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/*************************************************************************
Title:    Interrupt UART library with receive/transmit circular buffers
Author:   Peter Fleury <pfleury@gmx.ch>   http://jump.to/fleury
File:     $Id: uart.c,v 1.10 2013/06/02 07:27:04 peter Exp $
Software: AVR-GCC 4.1, AVR Libc 1.4.6 or higher
Hardware: any AVR with built-in UART, 
License:  GNU General Public License 
          
DESCRIPTION:
    An interrupt is generated when the UART has finished transmitting or
    receiving a byte. The interrupt handling routines use circular buffers
    for buffering received and transmitted data.
    
    The UART_RX_BUFFER_SIZE and UART_TX_BUFFER_SIZE variables define
    the buffer size in bytes. Note that these variables must be a 
    power of 2.
    
USAGE:
    Refere to the header file uart.h for a description of the routines. 
    See also example test_uart.c.

NOTES:
    Based on Atmel Application Note AVR306
                    
LICENSE:
    Copyright (C) 2006 Peter Fleury

    This program is free software; you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation; either version 2 of the License, or
    any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.
                        
*************************************************************************/
#include "project.h"


/*
 *  constants and macros
 */

/* size of RX/TX buffers */
#define UART_RX_BUFFER_MASK ( UART_RX_BUFFER_SIZE - 1)
#define UART_TX_BUFFER_MASK ( UART_TX_BUFFER_SIZE - 1)

#if ( UART_RX_BUFFER_SIZE & UART_RX_BUFFER_MASK )
#error RX buffer size is not a power of 2
#endif
#if ( UART_TX_BUFFER_SIZE & UART_TX_BUFFER_MASK )
#error TX buffer size is not a power of 2
#endif

