569 lines
19 KiB
Plaintext
569 lines
19 KiB
Plaintext
The Kiibohd Controller
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This README is a bit long, just look at the sections you are interested in.
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You only need to install avr-gcc if you want to build for the Teensy 2.0/2.0++.
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Everything else needs an arm-none-eabi-gcc compiler (e.g. Infinity keyboard, Teensy 3.0/3.1, McHCK).
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Linux is the ideal build environment (preferably recent'ish).
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In the near future I'll make available an Arch Linux VM for building/manufacturing tests.
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Building on Mac should be ok for 99% of users with Macports (haven't tried Brew).
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The dfu Bootloader will not build correctly with the old version of arm-none-eabi-gcc that Macports currently has (4.7.3).
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This is due to a bug with lto (link time optimizations) which makes the resulting binary too big to fit on the chip (must be less than 4096 Bytes).
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Building on Windows should also be fine for 99% of users, but takes a bunch of work to setup (because Windows is a crappy dev environment).
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Cygwin is currently required along with some non-Cygwin compilers and utilities (because they are not available for Cygwin).
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The dfu Bootloader will not build because of a Make 3.81+ bug/feature that removed support for non-Unix (Windows) filenames as dependencies of targets.
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If you replace the version of Make in Cygwin it should work (e.g. http://stackoverflow.com/questions/601516/cygwin-make-error-target-pattern-contains-no).
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However, make sure that the flash size is no larger than 4096 Bytes or the bootloader will not work.
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Things will likely break if there are *SPACES IN YOUR PATHS*. I install cygwin to C:\cygwin64.
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If you are brave and have programming knowledge, I will accept patches to fix any issues regarding spaces in paths.
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Please give authors credit for modules used if you use in a distributed product :D
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----------------------
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General Dependencies
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----------------------
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Below listed are the Arch Linux pacman names, AUR packages may be required.
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These depend a bit on which targets you are trying to build, but the general one:
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- cmake (2.8 and higher)
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- git
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- ctags (recommended, not required)
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- python3
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- libusb1.0 (and -devel)
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- make
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AVR Specific (Teensy 1.0/++,2.0/++) (try to use something recent, suggested versions below)
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- avr-gcc (~4.8.0)
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- avr-binutils (~2.23.2)
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- avr-libc (~1.8.0)
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ARM Specific (Teensy 3.0/3.1, Infinity Keyboard, McHCK)
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Arch Linux / Mac Ports
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- arm-none-eabi-gcc
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- arm-none-eaby-binutils
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Windows
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(https://launchpad.net/gcc-arm-embedded/+download)
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- gcc-arm-none-eabi (win32.zip)
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----------------------
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Windows Setup
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----------------------
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Compiling on Windows does work, just it's a bunch more work.
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First make sure Cygwin is installed - http://www.cygwin.com/ - 32bit or 64bit is fine. Make sure the following are installed:
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- make
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- git (needed for some compilation info)
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- cmake
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- gcc-core
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- gcc-g++
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- libusb1.0
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- libusb1.0-devel
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- python3
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- ctags (recommended, not required)
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Please note, I use cygwin term exclusively for any command line options. Unless mentioned otherwise, use it.
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Do NOT use CMD or Powershell.
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Also install the Windows version of CMake (3+ is ideal) - http://cmake.org/cmake/resources/software.html
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Select "Do not add CMake to system PATH".
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This is in addition to the Cygwin version. This is an easier alternative to installing another C compiler.
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Add the following line to your .bashrc, making sure the CMake path is correct:
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echo "alias wincmake=\"PATH='/cygdrive/c/Program Files (x86)/CMake'/bin:'${PATH}' cmake -G 'Unix Makefiles'\"" >> ~/.bashrc
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Install the PJRC Virtual Serial Port Driver:
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(http://pjrc.com/teensy/serial_install.exe)
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Next, install the compiler(s) you want.
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---------
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| AVR GCC |
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---------
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You just need the Atmel AVR 8-bit Toolchain. The latest should be fine, as of writing it was 3.4.3.
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http://www.atmel.com/tools/atmelavrtoolchainforwindows.aspx
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(Atmel AVR 8-bit Toolchain 3.4.3 - Windows)
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Extract the files to a directory, say C:\avr8-gnu-toolchain. Then copy all the folders in that directory to the Cygwin /usr/local directory.
