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iot-firmware
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selective module selection

This commit is contained in:
Siwat Sirichai 2023-11-07 20:43:20 +07:00
parent 0a46d9bdac
commit 5aff868ae6
5 changed files with 173 additions and 36 deletions
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148
src/espmega_iot_core.cpp
View File

@ -15,7 +15,9 @@ IPAddress GATEWAY(0, 0, 0, 0);
IPAddress DNS(0, 0, 0, 0);
IPAddress MQTT_SERVER(0, 0, 0, 0);
uint16_t MQTT_PORT = 0;
#ifdef ENABLE_WEBUI
WebServer otaserver(80);
#endif
bool standalone = true;
// #define MQTT_BASE_TOPIC "/espmega/ProR3"
char MQTT_BASE_TOPIC[20];
@ -25,8 +27,10 @@ bool MQTT_USE_AUTH = false;
char MQTT_USERNAME[32];
char MQTT_PASSWORD[32];
uint8_t utc_offset = 7;
#ifdef ENABLE_CLIMATE_MODULE
float current_room_temp = 0;
float current_room_humid = 0;
#endif
// Inputs
#define VINT_COUNT 16
@ -50,16 +54,19 @@ const int PWM_CYCLE_VALUES[PWM_CYCLE_VALUES_COUNT] = {50, 125, 255};
char PWM_SET_STATE_TOPIC[70];
char PWM_SET_VALUE_TOPIC[70];
#ifdef ENABLE_INTERNAL_LCD
// LCD
int lcd_current_page = 1;
int lcd_pwmAdj_id = 0;
EasyNex panel(Serial);
#endif
// Air Conditioner Control
/*
Mode 0: Off, 1: Cool, 2: Fan
Fan Speed 0: Auto, 1: High, 2: Mid, 3: Low
*/
#ifdef ENABLE_CLIMATE_MODULE
#define DHT22_PIN 32
uint8_t ac_mode = 0;
uint8_t ac_fan_speed = 0;
@ -72,6 +79,7 @@ char AC_FAN_TOPIC[75];
char AC_TEMPERATURE_TOPIC[75];
char AC_ROOM_TEMPERATURE_TOPIC[75];
char AC_HUMIDITY_TOPIC[75];
#endif
// EEPROM ADDRESS
#define EEPROM_ADDRESS_AC_MODE 0 // 01bytes
@ -99,7 +107,9 @@ WiFiClient eth;
PubSubClient mqtt_client(MQTT_SERVER, 1883, eth);
PubSubClientTools mqtt(mqtt_client);
#ifdef ENABLE_CLIMATE_MODULE
DHTNEW env_sensor(DHT22_PIN);
#endif
Thread mqtt_reconnector = Thread();
Thread environment_reporter = Thread();
@ -107,9 +117,11 @@ Thread eeprom_pwm_updater = Thread();
Thread user_timer_tick = Thread();
StaticThreadController<4> thread_controller(&mqtt_reconnector, &environment_reporter, &eeprom_pwm_updater, &user_timer_tick);
#ifdef ENABLE_INTERNAL_LCD
Thread top_bar_updater = Thread();
Thread page_updater = Thread();
StaticThreadController<2> lcd_thread_controller(&top_bar_updater, &page_updater);
#endif
void setup()
{
@ -117,15 +129,19 @@ void setup()
#ifdef ENABLE_EXTERNAL_LCD
Serial2.begin(115200, SERIAL_8N1, RXD2, TXD2);
#endif
#ifdef ENABLE_INTERNAL_LCD
panel.begin(115200);
#endif
Serial.println("ESPMega R3 Initializing");
ESPMega_begin();
io_begin();
eeprom_retrieve_init();
user_pre_init();
#ifdef ENABLE_INTERNAL_LCD
lcd_send_stop_bit();
lcd_init();
lcd_begin();
#endif
check_boot_reset();
#ifdef ENABLE_EXTERNAL_LCD
Serial2.print("rest");
@ -135,9 +151,11 @@ void setup()
#endif
lcd_send_command("boot_state.txt=\"Core Initializing . . .\"");
Serial.println("Initializing Infrared . . .");
#ifdef ENABLE_IR_MODULE
lcd_send_command("boot_state.txt=\"Infrared Initializing . . .\"");
IrReceiver.begin(IR_RECIEVE_PIN);
