Hohm-Phone/Hohm_Phone.ino

#include "avr/sleep.h"
#include "Adafruit_FONA.h"
#include "Keypad.h"

////////////////////////////////
////////// PARAMETERS //////////
////////////////////////////////

// Arduino will wake from sleep when WAKE_PIN is pulled low. Connect any waking buttons to WAKE_PIN
#define WAKE_PIN 2

#define BUT_ANS A3
#define BUT_END A4

// RX/TX are in reference to the Arduino, not SIM800
#define GSM_RX 3
#define GSM_TX 11
#define GSM_RST A2
#define GSM_RING A5

// TIMEOUT_SLEEP is the time to stay awake from last activity until sleep (milliseconds)
#define TIMEOUT_SLEEP 6000

// Charging voltage thresholds. Will turn on charging at CHG_VLO and turn off charging at CHG_VHI (millivolts)
#define CHG_VLO 3900
#define CHG_VHI 4100
#define CHG_PIN A0

// Comment the following line to use HW serial for Fona and disable debugging information
#define USB_DEBUG

// Comment the following line to disable sleeping the Arduino
//#define SLEEP

// Keypad pinout
byte rowPins[4] = {9, 4, 5, 7};
byte colPins[3] = {8, 10, 6};

////////////////////////////////////
////////// END PARAMETERS //////////
////////////////////////////////////

char phoneNumber[15] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
int phoneNumberLength = 0;

char keys[4][3] = {
  {'1', '2', '3'},
  {'4', '5', '6'},
  {'7', '8', '9'},
  {'*', '0', '#'}
};

unsigned long lastActiveTime;
bool dialtoneActive = false;
bool startDialtone = false;

#ifdef USB_DEBUG
#include "SoftwareSerial.h"
SoftwareSerial fonaSS = SoftwareSerial(GSM_RX, GSM_TX);
SoftwareSerial *fonaSerial = &fonaSS;
#else
HardwareSerial *fonaSerial = &Serial;
#endif

Adafruit_FONA fona = Adafruit_FONA(GSM_RST);
Keypad keypad = Keypad( makeKeymap(keys), rowPins, colPins, 4, 3 );


///////////////////////////////
////////// FUNCTIONS //////////
///////////////////////////////

void wakeFromSleep() {
  sleep_disable();
  detachInterrupt(WAKE_PIN);
#ifdef USB_DEBUG
  Serial.println("Woke up");
#endif
  startDialtone = true;
}

void goToSleep() {
#ifdef USB_DEBUG
  Serial.println("Going to sleep");
#endif
  sleep_enable();
  attachInterrupt(WAKE_PIN, wakeFromSleep, LOW);
  set_sleep_mode(SLEEP_MODE_PWR_DOWN);
  cli();
  sleep_bod_disable();
  sei();
  sleep_cpu();
}

void inCall() {
  while (1) {
    if ( !digitalRead(BUT_END) || fona.getCallStatus() < 3 ) { // End button pressed
      fona.hangUp();
#ifdef USB_DEBUG
      Serial.println("Hanging up");
#endif
      break;
    }

    // numpad stuff
  }
  for ( int j = 0; j < phoneNumberLength; j++) {
    phoneNumber[j] = 0;
  }
  phoneNumberLength = 0;
  startDialtone = true;
}

void beginCall() {
#ifdef USB_DEBUG
  Serial.println("Starting Call");
#endif
  fona.sendCheckReply( F("AT+STTONE=0"), F("OK") ); // End dialtone
  dialtoneActive = false;
  if ( fona.callPhone( phoneNumber ) ) {
#ifdef USB_DEBUG
    Serial.println("Call Started");
#endif
    inCall();
  }
#ifdef USB_DEBUG
  Serial.println("Call ended");
#endif
}

void resumeDialtone() {
  fona.sendCheckReply( F("AT+STTONE=1,20,30000" ), F("OK") ); // Start dialtone
  dialtoneActive = true;
}