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Mine is C:\cygwin64\usr\local.
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(You can also just setup the paths, but this is faster/simpler. Might screw up your Cygwin though).
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----------
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| ARM EABI |
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----------
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Download the latest GNU Tools for Embedded Processors gcc-arm-none-eabi.
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https://launchpad.net/gcc-arm-embedded/+download
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Download "gcc-arm-none-eabi*win32.zip".
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Then extract all the folders/files in the zip to the Cygwin /usr/local directory.
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Mine is C:\cygwin64\usr\local.
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Or, you can setup paths using the installer (you have to be more careful, avoid spaces in paths).
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----------------------
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CMake Info
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----------------------
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One of the big benefits of using CMake is the ability to build multiple configurations (for different microcontrollers) at the same time.
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The following sections explain in detail what each CMakeLists.txt configuration option does and what you can change it to.
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However, it is possible to configure each of these options using the -D command line flag.
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For example, to build the Infinity Keyboard default configuration:
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mkdir build_infinity
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cd build_infinity
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cmake -DCHIP=mk20dx128vlf5 -DScanModule=MD1 -DMacroModule=PartialMap -DOutputModule=pjrcUSB -DDebugModule=full -DBaseMap=defaultMap -DDefaultMap="md1Overlay stdFuncMap" -DPartialMaps="hhkbpro2" ..
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make
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CMake defaults to the values specified in CMakeLists.txt if not overridden via the command line.
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NOTE: On Windows, you will have to use "wincmake" instead of "cmake".
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----------------------
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Selecting Microcontroller
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----------------------
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This is where you select the chip you want to compile for.
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The build system will automatically select the compiler needed to compile for your chip.
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Open up CMakeLists.txt in your favourite text editor.
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You are looking for:
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###
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# Chip Selection
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#
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#| You _MUST_ set this to match the microcontroller you are trying to compile for
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#| You _MUST_ clean the build directory if you change this value
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#|
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set( CHIP
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# "at90usb162" # Teensy 1.0 (avr)
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# "atmega32u4" # Teensy 2.0 (avr)
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# "at90usb646" # Teensy++ 1.0 (avr)
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# "at90usb1286" # Teensy++ 2.0 (avr)
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# "mk20dx128" # Teensy 3.0 (arm)
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"mk20dx128vlf5" # McHCK mk20dx128vlf5
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# "mk20dx256" # Teensy 3.1 (arm)
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CACHE STRING "Microcontroller Chip" )
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Just uncomment the chip you want, and comment out the old one.
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NOTE: If you change this option, you will *need* to delete the build directory that is created in the Building sections below.
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----------------------
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Selecting Modules
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----------------------
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WARNING: Not all modules are compatible, and some modules may have dependencies on other modules.
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This is where the options start getting interesting.
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The Kiibohd Controller is designed around a set of 4 types of modules that correspond to different functionality:
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- Scan Module
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- Macro Module
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- Output Module
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- Debug Module
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The Scan Module is where the most interesting stuff happens. These modules take in "keypress data".
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A converter Scan Module will interpret a protocol into key press/releases.
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A matrix Scan Module may inherit from the matrix module to scan keypress from a matrix
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This module just has to give press/release codes, but does have some callback control to other modules depending on the lifecycle for press/release codes (this can be very complicated depending on the protocol).
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Each Scan Module has it's own default keymap/modifier map. (TODO recommend keymap changing in the Macro Module).
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Some scan modules have very specialized hardware requirements, each module directory should have at least a link to the needed parts and/or schematics (TODO!).
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The Macro Module takes care of the mapping of the key press/release code into an Output (USB) scan code.
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Any layering, macros, keypress intelligence/reaction is done here.
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The Output Module is the module dealing with output from the microcontroller. Currently USB is the only output protocol.
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Different USB output implementations are available, pjrc being the safest/least featureful one.
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Debug capabilities may depend on the module selected.
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The Debug Module enables various things like the Teensy LED on errors, debug terminal output.
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(TODO get true UART working in avr, not just arm)
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Open up CMakeLists.txt in your favourite text editor.
