#include "DoorLockController.h" DoorLockController::DoorLockController() : logger(Serial), greenLedGpio(LED_GREEN_PIN, false, IGpio::Mode::Output), redLedGpio(LED_RED_PIN, false, IGpio::Mode::Output), doorLockGpio(DOOR_PIN, false, IGpio::Mode::Output), statusLed(redLedGpio, greenLedGpio), doorLock(doorLockGpio, DoorLock::ActiveState::Low, DOOR_OPEN_TIME_MS), nfcAuthenticator(NFC_SLAVE_SELECT_PIN, NFC_RESET_PIN, logger), oneWireAuthenticator(ONEWIRE_PIN, logger), authenticators{&nfcAuthenticator, &oneWireAuthenticator}, unauthorizedAccess(false), heartbeatCounter(0) { logger.info("Ready. Waiting for keys."); } void DoorLockController::heartbeat() { heartbeatCounter = (heartbeatCounter == BLINK_INTERVAL_CYCLES - 1) ? 0 : heartbeatCounter+1; if(heartbeatCounter == 0) statusLed.setState(unauthorizedAccess ? DualColorLed::State::Red : DualColorLed::State::Green); } void DoorLockController::checkForKeys() { for(IAuthenticator* authenticator : authenticators) { Key key = authenticator->getKey(); if(!key.isValid()) continue; if(keyDatabase.contains(key)) { statusLed.setState(DualColorLed::State::Green); logger.info("Access granted."); unauthorizedAccess = false; doorLock.open(); continue; } else { statusLed.setState(DualColorLed::State::Red); logger.error("ACCESS DENIED!"); unauthorizedAccess = true; delay(DOOR_OPEN_TIME_MS); continue; } } } void DoorLockController::run() { for(;;) { heartbeat(); checkForKeys(); statusLed.setState(DualColorLed::State::Off); delay(POLLING_INTERVAL_MS); } }