Add Ladyada's FONA implementation.

2015-06-09 21:22:36 -07:00 · 2015-06-09 21:22:36 -07:00 · d063469e03
commit d063469e03
parent 6a1b0bc442
3 changed files with 312 additions and 0 deletions
--- a/Adafruit_MQTT_FONA.h
+++ b/Adafruit_MQTT_FONA.h
@ -0,0 +1,112 @@
 #ifndef _ADAFRUIT_MQTT_FONA_H_
 #define _ADAFRUIT_MQTT_FONA_H_
 #include <Adafruit_FONA.h>
 #include "Adafruit_MQTT.h"
 #define MQTT_FONA_INTERAVAILDELAY 100
 #define MQTT_FONA_QUERYDELAY 500
 class Adafruit_MQTT_FONA : public Adafruit_MQTT {
 public:
  Adafruit_MQTT_FONA(Adafruit_FONA *f, const char *server, uint16_t port, 
                       const char *cid, const char *user, const char *pass):
    Adafruit_MQTT(server, port, cid, user, pass),
    fona(f)
  {}
  bool connectServer() {
    char server[40];
    strncpy_P(server, servername, 40);
    Watchdog.reset();
    // connect to server
    DEBUG_PRINTLN(F("Connecting to TCP"));
    return fona->TCPconnect(server, portnum);
  }
  bool disconnect() {
    return fona->TCPclose();
  }
  uint16_t readPacket(uint8_t *buffer, uint8_t maxlen, int16_t timeout, 
                      bool checkForValidPubPacket = false) {
    uint8_t *buffp = buffer;
    DEBUG_PRINTLN(F("Reading a packet.."));
    if (!fona->TCPconnected()) return 0;
    /* Read data until either the connection is closed, or the idle timeout is reached. */
    uint16_t len = 0;
    int16_t t = timeout;
    uint16_t avail;
    while (fona->TCPconnected() && (timeout >= 0)) {
      DEBUG_PRINT('.');
      while (avail = fona->TCPavailable()) {
        DEBUG_PRINT('!');
        if (len + avail > maxlen) {
    // oof we cant read more of the available data in this buffer
    return len;
        }
        // try to read the data into the end of the pointer
        if (! fona->TCPread(buffp, avail)) return len;
        // read it! advance pointer
        buffp += avail;
        len += avail;
        timeout = t;  // reset the timeout
        //DEBUG_PRINTLN((uint8_t)c, HEX);
        if (len == maxlen) {  // we read all we want, bail
          DEBUG_PRINT(F("Read packet:\t"));
          DEBUG_PRINTBUFFER(buffer, len);
    return len;
        }
        // special case where we just one one publication packet at a time
        if (checkForValidPubPacket) {
          if ((buffer[0] == (MQTT_CTRL_PUBLISH << 4)) && (buffer[1] == len-2)) {
            // oooh a valid publish packet!
            DEBUG_PRINT(F("Read PUBLISH packet:\t"));
            DEBUG_PRINTBUFFER(buffer, len);
            return len;
          }
        }
      }
      Watchdog.reset();
      timeout -= MQTT_FONA_INTERAVAILDELAY;
      timeout -= MQTT_FONA_QUERYDELAY; // this is how long it takes to query the FONA for avail()
      delay(MQTT_FONA_INTERAVAILDELAY);
    }
    return len;
  }
  bool sendPacket(uint8_t *buffer, uint8_t len) {
    DEBUG_PRINTLN(F("Writing packet"));
    if (fona->TCPconnected()) {
      boolean ret = fona->TCPsend((char *)buffer, len);
      //DEBUG_PRINT(F("sendPacket returned: ")); DEBUG_PRINTLN(ret);
      if (!ret) {
        DEBUG_PRINTLN("Failed to send packet.")
