mirror of
https://github.com/revspace/operame
synced 2024-12-04 21:57:30 +00:00
439 lines
12 KiB
C++
439 lines
12 KiB
C++
#include <WiFi.h>
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#include <MQTT.h>
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#include <SPIFFS.h>
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#include <WiFiSettings.h>
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#include <MHZ19.h>
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#include <ArduinoOTA.h>
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#include <SPI.h>
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#include <TFT_eSPI.h>
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#include <logo.h>
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#include <list>
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#include <operame_strings.h>
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#define LANGUAGE "nl"
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OperameLanguage::Texts T;
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enum Driver { AQC, MHZ };
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Driver driver;
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MQTTClient mqtt;
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HardwareSerial hwserial1(1);
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TFT_eSPI display;
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TFT_eSprite sprite(&display);
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MHZ19 mhz;
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const int pin_portalbutton = 35;
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const int pin_demobutton = 0;
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const int pin_backlight = 4;
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const int pin_sensor_rx = 27;
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const int pin_sensor_tx = 26;
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const int pin_pcb_ok = 12; // pulled to GND by PCB trace
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int mhz_co2_init = 410; // magic value reported during init
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// Configuration via WiFiSettings
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unsigned long mqtt_interval;
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bool ota_enabled;
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int co2_warning;
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int co2_critical;
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int co2_blink;
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String mqtt_topic;
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String mqtt_template;
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bool add_units;
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bool wifi_enabled;
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bool mqtt_enabled;
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int max_failures;
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std::list<int> history;
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void retain(const String& topic, const String& message) {
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Serial.printf("%s %s\n", topic.c_str(), message.c_str());
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mqtt.publish(topic, message, true, 0);
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}
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void clear_sprite(int bg = TFT_BLACK) {
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int barheight=5;
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sprite.fillSprite(bg);
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if (WiFi.status() == WL_CONNECTED) {
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sprite.drawRect(0, barheight+2, display.width(), display.height(), TFT_BLUE);
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}
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int x = 0;
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int separator = bg == TFT_BLACK ? TFT_DARKGREY : TFT_BLACK;
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sprite.drawFastHLine(0, barheight, display.width(), separator);
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sprite.drawFastHLine(0, barheight+1, display.width(), separator);
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for (auto& co2 : history) {
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sprite.drawFastVLine(x, 0, barheight, (
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co2 < 300 ? TFT_BLACK : co2 < co2_warning ? TFT_DARKGREEN : co2 < co2_critical ? TFT_ORANGE : TFT_MAROON
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));
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x++;
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}
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}
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void display_big(const String& text, int fg = TFT_WHITE, int bg = TFT_BLACK) {
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clear_sprite(bg);
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sprite.setTextSize(1);
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bool nondigits = false;
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for (int i = 0; i < text.length(); i++) {
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char c = text.charAt(i);
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if (c < '0' || c > '9') nondigits = true;
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}
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sprite.setTextFont(nondigits ? 4 : 8);
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sprite.setTextSize(nondigits && text.length() < 10 ? 2 : 1);
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sprite.setTextDatum(MC_DATUM);
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sprite.setTextColor(fg, bg);
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sprite.drawString(text, display.width()/2, display.height()/2);
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sprite.pushSprite(0, 0);
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}
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void display_lines(const std::list<String>& lines, int fg = TFT_WHITE, int bg = TFT_BLACK) {
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clear_sprite(bg);
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sprite.setTextSize(1);
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sprite.setTextFont(4);
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sprite.setTextDatum(MC_DATUM);
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sprite.setTextColor(fg, bg);
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const int line_height = 32;
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int y = display.height()/2 - (lines.size()-1) * line_height/2;
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for (auto line : lines) {
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sprite.drawString(line, display.width()/2, y);
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y += line_height;
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}
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sprite.pushSprite(0, 0);
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}
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void display_logo() {
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clear_sprite();
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sprite.setSwapBytes(true);
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sprite.pushImage(12, 30, 215, 76, OPERAME_LOGO);
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sprite.pushSprite(0, 0);
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}
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void display_ppm(int ppm) {
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int fg, bg;
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if (ppm >= co2_critical) {
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fg = TFT_WHITE;
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bg = TFT_RED;
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} else if (ppm >= co2_warning) {
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fg = TFT_BLACK;
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bg = TFT_YELLOW;
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} else {
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fg = TFT_GREEN;
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bg = TFT_BLACK;
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}
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if (ppm >= co2_blink && millis() % 2000 < 1000) {
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std::swap(fg, bg);
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}
