profjsb/maskdisplay.ino

## maskdisplay.ino
/*********************************************************************
 maskdisplay.ino
 Arduino code adapted from adafruit examples to display text to e-ink via bluetooth.
  - Josh Bloom (2020)

 This is an example for our nRF51822 based Bluefruit LE modules

 Pick one up today in the adafruit shop!

 Adafruit invests time and resources providing this open source code,
 please support Adafruit and open-source hardware by purchasing
 products from Adafruit!

 MIT license, check LICENSE for more information
 All text above, and the splash screen below must be included in
 any redistribution
*********************************************************************/

#include <Arduino.h>
#include <SPI.h>
#include <Adafruit_GFX.h>    // Core graphics library
#include "Adafruit_EPD.h"
#include "Adafruit_BLE.h"
#include "Adafruit_BluefruitLE_SPI.h"
#include "Adafruit_BluefruitLE_UART.h"

#include "BluefruitConfig.h"

#define EPD_CS      9
#define EPD_DC      10
#define SRAM_CS     6
#define EPD_RESET   5 // can set to -1 and share with microcontroller Reset!
#define EPD_BUSY    -1 // can set to -1 to not use a pin (will wait a fixed delay)


#if SOFTWARE_SERIAL_AVAILABLE
  #include <SoftwareSerial.h>
#endif

/* Uncomment the following line if you are using 2.9" EPD */
Adafruit_IL0373 display(296, 128, EPD_DC, EPD_RESET, EPD_CS, SRAM_CS, EPD_BUSY);
#define FLEXIBLE_290


/*=========================================================================
    APPLICATION SETTINGS

    FACTORYRESET_ENABLE       Perform a factory reset when running this sketch

                              Enabling this will put your Bluefruit LE module
                              in a 'known good' state and clear any config
                              data set in previous sketches or projects, so
                              running this at least once is a good idea.

                              When deploying your project, however, you will
                              want to disable factory reset by setting this
                              value to 0.  If you are making changes to your
                              Bluefruit LE device via AT commands, and those
                              changes aren't persisting across resets, this
                              is the reason why.  Factory reset will erase
                              the non-volatile memory where config data is
                              stored, setting it back to factory default
                              values.

                              Some sketches that require you to bond to a
                              central device (HID mouse, keyboard, etc.)
                              won't work at all with this feature enabled
                              since the factory reset will clear all of the
                              bonding data stored on the chip, meaning the
                              central device won't be able to reconnect.
    MINIMUM_FIRMWARE_VERSION  Minimum firmware version to have some new features
    MODE_LED_BEHAVIOUR        LED activity, valid options are
                              "DISABLE" or "MODE" or "BLEUART" or
                              "HWUART"  or "SPI"  or "MANUAL"
    -----------------------------------------------------------------------*/
    #define FACTORYRESET_ENABLE         1
    #define MINIMUM_FIRMWARE_VERSION    "0.6.6"
    #define MODE_LED_BEHAVIOUR          "MODE"
/*=========================================================================*/

// Create the bluefruit object, either software serial...uncomment these lines
/*
SoftwareSerial bluefruitSS = SoftwareSerial(BLUEFRUIT_SWUART_TXD_PIN, BLUEFRUIT_SWUART_RXD_PIN);

Adafruit_BluefruitLE_UART ble(bluefruitSS, BLUEFRUIT_UART_MODE_PIN,
                      BLUEFRUIT_UART_CTS_PIN, BLUEFRUIT_UART_RTS_PIN);
*/

/* ...or hardware serial, which does not need the RTS/CTS pins. Uncomment this line */
// Adafruit_BluefruitLE_UART ble(Serial1, BLUEFRUIT_UART_MODE_PIN);

/* ...hardware SPI, using SCK/MOSI/MISO hardware SPI pins and then user selected CS/IRQ/RST */
Adafruit_BluefruitLE_SPI ble(BLUEFRUIT_SPI_CS, BLUEFRUIT_SPI_IRQ, BLUEFRUIT_SPI_RST);

/* ...software SPI, using SCK/MOSI/MISO user-defined SPI pins and then user selected CS/IRQ/RST */
//Adafruit_BluefruitLE_SPI ble(BLUEFRUIT_SPI_SCK, BLUEFRUIT_SPI_MISO,
//                             BLUEFRUIT_SPI_MOSI, BLUEFRUIT_SPI_CS,
//                             BLUEFRUIT_SPI_IRQ, BLUEFRUIT_SPI_RST);


// A small helper
void error(const __FlashStringHelper*err) {
  Serial.println(err);
  while (1);
}