        return false;
      }
    } else {
      DEBUG_PRINTLN(F("Connection failed!"));
      return false;
    }
    return true;    
  }
 private:
  uint32_t serverip;
  Adafruit_FONA *fona;
 };
 #endif
--- a/examples/mqtt_fona/fonahelper.cpp
+++ b/examples/mqtt_fona/fonahelper.cpp
@ -0,0 +1,45 @@
 #include <Adafruit_SleepyDog.h>
 #include "Adafruit_FONA.h"
 #define halt(s) { Serial.println(F( s )); while(1);  }
 extern Adafruit_FONA fona;
 extern SoftwareSerial fonaSS;
 boolean FONAconnect(const __FlashStringHelper *apn, const __FlashStringHelper *username, const __FlashStringHelper *password) {
  Watchdog.enable(8000);
  Watchdog.reset();
  Serial.println(F("Initializing FONA....(May take 3 seconds)"));
  fonaSS.begin(4800); // if you're using software serial
  if (! fona.begin(fonaSS)) {           // can also try fona.begin(Serial1) 
    Serial.println(F("Couldn't find FONA"));
    return false;
  }
  fonaSS.println("AT+CMEE=2");
  Serial.println(F("FONA is OK"));
  Watchdog.reset();
  Serial.println(F("Checking for network..."));
  while (fona.getNetworkStatus() != 1) {
   delay(500);
  }
  Watchdog.reset();
  fona.setGPRSNetworkSettings(apn, username, password);
  Serial.println(F("Disabling GPRS"));
  fona.enableGPRS(false);
  Watchdog.reset();
  Serial.println(F("Enabling GPRS"));
  if (!fona.enableGPRS(true)) {
    Serial.println(F("Failed to turn GPRS on"));  
    return false;
  }
  Watchdog.reset();
  return true;
 }
--- a/examples/mqtt_fona/mqtt_fona.ino
+++ b/examples/mqtt_fona/mqtt_fona.ino
@ -0,0 +1,155 @@
 #include <Adafruit_SleepyDog.h>
 #include <SoftwareSerial.h>
 #include "Adafruit_FONA.h"
 #include "Adafruit_MQTT.h"
 #include "Adafruit_MQTT_FONA.h"
 /*************************** FONA Pins ***********************************/
 #define FONA_RX 2
 #define FONA_TX 3
 #define FONA_RST 4
 SoftwareSerial fonaSS = SoftwareSerial(FONA_TX, FONA_RX);
 Adafruit_FONA fona = Adafruit_FONA(FONA_RST);
 /************************* WiFi Access Point *********************************/
  // Optionally configure a GPRS APN, username, and password.
  // You might need to do this to access your network's GPRS/data
  // network.  Contact your provider for the exact APN, username,
  // and password values.  Username and password are optional and
  // can be removed, but APN is required.
 #define FONA_APN       ""
 #define FONA_USERNAME  ""
 #define FONA_PASSWORD  ""
 /************************* Adafruit.io Setup *********************************/
 #define AIO_SERVER      "io.adafruit.com"
 #define AIO_SERVERPORT  1883
 #define AIO_USERNAME    "...your AIO username (see https://accounts.adafruit.com)..."
 #define AIO_KEY         "...your AIO key...";
 /************ Global State (you don't need to change this!) ******************/
 // Store the MQTT server, client ID, username, and password in flash memory.
 // This is required for using the Adafruit MQTT library.
 const char MQTT_SERVER[] PROGMEM    = AIO_SERVER;
 const char MQTT_CLIENTID[] PROGMEM  = AIO_KEY;
 const char MQTT_USERNAME[] PROGMEM  = AIO_USERNAME;
 const char MQTT_PASSWORD[] PROGMEM  = AIO_KEY;
 // Setup the FONA MQTT class by passing in the FONA class and MQTT server and login details.
 Adafruit_MQTT_FONA mqtt(&fona, MQTT_SERVER, AIO_SERVERPORT, MQTT_CLIENTID, MQTT_USERNAME, MQTT_PASSWORD);
 // You don't need to change anything below this line!