//////////////////////////////////
///// ARDUINO CORE FUNCTIONS /////
//////////////////////////////////

void setup() {
#ifdef USB_DEBUG
  Serial.begin(9600);
  Serial.println("Booted. Setting up");
#endif
  pinMode( WAKE_PIN, INPUT_PULLUP );
  pinMode( BUT_ANS, INPUT_PULLUP );
  pinMode( BUT_END, INPUT_PULLUP );
  pinMode( GSM_RST, OUTPUT );
  pinMode( GSM_RING, INPUT_PULLUP );
  pinMode( CHG_PIN, OUTPUT );

  digitalWrite( GSM_RST, HIGH );
  digitalWrite( CHG_PIN, HIGH );

  fonaSerial->begin(4800);
  if (! fona.begin(*fonaSerial)) {
#ifdef USB_DEBUG
    Serial.println("Fona failed to respond");
#endif
    while (1); //fona didn't start
  }
  while ( !fona.setAudio(FONA_EXTAUDIO) ) {}

#ifdef USB_DEBUG
  Serial.println("Setup Complete");
#endif
  startDialtone = true;
  lastActiveTime = millis();

  fona.sendCheckReply( F("AT+CLVL=20"), F("OK") ); // set dialtone volume
}

void loop() {
  if ( !digitalRead(GSM_RING) ) {
    while ( digitalRead(BUT_ANS) & !digitalRead(GSM_RING) ) delay(10); // Wait for answer button or end ring/call
    if ( !digitalRead(BUT_ANS) ) {
      fona.pickUp();
      delay(100);
      inCall();
    }
  }

  if ( startDialtone ) {
    resumeDialtone();
    startDialtone = false;
  }

  // Read from keypad
  char key = keypad.getKey();
  if ( key != NO_KEY ) {
    phoneNumber[ phoneNumberLength ] = key;
    phoneNumberLength = phoneNumberLength + 1;

    if ( dialtoneActive ) {
      fona.sendCheckReply( F("AT+STTONE=0"), F("OK") ); // End dialtone
      dialtoneActive = false;
      delay(50);
    }
    fona.playDTMF( key );  // Play DTMF tone

    lastActiveTime = millis();
#ifdef USB_DEBUG
    int i;
    for (i = 0; i < 15; i = i + 1) {
      Serial.print(phoneNumber[i]);
      Serial.print(", ");
    }
    Serial.println(phoneNumberLength);
#endif
    // Check for complete phone number (including +1 country code)
    if ( ( phoneNumberLength == 10 & phoneNumber[0] != '1' ) || phoneNumberLength > 10 ) {
      beginCall();
    }
  }


  // Clear stored phone number on press of end button
  if ( !digitalRead(BUT_END) ) {
    for ( int j = 0; j < phoneNumberLength; j++) {
      phoneNumber[j] = 0;
    }
    phoneNumberLength = 0;
#ifdef USB_DEBUG
    Serial.println( phoneNumberLength );
#endif
    resumeDialtone();
  }

  uint16_t vbat;
  fona.getBattVoltage(&vbat);
  if ( vbat < CHG_VLO ) {
    digitalWrite( CHG_PIN, HIGH );
  } else if ( vbat > CHG_VHI ) {
    digitalWrite( CHG_PIN, LOW );
  }

#ifdef SLEEP
  // Autoshutdown if inactive for extended period
  // Typecast to long avoids "rollover" issues
  if ( (long)(millis() - lastActiveTime) > TIMEOUT_SLEEP ) {
    goToSleep();
  }
#endif
}
these changes were sitting on my disk from years ago 2022-11-12 22:06:14 -07:00			`#include "avr/sleep.h"`
			`#include "Adafruit_FONA.h"`
			`#include "Keypad.h"`

			`////////////////////////////////`
			`////////// PARAMETERS //////////`
			`////////////////////////////////`

			`// Arduino will wake from sleep when WAKE_PIN is pulled low. Connect any waking buttons to WAKE_PIN`
			`#define WAKE_PIN 2`

			`#define BUT_ANS A3`
			`#define BUT_END A4`

			`// RX/TX are in reference to the Arduino, not SIM800`
			`#define GSM_RX 3`
			`#define GSM_TX 11`
			`#define GSM_RST A2`
			`#define GSM_RING A5`

