Fork of the espurna firmware for `mhsw` switches
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// // //------------------------------------------------------------------------------
// Do not change this file unless you know what you are doing
// Configuration settings are in the settings.h file
//------------------------------------------------------------------------------
//------------------------------------------------------------------------------
// GENERAL
//------------------------------------------------------------------------------
#define DEVICE_NAME MANUFACTURER "_" DEVICE // Concatenate both to get a unique device name
// When defined, ADMIN_PASS must be 8..63 printable ASCII characters. See:
// https://en.wikipedia.org/wiki/Wi-Fi_Protected_Access#Target_users_(authentication_key_distribution)
// https://github.com/xoseperez/espurna/issues/1151
#ifndef ADMIN_PASS
#define ADMIN_PASS "fibonacci" // Default password (WEB, OTA, WIFI SoftAP)
#endif
#ifndef USE_PASSWORD
#define USE_PASSWORD 1 // Insecurity caution! Disabling this will disable password querying completely.
#endif
#ifndef LOOP_DELAY_TIME
#define LOOP_DELAY_TIME 10 // Delay for the main loop, in millis [0-250]
// Recommended minimum is 10, see:
// https://github.com/xoseperez/espurna/issues/1541
// https://github.com/xoseperez/espurna/issues/1631
// https://github.com/esp8266/Arduino/issues/5825
#endif
//------------------------------------------------------------------------------
// DEBUG
//------------------------------------------------------------------------------
// Serial debug log
#ifndef DEBUG_SERIAL_SUPPORT
#define DEBUG_SERIAL_SUPPORT 1 // Enable serial debug log
#endif
#ifndef DEBUG_PORT
#define DEBUG_PORT Serial // Default debugging port
#endif
#ifndef SERIAL_BAUDRATE
#define SERIAL_BAUDRATE 115200 // Default baudrate
#endif
#ifndef DEBUG_ADD_TIMESTAMP
#define DEBUG_ADD_TIMESTAMP 1 // Add timestamp to debug messages
// (in millis overflowing every 1000 seconds)
#endif
// Second serial port (used for RX)
#ifndef SERIAL_RX_ENABLED
#define SERIAL_RX_ENABLED 0 // Secondary serial port for RX
#endif
#ifndef SERIAL_RX_PORT
#define SERIAL_RX_PORT Serial // This setting is usually defined
// in the hardware.h file for those
// boards that require it
#endif
#ifndef SERIAL_RX_BAUDRATE
#define SERIAL_RX_BAUDRATE 115200 // Default baudrate
#endif
//------------------------------------------------------------------------------
// UDP debug log
// To receive the message son the destination computer use nc:
// nc -ul 8113
#ifndef DEBUG_UDP_SUPPORT
#define DEBUG_UDP_SUPPORT 0 // Enable UDP debug log
#endif
#ifndef DEBUG_UDP_IP
#define DEBUG_UDP_IP IPAddress(192, 168, 1, 100)
#endif
#ifndef DEBUG_UDP_PORT
#define DEBUG_UDP_PORT 514
#endif
// If DEBUG_UDP_PORT is set to 514 syslog format is assumed
// (https://tools.ietf.org/html/rfc3164)
// DEBUG_UDP_FAC_PRI is the facility+priority
#define DEBUG_UDP_FAC_PRI (SYSLOG_LOCAL0 | SYSLOG_DEBUG)
//------------------------------------------------------------------------------
#ifndef DEBUG_TELNET_SUPPORT
#define DEBUG_TELNET_SUPPORT 1 // Enable telnet debug log (will only work if TELNET_SUPPORT is also 1)
#endif
//------------------------------------------------------------------------------
#ifndef DEBUG_WEB_SUPPORT
#define DEBUG_WEB_SUPPORT 1 // Enable web debug log (will only work if WEB_SUPPORT is also 1)
#endif
//------------------------------------------------------------------------------
// TELNET
//------------------------------------------------------------------------------
#ifndef TELNET_SUPPORT
#define TELNET_SUPPORT 1 // Enable telnet support by default (3.34Kb)
#endif
#ifndef TELNET_STA
#define TELNET_STA 0 // By default, disallow connections via STA interface
#endif
#ifndef TELNET_AUTHENTICATION
#define TELNET_AUTHENTICATION 1 // Request password to start telnet session by default
#endif
#ifndef TELNET_PORT
#define TELNET_PORT 23 // Port to listen to telnet clients
#endif
#ifndef TELNET_MAX_CLIENTS
#define TELNET_MAX_CLIENTS 1 // Max number of concurrent telnet clients
#endif
#ifndef TELNET_SERVER
#define TELNET_SERVER TELNET_SERVER_ASYNC // Can be either TELNET_SERVER_ASYNC (using ESPAsyncTCP) or TELNET_SERVER_WIFISERVER (using WiFiServer)
#endif
//------------------------------------------------------------------------------
// TERMINAL
//------------------------------------------------------------------------------
#ifndef TERMINAL_SUPPORT
#define TERMINAL_SUPPORT 1 // Enable terminal commands (0.97Kb)
#endif
#define TERMINAL_BUFFER_SIZE 128 // Max size for commands commands
//------------------------------------------------------------------------------
// SYSTEM CHECK
//------------------------------------------------------------------------------
#ifndef SYSTEM_CHECK_ENABLED
#define SYSTEM_CHECK_ENABLED 1 // Enable crash check by default
#endif
#ifndef SYSTEM_CHECK_TIME
#define SYSTEM_CHECK_TIME 60000 // The system is considered stable after these many millis
#endif
#ifndef SYSTEM_CHECK_MAX
#define SYSTEM_CHECK_MAX 5 // After this many crashes on boot
// the system is flagged as unstable
#endif
//------------------------------------------------------------------------------
// EEPROM
//------------------------------------------------------------------------------
#define EEPROM_SIZE SPI_FLASH_SEC_SIZE // EEPROM size in bytes (1 sector = 4096 bytes)
//#define EEPROM_RORATE_SECTORS 2 // Number of sectors to use for EEPROM rotation
// If not defined the firmware will use a number based
// on the number of available sectors
#define EEPROM_RELAY_STATUS 0 // Address for the relay status (1 byte)
#define EEPROM_ENERGY_COUNT 1 // Address for the energy counter (4 bytes)
#define EEPROM_CUSTOM_RESET 5 // Address for the reset reason (1 byte)
#define EEPROM_CRASH_COUNTER 6 // Address for the crash counter (1 byte)
#define EEPROM_MESSAGE_ID 7 // Address for the MQTT message id (4 bytes)
#define EEPROM_ROTATE_DATA 11 // Reserved for the EEPROM_ROTATE library (3 bytes)
#define EEPROM_DATA_END 14 // End of custom EEPROM data block
//------------------------------------------------------------------------------
// THERMOSTAT
