/* MIGRATE MODULE Copyright (C) 2016-2018 by Xose Pérez */ void _migrateMoveIndexDown(const char * key, int offset = 0) { if (hasSetting(key, 0)) return; for (unsigned char index = 1; index < SETTINGS_MAX_LIST_COUNT; index++) { if (hasSetting(key, index)) { setSetting(key, index - 1, getSetting(key, index).toInt() + offset); } else { delSetting(key, index - 1); } } } void _migrateBackwards() { moveSettings("relayGPIO", "rlyGPIO"); moveSettings("relayResetGPIO", "rlyResetGPIO"); moveSettings("relayType", "rlyType"); moveSetting("selGPIO", "hlwSELGPIO"); moveSetting("cfGPIO", "hlwCFGPIO"); moveSetting("cf1GPIO", "hlwCF1GPIO"); moveSetting("relayProvider", "rlyProvider"); moveSetting("lightProvider", "litProvider"); moveSetting("relays", "rlyCount"); moveSettings("chGPIO", "litChGPIO"); moveSettings("chLogic", "litChLogic"); moveSetting("enGPIO", "litEnableGPIO"); moveSetting("hlwSelC", "hlwCurLevel"); moveSetting("hlwIntM", "hlwInt"); delSetting("ledWifi"); } // Configuration versions // // 1: based on Embedis, no board definitions // 2: based on Embedis, with board definitions 1-based // 3: based on Embedis, with board definitions 0-based // 4: based on Embedis, added sensors and force resetting void migrate() { _migrateBackwards(); // Get config version unsigned int board = getSetting("board", 0).toInt(); unsigned int config_version = getSetting("cfg", board > 0 ? 2 : 1).toInt(); // Update if not on latest version if (config_version == CFG_VERSION) return; setSetting("cfg", CFG_VERSION); if (config_version == 2) { _migrateMoveIndexDown("ledGPIO"); _migrateMoveIndexDown("ledLogic"); _migrateMoveIndexDown("btnGPIO"); _migrateMoveIndexDown("btnRelay", -1); _migrateMoveIndexDown("rlyGPIO"); _migrateMoveIndexDown("rlyType"); } #if defined(NODEMCU_LOLIN) setSetting("board", 2); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(WEMOS_D1_MINI_RELAYSHIELD) setSetting("board", 3); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_BASIC) setSetting("board", 4); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_TH) setSetting("board", 5); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_SV) setSetting("board", 6); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_TOUCH) setSetting("board", 7); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnPress", 0, BUTTON_MODE_TOGGLE); setSetting("btnClick", 0, BUTTON_MODE_NONE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_RESET); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_POW) setSetting("board", 8); setSetting("ledGPIO", 0, 15); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("hlwEnabled", 1); setSetting("hlwSELGPIO", 5); setSetting("hlwCF1GPIO", 13); setSetting("hlwCFGPIO", 14); #elif defined(ITEAD_SONOFF_DUAL) setSetting("board", 9); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnRelay", 0, GPIO_INVALID); setSetting("btnRelay", 1, GPIO_INVALID); setSetting("btnRelay", 2, 0); setSetting("rlyProvider", RELAY_PROVIDER_DUAL); setSetting("rlyCount", 2); setSetting("dbgSerial", 0); setSetting("dbgBaudrate", 19230); #elif defined(ITEAD_1CH_INCHING) // The inching functionality is managed by a misterious IC in the board. // You cannot control the inching button and functionality from the ESP8266 // Besides, enabling the inching functionality using the hardware button // will result in the relay switching on and off continuously. // Fortunately the unkown IC keeps memory of the hardware inching status // so you can just disable it and forget. The inching LED must be lit. // You can still use the pulse options from the web interface // without problem. setSetting("board", 10); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_4CH) setSetting("board", 11); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnGPIO", 1, 9); setSetting("btnGPIO", 2, 10); setSetting("btnGPIO", 3, 14); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 2, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 3, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("btnRelay", 2, 2); setSetting("btnRelay", 3, 3); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 5); setSetting("rlyGPIO", 2, 4); setSetting("rlyGPIO", 3, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("rlyType", 2, RELAY_TYPE_NORMAL); setSetting("rlyType", 3, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SLAMPHER) setSetting("board", 12); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_S20) setSetting("board", 13); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ELECTRODRAGON_WIFI_IOT) setSetting("board", 14); setSetting("ledGPIO", 0, 16); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 0); setSetting("btnGPIO", 1, 2); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 13); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); #elif defined(WORKCHOICE_ECOPLUG) setSetting("board", 15); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(JANGOE_WIFI_RELAY_NC) // Jan Goedeke Wifi Relay // https://github.com/JanGoe/esp8266-wifi-relay setSetting("board", 16); setSetting("btnGPIO", 0, 12); setSetting("btnGPIO", 1, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("rlyGPIO", 0, 2); setSetting("rlyGPIO", 1, 14); setSetting("rlyType", 0, RELAY_TYPE_INVERSE); setSetting("rlyType", 1, RELAY_TYPE_INVERSE); #elif defined(JANGOE_WIFI_RELAY_NO) setSetting("board", 17); setSetting("btnGPIO", 0, 12); setSetting("btnGPIO", 1, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("rlyGPIO", 0, 2); setSetting("rlyGPIO", 1, 14); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); #elif defined(OPENENERGYMONITOR_MQTT_RELAY) setSetting("board", 18); setSetting("ledGPIO", 0, 16); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(JORGEGARCIA_WIFI_RELAYS) // Jorge García Wifi+Relays Board Kit // https://www.tindie.com/products/jorgegarciadev/wifi--relays-board-kit // https://github.com/jorgegarciadev/wifikit setSetting("board", 19); setSetting("rlyGPIO", 0, 0); setSetting("rlyGPIO", 1, 2); setSetting("rlyType", 0, RELAY_TYPE_INVERSE); setSetting("rlyType", 1, RELAY_TYPE_INVERSE); #elif defined(AITHINKER_AI_LIGHT) setSetting("board", 20); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_MY92XX); setSetting("myModel", MY92XX_MODEL_MY9291); // 4 channels per chip setSetting("myChips", 1); setSetting("myDIGPIO", 13); setSetting("myDCKIGPIO", 15); setSetting("myMapping", "0123"); setSetting("rlyCount", 1); #elif defined(MAGICHOME_LED_CONTROLLER) setSetting("board", 21); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("litChGPIO", 0, 14); setSetting("litChGPIO", 1, 5); setSetting("litChGPIO", 2, 12); setSetting("litChGPIO", 3, 13); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); setSetting("irEnabled", 1); setSetting("irGPIO", 4); setSetting("irSet", 1); #elif defined(ITEAD_MOTOR) setSetting("board", 22); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(TINKERMAN_ESPURNA_H06) setSetting("board", 23); setSetting("ledGPIO", 0, 5); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 4); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_INVERSE); setSetting("hlwEnabled", 1); setSetting("hlwSELGPIO", 2); setSetting("hlwCF1GPIO", 13); setSetting("hlwCFGPIO", 14); #elif defined(HUACANXING_H801) setSetting("board", 24); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("ledGPIO", 0, 5); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("litChGPIO", 0, 15); setSetting("litChGPIO", 1, 13); setSetting("litChGPIO", 2, 12); setSetting("litChGPIO", 3, 14); setSetting("litChGPIO", 4, 4); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 4, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); setSetting("dbgPort", 1); setSetting("dbgRXEnabled", 1); #elif defined(ITEAD_BNSZ01) setSetting("board", 25); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("litChGPIO", 0, 12); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(ITEAD_SONOFF_RFBRIDGE) setSetting("board", 26); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("rlyProvider", RELAY_PROVIDER_RFBRIDGE); setSetting("rlyCount", 8); setSetting("rfbDirect", 0); setSetting("rfbRXGPIO", 4); setSetting("rfbTXGPIO", 5); // When using un-modified harware, ESPurna communicates with the secondary // MCU EFM8BB1 via UART at 19200 bps so we need to change the speed of // the port and remove UART noise on serial line setSetting("dbgSerial", 0); setSetting("dbgBaudrate", 19200); #elif defined(ITEAD_SONOFF_4CH_PRO) setSetting("board", 27); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnGPIO", 1, 9); setSetting("btnGPIO", 2, 10); setSetting("btnGPIO", 3, 14); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 2, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 3, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("btnRelay", 2, 2); setSetting("btnRelay", 3, 3); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 5); setSetting("rlyGPIO", 2, 4); setSetting("rlyGPIO", 3, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("rlyType", 