mirror of https://github.com/arendst/Tasmota.git
419 lines
20 KiB
C++
419 lines
20 KiB
C++
/*
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tasmota.ino - Tasmota firmware for iTead Sonoff, Wemos and NodeMCU hardware
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Copyright (C) 2020 Theo Arends
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*********************************************************************************************\
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* Preferred IDE is Visual Studio Code with PlatformIO extension which doesn't need prerequisites
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*
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* Limited support for Arduino IDE needs Prerequisites:
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* - Change libraries/PubSubClient/src/PubSubClient.h
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* #define MQTT_MAX_PACKET_SIZE 1200
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*
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* Arduino IDE 1.8.12 and up parameters for partly support
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* - Select IDE Tools - Board: "Generic ESP8266 Module"
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* - Select IDE Tools - Flash Mode: "DOUT (compatible)"
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* - Select IDE Tools - Flash Size: "1M (FS:none OTA:~502KB)"
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* - Select IDE Tools - LwIP Variant: "v2 Higher Bandwidth (no feature)"
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* - Select IDE Tools - VTables: "Flash"
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* - Select IDE Tools - Espressif FW: "nonos-sdk-2.2.1+100 (190703)"
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\*********************************************************************************************/
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// Location specific includes
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#include <core_version.h> // Arduino_Esp8266 version information (ARDUINO_ESP8266_RELEASE and ARDUINO_ESP8266_RELEASE_2_7_1)
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#include "tasmota_compat.h"
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#include "tasmota_version.h" // Tasmota version information
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#include "tasmota.h" // Enumeration used in my_user_config.h
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#include "my_user_config.h" // Fixed user configurable options
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#ifdef USE_TLS
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#include <t_bearssl.h> // We need to include before "tasmota_globals.h" to take precedence over the BearSSL version in Arduino
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#endif // USE_TLS
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#include "tasmota_globals.h" // Function prototypes and global configuration
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#include "i18n.h" // Language support configured by my_user_config.h
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#include "tasmota_template.h" // Hardware configuration
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// Libraries
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#include <ESP8266HTTPClient.h> // Ota
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#include <ESP8266httpUpdate.h> // Ota
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#include <StreamString.h> // Webserver, Updater
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#include <JsonParser.h>
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#include <JsonGenerator.h>
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#ifdef USE_ARDUINO_OTA
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#include <ArduinoOTA.h> // Arduino OTA
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#ifndef USE_DISCOVERY
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#define USE_DISCOVERY
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#endif
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#endif // USE_ARDUINO_OTA
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#ifdef USE_DISCOVERY
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#include <ESP8266mDNS.h> // MQTT, Webserver, Arduino OTA
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#endif // USE_DISCOVERY
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//#ifdef USE_I2C
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#include <Wire.h> // I2C support library
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//#endif // USE_I2C
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#ifdef USE_SPI
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#include <SPI.h> // SPI support, TFT
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#endif // USE_SPI
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// Structs
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#include "settings.h"
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/*********************************************************************************************\
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* Global variables
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\*********************************************************************************************/
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WiFiUDP PortUdp; // UDP Syslog and Alexa
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unsigned long feature_drv1; // Compiled driver feature map
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unsigned long feature_drv2; // Compiled driver feature map
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unsigned long feature_sns1; // Compiled sensor feature map
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unsigned long feature_sns2; // Compiled sensor feature map
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unsigned long feature5; // Compiled feature map
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unsigned long feature6; // Compiled feature map
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unsigned long feature7; // Compiled feature map
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unsigned long serial_polling_window = 0; // Serial polling window
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unsigned long state_second = 0; // State second timer
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unsigned long state_50msecond = 0; // State 50msecond timer
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unsigned long state_100msecond = 0; // State 100msecond timer
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unsigned long state_250msecond = 0; // State 250msecond timer
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unsigned long pulse_timer[MAX_PULSETIMERS] = { 0 }; // Power off timer
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unsigned long blink_timer = 0; // Power cycle timer