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Look for:
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###
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# Project Modules
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#
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#| Note: This is the only section you probably want to modify
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#| Each module is defined by it's own folder (e.g. Scan/Matrix represents the "Matrix" module)
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#| All of the modules must be specified, as they generate the sources list of files to compile
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#| Any modifications to this file will cause a complete rebuild of the project
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#| Please look at the {Scan,Macro,Output,Debug} for information on the modules and how to create new ones
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##| Deals with acquiring the keypress information and turning it into a key index
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set( ScanModule "MD1"
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CACHE STRING "Scan Module" )
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##| Provides the mapping functions for DefaultMap and handles any macro processing before sending to the OutputModule
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set( MacroModule "PartialMap"
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CACHE STRING "Macro Module" )
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##| Sends the current list of usb key codes through USB HID
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set( OutputModule "pjrcUSB"
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CACHE STRING "Output Module" )
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##| Debugging source to use, each module has it's own set of defines that it sets
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set( DebugModule "full"
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CACHE STRING "Debug Module" )
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Look at each module individually for it's requirements. There is chip/architecture dependency checking but some permutations of modules may not be tested/compile.
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There are also CMake options for temporarily selecting modules. But it's easier to just edit the file.
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e.g. cmake -DScanModuleOverride=<module name>
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----------------------
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Linux Building
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----------------------
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From this directory.
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mkdir build
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cd build
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cmake ..
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make
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Example output:
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[master]: cmake .. [...sy/avr-capsense-haata/build](hyatt@901Mas:pts/4)
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-- Compiler Family:
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avr
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-- MCU Selected:
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at90usb1286
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-- Detected Scan Module Source Files:
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Scan/avr-capsense/scan_loop.c
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-- Detected Macro Module Source Files:
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Macro/buffer/macro.c
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-- Detected Output Module Source Files:
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Output/pjrc/usb_com.c;Output/pjrc/avr/usb_keyboard_debug.c
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-- Detected Debug Module Source Files:
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Debug/full/../led/led.c;Debug/full/../print/print.c
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-- Configuring done
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-- Generating done
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-- Build files have been written to: /home/hyatt/Source/Teensy/avr-capsense-haata/build
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[master]: make [...sy/avr-capsense-haata/build](hyatt@901Mas:pts/4)
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Scanning dependencies of target kiibohd.elf
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[ 12%] Building C object CMakeFiles/kiibohd.elf.dir/main.c.o
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[ 25%] Building C object CMakeFiles/kiibohd.elf.dir/Scan/avr-capsense/scan_loop.c.o
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[ 37%] Building C object CMakeFiles/kiibohd.elf.dir/Macro/buffer/macro.c.o
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[ 50%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrc/usb_com.c.o
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[ 62%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrc/avr/usb_keyboard_debug.c.o
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[ 75%] Building C object CMakeFiles/kiibohd.elf.dir/Debug/led/led.c.o
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[ 87%] Building C object CMakeFiles/kiibohd.elf.dir/Debug/print/print.c.o
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Linking C executable kiibohd.elf
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Creating load file for Flash: kiibohd.hex
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Creating Extended Listing: kiibohd.lss
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Creating Symbol Table: kiibohd.sym
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[ 87%] Built target kiibohd.elf
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Scanning dependencies of target SizeAfter
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[100%] Size after generation:
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text data bss dec hex filename
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0 6112 0 6112 17e0 kiibohd.hex
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5792 320 852 6964 1b34 kiibohd.elf
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[100%] Built target SizeAfter
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----------------------
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Linux Loading Firmware
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----------------------
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First place the keyboard into re-flash mode.
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This can be done either by pressing the re-flash button on the PCB/Teensy.
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Or by entering the Kiibohd Virtual Serial Port and using the 'reload' command.
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The 'load' script that is created during the build can load the firmware over USB.
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Either run it with sudo, or install the 98-kiibohd.rules to /etc/udev/rules.d
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and run: udevadm control --reload-rules
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To load the newly built firmware:
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./load
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----------------------
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Linux Building Bootloader
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----------------------
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*NOTE* Does not apply to Teensy based builds.
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From this directory.
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cd Bootloader
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mkdir build
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cd build
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cmake ..
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make
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Example output:
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TODO
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----------------------
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Linux Loading Bootloader
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----------------------
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*NOTE* Does not apply to Teensy based builds.
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It's recommended to use an SWD-type flasher like a Bus Pirate.
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There is a convenience script for loading the firmware once the system is setup.
