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AMiRo-BLT is the bootloader and flashing toolchain for the base version of the
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Autonomous Mini Robot (AMiRo) [1]. It is based on OpenBLT developed by Feaser
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(see <http://feaser.com/en/openblt.php>).
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Copyright (C) 2016..2019  Thomas Schöpping et al.
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(a complete list of all authors is given below)
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or (at
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your option) any later version.
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This program is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program.  If not, see <http://www.gnu.org/licenses/>.
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This research/work was supported by the Cluster of Excellence
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Cognitive Interaction Technology 'CITEC' (EXC 277) at Bielefeld
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University, which is funded by the German Research Foundation (DFG).
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Authors:
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 - Thomas Schöpping        <tschoepp[at]cit-ec.uni-bielefeld.de>
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 - Stefan Herbrechtsmeier  <sherbrec[at]cit-ec.uni-bielefeld.de>
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 - Marvin Barther
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References:
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 [1] S. Herbrechtsmeier, T. Korthals, T. Schopping and U. Rückert, "AMiRo: A
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     modular & customizable open-source mini robot platform," 2016 20th
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     International Conference on System Theory, Control and Computing (ICSTCC),
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     Sinaia, 2016, pp. 687-692.
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################################################################################
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#                                                                              #
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#        RRRRRRRR   EEEEEEEE     AAA     DDDDDDDD   MM     MM  EEEEEEEE        #
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#        RR     RR  EE          AA AA    DD     DD  MMM   MMM  EE              #
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#        RRRRRRRR   EEEEEE    AA     AA  DD     DD  MM MMM MM  EEEEEE          #
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#        RR   RR    EE        AAAAAAAAA  DD     DD  MM     MM  EE              #
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#        RR    RR   EE        AA     AA  DD     DD  MM     MM  EE              #
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#        RR     RR  EEEEEEEE  AA     AA  DDDDDDDD   MM     MM  EEEEEEEE        #
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#                                                                              #
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################################################################################
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This file will help you to setup all required software on your system, compile
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the source code, and use the tools and flash the bootloader software to the
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AMiRo base modules.
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================================================================================
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CONTENTS:
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  1  Required software
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    1.1  Git
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    1.2  GNU Make
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    1.3  GCC
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    1.4  stm32flash
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    1.5  GCC ARM Embedded Toolchain
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    1.6  CMake
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  2  Recommended Software
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  3  Compiling the source code
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    3.1  host software
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    3.2  target software
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================================================================================
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1 - REQUIRED SOFTWARE
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---------------------
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The only third party software required are stm32flash and GCC for ARM embedded
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devices. While the latter is a compiler to build binaries that are compatible
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with the microcontrollers (MCUs) of AMiRo, the former is used to write this data
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to the hardware.
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1.1 - Git
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---------
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Since all main- and subprojects are available as Git repositories, installing a
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recent version of the tool is mandatory.
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1.2 - GNU Make
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--------------
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GNU Make usually comes as preinstalled tool on Ubuntu based operating systems.
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If your system is missing GNU Make, it is recommended to install it from the
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standard repositories since no special requirements (e.g. features of a very
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recent version) are required.
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1.3 - GCC
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---------
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In order to build some required tools from source, GCC is required. It usually
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comes as preinstalled tool on Ubuntu based operating systems. If your system is
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missing GCC, it is recommended to install it from the standard repositories
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since no special requirements (e.g. features of a very recent version) are
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required.
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1.4 - stm32flash
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----------------
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This tool is required to flash the bootloader binaries to the microcontrollers.
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Since it is included in this project as a submodule, you can just run the setup
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script in the root directory:
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  >$ ./setup.sh
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Follow the instructions to download the source code and compile the tool. The
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resulting binary path is ./Host/Source/stm32flash/stm32flash. Other scripts that
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require stm32flash will search for the binary at this location by default.
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The setup script does not install the tool to your system path, though, since
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this usually requires root permissions. However, stm32flash provides a Makefile
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with installation capabilities. Just Follow the instructions given in the file
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./Host/Source/stm32flash/INSTALL.
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1.5 - GCC ARM Embedded Toolchain
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--------------------------------
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Various versions of the GCC for ARM embedded devices can be found at
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<https://developer.arm.com/open-source/gnu-toolchain/gnu-rm> (old versions are
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available at <https://launchpad.net/gcc-arm-embedded>). For installation of the
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compiler toolchain and managing of multiple versions, it is highly recommended
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to use the provided setup script. Alternatively you can install the compiler
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manually by following the instructions that can be found on the web page.