/**************************************************************************/
/*!
    @brief  Sets up the HW an the BLE module (this function is called
            automatically on startup)
*/
/**************************************************************************/
void setup(void)
{
  while (!Serial);  // required for Flora & Micro
  delay(500);

  Serial.begin(115200);
  Serial.println(F("Adafruit Bluefruit Command Mode Example"));
  Serial.println(F("---------------------------------------"));

  display.begin();
#if defined(FLEXIBLE_213) || defined(FLEXIBLE_290)
  // The flexible displays have different buffers and invert settings!
  display.setBlackBuffer(1, false);
  display.setColorBuffer(1, false);
#endif

  display.clearBuffer();
  display.setTextWrap(true);
  display.setCursor(5, 5);
  display.fillScreen(EPD_WHITE);
  display.setTextColor(EPD_BLACK);
  display.setTextSize(2);
  display.println("Please connect \n MaskDisplay using \n Bluetooth and the \n Bluefruit Connect App \n on your phone.");
  display.display();

  /* Initialise the module */
  Serial.print(F("Initializing the Bluefruit LE module: "));

  if ( !ble.begin(VERBOSE_MODE) )
  {
    error(F("Couldn't find Bluefruit, make sure it's in CoMmanD mode & check wiring?"));
  }
  Serial.println( F("OK!") );

  if ( FACTORYRESET_ENABLE )
  {
    /* Perform a factory reset to make sure everything is in a known state */
    Serial.println(F("Performing a factory reset: "));
    if ( ! ble.factoryReset() ){
      error(F("Couldn't factory reset"));
    }
  }

  /* Disable command echo from Bluefruit */
  ble.echo(false);

  Serial.println("Requesting Bluefruit info:");
  /* Print Bluefruit information */
  ble.info();

  Serial.println(F("Please use Adafruit Bluefruit LE app to connect in UART mode"));
  Serial.println(F("Then Enter characters to send to Bluefruit"));
  Serial.println();

  ble.verbose(false);  // debug info is a little annoying after this point!

  /* Wait for connection */
  while (! ble.isConnected()) {
      delay(500);
  }

  // LED Activity command is only supported from 0.6.6
  if ( ble.isVersionAtLeast(MINIMUM_FIRMWARE_VERSION) )
  {
    // Change Mode LED Activity
    Serial.println(F("******************************"));
    Serial.println(F("Change LED activity to " MODE_LED_BEHAVIOUR));
    ble.sendCommandCheckOK("AT+HWModeLED=" MODE_LED_BEHAVIOUR);
    Serial.println(F("******************************"));
  }


  Serial.println("Delaying 10 sec");
  delay(10000);
  Serial.println("Finished delay 10 sec");


}

/**************************************************************************/
/*!
    @brief  Constantly poll for new command or response data
*/
/**************************************************************************/
void loop(void)
{
  // Check for user input
  char inputs[BUFSIZE+1];
  char output[BUFSIZE+1];

  if ( getUserInput(inputs, BUFSIZE) )
  {
    // Send characters to Bluefruit
    Serial.print("[Send] ");
    Serial.println(inputs);

    ble.print("AT+BLEUARTTX=");
    ble.println(inputs);

    // check response stastus
    if (! ble.waitForOK() ) {
      Serial.println(F("Failed to send?"));
    }
  }


  // Check for incoming characters from Bluefruit
  ble.println("AT+BLEUARTRX");
  ble.readline();
  if (strcmp(ble.buffer, "OK") == 0) {
    // no data
    return;
  }
  // Some data was found, its in the buffer
  Serial.print(F("[Recv] "));
  String thisString = ble.buffer;
  Serial.println(thisString);

  display.clearBuffer();
  display.setCursor(5, display.height()/4);
  display.fillScreen(EPD_WHITE);
  display.setTextColor(EPD_BLACK);
  if (thisString.length() < 16) {
     display.setTextSize(4);
  } else {
    display.setTextSize(2);
  }
  display.println(thisString);
  display.display();


  // Serial.println(ble.buffer);

  Serial.println("Delaying 10 sec");
  delay(10000);
  Serial.println("Finished delay 10 sec");

  ble.waitForOK();

}

/**************************************************************************/
/*!
    @brief  Checks for user input (via the Serial Monitor)
*/
/**************************************************************************/
bool getUserInput(char buffer[], uint8_t maxSize)
{
  // timeout in 100 milliseconds
  TimeoutTimer timeout(100);

  memset(buffer, 0, maxSize);
  while( (!Serial.available()) && !timeout.expired() ) { delay(1); }

  if ( timeout.expired() ) return false;

  delay(2);
  uint8_t count=0;
  do
  {
    count += Serial.readBytes(buffer+count, maxSize);
    delay(2);
  } while( (count < maxSize) && (Serial.available()) );

  return true;
}
	/*********************************************************************
	maskdisplay.ino
	Arduino code adapted from adafruit examples to display text to e-ink via bluetooth.
	- Josh Bloom (2020)

	This is an example for our nRF51822 based Bluefruit LE modules

	Pick one up today in the adafruit shop!

