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/* USART-Init beim ATmegaXX */
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#include <avr/io.h>
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#include <avr/interrupt.h>
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#include <stdlib.h>
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#include "config.h"
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#include "uart.h"
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#ifdef ATMEGA128
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#define UCSRB UCSR0B
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#define UCSRC UCSR0C
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#define UDR UDR0
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#define UBRRH UBRR0H
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#define UBRRL UBRR0L
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#define URSEL UMSEL
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#endif
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#define UART_BAUD_CALC(UART_BAUD_RATE,F_OSC) ((F_OSC)/((UART_BAUD_RATE)*16L))
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#ifdef UART_INTERRUPT
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volatile static char rxbuf[UART_RXBUFSIZE];
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volatile static char txbuf[UART_TXBUFSIZE];
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volatile static char *volatile rxhead, *volatile rxtail;
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volatile static char *volatile txhead, *volatile txtail;
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ISR(USART_UDRE_vect) {
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#ifdef UART_LEDS
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PORTC ^= 0x01;
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#endif
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if ( txhead == txtail ) {
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UCSRB &= ~(1 << UDRIE); /* disable data register empty IRQ */
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} else {
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UDR = *txtail; /* schreibt das Zeichen x auf die Schnittstelle */
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if (++txtail == (txbuf + UART_TXBUFSIZE)) txtail = txbuf;
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}
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}
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ISR(USART_RXC_vect) {
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int diff;
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#ifdef UART_LEDS
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PORTC ^= 0x02;
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#endif
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/* buffer full? */
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diff = rxhead - rxtail;
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if ( diff < 0 ) diff += UART_RXBUFSIZE;
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if (diff < UART_RXBUFSIZE -1) {
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// buffer NOT full
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*rxhead = UDR;
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if (++rxhead == (rxbuf + UART_RXBUFSIZE)) rxhead = rxbuf;
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} else {
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UDR; //reads the buffer to clear the interrupt condition
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}
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}
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#endif // UART_INTERRUPT
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void uart_init() {
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PORTD |= 0x01; //Pullup an RXD an
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UCSRA = 0;
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UCSRB |= (1<<TXEN); //UART TX einschalten
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UCSRC |= (1<<URSEL)|(3<<UCSZ0); //Asynchron 8N1
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UCSRB |= ( 1 << RXEN ); //Uart RX einschalten
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// UBRRH=(uint8_t)(UART_BAUD_CALC(UART_BAUD_RATE,F_CPU)>>8);
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// UBRRL=(uint8_t)(UART_BAUD_CALC(UART_BAUD_RATE,F_CPU));
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UBRRL = 8;
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#ifdef UART_INTERRUPT
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// init buffers
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rxhead = rxtail = rxbuf;
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txhead = txtail = txbuf;
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// activate rx IRQ
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UCSRB |= (1 << RXCIE);
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#endif // UART_INTERRUPT
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}
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#ifdef UART_INTERRUPT
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void uart_putc(char c) {
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volatile int diff;
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/* buffer full? */
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do {
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diff = txhead - txtail;
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if ( diff < 0 ) diff += UART_TXBUFSIZE;
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} while ( diff >= UART_TXBUFSIZE -1 );
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cli();
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*txhead = c;
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if (++txhead == (txbuf + UART_TXBUFSIZE)) txhead = txbuf;
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UCSRB |= (1 << UDRIE); /* enable data register empty IRQ */
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sei();
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}
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#else // WITHOUT INTERRUPT
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void uart_putc(char c) {
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while (!(UCSRA & (1<<UDRE))); /* warten bis Senden moeglich */
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UDR = c; /* schreibt das Zeichen x auf die Schnittstelle */
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}
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#endif // UART_INTERRUPT
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void uart_putstr(char *str) {
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while(*str) {
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uart_putc(*str++);
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}
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}
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void uart_putstr_P(PGM_P str) {
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char tmp;
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while((tmp = pgm_read_byte(str))) {
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uart_putc(tmp);
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str++;
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}
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}
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void uart_hexdump(char *buf, int len)
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{
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unsigned char x=0;
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char sbuf[3];
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while(len--){
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itoa(*buf++, sbuf, 16);
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if (sbuf[1] == 0) uart_putc(' ');
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uart_putstr(sbuf);
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uart_putc(' ');
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if(++x == 16) {
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uart_putstr_P(PSTR("\r\n"));
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x = 0;
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}
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}
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}
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#ifdef UART_INTERRUPT
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char uart_getc()
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{
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char val;
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while(rxhead==rxtail) ;
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val = *rxtail;
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if (++rxtail == (rxbuf + UART_RXBUFSIZE)) rxtail = rxbuf;
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return val;
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}
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#else // WITHOUT INTERRUPT
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char uart_getc()
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{
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while (!(UCSRA & (1<<RXC))); // warten bis Zeichen verfuegbar
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return UDR; // Zeichen aus UDR zurueckgeben
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}
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#endif // UART_INTERRUPT
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// returns 1 on success
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#ifdef UART_INTERRUPT
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char uart_getc_nb(char *c)
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{
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if (rxhead==rxtail) return 0;
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*c = *rxtail;
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if (++rxtail == (rxbuf + UART_RXBUFSIZE)) rxtail = rxbuf;
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return 1;
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}
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#else // WITHOUT INTERRUPT
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char uart_getc_nb(char *c)
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{
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if (UCSRA & (1<<RXC)) { // Zeichen verfuegbar
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*c = UDR;
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return 1;
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}
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return 0;
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}
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#endif // UART_INTERRUPT
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