/*
tasmota.h - Master header file for Tasmota
Copyright (C) 2021 Theo Arends
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see .
*/
#ifndef _TASMOTA_H_
#define _TASMOTA_H_
/*********************************************************************************************\
* Performance ROM (PROGMEM) vs RAM (RODATA)
\*********************************************************************************************/
#define XFUNC_PTR_IN_ROM // Enable for keeping tables in ROM (PROGMEM) which seem to have access issues on some flash types
#define MQTT_DATA_STRING // Use heap instead of fixed memory for TasmotaGlobal.mqtt_data
/*********************************************************************************************\
* Default image
\*********************************************************************************************/
#define CODE_IMAGE_STR "tasmota"
/*********************************************************************************************\
* Power Type
\*********************************************************************************************/
typedef uint32_t power_t; // Power (Relay) type
const uint32_t POWER_MASK = 0xFFFFFFFFUL; // Power (Relay) full mask
const uint32_t POWER_SIZE = 32; // Power (relay) bit count
/*********************************************************************************************\
* Constants
\*********************************************************************************************/
#ifdef ESP8266
const uint8_t MAX_RELAYS = 8; // Max number of relays (up to 28)
const uint8_t MAX_INTERLOCKS = 4; // Max number of interlock groups (up to MAX_INTERLOCKS_SET)
const uint8_t MAX_SWITCHES = 8; // Max number of switches (up to MAX_SWITCHES_SET)
#endif // ESP8266
#ifdef ESP32
const uint8_t MAX_RELAYS = 28; // Max number of relays (up to 28)
const uint8_t MAX_INTERLOCKS = 14; // Max number of interlock groups (up to MAX_INTERLOCKS_SET)
const uint8_t MAX_SWITCHES = 28; // Max number of switches (up to MAX_SWITCHES_SET)
#endif // ESP32
const uint8_t MAX_KEYS = 8; // Max number of keys or buttons (up to 28)
// Changes to the following MAX_ defines will impact settings layout
const uint8_t MAX_INTERLOCKS_SET = 14; // Max number of interlock groups (MAX_RELAYS / 2)
const uint8_t MAX_SWITCHES_SET = 28; // Max number of switches
const uint8_t MAX_LEDS = 4; // Max number of leds
const uint8_t MAX_PWMS_LEGACY = 5; // Max number of PWM channels in first settings block - Legacy limit for ESP8266, but extended for ESP32 (see below)
#ifdef ESP32
// Max number of PWM channels (total including extended) - ESP32 only
#if defined(CONFIG_IDF_TARGET_ESP32)
const uint8_t MAX_PWMS = 16; // ESP32: 16 ledc PWM channels in total - TODO for now
#elif defined(CONFIG_IDF_TARGET_ESP32S2)
const uint8_t MAX_PWMS = 8; // ESP32S2: 8 ledc PWM channels in total
#elif defined(CONFIG_IDF_TARGET_ESP32S3)
const uint8_t MAX_PWMS = 8; // ESP32S3: 8 ledc PWM channels in total
#elif defined(CONFIG_IDF_TARGET_ESP32C3)
const uint8_t MAX_PWMS = 6; // ESP32C3: 6 ledc PWM channels in total
#else
const uint8_t MAX_PWMS = 5; // Unknown - revert to 5 PWM max
#endif
#else
const uint8_t MAX_PWMS = 5; // (not used on ESP8266)
#endif
const uint8_t MAX_COUNTERS = 4; // Max number of counter sensors
const uint8_t MAX_TIMERS = 16; // Max number of Timers
const uint8_t MAX_PULSETIMERS = 32; // Max number of supported pulse timers
const uint8_t MAX_DOMOTICZ_IDX = 4; // Max number of Domoticz device, key and switch indices