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cd Bootloader/Scripts
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./swdLoad.bash
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The above script requires Ruby, Ruby serial port module, git, and a /dev/buspirate udev rule.
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Additional Notes:
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https://github.com/mchck/mchck/wiki/Getting-Started
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https://wiki.archlinux.org/index.php/Bus_pirate
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----------------------
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Windows Building
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----------------------
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From this directory.
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mkdir build
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cd build
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wincmake ..
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make
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Example output:
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$ wincmake ..
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-- Compiler Family:
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arm
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-- Chip Selected:
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mk20dx128vlf5
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-- Chip Family:
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mk20dx
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-- CPU Selected:
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cortex-m4
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-- Compiler Source Files:
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Lib/mk20dx.c;Lib/delay.c
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-- Bootloader Type:
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dfu
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-- Detected Scan Module Source Files:
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Scan/MD1/scan_loop.c;Scan/MD1/../MatrixARM/matrix_scan.c
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-- Detected Macro Module Source Files:
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Macro/PartialMap/macro.c
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-- Detected Output Module Source Files:
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Output/pjrcUSB/output_com.c;Output/pjrcUSB/arm/usb_desc.c;Output/pjrcUSB/arm/usb_dev.c;Output/pjrcUSB/arm/usb_keyboard.c;Output/pjrcUSB/arm/usb_mem.c;Output/pjrcUSB/arm/usb_serial.c
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-- Detected Debug Module Source Files:
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Debug/full/../cli/cli.c;Debug/full/../led/led.c;Debug/full/../print/print.c
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-- Found Git: C:/cygwin64/bin/git.exe (found version "2.1.1")
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-- Found Ctags: C:/cygwin64/bin/ctags.exe (found version "5.8")
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-- Checking for latest kll version:
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Current branch master is up to date.
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-- Detected Layout Files:
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C:/cygwin64/home/Jacob/controller/Macro/PartialMap/capabilities.kll
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C:/cygwin64/home/Jacob/controller/Output/pjrcUSB/capabilities.kll
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C:/cygwin64/home/Jacob/controller/Scan/MD1/defaultMap.kll
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C:/cygwin64/home/Jacob/controller/kll/layouts/md1Overlay.kll
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C:/cygwin64/home/Jacob/controller/kll/layouts/stdFuncMap.kll
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C:/cygwin64/home/Jacob/controller/kll/layouts/hhkbpro2.kll
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-- Configuring done
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-- Generating done
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-- Build files have been written to: C:/cygwin64/home/Jacob/controller/build
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Jacob@DenPC ~/controller/build
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$ make
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[ 5%] Generating KLL Layout
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Scanning dependencies of target kiibohd.elf
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[ 11%] Building C object CMakeFiles/kiibohd.elf.dir/main.c.obj
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[ 17%] Building C object CMakeFiles/kiibohd.elf.dir/Lib/mk20dx.c.obj
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[ 23%] Building C object CMakeFiles/kiibohd.elf.dir/Lib/delay.c.obj
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[ 29%] Building C object CMakeFiles/kiibohd.elf.dir/Scan/MD1/scan_loop.c.obj
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[ 35%] Building C object CMakeFiles/kiibohd.elf.dir/Scan/MatrixARM/matrix_scan.c.obj
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[ 41%] Building C object CMakeFiles/kiibohd.elf.dir/Macro/PartialMap/macro.c.obj
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[ 47%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrcUSB/output_com.c.obj
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[ 52%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrcUSB/arm/usb_desc.c.obj
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[ 58%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrcUSB/arm/usb_dev.c.obj
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[ 64%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrcUSB/arm/usb_keyboard.c.obj
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[ 70%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrcUSB/arm/usb_mem.c.obj
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[ 76%] Building C object CMakeFiles/kiibohd.elf.dir/Output/pjrcUSB/arm/usb_serial.c.obj
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[ 82%] Building C object CMakeFiles/kiibohd.elf.dir/Debug/cli/cli.c.obj
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[ 88%] Building C object CMakeFiles/kiibohd.elf.dir/Debug/led/led.c.obj
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[ 94%] Building C object CMakeFiles/kiibohd.elf.dir/Debug/print/print.c.obj
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Linking C executable kiibohd.elf
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[ 94%] Built target kiibohd.elf
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Scanning dependencies of target SizeAfter
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[100%] Chip usage for mk20dx128vlf5
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SRAM: 32% 5384/16384 bytes
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Flash: 18% 23296/126976 bytes
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[100%] Built target SizeAfter
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NOTES:
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If you get the following error, you have not setup wincmake correctly:
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$ make
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[ 5%] Generating KLL Layout
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Scanning dependencies of target kiibohd.elf
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[ 11%] Building C object CMakeFiles/kiibohd.elf.dir/main.c.o
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../main.c:28:19: fatal error: macro.h: No such file or directory
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#include <macro.h>
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^
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compilation terminated.