IrSender.begin(IR_SEND_PIN);
#endif
lcd_send_command("boot_state.txt=\"Network Initializing . . .\"");
network_begin();
lcd_send_command("boot_state.txt=\"IoT Core Initializing . . .\"");
@ -146,7 +164,9 @@ void setup()
mqtt_connect();
lcd_send_command("boot_state.txt=\"Threads Initializing . . .\"");
thread_initialization();
#ifdef ENABLE_WEBUI
ota_begin();
#endif
Serial.println("Initialization Completed.");
Serial.println("Jumping to User Code.");
user_init();
@ -158,20 +178,29 @@ void loop()
virtual_interrupt_loop();
mqtt_client.loop();
ESPMega_loop();
#ifdef ENABLE_IR_MODULE
ir_loop();
#endif
thread_controller.run();
#ifdef ENABLE_INTERNAL_LCD
lcd_loop();
#endif
user_loop();
#ifdef ENABLE_WEBUI
otaserver.handleClient();
#endif
}
void eeprom_retrieve_init()
{
// EEPROM Data Retrival
// EEPROM Data Retrival
#ifdef ENABLE_CLIMATE_MODULE
ac_mode = ESPMega_FRAM.read8(EEPROM_ADDRESS_AC_MODE);
ac_temperature = ESPMega_FRAM.read8(EEPROM_ADDRESS_AC_TEMPERATURE);
ac_fan_speed = ESPMega_FRAM.read8(EEPROM_ADDRESS_AC_FAN_SPEED);
// EEPROM Data Retrival Validation
#endif
// EEPROM Data Retrival Validation
#ifdef ENABLE_CLIMATE_MODULE
if (ac_mode > 2)
{
ac_mode = 0;
@ -188,6 +217,7 @@ void eeprom_retrieve_init()
ESPMega_FRAM.write8(EEPROM_ADDRESS_AC_TEMPERATURE, ac_fan_speed);
}
ac_set_state(ac_mode, ac_temperature, ac_fan_speed);
#endif
ESPMega_FRAM.read(EEPROM_ADDRESS_PWM_STATE, pwm_states_eeprom, 16);
memcpy(pwm_states, pwm_states_eeprom, 16);
ESPMega_FRAM.read(EEPROM_ADDRESS_PWM_VALUE, pwm_values_eeprom, 32);
@ -222,6 +252,7 @@ void eeprom_retrieve_init()
strcat(PWM_SET_STATE_TOPIC, "/pwm/00/set/state");
memcpy(PWM_SET_VALUE_TOPIC, MQTT_BASE_TOPIC, 20);
strcat(PWM_SET_VALUE_TOPIC, "/pwm/00/set/value");
#ifdef ENABLE_CLIMATE_MODULE
memcpy(AC_SET_MODE_TOPIC, MQTT_BASE_TOPIC, 20);
strcat(AC_SET_MODE_TOPIC, "/ac/set/mode");
memcpy(AC_SET_FAN_TOPIC, MQTT_BASE_TOPIC, 20);
@ -238,6 +269,7 @@ void eeprom_retrieve_init()
strcat(AC_ROOM_TEMPERATURE_TOPIC, "/ac/room_temperature");
memcpy(AC_HUMIDITY_TOPIC, MQTT_BASE_TOPIC, 20);
strcat(AC_HUMIDITY_TOPIC, "/ac/humidity");
#endif
memcpy(PWM_STATE_TOPIC, MQTT_BASE_TOPIC, 20);
strcat(PWM_STATE_TOPIC, "/pwm/00/state");
memcpy(PWM_VALUE_TOPIC, MQTT_BASE_TOPIC, 20);
@ -246,6 +278,7 @@ void eeprom_retrieve_init()
strcat(INPUTS_TOPIC, "/input/00");
}
#ifdef ENABLE_WEBUI
void ota_begin()
{
otaserver.on("/", HTTP_GET, []()
@ -322,9 +355,7 @@ void ota_begin()
set_mqtt_useauth(use_auth);
otaserver.send(200, "text/html", configbuffer);
delay(500);
ESP.restart();
});
ESP.restart(); });
otaserver.on(
"/update", HTTP_POST, []()
@ -341,12 +372,16 @@ void ota_begin()
Serial.println(upload.currentSize);
String otafiletxt = "Downloading File : " + upload.filename;
#ifdef ENABLE_INTERNAL_LCD
lcd_send_stop_bit();
panel.writeStr("otatxt.txt", otafiletxt);
#endif
Serial.printf("Update: %s\n", upload.filename.c_str());
if (!Update.begin(UPDATE_SIZE_UNKNOWN))
{
#ifdef ENABLE_INTERNAL_LCD