const uint8_t MAX_DOMOTICZ_SNS_IDX = 12; // Max number of Domoticz sensors indices
const uint8_t MAX_KNX_GA = 10; // Max number of KNX Group Addresses to read that can be set
const uint8_t MAX_KNX_CB = 10; // Max number of KNX Group Addresses to write that can be set
const uint8_t MAX_XNRG_DRIVERS = 32; // Max number of allowed energy drivers
const uint8_t MAX_XDRV_DRIVERS = 96; // Max number of allowed driver drivers
const uint8_t MAX_XSNS_DRIVERS = 128; // Max number of allowed sensor drivers
const uint8_t MAX_I2C_DRIVERS = 96; // Max number of allowed i2c drivers
const uint8_t MAX_SHUTTERS = 4; // Max number of shutters
const uint8_t MAX_SHUTTER_KEYS = 4; // Max number of shutter keys or buttons
const uint8_t MAX_PCF8574 = 4; // Max number of PCF8574 devices
const uint8_t MAX_DS3502 = 4; // Max number of DS3502 digitsal potentiometer devices
const uint8_t MAX_RULE_SETS = 3; // Max number of rule sets of size 512 characters
const uint16_t MAX_RULE_SIZE = 512; // Max number of characters in rules
const uint16_t VL53LXX_MAX_SENSORS = 8; // Max number of VL53L0X sensors
#ifdef ESP32
const uint8_t MAX_I2C = 2; // Max number of I2C controllers (ESP32 = 2)
const uint8_t MAX_SPI = 2; // Max number of Hardware SPI controllers (ESP32 = 2)
const uint8_t MAX_I2S = 2; // Max number of Hardware I2S controllers (ESP32 = 2)
#if CONFIG_IDF_TARGET_ESP32
const uint8_t MAX_RMT = 8; // Max number or RMT channels (ESP32 only)
#elif CONFIG_IDF_TARGET_ESP32S2
const uint8_t MAX_RMT = 4; // Max number or RMT channels (ESP32S2 only)
#elif CONFIG_IDF_TARGET_ESP32S3
const uint8_t MAX_RMT = 1; // Max number or RMT channels (ESP32S3 only)
#elif CONFIG_IDF_TARGET_ESP32C3
const uint8_t MAX_RMT = 2; // Max number or RMT channels (ESP32C3 only)
#else
const uint8_t MAX_RMT = 0; // Max number or RMT channels (0 if unknown)
#endif
#else
const uint8_t MAX_I2C = 0; // Max number of I2C controllers (ESP8266 = 0, no choice)
const uint8_t MAX_SPI = 0; // Max number of Hardware SPI controllers (ESP8266 = 0, no choice)
const uint8_t MAX_I2S = 0; // Max number of Hardware I2S controllers (ESP8266 = 0, no choice)
const uint8_t MAX_RMT = 0; // No RMT channel on ESP8266
#endif
// Changes to the following MAX_ defines need to be in line with enum SettingsTextIndex
const uint8_t MAX_MQTT_PREFIXES = 3; // Max number of MQTT prefixes (cmnd, stat, tele)
const uint8_t MAX_SSIDS = 2; // Max number of SSIDs
const uint8_t MAX_STATE_TEXT = 4; // Max number of State names (OFF, ON, TOGGLE, HOLD)
const uint8_t MAX_NTP_SERVERS = 3; // Max number of NTP servers
const uint8_t MAX_RULE_MEMS = 16; // Max number of saved vars
const uint8_t MAX_FRIENDLYNAMES = 8; // Max number of Friendly names
const uint8_t MAX_BUTTON_TEXT = 16; // Max number of GUI button labels
const uint8_t MAX_GROUP_TOPICS = 4; // Max number of Group Topics
const uint8_t MAX_DEV_GROUP_NAMES = 4; // Max number of Device Group names
const static char kWifiPhyMode[] PROGMEM = " bgnl"; // Wi-Fi Modes
#ifdef ESP8266
const uint8_t MAX_ADCS = 1; // Max number of ESP8266 ADC pins
const uint8_t MAX_SWITCHES_TXT = 8; // Max number of switches user text
#endif // ESP8266
#ifdef ESP32
const uint8_t MAX_ADCS = 8; // Max number of ESP32 ADC pins (ADC2 pins are unusable with Wifi enabled)
const uint8_t MAX_SWITCHES_TXT = 28; // Max number of switches user text
#endif // ESP32
const uint8_t MAX_HUE_DEVICES = 15; // Max number of Philips Hue device per emulation