2, RELAY_TYPE_NORMAL); setSetting("rlyType", 3, RELAY_TYPE_NORMAL); // Sonoff 4CH Pro uses a secondary STM32 microcontroller to handle // buttons and relays, but it also forwards button presses to the ESP8285. // This allows ESPurna to handle button presses -almost- the same way // as with other devices except: // * Double click seems to break/disable the button on the STM32 side // * With S6 switch to 1 (self-locking and inching modes) everything's OK // * With S6 switch to 0 (interlock mode) if there is a relay ON // and you click on another relay button, the STM32 sends a "press" // event for the button of the first relay (to turn it OFF) but it // does not send a "release" event. It's like it's holding the // button down since you can see it is still LOW. // Whatever reason the result is that it may actually perform a // long click or long-long click. // The configuration below make the button toggle the relay on press events // and disables any possibly harmful combination with S6 set to 0. // If you are sure you will only use S6 to 1 you can comment the // btnLngClick(0) and btnLngLngClick(0) options below to recover the // reset mode and factory reset functionalities, or link other actions like // AP mode in the commented line below. setSetting("btnPress", 0, BUTTON_MODE_TOGGLE); setSetting("btnClick", 0, BUTTON_MODE_NONE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); // or BUTTON_MODE_AP setSetting("btnLngLngClick", 0, BUTTON_MODE_NONE); // or BUTTON_MODE_FACTORY setSetting("btnPress", 1, BUTTON_MODE_TOGGLE); setSetting("btnClick", 1, BUTTON_MODE_NONE); setSetting("btnPress", 2, BUTTON_MODE_TOGGLE); setSetting("btnClick", 2, BUTTON_MODE_NONE); setSetting("btnPress", 3, BUTTON_MODE_TOGGLE); setSetting("btnClick", 3, BUTTON_MODE_NONE); #elif defined(ITEAD_SONOFF_B1) setSetting("board", 28); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_MY92XX); setSetting("myModel", MY92XX_MODEL_MY9231); // 3 channels per chip setSetting("myChips", 2); setSetting("myDIGPIO", 12); setSetting("myDCKIGPIO", 14); setSetting("myMapping", "43501"); // TODO setSetting("litChFactor", 4, 0.1); // White LEDs are way more bright in the B1 setSetting("litChFactor", 5, 0.1); // White LEDs are way more bright in the B1 setSetting("rlyCount", 1); #elif defined(ITEAD_SONOFF_LED) setSetting("board", 29); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("litChGPIO", 0, 12); // Cold white setSetting("litChGPIO", 1, 14); // Warm white setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(ITEAD_SONOFF_T1_1CH) setSetting("board", 30); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("btnPress", 0, BUTTON_MODE_TOGGLE); setSetting("btnClick", 0, BUTTON_MODE_NONE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_RESET); #elif defined(ITEAD_SONOFF_T1_2CH) setSetting("board", 31); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnGPIO", 1, 9); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("btnPress", 0, BUTTON_MODE_TOGGLE); setSetting("btnClick", 0, BUTTON_MODE_NONE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_RESET); setSetting("btnPress", 1, BUTTON_MODE_TOGGLE); setSetting("btnClick", 1, BUTTON_MODE_NONE); setSetting("btnDblClick", 1, BUTTON_MODE_NONE); setSetting("btnLngClick", 1, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 1, BUTTON_MODE_RESET); #elif defined(ITEAD_SONOFF_T1_3CH) setSetting("board", 32); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnGPIO", 1, 9); setSetting("btnGPIO", 2, 10); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 2, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("btnRelay", 2, 2); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 5); setSetting("rlyGPIO", 2, 4); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("rlyType", 2, RELAY_TYPE_NORMAL); setSetting("btnPress", 0, BUTTON_MODE_TOGGLE); setSetting("btnClick", 0, BUTTON_MODE_NONE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_RESET); setSetting("btnPress", 1, BUTTON_MODE_TOGGLE); setSetting("btnClick", 1, BUTTON_MODE_NONE); setSetting("btnDblClick", 1, BUTTON_MODE_NONE); setSetting("btnLngClick", 1, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 1, BUTTON_MODE_RESET); setSetting("btnPress", 2, BUTTON_MODE_TOGGLE); setSetting("btnClick", 2, BUTTON_MODE_NONE); setSetting("btnDblClick", 2, BUTTON_MODE_NONE); setSetting("btnLngClick", 2, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 2, BUTTON_MODE_RESET); #elif defined(ITEAD_SONOFF_RF) setSetting("board", 33); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(WION_50055) // WiOn 50055 Indoor Wi-Fi Wall Outlet & Tap // https://rover.ebay.com/rover/1/711-53200-19255-0/1?icep_id=114&ipn=icep&toolid=20004&campid=5338044841&mpre=http%3A%2F%2Fwww.ebay.com%2Fitm%2FWiOn-50050-Indoor-Wi-Fi-Outlet-Wireless-Switch-Programmable-Timer-%2F263112281551 // https://rover.ebay.com/rover/1/711-53200-19255-0/1?icep_id=114&ipn=icep&toolid=20004&campid=5338044841&mpre=http%3A%2F%2Fwww.ebay.com%2Fitm%2FWiOn-50055-Indoor-Wi-Fi-Wall-Tap-Monitor-Energy-Usage-Wireless-Smart-Switch-%2F263020837777 // Does not support power monitoring yet setSetting("board", 34); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(EXS_WIFI_RELAY_V31) // EX-Store Wifi Relay v3.1 // https://ex-store.de/ESP8266-WiFi-Relay-V31 setSetting("board", 35); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 13); setSetting("rlyResetGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_LATCHED); #elif defined(HUACANXING_H802) setSetting("board", 36); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 12); setSetting("litChGPIO", 1, 14); setSetting("litChGPIO", 2, 13); setSetting("litChGPIO", 3, 15); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); setSetting("dbgPort", 1); setSetting("dbgRXEnabled", 1); #elif defined(GENERIC_V9261F) setSetting("board", 37); setSetting("v92Enabled", 1); setSetting("v92GPIO", 2); setSetting("v92Logic", GPIO_LOGIC_INVERSE); #elif defined(GENERIC_ECH1560) setSetting("board", 38); setSetting("echEnabled", 1); setSetting("echCLKGPIO", 4); setSetting("echMISOGPIO", 5); setSetting("echLogic", GPIO_LOGIC_INVERSE); #elif defined(TINKERMAN_ESPURNA_H08) setSetting("board", 39); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 4); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("hlwEnabled", 1); setSetting("hlwSELGPIO", 5); setSetting("hlwCF1GPIO", 13); setSetting("hlwCFGPIO", 14); #elif defined(MANCAVEMADE_ESPLIVE) // ESPLive // https://github.com/ManCaveMade/ESP-Live setSetting("board", 40); setSetting("btnGPIO", 0, 4); setSetting("btnGPIO", 1, 5); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 13); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("dsEnabled", 1); setSetting("dsGPIO", 0, 2); #elif defined(INTERMITTECH_QUINLED) // QuinLED // http://blog.quindorian.org/2017/02/esp8266-led-lighting-quinled-v2-6-pcb.html setSetting("board", 41); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("ledGPIO", 0, 5); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("litChGPIO", 0, 0); setSetting("litChGPIO", 1, 2); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(MAGICHOME_LED_CONTROLLER_20) setSetting("board", 42); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 5); setSetting("litChGPIO", 1, 12); setSetting("litChGPIO", 2, 13); setSetting("litChGPIO", 3, 15); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); setSetting("irEnabled", 1); setSetting("irGPIO", 4); setSetting("irSet", 1); #elif defined(ARILUX_AL_LC06) setSetting("board", 43); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 14); setSetting("litChGPIO", 1, 12); setSetting("litChGPIO", 2, 13); setSetting("litChGPIO", 3, 15); setSetting("litChGPIO", 4, 5); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 4, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(XENON_SM_PW702U) setSetting("board", 44); setSetting("ledGPIO", 0, 4); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(AUTHOMETION_LYT8266) // AUTHOMETION LYT8266 // https://authometion.com/shop/en/home/13-lyt8266.html setSetting("board", 45); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 13); setSetting("litChGPIO", 1, 12); setSetting("litChGPIO", 2, 14); setSetting("litChGPIO", 3, 2); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); setSetting("litEnableGPIO", 15); setSetting("litEnableLogic", GPIO_LOGIC_DIRECT); #elif defined(ARILUX_E27) setSetting("board", 46); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_MY92XX); setSetting("myModel", MY92XX_MODEL_MY9291); // 4 channels per chip setSetting("myChips", 1); setSetting("myDIGPIO", 13); setSetting("myDCKIGPIO", 15); setSetting("myMapping", "0123"); setSetting("rlyCount", 1); #elif defined(YJZK_SWITCH_2CH) setSetting("board", 47); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 0); setSetting("btnGPIO", 1, 9); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_DUAL_R2) setSetting("board", 48); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnGPIO", 