Apache Mynewt is an open-source operating system for tiny embedded devices. Its goal is to make it easy to develop applications for microcontroller environments where power and cost are driving factors.
It currently supports the following hardware platforms:
- nRF52 DK from Nordic Semiconductor (Cortex-M4)
- RuuviTag Sensor beacon platform (Nordic nRF52832 based)
- nRF51 DK from Nordic Semiconductor (Cortex-M0)
- VBLUno51 from VNG IoT Lab (Nordic nRF51822 SoC based)
- VBLUno52 from VNG IoT Lab (Nordic nRF52832 SoC based, Cortex-M4)
- BLE Nano from RedBear (Nordic nRF51822 SoC based)
- BLE Nano2 and Blend2 from RedBear (Nordic nRF52832 SoC based)
- BMD-300-EVAL-ES from Rigado (Cortex-M4)
- BMD-200 from Rigado (Cortex-M0)
- Adafruit Feather nRF52 Pro
- STM32F4DISCOVERY from ST Micro (Cortex-M4)
- STM32-E407 from Olimex (Cortex-M4)
- Arduino Zero (Cortex-M0)
- Arduino Zero Pro (Cortex-M0)
- Arduino M0 Pro (Cortex-M0)
- Arduino MKR1000 (Cortex-M0)
- Arduino Primo NRF52 (Cortex-M4)
- NUCLEO-F401RE (Cortex-M4)
- NUCLEO-F767ZI (Cortex-M7)
- Discovery kit for STM32F7 Series (Cortex-M7)
- FRDM-K64F from NXP (Cortex-M4)
- BBC micro:bit (Nordic nrf51822; Cortex-M0)
- SiFive HiFive1 (RISC-V Instruction Set Architecture)
- NINA-B1 BLE module from u-blox (Cortex-M4)
- 6LoWPAN clicker from MikroElectronika (PIC32MX470 microcontroller)
- chipKIT Wi-FIRE (PIC32MZ microcontroller)
- Creator Ci40 module (dual MIPS interAptiv CPU)
- EE-02 board with Semtech Sx1276 chip from Telenor (Cortex-M4)
- DA1469x Pro DK from Dialog Semiconductor (Cortex-M33)
Apache Mynewt uses the Newt build and package management system, which allows you to compose your OS and choose only the components you need.
This repository contains the core packages of the Apache Mynewt OS, including:
- A Pre-emptive, Real Time OS Kernel
- A open-source Bluetooth 5.0 stack (both Host & Controller), NimBLE, that
completely replaces the proprietary SoftDevice on Nordic chipsets.
NOTE NimBLE sources were moved to separate repository.
- Support for 251 byte packet size
- Support for all 4 roles concurrently - Broadcaster, Observer, Peripheral and Central
- Support for up to 32 simultaneous connections.
- Legacy and SC (secure connections) SMP support (pairing and bonding).
- Advertising Extensions.
- A flash filesystem, NFFS, which is designed for tiny (128KB->16MB) flashes.
- Flash Circular Buffer
- JSON and CBOR encoding
- Bootloader support
- Remote Software Upgrade
- HAL and BSP infrastructure designed to abstract microcontroller specifics
- Shell and Console support
- Statistics and Logging Infrastructure
- OIC Client and Server
If you are browsing around the source tree, and want to see some of the major functional chunks, here are a few pointers:
kernel: Contains the core of the RTOS (kernel/os)
mgmt: Contains the management libraries for newtmgr mgmt/newtmgr), which supports software upgrade and remote fetching of logs and statistics.
net: Contains the networking packages. Highlights of the net directory are the NimBLE and IP packages. Nimble is a full Bluetooth host and controller implementation, that is written from the ground up for the Apache Mynewt Operating System (due to code moved to separate repo this folder contains only compatibility package files). ip is a port of LWIP, a complete IPv4 and IPv6 implementation.
hw: Contains the HW specific support packages. Board Support Packages are located in hw/bsp, and the MCU specific definitions they rely on are located in hw/mcu. There is a HAL (Hardware Abstraction Layer) stored in hw/hal, even though the implementation of various HALs are stored in the MCU specific definitions. Finally, drivers can be found in hw/drivers. Drivers provide a higher-level interface to the hardware than the HAL, and may require the Mynewt operating system to function.
fs: Contains the FS package (fs/fs) which is the high-level Apache Mynewt file system API. A specific implementation of that FS, is NFFS (Newtron Flash File System.) The Newtron file system is a FS that has been built from the ground-up in Apache Mynewt, designed to be optimized for small (64KB-32MB) flashes. The fs directory also contains fcb, a flash circular buffer implementation.
