202 lines
7.8 KiB
Markdown
202 lines
7.8 KiB
Markdown
MicroPython port to the ESP32
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=============================
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This is an experimental port of MicroPython to the Espressif ESP32
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microcontroller. It uses the ESP-IDF framework and MicroPython runs as
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a task under FreeRTOS.
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Supported features include:
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- REPL (Python prompt) over UART0.
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- 16k stack for the MicroPython task and 96k Python heap.
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- Many of MicroPython's features are enabled: unicode, arbitrary-precision
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integers, single-precision floats, complex numbers, frozen bytecode, as
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well as many of the internal modules.
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- Internal filesystem using the flash (currently 2M in size).
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- The machine module with GPIO, UART, SPI, software I2C, ADC, DAC, PWM,
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TouchPad, WDT and Timer.
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- The network module with WLAN (WiFi) support.
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Development of this ESP32 port was sponsored in part by Microbric Pty Ltd.
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Setting up the toolchain and ESP-IDF
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------------------------------------
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There are two main components that are needed to build the firmware:
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- the Xtensa cross-compiler that targets the CPU in the ESP32 (this is
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different to the compiler used by the ESP8266)
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- the Espressif IDF (IoT development framework, aka SDK)
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The ESP-IDF changes quickly and MicroPython only supports a certain version. The
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git hash of this version can be found by running `make` without a configured
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`ESPIDF`. Then you can fetch only the given esp-idf using the following command:
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$ git clone https://github.com/espressif/esp-idf.git
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$ git checkout <Current supported ESP-IDF commit hash>
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$ git submodule update --init --recursive
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The binary toolchain (binutils, gcc, etc.) can be installed using the following
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guides:
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* [Linux installation](https://esp-idf.readthedocs.io/en/latest/get-started/linux-setup.html)
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* [MacOS installation](https://esp-idf.readthedocs.io/en/latest/get-started/macos-setup.html)
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* [Windows installation](https://esp-idf.readthedocs.io/en/latest/get-started/windows-setup.html)
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If you are on a Windows machine then the
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[Windows Subsystem for Linux](https://msdn.microsoft.com/en-au/commandline/wsl/install_guide)
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is the most efficient way to install the ESP32 toolchain and build the project.
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If you use WSL then follow the
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[Linux guidelines](https://esp-idf.readthedocs.io/en/latest/get-started/linux-setup.html)
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for the ESP-IDF instead of the Windows ones.
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The Espressif ESP-IDF instructions above only install pyserial for Python 2,
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so if you're running Python 3 or a non-system Python you'll also need to
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install `pyserial` (or `esptool`) so that the Makefile can flash the board
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and set parameters:
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```bash
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$ pip install pyserial
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```
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Once everything is set up you should have a functioning toolchain with
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prefix xtensa-esp32-elf- (or otherwise if you configured it differently)
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as well as a copy of the ESP-IDF repository. You will need to update your `PATH`
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environment variable to include the ESP32 toolchain. For example, you can issue
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the following commands on (at least) Linux:
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$ export PATH=$PATH:$HOME/esp/crosstool-NG/builds/xtensa-esp32-elf/bin
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You can put this command in your `.profile` or `.bash_login`.
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You then need to set the `ESPIDF` environment/makefile variable to point to
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the root of the ESP-IDF repository. You can set the variable in your PATH,
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or at the command line when calling make, or in your own custom `makefile`.
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The last option is recommended as it allows you to easily configure other
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variables for the build. In that case, create a new file in the esp32
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directory called `makefile` and add the following lines to that file:
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```
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ESPIDF = <path to root of esp-idf repository>
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#PORT = /dev/ttyUSB0
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#FLASH_MODE = qio
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#FLASH_SIZE = 4MB
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#CROSS_COMPILE = xtensa-esp32-elf-
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include Makefile
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```
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Be sure to enter the correct path to your local copy of the IDF repository
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(and use `$(HOME)`, not tilde, to reference your home directory).