//------------------------------------------------------------------------------
#ifndef THERMOSTAT_SUPPORT
#define THERMOSTAT_SUPPORT 0
#endif
#ifndef THERMOSTAT_DISPLAY_SUPPORT
#define THERMOSTAT_DISPLAY_SUPPORT 0
#endif
#define THERMOSTAT_SERVER_LOST_INTERVAL 120000 //server means lost after 2 min from last response
#define THERMOSTAT_REMOTE_TEMP_MAX_WAIT 120 // 2 min
//------------------------------------------------------------------------------
// HEARTBEAT
//------------------------------------------------------------------------------
#define HEARTBEAT_NONE 0 // Never send heartbeat
#define HEARTBEAT_ONCE 1 // Send it only once upon MQTT connection
#define HEARTBEAT_REPEAT 2 // Send it upon MQTT connection and every HEARTBEAT_INTERVAL
#define HEARTBEAT_REPEAT_STATUS 3 // Send it upon MQTT connection and every HEARTBEAT_INTERVAL only STATUS report
// Backwards compatibility check
#if defined(HEARTBEAT_ENABLED) && (HEARTBEAT_ENABLED == 0)
#define HEARTBEAT_MODE HEARTBEAT_NONE
#endif
#ifndef HEARTBEAT_MODE
#define HEARTBEAT_MODE HEARTBEAT_REPEAT
#endif
#ifndef HEARTBEAT_INTERVAL
#define HEARTBEAT_INTERVAL 300 // Interval between heartbeat messages (in sec)
#endif
#define UPTIME_OVERFLOW 4294967295 // Uptime overflow value
// Values that will be reported in heartbeat
#ifndef HEARTBEAT_REPORT_STATUS
#define HEARTBEAT_REPORT_STATUS 1
#endif
#ifndef HEARTBEAT_REPORT_SSID
#define HEARTBEAT_REPORT_SSID 1
#endif
#ifndef HEARTBEAT_REPORT_IP
#define HEARTBEAT_REPORT_IP 1
#endif
#ifndef HEARTBEAT_REPORT_MAC
#define HEARTBEAT_REPORT_MAC 1
#endif
#ifndef HEARTBEAT_REPORT_RSSI
#define HEARTBEAT_REPORT_RSSI 1
#endif
#ifndef HEARTBEAT_REPORT_UPTIME
#define HEARTBEAT_REPORT_UPTIME 1
#endif
#ifndef HEARTBEAT_REPORT_DATETIME
#define HEARTBEAT_REPORT_DATETIME 1
#endif
#ifndef HEARTBEAT_REPORT_FREEHEAP
#define HEARTBEAT_REPORT_FREEHEAP 1
#endif
#ifndef HEARTBEAT_REPORT_VCC
#define HEARTBEAT_REPORT_VCC 1
#endif
#ifndef HEARTBEAT_REPORT_RELAY
#define HEARTBEAT_REPORT_RELAY 1
#endif
#ifndef HEARTBEAT_REPORT_LIGHT
#define HEARTBEAT_REPORT_LIGHT 1
#endif
#ifndef HEARTBEAT_REPORT_HOSTNAME
#define HEARTBEAT_REPORT_HOSTNAME 1
#endif
#ifndef HEARTBEAT_REPORT_DESCRIPTION
#define HEARTBEAT_REPORT_DESCRIPTION 1
#endif
#ifndef HEARTBEAT_REPORT_APP
#define HEARTBEAT_REPORT_APP 1
#endif
#ifndef HEARTBEAT_REPORT_VERSION
#define HEARTBEAT_REPORT_VERSION 1
#endif
#ifndef HEARTBEAT_REPORT_BOARD
#define HEARTBEAT_REPORT_BOARD 1
#endif
#ifndef HEARTBEAT_REPORT_LOADAVG
#define HEARTBEAT_REPORT_LOADAVG 1
#endif
#ifndef HEARTBEAT_REPORT_INTERVAL
#define HEARTBEAT_REPORT_INTERVAL 0
#endif
#if THERMOSTAT_SUPPORT && ! defined HEARTBEAT_REPORT_RANGE
#define HEARTBEAT_REPORT_RANGE 1
#else
#define HEARTBEAT_REPORT_RANGE 0
#endif
#if THERMOSTAT_SUPPORT && ! defined HEARTBEAT_REPORT_REMOTE_TEMP
#define HEARTBEAT_REPORT_REMOTE_TEMP 1
#else
#define HEARTBEAT_REPORT_REMOTE_TEMP 0
#endif
//------------------------------------------------------------------------------
// Load average
//------------------------------------------------------------------------------
#ifndef LOADAVG_INTERVAL
#define LOADAVG_INTERVAL 30000 // Interval between calculating load average (in ms)
#endif
//------------------------------------------------------------------------------
// BUTTON
//------------------------------------------------------------------------------
#ifndef BUTTON_SUPPORT
#define BUTTON_SUPPORT 1
#endif
#ifndef BUTTON_DEBOUNCE_DELAY
#define BUTTON_DEBOUNCE_DELAY 50 // Debounce delay (ms)
#endif
#ifndef BUTTON_DBLCLICK_DELAY
#define BUTTON_DBLCLICK_DELAY 500 // Time in ms to wait for a second (or third...) click
#endif
#ifndef BUTTON_LNGCLICK_DELAY
#define BUTTON_LNGCLICK_DELAY 1000 // Time in ms holding the button down to get a long click
#endif
#ifndef BUTTON_LNGLNGCLICK_DELAY
#define BUTTON_LNGLNGCLICK_DELAY 10000 // Time in ms holding the button down to get a long-long click
#endif
#ifndef BUTTON_MQTT_SEND_ALL_EVENTS
#define BUTTON_MQTT_SEND_ALL_EVENTS 0 // 0 - to send only events the are bound to actions
// 1 - to send all button events to MQTT
#endif
//------------------------------------------------------------------------------
// ENCODER
//------------------------------------------------------------------------------
#ifndef ENCODER_SUPPORT
#define ENCODER_SUPPORT 0
#endif
#ifndef ENCODER_MINIMUM_DELTA
#define ENCODER_MINIMUM_DELTA 1
#endif
//------------------------------------------------------------------------------
// LED
//------------------------------------------------------------------------------
#ifndef LED_SUPPORT
#define LED_SUPPORT 1
#endif
//------------------------------------------------------------------------------
// RELAY
//------------------------------------------------------------------------------
// Default boot mode: 0 means OFF, 1 ON and 2 whatever was before
#ifndef RELAY_BOOT_MODE
#define RELAY_BOOT_MODE RELAY_BOOT_OFF
#endif
// 0 means ANY, 1 zero or one and 2 one and only one
#ifndef RELAY_SYNC
#define RELAY_SYNC RELAY_SYNC_ANY
#endif
// Default pulse mode: 0 means no pulses, 1 means normally off, 2 normally on
#ifndef RELAY_PULSE_MODE
#define RELAY_PULSE_MODE RELAY_PULSE_NONE
#endif
// Default pulse time in seconds
#ifndef RELAY_PULSE_TIME
#define RELAY_PULSE_TIME 1.0
#endif
// Relay requests flood protection window - in seconds
#ifndef RELAY_FLOOD_WINDOW
#define RELAY_FLOOD_WINDOW 3
#endif
// Allowed actual relay changes inside requests flood protection window
#ifndef RELAY_FLOOD_CHANGES
#define RELAY_FLOOD_CHANGES 5
#endif
// Pulse with in milliseconds for a latched relay
#ifndef RELAY_LATCHING_PULSE
#define RELAY_LATCHING_PULSE 10
#endif
// Do not save relay state after these many milliseconds
#ifndef RELAY_SAVE_DELAY
#define RELAY_SAVE_DELAY 1000
#endif
#ifndef RELAY_REPORT_STATUS
#define RELAY_REPORT_STATUS 1
#endif
// Configure the MQTT payload for ON/OFF
#ifndef RELAY_MQTT_ON
#define RELAY_MQTT_ON "1"
#endif
#ifndef RELAY_MQTT_OFF
#define RELAY_MQTT_OFF "0"
#endif
// TODO Only single EEPROM address is used to store state, which is 1 byte
// Relay status is stored using bitfield.
// This means that, atm, we are only storing the status of the first 8 relays.
