It was always intended to be public - it is even documented as such! -, but was
mistakenly left private.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
A number of devices declared the bootloader in their device properties as
`BootLoader`, while the base class, and anything using it, was looking for
`Bootloader`. This resulted in these devices using the default, dummy
bootloader, rather than the one we intended to set.
This patch corrects that, and everything's using `Bootloader` now, including the
documentation.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This simple plugin does nothing more than provide a `version` focus command,
which will print the firmware version configured at build-time (defaulting to
"0.0.0").
This is a header-only plugin, so that Arduino compiles it in the same
compilation unit as the main sketch, allowing us to set the version from the
sketch, if so desired.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This new plugin lets us store a default palette and colormap in PROGMEM.
Rather than teaching Colormap to pull from either EEPROM or PROGMEM, this
implements an entirely separate plugin, `DefaultColormap`, which is able
to *push* a palette and colormaps into Colormap.
When `DefaultColormap.setup()` is called, it checks if Colormap's storage area
is empty (both palette and the map must be empty), and if so, copies the
built-in palette and colormap over, and forces a refresh, and it has done its
job.
It does provide an additional Focus command too, `colormap.install`, which will
forcibly copy both palette and colormaps over. Useful for resetting back to a
factory setting.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
To be able to set a theme from the firmware itself, we need a couple of helper
methods. First, we need to be able to update the palette without using Focus,
and we also need to be able to update a single LED without committing it. On top
of that, we'll likely want to know if the theme is initialized.
To this end, we introduce `updatePaletteColor()`, which updates an entry in the
palette, but does not commit it, and `isThemeUninitialized()` which does as the
name suggests: it checks if the palette and the theme slices are all uninitialized.
We also change `updateColorIndexAtPosition()` to not commit. The single user of
it was FingerPainter, and we update that to do an explicit commit after.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This new plugin provides a way to set a default (but configurable, via Focus)
led mode, or use a specific one if EEPROM is uninitialized.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This basically reverts 07dcf1dc9b, returning the
plugin to its original behaviour of persisting the current led mode. We do this
because we'll be using a new, different plugin to set the default led mode, to
not conflate the two different functionalities.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This plugin provides a shared virtual keys array used by Macros and
DynamicMacros, along with some functions to interact with it (`press()`,
`release()`, `tap()`, `clear()`).
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>
The plugin was both more complex and less accurate than it could have been. For
simplicity, it used a weighted average, with each cycle getting twice the weight
of the previous one. As a result, the reported average really only took into
account the last three or four cycles. On a keyboard with LEDs, some cycles
take much longer than others because of relatively rare updates, so this could
lead to misleading results, with the "average" cycle time usually being reported
as lower than it really should have been, and occasionally much higher.
This new version computes an evenly-weighted mean cycle time for each interval,
and runs more efficiently, by dividing the total elapsed time by the number of
cycles that has passed since the last report, rather than computing the time for
each individual cycle.
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>
We'd like to be able to set the default LED mode via Focus, so it can be
configured via Chrysalis. However, we may not want auto-save, so make that
configurable too.
To preserve the EEPROM layout, the highest bit of the previous led mode index
setting was repurposed for the auto save setting. This lets us set the default
mode to anything between 0 and 126 (or 127, if auto save is turned off).
While there, we also add an `onNameQuery` handler, to make it easier for
Chrysalis to detect if the plugin is available.
This addresses the Kaleidoscope parts of keyboardio/Chrysalis#846.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
I think it's reasonable to assume that other plugins won't be bad actors and
remove an active Turbo key from the live keys array unceremoniously, so this
check is really unnecessary.
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>
Previously, the "sticky" state was simply ignored. Now it's handled properly,
leaving the "sticky" active Turbo key in the live keys array.
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>
Our lookup table should have 32 entries, not 31, as Kaleidoscope-Ranges gives
DynamicMacros 32 entries.
Thanks @gedankenexperimenter for spotting this!
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
The plugin was restricted to the Model01, because it depends on a very specific
key coordinate -> geometric shape mapping. Because the Model 01 and the Model
100 share this mapping, we can safely enable the plugin for the latter, too.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
There were a number of problems with how we updated and handled our cache.
First of all, we did not support empty macros that consist only of a single
`MACRO_ACTION_END`: we returned immediately as soon as we encountered one such.
This is undesirable, we want to support such empty macros.
Seconds, we did _not_ bail out early when encountering an unknown step. We
continued reading from storage until we reached our slice's end. That's also
undesirable, because data past an unknown step is not something we can reliably
parse. We should have bailed out here.
On top of that, we did not keep our id->location map in good shape. The initial
cache update did the right thing, but if we did an update where we ended up with
less macros, our map would have dangling pointers for macro ids that no longer
exist. That's not a problem when our update clears the rest of the storage
slice, but if it doesn't, the results of trying to run an unknown macro would be
unpredictable. Even if we don't care about that, it's still very inefficient,
especially when we have large macro storage.
So, this update does a whole lot of things to improve the situation:
We now keep track of how many macros we find during a cache update, and will
refuse to play macro ids that are beyond our count. This improves efficiency,
and protects us from trying to run garbage.
We also support empty macros now, and return early from a cache update when we
encounter an unknown step type.
Fixes#1177.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
We should be treating the end of data the same way we treat a newline.
A common issue that affects a good number of plugins is that we don't deal with
trailing space well. For example, most plugins that respond with a large list of
values, where we iterate over an array or list, or something else, they usually
end up responding with a trailing space before the newline.
If we feed that same string back as an update, we can end up in a situation
where we lock up (or become very, very slow), because we want to read more data
than is available. Why? Because `Serial.parseInt()` (used by Focus under the
hood) will swallow up any leading whitespace. So if we have "255 \n" as an
argument list, we'll parse the first number, and the second `parseInt()` will
return 0, because it times out waiting for a number, consuming both the space
and the newline in the process. Thus, the next `::isEOL()` will still return
false, because `peek()` returns `-1`, signaling no data.
That can confuse the heck out of our plugins. To combat that, we should treat
end of data the same as EOL, and return false if `peek()` returns -1, too.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
When updating our map via Focus, do not read past `storage_size_`, because we do
not want to clobber storage space past our slice by accident.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
This matches the default EEPROM size of the underlying FlashStorage library, and
is substantially bigger than AVR-based keyboards, yet not _too_ big.
For various reasons, we're mirroring EEPROM into RAM 1:1, so we're constrained
by the size of that, too. That makes larger storage sizes undesirable at this
time. On top of this limitation, larger storage sizes also pose backup & restore
speed issues with Chrysalis, so lets settle for 16k, which is still very big,
all things considered, but not big enough to be a problem.
Signed-off-by: Gergely Nagy <algernon@keyboard.io>
DynamicMacros was missing a necessary `beforeReportingState()` handler that is
responsible for adding keys held by an active macro to the HID report. This
handler is identical to the one used by the Macros plugin for the same purpose.
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>
Both Macros and DynamicMacros were only reading one byte for each `Key` object
in a tap sequence, so it would first read the flags byte of each key in the
sequence and treat it as a keycode byte, using a flags byte of `0`. As soon as
an unmodified keyboard key was encountered, this would be recognized as the end
of the sequence. This change fixes the bug by reading and using the flags byte
of each key in the sequence as intended.
Signed-off-by: Michael Richters <gedankenexperimenter@gmail.com>