const uint8_t MAX_ROTARIES = 2; // Max number of Rotary Encoders
const char MQTT_TOKEN_PREFIX[] PROGMEM = "%prefix%"; // To be substituted by mqtt_prefix[x]
const char MQTT_TOKEN_TOPIC[] PROGMEM = "%topic%"; // To be substituted by mqtt_topic, mqtt_grptopic, mqtt_buttontopic, mqtt_switchtopic
const char WIFI_HOSTNAME[] = "%s-%04d"; // Expands to -
const uint8_t CONFIG_FILE_SIGN = 0xA5; // Configuration file signature
const uint8_t CONFIG_FILE_XOR = 0x5A; // Configuration file xor (0 = No Xor)
const uint32_t HLW_PREF_PULSE = 12530; // was 4975us = 201Hz = 1000W
const uint32_t HLW_UREF_PULSE = 1950; // was 1666us = 600Hz = 220V
const uint32_t HLW_IREF_PULSE = 3500; // was 1666us = 600Hz = 4.545A
const uint8_t MQTT_RETRY_SECS = 10; // Minimum seconds to retry MQTT connection
const uint32_t GLOBAL_VALUES_VALID = 300; // Max number of seconds to keep last received values
const power_t APP_POWER = 0; // Default saved power state Off
const uint16_t WS2812_MAX_LEDS = 512; // Max number of LEDs
const uint32_t PWM_RANGE = 1023; // 255..1023 needs to be devisible by 256
//const uint16_t PWM_FREQ = 1000; // 100..1000 Hz led refresh
//const uint16_t PWM_FREQ = 910; // 100..1000 Hz led refresh (iTead value)
const uint16_t PWM_FREQ = 977; // 100..4000 Hz led refresh
#ifdef ESP32
const uint16_t PWM_MAX = 50000; // [PWM_MAX] Maximum frequency for ESP32 - Default: 50000
const uint16_t PWM_MIN = 2; // [PWM_MIN] Minimum frequency for ESP32 - Default: 2
#else
const uint16_t PWM_MAX = 4000; // [PWM_MAX] Maximum frequency - Default: 4000
const uint16_t PWM_MIN = 40; // [PWM_MIN] Minimum frequency - Default: 40
#endif
// For Dimmers use double of your mains AC frequecy (100 for 50Hz and 120 for 60Hz)
// For Controlling Servos use 50 and also set PWM_FREQ as 50 (DO NOT USE THESE VALUES FOR DIMMERS)
const uint16_t MAX_POWER_HOLD = 10; // Time in SECONDS to allow max agreed power
const uint16_t MAX_POWER_WINDOW = 30; // Time in SECONDS to disable allow max agreed power
const uint16_t SAFE_POWER_HOLD = 10; // Time in SECONDS to allow max unit safe power
const uint16_t SAFE_POWER_WINDOW = 30; // Time in MINUTES to disable allow max unit safe power
const uint8_t MAX_POWER_RETRY = 5; // Retry count allowing agreed power limit overflow
const uint8_t STATES = 20; // Number of states per second using 50 mSec interval
const uint8_t IMMINENT_RESET_FACTOR = 10; // Factor to extent button hold time for imminent Reset to default 40 seconds using KEY_HOLD_TIME of 40
const uint32_t BOOT_LOOP_TIME = 10; // Number of seconds to stop detecting boot loops
const uint32_t POWER_CYCLE_TIME = 8; // Number of seconds to reset power cycle boot loops
const uint16_t SYSLOG_TIMER = 600; // Seconds to restore syslog_level
const uint16_t SERIALLOG_TIMER = 600; // Seconds to disable SerialLog
#ifdef ESP8266
const uint8_t OTA_ATTEMPTS = 10; // Number of times to try fetching the new firmware
#else
const uint8_t OTA_ATTEMPTS = 5; // Number of times to try fetching the new firmware
#endif // ESP8266
const uint16_t INPUT_BUFFER_SIZE = 520; // Max number of characters in serial command buffer
const uint16_t FLOATSZ = 16; // Max number of characters in float result from dtostrfd (max 32)
const uint16_t CMDSZ = 24; // Max number of characters in command
const uint16_t TOPSZ = 151; // Max number of characters in topic string
#ifdef ESP8266
#ifdef PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM48_SECHEAP_SHARED