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unsigned long backlog_delay = 0; // Command backlog delay
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power_t power = 0; // Current copy of Settings.power
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power_t last_power = 0; // Last power set state
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power_t blink_power; // Blink power state
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power_t blink_mask = 0; // Blink relay active mask
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power_t blink_powersave; // Blink start power save state
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power_t latching_power = 0; // Power state at latching start
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power_t rel_inverted = 0; // Relay inverted flag (1 = (0 = On, 1 = Off))
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int serial_in_byte_counter = 0; // Index in receive buffer
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int ota_state_flag = 0; // OTA state flag
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int ota_result = 0; // OTA result
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int restart_flag = 0; // Tasmota restart flag
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int wifi_state_flag = WIFI_RESTART; // Wifi state flag
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int blinks = 201; // Number of LED blinks
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uint32_t uptime = 0; // Counting every second until 4294967295 = 130 year
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uint32_t loop_load_avg = 0; // Indicative loop load average
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uint32_t global_update = 0; // Timestamp of last global temperature and humidity update
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uint32_t web_log_index = 1; // Index in Web log buffer (should never be 0)
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float global_temperature_celsius = NAN; // Provide a global temperature to be used by some sensors
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float global_humidity = 0.0f; // Provide a global humidity to be used by some sensors
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float global_pressure_hpa = 0.0f; // Provide a global pressure to be used by some sensors
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uint16_t tele_period = 9999; // Tele period timer
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uint16_t blink_counter = 0; // Number of blink cycles
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uint16_t seriallog_timer = 0; // Timer to disable Seriallog
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uint16_t syslog_timer = 0; // Timer to re-enable syslog_level
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uint16_t gpio_pin[MAX_GPIO_PIN] = { 0 }; // GPIO functions indexed by pin number
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int16_t save_data_counter; // Counter and flag for config save to Flash
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RulesBitfield rules_flag; // Rule state flags (16 bits)
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uint8_t mqtt_cmnd_blocked = 0; // Ignore flag for publish command
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uint8_t mqtt_cmnd_blocked_reset = 0; // Count down to reset if needed
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uint8_t state_250mS = 0; // State 250msecond per second flag
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uint8_t latching_relay_pulse = 0; // Latching relay pulse timer
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uint8_t ssleep; // Current copy of Settings.sleep
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uint8_t blinkspeed = 1; // LED blink rate
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uint8_t active_device = 1; // Active device in ExecuteCommandPower
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uint8_t leds_present = 0; // Max number of LED supported
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uint8_t led_inverted = 0; // LED inverted flag (1 = (0 = On, 1 = Off))
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uint8_t led_power = 0; // LED power state
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uint8_t ledlnk_inverted = 0; // Link LED inverted flag (1 = (0 = On, 1 = Off))
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uint8_t pwm_inverted = 0; // PWM inverted flag (1 = inverted)
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uint8_t energy_flg = 0; // Energy monitor configured
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uint8_t light_flg = 0; // Light module configured
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uint8_t light_type = 0; // Light types
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uint8_t serial_in_byte; // Received byte
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uint8_t ota_retry_counter = OTA_ATTEMPTS; // OTA retry counter
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uint8_t devices_present = 0; // Max number of devices supported
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uint8_t masterlog_level = 0; // Master log level used to override set log level
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uint8_t seriallog_level; // Current copy of Settings.seriallog_level
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uint8_t syslog_level; // Current copy of Settings.syslog_level
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uint8_t my_module_type; // Current copy of Settings.module or user template type
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uint8_t last_source = 0; // Last command source
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uint8_t shutters_present = 0; // Number of actual define shutters
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uint8_t prepped_loglevel = 0; // Delayed log level message
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//uint8_t mdns_delayed_start = 0; // mDNS delayed start
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bool serial_local = false; // Handle serial locally
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bool serial_buffer_overrun = false; // Serial buffer overrun
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bool fallback_topic_flag = false; // Use Topic or FallbackTopic
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bool backlog_mutex = false; // Command backlog pending
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bool interlock_mutex = false; // Interlock power command pending
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bool stop_flash_rotate = false; // Allow flash configuration rotation
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bool blinkstate = false; // LED state
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//bool latest_uptime_flag = true; // Signal latest uptime
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bool pwm_present = false; // Any PWM channel configured with SetOption15 0
