2020-05-15 20:52:49 +02:00
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Watch Application System in Python
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==================================
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Introduction
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------------
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Currently in its infancy wasp-os provides only a little more than a simple
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digital clock application for `PineTime <https://www.pine64.org/pinetime/>`_
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together with access to the MicroPython REPL for interactive testing and
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tweaking. However it keeps time well and has enough power saving
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functions implemented that it can survive for well over 72 hours between
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charges so even at this early stage it is functional as a wearable
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timepiece.
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Wasp-os includes a robust bootloader based on the Adafruit NRF52
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Bootloader. It has been extended to make it robust for development on
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form-factor devices without a reset button, power switch, SWD debugger
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or UART. This allows us to confidently develop on sealed devices relying
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only on BLE for updates.
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Videos
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------
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.. image:: https://img.youtube.com/vi/YktiGUSRJB4/0.jpg
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:target: https://www.youtube.com/watch?v=YktiGUSRJB4
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:alt: An M2 pre-release running on Pine64 PineTime
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`An M2 pre-release running on Pine64 PineTime <https://www.youtube.com/watch?v=YktiGUSRJB4>`_
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.. image:: https://img.youtube.com/vi/tuk9Nmr3Jo8/0.jpg
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:target: https://www.youtube.com/watch?v=tuk9Nmr3Jo8
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:alt: How to develop wasp-os python applications on a Pine64 PineTime
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`How to develop wasp-os python applications on a Pine64 PineTime <https://www.youtube.com/watch?v=tuk9Nmr3Jo8>`_
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.. image:: https://img.youtube.com/vi/kf1VHj587Mc/0.jpg
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:target: https://www.youtube.com/watch?v=kf1VHj587Mc
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:alt: Developing for Pine64 PineTime using wasp-os and MicroPython
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`Developing for Pine64 PineTime using wasp-os and MicroPython <https://www.youtube.com/watch?v=kf1VHj587Mc>`_
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Documentation
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-------------
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Wasp-os is has `extensive documentation <https://wasp-os.readthedocs.io>`_
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which includes a detailed `Applicaiton Writer's Guide
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<https://daniel-thompson.github.io/wasp-os/appguide.html>`_ to help you
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get started coding for wasp-os as quickly as possible.
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2020-05-20 22:55:11 +02:00
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Building from source
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--------------------
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Building wasp-os and launching the wasp-os simulator requires the
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following python modules: click, numpy, pexpect, PIL (or Pillow),
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pyserial, pysdl2.
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On Debian Buster the requires python modules can be obtain with the
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following commands:
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.. code-block:: sh
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sudo apt install \
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git build-essential libsdl2-2.0.0 \
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python3-click python3-numpy python3-pexpect \
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python3-pil python3-pip python3-serial
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pip3 install --user pysdl2
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You will need a toolchain for the Arm Cortex-M4. wasp-os is developed and
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tested using the `GNU-RM toolchain
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<https://developer.arm.com/tools-and-software/open-source-software/developer-tools/gnu-toolchain/gnu-rm>`_
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(9-2019-q4) from Arm.
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.. note::
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There are known problems with toolchains older than gcc-7.3 due to problems
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with link-time-optimization (which is enabled by default).
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2020-05-15 20:52:49 +02:00
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Get the code from
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2020-05-20 22:55:11 +02:00
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`https://github.com/daniel-thompson/wasp-os <https://github.com/daniel-thompson/wasp-os>`_ :
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2020-05-15 20:52:49 +02:00
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.. code-block:: sh
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2020-05-20 22:55:11 +02:00
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git clone https://github.com/daniel-thompson/wasp-os
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cd wasp-os
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2020-05-15 20:52:49 +02:00
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make submodules
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make softdevice
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2020-05-20 22:55:11 +02:00
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Build the firmware:
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.. code-block:: sh
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2020-05-15 20:52:49 +02:00
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make -j `nproc` BOARD=pinetime all
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2020-05-20 22:55:11 +02:00
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Finally to test out ideas and concepts on the simulator try:
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2020-05-15 20:52:49 +02:00
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2020-05-20 22:55:11 +02:00
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.. code-block:: sh
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2020-05-15 20:52:49 +02:00
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2020-05-20 22:55:11 +02:00
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make sim
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See :ref:`Testing on the simulator` for more details on how
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to use the simulator.
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2020-05-15 20:52:49 +02:00
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Installing
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----------
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Use an SWD programmer to install ``bootloader.hex`` to the PineTime. This
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file is an Intel HEX file containing both the bootloader and the Nordic
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SoftDevice. Be careful to disconnect cleanly from the debug software
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since just pulling out the SWD cable will mean the nRF52 will still
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believe it is being debugged (and won't properly enter deep sleep
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modes).
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.. note::
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If you have a new PineTime then it will have been delivered with flash
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protection enabled. You must disable the flash protection before trying to
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program it.
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To install using Android device:
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* Copy ``micropython.zip`` to your Android device and download nRF Connect
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for Android if you do not already have it.
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* In nRF Connect, choose settings and reduce the DFU packet count from
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10 to 4.
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* Connect to PineDFU using nRFConnect, click the DFU button and send
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``micropython.zip`` to the device.
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To install using Linux and ota-dfu:
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* Look up the MAC address for your watch (try: ``sudo hcitool lescan``\ ).
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* Use ota-dfu to upload ``micropython.zip`` to the device. For example:
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``tools/ota-dfu/dfu.py -z micropython.zip -a A0:B1:C2:D3:E3:F5 --legacy``
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At the end of this process your watch will show the time (03:00) together
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with a date and battery meter. When the watch goes into power saving mode
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you can use the side button to wake it again.
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At this point you will also be able to use the Nordic UART Service to
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access the MicroPython REPL, although currently you must send ^C to
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interrupt the program that updates the watch display.
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To set the time and restart the main application:
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.. code-block:: python
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^C
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watch.rtc.set_localtime((yyyy, mm, dd, HH, MM, SS))
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wasp.system.run()
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Or just use:
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.. code-block:: sh
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./tools/wasptool --rtc
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which can run these commands automatically.
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As mentioned above there are many drivers and features still to be
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developed, see the `TODO list <TODO.md>`_ for current status.
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Screenshots
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-----------
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.. image:: res/clock_app.jpg
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:alt: wasp-os digital clock app running on PineTime
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