const uint16_t LOG_BUFFER_SIZE = 6096; // Max number of characters in logbuffer used by weblog, syslog and mqttlog
#else
const uint16_t LOG_BUFFER_SIZE = 4096; // Max number of characters in logbuffer used by weblog, syslog and mqttlog
#endif // PIO_FRAMEWORK_ARDUINO_MMU_CACHE16_IRAM48_SECHEAP_SHARED
#else // Not ESP8266
const uint16_t LOG_BUFFER_SIZE = 6096; // Max number of characters in logbuffer used by weblog, syslog and mqttlog
#endif // ESP8266
#ifdef MQTT_DATA_STRING
const uint16_t MAX_LOGSZ = LOG_BUFFER_SIZE -96; // Max number of characters in log line - may be overruled which will truncate log entry
#else
const uint16_t MAX_LOGSZ = 700; // Max number of characters in log line
#endif
const uint8_t SENSOR_MAX_MISS = 5; // Max number of missed sensor reads before deciding it's offline
const uint8_t MAX_BACKLOG = 30; // Max number of commands in backlog
const uint32_t MIN_BACKLOG_DELAY = 200; // Minimal backlog delay in mSeconds
const uint32_t SOFT_BAUDRATE = 9600; // Default software serial baudrate
const uint32_t APP_BAUDRATE = 115200; // Default serial baudrate
const uint32_t SERIAL_POLLING = 100; // Serial receive polling in ms
const uint32_t ZIGBEE_POLLING = 100; // Serial receive polling in ms
const uint8_t MAX_STATUS = 13; // Max number of status lines
const uint32_t START_VALID_TIME = 1451602800; // Time is synced and after 2016-01-01
const uint32_t DRIVER_BOOT_DELAY = 1; // Number of milliseconds to retard driver cycles during boot-up time to reduce overall CPU load whilst Wifi is connecting
const uint32_t LOOP_SLEEP_DELAY = 50; // Lowest number of milliseconds to go through the main loop using delay when needed
/*********************************************************************************************\
* Defines
\*********************************************************************************************/
#define MAX_RULE_TIMERS 8 // Max number of rule timers (4 bytes / timer)
#define MAX_RULE_VARS 16 // Max number of rule variables (33 bytes / variable)
//enum ws2812NeopixelbusFeature { NEO_RGB, NEO_GRB, NEO_BRG, NEO_RBG, NEO_3LED, NEO_RGBW, NEO_GRBW }; // Doesn't work
#define NEO_RGB 0 // Neopixel RGB leds
#define NEO_GRB 1 // Neopixel GRB leds
#define NEO_BRG 2 // Neopixel BRG leds
#define NEO_RBG 3 // Neopixel RBG leds
#define NEO_3LED 4 // Placeholder to test for 4 led types
#define NEO_RGBW 5 // Neopixel RGBW leds
#define NEO_GRBW 6 // Neopixel GRBW leds
#define RGB_REMAP_RGBW 0
#define RGB_REMAP_RBGW 6
#define RGB_REMAP_GRBW 24
#define RGB_REMAP_GBRW 30
#define RGB_REMAP_BRGW 48
#define RGB_REMAP_BGRW 54
#define NEO_HW_WS2812 0 // NeoPixelBus hardware WS2812
#define NEO_HW_WS2812X 1 // NeoPixelBus hardware WS2812x like WS2812b
#define NEO_HW_WS2813 1 // NeoPixelBus hardware WS2813
#define NEO_HW_SK6812 2 // NeoPixelBus hardware SK6812
#define NEO_HW_LC8812 2 // NeoPixelBus hardware LC8812
#define NEO_HW_APA106 3 // NeoPixelBus hardware APA106
#define NEO_HW_P9813 4 // NeoPixelBus hardware P9813
#define MQTT_PUBSUBCLIENT 1 // Mqtt PubSubClient library
#define MQTT_TASMOTAMQTT 2 // Mqtt TasmotaMqtt library based on esp-mqtt-arduino - soon obsolete
#define MQTT_ESPMQTTARDUINO 3 // Mqtt esp-mqtt-arduino library by Ingo Randolf - obsolete but define is present for debugging purposes
#define MQTT_ARDUINOMQTT 4 // Mqtt arduino-mqtt library by Joel Gaehwiler (https://github.com/256dpi/arduino-mqtt)
// Sunrise and Sunset DawnType
#define DAWN_NORMAL -0.8333
#define DAWN_CIVIL -6.0
#define DAWN_NAUTIC -12.0
