/* BUTTON MODULE Copyright (C) 2016-2019 by Xose PĂ©rez */ #if BUTTON_SUPPORT #include #include #include #include "compat.h" #include "gpio.h" #include "system.h" #include "relay.h" #include "light.h" #include "button.h" #include "button_config.h" #include "libs/DebounceEvent.h" // TODO: if we are using such conversion helpers across the codebase, should convert() be in internal ns? namespace settings { namespace internal { template<> debounce_event::types::Mode convert(const String& value) { switch (value.toInt()) { case 1: return debounce_event::types::Mode::Switch; case 0: default: return debounce_event::types::Mode::Pushbutton; } } template<> debounce_event::types::PinValue convert(const String& value) { switch (value.toInt()) { case 0: return debounce_event::types::PinValue::Low; case 1: default: return debounce_event::types::PinValue::High; } } template<> debounce_event::types::PinMode convert(const String& value) { switch (value.toInt()) { case 1: return debounce_event::types::PinMode::InputPullup; case 2: return debounce_event::types::PinMode::InputPulldown; case 0: default: return debounce_event::types::PinMode::Input; } } } // namespace settings::internal } // namespace settings // ----------------------------------------------------------------------------- constexpr const debounce_event::types::Config _buttonDecodeConfigBitmask(const unsigned char bitmask) { return { ((bitmask & ButtonMask::Pushbutton) ? debounce_event::types::Mode::Pushbutton : debounce_event::types::Mode::Switch), ((bitmask & ButtonMask::DefaultHigh) ? debounce_event::types::PinValue::High : debounce_event::types::PinValue::Low), ((bitmask & ButtonMask::SetPullup) ? debounce_event::types::PinMode::InputPullup : (bitmask & ButtonMask::SetPulldown) ? debounce_event::types::PinMode::InputPullup : debounce_event::types::PinMode::Input) }; } constexpr const button_action_t _buttonDecodeEventAction(const button_actions_t& actions, button_event_t event) { return ( (event == button_event_t::Pressed) ? actions.pressed : (event == button_event_t::Click) ? actions.click : (event == button_event_t::DoubleClick) ? actions.dblclick : (event == button_event_t::LongClick) ? actions.lngclick : (event == button_event_t::LongLongClick) ? actions.lnglngclick : (event == button_event_t::TripleClick) ? actions.trplclick : 0U ); } constexpr const button_event_t _buttonMapReleased(uint8_t count, unsigned long length, unsigned long lngclick_delay, unsigned long lnglngclick_delay) { return ( (1 == count) ? ( (length > lnglngclick_delay) ? button_event_t::LongLongClick : (length > lngclick_delay) ? button_event_t::LongClick : button_event_t::Click ) : (2 == count) ? button_event_t::DoubleClick : (3 == count) ? button_event_t::TripleClick : button_event_t::None ); } button_actions_t _buttonConstructActions(unsigned char index) { return { _buttonPress(index), _buttonClick(index), _buttonDoubleClick(index), _buttonLongClick(index), _buttonLongLongClick(index), _buttonTripleClick(index) }; } debounce_event::types::Config _buttonConfig(unsigned char index) { const auto config = _buttonDecodeConfigBitmask(_buttonConfigBitmask(index)); return { getSetting({"btnMode", index}, config.mode), getSetting({"btnDefVal", index}, config.default_value), getSetting({"btnPinMode", index}, config.pin_mode) }; } // ----------------------------------------------------------------------------- button_event_delays_t::button_event_delays_t() : debounce(_buttonDebounceDelay()), repeat(_buttonRepeatDelay()), lngclick(_buttonLongClickDelay()), lnglngclick(_buttonLongLongClickDelay()) {} button_event_delays_t::button_event_delays_t(unsigned