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CMakeFiles/kiibohd.elf.dir/build.make:67: recipe for target 'CMakeFiles/kiibohd.elf.dir/main.c.o' failed
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make[2]: *** [CMakeFiles/kiibohd.elf.dir/main.c.o] Error 1
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CMakeFiles/Makefile2:98: recipe for target 'CMakeFiles/kiibohd.elf.dir/all' failed
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make[1]: *** [CMakeFiles/kiibohd.elf.dir/all] Error 2
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Makefile:75: recipe for target 'all' failed
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make: *** [all] Error 2
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If you have already added the line to your ~/.bashrc try restarting your cygwin shell.
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----------------------
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Windows Loading Firmware
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----------------------
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First place the keyboard into re-flash mode.
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This can be done either by pressing the re-flash button on the PCB/Teensy.
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Or by entering the Kiibohd Virtual Serial Interface and using the 'reload' command.
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The 'load' script that is created during the build can load the firmware over USB.
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To load the newly built firmware:
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./load
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Be patient the couple of times, Windows is slow at installing drivers...
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----------------------
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Mac OS X Building
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----------------------
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From this directory.
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mkdir build
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cd build
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cmake ..
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make
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Example output:
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TODO
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----------------------
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Mac OS X Loading Firmware
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----------------------
|
|
|
|
First place the keyboard into re-flash mode.
|
|
This can be done either by pressing the re-flash button on the PCB/Teensy.
|
|
Or by entering the Kiibohd Virtual Serial Port and using the 'reload' command.
|
|
|
|
The 'load' script that is created during the build can load the firmware over USB.
|
|
|
|
|
|
To load the newly built firmware:
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|
./load
|
|
|
|
|
|
|
|
----------------------
|
|
Virtual Serial Port - CLI
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|
----------------------
|
|
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Rather than use a special program that can interpret Raw HID, this controller exposes a USB Serial CDC endpoint.
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This allows for you to use a generic serial terminal to debug/control the keyboard firmware (e.g. Tera Term, minicom, screen)
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|
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|
-------
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| Linux |
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-------
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I generally use screen.
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You will need sudo/root priviledges if you haven't installed the 98-kiibohd.rules file to /etc/udev/rules.d
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screen /dev/ttyACM0
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(Might be ACM1, ACM2, etc.)
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|
|
|
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---------
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| Windows |
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|
---------
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Make sure the Teensy Virtual Serial Port driver is installed.
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If possible use screen (as part of Cygwin).
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Check which COM port the virtual serial port has been assigned to:
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Device Manager->Ports (COM & LPT)->Teensy USB Serial
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In brackets it will say which COM port (e.g. COM3)
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|
|
|
|
putty works well when using DTR/DSR or RTS/CTS flow control.
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Connection type: Serial
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Serial line: <Your COM port, e.g. COM3>
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Speed: (doesn't matter, it's auto-negotiated)
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|
|
|
Under Category->Connections->Serial
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Flow control: DTR/DSR
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|
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If stuff is hard to read (you have a dumb colour scheme):
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|
Category->Window->Colours->Use system colur
|
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That seems to make text at least readable (I use a custom colour scheme that makes each colour easy to see -HaaTa).
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Unfortunately, screen for Cygwin seems to be broken for serial ports, but you can try it...
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screen /dev/ttyS2
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(Might be a different file, ttyS0, ttyACM0, ttyUSB0, etc.)
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Gnu screen doesn't seem to echo all the characters (it works though).
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I believe it's a problem with stty, but I don't know how to fix it...
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|
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----------
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| Mac OS X |
|
|
----------
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|
|
I recommend screen (can be installed via Macports).
|
|
screen /dev/tty.<usb something>
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