#define RELAY_SAVE_MASK_MAX 8
// -----------------------------------------------------------------------------
// WIFI
// -----------------------------------------------------------------------------
#ifndef WIFI_CONNECT_TIMEOUT
#define WIFI_CONNECT_TIMEOUT 60000 // Connecting timeout for WIFI in ms
#endif
#ifndef WIFI_RECONNECT_INTERVAL
#define WIFI_RECONNECT_INTERVAL 180000 // If could not connect to WIFI, retry after this time in ms
#endif
#ifndef WIFI_MAX_NETWORKS
#define WIFI_MAX_NETWORKS 5 // Max number of WIFI connection configurations
#endif
#ifndef WIFI_AP_CAPTIVE
#define WIFI_AP_CAPTIVE 1 // Captive portal enabled when in AP mode
#endif
#ifndef WIFI_FALLBACK_APMODE
#define WIFI_FALLBACK_APMODE 1 // Fallback to AP mode if no STA connection
#endif
#ifndef WIFI_SLEEP_MODE
#define WIFI_SLEEP_MODE WIFI_NONE_SLEEP // WIFI_NONE_SLEEP, WIFI_LIGHT_SLEEP or WIFI_MODEM_SLEEP
#endif
#ifndef WIFI_SCAN_NETWORKS
#define WIFI_SCAN_NETWORKS 1 // Perform a network scan before connecting
#endif
// Optional hardcoded configuration (up to 2 networks)
#ifndef WIFI1_SSID
#define WIFI1_SSID ""
#endif
#ifndef WIFI1_PASS
#define WIFI1_PASS ""
#endif
#ifndef WIFI1_IP
#define WIFI1_IP ""
#endif
#ifndef WIFI1_GW
#define WIFI1_GW ""
#endif
#ifndef WIFI1_MASK
#define WIFI1_MASK ""
#endif
#ifndef WIFI1_DNS
#define WIFI1_DNS ""
#endif
#ifndef WIFI2_SSID
#define WIFI2_SSID ""
#endif
#ifndef WIFI2_PASS
#define WIFI2_PASS ""
#endif
#ifndef WIFI2_IP
#define WIFI2_IP ""
#endif
#ifndef WIFI2_GW
#define WIFI2_GW ""
#endif
#ifndef WIFI2_MASK
#define WIFI2_MASK ""
#endif
#ifndef WIFI2_DNS
#define WIFI2_DNS ""
#endif
#ifndef WIFI3_SSID
#define WIFI3_SSID ""
#endif
#ifndef WIFI3_PASS
#define WIFI3_PASS ""
#endif
#ifndef WIFI3_IP
#define WIFI3_IP ""
#endif
#ifndef WIFI3_GW
#define WIFI3_GW ""
#endif
#ifndef WIFI3_MASK
#define WIFI3_MASK ""
#endif
#ifndef WIFI3_DNS
#define WIFI3_DNS ""
#endif
#ifndef WIFI4_SSID
#define WIFI4_SSID ""
#endif
#ifndef WIFI4_PASS
#define WIFI4_PASS ""
#endif
#ifndef WIFI4_IP
#define WIFI4_IP ""
#endif
#ifndef WIFI4_GW
#define WIFI4_GW ""
#endif
#ifndef WIFI4_MASK
#define WIFI4_MASK ""
#endif
#ifndef WIFI4_DNS
#define WIFI4_DNS ""
#endif
#ifndef WIFI_RSSI_1M
#define WIFI_RSSI_1M -30 // Calibrate it with your router reading the RSSI at 1m
#endif
#ifndef WIFI_PROPAGATION_CONST
#define WIFI_PROPAGATION_CONST 4 // This is typically something between 2.7 to 4.3 (free space is 2)
#endif
// -----------------------------------------------------------------------------
// WEB
// -----------------------------------------------------------------------------
#ifndef WEB_SUPPORT
#define WEB_SUPPORT 1 // Enable web support (http, api, 121.65Kb)
#endif
#ifndef WEB_EMBEDDED
#define WEB_EMBEDDED 1 // Build the firmware with the web interface embedded in
#endif
// This is not working at the moment!!
// Requires SECURE_CLIENT = SECURE_CLIENT_AXTLS and ESP8266 Arduino Core 2.4.0
#ifndef WEB_SSL_ENABLED
#define WEB_SSL_ENABLED 0 // Use HTTPS web interface
#endif
#ifndef WEB_USERNAME
#define WEB_USERNAME "admin" // HTTP username
#endif
#ifndef WEB_FORCE_PASS_CHANGE
#define WEB_FORCE_PASS_CHANGE 1 // Force the user to change the password if default one
#endif
#ifndef WEB_PORT
#define WEB_PORT 80 // HTTP port
#endif
// Defining a WEB_REMOTE_DOMAIN will enable Cross-Origin Resource Sharing (CORS)
// so you will be able to login to this device from another domain. This will allow
// you to manage all ESPurna devices in your local network from a unique installation
// of the web UI. This installation could be in a local server (a Raspberry Pi, for instance)
// or in the Internet. Since the WebUI is just one compressed file with HTML, CSS and JS
// there are no special requirements. Any static web server will do (NGinx, Apache, Lighttpd,...).
// The only requirement is that the resource must be available under this domain.
#ifndef WEB_REMOTE_DOMAIN
#define WEB_REMOTE_DOMAIN "http://espurna.io"
#endif
// -----------------------------------------------------------------------------
// WEBSOCKETS
// -----------------------------------------------------------------------------
// This will only be enabled if WEB_SUPPORT is 1 (this is the default value)
#ifndef WS_AUTHENTICATION
#define WS_AUTHENTICATION 1 // WS authentication ON by default (see #507)
#endif
#ifndef WS_BUFFER_SIZE
#define WS_BUFFER_SIZE 5 // Max number of secured websocket connections
#endif
#ifndef WS_TIMEOUT
#define WS_TIMEOUT 1800000 // Timeout for secured websocket
#endif
#ifndef WS_UPDATE_INTERVAL
#define WS_UPDATE_INTERVAL 30000 // Update clients every 30 seconds
#endif
// -----------------------------------------------------------------------------
// API
// -----------------------------------------------------------------------------
#ifndef API_SUPPORT
#define API_SUPPORT 1 // API (REST & RPC) support built in
#endif
// This will only be enabled if WEB_SUPPORT is 1 (this is the default value)
#ifndef API_ENABLED
#define API_ENABLED 0 // Do not enable API by default
#endif
#ifndef API_RESTFUL
#define API_RESTFUL 1 // A restful API requires changes to be issued as PUT requests
// Setting this to 0 will allow using GET to change relays, for instance
#endif
#ifndef API_BUFFER_SIZE
#define API_BUFFER_SIZE 64 // Size of the buffer for HTTP GET API responses
#endif
#ifndef API_REAL_TIME_VALUES
#define API_REAL_TIME_VALUES 0 // Show filtered/median values by default (0 => median, 1 => real time)
#endif
// -----------------------------------------------------------------------------
// MDNS / LLMNR / NETBIOS / SSDP
// -----------------------------------------------------------------------------
#ifndef MDNS_SERVER_SUPPORT
#define MDNS_SERVER_SUPPORT 1 // Publish services using mDNS by default (1.48Kb)
#endif
#ifndef MDNS_CLIENT_SUPPORT
#define MDNS_CLIENT_SUPPORT 0 // Resolve mDNS names (3.44Kb)
#endif
#ifndef LLMNR_SUPPORT
#define LLMNR_SUPPORT 0 // Publish device using LLMNR protocol by default (1.95Kb) - requires 2.4.0
#endif
#ifndef NETBIOS_SUPPORT
#define NETBIOS_SUPPORT 0 // Publish device using NetBIOS protocol by default (1.26Kb) - requires 2.4.0
#endif
#ifndef SSDP_SUPPORT
#define SSDP_SUPPORT 0 // Publish device using SSDP protocol by default (4.59Kb)
// Not compatible with ALEXA_SUPPORT at the moment
#endif
#ifndef SSDP_DEVICE_TYPE
#define SSDP_DEVICE_TYPE "upnp:rootdevice"
//#define SSDP_DEVICE_TYPE "urn:schemas-upnp-org:device:BinaryLight:1"
#endif
// -----------------------------------------------------------------------------
// SPIFFS
// -----------------------------------------------------------------------------
#ifndef SPIFFS_SUPPORT
#define SPIFFS_SUPPORT 0 // Do not add support for SPIFFS by default
#endif
// -----------------------------------------------------------------------------
// SSL Client ** EXPERIMENTAL **
// -----------------------------------------------------------------------------
#ifndef SECURE_CLIENT
#define SECURE_CLIENT SECURE_CLIENT_NONE // What variant of WiFiClient to use
// SECURE_CLIENT_NONE - No secure client support (default)
// SECURE_CLIENT_AXTLS - axTLS client secure support (All Core versions, ONLY TLS 1.1)
// SECURE_CLIENT_BEARSSL - BearSSL client secure support (starting with 2.5.0, TLS 1.2)
//
// axTLS marked for derecation since Arduino Core 2.4.2 and **will** be removed in the future
#endif
// Security check that is performed when the connection is established:
// SECURE_CLIENT_CHECK_CA - Use Trust Anchor / Root Certificate
// Supported only by the SECURE_CLIENT_BEARSSL
// (See respective ..._SECURE_CLIENT_INCLUDE_CA options per-module)
// SECURE_CLIENT_CHECK_FINGERPRINT - Check certificate fingerprint
// SECURE_CLIENT_CHECK_NONE - Allow insecure connections
#ifndef SECURE_CLIENT_CHECK
#if SECURE_CLIENT == SECURE_CLIENT_BEARSSL
#define SECURE_CLIENT_CHECK SECURE_CLIENT_CHECK_CA
#else
#define SECURE_CLIENT_CHECK SECURE_CLIENT_CHECK_FINGERPRINT
#endif
#endif // SECURE_CLIENT_CHECK
// Support Maximum Fragment Length Negotiation TLS extension
// "...negotiate a smaller maximum fragment length due to memory limitations or bandwidth limitations."
