Show PM2.5 at diagrams, too

Readme.md

@@ -54,7 +54,15 @@ The following pins are used:
 * BMP280 sensor
 * some wire
 
+# Webserver
+
+This version has a webserver activated, if MQTT server is set to **localhost**.
+
+Every 20 seconds a measurement is performed.
+This is shown in a diagram via chart.js
+
 # Sources
 For the Witty board
 * [https://github.com/amkuipers/witty Witty pinout]
 * [https://arduino.ua/products_pictures/large_AOC361-5.jpg Schematics]
+* [https://www.chartjs.org/docs/latest/getting-started/integration.html]

data/chart.htm

@@ -0,0 +1,37 @@
+<!DOCTYPE html>
+<html>
+  <head>
+    <meta http-equiv="Content-type" content="text/html; charset=utf-8">
+    <title>IKEA Home Sensor Diagram</title>
+    <script src="/chart.min.js"></script>
+    <script type="text/javascript">
+      function onBodyLoad(){
+        
+        const xhttp = new XMLHttpRequest();
+        xhttp.responseType = 'json';
+        xhttp.onload = function() {
+          var jsonResponse = this.response;
+          console.log("JSON received");
+          const ctx = document.getElementById('myChart');
+          const myChart = new Chart(ctx, {
+            type: 'line',
+            data: jsonResponse,
+            options: {
+                scales: {
+                    y: {
+                        beginAtZero: false
+                    }
+                }
+            }
+          });
+          console.log("Diagram generated");
+          }
+        xhttp.open("GET", "/diagram", true);
+        xhttp.send();
+      }
+    </script>
+  </head>
+  <body id="body" onload="onBodyLoad()">
+    <canvas id="myChart" width="100%" height="100"></canvas>
+  </body>
+</html>

data/standalone.htm

@@ -0,0 +1,96 @@
+<!DOCTYPE html>
+<html>
+  <head>
+    <meta http-equiv="Content-type" content="text/html; charset=utf-8">
+    <title>IKEA Home Sensor</title>
+    <style type="text/css">
+      tr.heading td {
+        background-color: black; color: white;
+      }
+      tr.d0 td {
+        background-color: #ffffff; color: black;
+      }
+      tr.d1 td {
+        background-color: #b8b8b8; color: black;
+      }
+    </style>
+    <script type="text/javascript">
+      function mySensorTimer(){
+        const xhttp = new XMLHttpRequest();
+        xhttp.responseType = 'json';
+        xhttp.onload = function() {
+          var jsonResponse = this.response;
+          document.getElementById("temp").innerHTML = jsonResponse.temp
+          document.getElementById("altitude").innerHTML = jsonResponse.altitude;
+          document.getElementById("pressure").innerHTML = jsonResponse.pressure;
+          document.getElementById("particle").innerHTML = jsonResponse.particle;
+          if (jsonResponse.gas) {
+            document.getElementById("gas").innerHTML = jsonResponse.gas;
+          } else {
+            document.getElementById("rowGas").hidden = true;
+          }
+          if (jsonResponse.humidity) {
+            document.getElementById("humidity").innerHTML = jsonResponse.humidity;
+          } else {
+            document.getElementById("rowHumidity").hidden = true;
+          }
+          console.log(this.responseText);
+          }
+        xhttp.open("GET", "/sensors", true);
+        xhttp.send();
+      }
+
+      function onBodyLoad(){
+        setInterval(mySensorTimer, 5000);
+      }
+    </script>
+  </head>
+  <body id="body" onload="onBodyLoad()">
+    <h1>Room Sensor</h1>
+    <table>
+      <thead>
+       <tr class="heading">
+        <td>Sensor</td>
+        <td>Value</td>
+        <td></td>
+       </tr>
+      </thead>
+      <tbody>
+      <tr class="d0">
+        <td>Temperatur</td>
+        <td id="temp">temp</td>
+        <td>°C</td>
+      </tr>
+      <tr id="rowHumidity" class="d1">
+        <td>Humidity</td>
+        <td id="humidity">humidity</td>
+        <td>%</td>
+      </tr>
+      <tr id="rowGas" class="d0">
+        <td>Gas</td>
+        <td id="gas">gas</td>
+        <td> KOhms</td>
+      </tr>
+      <tr class="d1">
+        <td>Altitude</td>
+        <td id="altitude">altitude</td>
+        <td>m</td>
+      </tr>
+      <tr class="d0">
+        <td>Pressure</td>
+        <td id="pressure">pressure</td>
+        <td>hPa</td>
+      </tr>
+      <tr class="d1">
+        <td>Particle</td>
+        <td id="particle">particle</td>
+        <td>micro gram per quibik</td>
+      </tr>
+    </tbody>
+    </table>
+    <h1>Diagram</h1>
+    <p>
+      Can be found on the <a href="chart.htm">next page</a>.
+    </p>
+  </body>
+</html>