	Adafruit invests time and resources providing this open source code,
	please support Adafruit and open-source hardware by purchasing
	products from Adafruit!

	MIT license, check LICENSE for more information
	All text above, and the splash screen below must be included in
	any redistribution
	*********************************************************************/

	#include <Arduino.h>
	#include <SPI.h>
	#include <Adafruit_GFX.h> // Core graphics library
	#include "Adafruit_EPD.h"
	#include "Adafruit_BLE.h"
	#include "Adafruit_BluefruitLE_SPI.h"
	#include "Adafruit_BluefruitLE_UART.h"

	#include "BluefruitConfig.h"

	#define EPD_CS 9
	#define EPD_DC 10
	#define SRAM_CS 6
	#define EPD_RESET 5 // can set to -1 and share with microcontroller Reset!
	#define EPD_BUSY -1 // can set to -1 to not use a pin (will wait a fixed delay)


	#if SOFTWARE_SERIAL_AVAILABLE
	#include <SoftwareSerial.h>
	#endif

	/* Uncomment the following line if you are using 2.9" EPD */
	Adafruit_IL0373 display(296, 128, EPD_DC, EPD_RESET, EPD_CS, SRAM_CS, EPD_BUSY);
	#define FLEXIBLE_290


	/*=========================================================================
	APPLICATION SETTINGS

	FACTORYRESET_ENABLE Perform a factory reset when running this sketch

	Enabling this will put your Bluefruit LE module
	in a 'known good' state and clear any config
	data set in previous sketches or projects, so
	running this at least once is a good idea.

	When deploying your project, however, you will
	want to disable factory reset by setting this
	value to 0. If you are making changes to your
	Bluefruit LE device via AT commands, and those
	changes aren't persisting across resets, this
	is the reason why. Factory reset will erase
	the non-volatile memory where config data is
	stored, setting it back to factory default
	values.

	Some sketches that require you to bond to a
	central device (HID mouse, keyboard, etc.)
	won't work at all with this feature enabled
	since the factory reset will clear all of the
	bonding data stored on the chip, meaning the
	central device won't be able to reconnect.
	MINIMUM_FIRMWARE_VERSION Minimum firmware version to have some new features
	MODE_LED_BEHAVIOUR LED activity, valid options are
	"DISABLE" or "MODE" or "BLEUART" or
	"HWUART" or "SPI" or "MANUAL"
	-----------------------------------------------------------------------*/
	#define FACTORYRESET_ENABLE 1
	#define MINIMUM_FIRMWARE_VERSION "0.6.6"
	#define MODE_LED_BEHAVIOUR "MODE"
	/=========================================================================/

	// Create the bluefruit object, either software serial...uncomment these lines
	/*
	SoftwareSerial bluefruitSS = SoftwareSerial(BLUEFRUIT_SWUART_TXD_PIN, BLUEFRUIT_SWUART_RXD_PIN);

	Adafruit_BluefruitLE_UART ble(bluefruitSS, BLUEFRUIT_UART_MODE_PIN,
	BLUEFRUIT_UART_CTS_PIN, BLUEFRUIT_UART_RTS_PIN);
	*/

	/* ...or hardware serial, which does not need the RTS/CTS pins. Uncomment this line */
	// Adafruit_BluefruitLE_UART ble(Serial1, BLUEFRUIT_UART_MODE_PIN);

	/* ...hardware SPI, using SCK/MOSI/MISO hardware SPI pins and then user selected CS/IRQ/RST */
	Adafruit_BluefruitLE_SPI ble(BLUEFRUIT_SPI_CS, BLUEFRUIT_SPI_IRQ, BLUEFRUIT_SPI_RST);

	/* ...software SPI, using SCK/MOSI/MISO user-defined SPI pins and then user selected CS/IRQ/RST */
	//Adafruit_BluefruitLE_SPI ble(BLUEFRUIT_SPI_SCK, BLUEFRUIT_SPI_MISO,
	// BLUEFRUIT_SPI_MOSI, BLUEFRUIT_SPI_CS,
	// BLUEFRUIT_SPI_IRQ, BLUEFRUIT_SPI_RST);


	// A small helper
	void error(const __FlashStringHelper*err) {
	Serial.println(err);
	while (1);
	}

	/**************************************************************************/
	/*!
	@brief Sets up the HW an the BLE module (this function is called
	automatically on startup)
	*/
	/**************************************************************************/
	void setup(void)
	{
	while (!Serial); // required for Flora & Micro
	delay(500);