// - https://arduino-esp8266.readthedocs.io/en/latest/esp8266wifi/bearssl-client-secure-class.html#mfln-or-maximum-fragment-length-negotiation-saving-ram
// - https://tools.ietf.org/html/rfc6066#section-4
#ifndef SECURE_CLIENT_MFLN
#define SECURE_CLIENT_MFLN 0 // The only possible values are: 512, 1024, 2048 and 4096
// Set to 0 to disable (default)
#endif
// -----------------------------------------------------------------------------
// OTA
// -----------------------------------------------------------------------------
#ifndef OTA_PORT
#define OTA_PORT 8266 // Port for ArduinoOTA
#endif
#ifndef OTA_MQTT_SUPPORT
#define OTA_MQTT_SUPPORT 0 // Listen for HTTP(s) URLs at '<root topic>/ota'. Depends on OTA_CLIENT
#endif
#ifndef OTA_ARDUINOOTA_SUPPORT
#define OTA_ARDUINOOTA_SUPPORT 1 // Support ArduinoOTA by default (4.2Kb)
// Implicitly depends on ESP8266mDNS library, thus increasing firmware size
#endif
#ifndef OTA_CLIENT
#define OTA_CLIENT OTA_CLIENT_ASYNCTCP // Terminal / MQTT OTA support
// OTA_CLIENT_ASYNCTCP (ESPAsyncTCP library)
// OTA_CLIENT_HTTPUPDATE (Arduino Core library)
#endif
#ifndef OTA_CLIENT_HTTPUPDATE_2_3_0_COMPATIBLE
#define OTA_CLIENT_HTTPUPDATE_2_3_0_COMPATIBLE 1 // Use old HTTPUpdate API by default
#endif
#define OTA_GITHUB_FP "CA:06:F5:6B:25:8B:7A:0D:4F:2B:05:47:09:39:47:86:51:15:19:84"
#ifndef OTA_FINGERPRINT
#define OTA_FINGERPRINT OTA_GITHUB_FP
#endif
#ifndef OTA_SECURE_CLIENT_CHECK
#define OTA_SECURE_CLIENT_CHECK SECURE_CLIENT_CHECK
#endif
#ifndef OTA_SECURE_CLIENT_MFLN
#define OTA_SECURE_CLIENT_MFLN SECURE_CLIENT_MFLN
#endif
#ifndef OTA_SECURE_CLIENT_INCLUDE_CA
#define OTA_SECURE_CLIENT_INCLUDE_CA 0 // Use user-provided CA. Only PROGMEM PEM option is supported.
// TODO: eventually should be replaced with pre-parsed structs, read directly from flash
// (ref: https://github.com/earlephilhower/bearssl-esp8266/pull/14)
//
// When enabled, current implementation includes "static/ota_secure_client_ca.h" with
// const char _ota_client_http_update_ca[] PROGMEM = "...PEM data...";
// By default, using DigiCert root in "static/digicert_evroot_pem.h" (for https://github.com)
#endif
// -----------------------------------------------------------------------------
// NOFUSS
// -----------------------------------------------------------------------------
#ifndef NOFUSS_SUPPORT
#define NOFUSS_SUPPORT 0 // Do not enable support for NoFuss by default (12.65Kb)
#endif
#ifndef NOFUSS_ENABLED
#define NOFUSS_ENABLED 0 // Do not perform NoFUSS updates by default
#endif
#ifndef NOFUSS_SERVER
#define NOFUSS_SERVER "" // Default NoFuss Server
#endif
#ifndef NOFUSS_INTERVAL
#define NOFUSS_INTERVAL 3600000 // Check for updates every hour
#endif
// -----------------------------------------------------------------------------
// UART <-> MQTT
// -----------------------------------------------------------------------------
#ifndef UART_MQTT_SUPPORT
#define UART_MQTT_SUPPORT 0 // No support by default
#endif
#ifndef UART_MQTT_USE_SOFT
#define UART_MQTT_USE_SOFT 0 // Use SoftwareSerial
#endif
#ifndef UART_MQTT_HW_PORT
#define UART_MQTT_HW_PORT Serial // Hardware serial port (if UART_MQTT_USE_SOFT == 0)
#endif
#ifndef UART_MQTT_RX_PIN
#define UART_MQTT_RX_PIN 4 // RX PIN (if UART_MQTT_USE_SOFT == 1)
#endif
#ifndef UART_MQTT_TX_PIN
#define UART_MQTT_TX_PIN 5 // TX PIN (if UART_MQTT_USE_SOFT == 1)
#endif
#ifndef UART_MQTT_BAUDRATE
#define UART_MQTT_BAUDRATE 115200 // Serial speed
#endif
#ifndef UART_MQTT_TERMINATION
#define UART_MQTT_TERMINATION '\n' // Termination character
#endif
#define UART_MQTT_BUFFER_SIZE 100 // UART buffer size
// -----------------------------------------------------------------------------
// MQTT
// -----------------------------------------------------------------------------
#ifndef MQTT_SUPPORT
#define MQTT_SUPPORT 1 // MQTT support (22.38Kb async, 12.48Kb sync)
#endif
#ifndef MQTT_LIBRARY
#define MQTT_LIBRARY MQTT_ASYNC // Choose between: MQTT_ASYNC (AysncMQTTClient), MQTT_PUBSUB (PubSubClient), MQTT_ARDUINO (Arduino-MQTT)
#endif
// MQTT OVER SSL
// Using MQTT over SSL works pretty well but generates problems with the web interface.
// It could be a good idea to use it in conjuntion with WEB_SUPPORT=0.
// Requires SECURE_CLIENT = SECURE_CLIENT_AXTLS or SECURE_CLIENT_BEARSSL and ESP8266 Arduino Core >= 2.4.0.
//
// You can use SSL with MQTT_LIBRARY=ASYNC (AsyncMqttClient library)
// but you might experience hiccups on the web interface, so my recommendation is:
// WEB_SUPPORT=0
//
// If you use SSL with MQTT_LIBRARY=PUBSUB (PubSubClient library) or MQTT_LIBRARY=ARDUINO (Arduino-MQTT library)
// you will have to disable all the modules that use ESPAsyncTCP, that is:
// ALEXA_SUPPORT=0, INFLUXDB_SUPPORT=0, TELNET_SUPPORT=0, THINGSPEAK_SUPPORT=0, DEBUG_TELNET_SUPPORT=0 and WEB_SUPPORT=0
//
// You will need the fingerprint of your MQTT server, in order to prevent MITS attacks.
// To get a certificate fingerprint, run the following command:
// $ echo -n | openssl s_client -connect mqtt.googleapis.com:8883 2>&1 | openssl x509 -noout -fingerprint -sha1 | cut -d\= -f2
// Note that this fingerprint changes with e.g. LetsEncrypt renewals or when the CSR changes.
// It's also possible to leave the fingerprint empty, the certificate is then always trusted.
#ifndef MQTT_SSL_ENABLED
#define MQTT_SSL_ENABLED 0 // By default MQTT over SSL will not be enabled
#endif
#ifndef MQTT_SSL_FINGERPRINT
#define MQTT_SSL_FINGERPRINT "" // SSL fingerprint of the server
#endif
#ifndef MQTT_SECURE_CLIENT_CHECK
#define MQTT_SECURE_CLIENT_CHECK SECURE_CLIENT_CHECK // Use global verification setting by default
#endif
#ifndef MQTT_SECURE_CLIENT_MFLN
#define MQTT_SECURE_CLIENT_MFLN SECURE_CLIENT_MFLN // Use global MFLN setting by default
#endif
#ifndef MQTT_SECURE_CLIENT_INCLUDE_CA
#define MQTT_SECURE_CLIENT_INCLUDE_CA 0 // Use user-provided CA. Only PROGMEM PEM option is supported.