#define DAWN_ASTRONOMIC -18.0
// Sensor and Commands definition for KNX Driver
#define KNX_TEMPERATURE 17
#define KNX_HUMIDITY 18
#define KNX_ENERGY_VOLTAGE 19
#define KNX_ENERGY_CURRENT 20
#define KNX_ENERGY_POWER 21
#define KNX_ENERGY_POWERFACTOR 22
#define KNX_ENERGY_DAILY 23
#define KNX_ENERGY_YESTERDAY 24
#define KNX_ENERGY_TOTAL 25
#define KNX_SLOT1 26
#define KNX_SLOT2 27
#define KNX_SLOT3 28
#define KNX_SLOT4 29
#define KNX_SLOT5 30
#define KNX_SCENE 31
#define KNX_MAX_device_param 31
#define MAX_KNXTX_CMNDS 5
// XPT2046 resistive touch driver min/max raw values
#define XPT2046_MINX 192
#define XPT2046_MAXX 3895
#define XPT2046_MINY 346
#define XPT2046_MAXY 3870
/*********************************************************************************************\
* Enumeration
\*********************************************************************************************/
enum WeekInMonthOptions {Last, First, Second, Third, Fourth};
enum DayOfTheWeekOptions {Sun=1, Mon, Tue, Wed, Thu, Fri, Sat};
enum MonthNamesOptions {Jan=1, Feb, Mar, Apr, May, Jun, Jul, Aug, Sep, Oct, Nov, Dec};
enum HemisphereOptions {North, South};
enum GetDateAndTimeOptions { DT_LOCAL, DT_UTC, DT_LOCALNOTZ, DT_DST, DT_STD, DT_RESTART, DT_ENERGY, DT_BOOTCOUNT, DT_LOCAL_MILLIS };
enum LoggingLevels {LOG_LEVEL_NONE, LOG_LEVEL_ERROR, LOG_LEVEL_INFO, LOG_LEVEL_DEBUG, LOG_LEVEL_DEBUG_MORE};
enum InitStates {INIT_NONE, INIT_GPIOS, INIT_DONE};
enum WifiConfigOptions {WIFI_RESTART, EX_WIFI_SMARTCONFIG, WIFI_MANAGER, EX_WIFI_WPSCONFIG, WIFI_RETRY, WIFI_WAIT, WIFI_SERIAL, WIFI_MANAGER_RESET_ONLY, MAX_WIFI_OPTION};
enum SwitchModeOptions {TOGGLE, FOLLOW, FOLLOW_INV, PUSHBUTTON, PUSHBUTTON_INV, PUSHBUTTONHOLD, PUSHBUTTONHOLD_INV, PUSHBUTTON_TOGGLE, TOGGLEMULTI,
FOLLOWMULTI, FOLLOWMULTI_INV, PUSHHOLDMULTI, PUSHHOLDMULTI_INV, PUSHON, PUSHON_INV, PUSH_IGNORE, MAX_SWITCH_OPTION};
enum LedStateOptions {LED_OFF, LED_POWER, LED_MQTTSUB, LED_POWER_MQTTSUB, LED_MQTTPUB, LED_POWER_MQTTPUB, LED_MQTT, LED_POWER_MQTT, MAX_LED_OPTION};
enum EmulationOptions {EMUL_NONE, EMUL_WEMO, EMUL_HUE, EMUL_MAX};
enum TopicOptions { CMND, STAT, TELE, nu1, RESULT_OR_CMND, RESULT_OR_STAT, RESULT_OR_TELE };
enum UploadTypes { UPL_TASMOTA = 1, UPL_SETTINGS, UPL_EFM8BB1, UPL_TASMOTACLIENT, UPL_EFR32, UPL_SHD, UPL_CCL, UPL_UFSFILE };
enum ExecuteCommandPowerOptions { POWER_OFF, POWER_ON, POWER_TOGGLE, POWER_BLINK, POWER_BLINK_STOP,
POWER_OFF_NO_STATE = 8, POWER_ON_NO_STATE, POWER_TOGGLE_NO_STATE,
POWER_SHOW_STATE = 16 };
enum SendKeyPowerOptions { POWER_HOLD = 3, POWER_INCREMENT = 4, POWER_INV = 5, POWER_CLEAR = 6, POWER_RELEASE = 7,
POWER_100 = 8, CLEAR_RETAIN = 9, POWER_DELAYED = 10 };
enum SendKeyOptions { KEY_BUTTON, KEY_SWITCH };
enum SendKeyMultiClick { SINGLE = 10, DOUBLE = 11, TRIPLE = 12, QUAD = 13, PENTA = 14};
enum PowerOnStateOptions { POWER_ALL_OFF, POWER_ALL_ON, POWER_ALL_SAVED_TOGGLE, POWER_ALL_SAVED, POWER_ALL_ALWAYS_ON, POWER_ALL_OFF_PULSETIME_ON };
enum ButtonStates { PRESSED, NOT_PRESSED };
enum Shortcuts { SC_CLEAR, SC_DEFAULT, SC_USER };
enum SO32_49Index { P_HOLD_TIME, // SetOption32 - (Button/Switch) Key hold time detection in decaseconds (default 40)
P_MAX_POWER_RETRY, // SetOption33 - (Energy) Maximum number of retries before deciding power limit overflow (default 5)
P_BACKLOG_DELAY, // SetOption34 - (Backlog) Minimal delay in milliseconds between executing backlog commands (default 200)