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bool i2c_flg = false; // I2C configured
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bool spi_flg = false; // SPI configured
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bool soft_spi_flg = false; // Software SPI configured
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bool ntp_force_sync = false; // Force NTP sync
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bool is_8285 = false; // Hardware device ESP8266EX (0) or ESP8285 (1)
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bool skip_light_fade; // Temporarily skip light fading
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bool restart_halt = false; // Do not restart but stay in wait loop
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myio my_module; // Active copy of Module GPIOs (17 x 8 bits)
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StateBitfield global_state; // Global states (currently Wifi and Mqtt) (8 bits)
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char my_version[33]; // Composed version string
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char my_image[33]; // Code image and/or commit
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char my_hostname[33]; // Composed Wifi hostname
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char mqtt_client[TOPSZ]; // Composed MQTT Clientname
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char mqtt_topic[TOPSZ]; // Composed MQTT topic
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char serial_in_buffer[INPUT_BUFFER_SIZE]; // Receive buffer
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char mqtt_data[MESSZ]; // MQTT publish buffer and web page ajax buffer
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char log_data[LOGSZ]; // Logging
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char web_log[WEB_LOG_SIZE] = {'\0'}; // Web log buffer
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#ifdef SUPPORT_IF_STATEMENT
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#include <LinkedList.h>
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LinkedList<String> backlog; // Command backlog implemented with LinkedList
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#define BACKLOG_EMPTY (backlog.size() == 0)
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#else
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uint8_t backlog_index = 0; // Command backlog index
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uint8_t backlog_pointer = 0; // Command backlog pointer
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String backlog[MAX_BACKLOG]; // Command backlog buffer
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#define BACKLOG_EMPTY (backlog_pointer == backlog_index)
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#endif
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/*********************************************************************************************\
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* Main
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\*********************************************************************************************/
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void setup(void) {
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#ifdef ESP32
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#ifdef DISABLE_ESP32_BROWNOUT
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DisableBrownout(); // Workaround possible weak LDO resulting in brownout detection during Wifi connection
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#endif
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#endif
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global_state.data = 0xF; // Init global state (wifi_down, mqtt_down) to solve possible network issues
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RtcRebootLoad();
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if (!RtcRebootValid()) {
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RtcReboot.fast_reboot_count = 0;
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}
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#ifdef FIRMWARE_MINIMAL
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RtcReboot.fast_reboot_count = 0; // Disable fast reboot and quick power cycle detection
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#else
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RtcReboot.fast_reboot_count++;
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#endif
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RtcRebootSave();
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Serial.begin(APP_BAUDRATE);
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// Serial.setRxBufferSize(INPUT_BUFFER_SIZE); // Default is 256 chars
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seriallog_level = LOG_LEVEL_INFO; // Allow specific serial messages until config loaded
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snprintf_P(my_version, sizeof(my_version), PSTR("%d.%d.%d"), VERSION >> 24 & 0xff, VERSION >> 16 & 0xff, VERSION >> 8 & 0xff); // Release version 6.3.0
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if (VERSION & 0xff) { // Development or patched version 6.3.0.10
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snprintf_P(my_version, sizeof(my_version), PSTR("%s.%d"), my_version, VERSION & 0xff);
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}
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// Thehackbox inserts "release" or "commit number" before compiling using sed -i -e 's/PSTR("(%s)")/PSTR("(85cff52-%s)")/g' tasmota.ino
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snprintf_P(my_image, sizeof(my_image), PSTR("(%s)"), CODE_IMAGE_STR); // Results in (85cff52-tasmota) or (release-tasmota)
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SettingsLoad();
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SettingsDelta();
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OsWatchInit();
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GetFeatures();
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if (1 == RtcReboot.fast_reboot_count) { // Allow setting override only when all is well
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UpdateQuickPowerCycle(true);
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XdrvCall(FUNC_SETTINGS_OVERRIDE);
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}
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// mdns_delayed_start = Settings.param[P_MDNS_DELAYED_START];
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seriallog_level = Settings.seriallog_level;
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seriallog_timer = SERIALLOG_TIMER;
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syslog_level = Settings.syslog_level;
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stop_flash_rotate = Settings.flag.stop_flash_rotate; // SetOption12 - Switch between dynamic or fixed slot flash save location