// When enabled, current implementation includes "static/mqtt_secure_client_ca.h" with
// const char _mqtt_client_ca[] PROGMEM = "...PEM data...";
// By default, using LetsEncrypt X3 root in "static/letsencrypt_isrgroot_pem.h"
#endif
#ifndef MQTT_ENABLED
#define MQTT_ENABLED 0 // Do not enable MQTT connection by default
#endif
#ifndef MQTT_AUTOCONNECT
#define MQTT_AUTOCONNECT 1 // If enabled and MDNS_SERVER_SUPPORT=1 will perform an autodiscover and
// autoconnect to the first MQTT broker found if none defined
#endif
#ifndef MQTT_SERVER
#define MQTT_SERVER "" // Default MQTT broker address
#endif
#ifndef MQTT_USER
#define MQTT_USER "" // Default MQTT broker usename
#endif
#ifndef MQTT_PASS
#define MQTT_PASS "" // Default MQTT broker password
#endif
#ifndef MQTT_PORT
#define MQTT_PORT 1883 // MQTT broker port
#endif
#ifndef MQTT_TOPIC
#define MQTT_TOPIC "{hostname}" // Default MQTT base topic
#endif
#ifndef MQTT_RETAIN
#define MQTT_RETAIN true // MQTT retain flag
#endif
#ifndef MQTT_QOS
#define MQTT_QOS 0 // MQTT QoS value for all messages
#endif
#ifndef MQTT_KEEPALIVE
#define MQTT_KEEPALIVE 300 // MQTT keepalive value
#endif
#ifndef MQTT_RECONNECT_DELAY_MIN
#define MQTT_RECONNECT_DELAY_MIN 5000 // Try to reconnect in 5 seconds upon disconnection
#endif
#ifndef MQTT_RECONNECT_DELAY_STEP
#define MQTT_RECONNECT_DELAY_STEP 5000 // Increase the reconnect delay in 5 seconds after each failed attempt
#endif
#ifndef MQTT_RECONNECT_DELAY_MAX
#define MQTT_RECONNECT_DELAY_MAX 120000 // Set reconnect time to 2 minutes at most
#endif
#ifndef MQTT_SKIP_RETAINED
#define MQTT_SKIP_RETAINED 1 // Skip retained messages on connection
#endif
#ifndef MQTT_SKIP_TIME
#define MQTT_SKIP_TIME 1000 // Skip messages for 1 second anter connection
#endif
#if THERMOSTAT_SUPPORT == 1
#ifndef MQTT_USE_JSON
#define MQTT_USE_JSON 1 // Group messages in a JSON body
#endif
#else
#ifndef MQTT_USE_JSON
#define MQTT_USE_JSON 0 // Don't group messages in a JSON body (default)
#endif
#endif
#ifndef MQTT_USE_JSON_DELAY
#define MQTT_USE_JSON_DELAY 100 // Wait this many ms before grouping messages
#endif
#ifndef MQTT_QUEUE_MAX_SIZE
#define MQTT_QUEUE_MAX_SIZE 20 // Size of the MQTT queue when MQTT_USE_JSON is enabled
#endif
// These are the properties that will be sent when useJson is true
#ifndef MQTT_ENQUEUE_IP
#define MQTT_ENQUEUE_IP 1
#endif
#ifndef MQTT_ENQUEUE_MAC
#define MQTT_ENQUEUE_MAC 1
#endif
#ifndef MQTT_ENQUEUE_HOSTNAME
#define MQTT_ENQUEUE_HOSTNAME 1
#endif
#ifndef MQTT_ENQUEUE_DATETIME
#define MQTT_ENQUEUE_DATETIME 1
#endif
#ifndef MQTT_ENQUEUE_MESSAGE_ID
#define MQTT_ENQUEUE_MESSAGE_ID 1
#endif
// These particles will be concatenated to the MQTT_TOPIC base to form the actual topic
#define MQTT_TOPIC_JSON "data"
#define MQTT_TOPIC_ACTION "action"
#define MQTT_TOPIC_RELAY "relay"
#define MQTT_TOPIC_LED "led"
#define MQTT_TOPIC_BUTTON "button"
#define MQTT_TOPIC_IP "ip"
#define MQTT_TOPIC_SSID "ssid"
#define MQTT_TOPIC_VERSION "version"
#define MQTT_TOPIC_UPTIME "uptime"
#define MQTT_TOPIC_DATETIME "datetime"
#define MQTT_TOPIC_FREEHEAP "freeheap"
#define MQTT_TOPIC_VCC "vcc"
#ifndef MQTT_TOPIC_STATUS
#define MQTT_TOPIC_STATUS "status"
#endif
#define MQTT_TOPIC_MAC "mac"
#define MQTT_TOPIC_RSSI "rssi"
#define MQTT_TOPIC_MESSAGE_ID "id"
#define MQTT_TOPIC_APP "app"
#define MQTT_TOPIC_INTERVAL "interval"
#define MQTT_TOPIC_HOSTNAME "host"
#define MQTT_TOPIC_DESCRIPTION "desc"
#define MQTT_TOPIC_TIME "time"
#define MQTT_TOPIC_RFOUT "rfout"
#define MQTT_TOPIC_RFIN "rfin"
#define MQTT_TOPIC_RFLEARN "rflearn"
#define MQTT_TOPIC_RFRAW "rfraw"
#define MQTT_TOPIC_UARTIN "uartin"
#define MQTT_TOPIC_UARTOUT "uartout"
#define MQTT_TOPIC_LOADAVG "loadavg"
#define MQTT_TOPIC_BOARD "board"
#define MQTT_TOPIC_PULSE "pulse"
#define MQTT_TOPIC_SPEED "speed"
#define MQTT_TOPIC_IRIN "irin"
#define MQTT_TOPIC_IROUT "irout"
#define MQTT_TOPIC_OTA "ota"
// Light module
#define MQTT_TOPIC_CHANNEL "channel"
#define MQTT_TOPIC_COLOR_RGB "rgb"
#define MQTT_TOPIC_COLOR_HSV "hsv"
#define MQTT_TOPIC_ANIM_MODE "anim_mode"
#define MQTT_TOPIC_ANIM_SPEED "anim_speed"
#define MQTT_TOPIC_BRIGHTNESS "brightness"
#define MQTT_TOPIC_MIRED "mired"
#define MQTT_TOPIC_KELVIN "kelvin"
#define MQTT_TOPIC_TRANSITION "transition"
// Thermostat module
#define MQTT_TOPIC_HOLD_TEMP "hold_temp"
#define MQTT_TOPIC_HOLD_TEMP_MIN "min"
#define MQTT_TOPIC_HOLD_TEMP_MAX "max"
#define MQTT_TOPIC_REMOTE_TEMP "remote_temp"
#define MQTT_TOPIC_ASK_TEMP_RANGE "ask_temp_range"
#define MQTT_TOPIC_NOTIFY_TEMP_RANGE_MIN "notify_temp_range_min"
#define MQTT_TOPIC_NOTIFY_TEMP_RANGE_MAX "notify_temp_range_max"
#define MQTT_STATUS_ONLINE "1" // Value for the device ON message
#ifndef MQTT_STATUS_OFFLINE
#define MQTT_STATUS_OFFLINE "0" // Value for the device OFF message (will)
#endif
#define MQTT_ACTION_RESET "reboot" // RESET MQTT topic particle
#define MQTT_MESSAGE_ID_SHIFT 1000 // Store MQTT message id into EEPROM every these many
// Custom get and set postfixes
// Use something like "/status" or "/set", with leading slash
// Since 1.9.0 the default value is "" for getter and "/set" for setter
#ifndef MQTT_GETTER
#define MQTT_GETTER ""
#endif
#ifndef MQTT_SETTER
#define MQTT_SETTER "/set"
#endif
// -----------------------------------------------------------------------------
// BROKER
// -----------------------------------------------------------------------------
#ifndef BROKER_SUPPORT
#define BROKER_SUPPORT 1 // The broker is a poor-man's pubsub manager
#endif
// -----------------------------------------------------------------------------
// SETTINGS
// -----------------------------------------------------------------------------
#ifndef SETTINGS_AUTOSAVE
#define SETTINGS_AUTOSAVE 1 // Autosave settings or force manual commit
#endif
#define SETTINGS_MAX_LIST_COUNT 10 // Maximum index for settings lists
// -----------------------------------------------------------------------------
// LIGHT
// -----------------------------------------------------------------------------
// LIGHT_PROVIDER_DIMMER can have from 1 to 5 different channels.
