zephyr/samples/net/updatehub/README.rst

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UpdateHub sample
################
Overview
********
UpdateHub is an enterprise-grade solution which makes it simple to remotely
update all your embedded devices. It handles all aspects
related to sending Firmware Over-the-Air (FOTA) updates with maximum
security and efficiency, while you focus on adding value to your product.
It is possible to read more about at `docs.updatehub.io`_.
This sample shows how to use UpdateHub in both a polling and manual update
mode.
Polling mode runs automatically on a predefined period, probing the server
for updates and installing them without requiring user intervention. You
can access the sample source code for this mode updatehub_polling.
Manual mode requires the user to call the server probe and then, if there is
an available update, also requires the user to decide if it is appropriate to
update now or later. You can access the sample source code for this mode
updatehub_manual.
Caveats
*******
* The Zephyr port of ``UpdateHub`` is configured to run on a :ref:`Freedom-K64F <frdm_k64f>`
MCU by default. The application should build and run for other platforms
with offer support internet connection. Some platforms need some modification.
Overlay files would be needed to support BLE 6lowpan, 802.15.4 or OpenThread
configurations as well as the understanding that most other connectivity
options would require an edge gateway of some sort (Border Router, etc).
* The MCUboot bootloader is required for ``UpdateHub`` to function
properly. More information about the Device Firmware Upgrade subsystem and
MCUboot can be found in :ref:`mcuboot`.
Building and Running
********************
The below steps describe how to build and run the ``UpdateHub`` sample in
Zephyr. Where examples are given, it is assumed the sample is being built for
the Freedom-K64F Development Kit (``BOARD=fdrm_k64f``).
Step 1: Build MCUboot
=====================
Build MCUboot by following the instructions in the :ref:`mcuboot` documentation
page.
Step 2: Flash MCUboot
=====================
Flash the resulting image file to the 0x0 address of the flash memory. This can
be done in multiple ways, but the most common ones would be using make or ninja:
.. code-block:: console
make flash
# or
ninja flash
Step 3: Start the updatehub Community Edition
=============================================
By default, the updatehub application is set to start on the UpdateHub Cloud.
For more details on how to use the UpdateHub Cloud please refer to the
documentation on `updatehub.io`_.
The UpdateHub Cloud has the option to use CoAPS/DTLS or not. If the user want
to use the CoAPS/DTLS just need to add the ``overlay-dtls.conf`` at the build.
You must use the certificate available just for test example. For you create a new certificates
you can execute this following commands:
.. code-block:: console
openssl genrsa -out privkey.pem 512
openssl req -new -x509 -key privkey.pem -out servercert.pem
The cert and private key that is to be embedded into certificates.h in your application, can be generated like this:
.. code-block:: console
openssl x509 -in servercert.pem -outform DER -out servercert.der
openssl pkcs8 -topk8 -inform PEM -outform DER -nocrypt -in privkey.pem \
-out privkey.der
If you would like to use your own server, the steps below explain how
updatehub works with updatehub-ce running, started by the
following Docker command:
.. code-block:: console
docker run -it -p 8080:8080 -p 5683:5683/udp --rm updatehub/updatehub-ce:latest
Using this server the user need create own ``overaly-prj.conf`` setting the option
:option:`CONFIG_UPDATEHUB_SERVER` with your local ip address and the option
:option:`CONFIG_UPDATEHUB_CE` with true. If the user will use polling mode on
UpdateHub need too set the option :option:`CONFIG_UPDATEHUB_POLL_INTERVAL` with the period of
your preference, remembering that the limit is between 0 minute until 43200 minutes(30 days).
This server does not use DTLS, so you must not add ``overlay-dtls.config``.
This sample uses IPv4 by default, but if you would like use IPv6 is possible too, need just
enable IPv6 and configure your IP address.