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display_big(String(ppm), fg, bg);
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}
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void ppm_demo() {
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display_big("demo!");
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delay(3000);
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display_logo();
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delay(1000);
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for (int p = 400; p < 1200; p++) {
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display_ppm(p);
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if (button(pin_demobutton)) {
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display_logo();
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delay(500);
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return;
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}
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delay(30);
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}
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display_logo();
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delay(5000);
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}
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void panic(const String& message) {
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display_big(message, TFT_RED);
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delay(5000);
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ESP.restart();
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}
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bool button(int pin) {
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if (digitalRead(pin)) return false;
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unsigned long start = millis();
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while (!digitalRead(pin)) {
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if (millis() - start >= 50) display_big("");
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}
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return millis() - start >= 50;
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}
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void check_portalbutton() {
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if (button(pin_portalbutton)) WiFiSettings.portal();
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}
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void check_demobutton() {
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if (button(pin_demobutton)) ppm_demo();
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}
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void check_buttons() {
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check_portalbutton();
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check_demobutton();
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}
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void setup_ota() {
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ArduinoOTA.setHostname(WiFiSettings.hostname.c_str());
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ArduinoOTA.setPassword(WiFiSettings.password.c_str());
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ArduinoOTA.onStart( []() { display_big("OTA", TFT_BLUE); });
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ArduinoOTA.onEnd( []() { display_big("OTA done", TFT_GREEN); });
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ArduinoOTA.onError( [](ota_error_t e) { display_big("OTA failed", TFT_RED); });
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ArduinoOTA.onProgress([](unsigned int p, unsigned int t) {
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String pct { (int) ((float) p / t * 100) };
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display_big(pct + "%");
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});
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ArduinoOTA.begin();
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}
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void connect_mqtt() {
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if (mqtt.connected()) return; // already/still connected
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static int failures = 0;
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if (mqtt.connect(WiFiSettings.hostname.c_str())) {
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failures = 0;
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} else {
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failures++;
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if (failures >= max_failures) panic(T.error_mqtt);
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}
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}
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int aqc_get_co2() {
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static bool initialized = false;
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const uint8_t command[9] = { 0xff, 0x01, 0xc5, 0, 0, 0, 0, 0, 0x3a };
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uint8_t response[9];
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int co2 = -1;
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for (int attempt = 0; attempt < 3; attempt++) {
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hwserial1.flush();
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int limit = 20; // .available() sometimes stays true
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while(hwserial1.available() && --limit) hwserial1.read();
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hwserial1.write(command, sizeof(command));
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delay(50);
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size_t c = hwserial1.readBytes(response, sizeof(response));
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if (c != sizeof(response) || response[0] != 0xff || response[1] != 0x86) {
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continue;
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}
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uint8_t checksum = 255;
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for (int i = 0; i < sizeof(response) - 1; i++) {
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checksum -= response[i];
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}
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if (response[8] == checksum) {
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co2 = response[2] * 256 + response[3];
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break;
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}
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delay(50);
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}
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if (co2 < 0) {
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initialized = false;
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return co2;
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}
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if (!initialized && (co2 == 9999 || co2 == 400)) return 0;
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initialized = true;
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return co2;
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}
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void mhz_setup() {
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mhz.begin(hwserial1);
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// mhz.setFilter(true, true); Library filter doesn't handle 0436
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mhz.autoCalibration(true);
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char v[5] = {};
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mhz.getVersion(v);
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v[4] = '\0';
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if (strcmp("0436", v) == 0) mhz_co2_init = 436;
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}
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int mhz_get_co2() {
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int co2 = mhz.getCO2();
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int unclamped = mhz.getCO2(false);
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if (mhz.errorCode != RESULT_OK) {
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delay(500);
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mhz_setup();
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return -1;
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}
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// reimplement filter from library, but also checking for 436 because our
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// sensors (firmware 0436, coincidence?) return that instead of 410...