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If your filesystem is case-insensitive then you'll need to use `GNUmakefile`
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instead of `makefile`.
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If the Xtensa cross-compiler is not in your path you can use the
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`CROSS_COMPILE` variable to set its location. Other options of interest
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are `PORT` for the serial port of your esp32 module, and `FLASH_MODE`
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(which may need to be `dio` for some modules)
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and `FLASH_SIZE`. See the Makefile for further information.
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Building the firmware
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---------------------
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The MicroPython cross-compiler must be built to pre-compile some of the
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built-in scripts to bytecode. This can be done by (from the root of
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this repository):
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```bash
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$ make -C mpy-cross
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```
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The ESP32 port has a dependency on Berkeley DB, which is an external
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dependency (git submodule). You'll need to have git initialize that
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module using the commands:
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```bash
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$ git submodule init lib/berkeley-db-1.xx
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$ git submodule update
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```
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Then to build MicroPython for the ESP32 run:
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```bash
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$ cd ports/esp32
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$ make
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```
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This will produce binary firmware images in the `build/` subdirectory
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(three of them: bootloader.bin, partitions.bin and application.bin).
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To flash the firmware you must have your ESP32 module in the bootloader
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mode and connected to a serial port on your PC. Refer to the documentation
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for your particular ESP32 module for how to do this. The serial port and
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flash settings are set in the `Makefile`, and can be overridden in your
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local `makefile`; see above for more details.
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You will also need to have user permissions to access the /dev/ttyUSB0 device.
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On Linux, you can enable this by adding your user to the `dialout` group,
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and rebooting or logging out and in again.
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```bash
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$ sudo adduser <username> dialout
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```
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If you are installing MicroPython to your module for the first time, or
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after installing any other firmware, you should first erase the flash
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completely:
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```bash
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$ make erase
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```
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To flash the MicroPython firmware to your ESP32 use:
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```bash
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$ make deploy
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```
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This will use the `esptool.py` script (provided by ESP-IDF) to download the
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binary images.
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Getting a Python prompt
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-----------------------
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You can get a prompt via the serial port, via UART0, which is the same UART
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that is used for programming the firmware. The baudrate for the REPL is
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115200 and you can use a command such as:
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```bash
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$ picocom -b 115200 /dev/ttyUSB0
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```
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Configuring the WiFi and using the board
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----------------------------------------
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The ESP32 port is designed to be (almost) equivalent to the ESP8266 in
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terms of the modules and user-facing API. There are some small differences,
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notably that the ESP32 does not automatically connect to the last access
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point when booting up. But for the most part the documentation and tutorials
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for the ESP8266 should apply to the ESP32 (at least for the components that
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are implemented).
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See http://docs.micropython.org/en/latest/esp8266/esp8266/quickref.html for
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a quick reference, and http://docs.micropython.org/en/latest/esp8266/esp8266/tutorial/intro.html
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for a tutorial.
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The following function can be used to connect to a WiFi access point (you can
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either pass in your own SSID and password, or change the defaults so you can
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quickly call `wlan_connect()` and it just works):
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```python
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def wlan_connect(ssid='MYSSID', password='MYPASS'):
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import network
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wlan = network.WLAN(network.STA_IF)
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if not wlan.active() or not wlan.isconnected():
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wlan.active(True)
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print('connecting to:', ssid)
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wlan.connect(ssid, password)
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while not wlan.isconnected():
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pass
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print('network config:', wlan.ifconfig())
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```
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Note that some boards require you to configure the WiFi antenna before using
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the WiFi. On Pycom boards like the LoPy and WiPy 2.0 you need to execute the
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following code to select the internal antenna (best to put this line in your
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boot.py file):
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```python
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import machine
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antenna = machine.Pin(16, machine.Pin.OUT, value=0)
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```
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Troubleshooting
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---------------
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* Continuous reboots after programming: Ensure FLASH_MODE is correct for your
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board (e.g. ESP-WROOM-32 should be DIO). Then perform a `make clean`, rebuild,
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redeploy.
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