1, 9); setSetting("btnGPIO", 2, 10); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH | BUTTON_SET_PULLUP); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH | BUTTON_SET_PULLUP); setSetting("btnMode", 2, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("btnRelay", 2, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyGPIO", 1, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); #elif defined(GENERIC_8CH) setSetting("board", 49); setSetting("rlyGPIO", 0, 0); setSetting("rlyGPIO", 1, 2); setSetting("rlyGPIO", 2, 4); setSetting("rlyGPIO", 3, 5); setSetting("rlyGPIO", 4, 12); setSetting("rlyGPIO", 5, 13); setSetting("rlyGPIO", 6, 14); setSetting("rlyGPIO", 7, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("rlyType", 2, RELAY_TYPE_NORMAL); setSetting("rlyType", 3, RELAY_TYPE_NORMAL); setSetting("rlyType", 4, RELAY_TYPE_NORMAL); setSetting("rlyType", 5, RELAY_TYPE_NORMAL); setSetting("rlyType", 6, RELAY_TYPE_NORMAL); setSetting("rlyType", 7, RELAY_TYPE_NORMAL); #elif defined(ARILUX_AL_LC01) setSetting("board", 50); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 5); setSetting("litChGPIO", 1, 12); setSetting("litChGPIO", 2, 13); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(ARILUX_AL_LC11) setSetting("board", 51); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 5); setSetting("litChGPIO", 1, 4); setSetting("litChGPIO", 2, 14); setSetting("litChGPIO", 3, 13); setSetting("litChGPIO", 4, 12); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 4, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(ARILUX_AL_LC02) setSetting("board", 52); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 12); setSetting("litChGPIO", 1, 5); setSetting("litChGPIO", 2, 13); setSetting("litChGPIO", 3, 15); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 3, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(KMC_70011) // KMC 70011 // https://www.amazon.com/KMC-Monitoring-Required-Control-Compatible/dp/B07313TH7B setSetting("board", 53); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 14); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("hlwEnabled", 1); setSetting("hlwSELGPIO", 12); setSetting("hlwCF1GPIO", 5); setSetting("hlwCFGPIO", 4); setSetting("hlwVolResUp", 2000000); #elif defined(GIZWITS_WITTY_CLOUD) setSetting("board", 54); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 4); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnPress", 0, BUTTON_MODE_TOGGLE); setSetting("btnClick", 0, BUTTON_MODE_NONE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_RESET); setSetting("rlyProvider", RELAY_PROVIDER_LIGHT); setSetting("litProvider", LIGHT_PROVIDER_DIMMER); setSetting("litChGPIO", 0, 15); setSetting("litChGPIO", 1, 12); setSetting("litChGPIO", 2, 13); setSetting("litChLogic", 0, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 1, GPIO_LOGIC_DIRECT); setSetting("litChLogic", 2, GPIO_LOGIC_DIRECT); setSetting("rlyCount", 1); #elif defined(EUROMATE_WIFI_STECKER_SCHUKO) // Euromate (?) Wifi Stecker Shuko // https://www.obi.de/hausfunksteuerung/wifi-stecker-schuko/p/2291706 // Thanks to @Geitde setSetting("board", 55); setSetting("ledGPIO", 0, 4); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 14); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH | BUTTON_SET_PULLUP); setSetting("btnRelay", 0, 0); // The relay in the device is not a bistable (latched) relay. // The device is reported to have a flip-flop circuit to drive the relay // So @Geitde hack is still the only possible // Hack: drive GPIO12 low and use GPIO5 as normal relay pin: setSetting("rlyGPIO", 0, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("ledGPIO", 1, 12); setSetting("ledLogic", 1, GPIO_LOGIC_DIRECT); #elif defined(TONBUX_POWERSTRIP02) setSetting("board", 56); setSetting("rlyGPIO", 0, 4); setSetting("rlyGPIO", 1, 13); setSetting("rlyGPIO", 2, 12); setSetting("rlyGPIO", 3, 14); setSetting("rlyGPIO", 4, 16); // Not a relay. USB ports on/off setSetting("rlyType", 0, RELAY_TYPE_INVERSE); setSetting("rlyType", 1, RELAY_TYPE_INVERSE); setSetting("rlyType", 2, RELAY_TYPE_INVERSE); setSetting("rlyType", 3, RELAY_TYPE_INVERSE); setSetting("rlyType", 4, RELAY_TYPE_NORMAL); // Not a relay. USB ports on/off setSetting("ledGPIO", 0, 0); // 1 blue led setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("ledGPIO", 1, 3); // 3 red leds setSetting("ledLogic", 1, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 5); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 1); #elif defined(LINGAN_SWA1) setSetting("board", 57); setSetting("ledGPIO", 0, 4); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH | BUTTON_SET_PULLUP); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(HEYGO_HY02) setSetting("board", 58); setSetting("ledGPIO", 0, 4); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(MAXCIO_WUS002S) setSetting("board", 59); setSetting("ledGPIO", 0, 3); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 2); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 13); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("hlwEnabled", 1); setSetting("hlwSELGPIO", 12); setSetting("hlwCF1GPIO", 5); setSetting("hlwCFGPIO", 4); setSetting("hlwCurRes", 0.002); setSetting("hlwVolResUp", 2000000); #elif defined(YIDIAN_XSSSA05) setSetting("board", 60); setSetting("ledGPIO", 0, 4); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("ledGPIO", 2, 2); setSetting("ledLogic", 2, 0); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("hlwEnabled", 1); setSetting("hlwSELGPIO", 3); setSetting("hlwCF1GPIO", 14); setSetting("hlwCFGPIO", 5); setSetting("hlwVolResUp", 2400000); #elif defined(TONBUX_XSSSA06) setSetting("board", 61); setSetting("ledGPIO", 0, 0); // Red setSetting("ledGPIO", 0, 5); // Green setSetting("ledGPIO", 0, 2); // Blue setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(GREEN_ESP8266RELAY) // GREEN ESP8266 RELAY MODULE // https://www.aliexpress.com/wholesale?catId=0&initiative_id=SB_20180323113846&SearchText=Green+ESP8266 setSetting("board", 62); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 5); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 4); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(IKE_ESPIKE) // Henrique Gravina ESPIKE // https://github.com/Henriquegravina/Espike setSetting("board", 63); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 13); setSetting("btnGPIO", 1, 12); setSetting("btnGPIO", 2, 14); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 2, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("btnRelay", 2, 2); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_NONE); setSetting("rlyGPIO", 0, 4); setSetting("rlyGPIO", 1, 5); setSetting("rlyGPIO", 2, 16); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("rlyType", 2, RELAY_TYPE_NORMAL); #elif defined(ARNIEX_SWIFITCH) // SWIFITCH // https://github.com/ArnieX/swifitch setSetting("board", 64); setSetting("ledGPIO", 0, 12); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 4); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH | BUTTON_SET_PULLUP); setSetting("btnRelay", 0, 1); setSetting("btnPress", 0, BUTTON_MODE_NONE); setSetting("btnClick", 0, BUTTON_MODE_TOGGLE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_NONE); setSetting("rlyGPIO", 0, 5); setSetting("rlyType", 0, RELAY_TYPE_INVERSE); #elif defined(GENERIC_ESP01S_RELAY_V40) // ESP-01S RELAY v4.0 // https://www.aliexpress.com/wholesale?catId=0&initiative_id=SB_20180404024035&SearchText=esp-01s+relay setSetting("board", 65); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("rlyGPIO", 0, 0); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(GENERIC_ESP01S_RGBLED_V10) // ESP-01S RGB LED v1.0 (some sold with ws2818) // https://www.aliexpress.com/wholesale?catId=0&initiative_id=SB_20180404023816&SearchText=esp-01s+led+controller setSetting("board", 66); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); #elif defined(HELTEC_TOUCHRELAY) // Heltec Touch Relay // https://www.aliexpress.com/wholesale?catId=0&initiative_id=SB_20180408043114&SearchText=esp8266+touch+relay setSetting("board", 67); setSetting("btnGPIO", 0, 14); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 1); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(GENERIC_ESP01S_DHT11_V10) // ESP-01S DHT11 v1.0 // https://www.aliexpress.com/wholesale?catId=0&initiative_id=SB_20180410105907&SearchText=esp-01s+dht11 setSetting("board", 68); setSetting("dhtEnabled", 1); setSetting("dhtGPIO", 0, 2); setSetting("dhtType", 0, DHT_CHIP_DHT11); #elif defined(GENERIC_ESP01S_DS18B20_V10) // ESP-01S DS18B20 v1.0 // https://www.aliexpress.com/wholesale?catId=0&initiative_id=SB_20180410105933&SearchText=esp-01s+ds18b20 setSetting("board", 69); setSetting("dsEnabled", 1); setSetting("dsGPIO", 0, 2); #elif defined(ZHILDE_EU44_W) // Zhilde ZLD-EU44-W // http://www.zhilde.com/product/60705150109-805652505/EU_WiFi_Surge_Protector_Extension_Socket_4_Outlets_works_with_Amazon_Echo_Smart_Power_Strip.html