			`// TIMEOUT_SLEEP is the time to stay awake from last activity until sleep (milliseconds)`
			`#define TIMEOUT_SLEEP 6000`

			`// Charging voltage thresholds. Will turn on charging at CHG_VLO and turn off charging at CHG_VHI (millivolts)`
			`#define CHG_VLO 3900`
			`#define CHG_VHI 4100`
			`#define CHG_PIN A0`

			`// Comment the following line to use HW serial for Fona and disable debugging information`
			`#define USB_DEBUG`

			`// Comment the following line to disable sleeping the Arduino`
			`//#define SLEEP`

			`// Keypad pinout`
			`byte rowPins[4] = {9, 4, 5, 7};`
			`byte colPins[3] = {8, 10, 6};`

			`////////////////////////////////////`
			`////////// END PARAMETERS //////////`
			`////////////////////////////////////`

			`char phoneNumber[15] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};`
			`int phoneNumberLength = 0;`

			`char keys[4][3] = {`
			`{'1', '2', '3'},`
			`{'4', '5', '6'},`
			`{'7', '8', '9'},`
			`{'*', '0', '#'}`
			`};`

			`unsigned long lastActiveTime;`
			`bool dialtoneActive = false;`
			`bool startDialtone = false;`

			`#ifdef USB_DEBUG`
			`#include "SoftwareSerial.h"`
			`SoftwareSerial fonaSS = SoftwareSerial(GSM_RX, GSM_TX);`
			`SoftwareSerial *fonaSerial = &fonaSS;`
			`#else`
			`HardwareSerial *fonaSerial = &Serial;`
			`#endif`

			`Adafruit_FONA fona = Adafruit_FONA(GSM_RST);`
			`Keypad keypad = Keypad( makeKeymap(keys), rowPins, colPins, 4, 3 );`


			`///////////////////////////////`
			`////////// FUNCTIONS //////////`
			`///////////////////////////////`

			`void wakeFromSleep() {`
			`sleep_disable();`
			`detachInterrupt(WAKE_PIN);`
			`#ifdef USB_DEBUG`
			`Serial.println("Woke up");`
			`#endif`
			`startDialtone = true;`
			`}`

			`void goToSleep() {`
			`#ifdef USB_DEBUG`
			`Serial.println("Going to sleep");`
			`#endif`
			`sleep_enable();`
			`attachInterrupt(WAKE_PIN, wakeFromSleep, LOW);`
			`set_sleep_mode(SLEEP_MODE_PWR_DOWN);`
			`cli();`
			`sleep_bod_disable();`
			`sei();`
			`sleep_cpu();`
			`}`

			`void inCall() {`
			`while (1) {`
			`if ( !digitalRead(BUT_END) \|\| fona.getCallStatus() < 3 ) { // End button pressed`
			`fona.hangUp();`
			`#ifdef USB_DEBUG`
			`Serial.println("Hanging up");`
			`#endif`
			`break;`
			`}`

			`// numpad stuff`
			`}`
			`for ( int j = 0; j < phoneNumberLength; j++) {`
			`phoneNumber[j] = 0;`
			`}`
			`phoneNumberLength = 0;`
			`startDialtone = true;`
			`}`

			`void beginCall() {`
			`#ifdef USB_DEBUG`
			`Serial.println("Starting Call");`
			`#endif`
			`fona.sendCheckReply( F("AT+STTONE=0"), F("OK") ); // End dialtone`
			`dialtoneActive = false;`
			`if ( fona.callPhone( phoneNumber ) ) {`
			`#ifdef USB_DEBUG`
			`Serial.println("Call Started");`
			`#endif`
			`inCall();`
			`}`
			`#ifdef USB_DEBUG`
			`Serial.println("Call ended");`
			`#endif`
			`}`

			`void resumeDialtone() {`
			`fona.sendCheckReply( F("AT+STTONE=1,20,30000" ), F("OK") ); // Start dialtone`
			`dialtoneActive = true;`
			`}`