	Serial.begin(115200);
	Serial.println(F("Adafruit Bluefruit Command Mode Example"));
	Serial.println(F("---------------------------------------"));

	display.begin();
	#if defined(FLEXIBLE_213) \|\| defined(FLEXIBLE_290)
	// The flexible displays have different buffers and invert settings!
	display.setBlackBuffer(1, false);
	display.setColorBuffer(1, false);
	#endif

	display.clearBuffer();
	display.setTextWrap(true);
	display.setCursor(5, 5);
	display.fillScreen(EPD_WHITE);
	display.setTextColor(EPD_BLACK);
	display.setTextSize(2);
	display.println("Please connect \n MaskDisplay using \n Bluetooth and the \n Bluefruit Connect App \n on your phone.");
	display.display();

	/* Initialise the module */
	Serial.print(F("Initializing the Bluefruit LE module: "));

	if ( !ble.begin(VERBOSE_MODE) )
	{
	error(F("Couldn't find Bluefruit, make sure it's in CoMmanD mode & check wiring?"));
	}
	Serial.println( F("OK!") );

	if ( FACTORYRESET_ENABLE )
	{
	/* Perform a factory reset to make sure everything is in a known state */
	Serial.println(F("Performing a factory reset: "));
	if ( ! ble.factoryReset() ){
	error(F("Couldn't factory reset"));
	}
	}

	/* Disable command echo from Bluefruit */
	ble.echo(false);

	Serial.println("Requesting Bluefruit info:");
	/* Print Bluefruit information */
	ble.info();

	Serial.println(F("Please use Adafruit Bluefruit LE app to connect in UART mode"));
	Serial.println(F("Then Enter characters to send to Bluefruit"));
	Serial.println();

	ble.verbose(false); // debug info is a little annoying after this point!

	/* Wait for connection */
	while (! ble.isConnected()) {
	delay(500);
	}

	// LED Activity command is only supported from 0.6.6
	if ( ble.isVersionAtLeast(MINIMUM_FIRMWARE_VERSION) )
	{
	// Change Mode LED Activity
	Serial.println(F("******************************"));
	Serial.println(F("Change LED activity to " MODE_LED_BEHAVIOUR));
	ble.sendCommandCheckOK("AT+HWModeLED=" MODE_LED_BEHAVIOUR);
	Serial.println(F("******************************"));
	}


	Serial.println("Delaying 10 sec");
	delay(10000);
	Serial.println("Finished delay 10 sec");


	}

	/**************************************************************************/
	/*!
	@brief Constantly poll for new command or response data
	*/
	/**************************************************************************/
	void loop(void)
	{
	// Check for user input
	char inputs[BUFSIZE+1];
	char output[BUFSIZE+1];

	if ( getUserInput(inputs, BUFSIZE) )
	{
	// Send characters to Bluefruit
	Serial.print("[Send] ");
	Serial.println(inputs);

	ble.print("AT+BLEUARTTX=");
	ble.println(inputs);

	// check response stastus
	if (! ble.waitForOK() ) {
	Serial.println(F("Failed to send?"));
	}
	}


	// Check for incoming characters from Bluefruit
	ble.println("AT+BLEUARTRX");
	ble.readline();
	if (strcmp(ble.buffer, "OK") == 0) {
	// no data
	return;
	}
	// Some data was found, its in the buffer
	Serial.print(F("[Recv] "));
	String thisString = ble.buffer;
	Serial.println(thisString);

	display.clearBuffer();
	display.setCursor(5, display.height()/4);
	display.fillScreen(EPD_WHITE);
	display.setTextColor(EPD_BLACK);
	if (thisString.length() < 16) {
	display.setTextSize(4);
	} else {
	display.setTextSize(2);
	}
	display.println(thisString);
	display.display();


	// Serial.println(ble.buffer);

	Serial.println("Delaying 10 sec");
	delay(10000);
	Serial.println("Finished delay 10 sec");

	ble.waitForOK();

	}

	/**************************************************************************/
	/*!
	@brief Checks for user input (via the Serial Monitor)
	*/
	/**************************************************************************/
	bool getUserInput(char buffer[], uint8_t maxSize)
	{
	// timeout in 100 milliseconds
	TimeoutTimer timeout(100);

	memset(buffer, 0, maxSize);
	while( (!Serial.available()) && !timeout.expired() ) { delay(1); }

	if ( timeout.expired() ) return false;

	delay(2);
	uint8_t count=0;
	do
	{
	count += Serial.readBytes(buffer+count, maxSize);
	delay(2);
	} while( (count < maxSize) && (Serial.available()) );

	return true;
	}