platformio.ini

@@ -12,7 +12,7 @@
 platform = espressif8266
 board = d1_mini
 framework = arduino
-build_flags = -D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY -D BME680
+build_flags = -D PIO_FRAMEWORK_ARDUINO_LWIP2_LOW_MEMORY -DBMP280
 ; build_flag needs define the Bosch sensor...
 ; -D BMP280
 ;or
@@ -25,4 +25,4 @@ lib_deps = https://github.com/homieiot/homie-esp8266.git#develop
             adafruit/Adafruit BMP280 Library @ ^2.4.2
             adafruit/Adafruit BME680 Library @ ^2.0.1
 
-upload_port = /dev/ttyUSB0
+upload_port = /dev/ttyUSB1

src/main.cpp

@@ -39,15 +39,12 @@
 #define WITTY_RGB_G         D6 /**< GPIO12 Used as 3.3V Power supply for the I2C Sensor */
 #define WITTY_RGB_B         D7 /**< GPIO13 */
 #define PM1006_BIT_RATE     9600
-#define PM1006_MQTT_UPDATE  5000 /**< Check the sensor every 10 seconds; New measurement is done every 20seconds by the sensor */
+#define PM1006_MQTT_UPDATE  30000 /**< Check the sensor every 30 seconds; New measurement is done every 20seconds by the PM1006 sensor */
 #define PIXEL_COUNT         3
 #define GPIO_BUTTON   SENSOR_PM1006_RX /**< Button and software serial share one pin on Witty board */
 #define SENSOR_I2C_SCK    D5 /**< GPIO14 - I2C clock pin */
 #define SENSOR_I2C_SDI    D1 /**< GPIO5  - I2C data pin */
 
-#define PM1006_BIT_RATE 9600
-#define PM1006_MQTT_UPDATE 5000 /**< Check the sensor every 10 seconds; New measurement is done every 20seconds by the sensor */
-
 #define SEALEVELPRESSURE_HPA (1013.25)
 
 #define BUTTON_MAX_CYCLE        10000U  /**< Action: Reset configuration */
@@ -84,11 +81,29 @@
 #define NODE_GAS                        "gas"
 #define NODE_HUMIDITY                   "humidity"
 #define NODE_AMBIENT                    "ambient"
+
 #define NODE_BUTTON                     "button"
+
+#define PORTNUMBER_HTTP                   80      /**< IANA TCP/IP port number, used for HTTP / web traffic */
+
+#define SERIAL_RCEVBUF_MAX                80      /**< Maximum 80 characters can be received from the PM1006 sensor */
+#define MEASURE_POINT_MAX                 1024    /**< Amount of measure point, that can be stored */
+
 /******************************************************************************
  *                                     TYPE DEFS
  ******************************************************************************/
 
+typedef struct s_point {
+  long timestamp;
+  float temp;
+#ifdef BME680
+  uint32_t gas;
+  float humidity;
+#endif
+  float pressure;
+  int pm25;
+} sensor_point;
+
 /******************************************************************************
  *                            FUNCTION PROTOTYPES
  ******************************************************************************/
@@ -102,6 +117,7 @@ void log(int level, String message, int code);
 bool mConfigured = false;
 bool mConnected = false;
 bool mFailedI2Cinitialization = false;
+AsyncWebServer* mHttp = NULL;
 long mLastButtonAction = 0;
 