			`//////////////////////////////////`
			`///// ARDUINO CORE FUNCTIONS /////`
			`//////////////////////////////////`

			`void setup() {`
			`#ifdef USB_DEBUG`
			`Serial.begin(9600);`
			`Serial.println("Booted. Setting up");`
			`#endif`
			`pinMode( WAKE_PIN, INPUT_PULLUP );`
			`pinMode( BUT_ANS, INPUT_PULLUP );`
			`pinMode( BUT_END, INPUT_PULLUP );`
			`pinMode( GSM_RST, OUTPUT );`
			`pinMode( GSM_RING, INPUT_PULLUP );`
			`pinMode( CHG_PIN, OUTPUT );`

			`digitalWrite( GSM_RST, HIGH );`
			`digitalWrite( CHG_PIN, HIGH );`

			`fonaSerial->begin(4800);`
			`if (! fona.begin(*fonaSerial)) {`
			`#ifdef USB_DEBUG`
			`Serial.println("Fona failed to respond");`
			`#endif`
			`while (1); //fona didn't start`
			`}`
			`while ( !fona.setAudio(FONA_EXTAUDIO) ) {}`

			`#ifdef USB_DEBUG`
			`Serial.println("Setup Complete");`
			`#endif`
			`startDialtone = true;`
			`lastActiveTime = millis();`

			`fona.sendCheckReply( F("AT+CLVL=20"), F("OK") ); // set dialtone volume`
			`}`

			`void loop() {`
			`if ( !digitalRead(GSM_RING) ) {`
			`while ( digitalRead(BUT_ANS) & !digitalRead(GSM_RING) ) delay(10); // Wait for answer button or end ring/call`
			`if ( !digitalRead(BUT_ANS) ) {`
			`fona.pickUp();`
			`delay(100);`
			`inCall();`
			`}`
			`}`

			`if ( startDialtone ) {`
			`resumeDialtone();`
			`startDialtone = false;`
			`}`

			`// Read from keypad`
			`char key = keypad.getKey();`
			`if ( key != NO_KEY ) {`
			`phoneNumber[ phoneNumberLength ] = key;`
			`phoneNumberLength = phoneNumberLength + 1;`

			`if ( dialtoneActive ) {`
			`fona.sendCheckReply( F("AT+STTONE=0"), F("OK") ); // End dialtone`
			`dialtoneActive = false;`
			`delay(50);`
			`}`
			`fona.playDTMF( key ); // Play DTMF tone`

			`lastActiveTime = millis();`
			`#ifdef USB_DEBUG`
			`int i;`
			`for (i = 0; i < 15; i = i + 1) {`
			`Serial.print(phoneNumber[i]);`
			`Serial.print(", ");`
			`}`
			`Serial.println(phoneNumberLength);`
			`#endif`
			`// Check for complete phone number (including +1 country code)`
			`if ( ( phoneNumberLength == 10 & phoneNumber[0] != '1' ) \|\| phoneNumberLength > 10 ) {`
			`beginCall();`
			`}`
			`}`


			`// Clear stored phone number on press of end button`
			`if ( !digitalRead(BUT_END) ) {`
			`for ( int j = 0; j < phoneNumberLength; j++) {`
			`phoneNumber[j] = 0;`
			`}`
			`phoneNumberLength = 0;`
			`#ifdef USB_DEBUG`
			`Serial.println( phoneNumberLength );`
			`#endif`
			`resumeDialtone();`
			`}`

			`uint16_t vbat;`
			`fona.getBattVoltage(&vbat);`
			`if ( vbat < CHG_VLO ) {`
			`digitalWrite( CHG_PIN, HIGH );`
			`} else if ( vbat > CHG_VHI ) {`
			`digitalWrite( CHG_PIN, LOW );`
			`}`

			`#ifdef SLEEP`
			`// Autoshutdown if inactive for extended period`
			`// Typecast to long avoids "rollover" issues`
			`if ( (long)(millis() - lastActiveTime) > TIMEOUT_SLEEP ) {`
			`goToSleep();`
			`}`
			`#endif`
			`}`