Copyright 2017-2024 Moddable Tech, Inc.
Revised: April 3, 2024
The Moddable SDK is a combination of development tools and runtime software to create applications for microcontrollers.
Microcontrollers are highly constrained devices compared to modern computers and mobile devices. A typical microcontroller used with the Moddable SDK has about 45 KB of free memory, 1 MB of Flash ROM, and runs at 80 MHz. The Moddable SDK uses many different techniques, both at build time and at run time, to work efficiently on these devices.
The primary programming language for development is JavaScript. The XS JavaScript engine at the center of the Moddable SDK implements the 2023 JavaScript language standard with better than 99% conformance.[1] The constraints of the target microcontroller may limit the number of language features that can be used in combination by a single application.
The JavaScript language implemented in the Moddable SDK is the same language used in web pages and Node.js. The microcontroller that the scripts run on, however, is very different from a personal computer, server, or mobile device. These differences often require a different approach to using JavaScript. The APIs and objects in the Moddable SDK are quite different, being designed with the goal of minimizing memory use. Bring your existing experience with JavaScript, but be prepared to think about performance, code size, and memory use in a different way.[2]
As much as practical, the Moddable SDK is implemented in JavaScript. Portions of the Moddable SDK are implemented in C for performance or direct access to native APIs.[3] There is no C++.
A significant part of building efficient software for microcontrollers occurs at build time. The Moddable SDK contains many tools and options for the build process.[4] Take time to learn about these to get the best results.
[1] See also: XS Conformance
[2] See also: XS Differences
[3] See also: XS in C
[4] See also: Tools, manifest
The Moddable SDK implements network sockets and a variety of standard, secure networking protocols built on sockets including HTTP/HTTPS, WebSockets, MQTT, mDNS, DNS, SNTP, and telnet.
There is also Bluetooth Low Energy (BLE) protocol support for both BLE peripheral and central device development.
Two APIs for building modern user interfaces are available:
- Commodetto, a bitmap graphics library that provides a 2D graphics API. Commodetto includes the lightweight Poco rendering engine, a display list renderer able to efficiently render a single scanline at a time, saving considerable memory by eliminating the need for a frame buffer.
- Piu, a user interface framework built on top of Commodetto. Piu is an object-based framework that makes it easier to create complex, responsive layouts.
The Moddable SDK also includes command line tools for image format conversion, image compression, image rotation, font compression, localization, and more. The build system automatically makes use of these tools.
The Moddable SDK implements a variety of hardware protocols including digital (GPIO), analog, PWM, and I2C. A number of drivers for common off-the-shelf sensors and corresponding example apps are also available.
The xsbug
JavaScript source level debugger is a full-featured debugger that supports debugging modules and applications for XS platforms.
Similar to other debuggers, xsbug
supports setting breakpoints, browsing source code, and inspection of the call stack and variables. The xsbug
debugger additionally provides real-time instrumentation to track memory usage and profile application and resource consumption.
See also: xsbug documentation
-
To do anything with the Moddable SDK, you have to install it on your computer. This involves downloading this repository, installing some development tools, configuring settings over the command line, and building the Moddable SDK tools.
The Getting Started Guide in the
documentation
directory walks you through the whole process of installing the Moddable SDK. -
With the Moddable SDK installed, you can build and run apps on hardware simulators.
-
To develop for a particular device, you need to install additional tools and SDKs for that device. The setup process for each device is different, but usually involves installing some additional SDKs, drivers, and development tools.
The SDKs and tools for a particular device are not created or maintained by Moddable, but we do provide detailed instructions to help you install them and get started developing for them with the Moddable SDK. The section below provides links to the setup instructions/developer guides for some of the devices we support.
The Moddable SDK includes simulators that run on macOS, Linux, and Windows. These are a great way to get started, and are invaluable as development accelerators.
To use the simulator, you simply need to install the Moddable SDK.
A video demonstration and information about the simulator is available in the Simulator section of the tools documentation.
To use the Moddable SDK with ESP8266-based devices, you need to:
- Install the Moddable SDK
- Install ESP8266 tools
The Moddable SDK supports many devices built on ESP8266, including the devices shown below.
Moddable One[5] |
Node MCU ESP8266[6] |
Moddable Three[7] |
[5] See also: Moddable One Developer Guide, Moddable product page
[6] See also: Using the Moddable SDK with ESP8266
[7] See also: Moddable Three Developer Guide
To use the Moddable SDK with ESP32-based devices, you need to:
- Install the Moddable SDK
- Install ESP32 tools
The Moddable SDK supports many devices built on ESP32, ESP32-S2, ESP32-S3, ESP32-C3, ESP32-C6 and ESP32-H2, including the devices shown below.
Moddable Two[8] |
Node MCU ESP32[9] |
M5Stack |
M5Stack Fire |
M5Stick C |
M5Atom Matrix |
[8] See also: Moddable Two Developer Guide, Moddable product page
[9] See also: Using the Moddable SDK with ESP32
To use the Moddable SDK with Pico devices, you need to:
- Install the Moddable SDK
- Install Pico tools
The Moddable SDK supports many devices built with the Raspberry Pi Pico, including the boards shown below:
Raspberry Pi Pico W |
Pimoroni Pico Display |
ili9341 |
Adafruit QT Py |
Sparkfun Pro Micro |
LILYGO T-Display |
To use the Moddable SDK with nRF52 devices, you need to:
- Install the Moddable SDK
- Install nRF5 tools
- Install a bootloader. This is not necessary for the Moddable Four as the bootloader is pre-installed on Moddable Four.