setSetting("board", 70); setSetting("btnGPIO", 0, 3); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("ledGPIO", 0, 1); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("rlyGPIO", 0, 5); setSetting("rlyGPIO", 1, 4); setSetting("rlyGPIO", 2, 12); setSetting("rlyGPIO", 3, 13); setSetting("rlyGPIO", 4, 14); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("rlyType", 2, RELAY_TYPE_NORMAL); setSetting("rlyType", 3, RELAY_TYPE_NORMAL); setSetting("rlyType", 4, RELAY_TYPE_NORMAL); // Based on the reporter, this product uses GPIO1 and 3 for the button // and onboard LED, so hardware serial should be disabled... setSetting("dbgSerial", 0); #elif defined(ITEAD_SONOFF_POW_R2) setSetting("board", 71); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("dbgSerial", 0); setSetting("cseEnabled", 1); setSetting("cseGPIO", 1); #elif defined(LUANI_HVIO) // Luani HVIO // https://luani.de/projekte/esp8266-hvio/ // https://luani.de/blog/esp8266-230v-io-modul/ setSetting("board", 72); setSetting("ledGPIO", 0, 15); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 12); setSetting("btnGPIO", 1, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("rlyGPIO", 0, 4); setSetting("rlyGPIO", 1, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); #elif defined(ALLNET_4DUINO_IOT_WLAN_RELAIS) // Allnet 4duino ESP8266-UP-Relais // http://www.allnet.de/de/allnet-brand/produkte/neuheiten/p/allnet-4duino-iot-wlan-relais-unterputz-esp8266-up-relais/ // https://shop.allnet.de/fileadmin/transfer/products/148814.pdf setSetting("board", 73); setSetting("ledGPIO", 0, 0); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("rlyGPIO", 0, 14); setSetting("rlyResetGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_LATCHED); #elif defined(TONBUX_MOSQUITO_KILLER) // Tonbux 50-100M Smart Mosquito Killer USB // https://www.aliexpress.com/item/Original-Tonbux-50-100M-Smart-Mosquito-Killer-USB-Plug-No-Noise-Repellent-App-Smart-Module/32859330820.html setSetting("board", 74); setSetting("ledGPIO", 0, 15); setSetting("ledGPIO", 1, 14); setSetting("ledGPIO", 2, 12); setSetting("ledGPIO", 3, 16); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("ledLogic", 1, GPIO_LOGIC_INVERSE); setSetting("ledLogic", 2, GPIO_LOGIC_DIRECT); setSetting("ledLogic", 3, GPIO_LOGIC_DIRECT); setSetting("ledMode", 0, LED_MODE_WIFI); setSetting("ledMode", 1, LED_MODE_RELAY); setSetting("ledRelay", 1, 0); setSetting("btnGPIO", 0, 2); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 5); // Fan setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(NEO_COOLCAM_NAS_WR01W) // NEO Coolcam NAS-WR01W Wifi Smart Power Plug // https://es.aliexpress.com/item/-/32854589733.html?spm=a219c.12010608.0.0.6d084e68xX0y5N // https://www.fasttech.com/product/9649426-neo-coolcam-nas-wr01w-wifi-smart-power-plug-eu setSetting("board", 75); setSetting("ledGPIO", 0, 4); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(PILOTAK_ESP_DIN_V1) // ESP-DIN relay board V1 // https://github.com/pilotak/esp_din setSetting("board", 76); setSetting("ledGPIO", 0, 15); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 4); setSetting("rlyGPIO", 1, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("i2cEnable", 1); setSetting("i2cSDAGPIO", 12); setSetting("i2cSCLGPIO", 13); setSetting("dsEnabled", 1); setSetting("dsGPIO", 0, 2); setSetting("rfEnabled", 1); setSetting("rfGPIO", 14); setSetting("digEnabled", 1); setSetting("digGPIO", 0, 16); setSetting("digMode", 0, INPUT); #elif defined(ESTINK_WIFI_POWER_STRIP) // Estink Wifi Power Strip // https://www.amazon.de/Steckdosenleiste-Ladeger%C3%A4t-Sprachsteuerung-SmartphonesTablets-Android/dp/B0796W5FZY // Fornorm Wi-Fi USB Extension Socket (ZLD-34EU) // https://www.aliexpress.com/item/Fornorm-WiFi-Extension-Socket-with-Surge-Protector-Smart-Power-Strip-3-Outlets-and-4-USB-Charging/32849743948.html setSetting("board", 77); setSetting("btnGPIO", 0, 16); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 3); setSetting("ledGPIO", 0, 0); setSetting("ledGPIO", 1, 12); setSetting("ledGPIO", 2, 3); setSetting("ledGPIO", 3, 5); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("ledLogic", 1, GPIO_LOGIC_INVERSE); setSetting("ledLogic", 2, GPIO_LOGIC_INVERSE); setSetting("ledLogic", 3, GPIO_LOGIC_INVERSE); setSetting("ledMode", 0, LED_MODE_FINDME); setSetting("ledMode", 1, LED_MODE_FOLLOW); setSetting("ledMode", 2, LED_MODE_FOLLOW); setSetting("ledMode", 