- Uses 32 version of Cygwin (on a 64 bit machine)
- Adding PYTHON_EXECUTABLE override variable for Cygwin builds
* We have to use the system CMake instead of the Cygwin CMake which detects the wrong version of Python
- Update Bootloader build infrastructure to attempt tests on Windows
- Fixing CMake to always force python3 binary (this should always work)
- Adding macOS Travis build (clang and gcc)
- Disabling all clang builds until macOS (lack of packages) and Linux (broken Travis repos) are fixed
- Recently added the BCD_VERSION which uses git rev-list --count HEAD command
- Unfortunately git 1.7.1 doesn't have this, so I've added a fallback to manually counting the commits using some CMake magic
- CMake 3.6 finally adds proper cross-compiler detection
- When detected, use full compiler detection infrastructure
- Still maintains compatibility back to CMake 2.8 (at least for now)
- With new detection, selecting only the C compiler as it speeds up the CMake generaion process
- Added a GCC 4.9 minimum version requirement for Bootloader
- Use commit number as the basis for bcdDevice field (maximum is 2^16)
- Change iSerial from commit date to chip Unique ID
- Update both Firmware and Bootloader to use the same scheme (bcdDevice and iSerial)
- Cleanup of Bootloader code
- Split out build info CMake commands to a new file
- Added clang (i.e. multi-compiler) support to convenience build scripts
- Updated README
- Added Bootloader build scripts for the two main versions currently used
- Added uartOut and usbMuxUart build scripts (these tend to suffer from build rot the most as they're only used in debugging)
- Attempt to get clang support for the Bootloader
* clang is missing compiler extensions, so this may require a large re-write to get working
- Changing default name from defaultMap.kll to scancode_map.kll
- Old name of defaultMap.kll will still work (and is the final fallback)
- Updated all the main projects to use the new name
- Updated BETKB (not entirely finished, but mostly complete)
- Added sub-use of interconnect scancode cache for converters
- Added infinity_led.bash
No behaviour changes, just restructuring.
- clang.c includes necessary functions to make clang compiler work (tested on teensy 3.1)
- Added support code to generate a compile_commands.json for clang-tidy
* Updates the symlink whenever cmake or make is called (Unix OSs only)
- Rx buffers weren't fast enough, had to use DMA :D
- Basic LCD remote capabilities are working, single node
- Multi-node broadcast seems to have a bug still
- DMA ring buffer allowed for significant processing simplification
* There is an overrun risk, but the buffer is large and generally there isn't too much data being sent (just very quickly)
- Split out LCD layer stack capability into itself and an "exact" version used for updating remote nodes
- Supports up to 255 slave nodes (you'll run into ScanCode limitations before then)
- Requires most recent kll compiler update
- Additional debugging output and stats counters
- Noise and parity checking
- Fixed TxFIFO issue when sending buffers larger than the FIFO
- Cleaned up defaultMap.kll
- Added ScanCode caching (reduces interconnect traffic significantly)
- Interconnect module code is conditionally compiled into PartialMap module if required
Fixes#22
Each (dfu) interface may have more than one a ltsetting each with their own index and name. According to the DFU_1.1 pdf section 4.2.3, "* Alternate settings can be used by an application to access additional memory segments. In this case,
it is suggested that each alternate setting employ a string descriptor to indicate the target memory
segment; e.g., 'EEPROM'." Whether or not we end up using multiple memory segments it is still good to have a descriptive name incase there are other dfu devices connected.
Edit: Fixed previous indentation
Can be specified from any .kll file
DebounceDivThreshold = 0xFFFFFFFF
Sets to max debounce, default is 0xFFFF.
The 0xFFFFFFFF is about a 2x longer debounce
The max requires more ram (as it uses 32 bit variables instead of 16).
Added support for submodule capabilities files.
- Automatically downloads the kll compiler if not found
- Added capability files to each of the module that currently have them
- Split modules.cmake so kll.cmake could influence build targets (also needs info from modules.cmake)
- Updated .gitignore for kll compiler directory
- Added documentation on how to manipulate layouts using CMakeLists.txt
- Cleanup of old layout files
- Changed static variables to const that should have been const
- Updated CMake files to prepare for MCHCK custom bootloader
- Changed the USB ID numbers and ID number for bootloader
- Only generate DFU or Teensy binary image, not both
- Fixed RAM and FLASH calculator
- Added missing license in delay.c/h (much of it was taken from Teensy source though I've changed a bunch of it)
- Prepared mk20dx.c for upcoming bootloader addition
- mk20dx.h cleanup
- Reduced the MCHCK based flash size for the application image (bootloader changes requires more flash space)
- Fixed bugs in macro.c
- Added keyHold cli command
- Added show pending events debug message for PartialMap macro module
- Lots of code cleanup for the intialization of all arm chips
- Added more gcc flags to help with debugging linker and memory map
- Fixed UART initialization for the smaller MCHCK mk20dx128 (different pin mux)
- Tried to add auto cmake reset...so far unsuccessful
- Ported MBC-55X (was used to test compilers)
- Disabled in-source builds, to prevent CMake from shooting itself in the foot.