long debounce, unsigned long repeat, unsigned long lngclick, unsigned long lnglngclick) : debounce(debounce), repeat(repeat), lngclick(lngclick), lnglngclick(lnglngclick) {} button_t::button_t(unsigned char relayID, const button_actions_t& actions, const button_event_delays_t& delays) : event_emitter(nullptr), event_delays(delays), actions(actions), relayID(relayID) {} button_t::button_t(std::shared_ptr pin, const debounce_event::types::Config& config, unsigned char relayID, const button_actions_t& actions, const button_event_delays_t& delays) : event_emitter(std::make_unique(pin, config, delays.debounce, delays.repeat)), event_delays(delays), actions(actions), relayID(relayID) {} bool button_t::state() { return event_emitter->isPressed(); } button_event_t button_t::loop() { if (!event_emitter) { return button_event_t::None; } auto event = event_emitter->loop(); if (event == debounce_event::types::EventNone) { return button_event_t::None; } switch (event) { case debounce_event::types::EventPressed: return button_event_t::Pressed; case debounce_event::types::EventChanged: return button_event_t::Click; case debounce_event::types::EventReleased: { return _buttonMapReleased( event_emitter->getEventCount(), event_emitter->getEventLength(), event_delays.lngclick, event_delays.lnglngclick ); } case debounce_event::types::EventNone: default: break; } return button_event_t::None; } std::vector _buttons; // ----------------------------------------------------------------------------- unsigned char buttonCount() { return _buttons.size(); } #if MQTT_SUPPORT std::bitset _buttons_mqtt_send_all( (1 == BUTTON_MQTT_SEND_ALL_EVENTS) ? 0xFFFFFFFFUL : 0UL ); std::bitset _buttons_mqtt_retain( (1 == BUTTON_MQTT_RETAIN) ? 0xFFFFFFFFUL : 0UL ); void buttonMQTT(unsigned char id, button_event_t event) { char payload[4] = {0}; itoa(_buttonEventNumber(event), payload, 10); // mqttSend(topic, id, payload, force, retain) mqttSend(MQTT_TOPIC_BUTTON, id, payload, false, _buttons_mqtt_retain[id]); } #endif #if WEB_SUPPORT void _buttonWebSocketOnVisible(JsonObject& root) { if (buttonCount() > 0) { root["btnVisible"] = 1; } } #if (BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_ITEAD_SONOFF_DUAL) || \ (BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_FOXEL_LIGHTFOX_DUAL) void _buttonWebSocketOnConnected(JsonObject& root) { root["btnRepDel"] = getSetting("btnRepDel", _buttonRepeatDelay()); } #else void _buttonWebSocketOnConnected(JsonObject& root) { root["btnRepDel"] = getSetting("btnRepDel", _buttonRepeatDelay()); // XXX: unused! pending webui changes #if 0 if (buttonCount() < 1) return; JsonObject& module = root.createNestedObject("btn"); // TODO: hardware can sometimes use a different event source // e.g. Sonoff Dual does not need `Pin`, `Mode` or any of `Del` // TODO: schema names are uppercase to easily match settings? // TODO: schema name->type map to generate WebUI elements? JsonArray& schema = module.createNestedArray("_schema"); schema.add("GPIO"); schema.add("Mode"); schema.add("DefVal"); schema.add("PinMode"); schema.add("Relay"); schema.add("Press"); schema.add("Click"); schema.add("Dclk"); schema.add("Lclk"); schema.add("LLclk"); schema.add("Tclk"); schema.add("DebDel"); schema.add("RepDel"); schema.add("LclkDel"); schema.add("LLclkDel"); #if MQTT_SUPPORT