Step 4: Build UpdateHub
=======================
``UpdateHub`` can be built for the fdrm_k64f as follows:
.. zephyr-app-commands::
:zephyr-app: samples/net/updatehub/
:board: fdrm_k64f
:conf: "prj.conf overlay-prj.conf"
:goals: build
.. _updatehub_sample_sign:
Step 5: Sign the first image
============================
From this section onwards you use a binary (``.bin``) image format.
Using MCUboot's :file:`imgtool.py` script, sign the :file:`zephyr.bin`
file you built in Step 3. In the below example, the MCUboot repo is located at
:file:`~/src/mcuboot`.
.. code-block:: console
~/src/mcuboot/scripts/imgtool.py sign \
--key ~/src/mcuboot/root-rsa-2048.pem \
--align 8 \
--version 1.0.0 \
--header-size 0x200 \
--slot-size <image-slot-size> \
--pad \
<path-to-zephyr.bin> signed.bin
The command above creates an image file called :file:`signed.bin` in the
current directory.
Step 6: Flash the first image
=============================
Upload the :file:`signed.bin` file from Step 4 to image slot-0 of your
board. The location of image slot-0 varies by board, as described in
:ref:`mcuboot_partitions`. For the fdrm_k64f, slot-0 is located at address
``0xc000``.
Using :file:`pyocd` you don't need to specify the slot-0 starting address.
.. code-block:: console
sudo pyocd-flashtool <path-to-signed.bin>
Step 7: Signing the test image
==============================
For the update to be correctly validated on the server, you must need sign the
(``bin``) image, piping the output to another file.
.. code-block:: console
~/src/mcuboot/scripts/imgtool.py sign \
--key ~/src/mcuboot/root-rsa-2048.pem \
--align 8 \
--version 2.0.0 \
--header-size 0x200 \
--slot-size <image-slot-size> \
--pad \
<path-to-zephyr.bin> signed_v2.bin
Step 8: Create a package with UpdateHub Utilities (uhu)
=======================================================
First, install UpdateHub Utilities (``uhu``) on your system, using:
.. code-block:: console
pip3 install --user uhu
After installing uhu you will need to set the ``product-uid``:
.. code-block:: console
uhu product use "e4d37cfe6ec48a2d069cc0bbb8b078677e9a0d8df3a027c4d8ea131130c4265f"
Then, add the package and its mode (``zephyr``):
.. code-block:: console
uhu package add signed_v2.bin -m zephyr
Then inform what ``version`` this image is:
.. code-block:: console
uhu package version 2.0.0
And finally you can build the package by running:
.. code-block:: console
uhu package archive --output <name-of-package>.pkg
Step 9: Add the package to server
==================================
Now, add the package to the updatehub-ce by, opening your browser to
the server URL, ``<your-ip-address>:8080``, and logging into the server using
``admin`` as the login and password by default. After logging in, click on
the package menu, then ``UPLOAD PACKAGE``, and select the package built in
step 7.
Step 10: Register device on server
==================================
Register your device at updatehub-ce by using a terminal session on
the system where you were debugging the board, and type the following command:
.. code-block:: console
updatehub run
If everything is alright, it will print on the screen ``No update available``.
Step 11: Create a rollout
=========================
In the browser where the updatehub-ce is open, click on ``menu Rollout``
and then ``CREATE ROLLOUT``. Select the version of the package that you added
in step 9. With that, the update is published, and the server is ready to
accept update requests.
Step 12: Run the update
=======================
Back in the terminal session that you used for debugging the board, type the
following command:
.. code-block:: console
updatehub run
And then wait. The board will ping the server, check if there are any new
updates, and then download the update package you've just created. If
everything goes fine the message ``Image flashed successfully, you can reboot
now`` will be printed on the terminal.
Step 13: Reboot the system
==========================
In the terminal you used for debugging the board, type the following command:
.. code-block:: console
kernel reboot cold
Your board will reboot and then start with the new image. After rebooting the
board will automatically ping the server again and the message ``No update
available`` will be printed on the terminal.
.. _updatehub.io: https://updatehub.io
.. _docs.updatehub.io: https://docs.updatehub.io/