panel.writeStr("otatxt.txt", "Update Failed, Rebooting . . .");
#endif
Update.printError(Serial);
}
}
@ -354,7 +389,9 @@ void ota_begin()
{
if (Update.write(upload.buf, upload.currentSize) != upload.currentSize)
{
#ifdef ENABLE_INTERNAL_LCD
panel.writeStr("otatxt.txt", "Update Failed, Rebooting . . .");
#endif
Update.printError(Serial);
}
if (upload.currentSize != 0 && upload.totalSize != 0)
@ -363,32 +400,41 @@ void ota_begin()
uint32_t totalsize_kb = upload.totalSize / 1000;
uint32_t upload_pct = 100 * upload.totalSize / 1000000;
String otafiletxt = "Downloading File : " + upload.filename + " (" + String(totalsize_kb) + "KB)";
#ifdef ENABLE_INTERNAL_LCD
panel.writeNum("prog.val", upload_pct);
panel.writeStr("otatxt.txt", otafiletxt);
#endif
}
}
else if (upload.status == UPLOAD_FILE_END)
{
if (Update.end(true))
{
#ifdef ENABLE_INTERNAL_LCD
panel.writeStr("otatxt.txt", "Update Completed, Rebooting . . .");
#endif
Serial.printf("Update Success: %u\nRebooting...\n", upload.totalSize);
}
else
{
#ifdef ENABLE_INTERNAL_LCD
panel.writeStr("otatxt.txt", "Update Failed, Rebooting . . .");
#endif
Update.printError(Serial);
}
}
});
otaserver.begin();
}
#endif
void io_begin()
{
Serial.println("Initializing I/O . . .");
#ifdef ENABLE_IR_MODULE
pinMode(IR_RECIEVE_PIN, INPUT_PULLUP);
pinMode(IR_SEND_PIN, OUTPUT);
#endif
}
void network_begin()
@ -434,7 +480,9 @@ void mqtt_connect()
lcd_send_stop_bit();
publish_pwm_states();
publish_input_states();
#ifdef ENABLE_CLIMATE_MODULE
publish_ac_state();
#endif
mqtt_connected_user_callback();
standalone = false;
ESPMega_updateTimeFromNTP();
@ -446,8 +494,10 @@ void mqtt_connect()
lcd_send_stop_bit();
}
lcd_send_stop_bit();
#ifdef ENABLE_INTERNAL_LCD
lcd_refresh();
lcd_top_bar_update();
#endif
}
}
@ -462,9 +512,11 @@ void mqtt_subscribe()
mqtt.subscribe(PWM_SET_STATE_TOPIC, pwm_state_callback);
mqtt.subscribe(PWM_SET_VALUE_TOPIC, pwm_value_callback);
}
#ifdef ENABLE_CLIMATE_MODULE
mqtt.subscribe(AC_SET_FAN_TOPIC, ac_state_callback);
mqtt.subscribe(AC_SET_TEMPERATURE_TOPIC, ac_state_callback);
mqtt.subscribe(AC_SET_MODE_TOPIC, ac_state_callback);
#endif
mqtt.subscribe(STATE_REQUEST_TOPIC, state_request_callback);
}
@ -474,8 +526,10 @@ void thread_initialization()
Serial.println("Initializing MQTT Thread . . .");
mqtt_reconnector.onRun(mqtt_connect);
mqtt_reconnector.setInterval(15000);
#ifdef ENABLE_CLIMATE_MODULE
environment_reporter.onRun(publish_env_state);
environment_reporter.setInterval(5000);
#endif
eeprom_pwm_updater.onRun(eeprom_pwm_update);
eeprom_pwm_updater.setInterval(1000);
user_timer_tick.onRun(timer_tick_callback);
@ -510,9 +564,10 @@ void virtual_interrupt_callback(int pin, int state)
{
publish_input_state(pin, state);
// Serial.printf("Pin %d changed to %d\n", pin, state);
#ifdef ENABLE_INTERNAL_LCD
if (lcd_current_page == 2)
panel.writeNum("I" + String(pin) + ".val", state);
#endif
virtual_interrupt_user_callback(pin, state);
}
@ -571,10 +626,12 @@ void pwm_set_state(int id, int state)
pwm_states[id] = state;
