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#include "../usart.h"
#ifdef CONFIG_IOE_USART
#ifdef MCUSUPPORT_USART
#define USART_PARITY_NONE 0
#define USART_PARITY_ODD 1
#define USART_PARITY_EVEN 2
#define USART_STOPBIT_SINGLE 1
#define USART_STOPBIT_DOUBLE 2
#ifndef CONFIG_IOE_USART_BAUD
#warning "CONFIG_IOE_USART_BAUD not defined. Setting default 9600."
#define CONFIG_IOE_USART_BAUD 9600
#endif
#ifndef CONFIG_IOE_USART_PARITY
#warning "CONFIG_IOE_USART_PARITY not defined. Using default USART_PARITY_NONE."
#define CONFIG_IOE_USART_PARITY USART_PARITY_NONE
#endif
#ifndef CONFIG_IOE_USART_STOPBIT
#warning "CONFIG_IOE_USART_STOPBIT not defined. Using default USART_STOPBIT_SINGLE."
#define CONFIG_IOE_USART_STOPBIT USART_STOPBIT_SINGLE
#endif
#ifndef CONFIG_IOE_USART_DATABITS
#warning "CONFIG_IOE_USART_DATABITS not defined. Using default 8."
#define CONFIG_IOE_USART_DATABITS 8
#endif
#if !((CONFIG_IOE_USART_PARITY == USART_PARITY_NONE) || \
(CONFIG_IOE_USART_PARITY == USART_PARITY_ODD) || \
(CONFIG_IOE_USART_PARITY == USART_PARITY_EVEN))
#error "CONFIG_IOE_USART_PARITY has value, that is not allowed."
#endif
#if !((CONFIG_IOE_USART_STOPBIT == USART_STOPBIT_SINGLE) || \
(CONFIG_IOE_USART_STOPBIT == USART_STOPBIT_DOUBLE))
#error "CONFIG_IOE_USART_STOPBIT has value, that is not allowed."
#endif
#if !((CONFIG_IOE_USART_DATABITS == 5) || \
(CONFIG_IOE_USART_DATABITS == 6) || \
(CONFIG_IOE_USART_DATABITS == 7) || \
(CONFIG_IOE_USART_DATABITS == 8))
// TODO DATABITS 9 is not supported
#error "CONFIG_IOE_USART_DATABITS has value, that is not allowed."
#endif
#if (defined CONFIG_IOE_USART_INFILE) && (CONFIG_IOE_USART_INBUFFER_SIZE <= 0)
#error "USART Input file can't be enabled without input buffer"
#endif
#if (defined CONFIG_IOE_USART_OUTFILE) && (CONFIG_IOE_USART_OUTBUFFER_SIZE <= 0)
#error "USART Input file can't be enabled without output buffer"
#endif
volatile int8_t _usart_busy;
void usart_init_async(void) {
_usart_busy = 0;
#define BAUD CONFIG_IOE_USART_BAUD
#include <util/setbaud.h>
UBRR0H = UBRRH_VALUE;
UBRR0L = UBRRL_VALUE;
#if USE_2X
UCSR0A |= _BV(U2X0);
#else
UCSR0A &= ~_BV(U2X0);
#endif
UCSR0C = 0 |
// USART_PARITY_NONE are both UMP01 and UMP00 zero
#if CONFIG_IOE_USART_PARITY == USART_PARITY_ODD
_BV(UPM01) |
#elif CONFIG_IOE_USART_PARITY == USART_PARITY_EVEN
_BV(UPM00) | _BV(UPM01) |
#endif
// USART_STOPBIT_SINGLE is USBS0 zero
#if CONFIG_IOE_USART_STOPBIT == USART_STOPBIT_DOUBLE
_BV(USBS0) |
#endif
// For 5 databits are UCSZ00 and UCSZ01 zero
#if CONFIG_IOE_USART_DATABITS == 6
_BV(UCSZ00)
#elif CONFIG_IOE_USART_DATABITS == 7
_BV(UCSZ01)
#elif CONFIG_IOE_USART_DATABITS == 8
_BV(UCSZ00) | _BV(UCSZ01)