// They have to be defined for each device in the hardware.h file.
// If 3 or more channels first 3 will be considered RGB.
// Usual configurations are:
// 1 channels => W
// 2 channels => WW
// 3 channels => RGB
// 4 channels => RGBW
// 5 channels => RGBWW
#ifndef LIGHT_SAVE_ENABLED
#define LIGHT_SAVE_ENABLED 1 // Light channel values saved by default after each change
#endif
#ifndef LIGHT_COMMS_DELAY
#define LIGHT_COMMS_DELAY 100 // Delay communication after light update (in ms)
#endif
#ifndef LIGHT_SAVE_DELAY
#define LIGHT_SAVE_DELAY 5 // Persist color after 5 seconds to avoid wearing out
#endif
#ifndef LIGHT_MIN_PWM
#define LIGHT_MIN_PWM 0
#endif
#ifndef LIGHT_MAX_PWM
#if LIGHT_PROVIDER == LIGHT_PROVIDER_MY92XX
#define LIGHT_MAX_PWM 255
#elif LIGHT_PROVIDER == LIGHT_PROVIDER_DIMMER
#define LIGHT_MAX_PWM 10000 // 10000 * 200ns => 2 kHz
#else
#define LIGHT_MAX_PWM 0
#endif
#endif // LIGHT_MAX_PWM
#ifndef LIGHT_LIMIT_PWM
#define LIGHT_LIMIT_PWM LIGHT_MAX_PWM // Limit PWM to this value (prevent 100% power)
#endif
#ifndef LIGHT_MIN_VALUE
#define LIGHT_MIN_VALUE 0 // Minimum light value
#endif
#ifndef LIGHT_MAX_VALUE
#define LIGHT_MAX_VALUE 255 // Maximum light value
#endif
#ifndef LIGHT_MIN_BRIGHTNESS
#define LIGHT_MIN_BRIGHTNESS 0 // Minimum brightness value
#endif
#ifndef LIGHT_MAX_BRIGHTNESS
#define LIGHT_MAX_BRIGHTNESS 255 // Maximum brightness value
#endif
#define LIGHT_MIN_KELVIN 1000
#define LIGHT_MAX_KELVIN 40000
#define LIGHT_MIN_MIREDS 153 // Default to the Philips Hue value that HA also use.
#define LIGHT_MAX_MIREDS 500 // https://developers.meethue.com/documentation/core-concepts
#ifndef LIGHT_STEP
#define LIGHT_STEP 32 // Step size
#endif
#ifndef LIGHT_USE_COLOR
#define LIGHT_USE_COLOR 1 // Use 3 first channels as RGB
#endif
#ifndef LIGHT_USE_WHITE
#define LIGHT_USE_WHITE 0 // Use the 4th channel as (Warm-)White LEDs
#endif
#ifndef LIGHT_USE_CCT
#define LIGHT_USE_CCT 0 // Use the 5th channel as Coldwhite LEDs, LIGHT_USE_WHITE must be 1.
#endif
// Used when LIGHT_USE_WHITE AND LIGHT_USE_CCT is 1 - (1000000/Kelvin = MiReds)
// Warning! Don't change this yet, NOT FULLY IMPLEMENTED!
#define LIGHT_COLDWHITE_MIRED 153 // Coldwhite Strip, Value must be __BELOW__ W2!! (Default: 6535 Kelvin/153 MiRed)
#define LIGHT_WARMWHITE_MIRED 500 // Warmwhite Strip, Value must be __ABOVE__ W1!! (Default: 2000 Kelvin/500 MiRed)
#ifndef LIGHT_USE_GAMMA
#define LIGHT_USE_GAMMA 0 // Use gamma correction for color channels
#endif
#ifndef LIGHT_USE_CSS
#define LIGHT_USE_CSS 1 // Use CSS style to report colors (1=> "#FF0000", 0=> "255,0,0")
#endif
#ifndef LIGHT_USE_RGB
#define LIGHT_USE_RGB 0 // Use RGB color selector (1=> RGB, 0=> HSV)
#endif
#ifndef LIGHT_WHITE_FACTOR
#define LIGHT_WHITE_FACTOR 1 // When using LIGHT_USE_WHITE with uneven brightness LEDs,
// this factor is used to scale the white channel to match brightness
#endif
#ifndef LIGHT_USE_TRANSITIONS
#define LIGHT_USE_TRANSITIONS 1 // Transitions between colors
#endif
#ifndef LIGHT_TRANSITION_STEP
#define LIGHT_TRANSITION_STEP 10 // Time in millis between each transtion step
#endif
#ifndef LIGHT_TRANSITION_TIME
#define LIGHT_TRANSITION_TIME 500 // Time in millis from color to color
#endif
// -----------------------------------------------------------------------------
// DOMOTICZ
// -----------------------------------------------------------------------------
#ifndef DOMOTICZ_SUPPORT
#define DOMOTICZ_SUPPORT MQTT_SUPPORT // Build with domoticz (if MQTT) support (1.72Kb)
#endif
#ifndef DOMOTICZ_ENABLED
#define DOMOTICZ_ENABLED 0 // Disable domoticz by default
#endif
#ifndef DOMOTICZ_IN_TOPIC
#define DOMOTICZ_IN_TOPIC "domoticz/in" // Default subscription topic
#endif
#ifndef DOMOTICZ_OUT_TOPIC
#define DOMOTICZ_OUT_TOPIC "domoticz/out" // Default publication topic
#endif
// -----------------------------------------------------------------------------
// HOME ASSISTANT
// -----------------------------------------------------------------------------
#ifndef HOMEASSISTANT_SUPPORT
#define HOMEASSISTANT_SUPPORT MQTT_SUPPORT // Build with home assistant support (if MQTT, 1.64Kb)
#endif
#ifndef HOMEASSISTANT_ENABLED
#define HOMEASSISTANT_ENABLED 0 // Integration not enabled by default
#endif
#ifndef HOMEASSISTANT_PREFIX
#define HOMEASSISTANT_PREFIX "homeassistant" // Default MQTT prefix
#endif
#ifndef HOMEASSISTANT_PAYLOAD_ON
#define HOMEASSISTANT_PAYLOAD_ON "1" // Payload for ON and available messages
#endif
#ifndef HOMEASSISTANT_PAYLOAD_OFF
#define HOMEASSISTANT_PAYLOAD_OFF "0" // Payload for OFF and unavailable messages
#endif
#ifndef HOMEASSISTANT_PAYLOAD_AVAILABLE
#define HOMEASSISTANT_PAYLOAD_AVAILABLE "1" // Payload for available messages
#endif
#ifndef HOMEASSISTANT_PAYLOAD_NOT_AVAILABLE
#define HOMEASSISTANT_PAYLOAD_NOT_AVAILABLE "0" // Payload for available messages
#endif
// -----------------------------------------------------------------------------
// INFLUXDB
// -----------------------------------------------------------------------------
#ifndef INFLUXDB_SUPPORT
#define INFLUXDB_SUPPORT 0 // Disable InfluxDB support by default (4.38Kb)
#endif
#ifndef INFLUXDB_ENABLED
#define INFLUXDB_ENABLED 0 // InfluxDB disabled by default
#endif
#ifndef INFLUXDB_HOST
#define INFLUXDB_HOST "" // Default server
#endif
#ifndef INFLUXDB_PORT
#define INFLUXDB_PORT 8086 // Default InfluxDB port
#endif
#ifndef INFLUXDB_DATABASE
#define INFLUXDB_DATABASE "" // Default database
#endif
#ifndef INFLUXDB_USERNAME
#define INFLUXDB_USERNAME "" // Default username
#endif
#ifndef INFLUXDB_PASSWORD
#define INFLUXDB_PASSWORD "" // Default password
#endif
// -----------------------------------------------------------------------------
// THINGSPEAK
// -----------------------------------------------------------------------------
#ifndef THINGSPEAK_SUPPORT
#define THINGSPEAK_SUPPORT 1 // Enable Thingspeak support by default (2.56Kb)
#endif
#ifndef THINGSPEAK_ENABLED
#define THINGSPEAK_ENABLED 0 // Thingspeak disabled by default
#endif
#ifndef THINGSPEAK_APIKEY
#define THINGSPEAK_APIKEY "" // Default API KEY
#endif
#ifndef THINGSPEAK_CLEAR_CACHE
#define THINGSPEAK_CLEAR_CACHE 1 // Clear cache after sending values
// Not clearing it will result in latest values for each field being sent every time
#endif
#define THINGSPEAK_USE_ASYNC 1 // Use AsyncClient instead of WiFiClientSecure
// THINGSPEAK OVER SSL
// Using THINGSPEAK over SSL works well but generates problems with the web interface,
// so you should compile it with WEB_SUPPORT to 0.
