#include ESPMegaRecovery::ESPMegaRecovery() { // Initialize all the pointers to null this->fram = nullptr; this->fram_address = 0; this->bootloop_counter = 0; this->recovery_mode = false; this->web_server = nullptr; this->iot = nullptr; } void ESPMegaRecovery::begin() { // Retrieve the bootloop counter from the FRAM if(this->fram != nullptr) { this->bootloop_counter = this->fram->read8(this->fram_address); } // Inclement the bootloop counter this->inclementBootloopCounter(); ESP_LOGV("ESPMegaRecovery", "Bootloop counter: %d", this->getBootloopCounter()); // If the bootloop counter is greater than 5, enter recovery mode if(this->getBootloopCounter() > 5) { ESP_LOGE("ESPMegaRecovery", "Bootloop detected"); // Reset the bootloop counter to prevent re-entering recovery mode // The device might unintentionally restart multiple times // By resetting the counter, the user can press reset once in recovery mode to exit ESP_LOGD("ESPMegaRecovery", "Resetting bootloop counter"); this->resetBootloopCounter(); ESP_LOGW("ESPMegaRecovery", "Entering recovery mode"); this->enterRecoveryMode(); this->loop(); } } void ESPMegaRecovery::loop() { // If the device is in recovery mode, block all other tasks if(this->isRecoveryMode()) { int i = 0; while(true) { if (i%10 == 0) { ESP_LOGV("ESPMegaRecovery", "System is in recovery mode, no tasks will be executed"); ESP_LOGV("ESPMegaRecovery", "Please upload a new firmware to exit recovery mode"); } // This code will become the new loop delay(1000); i++; } } // Watchdog timer static bool booted = false; static uint32_t boot_time = millis(); if(!booted) { if(millis() - boot_time > RECOVERY_WATCHDOG_TIMEOUT * 1000) { ESP_LOGI("ESPMegaRecovery", "System booted successfully, resetting bootloop counter"); this->resetBootloopCounter(); booted = true; } } } void ESPMegaRecovery::enterRecoveryMode() { // Set the recovery mode flag this->recovery_mode = true; // Enabling the IoT module ESP_LOGI("ESPMegaRecovery", "Enabling the IoT module"); this->iot = new ESPMegaIoT(); this->iot->bindFRAM(this->fram); ETH.begin(); this->iot->bindEthernetInterface(Ð); ESP_LOGI("ESPMegaRecovery", "Loading network configuration"); this->iot->loadNetworkConfig(); ESP_LOGI("ESPMegaRecovery", "Attempting to connect to the network"); this->iot->connectNetwork(); // Start the web server ESP_LOGI("ESPMegaRecovery", "Starting the web server"); this->web_server = new ESPMegaWebServer(80, this->iot); this->web_server->bindFRAM(this->fram); this->web_server->loadCredentialsFromFRAM(); ESP_LOGI("ESPMegaRecovery", "Aquiring the web server instance"); AsyncWebServer *server = this->web_server->getServer(); // Add OTA update and restart endpoint ESP_LOGI("ESPMegaRecovery", "Adding OTA update and reboot endpoints"); auto bindedOtaRequestHandler = std::bind(&ESPMegaWebServer::otaRequestHandler, this->web_server, std::placeholders::_1); auto bindedOtaUploadHandler = std::bind(&ESPMegaWebServer::otaUploadHandler, this->web_server, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3, std::placeholders::_4, std::placeholders::_5, std::placeholders::_6); server->on("/ota_update", HTTP_POST, bindedOtaRequestHandler, bindedOtaUploadHandler); server->on("/reboot", HTTP_GET, std::bind(&ESPMegaWebServer::rebootHandler, this->web_server, std::placeholders::_1)); } void ESPMegaRecovery::bindFRAM(FRAM *fram, uint32_t address) { this->fram = fram; this->fram_address = address; } uint8_t ESPMegaRecovery::getBootloopCounter() { return this->bootloop_counter; } void ESPMegaRecovery::inclementBootloopCounter() { this->bootloop_counter++; if(this->fram != nullptr) { this->fram->write8(this->fram_address, this->bootloop_counter); } } void ESPMegaRecovery::resetBootloopCounter() { this->bootloop_counter = 0; if(this->fram != nullptr) { this->fram->write8(this->fram_address, this->bootloop_counter); } } bool ESPMegaRecovery::isRecoveryMode() { return this->recovery_mode; }