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Added 01_m1284p_bb00_minimum project

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maxxir_w
2019-01-18 11:23:07 +04:00
parent a187cce1df
commit 65f4288d40
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/*
* main.c
*
* Created on: 22 нояб. 2018 г.
* Author: maxx
*/
#include <avr/io.h>
#include <util/delay.h>
#include <avr/interrupt.h>
#include <avr/pgmspace.h>
#include <compat/deprecated.h> //sbi, cbi etc..
#include "avr/wdt.h" // WatchDog
#include <stdio.h> // printf etc..
#include "uart_extd.h"
//#include <stdlib.h> // itoa etc..
#define PRINTF_EN 1
#if PRINTF_EN
#define PRINTF(FORMAT,args...) printf_P(PSTR(FORMAT),##args)
#else
#define PRINTF(...)
#endif
/*
* m1284p minimum template, with one button & one led
*/
//M644P/M1284p Users LEDS:
//LED1/PORTC.4- m644p/m1284p maxxir
#define led1_conf() DDRC |= (1<<DDC4)
#define led1_high() PORTC |= (1<<PORTC4)
#define led1_low() PORTC &= ~(1<<PORTC4)
#define led1_tgl() PORTC ^= (1<<PORTC4)
#define led1_read() (PORTC & (1<<PORTC4))
#define sw1_conf() {DDRC &= ~(1<<DDC5); PORTC |= (1<<PORTC5);}
#define sw1_read() (PINC & (1<<PINC5))
//*********Global vars
#define TICK_PER_SEC 1000UL
volatile unsigned long _millis; // for millis tick !! Overflow every ~49.7 days
//*********Program metrics
const char compile_date[] PROGMEM = __DATE__; // Mmm dd yyyy - Дата компиляции
const char compile_time[] PROGMEM = __TIME__; // hh:mm:ss - Время компиляции
const char str_prog_name[] PROGMEM = "\r\nAtMega1284p v1.2 Base Template 22/11/2018\r\n"; // Program name
#if defined(__AVR_ATmega128__)
const char PROGMEM str_mcu[] = "ATmega128"; //CPU is m128
#elif defined (__AVR_ATmega2560__)
const char PROGMEM str_mcu[] = "ATmega2560"; //CPU is m2560
#elif defined (__AVR_ATmega2561__)
const char PROGMEM str_mcu[] = "ATmega2561"; //CPU is m2561
#elif defined (__AVR_ATmega328P__)
const char PROGMEM str_mcu[] = "ATmega328P"; //CPU is m328p
#elif defined (__AVR_ATmega32U4__)
const char PROGMEM str_mcu[] = "ATmega32u4"; //CPU is m32u4
#elif defined (__AVR_ATmega644P__)
const char PROGMEM str_mcu[] = "ATmega644p"; //CPU is m644p
#elif defined (__AVR_ATmega1284P__)
const char PROGMEM str_mcu[] = "ATmega1284p"; //CPU is m1284p
#else
const char PROGMEM str_mcu[] = "Unknown CPU"; //CPU is unknown
#endif
//FUNC headers
static void avr_init(void);
void timer0_init(void);
static inline unsigned long millis(void);
// RAM Memory usage test
static int freeRam (void)
{
extern int __heap_start, *__brkval;
int v;
int _res = (int) &v - (__brkval == 0 ? (int) &__heap_start : (int) __brkval);
return _res;
}
//******************* MILLIS ENGINE: BEGIN
//ISR (TIMER0_COMP_vect )
ISR (TIMER0_COMPA_vect)
{
// Compare match Timer0
// Here every 1ms
_millis++; // INC millis tick
// Тест мигаем при в ходе в прерывание
// 500Hz FREQ OUT
// LED_TGL;
}
static inline unsigned long millis(void)
{
unsigned long i;
cli();
// Atomic tick reading
i = _millis;
sei();
return i;
}
//******************* MILLIS ENGINE: END
//***************** UART0: BEGIN
// Assign I/O stream to UART
/* define CPU frequency in Mhz here if not defined in Makefile */
//#ifndef F_CPU
//#define F_CPU 16000000UL
//#endif
/* 19200 baud */
#define UART_BAUD_RATE 19200
//#define UART_BAUD_RATE 38400
static int uart0_putchar(char ch,FILE *stream);
static void uart0_rx_flash(void);
static FILE uart0_stdout = FDEV_SETUP_STREAM(uart0_putchar, NULL, _FDEV_SETUP_WRITE);
//PS. stdin не переназначаю, т.к. удобнее с ним работать через uart.h - api:
/*
* Т.е. например так
c = uart1_getc();
if (( c & UART_NO_DATA ) == 0)
{
uart1_putc( (unsigned char)c );
}
При этом чекаем что буфер приема не пуст и опрос идет неблокирующий (+ работаем через UART RX RINGBUFFER),
а если работаем в стиле stdin->getchar() там опрос блокируется пока символ не будет принят (поллинг)
через UART1_RX, т.е. неудобно.