#endif
;
// Enable receiver, transmitter and RX complete,
// Data register empty interrupts
UCSR0B = _BV(RXEN0) | _BV(TXEN0) | _BV(RXCIE0) | _BV(UDRIE0);
#ifdef _IOE_USART_INBUFFER
IOEBUFFER_INIT(_ioe_usart_inbuffer, CONFIG_IOE_USART_INBUFFER_SIZE);
#endif
#ifdef _IOE_USART_OUTBUFFER
IOEBUFFER_INIT(_ioe_usart_outbuffer, CONFIG_IOE_USART_OUTBUFFER_SIZE);
#endif
}
inline void usart_send(uint8_t data) {
#ifdef _IOE_USART_OUTBUFFER
if (!_usart_busy) {
_usart_busy = 1;
UDR0 = data;
} else {
IOEBUFFER_PUT(_ioe_usart_outbuffer,
CONFIG_IOE_USART_OUTBUFFER_SIZE, data,
CONFIG_IOE_USART_OUTBUFFER_MODE);
}
#else
_usart_busy = 1;
UDR0 = data;
#endif /* _IOE_USART_OUTBUFFER */
}
#ifdef _IOE_USART_OUTBUFFER
inline void usart_send_str(char *str) {
while (*str != '\0') {
usart_send((uint8_t) * str);
str++;
}
}
#endif /* _IOE_USART_OUTBUFFER */
#ifdef _IOE_USART_INBUFFER
uint8_t usart_get(void) {
uint8_t rtn;
IOEBUFFER_GET(_ioe_usart_inbuffer, CONFIG_IOE_USART_INBUFFER_SIZE,
rtn);
return rtn;
}
#endif
#ifdef _IOE_USART_INBUFFER
uint8_t usart_inbuffered(void) {
uint8_t rtn;
IOEBUFFER_CNT(_ioe_usart_inbuffer, CONFIG_IOE_USART_INBUFFER_SIZE,
rtn);
return rtn;
}
#endif
#ifdef _IOE_USART_OUTBUFFER
uint8_t usart_outbuffered(void) {
uint8_t rtn;
IOEBUFFER_CNT(_ioe_usart_outbuffer, CONFIG_IOE_USART_OUTBUFFER_SIZE,
rtn);
return rtn;
}
#endif
#ifdef CONFIG_IOE_USART_OUTFILE
static int usartput(char c, FILE * f) {
usart_send((uint8_t) c);
return 0;
}
#endif
#ifdef CONFIG_IOE_USART_INBUFFER
static int usartget(FILE * f) {
uint8_t v;
while (!(v = usart_get()));
return v;
}
#endif
#if (defined CONFIG_IOE_USART_INFILE) || (defined CONFIG_IOE_USART_OUTFILE)
FILE *usart_async_open(void) {
usart_init_async();
#ifdef CONFIG_IOE_USART_OUTFILE
#ifdef CONFIG_IOE_USART_INFILE
return fdevopen(usartput, usartget);
#else
return fdevopen(usartput, 0);
#endif
#else
return fdevopen(0, usartget);
#endif
}
#endif
////// Interrupts ////////////////////////////////
void (*usart_receive) (uint8_t data) = 0;
void (*usart_sent) (void) = 0;
SIGNAL(USART_RX_vect) {
#ifdef _IOE_USART_INBUFFER
uint8_t val = UDR0;
IOEBUFFER_PUT(_ioe_usart_inbuffer, CONFIG_IOE_USART_INBUFFER_SIZE,
val, CONFIG_IOE_USART_INBUFFER_MODE);
#endif /* _IOE_USART_INBUFFER */
if (usart_receive)
usart_receive(UDR0);
}
SIGNAL(USART_UDRE_vect) {
#ifdef _IOE_USART_OUTBUFFER
uint8_t val;
IOEBUFFER_GET(_ioe_usart_outbuffer, CONFIG_IOE_USART_OUTBUFFER_SIZE,
val);
if (val)
UDR0 = val;
else
_usart_busy = 0;
#else
_usart_busy = 0;
#endif /* _IOE_USART_OUTBUFFER */
if (usart_sent)
usart_sent();
}
#endif /* MCUSUPPORT_USART */
#endif /* CONFIG_IOE_USART */
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