int pwm_value = pwm_values[id];
ESPMega_analogWrite(pwm_pins[id], state * (int)(pwm_linear_scaling_m[id] * pwm_value + pwm_linear_scaling_c[id]));
#ifdef ENABLE_INTERNAL_LCD
if (lcd_current_page == 3)
panel.writeNum("j" + String(id) + ".ppic", pwm_states[id] ? 33 : 48);
else if (lcd_current_page == 5 && id == lcd_pwmAdj_id)
panel.writeStr("pwm_state.txt", pwm_states[lcd_pwmAdj_id] ? "ON" : "OFF");
#endif
publish_pwm_state(id);
pwm_changed_user_callback(id);
}
@ -585,10 +642,12 @@ void pwm_set_value(int id, int value)
pwm_values[id] = value;
int pwm_state = pwm_states[id];
ESPMega_analogWrite(pwm_pins[id], pwm_state * (int)(pwm_linear_scaling_m[id] * value + pwm_linear_scaling_c[id]));
#ifdef ENABLE_INTERNAL_LCD
if (lcd_current_page == 3)
panel.writeNum("j" + String(id) + ".val", int(value / 4095.0 * 100.0));
else if (lcd_current_page == 5 && id == lcd_pwmAdj_id)
panel.writeNum("pwm_value.val", pwm_values[lcd_pwmAdj_id]);
#endif
publish_pwm_state(id);
pwm_changed_user_callback(id);
}
@ -671,22 +730,23 @@ void state_request_callback(String topic, String message)
{
publish_input_states();
publish_pwm_states();
#ifdef ENABLE_CLIMATE_MODULE
publish_ac_state();
#endif
user_state_request_callback();
}
#ifdef ENABLE_IR_MODULE
void ir_loop()
{
if (IrReceiver.decode())
{
// Serial.println();
// IrReceiver.compensateAndPrintIRResultAsCArray(&Serial, false);
// Serial.println();
// Serial.println();
IrReceiver.resume();
}
}
#endif
#ifdef ENABLE_CLIMATE_MODULE
void publish_ac_state()
{
String temp = "";
@ -779,7 +839,7 @@ void ac_set_state(int mode, int temperature, int fan_speed)
ac_temperature = AC_MAX_TEMPERATURE;
ac_fan_speed = fan_speed;
temperature -= AC_MIN_TEMPERATURE;
#ifdef ENABLE_INTERNAL_LCD
if (lcd_current_page == 4)
{
lcd_ac_refresh_fan();
@ -789,6 +849,7 @@ void ac_set_state(int mode, int temperature, int fan_speed)
else
panel.writeStr("temp.txt", "--C");
}
#endif
publish_ac_state();
uint8_t ac_datablock[3] = {ac_mode, ac_temperature, ac_fan_speed};
ESPMega_FRAM.write(0, ac_datablock, 3);
@ -820,6 +881,7 @@ void publish_env_state()
mqtt_client.loop();
mqtt.publish(String(AC_HUMIDITY_TOPIC), String(current_room_humid));
mqtt_client.loop();
#ifdef ENABLE_INTERNAL_LCD
if (lcd_current_page == 4)
{
Serial.printf("roomtemp.txt=\"%.01fC\"", current_room_temp);
@ -827,6 +889,7 @@ void publish_env_state()
Serial.printf("roomhumid.txt=\"%d%%\"", (int)current_room_humid);
lcd_send_stop_bit();
}
#endif
break;
default:
mqtt.publish(String(AC_ROOM_TEMPERATURE_TOPIC), "ERROR");
@ -835,7 +898,9 @@ void publish_env_state()
mqtt_client.loop();
}
}
#endif
#ifdef ENABLE_INTERNAL_LCD
void lcd_begin()
{
top_bar_updater.onRun(lcd_top_bar_update);
@ -889,6 +954,7 @@ void lcd_refresh()
}
break;
case 4:
#ifdef ENABLE_CLIMATE_MODULE
Serial.printf("roomtemp.txt=\"%.01fC\"", current_room_temp);
lcd_send_stop_bit();
Serial.printf("roomhumid.txt=\"%d%%\"", (int)current_room_humid);
@ -899,6 +965,9 @@ void lcd_refresh()
panel.writeStr("temp.txt", "--C");
