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doorlockd-mirror/avr-code/main.c
Ralf Ramsauer 9f3062340c doorlockd, avr: Don't respond on commands 
No need to read back the AVR.

Signed-off-by: Ralf Ramsauer <ralf@binary-kitchen.de>
2018-09-07 22:02:41 +02:00

228 lines
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/*
* doorlock-avr, AVR code of Binary Kitchen's doorlock
*
* Copyright (c) Binary Kitchen, 2018
*
* Authors:
* Ralf Ramsauer <ralf@binary-kitchen.de>
*
* This work is licensed under the terms of the GNU GPL, version 2. See
* the COPYING file in the top-level directory.
*/
#include "uart.h"
#include <ctype.h>
#include <stdbool.h>
#include <avr/io.h>
#include <avr/interrupt.h>
#include <util/delay.h>
#define RED 0x1
#define GREEN 0x2
#define YELLOW 0x4
#define SET_CONDITIONAL(predicate, port, pin) \
if ((predicate)) \
port |= (1 << pin); \
else \
port &= ~(1 << pin);
/* can either be red, green, or yellow */
static unsigned char state = RED;
enum state_source {
BUTTON,
COMM,
TIMEOUT,
EMERGENCY,
};
static inline void set_schnapper(bool state)
{
SET_CONDITIONAL(state, PORTB, PB0);
}
static inline void set_bolzen(bool state)
{
SET_CONDITIONAL(state, PORTB, PB1);
}
static inline void reset_timeout(void)
{
TCNT1 = 0;
}
static void set_leds(void)
{
static unsigned int counter = 0;
bool pwm_cycle = ++counter % 20;
if (pwm_cycle) {
PORTD &= ~((1 << PD5) | (1 << PD6));
PORTB &= ~(1 << PB4);
}
switch (state) {
case RED:
PORTD |= (1 << PD5);
break;
case YELLOW:
PORTD |= (1 << PD6);
break;
case GREEN:
PORTB |= (1 << PB4);
break;
}
if (pwm_cycle)
return;
switch (state) {
case RED:
PORTD ^= (1 << PD6);
PORTB ^= (1 << PB4);
break;
case YELLOW:
PORTD ^= (1 << PD5);
PORTB ^= (1 << PB4);
break;
case GREEN:
PORTD ^= (1 << PD5);
PORTD ^= (1 << PD6);
break;
}
}
static void update_state(unsigned char new_state, enum state_source source)
{
char ret = 0;
reset_timeout();
if (new_state == state)
return;
state = new_state;
switch (state) {
case RED:
set_bolzen(false);
set_schnapper(false);
ret = 'r';
break;
case YELLOW:
set_bolzen(true);
set_schnapper(false);
ret = 'y';
break;
case GREEN:
set_bolzen(true);
set_schnapper(true);
ret = 'g';
break;
}
switch (source) {
case BUTTON:
uart_putc(toupper(ret));
break;
case EMERGENCY:
uart_putc('E');
break;
case TIMEOUT:
uart_putc(ret);
break;
case COMM:
default:
break;
}
}
ISR(USART_RX_vect)
{
unsigned char c = UDR;
switch (c) {
case 'r':
update_state(RED, COMM);
break;
case 'y':
update_state(YELLOW, COMM);
break;
case 'g':
update_state(GREEN, COMM);
break;
}
}
ISR(TIMER1_OVF_vect)
{
reset_timeout();
update_state(RED, TIMEOUT);
}
static inline void timer_init(void)
{
TIMSK |= (1 << TOIE1);
TIFR |= (1 << TOV1);
TCCR1A = 0;
TCCR1B = (1 << CS12);
}
static inline void setup_ports(void)
{
PORTB = 0;
DDRB = (1 << PB4) | (1 << PB1) | (1 << PB0);
PORTD = 0;
DDRD = (1 << PD5) | (1 << PD6);
}
static inline bool is_emergency(void)
{
return !(PINB & (1 << PB3));
}
static inline bool is_door_open(void)
{
return !(PINB & (1 << PB2));
}
static unsigned char get_keys(void)
{
unsigned char ret = 0;
if (!(PIND & (1 << PD2))) ret |= RED;
if (!(PIND & (1 << PD3))) ret |= YELLOW;
if (!(PIND & (1 << PD4))) ret |= GREEN;
return ret;
}
int main(void)
{
unsigned char i;
setup_ports();
timer_init();
uart_init();
reset_timeout();
sei();
for (;;) {
if (is_emergency()) {
update_state(GREEN, EMERGENCY);
} else {
i = get_keys();
if (i & GREEN)
update_state(GREEN, BUTTON);
else if (i & YELLOW)
update_state(YELLOW, BUTTON);
else if (i & RED)
update_state(RED, BUTTON);
}
set_leds();
}
}
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