P_MDNS_DELAYED_START, // SetOption35 - (mDNS) Number of seconds before mDNS is started (default 0) - Obsolete
P_BOOT_LOOP_OFFSET, // SetOption36 - (Restart) Number of restarts to start detecting boot loop (default 1)
P_RGB_REMAP, // SetOption37 - (Light) RGB and White channel separation (default 0)
P_IR_UNKNOW_THRESHOLD, // SetOption38 - (IR) Set the smallest sized "UNKNOWN" message packets we actually care about (default 6, max 255)
P_CSE7766_INVALID_POWER, // SetOption39 - (CSE7766) Number of invalid power measurements before declaring it invalid allowing low load measurments (default 128)
P_HOLD_IGNORE, // SetOption40 - (Button/Shutter) Ignore button change in seconds (default 0)
P_ARP_GRATUITOUS, // SetOption41 - (Wifi) Interval in seconds between gratuitous ARP requests (default 60)
P_OVER_TEMP, // SetOption42 - (Energy) Turn all power off at or above this temperature (default 90C)
P_ROTARY_MAX_STEP, // SetOption43 - (Rotary) Rotary step boundary (default 10)
P_IR_TOLERANCE, // SetOption44 - (IR) Base tolerance percentage for matching incoming IR messages (default 25, max 100)
P_SO45_FREE, // SetOption45
P_SO46_FREE, // SetOption46
P_SO47_FREE, // SetOption47
P_SO48_FREE, // SetOption48
P_SO49_FREE // SetOption49
}; // Max is PARAM8_SIZE (18) - SetOption32 until SetOption49
enum DomoticzSensors {DZ_TEMP, DZ_TEMP_HUM, DZ_TEMP_HUM_BARO, DZ_POWER_ENERGY, DZ_ILLUMINANCE, DZ_COUNT, DZ_VOLTAGE, DZ_CURRENT,
DZ_AIRQUALITY, DZ_P1_SMART_METER, DZ_SHUTTER, DZ_MAX_SENSORS};
enum Ws2812ClockIndex { WS_SECOND, WS_MINUTE, WS_HOUR, WS_MARKER };
enum Ws2812Color { WS_RED, WS_GREEN, WS_BLUE };
enum LightSubtypes { LST_NONE, LST_SINGLE, LST_COLDWARM, LST_RGB, LST_RGBW, LST_RGBCW, LST_MAX=5 }; // Do not insert new fields
enum LightTypes { LT_BASIC, LT_PWM1, LT_PWM2, LT_PWM3, LT_PWM4, LT_PWM5, LT_PWM6, LT_PWM7,
LT_NU8, LT_SERIAL1, LT_SERIAL2, LT_RGB, LT_RGBW, LT_RGBWC, LT_NU14, LT_NU15 }; // Do not insert new fields
enum XsnsFunctions {FUNC_SETTINGS_OVERRIDE, FUNC_PIN_STATE, FUNC_MODULE_INIT, FUNC_PRE_INIT, FUNC_INIT,
FUNC_LOOP, FUNC_EVERY_50_MSECOND, FUNC_EVERY_100_MSECOND, FUNC_EVERY_200_MSECOND, FUNC_EVERY_250_MSECOND, FUNC_EVERY_SECOND,
FUNC_SAVE_SETTINGS, FUNC_SAVE_AT_MIDNIGHT, FUNC_SAVE_BEFORE_RESTART,
FUNC_AFTER_TELEPERIOD, FUNC_JSON_APPEND, FUNC_WEB_SENSOR, FUNC_WEB_COL_SENSOR, FUNC_COMMAND, FUNC_COMMAND_SENSOR, FUNC_COMMAND_DRIVER,
FUNC_MQTT_SUBSCRIBE, FUNC_MQTT_INIT, FUNC_MQTT_DATA,
FUNC_SET_POWER, FUNC_SET_DEVICE_POWER, FUNC_SHOW_SENSOR, FUNC_ANY_KEY,
FUNC_ENERGY_EVERY_SECOND, FUNC_ENERGY_RESET,
FUNC_RULES_PROCESS, FUNC_TELEPERIOD_RULES_PROCESS, FUNC_SERIAL, FUNC_FREE_MEM, FUNC_BUTTON_PRESSED, FUNC_BUTTON_MULTI_PRESSED,
FUNC_WEB_ADD_BUTTON, FUNC_WEB_ADD_CONSOLE_BUTTON, FUNC_WEB_ADD_MANAGEMENT_BUTTON, FUNC_WEB_ADD_MAIN_BUTTON,
FUNC_WEB_GET_ARG, FUNC_WEB_ADD_HANDLER, FUNC_SET_CHANNELS, FUNC_SET_SCHEME, FUNC_HOTPLUG_SCAN, FUNC_TIME_SYNCED,
FUNC_DEVICE_GROUP_ITEM };
enum AddressConfigSteps { ADDR_IDLE, ADDR_RECEIVE, ADDR_SEND };
enum SettingsTextIndex { SET_OTAURL,
SET_MQTTPREFIX1, SET_MQTTPREFIX2, SET_MQTTPREFIX3, // MAX_MQTT_PREFIXES
SET_STASSID1, SET_STASSID2, // MAX_SSIDS
SET_STAPWD1, SET_STAPWD2, // MAX_SSIDS
SET_HOSTNAME, SET_SYSLOG_HOST,
SET_WEBPWD, SET_CORS,
SET_MQTT_HOST, SET_MQTT_CLIENT,
SET_MQTT_USER, SET_MQTT_PWD,
SET_MQTT_FULLTOPIC, SET_MQTT_TOPIC,
SET_MQTT_BUTTON_TOPIC, SET_MQTT_SWITCH_TOPIC, SET_MQTT_GRP_TOPIC,
SET_STATE_TXT1, SET_STATE_TXT2, SET_STATE_TXT3, SET_STATE_TXT4, // MAX_STATE_TEXT
SET_NTPSERVER1, SET_NTPSERVER2, SET_NTPSERVER3, // MAX_NTP_SERVERS