// When THINGSPEAK_USE_ASYNC is 1, requires SECURE_CLIENT = SECURE_CLIENT_AXTLS and ESP8266 Arduino Core >= 2.4.0.
#define THINGSPEAK_USE_SSL 0 // Use secure connection
#define THINGSPEAK_FINGERPRINT "78 60 18 44 81 35 BF DF 77 84 D4 0A 22 0D 9B 4E 6C DC 57 2C"
#define THINGSPEAK_HOST "api.thingspeak.com"
#if THINGSPEAK_USE_SSL
#define THINGSPEAK_PORT 443
#else
#define THINGSPEAK_PORT 80
#endif
#define THINGSPEAK_URL "/update"
#define THINGSPEAK_MIN_INTERVAL 15000 // Minimum interval between POSTs (in millis)
#define THINGSPEAK_FIELDS 8 // Number of fields
#ifndef THINGSPEAK_TRIES
#define THINGSPEAK_TRIES 3 // Number of tries when sending data (minimum 1)
#endif
// -----------------------------------------------------------------------------
// SCHEDULER
// -----------------------------------------------------------------------------
#ifndef SCHEDULER_SUPPORT
#define SCHEDULER_SUPPORT 1 // Enable scheduler (1.77Kb)
#endif
#ifndef SCHEDULER_MAX_SCHEDULES
#define SCHEDULER_MAX_SCHEDULES 10 // Max schedules alowed
#endif
// -----------------------------------------------------------------------------
// NTP
// -----------------------------------------------------------------------------
#ifndef NTP_SUPPORT
#define NTP_SUPPORT 1 // Build with NTP support by default (6.78Kb)
#endif
#ifndef NTP_SERVER
#define NTP_SERVER "pool.ntp.org" // Default NTP server
#endif
#ifndef NTP_TIMEOUT
#define NTP_TIMEOUT 1000 // Set NTP request timeout to 2 seconds (issue #452)
#endif
#ifndef NTP_TIME_OFFSET
#define NTP_TIME_OFFSET 60 // Default timezone offset (GMT+1)
#endif
#ifndef NTP_DAY_LIGHT
#define NTP_DAY_LIGHT 1 // Enable daylight time saving by default
#endif
#ifndef NTP_SYNC_INTERVAL
#define NTP_SYNC_INTERVAL 60 // NTP initial check every minute
#endif
#ifndef NTP_UPDATE_INTERVAL
#define NTP_UPDATE_INTERVAL 1800 // NTP check every 30 minutes
#endif
#ifndef NTP_START_DELAY
#define NTP_START_DELAY 1000 // Delay NTP start 1 second
#endif
#ifndef NTP_DST_REGION
#define NTP_DST_REGION 0 // 0 for Europe, 1 for USA (defined in NtpClientLib)
#endif
#ifndef NTP_WAIT_FOR_SYNC
#define NTP_WAIT_FOR_SYNC 1 // Do not report any datetime until NTP sync'ed
#endif
// -----------------------------------------------------------------------------
// ALEXA
// -----------------------------------------------------------------------------
// This setting defines whether Alexa support should be built into the firmware
#ifndef ALEXA_SUPPORT
#define ALEXA_SUPPORT 1 // Enable Alexa support by default (10.84Kb)
#endif
// This is default value for the alexaEnabled setting that defines whether
// this device should be discoberable and respond to Alexa commands.
// Both ALEXA_SUPPORT and alexaEnabled should be 1 for Alexa support to work.
#ifndef ALEXA_ENABLED
#define ALEXA_ENABLED 1
#endif
#ifndef ALEXA_HOSTNAME
#define ALEXA_HOSTNAME ""
#endif
// -----------------------------------------------------------------------------
// MQTT RF BRIDGE
// -----------------------------------------------------------------------------
#ifndef RF_SUPPORT
#define RF_SUPPORT 0
#endif
#ifndef RF_DEBOUNCE
#define RF_DEBOUNCE 500
#endif
#ifndef RF_LEARN_TIMEOUT
#define RF_LEARN_TIMEOUT 60000
#endif
#ifndef RF_SEND_TIMES
#define RF_SEND_TIMES 4 // How many times to send the message
#endif
#ifndef RF_SEND_DELAY
#define RF_SEND_DELAY 500 // Interval between sendings in ms
#endif
#ifndef RF_RECEIVE_DELAY
#define RF_RECEIVE_DELAY 500 // Interval between recieving in ms (avoid debouncing)
#endif
// Enable RCSwitch support
// Originally implemented for SONOFF BASIC
// https://tinkerman.cat/adding-rf-to-a-non-rf-itead-sonoff/
// Also possible to use with SONOFF RF BRIDGE, thanks to @wildwiz
// https://github.com/xoseperez/espurna/wiki/Hardware-Itead-Sonoff-RF-Bridge---Direct-Hack
#ifndef RFB_DIRECT
#define RFB_DIRECT 0
#endif
#ifndef RFB_RX_PIN
#define RFB_RX_PIN GPIO_NONE
#endif
#ifndef RFB_TX_PIN
#define RFB_TX_PIN GPIO_NONE
#endif
// -----------------------------------------------------------------------------
// IR Bridge
// -----------------------------------------------------------------------------
#ifndef IR_SUPPORT
#define IR_SUPPORT 0 // Do not build with IR support by default (10.25Kb)
#endif
//#define IR_RX_PIN 5 // GPIO the receiver is connected to
//#define IR_TX_PIN 4 // GPIO the transmitter is connected to
#ifndef IR_USE_RAW
#define IR_USE_RAW 0 // Use raw codes
#endif
#ifndef IR_BUFFER_SIZE
#define IR_BUFFER_SIZE 1024
#endif
#ifndef IR_TIMEOUT
#define IR_TIMEOUT 15U
#endif
#ifndef IR_REPEAT
#define IR_REPEAT 1
#endif
#ifndef IR_DELAY
#define IR_DELAY 100
#endif
#ifndef IR_DEBOUNCE
#define IR_DEBOUNCE 500 // IR debounce time in milliseconds
#endif
#ifndef IR_BUTTON_SET
#define IR_BUTTON_SET 0 // IR button set to use (see below)
#endif
// -----------------------------------------------------------------------------
// Remote Buttons SET 1 (for the original Remote shipped with the controller)
#if IR_BUTTON_SET == 1
/*
+------+------+------+------+
| UP | Down | OFF | ON |
+------+------+------+------+
| R | G | B | W |
+------+------+------+------+
| 1 | 2 | 3 |FLASH |
+------+------+------+------+
| 4 | 5 | 6 |STROBE|
+------+------+------+------+
| 7 | 8 | 9 | FADE |
+------+------+------+------+
| 10 | 11 | 12 |SMOOTH|
+------+------+------+------+
*/
#define IR_BUTTON_COUNT 24
const uint32_t IR_BUTTON[IR_BUTTON_COUNT][3] PROGMEM = {
{ 0xFF906F, IR_BUTTON_MODE_BRIGHTER, 1 },
