circuitpython/docs/esp8266/tutorial/intro.rst

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.. _intro:
Getting started with MicroPython on the ESP8266
===============================================
Using MicroPython is a great way to get the most of your ESP8266 board. And
vice versa, the ESP8266 chip is a great platform for using MicroPython. This
tutorial will guide you through setting up MicroPython, getting a prompt, using
WebREPL, connecting to the network and communicating with the Internet, using
the hardware peripherals, and controlling some external components.
Let's get started!
Requirements
------------
The first thing you need is a board with an ESP8266 chip. The MicroPython
software supports the ESP8266 chip itself and any board should work. The main
characteristic of a board is how much flash it has, how the GPIO pins are
connected to the outside world, and whether it includes a built-in USB-serial
convertor to make the UART available to your PC.
The minimum requirement for flash size is 1Mbyte. There is also a special
build for boards with 512KB, but it is highly limited comparing to the
normal build: there is no support for filesystem, and thus features which
depend on it won't work (WebREPL, upip, etc.). As such, 512KB build will
be more interesting for users who build from source and fine-tune parameters
for their particular application.
Names of pins will be given in this tutorial using the chip names (eg GPIO0)
and it should be straightforward to find which pin this corresponds to on your
particular board.
Powering the board
------------------
If your board has a USB connector on it then most likely it is powered through
this when connected to your PC. Otherwise you will need to power it directly.
Please refer to the documentation for your board for further details.
Getting the firmware
--------------------
The first thing you need to do is download the most recent MicroPython firmware
.bin file to load onto your ESP8266 device. You can download it from the
`MicroPython downloads page <http://micropython.org/download#esp8266>`_.
From here, you have 3 main choices
* Stable firmware builds for 1024kb modules and above.
* Daily firmware builds for 1024kb modules and above.
* Daily firmware builds for 512kb modules.
If you are just starting with MicroPython, the best bet is to go for the Stable
firmware builds. If you are an advanced, experienced MicroPython ESP8266 user
who would like to follow development closely and help with testing new
features, there are daily builds (note: you actually may need some
development experience, e.g. being ready to follow git history to know
what new changes and features were introduced).
Support for 512kb modules is provided on a feature preview basis. For end
users, it's recommended to use modules with flash of 1024kb or more. As
such, only daily builds for 512kb modules are provided.
Deploying the firmware
----------------------
Once you have the MicroPython firmware (compiled code), you need to load it onto
your ESP8266 device. There are two main steps to do this: first you
need to put your device in boot-loader mode, and second you need to copy across
the firmware. The exact procedure for these steps is highly dependent on the
particular board and you will need to refer to its documentation for details.
If you have a board that has a USB connector, a USB-serial convertor, and has
the DTR and RTS pins wired in a special way then deploying the firmware should
be easy as all steps can be done automatically. Boards that have such features
include the Adafruit Feather HUZZAH and NodeMCU boards.
For best results it is recommended to first erase the entire flash of your
device before putting on new MicroPython firmware.
Currently we only support esptool.py to copy across the firmware. You can find
this tool here: `<https://github.com/espressif/esptool/>`__, or install it
using pip::
pip install esptool
Versions starting with 1.3 support both Python 2.7 and Python 3.4 (or newer).
An older version (at least 1.2.1 is needed) works fine but will require Python
2.7.
Any other flashing program should work, so feel free to try them out or refer
to the documentation for your board to see its recommendations.
Using esptool.py you can erase the flash with the command::
esptool.py --port /dev/ttyUSB0 erase_flash
And then deploy the new firmware using::
esptool.py --port /dev/ttyUSB0 --baud 460800 write_flash --flash_size=detect 0 esp8266-20170108-v1.8.7.bin
You might need to change the "port" setting to something else relevant for your
PC. You may also need to reduce the baudrate if you get errors when flashing
(eg down to 115200). The filename of the firmware should also match the file
that you have.