SET_MEM1, SET_MEM2, SET_MEM3, SET_MEM4, SET_MEM5, SET_MEM6, SET_MEM7, SET_MEM8,
SET_MEM9, SET_MEM10, SET_MEM11, SET_MEM12, SET_MEM13, SET_MEM14, SET_MEM15, SET_MEM16, // MAX_RULE_MEMS
SET_FRIENDLYNAME1, SET_FRIENDLYNAME2, SET_FRIENDLYNAME3, SET_FRIENDLYNAME4,
SET_FRIENDLYNAME5, SET_FRIENDLYNAME6, SET_FRIENDLYNAME7, SET_FRIENDLYNAME8, // MAX_FRIENDLYNAMES
SET_BUTTON1, SET_BUTTON2, SET_BUTTON3, SET_BUTTON4, SET_BUTTON5, SET_BUTTON6, SET_BUTTON7, SET_BUTTON8,
SET_BUTTON9, SET_BUTTON10, SET_BUTTON11, SET_BUTTON12, SET_BUTTON13, SET_BUTTON14, SET_BUTTON15, SET_BUTTON16, // MAX_BUTTON_TEXT
SET_MQTT_GRP_TOPIC2, SET_MQTT_GRP_TOPIC3, SET_MQTT_GRP_TOPIC4, // MAX_GROUP_TOPICS
SET_TEMPLATE_NAME,
SET_DEV_GROUP_NAME1, SET_DEV_GROUP_NAME2, SET_DEV_GROUP_NAME3, SET_DEV_GROUP_NAME4, // MAX_DEV_GROUP_NAMES
SET_DEVICENAME,
SET_TELEGRAM_TOKEN, SET_TELEGRAM_CHATID,
#ifdef ESP8266
SET_ADC_PARAM1,
SET_SWITCH_TXT1, SET_SWITCH_TXT2, SET_SWITCH_TXT3, SET_SWITCH_TXT4, SET_SWITCH_TXT5, SET_SWITCH_TXT6, SET_SWITCH_TXT7, SET_SWITCH_TXT8, // MAX_SWITCHES_TXT
#endif // ESP8266
#ifdef ESP32
SET_ADC_PARAM1, SET_ADC_PARAM2, SET_ADC_PARAM3, SET_ADC_PARAM4, SET_ADC_PARAM5, SET_ADC_PARAM6, SET_ADC_PARAM7, SET_ADC_PARAM8, // MAX_ADCS
SET_SWITCH_TXT1, SET_SWITCH_TXT2, SET_SWITCH_TXT3, SET_SWITCH_TXT4, SET_SWITCH_TXT5, SET_SWITCH_TXT6, SET_SWITCH_TXT7, SET_SWITCH_TXT8, // MAX_SWITCHES_TXT
SET_SWITCH_TXT9, SET_SWITCH_TXT10, SET_SWITCH_TXT11, SET_SWITCH_TXT12, SET_SWITCH_TXT13, SET_SWITCH_TXT14, SET_SWITCH_TXT15, SET_SWITCH_TXT16, // MAX_SWITCHES_TXT
SET_SWITCH_TXT17, SET_SWITCH_TXT18, SET_SWITCH_TXT19, SET_SWITCH_TXT20, SET_SWITCH_TXT21, SET_SWITCH_TXT22, SET_SWITCH_TXT23, SET_SWITCH_TXT24, // MAX_SWITCHES_TXT
SET_SWITCH_TXT25, SET_SWITCH_TXT26, SET_SWITCH_TXT27, SET_SWITCH_TXT28, // MAX_SWITCHES_TXT
#endif // ESP32
SET_SHD_PARAM,
SET_RGX_SSID, SET_RGX_PASSWORD,
SET_INFLUXDB_HOST, SET_INFLUXDB_PORT, SET_INFLUXDB_ORG, SET_INFLUXDB_TOKEN, SET_INFLUXDB_BUCKET, SET_INFLUXDB_RP,
SET_MAX };
enum SpiInterfaces { SPI_NONE, SPI_MOSI, SPI_MISO, SPI_MOSI_MISO };
enum DevGroupMessageType { DGR_MSGTYP_FULL_STATUS, DGR_MSGTYP_PARTIAL_UPDATE, DGR_MSGTYP_UPDATE, DGR_MSGTYP_UPDATE_MORE_TO_COME, DGR_MSGTYP_UPDATE_DIRECT, DGR_MSGTYPE_UPDATE_COMMAND, DGR_MSGTYPFLAG_WITH_LOCAL = 128 };
enum DevGroupMessageFlag { DGR_FLAG_RESET = 1, DGR_FLAG_STATUS_REQUEST = 2, DGR_FLAG_FULL_STATUS = 4, DGR_FLAG_ACK = 8, DGR_FLAG_MORE_TO_COME = 16, DGR_FLAG_DIRECT = 32, DGR_FLAG_ANNOUNCEMENT = 64, DGR_FLAG_LOCAL = 128 };
enum DevGroupItem { DGR_ITEM_EOL, DGR_ITEM_STATUS, DGR_ITEM_FLAGS,
DGR_ITEM_LIGHT_FADE, DGR_ITEM_LIGHT_SPEED, DGR_ITEM_LIGHT_BRI, DGR_ITEM_LIGHT_SCHEME, DGR_ITEM_LIGHT_FIXED_COLOR,
DGR_ITEM_BRI_PRESET_LOW, DGR_ITEM_BRI_PRESET_HIGH, DGR_ITEM_BRI_POWER_ON,
// Add new 8-bit items before this line
DGR_ITEM_LAST_8BIT, DGR_ITEM_MAX_8BIT = 63,
//DGR_ITEM_ANALOG1, DGR_ITEM_ANALOG2, DGR_ITEM_ANALOG3, DGR_ITEM_ANALOG4, DGR_ITEM_ANALOG5,
// Add new 16-bit items before this line
DGR_ITEM_LAST_16BIT, DGR_ITEM_MAX_16BIT = 127,
DGR_ITEM_POWER, DGR_ITEM_NO_STATUS_SHARE,
// Add new 32-bit items before this line
DGR_ITEM_LAST_32BIT, DGR_ITEM_MAX_32BIT = 191,
DGR_ITEM_EVENT, DGR_ITEM_COMMAND,
// Add new string items before this line
DGR_ITEM_LAST_STRING, DGR_ITEM_MAX_STRING = 223,
DGR_ITEM_LIGHT_CHANNELS };
enum DevGroupItemFlag { DGR_ITEM_FLAG_NO_SHARE = 1 };
enum DevGroupShareItem { DGR_SHARE_POWER = 1, DGR_SHARE_LIGHT_BRI = 2, DGR_SHARE_LIGHT_FADE = 4, DGR_SHARE_LIGHT_SCHEME = 8,