lcd_ac_refresh_fan();
lcd_ac_refresh_mode();
#else
lcd_send_command("page climate_nomod");
#endif
case 5:
panel.writeStr("pwm_id.txt", String("P") + String(lcd_pwmAdj_id));
panel.writeStr("pwm_state.txt", pwm_states[lcd_pwmAdj_id] ? "ON" : "OFF");
@ -932,7 +1001,7 @@ void lcd_top_bar_update()
panel.writeNum("server.pic", standalone ? 4 : 5);
panel.writeNum("lan.pic", ETH.linkUp() ? 3 : 2);
}
#ifdef ENABLE_CLIMATE_MODULE
void lcd_ac_refresh_mode()
{
// auto high mid low
@ -948,6 +1017,7 @@ void lcd_ac_refresh_fan()
panel.writeNum("fan_mid.pic", ac_fan_speed == 2 ? 20 : 21);
panel.writeNum("fan_high.pic", ac_fan_speed == 1 ? 16 : 17);
}
#endif
void trigger0()
{
@ -978,54 +1048,70 @@ void trigger3()
lcd_send_stop_bit();
pwm_set_value(lcd_pwmAdj_id, value);
}
void trigger4()
{
#ifdef ENABLE_CLIMATE_MODULE
if (ac_temperature < AC_MAX_TEMPERATURE && ac_mode != 2)
ac_set_state(ac_mode, ac_temperature + 1, ac_fan_speed);
#endif
}
void trigger5()
{
#ifdef ENABLE_CLIMATE_MODULE
if (ac_temperature > AC_MIN_TEMPERATURE && ac_mode != 2)
ac_set_state(ac_mode, ac_temperature - 1, ac_fan_speed);
#endif
}
void trigger6()
{
#ifdef ENABLE_CLIMATE_MODULE
ac_set_state(ac_mode, ac_temperature, 0);
#endif
}
void trigger7()
{
#ifdef ENABLE_CLIMATE_MODULE
ac_set_state(ac_mode, ac_temperature, 3);
#endif
}
void trigger8()
{
#ifdef ENABLE_CLIMATE_MODULE
ac_set_state(ac_mode, ac_temperature, 2);
#endif
}
void trigger9()
{
#ifdef ENABLE_CLIMATE_MODULE
ac_set_state(ac_mode, ac_temperature, 1);
#endif
}
void trigger10()
{
#ifdef ENABLE_CLIMATE_MODULE
ac_set_state(1, ac_temperature, ac_fan_speed);
#endif
}
void trigger11()
{
#ifdef ENABLE_CLIMATE_MODULE
ac_set_state(2, ac_temperature, ac_fan_speed);
#endif
}
void trigger12()
{
#ifdef ENABLE_CLIMATE_MODULE
ac_set_state(0, ac_temperature, ac_fan_speed);
#endif
}
void trigger13()
{
set_ip(panel.readStr("ip_set.txt"));
@ -1055,6 +1141,7 @@ void trigger15()
delay(100);
ESP.restart();
}
#endif // End Internal LCD Code Block
void eeprom_pwm_update()
{
@ -1159,6 +1246,7 @@ boolean input_get_state(int id)
return virtual_interupt_state[id];
}
#ifdef ENABLE_CLIMATE_MODULE
uint8_t ac_get_temperature()
{
return ac_temperature;
@ -1171,6 +1259,7 @@ uint8_t ac_get_fan_speed()
{
return ac_fan_speed;
}
#endif
void eeprom_mqtt_username_retrieve()
{
@ -1200,34 +1289,47 @@ void set_mqtt_useauth(bool use_auth)
ESPMega_FRAM.write8(EEPROM_ADDRESS_MQTT_USEAUTH, MQTT_USE_AUTH);
}
void factory_reset() {
for(int i=5;i>0;i--) {
if(digitalRead(2)==HIGH) {
void factory_reset()
{
for (int i = 5; i > 0; i--)
{
if (digitalRead(2) == HIGH)
{
lcd_send_command("boot_state.txt=\"Factory Reset Canceled, Restarting\"");
delay(5000);
ESP.restart();
}
Serial.printf("boot_state.txt=\"Factory Reset in %d\"",i);
#ifdef ENABLE_INTERNAL_LCD
Serial.printf("boot_state.txt=\"Factory Reset in %d\"", i);
lcd_send_stop_bit();
#endif
delay(1000);
}
}
#ifdef ENABLE_INTERNAL_LCD
lcd_send_command("boot_state.txt=\"Factory Reseting . . .\"");
#endif
// Format FRAM