 /******************************* Sensor data **************************/
@@ -146,12 +162,16 @@ Adafruit_BMP280 bmx; // connected via I2C
 Adafruit_NeoPixel strip(PIXEL_COUNT, GPIO_WS2812, NEO_GRB + NEO_KHZ800);
 
 // Variablen
-uint8_t serialRxBuf[80];
+uint8_t serialRxBuf[SERIAL_RCEVBUF_MAX];
 uint8_t rxBufIdx = 0;
-int spm25 = 0;
+int mParticle_pM25 = 0;
 int last = 0;
 unsigned int mButtonPressed = 0;
 bool mSomethingReceived = false;
+bool mConnectedNonMQTT = false;
+
+sensor_point* mMeasureSeries;
+uint32_t      mMeasureIndex = 0;
 
 /******************************************************************************
  *                            LOCAL FUNCTIONS
@@ -207,8 +227,7 @@ void onHomieEvent(const HomieEvent &event)
 {
   switch (event.type)
   {
-  case HomieEventType::MQTT_READY:
+  case HomieEventType::WIFI_CONNECTED:
-    mConnected=true;
     digitalWrite(WITTY_RGB_R, LOW);
     if (!i2cEnable.get()) { /** keep green LED activated to power I2C sensor */
       digitalWrite(WITTY_RGB_G, LOW);
@@ -217,9 +236,25 @@ void onHomieEvent(const HomieEvent &event)
     digitalWrite(WITTY_RGB_B, LOW);
     strip.fill(strip.Color(0,0,128));
     strip.show();
+    if (mHttp != NULL) {
+      strip.fill(strip.Color(0,64,0));
+      mConnectedNonMQTT = true;
+    }
+    break;
+  case HomieEventType::MQTT_READY:
+    mConnected=true;
     if (mFailedI2Cinitialization) {
-      log(MQTT_LEVEL_DEBUG, F("Could not find a valid BME680 sensor, check wiring or "
+      log(MQTT_LEVEL_DEBUG, 
-                          "try a different address!"), MQTT_LOG_I2CINIT);
+#ifdef BME680
+    "Could not find a valid BME680 sensor, check wiring or try a different address!"
+#else
+#ifdef BMP280
+    "Could not find a valid BMP280 sensor, check wiring or try a different address!"
+#else
+  "no I2C sensor defined"
+#endif
+#endif
+      , MQTT_LOG_I2CINIT);
     } else {
       log(MQTT_LEVEL_INFO, F("BME680 sensor found"), MQTT_LOG_I2CINIT);
     }
@@ -231,23 +266,35 @@ void onHomieEvent(const HomieEvent &event)
   case HomieEventType::OTA_SUCCESSFUL:
     ESP.restart();
     break;
-  case HomieEventType::WIFI_CONNECTED:
-    digitalWrite(WITTY_RGB_B, HIGH);
-    break;
   default:
     break;
   }
 }
 
-void bmpPublishValues() {
+void updateLEDs() {
 #ifdef BME680
   // Tell BME680 to begin measurement.
   unsigned long endTime = bmx.beginReading();
   if (endTime == 0) {
-    log(MQTT_LEVEL_ERROR, F("BME680 not accessible"), MQTT_LOG_I2READ);
+    log(MQTT_LEVEL_ERROR, "BME680 not accessible", MQTT_LOG_I2READ);
     return;
   }
 #endif
+  if ( (rgbTemp.get()) && (!mSomethingReceived) ) {
+      if (bmx.readTemperature() < TEMPBORDER) {
+        strip.setPixelColor(0, strip.Color(0,0,255));
+      } else {
+        strip.setPixelColor(0, strip.Color(255,0,0));
+      }
+      strip.show();
+  } else {
+#ifdef BME680
+    bmx.performReading();
+#endif
+  }
+}
+
+void bmpPublishValues() {
   //  Publish the values
   temperaturNode.setProperty(NODE_TEMPERATUR).send(String(bmx.readTemperature()));
   pressureNode.setProperty(NODE_PRESSURE).send(String(bmx.readPressure() / 100.0F));
@@ -269,6 +316,130 @@ void bmpPublishValues() {
   }
 }
 