For some boards with a particular FlashROM configuration (e.g. some variants of
a NodeMCU board) you may need to use the following command to deploy
the firmware (note the ``-fm dio`` option)::
esptool.py --port /dev/ttyUSB0 --baud 460800 write_flash --flash_size=detect -fm dio 0 esp8266-20170108-v1.8.7.bin
If the above commands run without error then MicroPython should be installed on
your board!
Serial prompt
-------------
Once you have the firmware on the device you can access the REPL (Python prompt)
over UART0 (GPIO1=TX, GPIO3=RX), which might be connected to a USB-serial
convertor, depending on your board. The baudrate is 115200. The next part of
the tutorial will discuss the prompt in more detail.
WiFi
----
After a fresh install and boot the device configures itself as a WiFi access
point (AP) that you can connect to. The ESSID is of the form MicroPython-xxxxxx
where the x's are replaced with part of the MAC address of your device (so will
be the same everytime, and most likely different for all ESP8266 chips). The
password for the WiFi is micropythoN (note the upper-case N). Its IP address
will be 192.168.4.1 once you connect to its network. WiFi configuration will
be discussed in more detail later in the tutorial.
Troubleshooting installation problems
-------------------------------------
If you experience problems during flashing or with running firmware immediately
after it, here are troubleshooting recommendations:
* Be aware of and try to exclude hardware problems. There are 2 common problems:
bad power source quality and worn-out/defective FlashROM. Speaking of power
source, not just raw amperage is important, but also low ripple and noise/EMI
in general. If you experience issues with self-made or wall-wart style power
supply, try USB power from a computer. Unearthed power supplies are also known
to cause problems as they source of increased EMI (electromagnetic interference)
- at the very least, and may lead to electrical devices breakdown. So, you are
advised to avoid using unearthed power connections when working with ESP8266
and other boards. In regard to FlashROM hardware problems, there are independent
(not related to MicroPython in any way) reports
`(e.g.) <http://internetofhomethings.com/homethings/?p=538>`_
that on some ESP8266 modules, FlashROM can be programmed as little as 20 times
before programming errors occur. This is *much* less than 100,000 programming
cycles cited for FlashROM chips of a type used with ESP8266 by reputable
vendors, which points to either production rejects, or second-hand worn-out
flash chips to be used on some (apparently cheap) modules/boards. You may want
to use your best judgement about source, price, documentation, warranty,
post-sales support for the modules/boards you purchase.
* The flashing instructions above use flashing speed of 460800 baud, which is
good compromise between speed and stability. However, depending on your
module/board, USB-UART convertor, cables, host OS, etc., the above baud
rate may be too high and lead to errors. Try a more common 115200 baud
rate instead in such cases.
* If lower baud rate didn't help, you may want to try older version of
esptool.py, which had a different programming algorithm::
pip install esptool==1.0.1
This version doesn't support ``--flash_size=detect`` option, so you will
need to specify FlashROM size explicitly (in megabits). It also requires
Python 2.7, so you may need to use ``pip2`` instead of ``pip`` in the
command above.
* The ``--flash_size`` option in the commands above is mandatory. Omitting
it will lead to a corrupted firmware.
* To catch incorrect flash content (e.g. from a defective sector on a chip),
add ``--verify`` switch to the commands above.
* Additionally, you can check the firmware integrity from a MicroPython REPL
prompt (assuming you were able to flash it and ``--verify`` option doesn't
report errors)::
import esp
esp.check_fw()
If the last output value is True, the firmware is OK. Otherwise, it's
corrupted and need to be reflashed correctly.
* If you experience any issues with another flashing application (not
esptool.py), try esptool.py, it is a generally accepted flashing
application in the ESP8266 community.
* If you still experience problems with even flashing the firmware, please
refer to esptool.py project page, https://github.com/espressif/esptool
for additional documentation and bug tracker where you can report problems.
* If you are able to flash firmware, but ``--verify`` option or
``esp.check_fw()`` return errors even after multiple retries, you
may have a defective FlashROM chip, as explained above.