for(int i=0;i<32768;i++) {
ESPMega_FRAM.write8(i,0);
for (int i = 0; i < 32768; i++)
{
ESPMega_FRAM.write8(i, 0);
}
// Load Default Values
set_ip("192.168.0.10");
set_gw("192.168.0.1");
set_netmask("255.255.255.0");
// Reboot
#ifdef ENABLE_INTERNAL_LCD
lcd_send_stop_bit();
lcd_send_command("boot_state.txt=\"Factory Reset OK. Release Button.\"");
delay(3000);
#endif
ESP.restart();
}
void check_boot_reset() {
void check_boot_reset()
{
pinMode(2, INPUT_PULLUP);
if(digitalRead(2)==LOW) {
if (digitalRead(2) == LOW)
{
factory_reset();
}
}

19
src/espmega_iot_core.hpp
View File

@ -1,23 +1,38 @@
#pragma once
#include <ESPMegaPRO.h>
#include "user_code.hpp"
#ifdef ENABLE_CLIMATE_MODULE
#ifndef ENABLE_IR_MODULE
#error "The Climate Module Requires the IR Module to be enabled with #define ENABLE_IR_MODULE"
#endif
#endif
#include <ETH.h>
#include <PubSubClient.h>
#include <PubSubClientTools.h>
#include <Thread.h>
#include <StaticThreadController.h>
#ifdef ENABLE_IR_MODULE
#include <IRremote.hpp>
#endif
#include <dhtnew.h>
#include <time.h>
#ifdef ENABLE_INTERNAL_LCD
#include <EasyNextionLibrary.h>
#endif
#include <WiFiClient.h>
#ifdef ENABLE_WEBUI
#include <WebServer.h>
#include <Update.h>
#endif
#include "lcd.hpp"
#include "user_code.hpp"
#ifdef ENABLE_CLIMATE_MODULE
#include "ir_codes.hpp"
#endif
#ifdef ENABLE_WEBUI
#include "espmega_iot_ota.hpp"
#endif
#include "espmega_iot_timer.hpp"
void virtual_interrupt_loop();

7
src/ir_codes.hpp
View File

@ -1,12 +1,5 @@
#pragma once
#include <ESPMegaPRO.h>
// Infrared Transciever
#define IR_RECIEVE_PIN 35
#define IR_SEND_PIN 17
#define MARK_EXCESS_MICROS 20
#define RAW_BUFFER_LENGTH 750
#define AC_MAX_TEMPERATURE 30
#define AC_MIN_TEMPERATURE 15
extern const uint8_t ir_code_cool[3][16][750] = {
// Fan Speed High
{

21
src/lcd.cpp
View File

@ -1,24 +1,37 @@
#include <user_code.hpp>
#include <lcd.hpp>
void lcd_send_stop_bit() {
void lcd_send_stop_bit()
{
#ifdef ENABLE_INTERNAL_LCD
Serial.write(0xFF);
Serial.write(0xFF);
Serial.write(0xFF);
#endif
}
void lcd_send_command(String command) {
void lcd_send_command(String command)
{
#ifdef ENABLE_INTERNAL_LCD
lcd_send_stop_bit();
Serial.print(command);
lcd_send_stop_bit();
#endif
}
void lcd_reset() {
void lcd_reset()
{
#ifdef ENABLE_INTERNAL_LCD
lcd_send_stop_bit();
lcd_send_command("rest");
lcd_send_stop_bit();
#endif
}
void lcd_init() {
void lcd_init()
{
#ifdef ENABLE_INTERNAL_LCD
lcd_reset();
delay(750);
#endif
}

14
src/user_code.hpp
View File

@ -6,6 +6,20 @@
#include "espmega_iot_timer.hpp"
#include "espmega_iot_external_lcd.hpp"
// Enable Software Module(s)
#define ENABLE_INTERNAL_LCD
#define ENABLE_IR_MODULE
#define ENABLE_CLIMATE_MODULE // Require IR Module
#define ENABLE_WEBUI
// Infrared Transciever
#define IR_RECIEVE_PIN 35
#define IR_SEND_PIN 17
#define MARK_EXCESS_MICROS 20
#define RAW_BUFFER_LENGTH 750
#define AC_MAX_TEMPERATURE 30
#define AC_MIN_TEMPERATURE 15
// External LCD Configuration
#define ENABLE_EXTERNAL_LCD
#define TXD2 4