{ 0xFFB847, IR_BUTTON_MODE_BRIGHTER, 0 },
{ 0xFFF807, IR_BUTTON_MODE_STATE, 0 },
{ 0xFFB04F, IR_BUTTON_MODE_STATE, 1 },
{ 0xFF9867, IR_BUTTON_MODE_RGB, 0xFF0000 },
{ 0xFFD827, IR_BUTTON_MODE_RGB, 0x00FF00 },
{ 0xFF8877, IR_BUTTON_MODE_RGB, 0x0000FF },
{ 0xFFA857, IR_BUTTON_MODE_RGB, 0xFFFFFF },
{ 0xFFE817, IR_BUTTON_MODE_RGB, 0xD13A01 },
{ 0xFF48B7, IR_BUTTON_MODE_RGB, 0x00E644 },
{ 0xFF6897, IR_BUTTON_MODE_RGB, 0x0040A7 },
{ 0xFFB24D, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_FLASH },
{ 0xFF02FD, IR_BUTTON_MODE_RGB, 0xE96F2A },
{ 0xFF32CD, IR_BUTTON_MODE_RGB, 0x00BEBF },
{ 0xFF20DF, IR_BUTTON_MODE_RGB, 0x56406F },
{ 0xFF00FF, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_STROBE },
{ 0xFF50AF, IR_BUTTON_MODE_RGB, 0xEE9819 },
{ 0xFF7887, IR_BUTTON_MODE_RGB, 0x00799A },
{ 0xFF708F, IR_BUTTON_MODE_RGB, 0x944E80 },
{ 0xFF58A7, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_FADE },
{ 0xFF38C7, IR_BUTTON_MODE_RGB, 0xFFFF00 },
{ 0xFF28D7, IR_BUTTON_MODE_RGB, 0x0060A1 },
{ 0xFFF00F, IR_BUTTON_MODE_RGB, 0xEF45AD },
{ 0xFF30CF, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_SMOOTH }
};
#endif
//Remote Buttons SET 2 (another identical IR Remote shipped with another controller)
#if IR_BUTTON_SET == 2
/*
+------+------+------+------+
| UP | Down | OFF | ON |
+------+------+------+------+
| R | G | B | W |
+------+------+------+------+
| 1 | 2 | 3 |FLASH |
+------+------+------+------+
| 4 | 5 | 6 |STROBE|
+------+------+------+------+
| 7 | 8 | 9 | FADE |
+------+------+------+------+
| 10 | 11 | 12 |SMOOTH|
+------+------+------+------+
*/
#define IR_BUTTON_COUNT 24
const unsigned long IR_BUTTON[IR_BUTTON_COUNT][3] PROGMEM = {
{ 0xFF00FF, IR_BUTTON_MODE_BRIGHTER, 1 },
{ 0xFF807F, IR_BUTTON_MODE_BRIGHTER, 0 },
{ 0xFF40BF, IR_BUTTON_MODE_STATE, 0 },
{ 0xFFC03F, IR_BUTTON_MODE_STATE, 1 },
{ 0xFF20DF, IR_BUTTON_MODE_RGB, 0xFF0000 },
{ 0xFFA05F, IR_BUTTON_MODE_RGB, 0x00FF00 },
{ 0xFF609F, IR_BUTTON_MODE_RGB, 0x0000FF },
{ 0xFFE01F, IR_BUTTON_MODE_RGB, 0xFFFFFF },
{ 0xFF10EF, IR_BUTTON_MODE_RGB, 0xD13A01 },
{ 0xFF906F, IR_BUTTON_MODE_RGB, 0x00E644 },
{ 0xFF50AF, IR_BUTTON_MODE_RGB, 0x0040A7 },
{ 0xFFD02F, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_FLASH },
{ 0xFF30CF, IR_BUTTON_MODE_RGB, 0xE96F2A },
{ 0xFFB04F, IR_BUTTON_MODE_RGB, 0x00BEBF },
{ 0xFF708F, IR_BUTTON_MODE_RGB, 0x56406F },
{ 0xFFF00F, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_STROBE },
{ 0xFF08F7, IR_BUTTON_MODE_RGB, 0xEE9819 },
{ 0xFF8877, IR_BUTTON_MODE_RGB, 0x00799A },
{ 0xFF48B7, IR_BUTTON_MODE_RGB, 0x944E80 },
{ 0xFFC837, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_FADE },
{ 0xFF28D7, IR_BUTTON_MODE_RGB, 0xFFFF00 },
{ 0xFFA857, IR_BUTTON_MODE_RGB, 0x0060A1 },
{ 0xFF6897, IR_BUTTON_MODE_RGB, 0xEF45AD },
{ 0xFFE817, IR_BUTTON_MODE_EFFECT, LIGHT_EFFECT_SMOOTH }
};
#endif
//Remote Buttons SET 3 (samsung AA59-00608A 8 Toggle Buttons for generic 8CH module)
#if IR_BUTTON_SET == 3
/*
+------+------+------+
| 1 | 2 | 3 |
+------+------+------+
| 4 | 5 | 6 |
+------+------+------+
| 7 | 8 | 9 |
+------+------+------+
| | 0 | |
+------+------+------+
*/
#define IR_BUTTON_COUNT 10
const unsigned long IR_BUTTON[IR_BUTTON_COUNT][3] PROGMEM = {
{ 0xE0E020DF, IR_BUTTON_MODE_TOGGLE, 0 }, // Toggle Relay #0
{ 0xE0E0A05F, IR_BUTTON_MODE_TOGGLE, 1 }, // Toggle Relay #1
{ 0xE0E0609F, IR_BUTTON_MODE_TOGGLE, 2 }, // Toggle Relay #2
{ 0xE0E010EF, IR_BUTTON_MODE_TOGGLE, 3 }, // Toggle Relay #3
{ 0xE0E0906F, IR_BUTTON_MODE_TOGGLE, 4 }, // Toggle Relay #4
{ 0xE0E050AF, IR_BUTTON_MODE_TOGGLE, 5 }, // Toggle Relay #5
{ 0xE0E030CF, IR_BUTTON_MODE_TOGGLE, 6 }, // Toggle Relay #6
{ 0xE0E0B04F, IR_BUTTON_MODE_TOGGLE, 7 } // Toggle Relay #7
//{ 0xE0E0708F, IR_BUTTON_MODE_TOGGLE, 8 } //Extra Button
//{ 0xE0E08877, IR_BUTTON_MODE_TOGGLE, 9 } //Extra Button
};
#endif
//Remote Buttons SET 4
#if IR_BUTTON_SET == 4
/*
+------+------+------+
| OFF | SRC | MUTE |
+------+------+------+
...
+------+------+------+
*/
#define IR_BUTTON_COUNT 1
const unsigned long IR_BUTTON[IR_BUTTON_COUNT][3] PROGMEM = {
{ 0xFFB24D, IR_BUTTON_MODE_TOGGLE, 0 } // Toggle Relay #0
};
#endif
#ifndef IR_BUTTON_COUNT
#define IR_BUTTON_COUNT 0
#endif
//--------------------------------------------------------------------------------
// Custom RFM69 to MQTT bridge
// Check http://tinkerman.cat/rfm69-wifi-gateway/
// Enable support by passing RFM69_SUPPORT=1 build flag
//--------------------------------------------------------------------------------
#ifndef RFM69_SUPPORT
#define RFM69_SUPPORT 0
#endif
#ifndef RFM69_MAX_TOPICS
#define RFM69_MAX_TOPICS 50
#endif
#ifndef RFM69_MAX_NODES
#define RFM69_MAX_NODES 255
#endif
#ifndef RFM69_DEFAULT_TOPIC
#define RFM69_DEFAULT_TOPIC "/rfm69gw/{node}/{key}"
#endif
#ifndef RFM69_NODE_ID
#define RFM69_NODE_ID 1
#endif
#ifndef RFM69_GATEWAY_ID
#define RFM69_GATEWAY_ID 1
#endif
#ifndef RFM69_NETWORK_ID
#define RFM69_NETWORK_ID 164
#endif
#ifndef RFM69_PROMISCUOUS
#define RFM69_PROMISCUOUS 0
#endif
#ifndef RFM69_PROMISCUOUS_SENDS
#define RFM69_PROMISCUOUS_SENDS 0
#endif
#ifndef RFM69_FREQUENCY
#define RFM69_FREQUENCY RF69_868MHZ
#endif
#ifndef RFM69_ENCRYPTKEY
#define RFM69_ENCRYPTKEY "fibonacci0123456"
#endif
#ifndef RFM69_CS_PIN
#define RFM69_CS_PIN SS
#endif
#ifndef RFM69_IRQ_PIN
#define RFM69_IRQ_PIN 5
#endif
#ifndef RFM69_RESET_PIN
#define RFM69_RESET_PIN 7
#endif
#ifndef RFM69_IS_RFM69HW
#define RFM69_IS_RFM69HW 0
#endif