DGR_SHARE_LIGHT_COLOR = 16, DGR_SHARE_DIMMER_SETTINGS = 32, DGR_SHARE_EVENT = 64 };
enum CommandSource { SRC_IGNORE, SRC_MQTT, SRC_RESTART, SRC_BUTTON, SRC_SWITCH, SRC_BACKLOG, SRC_SERIAL, SRC_WEBGUI, SRC_WEBCOMMAND, SRC_WEBCONSOLE, SRC_PULSETIMER,
SRC_TIMER, SRC_RULE, SRC_MAXPOWER, SRC_MAXENERGY, SRC_OVERTEMP, SRC_LIGHT, SRC_KNX, SRC_DISPLAY, SRC_WEMO, SRC_HUE, SRC_RETRY, SRC_REMOTE, SRC_SHUTTER,
SRC_THERMOSTAT, SRC_CHAT, SRC_TCL, SRC_BERRY, SRC_FILE, SRC_MAX };
const char kCommandSource[] PROGMEM = "I|MQTT|Restart|Button|Switch|Backlog|Serial|WebGui|WebCommand|WebConsole|PulseTimer|"
"Timer|Rule|MaxPower|MaxEnergy|Overtemp|Light|Knx|Display|Wemo|Hue|Retry|Remote|Shutter|"
"Thermostat|Chat|TCL|Berry|File";
const uint8_t kDefaultRfCode[9] PROGMEM = { 0x21, 0x16, 0x01, 0x0E, 0x03, 0x48, 0x2E, 0x1A, 0x00 };
enum TasmotaSerialConfig {
TS_SERIAL_5N1, TS_SERIAL_6N1, TS_SERIAL_7N1, TS_SERIAL_8N1,
TS_SERIAL_5N2, TS_SERIAL_6N2, TS_SERIAL_7N2, TS_SERIAL_8N2,
TS_SERIAL_5E1, TS_SERIAL_6E1, TS_SERIAL_7E1, TS_SERIAL_8E1,
TS_SERIAL_5E2, TS_SERIAL_6E2, TS_SERIAL_7E2, TS_SERIAL_8E2,
TS_SERIAL_5O1, TS_SERIAL_6O1, TS_SERIAL_7O1, TS_SERIAL_8O1,
TS_SERIAL_5O2, TS_SERIAL_6O2, TS_SERIAL_7O2, TS_SERIAL_8O2 };
#ifdef ESP8266
const SerConfu8 kTasmotaSerialConfig[] PROGMEM = {
SERIAL_5N1, SERIAL_6N1, SERIAL_7N1, SERIAL_8N1,
SERIAL_5N2, SERIAL_6N2, SERIAL_7N2, SERIAL_8N2,
SERIAL_5E1, SERIAL_6E1, SERIAL_7E1, SERIAL_8E1,
SERIAL_5E2, SERIAL_6E2, SERIAL_7E2, SERIAL_8E2,
SERIAL_5O1, SERIAL_6O1, SERIAL_7O1, SERIAL_8O1,
SERIAL_5O2, SERIAL_6O2, SERIAL_7O2, SERIAL_8O2
};
#endif // ESP8266
#ifdef ESP32
const uint32_t kTasmotaSerialConfig[] PROGMEM = {
SERIAL_5N1, SERIAL_6N1, SERIAL_7N1, SERIAL_8N1,
SERIAL_5N2, SERIAL_6N2, SERIAL_7N2, SERIAL_8N2,
SERIAL_5E1, SERIAL_6E1, SERIAL_7E1, SERIAL_8E1,
SERIAL_5E2, SERIAL_6E2, SERIAL_7E2, SERIAL_8E2,
SERIAL_5O1, SERIAL_6O1, SERIAL_7O1, SERIAL_8O1,
SERIAL_5O2, SERIAL_6O2, SERIAL_7O2, SERIAL_8O2
};
#endif // ESP32
enum TuyaSupportedFunctions { TUYA_MCU_FUNC_NONE,
TUYA_MCU_FUNC_SWT1 = 1, TUYA_MCU_FUNC_SWT2, TUYA_MCU_FUNC_SWT3, TUYA_MCU_FUNC_SWT4,
TUYA_MCU_FUNC_REL1 = 11, TUYA_MCU_FUNC_REL2, TUYA_MCU_FUNC_REL3, TUYA_MCU_FUNC_REL4, TUYA_MCU_FUNC_REL5,
TUYA_MCU_FUNC_REL6, TUYA_MCU_FUNC_REL7, TUYA_MCU_FUNC_REL8,
TUYA_MCU_FUNC_DIMMER = 21, TUYA_MCU_FUNC_DIMMER2, TUYA_MCU_FUNC_CT, TUYA_MCU_FUNC_RGB, TUYA_MCU_FUNC_WHITE,
TUYA_MCU_FUNC_MODESET, TUYA_MCU_FUNC_REPORT1, TUYA_MCU_FUNC_REPORT2,
TUYA_MCU_FUNC_POWER = 31, TUYA_MCU_FUNC_CURRENT, TUYA_MCU_FUNC_VOLTAGE, TUYA_MCU_FUNC_BATTERY_STATE, TUYA_MCU_FUNC_BATTERY_PERCENTAGE, TUYA_MCU_FUNC_POWER_COMBINED, TUYA_MCU_FUNC_POWER_TOTAL,
TUYA_MCU_FUNC_REL1_INV = 41, TUYA_MCU_FUNC_REL2_INV, TUYA_MCU_FUNC_REL3_INV, TUYA_MCU_FUNC_REL4_INV, TUYA_MCU_FUNC_REL5_INV,
TUYA_MCU_FUNC_REL6_INV, TUYA_MCU_FUNC_REL7_INV, TUYA_MCU_FUNC_REL8_INV,
TUYA_MCU_FUNC_LOWPOWER_MODE = 51,
TUYA_MCU_FUNC_ENUM1 = 61, TUYA_MCU_FUNC_ENUM2, TUYA_MCU_FUNC_ENUM3, TUYA_MCU_FUNC_ENUM4,
TUYA_MCU_FUNC_TEMP = 71, TUYA_MCU_FUNC_TEMPSET, TUYA_MCU_FUNC_HUM, TUYA_MCU_FUNC_HUMSET,
TUYA_MCU_FUNC_LX = 75, TUYA_MCU_FUNC_TVOC, TUYA_MCU_FUNC_CO2, TUYA_MCU_FUNC_ECO2, TUYA_MCU_FUNC_GAS,
TUYA_MCU_FUNC_TIMER1 = 81, TUYA_MCU_FUNC_TIMER2, TUYA_MCU_FUNC_TIMER3, TUYA_MCU_FUNC_TIMER4,
TUYA_MCU_FUNC_MOTOR_DIR = 97,
TUYA_MCU_FUNC_ERROR = 98,
TUYA_MCU_FUNC_DUMMY = 99,
TUYA_MCU_FUNC_LAST = 255
// IDs from 230 to 234 are reserved for internal use
};
#endif // _TASMOTA_H_