With Project Fonos, Fonoster Inc researches an innovative Programmable Telecommunications Stack that will allow for an entirely cloud-based utility for businesses to connect telephony services with the Internet.
Project Fonos aims to solve businesses needing to add voice, video, and messaging features to their websites and applications. Companies are, in most cases, unable to accomplish this independently due to the complexity and number of telephony services involved in the task. Instead, businesses rely on third-party providers that offer software as a service (SaaS) that allows for communication between telephony devices and internet-based APIs, services, etc.
The primary innovation of Project Fonos lies in researching and developing the means for creating a highly portable, extensible, cloud-based Programmable Telecommunications Stack. Using this form of CPaaS, businesses will call up an API to dial, answer a call, establish a video session, send SMS, etc., all with just HTTP requests and without worrying what servers and networks are doing with that information in the background. For Project Fonos to be a viable alternative to existing CPaaS, the system must be portable. Therefore, Project Fonos must take advantage of the various cloud environments such as Kubernetes and AWS ECS to run solutions at scale. Guaranteeing portability for Project Fonos will also mean ensuring the deployability of the system using a "single-click-install" when possible.
Special Announcement:
We now have a Slack Channel
There we plan to discuss roadmaps, feature requests and more
Join the channel
High-level overview
Conceptual architecture and stack. We will post more details soon.
A Voice Application is a server that takes control of the flow in a call. A Voice Application can use any combination of the following verbs:
Play- Takes an URL or file and streams the sound back to the calling partySay- Takes a text, synthesizes the text into audio, and streams back the resultGather- Waits for DTMF events and returns back the resultRecord- It records the voice of the calling party and saves the audio on the Storage sub-systemMute- It tells the channel to stop sending media, effectively muting the channelUnmute- It tells the channel to allow media flow
Voice Application Example:
const { VoiceServer } = require("@fonos/voice");
const voiceServer = new VoiceServer({ base: '/voiceapp' });
voiceServer.listen((req, res) => {
console.log(req);
res.play("sound:hello-world");
});
// your app will leave at http://127.0.0.1/voiceapp
// and you can easily publish it to the Internet with:
// ngrok http 3000Everything in PF is an API first, and initiating a call is no exception. You can use the SDK to start a call with a few lines of code.
Example of originating a call with the SDK:
const Fonos = require("@fonos/sdk").default;
const callManager = new Fonos.CallManager();
callManager.call({
from: "9842753574",
to: "17853178070",
webhook: "https://5a2d2ea5d84d.ngrok.io/voiceapp"
})
.then(console.log)
.catch(console.error);
We are working to bring a lot more resource a near future (within a few weeks)
- How we created an open-source alternative to Twilio and why it matters
- An introduction to Programmable Voice Applications
For bugs, questions, and discussions, please use the Github Issues
For contributing, please see the following links:
We're glad to be supported by respected companies and individuals from several industries. See our Github Sponsors learn more.
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Find all supporters in our BACKERS.md file.
Copyright (C) 2021 by Fonoster Inc. MIT License (see LICENSE for details).