schema.add("MqttSendAll"); schema.add("MqttRetain"); #endif JsonArray& buttons = module.createNestedArray("list"); for (unsigned char i=0; iBUTTON if (_buttons[i].getPin()) { button.add(getSetting({"btnGPIO", index}, _buttonPin(index))); const auto config = _buttonConfig(index); button.add(static_cast(config.mode)); button.add(static_cast(config.default_value)); button.add(static_cast(config.pin_mode)); } else { button.add(GPIO_NONE); button.add(static_cast(BUTTON_PUSHBUTTON)); button.add(0); button.add(0); button.add(0); } button.add(_buttons[i].relayID); button.add(_buttons[i].actions.pressed); button.add(_buttons[i].actions.click); button.add(_buttons[i].actions.dblclick); button.add(_buttons[i].actions.lngclick); button.add(_buttons[i].actions.lnglngclick); button.add(_buttons[i].actions.trplclick); button.add(_buttons[i].event_delays.debounce); button.add(_buttons[i].event_delays.repeat); button.add(_buttons[i].event_delays.lngclick); button.add(_buttons[i].event_delays.lnglngclick); // TODO: send bitmask as number? #if MQTT_SUPPORT button.add(_buttons_mqtt_send_all[i] ? 1 : 0); button.add(_buttons_mqtt_retain[i] ? 1 : 0); #endif } #endif } #endif // BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_GENERIC bool _buttonWebSocketOnKeyCheck(const char * key, JsonVariant& value) { return (strncmp(key, "btn", 3) == 0); } #endif bool buttonState(unsigned char id) { if (id >= _buttons.size()) return false; return _buttons[id].state(); } button_action_t buttonAction(unsigned char id, const button_event_t event) { if (id >= _buttons.size()) return 0; return _buttonDecodeEventAction(_buttons[id].actions, event); } int _buttonEventNumber(button_event_t event) { return static_cast(event); } // Approach based on https://github.com/esp8266/Arduino/pull/6950 // "PROGMEM footprint cleanup for responseCodeToString (#6950)" // In this particular case, saves 76 bytes (120 vs 44) #if 1 String _buttonEventString(button_event_t event) { const __FlashStringHelper* ptr = nullptr; switch (event) { case button_event_t::Pressed: ptr = F("Pressed"); break; case button_event_t::Click: ptr = F("Click"); break; case button_event_t::DoubleClick: ptr = F("Double-click"); break; case button_event_t::LongClick: ptr = F("Long-click"); break; case button_event_t::LongLongClick: ptr = F("Looong-click"); break; case button_event_t::TripleClick: ptr = F("Triple-click"); break; case button_event_t::None: default: ptr = F("None"); break; } return String(ptr); } #else String _buttonEventString(button_event_t event) { switch (event) { case button_event_t::Pressed: return F("Pressed"); case button_event_t::Click: return F("Click"); case button_event_t::DoubleClick: return F("Double-click"); case button_event_t::LongClick: return F("Long-click"); case button_event_t::LongLongClick: return F("Looong-click"); case button_event_t::TripleClick: return F("Triple-click"); case button_event_t::None: default: return F("None"); } } #endif void buttonEvent(unsigned char id, button_event_t event) { DEBUG_MSG_P(PSTR("[BUTTON] Button #%u event %d (%s)\n"), id, _buttonEventNumber(event), _buttonEventString(event).c_str() ); if (event == button_event_t::None) return; auto& button = _buttons[id]; auto action = _buttonDecodeEventAction(button.actions, event); #if MQTT_SUPPORT if (action || _buttons_mqtt_send_all[id]) { buttonMQTT(id, event); } #endif switch (action) { #if RELAY_SUPPORT case BUTTON_ACTION_TOGGLE: relayToggle(button.relayID); break; case BUTTON_ACTION_ON: relayStatus(button.relayID, true); break; case BUTTON_ACTION_OFF: relayStatus(button.relayID, false); break; #endif // RELAY_SUPPORT == 1 case BUTTON_ACTION_AP: if (wifiState() & WIFI_STATE_AP) { wifiStartSTA(); } else { wifiStartAP(); } break; case BUTTON_ACTION_RESET: deferredReset(100, CUSTOM_RESET_HARDWARE); break; case BUTTON_ACTION_FACTORY: DEBUG_MSG_P(PSTR("\n\nFACTORY RESET\n\n")); resetSettings(); deferredReset(100, CUSTOM_RESET_FACTORY); break; #if defined(JUSTWIFI_ENABLE_WPS) case BUTTON_ACTION_WPS: wifiStartWPS(); break; #endif // defined(JUSTWIFI_ENABLE_WPS) #if defined(JUSTWIFI_ENABLE_SMARTCONFIG) case BUTTON_ACTION_SMART_CONFIG: wifiStartSmartConfig(); break; #endif // defined(JUSTWIFI_ENABLE_SMARTCONFIG) #if LIGHT_PROVIDER != LIGHT_PROVIDER_NONE case BUTTON_ACTION_DIM_UP: lightBrightnessStep(1); lightUpdate(true, true); break; case BUTTON_ACTION_DIM_DOWN: lightBrightnessStep(-1); lightUpdate(true, true); break; #endif // LIGHT_PROVIDER != LIGHT_PROVIDER_NONE #if THERMOSTAT_DISPLAY_SUPPORT case BUTTON_ACTION_DISPLAY_ON: displayOn(); break; #endif } } void _buttonConfigure() { #if MQTT_SUPPORT for (unsigned char index = 0; index < _buttons.size(); ++index) { _buttons_mqtt_send_all[index] = getSetting({"btnMqttSendAll", index}, _buttonMqttSendAllEvents(index)); _buttons_mqtt_retain[index] = getSetting({"btnMqttRetain", index}, _buttonMqttRetain(index)); } #endif } // TODO: compatibility proxy, fetch global key before indexed template unsigned long _buttonGetSetting(const char* key, unsigned char index, T default_value) { return getSetting(key, getSetting({key, index}, default_value)); } void buttonSetup() { // Backwards compatibility moveSetting("btnDelay", "btnRepDel"); // Special hardware cases #if (BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_ITEAD_SONOFF_DUAL) || \ (BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_FOXEL_LIGHTFOX_DUAL) size_t buttons = 0; #if BUTTON1_RELAY != RELAY_NONE ++buttons; #endif #if BUTTON2_RELAY != RELAY_NONE ++buttons; #endif #if BUTTON3_RELAY != RELAY_NONE ++buttons; #endif #if BUTTON4_RELAY != RELAY_NONE ++buttons; #endif _buttons.reserve(buttons); // Ignore real button delays since we don't use them here const auto delays = button_event_delays_t(); for (unsigned char index = 0; index < buttons; ++index) { const button_actions_t actions { BUTTON_ACTION_NONE, // The only generated event is ::Click getSetting({"btnClick", index}, _buttonClick(index)), BUTTON_ACTION_NONE, BUTTON_ACTION_NONE, BUTTON_ACTION_NONE, BUTTON_ACTION_NONE }; _buttons.emplace_back( getSetting({"btnRelay", index}, _buttonRelay(index)), actions, delays ); } // Generic GPIO input handlers #elif BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_GENERIC size_t buttons = 0; #if BUTTON1_PIN != GPIO_NONE ++buttons; #endif #if BUTTON2_PIN != GPIO_NONE ++buttons; #endif #if BUTTON3_PIN != GPIO_NONE ++buttons; #endif #if BUTTON4_PIN != GPIO_NONE ++buttons; #endif #if BUTTON5_PIN != GPIO_NONE ++buttons; #endif #if BUTTON6_PIN != GPIO_NONE ++buttons; #endif #if BUTTON7_PIN != GPIO_NONE ++buttons; #endif #if BUTTON8_PIN != GPIO_NONE ++buttons; #endif _buttons.reserve(buttons); for (unsigned char index = 0; index < ButtonsMax; ++index) { const auto pin = getSetting({"btnGPIO", index}, _buttonPin(index)); if (!gpioValid(pin)) { break; } const auto relayID = getSetting({"btnRelay", index}, _buttonRelay(index)); // TODO: compatibility proxy, fetch global key before indexed const button_event_delays_t