+/**
+ * @brief Generate JSON with last measured values
+ * For the update interval, please check @see PM1006_MQTT_UPDATE
+ * @return String with JSON
+ */
+String sensorAsJSON(void) {
+  String buffer;
+  StaticJsonDocument<500> doc;
+
+  if (mMeasureIndex > 0) {
+    int lastIdx = mMeasureIndex - 1;
+    doc["temp"] = String(mMeasureSeries[lastIdx].temp);
+#ifdef BME680
+    doc["gas"] = String(mMeasureSeries[lastIdx].gas);
+    doc["humidity"] = String(mMeasureSeries[lastIdx].humidity);
+#endif
+    float atmospheric = mMeasureSeries[lastIdx].pressure;
+    float altitude = 44330.0 * (1.0 - pow(atmospheric / SEALEVELPRESSURE_HPA, 0.1903));
+    doc["altitude"] = String(altitude);
+    doc["pressure"] = String(atmospheric);
+    doc["particle"] = String(mMeasureSeries[lastIdx].pm25);
+  }
+  doc["cycle"] = String(mMeasureIndex);
+  serializeJson(doc, buffer);
+  return buffer;
+}
+
+/**
+ * @brief Generate JSON with all available sensors
+ * 
+ * @return String 
+ */
+String sensorHeader(void) {
+  String buffer;
+  StaticJsonDocument<500> doc;
+  doc.add("milli");
+  doc.add("temp");  
+#ifdef BME680
+  doc.add("gas");
+  doc.add("humidity");
+#endif
+  doc.add("altitude");
+  doc.add("pressure");
+  doc.add("particle");
+  serializeJson(doc, buffer);
+  return buffer;
+}
+
+/**
+ * @brief Generate JSON with all sensor values
+ * Array of JSON with all measured elements to show in the web browser.
+ * Example:
+ * <code>
+ * dynamicData = {
+ *              labels: [ "0", "-30", "-60", "-90", "-120", "-160" ],
+ *              datasets: [{
+ *                  label: 'temp',
+ *                  data: [24, 22, 23, 25, 22, 23],
+ *                  borderColor: "rgba(255,0,0,1)"
+ *              }, {
+ *                label: 'pressure',
+ *                data: [1000, 1002, 1003, 999, 996, 1000],
+ *                borderColor: "rgba(0,0,255,1)"
+ *              }
+ *            ]
+ *            }
+ * </code>
+ * 
+ * @return String 
+ */
+String diagramJson(void) {
+  int i;
+  String buffer;
+  String bufferLabels = "\"\"";
+  String bufferDataTemp = "\"\"";
+  String bufferDataPressure = "\"\"";
+  String bufferDataPM = "\"\"";
+  String bufferDatasets;
+  String bufferData;
+  if (mMeasureSeries == NULL) {
+    buffer = "{ \"error\": \"Malloc failed\" }";
+    return buffer;
+  }
+
+  long now = millis();
+  if (mMeasureIndex > 0) {
+    bufferLabels = "[ \"" + String((now - mMeasureSeries[0].timestamp) / 1000) + "s";
+    bufferDataTemp = "[ \"" + String(mMeasureSeries[0].temp);
+    bufferDataPressure = "[ \"" + String(mMeasureSeries[0].pressure);
+    bufferDataPM = "[ \"" + String(mMeasureSeries[0].pm25);
+  }
+  for(i=1; i < mMeasureIndex; i++) {
+    bufferLabels += "\", \"" + String((now - mMeasureSeries[i].timestamp) / 1000) + "s";
+    bufferDataTemp += "\", \"" + String(mMeasureSeries[i].temp);
+    bufferDataPressure += "\", \"" + String(mMeasureSeries[i].pressure);
+    bufferDataPM += "\", \"" + String(mMeasureSeries[i].pm25);
+  }
+  if (mMeasureIndex > 0) {
+    bufferLabels += "\" ]";
+    bufferDataTemp += "\" ]";
+    bufferDataPressure += "\" ]";
+    bufferDataPM += "\" ]";
+  }
+  /* Generate label */
+  buffer = "{ \"labels\" : " +  bufferLabels + ",\n";
+  buffer += "\"datasets\" : [";
+
+  /* generate first block for Temperature */
+  buffer += "{\n \"label\" : \"Temp\",\n \"data\" : " + bufferDataTemp + ",\n \"borderColor\" : \"rgba(255,0,0,1)\" \n}";
+  
+  /* generate second block for Pressure */
+  buffer += ", ";
+  buffer += "{\n \"label\" : \"Pressure\",\n \"data\" : " + bufferDataPressure + ",\n \"borderColor\" : \"rgba(0,0,255,1)\" \n}";
+  
+  /* generate third block for PM2.5 values */
+  buffer += ", ";
+  buffer += "{\n \"label\" : \"PM 2.5\",\n \"data\" : " + bufferDataPM + ",\n \"borderColor\" : \"rgba(0,255,0,1)\" \n}";
+    
+  /* TODO, next ones ... */
+  
+  buffer += "]\n }";
+  return buffer;
+}
+
 /**
  * @brief Main loop, triggered by the Homie API
  * All logic needs to be done here.
@@ -284,13 +455,15 @@ void loopHandler()
 {
   static long lastRead = 0;
   if ((millis() - lastRead) > PM1006_MQTT_UPDATE) {
-    int pM25 = getSensorData();
+    mParticle_pM25 = getSensorData();
-    if (pM25 >= 0) {
+    if (mParticle_pM25 >= 0) {
-      particle.setProperty(NODE_PARTICLE).send(String(pM25));
+      if (!mConnectedNonMQTT) {
+        particle.setProperty(NODE_PARTICLE).send(String(mParticle_pM25));
+      }
       if (!mSomethingReceived) {
-        if (pM25 < 35) {
+        if (mParticle_pM25 < 35) {
           strip.fill(strip.Color(0, PERCENT2FACTOR(127, rgbDim), 0)); /* green */
-        } else if (pM25 < 85) {
+        } else if (mParticle_pM25 < 85) {
           strip.fill(strip.Color(PERCENT2FACTOR(127, rgbDim), PERCENT2FACTOR(64, rgbDim), 0)); /* orange */
         } else {
           strip.fill(strip.Color(PERCENT2FACTOR(127, rgbDim), 0, 0)); /* red */
@@ -301,18 +474,35 @@ void loopHandler()
 
