Rename pins to reflect their actual buttons

This commit is contained in:
Tanner Collin 2018-09-17 17:55:20 -06:00
parent fceacca2cf
commit 0da2410869

View File

@ -9,10 +9,10 @@ char wifiMACAddr[18];
const String API_ROUTE = String("http://tools-socket.protospace.ca/api/lockout/");
#define RELAY_PIN D1
#define ON_BUTTON_PIN D3
#define OFF_BUTTON_PIN D4
#define ON_LED_PIN D6
#define OFF_LED_PIN D7
#define GREEN_BUTTON_PIN D3
#define RED_BUTTON_PIN D4
#define GREEN_LED_PIN D6
#define RED_LED_PIN D7
#define RELAY_CLOSED HIGH
#define RELAY_OPEN !RELAY_CLOSED
@ -55,10 +55,10 @@ void setup()
if (LOGGING) Serial.println("[INFO] Serial started.");
pinMode(RELAY_PIN, OUTPUT);
pinMode(ON_BUTTON_PIN, INPUT_PULLUP);
pinMode(OFF_BUTTON_PIN, INPUT_PULLUP);
pinMode(ON_LED_PIN, OUTPUT);
pinMode(OFF_LED_PIN, OUTPUT);
pinMode(GREEN_BUTTON_PIN, INPUT_PULLUP);
pinMode(RED_BUTTON_PIN, INPUT_PULLUP);
pinMode(GREEN_LED_PIN, OUTPUT);
pinMode(RED_LED_PIN, OUTPUT);
}
void loop()
@ -116,47 +116,47 @@ void processLockState()
{
switch (lockState) {
case LOCK_OFF:
digitalWrite(ON_LED_PIN, LED_OFF);
digitalWrite(OFF_LED_PIN, LED_ON);
digitalWrite(GREEN_LED_PIN, LED_OFF);
digitalWrite(RED_LED_PIN, LED_ON);
digitalWrite(RELAY_PIN, RELAY_OPEN);
break;
case LOCK_ARMED:
digitalWrite(ON_LED_PIN, LED_OFF);
digitalWrite(OFF_LED_PIN, LED_ON);
digitalWrite(GREEN_LED_PIN, LED_OFF);
digitalWrite(RED_LED_PIN, LED_ON);
digitalWrite(RELAY_PIN, RELAY_OPEN);
if (digitalRead(OFF_BUTTON_PIN) == BUTTON_CLOSED) {
if (digitalRead(RED_BUTTON_PIN) == BUTTON_CLOSED) {
if (LOGGING) Serial.println("[INFO] Unarming interlock.");
lockState = LOCK_OFF_PRESSED;
} else if (digitalRead(ON_BUTTON_PIN) == BUTTON_CLOSED) {
} else if (digitalRead(GREEN_BUTTON_PIN) == BUTTON_CLOSED) {
if (LOGGING) Serial.println("[INFO] On button pressed.");
lockState = LOCK_ON_PRESSED;
}
break;
case LOCK_ON_PRESSED:
if (digitalRead(OFF_BUTTON_PIN) == BUTTON_CLOSED) {
if (digitalRead(RED_BUTTON_PIN) == BUTTON_CLOSED) {
if (LOGGING) Serial.println("[ERROR] Both buttons pressed, aborting.");
lockState = LOCK_OFF_PRESSED;
} else if (digitalRead(ON_BUTTON_PIN) == BUTTON_OPEN) {
} else if (digitalRead(GREEN_BUTTON_PIN) == BUTTON_OPEN) {
if (LOGGING) Serial.println("[INFO] Turning machine on.");
lockState = LOCK_ON;
}
break;
case LOCK_ON:
digitalWrite(ON_LED_PIN, LED_ON);
digitalWrite(OFF_LED_PIN, LED_OFF);
digitalWrite(GREEN_LED_PIN, LED_ON);
digitalWrite(RED_LED_PIN, LED_OFF);
digitalWrite(RELAY_PIN, RELAY_CLOSED);
if (digitalRead(OFF_BUTTON_PIN) == BUTTON_CLOSED) {
if (digitalRead(RED_BUTTON_PIN) == BUTTON_CLOSED) {
if (LOGGING) Serial.println("[INFO] Off button pressed.");
lockState = LOCK_OFF_PRESSED;
}
break;
case LOCK_OFF_PRESSED:
if (digitalRead(OFF_BUTTON_PIN) == BUTTON_OPEN) {
if (digitalRead(RED_BUTTON_PIN) == BUTTON_OPEN) {
if (LOGGING) Serial.println("[INFO] Turning machine off.");
lockState = LOCK_OFF;
}
@ -229,7 +229,7 @@ void processCommState()
if (LOGGING) Serial.println(payload);
String action = deserializeJson(payload);
if (action == "arm" && lockState == LOCK_OFF && digitalRead(ON_BUTTON_PIN) == BUTTON_OPEN) {
if (action == "arm" && lockState == LOCK_OFF && digitalRead(GREEN_BUTTON_PIN) == BUTTON_OPEN) {
lockState = LOCK_ARMED;
} else if (action == "disarm" && lockState == LOCK_ARMED) {
lockState = LOCK_OFF;