Wed, 16 Nov 2011 13:38:03 +0100
debugging stuff
#include <avr/interrupt.h> #include <avr/pgmspace.h> #include <util/delay.h> #include "stdint.h" #include "main.h" #include "driver/adc.h" #include "driver/rs232.h" #include "lowlevel.h" void LED(uint8_t num, uint8_t state) { switch (num) { case 1: switch (state) { case 0: LED1_PORT &= ~_BV(LED1); break; case 1: LED1_PORT |= _BV(LED1); break; case 2: LED1_PORT ^= _BV(LED1); break; } break; case 2: switch (state) { case 0: LED2_PORT &= ~_BV(LED2); break; case 1: LED2_PORT |= _BV(LED2); break; case 2: LED2_PORT ^= _BV(LED2); break; } break; case 3: switch (state) { case 0: LED3_PORT &= ~_BV(LED3); break; case 1: LED3_PORT |= _BV(LED3); break; case 2: LED3_PORT ^= _BV(LED3); break; } break; case 4: switch (state) { case 0: LED4_PORT &= ~_BV(LED4); break; case 1: LED4_PORT |= _BV(LED4); break; case 2: LED4_PORT ^= _BV(LED4); break; } break; case 5: switch (state) { case 0: LED5_PORT &= ~_BV(LED5); break; case 1: LED5_PORT |= _BV(LED5); break; case 2: LED5_PORT ^= _BV(LED5); break; } break; } } void init_hardware(void) { // reset all ports to input, no pullup DDRA = 0; PORTA = 0; DDRB = 0; PORTB = 0; DDRC = 0; PORTC = 0; DDRD = 0; PORTD = 0; RS232_init(); // initialize RS485 interface RS232_puts_p(PSTR("CARRERA beta loading\n")); initADC(); SFIOR = 0; // set LED output DDR(LED1_PORT) |= _BV(LED1); DDR(LED2_PORT) |= _BV(LED2); DDR(LED3_PORT) |= _BV(LED3); DDR(LED4_PORT) |= _BV(LED4); DDR(LED5_PORT) |= _BV(LED5); // set Controller Input Pull-UPs CONTROLLER_PORT |= (_BV(CONTROLLER1_SW) | _BV(CONTROLLER2_SW) | _BV(CONTROLLER3_SW) | _BV(CONTROLLER4_SW)); // switch pull-ups SW_FUEL_PORT |= _BV(SW_FUEL); SW_START_PORT |= _BV(SW_START); SW_PACECAR_PORT |= _BV(SW_PACECAR); // control outputs DDR(LAP_COUNTER_PORT) |= _BV(LAP_COUNTER); // setup rail control //RAIL_DETECT_PORT |= _BV(RAIL_DETECT); // enable internal pull-up DDR(RAIL_POWER_PORT) |= _BV(RAIL_POWER); // display init sequence on LEDs LED(1, 1); _delay_ms(50); LED(2, 1); _delay_ms(50); LED(3, 1); _delay_ms(50); LED(4, 1); _delay_ms(50); LED(5, 1); _delay_ms(50); LED(1, 0); _delay_ms(50); LED(2, 0); _delay_ms(50); LED(3, 0); _delay_ms(50); LED(4, 0); _delay_ms(50); LED(5, 0); _delay_ms(50); // setup response receiver timer TCCR0 = (1<<CS01); //divide by 8 // interrupt enable + tcnt0 set in timer2 // setup data bit timer TCCR2 = (1<<CS21) | (1<<WGM21); //divide by 8, set compare match OCR2 = TIMER2_50US; TIMSK |= 1<<OCIE2; //enable timer2 interrupt // setup data packet timer //TCCR1A = (1<<COM1A1); TCCR1B = (1<<CS11) | (1<<WGM12); //divide by 8, set compare match //TCCR1B = (1<<CS11) | (1<<CS10); //divide by 64 //TCNT1 = TIMER_7500NS; OCR1A = TIMER1_7500NS; TIMSK |= 1<<OCIE1A; //enable timer1 interrupt RS232_puts_p(PSTR("INIT OK\n")); } void check_rails_shortcut(void) { // check for short circuit on the rails if ((PIN(RAIL_DETECT_PORT) & _BV(RAIL_DETECT)) == 0) { _delay_ms(2); if ((PIN(RAIL_DETECT_PORT) & _BV(RAIL_DETECT)) == 0) { cli(); // disable ALL Interrupts RAIL_POWER_PORT &= ~_BV(RAIL_POWER); // disable rails power RS232_puts_p(PSTR("!!! SHORT CIRCUIT ON RAILS, POWERED OFF !!!\n")); LED(1, 1); LED(2, 1); LED(3, 0); LED(4, 0); LED(5, 0); while (1) { LED(1, 2); LED(2, 2); LED(4, 2); LED(5, 2); _delay_ms(100); LED(3, 2); _delay_ms(100); LED(3, 2); _delay_ms(100); LED(3, 2); _delay_ms(100); LED(3, 2); } } } }