 #define halt(s) { Serial.println(F( s )); while(1);  }
 // FONAconnect is a helper function that sets up the FONA and connects to
 // the GPRS network. See the fonahelper.cpp tab above for the source!
 boolean FONAconnect(const __FlashStringHelper *apn, const __FlashStringHelper *username, const __FlashStringHelper *password);
 /****************************** Feeds ***************************************/
 // Setup a feed called 'photocell' for publishing.  
 // Notice MQTT paths for AIO follow the form: <username>/feeds/<feedname>
 const char PHOTOCELL_FEED[] PROGMEM = AIO_USERNAME "/feeds/photocell";
 Adafruit_MQTT_Publish photocell = Adafruit_MQTT_Publish(&mqtt, PHOTOCELL_FEED);
 // Setup a feed called 'onoff' for subscribing to changes.  
 const char ONOFF_FEED[] PROGMEM = AIO_USERNAME "/feeds/onoff";
 Adafruit_MQTT_Subscribe onoffbutton = Adafruit_MQTT_Subscribe(&mqtt, ONOFF_FEED);
 /*************************** Sketch Code ************************************/
 // How many transmission failures in a row we're willing to be ok with before reset
 uint8_t txfailures = 0;
 #define MAXTXFAILURES 3
 void setup() {
  while (!Serial);
  Serial.begin(115200);
  Serial.println(F("Adafruit FONA MQTT demo"));
  mqtt.subscribe(&onoffbutton);
  // Initialise the FONA module
  while (! FONAconnect(F(FONA_APN), F(FONA_USERNAME), F(FONA_PASSWORD))) {
    halt("Retrying FONA");
  }
  Serial.println(F("Connected to Cellular!"));
  Watchdog.reset();
  delay(3000);  // wait a few seconds to stabilize connection
  Watchdog.reset();
 }
 uint32_t x=0;
 void loop() {
  // Make sure to reset watchdog every loop iteration!
  Watchdog.reset();
  // check if we're still connected
  if (!fona.TCPconnected() || (txfailures >= MAXTXFAILURES)) {
    //////////////////////////////
    Serial.println(F("Connecting to MQTT..."));
    int8_t ret, retries = 5;
    while (retries && (ret = mqtt.connect()) != 0) {
       switch (ret) {
          case 1: Serial.println(F("Wrong protocol")); break;
          case 2: Serial.println(F("ID rejected")); break;
          case 3: Serial.println(F("Server unavail")); break;
          case 4: Serial.println(F("Bad user/pass")); break;
          case 5: Serial.println(F("Not authed")); break;
          case 6: Serial.println(F("Failed to subscribe")); break;
          default: {
            Serial.println(F("Connection failed")); 
            break;
          }
       }
       Serial.println(F("Retrying MQTT connection"));
       retries--;
       if (retries == 0) halt("Resetting system");
       delay(5000); 
    }
    Serial.println(F("MQTT Connected!"));
    txfailures = 0; 
  }
  // Try to ping the MQTT server
  /*
  if (! mqtt.ping(3) ) {
    // MQTT pings failed, lets reconnect
    Serial.println("Ping fail!");
  }
  */
  // this is our 'wait for incoming subscription packets' busy subloop
  Adafruit_MQTT_Subscribe *subscription;
  while (subscription = mqtt.readSubscription(5000)) {
    if (subscription == &onoffbutton) {
      Serial.print(F("Got: ")); 
      Serial.println((char *)onoffbutton.lastread);
    }
  }
  // Now we can publish stuff!
  Serial.print(F("\nSending photocell val ")); 
  Serial.print(x);
  Serial.print("...");
  if (! photocell.publish(x++)) {
    Serial.println(F("Failed"));
    txfailures++;
  } else {
    Serial.println(F("OK!"));
    txfailures = 0;
  }
 }