/* Kaleidoscope - Firmware for computer input devices * Copyright (C) 2013-2021 Keyboard.io, Inc. * * This program is free software: you can redistribute it and/or modify it under * the terms of the GNU General Public License as published by the Free Software * Foundation, version 3. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License along with * this program. If not, see . */ #include "kaleidoscope/Runtime.h" #include "kaleidoscope/LiveKeys.h" #include "kaleidoscope/layers.h" #include "kaleidoscope/keyswitch_state.h" namespace kaleidoscope { uint32_t Runtime_::millis_at_cycle_start_; KeyAddr Runtime_::last_addr_toggled_on_ = KeyAddr::none(); Runtime_::Runtime_(void) { } // ---------------------------------------------------------------------------- void Runtime_::setup(void) { // We are explicitly initializing the Serial port as early as possible to // (temporarily, hopefully) work around an issue on OSX. If we initialize // Serial too late, no matter what we do, we'll end up reading garbage from // the serial port. For more information, see the following issue: // https://github.com/keyboardio/Kaleidoscope-Bundle-Keyboardio/pull/7 // // TODO(anyone): Figure out a way we can get rid of this, and fix the bug // properly. device().serialPort().begin(9600); kaleidoscope::sketch_exploration::pluginsExploreSketch(); kaleidoscope::Hooks::onSetup(); device().setup(); // Clear the keyboard state array (all keys idle at start) live_keys.clear(); Layer.setup(); } // ---------------------------------------------------------------------------- void Runtime_::loop(void) { millis_at_cycle_start_ = millis(); kaleidoscope::Hooks::beforeEachCycle(); #ifndef NDEPRECATED // For backwards compatibility. Some plugins rely on the handler for // `beforeReportingState()` being called every cycle. In most cases, they can // simply switch to using `afterEachCycle()`, but we don't want to simply // break those plugins. kaleidoscope::Hooks::beforeReportingState(); // Also for backwards compatibility. If user code calls any code that directly // changes the HID report(s) at any point between an event being detected and // the end of `handleKeyEvent()` (most likely from `beforeReportingState()`), // we need to make sure that report doesn't just get discarded. hid().keyboard().sendReport(); #endif // Next, we scan the keyswitches. Any toggle-on or toggle-off events will // trigger a call to `handleKeyswitchEvent()`, which in turn will // (conditionally) result in a HID report. Note that each event gets handled // (and any resulting HID report(s) sent) as soon as it is detected. It is // possible for more than one event to be handled like this in any given // cycle, resulting in multiple HID reports, but guaranteeing that only one // event is being handled at a time. device().scanMatrix(); kaleidoscope::Hooks::afterEachCycle(); } // ---------------------------------------------------------------------------- void Runtime_::handleKeyswitchEvent(KeyEvent event) { // This function strictly handles physical key events. Any event without a // valid `KeyAddr` gets ignored. if (!event.addr.isValid()) return; // Ignore any (non-)event that's not a state change. This check should be // unnecessary, as we shouldn't call this function otherwise. if (!(keyToggledOn(event.state) || keyToggledOff(event.state))) return; // Set the `Key` value for this event. if (keyToggledOff(event.state)) { // When a key toggles off, set the event's key value to whatever the key's // current value is in the live keys state array. event.key = live_keys[event.addr]; } else if (event.key == Key_NoKey) { // When a key toggles on, unless the event already has a key value (i.e. we // were called by a plugin rather than `actOnMatrixScan()`), we look up the // value from the current keymap (overridden by `live_keys`). event.key = lookupKey(event.addr); } // Run the plugin event handlers auto result = Hooks::onKeyswitchEvent(event); // If an event handler changed `event.key` to `Key_Masked` in order to mask // that keyswitch, we need to propagate that, but since `handleKeyEvent()` // will recognize that value as the signal to do a fresh lookup, so we need to // set that value in `live_keys` now. The alternative would be changing it to // some other sentinel value, and have `handleKeyEvent()` change it back to // `Key_Masked`, but I think this makes more sense. // // Note: It is still important to let events with `Key_Masked` fall through to // `handleKeyEvent()`, because some plugins might still care about the event // regardless of its `Key` value, and more importantly, that's where we clear // masked keys that have toggled off. Alternatively, we could call // `live_keys.clear(addr)` for toggle-off events here, and `mask(addr)` for // toggle-on events, then return, short-cutting the call to // `handleKeyEvent()`. It should work, but some plugins might be able to use // that information. if (event.key == Key_Masked) live_keys.mask(event.addr); // Now we check the result from the plugin event handlers, and stop processing // if it was anything other than `OK`. if (result != EventHandlerResult::OK) return; // If all the plugin handlers returned OK, we proceed to the next step in // processing the event. handleKeyEvent(event); } // ---------------------------------------------------------------------------- void Runtime_::handleKeyEvent(KeyEvent event) { // For events that didn't begin with `handleKeyswitchEvent()`, we need to look // up the `Key` value from the keymap (maybe overridden by `live_keys`). if (event.addr.isValid()) { if (keyToggledOff(event.state) || event.key == Key_NoKey) { event.key = lookupKey(event.addr); } } // If any `onKeyEvent()` handler returns `ABORT`, we return before updating // the Live Keys state array; as if the event didn't happen. auto result = Hooks::onKeyEvent(event); if (result == EventHandlerResult::ABORT) return; // Update the live keys array based on the new event. if (event.addr.isValid()) { if (keyToggledOff(event.state)) { live_keys.clear(event.addr); } else { live_keys.activate(event.addr, event.key); } } // If any `onKeyEvent()` handler returned a value other than `OK`, stop // processing now. Likewise if the event's `Key` value is a no-op. if (result != EventHandlerResult::OK || event.key == Key_Masked || event.key == Key_NoKey || event.key == Key_Transparent) return; // If it's a built-in Layer key, we handle it here, and skip sending report(s) if (event.key.isLayerKey()) { Layer.handleLayerKeyEvent(event); //return; } // The System Control HID report contains only one keycode, and gets sent // immediately on `pressSystemControl()` or `releaseSystemControl()`. This is // significantly different from the way the other HID reports work, where held // keys remain in effect for subsequent reports. if (event.key.isSystemControlKey()) { if (keyToggledOn(event.state)) { hid().keyboard().pressSystemControl(event.key); } else { /* if (keyToggledOff(key_state)) */ hid().keyboard().releaseSystemControl(event.key); } return; } // Until this point, the old report was still valid. Now we construct the new // one, based on the contents of the `live_keys` state array. prepareKeyboardReport(event); #ifndef NDEPRECATED // Deprecated handlers might depend on values in the report, so we wait until // the new report is otherwise complete before calling them. auto old_result = Hooks::onKeyswitchEvent(event.key, event.addr, event.state); if (old_result == EventHandlerResult::ABORT) return; if (old_result != EventHandlerResult::OK || event.key == Key_Masked || event.key == Key_NoKey || event.key == Key_Transparent) return; #endif // Finally, send the new keyboard report sendKeyboardReport(event); } // ---------------------------------------------------------------------------- void Runtime_::prepareKeyboardReport(const KeyEvent &event) { // before building the new report, start clean device().hid().keyboard().releaseAllKeys(); // Build report from composite keymap cache. This can be much more efficient // with a bitfield. What we should be doing here is going through the array // and checking for HID values (Keyboard, Consumer, System) and directly // adding them to their respective reports. This comes before the old plugin // hooks are called for the new event so that the report will be full complete // except for that new event. for (KeyAddr key_addr : KeyAddr::all()) { // Skip this event's key addr; we will deal with that later. This is most // important in the case of a key release, because we can't safely remove // any keycode(s) added to the report later. if (key_addr == event.addr) continue; Key key = live_keys[key_addr]; // If the key is idle or masked, we can ignore it. if (key == Key_Inactive || key == Key_Masked) continue; #ifndef NDEPRECATED // Only run hooks for plugin keys. If a plugin needs to do something every // cycle, it can use one of the every-cycle hooks and search for active keys // of interest. auto result = Hooks::onKeyswitchEvent(key, key_addr, IS_PRESSED | WAS_PRESSED); if (result == EventHandlerResult::ABORT) continue; if (key_addr == event.addr) { // update active keys cache? if (keyToggledOn(event.state)) { live_keys.activate(event.addr, key); } else { live_keys.clear(event.addr); } } #endif addToReport(key); } } // ---------------------------------------------------------------------------- void Runtime_::addToReport(Key key) { // First, call any relevant plugin handlers, to give them a chance to add // other values to the HID report directly and/or to abort the automatic // adding of keycodes below. auto result = Hooks::onAddToReport(key); if (result == EventHandlerResult::ABORT) return; if (key.isKeyboardKey()) { // The only incidental Keyboard modifiers that are allowed are the ones on // the key that generated the event, so we strip any others before adding // them. This might turn out to be too simple to cover all the corner cases, // but the OS should be helpful and do most of the masking we want for us. if (!key.isKeyboardModifier()) key.setFlags(0); hid().keyboard().pressKey(key); return; } if (key.isConsumerControlKey()) { hid().keyboard().pressConsumerControl(key); return; } // System Control keys and Layer keys are not handled here because they only // take effect on toggle-on or toggle-off events, they don't get added to HID // reports when held. } // ---------------------------------------------------------------------------- void Runtime_::sendKeyboardReport(const KeyEvent &event) { // If the keycode for this key is already in the report, we need to send an // extra report without that keycode in order to correctly process the // rollover. It might be better to exempt modifiers from this rule, but it's // not clear that would be better. if (keyToggledOn(event.state) && event.key.isKeyboardKey()) { // last keyboard key toggled on last_addr_toggled_on_ = event.addr; if (hid().keyboard().isKeyPressed(event.key)) { // The keycode (flags ignored) for `event.key` is active in the current // report. Should this be `wasKeyPressed()` instead? I don't think so, // because (if I'm right) the new event hasn't been added yet. hid().keyboard().releaseKey(event.key); hid().keyboard().sendReport(); } if (event.key.getFlags() != 0) { hid().keyboard().pressModifiers(event.key); hid().keyboard().sendReport(); } } else if (event.addr != last_addr_toggled_on_) { // (not a keyboard key OR toggled off) AND not last keyboard key toggled on Key last_key = live_keys[last_addr_toggled_on_]; if (last_key.isKeyboardKey()) { hid().keyboard().pressModifiers(last_key); } } if (keyToggledOn(event.state)) { addToReport(event.key); } #ifndef NDEPRECATED // Call old pre-report handlers: Hooks::beforeReportingState(); #endif // Call new pre-report handlers: if (Hooks::beforeReportingState(event) == EventHandlerResult::ABORT) return; // Finally, send the report: device().hid().keyboard().sendReport(); } Runtime_ Runtime; } // namespace kaleidoscope kaleidoscope::Runtime_ &Kaleidoscope = kaleidoscope::Runtime;