     /* Read BOSCH sensor */
     if (i2cEnable.get() && (!mFailedI2Cinitialization)) {
-      bmpPublishValues();
+      updateLEDs();
+      if (!mConnectedNonMQTT) {
+        bmpPublishValues();
+      }
+    }
+
+    // FIXME: add the measured data into the big list
+    if (mMeasureSeries != NULL) {
+      mMeasureSeries[mMeasureIndex].timestamp = millis();
+      mMeasureSeries[mMeasureIndex].temp = bmx.readTemperature();
+#ifdef BME680
+      mMeasureSeries[mMeasureIndex].gas = (bmx.gas_resistance / 1000.0);
+      mMeasureSeries[mMeasureIndex].humidity = bmx.humidity;
+#endif
+      float atmospheric = bmx.readPressure() / 100.0F;
+      mMeasureSeries[mMeasureIndex].pressure = atmospheric;
+      mMeasureSeries[mMeasureIndex].pm25 = mParticle_pM25;
+      mMeasureIndex++;
     }
 
     /* Clean cycles buttons */
-    if (mButtonPressed <= BUTTON_MIN_ACTION_CYCLE) {
+    if ((!mConnectedNonMQTT) && (mButtonPressed <= BUTTON_MIN_ACTION_CYCLE)) {
       buttonNode.setProperty(NODE_BUTTON).send("0");
     }
     lastRead = millis();
   }
 
   /* if the user sees something via the LEDs, inform MQTT, too */
-  if (mButtonPressed > BUTTON_MIN_ACTION_CYCLE) {
+  if ((!mConnectedNonMQTT) &&  (mButtonPressed > BUTTON_MIN_ACTION_CYCLE)) {
     buttonNode.setProperty(NODE_BUTTON).send(String(mButtonPressed));
   }
 
@@ -353,8 +543,6 @@ bool ledHandler(const HomieRange& range, const String& value) {
   return false;
 }
 