*/
// STDOUT UART0 TX handler
static int uart0_putchar(char ch,FILE *stream)
{
uart_putc(ch);
return 0;
}
// Очищаем буфер приема UART1 RX (иногда нужно)
static void uart0_rx_flash(void)
{
// Считываем все из ring-buffer UART1 RX
unsigned int c;
do
{
c = uart_getc();
} while (( c & UART_NO_DATA ) == 0); // Check RX1 none-empty
}
//***************** UART0: END
//***************** ADC: BEGIN
#ifndef ADC_DIV
//12.5MHz or over use this ADC reference clock
#define ADC_DIV (1<<ADPS2)|(1<<ADPS1)|(1<<ADPS0) //:128 ADC Prescaler
#endif
#ifndef ADC_REF
// vcc voltage ref default
#define ADC_REF (1<<REFS0)
#endif
void adc_init(void)
{
ADCSRA = 0;
ADCSRA |= (ADC_DIV); // ADC reference clock
ADMUX |= (ADC_REF); // Voltage reference
ADCSRA |= (1<<ADEN); // Turn on ADC
ADCSRA |= (1<<ADSC); // Do an initial conversion because this one is the
// slowest and to ensure that everything is up
// and running
}
uint16_t adc_read(uint8_t channel)
{
ADMUX &= 0b11100000; //Clear the older channel that was read
ADMUX |= channel; //Defines the new ADC channel to be read
ADCSRA |= (1<<ADSC); //Starts a new conversion
while(ADCSRA & (1<<ADSC)); //Wait until the conversion is done
return ADCW; //Returns the ADC value of the chosen channel
}
//***************** ADC: END
int main()
{
uint8_t prev_sw1 = 1; // VAR for sw1 pressing detect
// INIT MCU
avr_init();
// Print program metrics
PRINTF("%S", str_prog_name);// Название программы
PRINTF("Compiled at: %S %S\r\n", compile_time, compile_date);// Время Дата компиляции
PRINTF(">> MCU is: %S; CLK is: %luHz\r\n", str_mcu, F_CPU);// MCU Name && FREQ
PRINTF(">> Free RAM is: %d bytes\r\n", freeRam());
//Short Blink LED 3 times on startup
unsigned char i = 3;
while(i--)
{
led1_high();
_delay_ms(100);
led1_low();
_delay_ms(400);
wdt_reset();
}
unsigned long prev_millis = 0;
unsigned long rx_millis = 0;
unsigned long uptime = 0;
uint16_t CharIn;
while(1)
{
//Here at least every 1sec
wdt_reset(); // WDT reset at least every sec
if((millis()-prev_millis)>TICK_PER_SEC)
{
//Here every 1sec
wdt_reset(); // WDT reset at least every sec
prev_millis = millis();
led1_tgl();
PRINTF("Uptime %lu sec\r\n", uptime++);
//PRINTF("ADC5: %d\r\n", adc_read(5));
//!! SW1 pressing action
if(!sw1_read())// Check for SW1 pressed every second
{
// SW1 is pressed
//led1_high(); //LED1 ON
if(prev_sw1)
{
//!! Здесь по факту нажатия кнопки (1->0 SW1)
//!! Debug only
PRINTF("SW1 is pressed\r\nADC0/PA0 is: %u\r\n", adc_read(0));
//PRINTF("SW1 is pressed\r\n");
}//if(prev_sw1)
prev_sw1 = 0; // Store SW1 state for next iteration
}//if(!sw1_read())
else
{
// SW1 is unpressed
//led1_low(); // LED1 OFF
prev_sw1 = 1;// Store SW1 state for next iteration
}//if(!sw1_read())else..
}//if((millis()-prev_millis)>TICK_PER_SEC)
if((millis()-rx_millis)>0)
{
// Here every 1 msec, to check UART RX
rx_millis = millis();
// GET UART RX Symbol
CharIn = uart_getc();
// Check if char exist
// Read until data in RX buffer present
while (( CharIn & UART_NO_DATA ) == 0)
{
wdt_reset(); // WDT reset at least every sec
//!! Debug only
//Read data from UART0 RX ring buffer & send back echo
uart_putc(CharIn+1);
// GET UART RX Symbol
CharIn = uart_getc();
}
}//if((millis()-rx_millis)>0)
}
return 0;
}
// Timer0
// 1ms IRQ
// Used for millis() timing
void timer0_init(void)
{
/*
*
* For M128
TCCR0 = (1<<CS02)|(1<<WGM01); //TIMER0 SET-UP: CTC MODE & PS 1:64
OCR0 = 249; // 1ms reach for clear (16mz:64=>250kHz:250-=>1kHz)
TIMSK |= 1<<OCIE0; //IRQ on TIMER0 output compare
*/
//For M664p
TCCR0A = (1<<WGM01); //TIMER0 SET-UP: CTC MODE
TCCR0B = (1<<CS01)|(1<<CS00); // PS 1:64
OCR0A = 249; // 1ms reach for clear (16mz:64=>250kHz:250-=>1kHz)
TIMSK0 |= 1<<OCIE0A; //IRQ on TIMER0 output compareA
}
static void avr_init(void)
{
// Initialize device here.
// WatchDog INIT
wdt_enable(WDTO_2S); // set up wdt reset interval 2 second
wdt_reset(); // wdt reset ~ every <2000ms
timer0_init();// Timer0 millis engine init
// Initial UART Peripheral
/*
* Initialize uart11 library, pass baudrate and AVR cpu clock
* with the macro
* uart1_BAUD_SELECT() (normal speed mode )
* or
* uart1_BAUD_SELECT_DOUBLE_SPEED() ( double speed mode)
*/
// Define Output/Input Stream
#if (UART_BAUD_RATE == 115200)
uart_init( UART_BAUD_SELECT_DOUBLE_SPEED(UART_BAUD_RATE,F_CPU) ); // To works without error on 115200 bps/F_CPU=16Mhz
#else
uart_init( UART_BAUD_SELECT(UART_BAUD_RATE,F_CPU) );
#endif
stdout = &uart0_stdout;
//ADC init
adc_init();
adc_read(0); //Dummy read
led1_conf();
led1_low();// LED1 is OFF
sw1_conf();//SW1 internal pull-up
sei(); //re-enable global interrupts
return;
}