delays { _buttonGetSetting("btnDebDel", index, _buttonDebounceDelay(index)), _buttonGetSetting("btnRepDel", index, _buttonRepeatDelay(index)), _buttonGetSetting("btnLclkDel", index, _buttonLongClickDelay(index)), _buttonGetSetting("btnLLclkDel", index, _buttonLongLongClickDelay(index)), }; const button_actions_t actions { getSetting({"btnPress", index}, _buttonPress(index)), getSetting({"btnClick", index}, _buttonClick(index)), getSetting({"btnDclk", index}, _buttonDoubleClick(index)), getSetting({"btnLclk", index}, _buttonLongClick(index)), getSetting({"btnLLclk", index}, _buttonLongLongClick(index)), getSetting({"btnTclk", index}, _buttonTripleClick(index)) }; const auto config = _buttonConfig(index); // TODO: allow to change GpioPin to something else based on config? _buttons.emplace_back( std::make_shared(pin), config, relayID, actions, delays ); } #endif _buttonConfigure(); DEBUG_MSG_P(PSTR("[BUTTON] Number of buttons: %u\n"), _buttons.size()); // Websocket Callbacks #if WEB_SUPPORT wsRegister() .onConnected(_buttonWebSocketOnVisible) .onVisible(_buttonWebSocketOnVisible) .onKeyCheck(_buttonWebSocketOnKeyCheck); #endif // Register system callbacks espurnaRegisterLoop(buttonLoop); espurnaRegisterReload(_buttonConfigure); } // Sonoff Dual does not do real GPIO readings and we // depend on the external MCU to send us relay / button events // Lightfox uses the same protocol as Dual, but has slightly different actions // TODO: move this to a separate 'hardware' setup file? void _buttonLoopSonoffDual() { if (Serial.available() < 4) { return; } unsigned char bytes[4] = {0}; Serial.readBytes(bytes, 4); if ((bytes[0] != 0xA0) && (bytes[1] != 0x04) && (bytes[3] != 0xA1)) { return; } const unsigned char value [[gnu::unused]] = bytes[2]; #if BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_ITEAD_SONOFF_DUAL // RELAYs and BUTTONs are synchonized in the SIL F330 // The on-board BUTTON2 should toggle RELAY0 value // Since we are not passing back RELAY2 value // (in the relayStatus method) it will only be present // here if it has actually been pressed if ((value & 4) == 4) { buttonEvent(2, button_event_t::Click); return; } // Otherwise check if any of the other two BUTTONs // (in the header) has been pressed, but we should // ensure that we only toggle one of them to avoid // the synchronization going mad // This loop is generic for any PSB-04 module for (unsigned int i=0; i 0; // Check if the status for that relay has changed if (relayStatus(i) != status) { buttonEvent(i, button_event_t::Click); break; } } #elif BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_FOXEL_LIGHTFOX_DUAL DEBUG_MSG_P(PSTR("[BUTTON] [LIGHTFOX] Received buttons mask: %u\n"), value); for (unsigned int i=0; i<_buttons.size(); i++) { if ((value & (1 << i)) > 0); buttonEvent(i, button_event_t::Click); } } #endif // BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_ITEAD_SONOFF_DUAL } void _buttonLoopGeneric() { for (size_t id = 0; id < _buttons.size(); ++id) { auto event = _buttons[id].loop(); if (event != button_event_t::None) { buttonEvent(id, event); } } } void buttonLoop() { #if BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_GENERIC _buttonLoopGeneric(); #elif (BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_ITEAD_SONOFF_DUAL) || \ (BUTTON_EVENTS_SOURCE == BUTTON_EVENTS_SOURCE_FOXEL_LIGHTFOX_DUAL) _buttonLoopSonoffDual(); #else #warning "Unknown value for BUTTON_EVENTS_SOURCE" #endif } #endif // BUTTON_SUPPORT