and Dialplans|
|Endpoints||Explains the endpoint concept in general, as well as a more detailed overview of the common endpoints|
|Introduction to Dialplan||Dialplan is one of the most complex parts of FreeSWITCH, this page distills it|
|Directory||How to setup users and devices|
|Logging & CDR||Setup Logging and Call Records|
|Databases||How to configure FreeSWITCH to store channel state in a database|
|Default Configuration||Walkthrough of the default configuration|
|Event Socket||Allows an outside program to interact with FreeSWITCH over a network connection. The CLI uses the Event Socket to allow you to run commands and view the output of FreeSWITCH.|
FreeSWITCH itself is licensed under the MPL 1.1 (Mozilla Public License), however some individual modules might be using other licenses.