3, LED_MODE_FOLLOW); setSetting("ledRelay", 1, 1); setSetting("ledRelay", 2, 2); setSetting("ledRelay", 3, 3); setSetting("rlyGPIO", 0, 14); // USB power setSetting("rlyGPIO", 1, 13); // power plug 1 setSetting("rlyGPIO", 2, 4); // power plug 2 setSetting("rlyGPIO", 3, 15); // power plug 3 setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); setSetting("rlyType", 2, RELAY_TYPE_NORMAL); setSetting("rlyType", 3, RELAY_TYPE_NORMAL); setSetting("dbgSerial", 0); #elif defined(BH_ONOFRE) // Bruno Horta's OnOfre // https://www.bhonofre.pt/ // https://github.com/brunohorta82/BH_OnOfre/ setSetting("board", 78); setSetting("btnGPIO", 0, 12); setSetting("btnGPIO", 1, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH | BUTTON_SET_PULLUP); setSetting("btnMode", 1, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH | BUTTON_SET_PULLUP); setSetting("btnRelay", 0, 0); setSetting("btnRelay", 1, 1); setSetting("rlyGPIO", 0, 4); setSetting("rlyGPIO", 1, 5); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("rlyType", 1, RELAY_TYPE_NORMAL); #elif defined(BLITZWOLF_BWSHP2) // Several boards under different names uing a power chip labelled BL0937 or HJL-01 // * Blitzwolf (https://www.amazon.es/Inteligente-Temporización-Dispositivos-Cualquier-BlitzWolf/dp/B07BMQP142) // * HomeCube (https://www.amazon.de/Steckdose-Homecube-intelligente-Verbrauchsanzeige-funktioniert/dp/B076Q2LKHG) // * Coosa (https://www.amazon.com/COOSA-Monitoring-Function-Campatible-Assiatant/dp/B0788W9TDR) // * Goosund (http://www.gosund.com/?m=content&c=index&a=show&catid=6&id=5) // * Ablue (https://www.amazon.de/Intelligente-Steckdose-Ablue-Funktioniert-Assistant/dp/B076DRFRZC) setSetting("board", 79); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("ledGPIO", 0, 2); setSetting("ledGPIO", 1, 0); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("ledLogic", 1, GPIO_LOGIC_INVERSE); setSetting("ledMode", 0, LED_MODE_WIFI); setSetting("ledMode", 1, LED_MODE_FINDME); setSetting("ledRelay", 1, 0); setSetting("rlyGPIO", 0, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("hlwSELGPIO", 12); setSetting("hlwCF1GPIO", 14); setSetting("hlwCFGPIO", 5); setSetting("hlwCurLevel", LOW); setSetting("hlwInt", FALLING); setSetting("curRatio", 25740); setSetting("volRatio", 313400); setSetting("pwrRatio", 3414290); #elif defined(TINKERMAN_ESPURNA_SWITCH) setSetting("board", 80); setSetting("ledGPIO", 0, 2); setSetting("ledLogic", 0, GPIO_LOGIC_DIRECT); setSetting("btnGPIO", 0, 4); setSetting("btnMode", 0, BUTTON_PUSHBUTTON); setSetting("btnPress", 0, BUTTON_MODE_TOGGLE); setSetting("btnClick", 0, BUTTON_MODE_NONE); setSetting("btnDblClick", 0, BUTTON_MODE_NONE); setSetting("btnLngClick", 0, BUTTON_MODE_NONE); setSetting("btnLngLngClick", 0, BUTTON_MODE_NONE); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); #elif defined(ITEAD_SONOFF_S31) setSetting("board", 81); setSetting("ledGPIO", 0, 13); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("btnGPIO", 0, 0); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("rlyGPIO", 0, 12); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("dbgSerial", 0); setSetting("cseEnabled", 1); setSetting("cseGPIO", 1); #elif defined(STM_RELAY) setSetting("board", 82); setSetting("rlyCount", 2); setSetting("rlyProvider", RELAY_PROVIDER_STM) setSetting("dbgSerial", 0); #elif defined(VANZAVANZU_SMART_WIFI_PLUG_MINI) // VANZAVANZU Smart Outlet Socket (based on BL0937 or HJL-01) // https://www.amazon.com/Smart-Plug-Wifi-Mini-VANZAVANZU/dp/B078PHD6S5 setSetting("board", 83); setSetting("btnGPIO", 0, 13); setSetting("btnMode", 0, BUTTON_PUSHBUTTON | BUTTON_DEFAULT_HIGH); setSetting("btnRelay", 0, 0); setSetting("ledGPIO", 0, 2); setSetting("ledGPIO", 1, 0); setSetting("ledLogic", 0, GPIO_LOGIC_INVERSE); setSetting("ledLogic", 1, GPIO_LOGIC_INVERSE); setSetting("ledMode", 0, LED_MODE_WIFI); setSetting("ledMode", 1, LED_MODE_FINDME); setSetting("ledRelay", 1, 0); setSetting("rlyGPIO", 0, 15); setSetting("rlyType", 0, RELAY_TYPE_NORMAL); setSetting("hlwSELGPIO", 3); setSetting("hlwCF1GPIO", 14); setSetting("hlwCFGPIO", 5); setSetting("hlwCurLevel", LOW); setSetting("hlwInt", FALLING); setSetting("curRatio", 25740); setSetting("volRatio", 313400); setSetting("pwrRatio", 3414290); #elif defined(GENERIC_GEIGER_COUNTER) setSetting("board", 83); setSetting("geiEnabled", 1); #else // Allow users to define new settings without migration config //#error "UNSUPPORTED HARDWARE!" #endif saveSettings(); }