AWS Hexagon v1¶
The AWS Hexagon v1 is one of the development board created by Tekt Industries that mounts on-board the official WROOM32 module. The Hexagon device features built-in USB-to-Serial converter, automatic bootloader reset, Lithium Ion/Polymer charger, 2 Groove connectors, 2 user buttons, 6 APA102-2020 Super LED, and all the GPIO brought.
AWS Hexagon v1 contains a dual-core ESP32 chip, 4 MB of SPI Flash, tuned antenna, and The ESP32 microcontroller has both WiFi and Bluetooth Classic/LE support.
The internal flash of the ESP32 module is organized in a single flash area with pages of 4096 bytes each. The flash starts at address 0x00000, but many areas are reserved for Esp32 IDF SDK and Zerynth VM. In particular:
|0x00009000||16Kb||Esp32 NVS area|
|0x0000D000||8Kb||Esp32 OTA data|
|0x0000F000||4Kb||Esp32 PHY data|
|0x00110000||1Mb||Zerynth VM (FOTA)|
|0x00290000||512Kb||Zerynth Bytecode (FOTA)|
|0x00310000||512Kb||Free for user storage|
Microcontroller: Tensilica 32-bit Single-/Dual-core CPU Xtensa LX6
Operating Voltage: 3.3V
Input Voltage: 7-12V
Digital I/O Pins (DIO): 28
Analog Input Pins (ADC): 8
Analog Outputs Pins (DAC): 2
Flash Memory: 4 MB
SRAM: 520 KB
Clock Speed: 240 Mhz
Wi-Fi: IEEE 802.11 b/g/n/e/i:
- Integrated TR switch, balun, LNA, power amplifier and matching network
- WEP or WPA/WPA2 authentication, or open networks
Power to the AWS Hexagon v1 is supplied via the on-board USB Micro B connector or directly throught the connector for a 3.7/4.2 V battery. The power source is selected automatically.
The device can operate on an external supply of 2.5 to 6 volts. If using more than 6V, the voltage regulator may overheat and damage the device.
Connect, Register, Virtualize and Program¶
The AWS Hexagon v1 exposes the serial port of the ESP32 module via a CP2104 usb bridge which is also connected to the boot pins of the module, allowing for a seamless virtualization of the device.
Drivers for the bridge can be downloaded here and are needed for Windows and Mac platforms.
For Linux Platform: to allow the access to serial ports the user needs read/write access to the serial device file. Adding the user to the group, that owns this file, gives the required read/write access:
- Ubuntu distribution –> dialout group
- Arch Linux distribution –> uucp group
Once connected on a USB port, if drivers have been correctly installed, the Hexagon device is recognized by Zerynth Studio. The next steps are:
- Select the Hexagon on the Device Management Toolbar (disambiguate if necessary);
- Register the device by clicking the “Z” button from the Zerynth Studio;
- Create a Virtual Machine for the device by clicking the “Z” button for the second time;
- Virtualize the device by clicking the “Z” button for the third time.
No user intervention on the device is required for registration and virtualization process
After virtualization, the Hexagon is ready to be programmed and the Zerynth scripts uploaded. Just Select the virtualized device from the “Device Management Toolbar” and click the dedicated “upload” button of Zerynth Studio.
No user intervention on the device is required for the uplink process.
Firmware Over the Air update (FOTA)¶
The Firmware Over the Air feature allows to update the device firmware at runtime. Zerynth FOTA in the Hexagon device is available for bytecode and VM.
Flash Layout is shown in table below:
|0x00010000||1Mb||Zerynth VM (slot 0)|
|0x00110000||1Mb||Zerynth VM (slot 1)|
|0x00210000||512Kb||Zerynth Bytecode (slot 0)|
|0x00290000||512Kb||Zerynth Bytecode (slot 1)|
For Esp32 based devices, the FOTA process is implemented mostly by using the provided system calls in the IDF framework. The selection of the next VM to be run is therefore a duty of the Espressif bootloader; the bootloader however, does not provide a failsafe mechanism to revert to the previous VM in case the currently selected one fails to start. At the moment this lack of a safety feature can not be circumvented, unless by changing the bootloader. As soon as Espressif relases a new IDF with such feature, we will release updated VMs.
Secure Firmware feature allows to detect and recover from malfunctions and, when supported, to protect the running firmware (e.g. disabling the external access to flash or assigning protected RAM memory to critical parts of the system).
This feature is strongly platform dependent; more information at Secure Firmware - ESP32 section.
Not all IDF features have been included in the Esp32 based VMs. In particular the following are missing but will be added in the near future:
- BLE support
- Touch detection support