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if (unclamped == mhz_co2_init && co2 - unclamped >= 10) return 0;
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// No known sensors support >10k PPM (library filter tests for >32767)
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if (co2 > 10000 || unclamped > 10000) return 0;
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return co2;
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}
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int get_co2() {
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// <0 means read error, 0 means still initializing, >0 is PPM value
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if (driver == AQC) return aqc_get_co2();
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if (driver == MHZ) return mhz_get_co2();
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// Should be unreachable
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panic(T.error_driver);
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return -1; // suppress warning
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}
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void setup() {
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Serial.begin(115200);
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Serial.println("Operame start");
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digitalWrite(pin_backlight, HIGH);
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display.init();
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display.fillScreen(TFT_BLACK);
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display.setRotation(1);
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sprite.createSprite(display.width(), display.height());
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OperameLanguage::select(T, LANGUAGE);
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if (!SPIFFS.begin(false)) {
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display_lines(T.first_run, TFT_MAGENTA);
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if (!SPIFFS.format()) {
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display_big(T.error_format, TFT_RED);
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delay(20*1000);
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}
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}
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pinMode(pin_portalbutton, INPUT_PULLUP);
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pinMode(pin_demobutton, INPUT_PULLUP);
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pinMode(pin_pcb_ok, INPUT_PULLUP);
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pinMode(pin_backlight, OUTPUT);
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WiFiSettings.hostname = "operame-";
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WiFiSettings.language = LANGUAGE;
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WiFiSettings.begin();
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OperameLanguage::select(T, WiFiSettings.language);
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while (digitalRead(pin_pcb_ok)) {
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display_big(T.error_module, TFT_RED);
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delay(1000);
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}
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display_logo();
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delay(2000);
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hwserial1.begin(9600, SERIAL_8N1, pin_sensor_rx, pin_sensor_tx);
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if (aqc_get_co2() >= 0) {
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driver = AQC;
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hwserial1.setTimeout(100);
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Serial.println("Using AQC driver.");
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} else {
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driver = MHZ;
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mhz_setup();
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Serial.println("Using MHZ driver.");
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}
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for (auto& str : T.portal_instructions[0]) {
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str.replace("{ssid}", WiFiSettings.hostname);
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}
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wifi_enabled = WiFiSettings.checkbox("operame_wifi", false, T.config_wifi);
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ota_enabled = WiFiSettings.checkbox("operame_ota", false, T.config_ota) && wifi_enabled;
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WiFiSettings.heading("CO2-niveaus");
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co2_warning = WiFiSettings.integer("operame_co2_warning", 400, 5000, 700, T.config_co2_warning);
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co2_critical = WiFiSettings.integer("operame_co2_critical",400, 5000, 800, T.config_co2_critical);
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co2_blink = WiFiSettings.integer("operame_co2_blink", 800, 5000, 800, T.config_co2_blink);
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WiFiSettings.heading("MQTT");
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mqtt_enabled = WiFiSettings.checkbox("operame_mqtt", false, T.config_mqtt) && wifi_enabled;
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String server = WiFiSettings.string("mqtt_server", 64, "", T.config_mqtt_server);
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int port = WiFiSettings.integer("mqtt_port", 0, 65535, 1883, T.config_mqtt_port);
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max_failures = WiFiSettings.integer("operame_max_failures", 0, 1000, 10, T.config_max_failures);
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mqtt_topic = WiFiSettings.string("operame_mqtt_topic", WiFiSettings.hostname, T.config_mqtt_topic);
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mqtt_interval = 1000UL * WiFiSettings.integer("operame_mqtt_interval", 10, 3600, 60, T.config_mqtt_interval);
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mqtt_template = WiFiSettings.string("operame_mqtt_template", "{} PPM", T.config_mqtt_template);
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WiFiSettings.info(T.config_template_info);
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WiFiSettings.onConnect = [] {
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display_big(T.connecting, TFT_BLUE);
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check_portalbutton();
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return 50;
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};
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WiFiSettings.onFailure = [] {
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display_big(T.error_wifi, TFT_RED);
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delay(2000);
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};
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static int portal_phase = 0;
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static unsigned long portal_start;
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WiFiSettings.onPortal = [] {
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if (ota_enabled) setup_ota();
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portal_start = millis();
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};
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WiFiSettings.onPortalView = [] {
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if (portal_phase < 2) portal_phase = 2;
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};
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WiFiSettings.onConfigSaved = [] {
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portal_phase = 3;
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};
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WiFiSettings.onPortalWaitLoop = [] {
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if (WiFi.softAPgetStationNum() == 0) portal_phase = 0;
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else if (! portal_phase) portal_phase = 1;
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display_lines(T.portal_instructions[portal_phase], TFT_WHITE, TFT_BLUE);
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if (portal_phase == 0 && millis() - portal_start > 10*60*1000) {
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panic(T.error_timeout);
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}
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if (ota_enabled) ArduinoOTA.handle();
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if (button(pin_portalbutton)) ESP.restart();
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};
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if (wifi_enabled) WiFiSettings.connect(false, 15);
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static WiFiClient wificlient;
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if (mqtt_enabled) mqtt.begin(server.c_str(), port, wificlient);
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if (ota_enabled) setup_ota();
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for (int i = 0; i < display.width(); i++) {
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history.push_back(0);
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}
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}
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#define every(t) for (static unsigned long _lasttime; (unsigned long)((unsigned long)millis() - _lasttime) >= (t); _lasttime = millis())
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void loop() {
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static int co2;
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every(5000) {
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co2 = get_co2();
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Serial.println(co2);
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if (co2 > 0) {
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history.pop_front();
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history.push_back(co2);
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}
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}
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every(50) {
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if (co2 < 0) {
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display_big(T.error_sensor, TFT_RED);
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} else if (co2 == 0) {
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display_big(T.wait);
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} else {
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// some MH-Z19's go to 10000 but the display has space for 4 digits
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display_ppm(co2 > 9999 ? 9999 : co2);
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}
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}
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if (mqtt_enabled) {
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mqtt.loop();
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every(mqtt_interval) {
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if (co2 <= 0) break;
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connect_mqtt();
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String message = mqtt_template;
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message.replace("{}", String(co2));
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retain(mqtt_topic, message);
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}
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}
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if (ota_enabled) ArduinoOTA.handle();
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check_buttons();
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}
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