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124 lines
6.1 KiB
Markdown
124 lines
6.1 KiB
Markdown
ASDF Keyboard scanning firmware
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The ASDF (Auto Scan by DF) firmware is a key matrix scanner that can detect and
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debounce keypress and release events on a key matrix and either send codes or
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perform actions on keypress or release. Keymaps are defined per application and
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may, for example, generate ASCII codes, special keyscan codes, etc. The code is
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modular and may be integrated into a larger system easily.
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By default, the code supports any number of rows by 8 columns, which will give
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the bestperformance on an 8-bit microcontroller. For more than 8 columns per
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row, the row datatype would need to be changed to uint16_t to support 16
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columns, etc.
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The first supported application is a parallel ASCII output keyboard. If you want
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serial or USB output, you can supply your own routines.
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ASDF supports basic keyboard functionality and is configurable via a few
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boolean variables, and via the key maps. The key maps are organized in
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row,column format, with separate keymaps shift, capslock, and control-key modes.
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Features:
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--
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* modifiers: A set of modifier keys may be specified. When only a few modifiers
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are used, this mechanism is a low-overhead alternative to a keymap overlay for
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keyboard states that only change the key value, such as SHIFT, CAPS LOCK, CONTROL,
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etc. The state of each modifier key is kept in a state variable. In most
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cases, pressing the key will set the value to a "pressed" state, and releasing
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will reset the value to an "unpressed" state. However some functions interact.
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For example, Shift Lock is sticky, so pressing Shift Lock toggles the Shift
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Lock state, and Releasing Shift Lock does nothing; but pressing "Shift" will
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reset the "Shift Lock" state.
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All modifier state variables are kept in a modifier state variable array. On a
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regular keypress, all of the modifier state variables are OR'ed together to
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produce an index into a value array for the standard key, to determine the
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value sent by the standard keypress.
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* DIP switches: DIP switches are implemented by adding them into the key
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matrix, and providing activate() and deactivate() functions for the on and off
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positions.
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* Spinners/rotary encoders: Rotary encoders can be implemented by adding the
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encoder switches into the matrix, and driving the encoder state machine via
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the activate() and deactivate() functions.
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* sticky keys: Stick keys remain active until another key is pressed. This
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functionality is supported by the per-key activate() and deactivate() functions.
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For example, for sticky "control", replace control_deactivate() with
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null_deactivate() as the deactivate function for the control key, and add a
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call to "control_deactivate()" in the "standard_keypress_postprocess_hook()" function.
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* Indicators: Controlled via activate() and deactivate() functions for the various keys.
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* Debounce and Repeat functions: The main keyscan logic implements key
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debouncing. Multiple keys may be debounced simultaneously using a separate
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debounce counter for each key in the matrix.
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* Repeat key and Autorepeat: This is provided by the repeat module. Autorepeat
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may be disabled or enabled either by configuration, by activate()/deactivate()
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functions, or other keyboard logic. Repeat and autorepeat only apply to the
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most recently pressed key.
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* (Future feature) NVRAM: For architectures that support EEPROM or other non-volatile storage,
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configuration parameters are stored in non-volatile storage to survive a power
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cycle.
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* ASCII output - supported via output_value function.
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* (Future feature) Serial, USB CDC, USB HID interfaces - supportable via output_value function.
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* Indicator LEDs and other direct logic-level hardware controls: supported via
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per-key activate/deactivate functions, and also via hooks to standard key
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functions.
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Compiling and configuration
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--
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The source files are in the ./src directory. The final build files go in the ./build directory.
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To build, enter the ./src directory. You should be able to build a binary and
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hex file suitable for programming a microcontroller by typing "Make". You may
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edit the Makefile to specify your target platform (default is Atmega328P ASCII
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controller). You may also wish to edit your preferences in "asdf_config.h" to
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specify repeat timings, optimize the debounce setting (if you have very bounce
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keys), and specify the character output buffer size (if you are implementing
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macros, etc.)
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Porting
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--
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This firmware was written in modular, portable C99, to be compiled with GCC
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(avr-gcc for the Atmega). The hardware-sepecific files are in Arch/*.[ch]. To
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adapt the Atmega port for additional hardware, enter the ./src/Arch directory,
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and copy the files asdf_arch_atmega328p.c and asdf_arch_astmega328p.h to new
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filenames, and edit them to suit the hardware changes.
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The firmware is designed to run from ROM on a slow vintage processor, with a
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small RAM footprint, and is not re-entrant. It is designed to compile on small
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architectures, or to be hand-translated to assembly on small processors, or to
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an HDL for a CPLD or FPGA.
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The code was written to favor readability over cleverness. While tempted to
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optimize bit testing via bithacks, I opted for code simplicity since the
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performance benefit was not there for 8-bit values.
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To port to a new processor architecture, you may use the atmega328p files as an
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example, and create a pair of architecture-specific .c and .h files for the new
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hardware, exporting the following functions:
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- asdf_arch_init: initializes the CPU and hardware
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- asdf_arch_read_row: given a row number, output the row to the matrix, and read
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all the columns on that row asdf_arch_send_code
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- asdf_arch_send_code: given a key code, output the code to the computer, via
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serial, parallel, I2C, whatever is appropriate.
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- asdf_arch_tick: true once every 1ms. This tests a flag set in an interrupt
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routine that is triggered every 1ms. The function return value is polled and a
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keyscan initiated when true. An alternative, if you have an RTOS, or even just
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a scheduler, would be to schedule the keyscan every 1 ms, rather than poll. In
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that case, this function is not needed, and the "superloop" in main.c would
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contain a call to the scheduler.
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