In addition to some of the core packages, there are also some sample
applications that show how to instantiate the Apache Mynewt system. These
sample applications are located in the
apps/ directory. They include:
- boot: Project to build the bootloader for test platforms.
- blinky: The minimal packages to build the OS, and blink a LED!
- slinky: A slightly more complex project that includes the console and shell libraries.
- blecent: A basic central device with no user interface. This application scans for a peripheral that supports the alert notification service (ANS). Upon discovering such a peripheral, blecent connects and performs a characteristic read, characteristic write, and notification subscription.
- blehci: Implements a BLE controller-only application. A separate host-only implementation, such as Linux's BlueZ, can interface with this application via HCI over UART.
- bleprph: An implementation of a minimal BLE peripheral.
- btshell: Shell interface to the Apache Mynewt Bluetooth stack.
- bleuart: Implements a simple BLE peripheral that supports the Nordic UART / Serial Port Emulation service (https://developer.nordicsemi.com/nRF5_SDK/nRF51_SDK_v8.x.x/doc/8.0.0/s110/html/a00072.html).
- test: Test project which can be compiled either with the simulator, or on a per-architecture basis. Test will run all the package's unit tests.
If you are having trouble using or contributing to Apache Mynewt, or just want to talk to a human about what you're working on, you can contact us via the developers mailing list.
Although not a formal channel, you can also find a number of core developers on the #mynewt channel on Freenode.
Also, be sure to checkout the Frequently Asked Questions for some help troubleshooting first.
Anybody who works with Apache Mynewt can be a contributing member of the community that develops and deploys it. The process of releasing an operating system for microcontrollers is never done: and we welcome your contributions to that effort.
More information can be found at the Community section of the Apache Mynewt website, located here.
Apache Mynewt welcomes pull request via Github. Discussions are done on Github, but depending on the topic, can also be relayed to the official Apache Mynewt developer mailing list firstname.lastname@example.org.
If you are suggesting a new feature, please email the developer list directly, with a description of the feature you are planning to work on.
We do not merge pull requests directly on Github, all PRs will be pulled and pushed through https://git.apache.org/.
Bugs can be filed on the Apache Mynewt Issues. Please label the issue as a "Bug".
Where possible, please include a self-contained reproduction case!
Feature requests should also be filed on the Apache Mynewt Bug Tracker. Please label the issue as a "Feature" or "Enhancement" depending on the scope.
We love getting newt tests! Apache Mynewt is a huge undertaking, and improving code coverage is a win for every Apache Mynewt user.
Contributing to documentation (in addition to writing tests), is a great way to get involved with the Apache Mynewt project.
The Mynewt core OS documentation is found in /docs.
The code in this repository is all under either the Apache 2 license, or a license compatible with the Apache 2 license. See the LICENSE file for more information.
This distribution includes cryptographic software. The country in which you currently reside may have restrictions on the import, possession, use, and/or re-export to another country, of encryption software. BEFORE using any encryption software, please check your country's laws, regulations and policies concerning the import, possession, or use, and re-export of encryption software, to see if this is permitted. See http://www.wassenaar.org/ for more information.
The U.S. Government Department of Commerce, Bureau of Industry and Security (BIS), has classified this software as Export Commodity Control Number (ECCN) 5D002.C.1, which includes information security software using or performing cryptographic functions with asymmetric algorithms. The form and manner of this Apache Software Foundation distribution makes it eligible for export under the License Exception ENC Technology Software Unrestricted (TSU) exception (see the BIS Export Administration Regulations, Section 740.13) for both object code and source code.
The following provides more details on the included cryptographic software: https://tls.mbed.org/supported-ssl-ciphersuites.