Awesome
User instructions
-
Follow the instructions here to download the executable for your operating system: https://github.com/Massdrop/mdloader/releases
-
Plug in your keyboard.
-
In your terminal, change to the directory where you downloaded the executable file.
-
Move your compiled firmware to the same directory as the executable file.
-
Run the following command:
./mdloader --first --download FILE_NAME --restart
Note: Replace FILE_NAME
with the filename of your compiled firmware.
- You should see the message:
Scanning for device for 60 seconds
.....
-
Within 60 seconds, press the reset button on your keyboard. For most keyboards running the default firmware, you can hold
Fn
+b
for half a second and release to reset your keyboard (you will see the LEDs turn off). For CTRL keyboards in the first production run running original firmware or of the first method does not work for you, you will need to use a pin to press the reset button through the hole in the bottom of the keyboard. -
You should see a series of messages similar to:
Device port: /dev/cu.usbmodem234431 (SAMD51J18A)
Opening port '/dev/cu.usbmodem234431'... Success!
Found MCU: SAMD51J18A
Bootloader version: v2.18Sep 4 2018 16:48:28
Applet Version: 1
Writing firmware... Complete!
Booting device... Success!
Closing port... Success!
- Afterwards, you should see the keyboard's LEDs light up again (if your configuration has LEDs enabled) and the keyboard should respond to typing. Your keyboard is now running the new firmware you specified.
Massdrop Loader
Massdrop Loader is used to read firmware from and write firmware to Massdrop keyboards which utilize Microchip's SAM-BA bootloader, over the USB connection.
Supported operating systems
- Windows XP or greater (32-bit and 64-bit versions, USB Serial driver in drv_win folder)
- Linux x86 (32-bit and 64-bit versions)
- Mac OS X
Supported devices
Massdrop keyboard's featuring Microchip's SAM-BA bootloader.
Building
Enter mdloader directory where Makefile is located and execute:
make
This will create a build
directory with the compiled executable. Run ./build/mdloader
to test.
Usage
Usage: mdloader [options] ...
-h --help Print this help message
-v --verbose Print verbose messages
-V --version Print version information
-f --first Use first found device port as programming port
-l --list Print valid attached devices for programming
-p --port port Specify programming port
-U --upload file Read firmware from device into <file>
-a --addr address Read firmware starting from <address>
-s --size size Read firmware size of <size>
-D --download file Write firmware from <file> into device
-t --test Test mode (download/upload writes disabled, upload outputs data to stdout, restart disabled)
--ignore-eep Ignore differences in SmartEEPROM configuration
--cols count Hex listing column count <count> [8]
--colw width Hex listing column width <width> [4]
--restart Restart device after successful programming
To write firmware to the device and restart it:
mdloader --first --download new_firmware.hex --restart`
The program will now be searching for your device. Press the reset switch found through the small hole on the back case or by appropriate key sequence to enter programming mode and allow programming to commence.
Firmware may be provided as a binary ending in .bin or an Intel HEX format ending in .hex, but .hex is preferred for data integrity.
Note that safeguards are in place to prevent overwriting the bootloader section of the device.
To read firmware from the device:
mdloader --first --upload read_firmware.bin --addr 0x4000 --size 0x10000
Where --addr
and --size
are set as desired.
Note the output of reading firmware will be in binary format.
Test mode may be invoked with the --test
switch to test operations while preventing firmware modification.
Test mode also allows viewing of binary data from a read instead of writing to a file.
Troubleshooting
Linux: User may need to be added to group dialout to access programming port