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If you are running a 64-bit operating system, you may have to install several
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32-bit libraries in order to make older versions of the compiler work. The
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required packages are libc6, libstdc++6, and libncurses5. You can run the
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following shell commands to install the according 32-bit versions of the
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packages:
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  >$ sudo dpkg --add-architecture i386
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  >$ sudo apt-get update
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  >$ sudo apt-get install libc6:i386 libstdc++6:i386 libncurses5:i386
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1.6 - CMake
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-----------
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In order to build the SerialBoot host application, CMake version 2.8 or later is
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required. If possible, it is recommended to instal it from the standard
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repositories of your operating system.
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2 - RECOMMENDED SOFTWARE
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------------------------
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AMiRo-BLT provides support for the QtCreator IDE. In order to setup according
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projects, use the ./setup.sh script and follow the instructions. It will
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automatically generate the required files and you can import the projects by
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opening the .creator files with Qtcreator IDE.
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3 - COMPILING THE SOURCE CODE
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-----------------------------
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The AMiRo-BLT project is separated into two major parts: target- and host-
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related software. The former comprises the bootloaders for the three base
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modules of the AMiRo. The latter is the SerialBoot tool, which can be used to
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flash further binaries (e.g. a complex operating system) to the microcontrollers
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without connecting to the module directly (data is passed through via CAN bus).
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Since the programming connector of the lowermost AMiRo module is the only one
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accessible when the robot is fully set up, this enables to update the firmware
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even for other modules.
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3.1 - host software
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-------------------
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The stm32flash tool is requried to flash bootloader binaries to the MCUs.
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Instructions for builing the tool are given in chapter 1.4 of this file.
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The SerialBoot tool can be built by using cmake. The according CMakeLists.txt
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file can be found in the ./Host/Source/SerialBoot/ directory. To ensure
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compatibility with other software (e.g. AMiRo-OS) it is higly recommended to use
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the provided ./setup.sh script to build SerialBoot. In the end the binary path
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should be ./Host/Source/SerialBoot/build/SerialBoot, which is the default for
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any scripts and tools that use SerialBoot.
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3.2 - target software
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---------------------
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In the ./Target/Demo/ directory there are multiple subfolders, one for each
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AMiRo base module. Within each of these is an additional Boot/ folder
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(./Target/Demo/<device>/Boot/), which contains a makefile. Each bootloader can
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be compiled by executing 'make' in these directories.
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In order to flash the bootloader to a microcontroller, you first have to set
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full read and write permissions to the USB ports of your system. To do so, first
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create a new file by executing the following command:
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  >$ sudo touch /etc/udev/rules.d/50-usb-serial.rules
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Open the file in a text editor of your choice (sudo required) and add the
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following lines:
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  # Future Technology Devices International Ltd. - TTL-232RG
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  SUBSYSTEMS=="usb", ACTION=="add", KERNEL=="ttyUSB[0-9]*", SYMLINK+="ttyAMiRo%n",
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  ATTRS{idVendor}=="0403", ATTRS{idProduct}=="6001", MODE="0666"
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  # Future Technology Devices International Ltd. - FT231X
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  SUBSYSTEMS=="usb", ACTION=="add", KERNEL=="ttyUSB[0-9]*", SYMLINK+="ttyAMiRo%n",
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  ATTRS{idVendor}=="0403", ATTRS{idProduct}=="6015", MODE="0666"
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Now connect the module you want to flash directly to your system (note that
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indirect flashing is not possible for the bootloader itself) and run the command
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  >$ make flash
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If the procedure was not successful, the following hints might help:
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  - Did your system apply the new udev rules?
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    Reboot and try again!
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  - Could the makefile execute the stm32flash tool?
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    Reinitialize the submodule and try again!
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  - Are the permissions for USB ports set correctly?
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    Check the udev rules!
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  - Are there any other applications using the serial connection?
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    Close any other applications using the serial connection!
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  - Is the AMiRo module connected to your system?
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    Use the programming cable to connect the module to your system.
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  - Is the AMiRo module powered up?
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    Keep a charger plugged in during flashing.
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ATTENTION:
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Never flash a bootloader to the wrong module! Doing so might cause severe errors
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and damage the robot.
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================================================================================
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