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save_data_counter = Settings.save_data;
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ssleep = Settings.sleep;
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#ifndef USE_EMULATION
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Settings.flag2.emulation = 0;
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#else
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#ifndef USE_EMULATION_WEMO
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if (EMUL_WEMO == Settings.flag2.emulation) { Settings.flag2.emulation = 0; }
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#endif
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#ifndef USE_EMULATION_HUE
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if (EMUL_HUE == Settings.flag2.emulation) { Settings.flag2.emulation = 0; }
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#endif
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#endif // USE_EMULATION
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if (Settings.param[P_BOOT_LOOP_OFFSET]) { // SetOption36
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// Disable functionality as possible cause of fast restart within BOOT_LOOP_TIME seconds (Exception, WDT or restarts)
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if (RtcReboot.fast_reboot_count > Settings.param[P_BOOT_LOOP_OFFSET]) { // Restart twice
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Settings.flag3.user_esp8285_enable = 0; // SetOption51 - Enable ESP8285 user GPIO's - Disable ESP8285 Generic GPIOs interfering with flash SPI
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if (RtcReboot.fast_reboot_count > Settings.param[P_BOOT_LOOP_OFFSET] +1) { // Restart 3 times
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for (uint32_t i = 0; i < MAX_RULE_SETS; i++) {
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if (bitRead(Settings.rule_stop, i)) {
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bitWrite(Settings.rule_enabled, i, 0); // Disable rules causing boot loop
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}
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}
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}
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if (RtcReboot.fast_reboot_count > Settings.param[P_BOOT_LOOP_OFFSET] +2) { // Restarted 4 times
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Settings.rule_enabled = 0; // Disable all rules
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}
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if (RtcReboot.fast_reboot_count > Settings.param[P_BOOT_LOOP_OFFSET] +3) { // Restarted 5 times
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for (uint32_t i = 0; i < ARRAY_SIZE(Settings.my_gp.io); i++) {
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Settings.my_gp.io[i] = GPIO_NONE; // Reset user defined GPIO disabling sensors
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}
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}
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if (RtcReboot.fast_reboot_count > Settings.param[P_BOOT_LOOP_OFFSET] +4) { // Restarted 6 times
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Settings.module = Settings.fallback_module; // Reset module to fallback module
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// Settings.last_module = Settings.fallback_module;
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}
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AddLog_P2(LOG_LEVEL_INFO, PSTR("FRC: " D_LOG_SOME_SETTINGS_RESET " (%d)"), RtcReboot.fast_reboot_count);
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}
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}
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Format(mqtt_client, SettingsText(SET_MQTT_CLIENT), sizeof(mqtt_client));
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Format(mqtt_topic, SettingsText(SET_MQTT_TOPIC), sizeof(mqtt_topic));
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if (strstr(SettingsText(SET_HOSTNAME), "%") != nullptr) {
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SettingsUpdateText(SET_HOSTNAME, WIFI_HOSTNAME);
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snprintf_P(my_hostname, sizeof(my_hostname)-1, SettingsText(SET_HOSTNAME), mqtt_topic, ESP_getChipId() & 0x1FFF);
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} else {
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snprintf_P(my_hostname, sizeof(my_hostname)-1, SettingsText(SET_HOSTNAME));
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}
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GetEspHardwareType();
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GpioInit();
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// SetSerialBaudrate(Settings.baudrate * 300); // Allow reset of serial interface if current baudrate is different from requested baudrate
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WifiConnect();
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SetPowerOnState();
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AddLog_P2(LOG_LEVEL_INFO, PSTR(D_PROJECT " %s %s " D_VERSION " %s%s-" ARDUINO_CORE_RELEASE), PROJECT, SettingsText(SET_DEVICENAME), my_version, my_image);
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#ifdef FIRMWARE_MINIMAL
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AddLog_P2(LOG_LEVEL_INFO, PSTR(D_WARNING_MINIMAL_VERSION));
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#endif // FIRMWARE_MINIMAL
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memcpy_P(log_data, VERSION_MARKER, 1); // Dummy for compiler saving VERSION_MARKER
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RtcInit();
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#ifdef USE_ARDUINO_OTA
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ArduinoOTAInit();
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#endif // USE_ARDUINO_OTA
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XdrvCall(FUNC_INIT);
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XsnsCall(FUNC_INIT);
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#ifdef USE_SCRIPT
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if (bitRead(Settings.rule_enabled, 0)) Run_Scripter(">BS",3,0);
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#endif
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rules_flag.system_init = 1;
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}
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void BacklogLoop(void) {
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if (TimeReached(backlog_delay)) {
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if (!BACKLOG_EMPTY && !backlog_mutex) {
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#ifdef SUPPORT_IF_STATEMENT
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backlog_mutex = true;
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String cmd = backlog.shift();
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backlog_mutex = false;
