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fbabccd804771065381c51fcb2418c0a020f2b1b
suit-leds-arduino/neopixel-keiran.ino
Keiran fbabccd804 CRC checks and commands
2019-03-16 18:59:36 -04:00

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6.2 KiB
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#include <string.h>
#include <Arduino.h>
#include <SPI.h>
#include <Adafruit_NeoPixel.h>
#include "Adafruit_BLE.h"
#include "Adafruit_BluefruitLE_SPI.h"
#include "Adafruit_BluefruitLE_UART.h"
#if SOFTWARE_SERIAL_AVAILABLE
#include <SoftwareSerial.h>
#endif
#include "BluefruitConfig.h"
#define REQUIRE_SERIAL true
#define BT_SCAN_MS 200
#define MIN_FIRMWARE "0.7.0"
#define FACTORYRESET true
#define DIM_FACTOR 80
Adafruit_BluefruitLE_SPI ble(BLUEFRUIT_SPI_CS, BLUEFRUIT_SPI_IRQ, BLUEFRUIT_SPI_RST);
void bluetooth_setup(){
if ( !ble.begin(VERBOSE_MODE) ) {
Serial.println(F("Couldn't find Bluefruit, make sure it's in CoMmanD mode & check wiring?"));
while(1); // halt
}
if ( FACTORYRESET ) {
if ( ! ble.factoryReset() ){
Serial.println(F("Couldn't factory reset"));
while(1); // halt
}
}
if ( !ble.isVersionAtLeast(MIN_FIRMWARE) ){
Serial.print(F("Callback requires at least"));
Serial.println(F(MIN_FIRMWARE));
while(1); // halt
}
pinMode(BLUEFRUIT_SPI_IRQ, INPUT_PULLUP);
//ble.echo(false); // disable command echo
//ble.verbose(false); // disable debug info
ble.sendCommandCheckOK(F("AT+GAPDEVNAME=Suit LEDs")); // Change name displayed in bluetooth scans
ble.sendCommandCheckOK(F("AT+HWMODELED=2")); // Show TX/RX activity on LED
//ble.info();
ble.setConnectCallback(on_connect);
ble.setDisconnectCallback(on_disconnect);
ble.setBleUartRxCallback(BleUartRX);
ble.setMode(BLUEFRUIT_MODE_DATA);
}
void on_connect(void){
// Status light will go solid blue because of AT+HWMODELED=2
Serial.println(F("Bluetooth Connected"));
}
void on_disconnect(void){
// Blue status light will shut off because of AT+HWMODELED=2
Serial.println(F("Bluetooth Disconnected"));
}
void BleUartRX(char payload[], uint16_t payload_len){
// Red status light should flicker because of AT+HWMODELED=2
if (payload_len < 3){
Serial.print("packet length ");
Serial.print(payload_len);
Serial.println(" is too short");
return;
}
// first byte is the command
uint8_t cmd_byte = payload[0];
// last byte is the CRC
uint8_t crc_byte = payload[payload_len-1];
// all other bytes are the data for that command
uint16_t data_len = payload_len-2;
uint8_t data[data_len];
uint16_t payload_index;
uint16_t data_index;
for (payload_index=1, data_index=0; payload_index<payload_len-1; payload_index++, data_index++){
data[data_index] = payload[payload_index];
}
// Print parts
Serial.print(F("[RX] cmd=" ));
Serial.print((char)cmd_byte);
Serial.print(F(" crc="));
Serial.print(crc_byte);
Serial.print(F(" data="));
Serial.write(data, data_len);
Serial.println();
// check CRC
uint8_t crc = 0;
for (uint16_t i=0; i<payload_len-1; i++){
crc += payload[i];
}
crc = ~crc;
if (crc_byte != crc){
Serial.print("CRC mismatch; expected ");
Serial.println(crc);
return;
}
// run whichever command was requested
if (cmd_byte == 's'){
setWait(data, data_len);
} else if (cmd_byte == 'p') {
setPattern(data, data_len);
} else {
Serial.println(F("Unrecognized cmd"));
}
}
uint32_t pack_color(uint8_t r, uint8_t g, uint8_t b) {
return ((uint32_t)r << 16) | ((uint32_t)g << 8) | b;
}
uint32_t pack_color(uint8_t r, uint8_t g, uint8_t b, uint8_t w) {
return ((uint32_t)w << 24) | ((uint32_t)r << 16) | ((uint32_t)g << 8) | b;
}
class Strip {
private:
uint8_t pin;
uint8_t num_pixels;
unsigned long last;
uint8_t offset;
Adafruit_NeoPixel pixel;
public:
uint16_t wait;
char pattern;
Strip(uint8_t led_pin, uint8_t strip_len) {
pattern = 'r';
pin = led_pin;
num_pixels = strip_len;
wait = 0;
last = millis();
offset = 0;
pixel = Adafruit_NeoPixel(num_pixels, pin, NEO_GRBW + NEO_KHZ800);
}
void off(void){
Serial.println(F("off()"));
pixel.begin();
for(uint8_t i=0; i<num_pixels; i++){
pixel.setPixelColor(i, pack_color(0,0,0));
}
pixel.show();
}
private:
void rainbow(void){
uint8_t r = 255;
uint8_t g = 0;
uint8_t b = 0;
pixel.begin();
for (uint8_t index=0; index<num_pixels; index++){
uint8_t loc;
if (offset + index > num_pixels - 1){
loc = index + offset - num_pixels;
} else {
loc = offset + index;
}
pixel.setPixelColor(
loc,
pack_color(r/DIM_FACTOR, g/DIM_FACTOR, b/DIM_FACTOR)
);
if (index < 24){ // red -> yellow shifting
g += 10;
} else if (index < 48){ // yellow -> green shifting
if (index == 24){
g = 255;
}
r -= 10;
} else if (index < 72){ // green -> cyan shifting
if (index == 48){
r = 0;
}
b += 10;
} else if (index < 96){ // cyan -> blue shifting
if (index == 72){
b = 255;
}
g -= 10;
} else if (index < 120){ // blue -> magenta shifting
if (index == 96){
g = 0;
}
r += 10;
} else { // magenta -> red shifting
if (index == 120){
r = 255;
}
b -= 10;
}
}
pixel.show();
}
public:
void update(void){
unsigned long now = millis();
if (now - wait > last){
last = now;
rainbow();
offset += 1;
if (offset == num_pixels){
offset = 0;
}
}
}
};
volatile Strip strip = Strip(6, 144);
void setWait(char data[], uint16_t len){
String wait = "";
for (uint16_t index=0; index<len; index++){
wait += (char)data[index];
}
uint16_t wait_int = wait.toInt();
if (wait_int > -1 && wait_int < 10000){
strip.wait = wait_int;
Serial.println(F("strip.wait set to "));
Serial.print(wait_int);
} else {
Serial.println(F("Speed is out of the allowed range"));
}
}
void setPattern(char data[], uint16_t len){
if (len != 1){
Serial.println(F("Invalid pattern"));
} else if (data[0] == 'r'){
Serial.println(F("pattern set to rainbow"));
strip.pattern = 'r';
} else {
Serial.println(F("Invalid pattern"));
}
}
void setup(void) {
strip.off();
if (REQUIRE_SERIAL){
while (!Serial);
Serial.begin(115200);
}
bluetooth_setup();
Serial.println(F("Ready"));
}
void loop(void) {
ble.update(BT_SCAN_MS);
strip.update();
}
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