The Moddable SDK supports many devices built with the nRF52, including the boards shown below:
Moddable Four[10] |
Nordic DK pca10056 |
Sparkfun Pro nRF52840 |
Makerdiary nRF52840 MDK |
seeed XIAO-nRF52840 |
Adafruit ItsyBitsy nRF52840 |
[10] See also: Moddable Four Developer Guide, Moddable product page
To use the Moddable SDK with Gecko devices, you need to:
- Install the Moddable SDK
- Install Gecko tools
The following developer resources are also available:
- Silicon Labs Gecko support in Moddable SDK blog post
- Bluetooth Low Energy Support Now Available in Moddable SDK blog post
The Moddable SDK supports four Gecko boards, shown below.
Giant Gecko |
Mighty Gecko |
Thunderboard Sense 2 |
Blue Gecko |
To use the Moddable SDK with the QCA4020, you need to:
- Install the Moddable SDK
- Install QCA4020 tools
The following developer resources are also available:
- Qualcomm QCA4020 Now Supported by Moddable SDK blog post by Moddable
- QCA4020 Getting Started with the Moddable SDK blog post on the Qualcomm Developer Network
- QCA4020 Modern UI Application Development with the Moddable SDK blog post on the Qualcomm Developer Network
WebAssembly is supported in modern web browsers, both on computers and mobile devices. The Wasm support in the Moddable SDK is compatible with Safari, FireFox, and Chrome browsers.
To use the Moddable SDK with WebAssembly, you need to:
- Install the Moddable SDK for your host platform
- Install Wasm tools
We have tested a variety of SPI displays with the ESP8266 and ESP32. Video demonstrations of these displays are on our website. Wiring guides are available in the documentation/displays directory. The source code for the corresponding display and touch drivers is available in the modules/drivers directory.
The Moddable SDK repository contains the following top level directories:
- build: Files required for specific microcontroller targets, the simulator, and make files for build tools in the
tools
directory. - contributed: Unofficial projects and modules that show useful techniques for working with the Moddable API.
- documentation: All the documentation for the Moddable SDK. Documentation is provided in markdown format.
- examples: Example applications for many of the capabilities of the Moddable SDK. The readme.md document provides a guide to building the examples and information to help you find the types of examples you are looking for.
- license: The license agreements for the software provided in the Moddable SDK. The Contributor License Agreements are here as well.
- modules: The software modules that make up the runtime of the Moddable SDK. These include networking, graphics, user interface, hardware access, cryptographic primitives, and device drivers. All modules have a JavaScript API. Many modules are implemented in part using C.
- tools: Tools to build applications using the Moddable SDK. These include command line tools for image format conversion, image compression, image rotation, font compression, processing localization strings, compiling resources, and building applications from JSON manifest files. In addition, xsbug, the XS source level debugger, is here.
- xs: The XS JavaScript engine including its compiler and linker, and the test262 execution shell.
The JavaScript APIs supported by the Moddable SDK are documented in a suite of documents in the documentation directory. The documentation is an extensive reference, with numerous examples. The primary Piu document alone is over 100 pages. All documentation is provided in markdown format.
See the readme document in that directory for an overview of the API documents.
In addition to the documentation and examples in this repository, we have several resources for developers.
Our Gitter chatroom is a great place to ask questions and discuss the Moddable SDK with members of the Moddable team and other developers. | |
The Moddable blog contains in-depth posts about new features and the Moddable, interesting projects by Moddable, and important updates to the Moddable SDK and XS JavaScript engine. | |
IoT Development for ESP32 and ESP8266 with JavaScript is a book written by members of the Moddable team, Peter Hoddie and Lizzie Prader. | |
実践Moddable JavaScriptではじめるIoTアプリケーション (技術の泉シリーズ is a book written by developer Shinya Ishikawa. | |
Detailed release notes for updates to the Moddable SDK are posted regularly on GitHub. | |
The Moddable SDK build tools have support TypeScript, so you can use build-time type checking in your embedded code. Details on the blog. |
The Moddable SDK is provided under a combination of licenses that includes GPL 3.0, LGPL 3.0, Apache 2.0, and Creative Commons Attribution 4.0 Licenses. The license directory contains additional information on the licenses used and licensing options. The licensing article on the Moddable web site describes additional background and a commercial licensing option.
We work to ensure that there are no security holes in the Moddable SDK. Still, it is nearly impossible to eliminate them all. Security researchers who identify potential security issues with our software are encouraged to open an open an issue. We will respond to these as quickly as we can. If you prefer, you may instead report security issues by email.
If you're an independent developer, we recommend you start a discussion or join us in our Gitter chatroom if you have a question or want to talk about your projects. If you have trouble getting started or find any bugs, please open an issue. We'll respond as quickly as practical, and other developers can benefit from the answers to your questions.
To learn more about Moddable, see our website.
For companies interested in the benefits of using JavaScript and the Moddable SDK to power your products, Moddable provides consulting services to help you get started. We're available to help with design, implementation, training, and support.
You can also reach out to us on Twitter (@moddabletech). Following us on Twitter is the best way to keep up with what we’re doing—we post announcements about new blog posts there, along with other Moddable news.
You can contact us directly by e-mail at [email protected].