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ExecuteCommand((char*)cmd.c_str(), SRC_BACKLOG);
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#else
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backlog_mutex = true;
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ExecuteCommand((char*)backlog[backlog_pointer].c_str(), SRC_BACKLOG);
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backlog[backlog_pointer] = (const char*) nullptr; // force deallocation of the String internal memory
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backlog_pointer++;
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if (backlog_pointer >= MAX_BACKLOG) { backlog_pointer = 0; }
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backlog_mutex = false;
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#endif
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}
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}
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}
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void SleepDelay(uint32_t mseconds) {
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if (mseconds) {
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for (uint32_t wait = 0; wait < mseconds; wait++) {
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delay(1);
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if (Serial.available()) { break; } // We need to service serial buffer ASAP as otherwise we get uart buffer overrun
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}
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} else {
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delay(0);
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}
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}
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void loop(void) {
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uint32_t my_sleep = millis();
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XdrvCall(FUNC_LOOP);
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XsnsCall(FUNC_LOOP);
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OsWatchLoop();
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ButtonLoop();
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SwitchLoop();
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#ifdef USE_DEVICE_GROUPS
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DeviceGroupsLoop();
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#endif // USE_DEVICE_GROUPS
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BacklogLoop();
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if (TimeReached(state_50msecond)) {
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SetNextTimeInterval(state_50msecond, 50);
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#ifdef ROTARY_V1
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RotaryHandler();
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#endif // ROTARY_V1
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XdrvCall(FUNC_EVERY_50_MSECOND);
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XsnsCall(FUNC_EVERY_50_MSECOND);
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}
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if (TimeReached(state_100msecond)) {
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SetNextTimeInterval(state_100msecond, 100);
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Every100mSeconds();
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XdrvCall(FUNC_EVERY_100_MSECOND);
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XsnsCall(FUNC_EVERY_100_MSECOND);
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}
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if (TimeReached(state_250msecond)) {
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SetNextTimeInterval(state_250msecond, 250);
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Every250mSeconds();
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XdrvCall(FUNC_EVERY_250_MSECOND);
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XsnsCall(FUNC_EVERY_250_MSECOND);
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}
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if (TimeReached(state_second)) {
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SetNextTimeInterval(state_second, 1000);
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PerformEverySecond();
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XdrvCall(FUNC_EVERY_SECOND);
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XsnsCall(FUNC_EVERY_SECOND);
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}
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if (!serial_local) { SerialInput(); }
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#ifdef USE_ARDUINO_OTA
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ArduinoOtaLoop();
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#endif // USE_ARDUINO_OTA
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uint32_t my_activity = millis() - my_sleep;
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if (Settings.flag3.sleep_normal) { // SetOption60 - Enable normal sleep instead of dynamic sleep
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// yield(); // yield == delay(0), delay contains yield, auto yield in loop
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SleepDelay(ssleep); // https://github.com/esp8266/Arduino/issues/2021
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} else {
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if (my_activity < (uint32_t)ssleep) {
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SleepDelay((uint32_t)ssleep - my_activity); // Provide time for background tasks like wifi
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} else {
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if (global_state.network_down) {
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SleepDelay(my_activity /2); // If wifi down and my_activity > setoption36 then force loop delay to 1/3 of my_activity period
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}
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}
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}
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if (!my_activity) { my_activity++; } // We cannot divide by 0
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uint32_t loop_delay = ssleep;
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if (!loop_delay) { loop_delay++; } // We cannot divide by 0
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uint32_t loops_per_second = 1000 / loop_delay; // We need to keep track of this many loops per second
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uint32_t this_cycle_ratio = 100 * my_activity / loop_delay;
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loop_load_avg = loop_load_avg - (loop_load_avg / loops_per_second) + (this_cycle_ratio / loops_per_second); // Take away one loop average away and add the new one
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}
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