-
-
 /******************************************************************************
  *                            GLOBAL FUNCTIONS
  *****************************************************************************/
@@ -374,12 +562,12 @@ void setup()
   Homie_setFirmware(HOMIE_FIRMWARE_NAME, HOMIE_FIRMWARE_VERSION);
   Homie.setLoopFunction(loopHandler);
   Homie.onEvent(onHomieEvent);
-  i2cEnable.setDefaultValue(false);
+  i2cEnable.setDefaultValue(true);
   rgbTemp.setDefaultValue(false);
   rgbDim.setDefaultValue(100).setValidator([] (long candidate) {
     return (candidate > 1) && (candidate <= 200);
   });
-  memset(serialRxBuf, 0, 80);
+  memset(serialRxBuf, 0, SERIAL_RCEVBUF_MAX);
 
   pmSerial.begin(PM1006_BIT_RATE);
   Homie.setup();
@@ -414,6 +602,8 @@ void setup()
   digitalWrite(WITTY_RGB_G, HIGH);
   if (mConfigured)
   {
+    mMeasureSeries = (sensor_point *) malloc(sizeof(sensor_point) * MEASURE_POINT_MAX);
+    memset(mMeasureSeries, 0, sizeof(sensor_point) * MEASURE_POINT_MAX);
     if (i2cEnable.get()) {
 #ifdef BME680
     printf("Wait 1 second...\r\n");
@@ -443,28 +633,44 @@ void setup()
                       Adafruit_BMP280::FILTER_X16,      /* Filtering. */
                       Adafruit_BMP280::STANDBY_MS_500); /* Standby time. */
 #endif
+        printf("Sensor found on I2C bus\r\n");
       } else {
         printf("Failed to initialize I2C bus\r\n");
       }
     }
     strip.fill(strip.Color(0,0,0));
-    for (int i=0;i < (PIXEL_COUNT / 2); i++) {
+    
-      strip.setPixelColor(0, strip.Color(0,0,128 * rgbDim.get()));
+      for (int i=0;i < (PIXEL_COUNT / 2); i++) {
-    }
+        strip.setPixelColor(0, strip.Color(0,128,0));
-    strip.show();
+      }
-  } else {
+      mHttp = new AsyncWebServer(PORTNUMBER_HTTP);
-    digitalWrite(WITTY_RGB_R, HIGH);
+      mHttp->on("/heap", HTTP_GET, [](AsyncWebServerRequest *request){
-    strip.fill(strip.Color(128,0,0));
+        request->send(200, "text/plain", String(ESP.getFreeHeap()));
-    for (int i=0;i < (PIXEL_COUNT / 2); i++) {
+      });
-      strip.setPixelColor(0, strip.Color(0,0,128));
+      mHttp->on("/sensors", HTTP_GET, [](AsyncWebServerRequest *request){
-    }
+        request->send(200, "application/json", sensorAsJSON());
+      });
+      mHttp->on("/header", HTTP_GET, [](AsyncWebServerRequest *request){
+        request->send(200, "application/json", sensorHeader());
+      });
+      mHttp->on("/diagram", HTTP_GET, [](AsyncWebServerRequest *request){
+        request->send(200, "application/json", diagramJson());
+      });
+      mHttp->serveStatic("/", SPIFFS, "/").setDefaultFile("standalone.htm");
+      mHttp->begin();
+      Homie.getLogger() << "Webserver started" << endl;
     strip.show();
   }
 }
 
 void loop()
 {
-  Homie.loop();
+  if (!mConnectedNonMQTT) {
+    Homie.loop();
+  } else {
+    /* call the custom loop directly, as Homie is deactivated */
+    loopHandler();
+  }
   /* use the pin, receiving the soft serial additionally as button */
   if (digitalRead(GPIO_BUTTON) == LOW) {
     if ((millis() - mLastButtonAction) > BUTTON_CHECK_INTERVALL) {
@@ -485,7 +691,6 @@ void loop()
   }
 
   if (mButtonPressed > BUTTON_MAX_CYCLE) {
-    mButtonPressed = (BUTTON_MAX_CYCLE -1);
     if (SPIFFS.exists("/homie/config.json")) {
       strip.fill(strip.Color(0,PERCENT2FACTOR(127, rgbDim),0));
       strip.show();