#if defined(__AVR_AT90S2313__) \
 || defined(__AVR_AT90S4414__) || defined(__AVR_AT90S4434__) \
 || defined(__AVR_AT90S8515__) || defined(__AVR_AT90S8535__) \
 || defined(__AVR_ATmega103__)
 /* old AVR classic or ATmega103 with one UART */
#define AT90_UART
#define UART0_RECEIVE_INTERRUPT   UART_RX_vect
#define UART0_TRANSMIT_INTERRUPT  UART_UDRE_vect
#define UART0_STATUS   USR
#define UART0_CONTROL  UCR
#define UART0_DATA     UDR
#define UART0_UDRIE    UDRIE
#elif defined(__AVR_AT90S2333__) || defined(__AVR_AT90S4433__)
 /* old AVR classic with one UART */
#define AT90_UART
#define UART0_RECEIVE_INTERRUPT   UART_RX_vect
#define UART0_TRANSMIT_INTERRUPT  UART_UDRE_vect
#define UART0_STATUS   UCSRA
#define UART0_CONTROL  UCSRB
#define UART0_DATA     UDR
#define UART0_UDRIE    UDRIE
#elif  defined(__AVR_ATmega8__) || defined(__AVR_ATmega16__) || defined(__AVR_ATmega32__) \
  || defined(__AVR_ATmega323__)
  /* ATmega with one USART */
#define ATMEGA_USART
#define UART0_RECEIVE_INTERRUPT   USART_RXC_vect
#define UART0_TRANSMIT_INTERRUPT  USART_UDRE_vect
#define UART0_STATUS   UCSRA
#define UART0_CONTROL  UCSRB
#define UART0_DATA     UDR
#define UART0_UDRIE    UDRIE
#elif defined (__AVR_ATmega8515__) || defined(__AVR_ATmega8535__)
#define ATMEGA_USART
#define UART0_RECEIVE_INTERRUPT   USART_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART_UDRE_vect
#define UART0_STATUS   UCSRA
#define UART0_CONTROL  UCSRB
#define UART0_DATA     UDR
#define UART0_UDRIE    UDRIE
#elif defined(__AVR_ATmega163__)
  /* ATmega163 with one UART */
#define ATMEGA_UART
#define UART0_RECEIVE_INTERRUPT   UART_RX_vect
#define UART0_TRANSMIT_INTERRUPT  UART_UDRE_vect
#define UART0_STATUS   UCSRA
#define UART0_CONTROL  UCSRB
#define UART0_DATA     UDR
#define UART0_UDRIE    UDRIE
#elif defined(__AVR_ATmega162__)
 /* ATmega with two USART */
#define ATMEGA_USART0
#define ATMEGA_USART1
#define UART0_RECEIVE_INTERRUPT   USART0_RXC_vect
#define UART1_RECEIVE_INTERRUPT   USART1_RXC_vect
#define UART0_TRANSMIT_INTERRUPT  USART0_UDRE_vect
#define UART1_TRANSMIT_INTERRUPT  USART1_UDRE_vect
#define UART0_STATUS   UCSR0A
#define UART0_CONTROL  UCSR0B
#define UART0_DATA     UDR0
#define UART0_UDRIE    UDRIE0
#define UART1_STATUS   UCSR1A
#define UART1_CONTROL  UCSR1B
#define UART1_DATA     UDR1
#define UART1_UDRIE    UDRIE1
#elif defined(__AVR_ATmega64__) || defined(__AVR_ATmega128__)
 /* ATmega with two USART */
#define ATMEGA_USART0
#define ATMEGA_USART1
#define UART0_RECEIVE_INTERRUPT   USART0_RX_vect
#define UART1_RECEIVE_INTERRUPT   USART1_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART0_UDRE_vect
#define UART1_TRANSMIT_INTERRUPT  USART1_UDRE_vect
#define UART0_STATUS   UCSR0A
#define UART0_CONTROL  UCSR0B
#define UART0_DATA     UDR0
#define UART0_UDRIE    UDRIE0
#define UART1_STATUS   UCSR1A
#define UART1_CONTROL  UCSR1B
#define UART1_DATA     UDR1
#define UART1_UDRIE    UDRIE1
#elif defined(__AVR_ATmega161__)
 /* ATmega with UART */
#error "AVR ATmega161 currently not supported by this libaray !"
#elif defined(__AVR_ATmega169__)
 /* ATmega with one USART */
#define ATMEGA_USART
#define UART0_RECEIVE_INTERRUPT   USART0_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART0_UDRE_vect
#define UART0_STATUS   UCSRA
#define UART0_CONTROL  UCSRB
#define UART0_DATA     UDR
#define UART0_UDRIE    UDRIE
#elif defined(__AVR_ATmega48__) || defined(__AVR_ATmega88__) || defined(__AVR_ATmega168__) || defined(__AVR_ATmega48P__) || defined(__AVR_ATmega88P__) || defined(__AVR_ATmega168P__) || defined(__AVR_ATmega328P__) \
 || defined(__AVR_ATmega3250__) || defined(__AVR_ATmega3290__) ||defined(__AVR_ATmega6450__) || defined(__AVR_ATmega6490__)
 /* ATmega with one USART */
#define ATMEGA_USART0
#define UART0_RECEIVE_INTERRUPT   USART_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART_UDRE_vect
#define UART0_STATUS   UCSR0A
#define UART0_CONTROL  UCSR0B
#define UART0_DATA     UDR0
#define UART0_UDRIE    UDRIE0
#elif defined(__AVR_ATtiny2313__)
#define ATMEGA_USART
#define UART0_RECEIVE_INTERRUPT   USART_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART_UDRE_vect
#define UART0_STATUS   UCSRA
#define UART0_CONTROL  UCSRB
#define UART0_DATA     UDR
#define UART0_UDRIE    UDRIE
#elif defined(__AVR_ATmega329__) || \
      defined(__AVR_ATmega649__) || \
      defined(__AVR_ATmega325__) || \
      defined(__AVR_ATmega645__)
  /* ATmega with one USART */
#define ATMEGA_USART0
#define UART0_RECEIVE_INTERRUPT   USART0_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART0_UDRE_vect
#define UART0_STATUS   UCSR0A
#define UART0_CONTROL  UCSR0B
#define UART0_DATA     UDR0
#define UART0_UDRIE    UDRIE0
#elif defined(__AVR_ATmega2560__) || defined(__AVR_ATmega2561__) || defined(__AVR_ATmega1280__)  || defined(__AVR_ATmega1281__) || defined(__AVR_ATmega640__)
/* ATmega with two USART */
#define ATMEGA_USART0
#define ATMEGA_USART1
#define UART0_RECEIVE_INTERRUPT   USART0_RX_vect
#define UART1_RECEIVE_INTERRUPT   USART1_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART0_UDRE_vect
#define UART1_TRANSMIT_INTERRUPT  USART1_UDRE_vect
#define UART0_STATUS   UCSR0A
#define UART0_CONTROL  UCSR0B
#define UART0_DATA     UDR0
#define UART0_UDRIE    UDRIE0
#define UART1_STATUS   UCSR1A
#define UART1_CONTROL  UCSR1B
#define UART1_DATA     UDR1
#define UART1_UDRIE    UDRIE1
#elif defined(__AVR_ATmega644__)
 /* ATmega with one USART */
#define ATMEGA_USART0
#define UART0_RECEIVE_INTERRUPT   USART0_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART0_UDRE_vect
#define UART0_STATUS   UCSR0A
#define UART0_CONTROL  UCSR0B
#define UART0_DATA     UDR0
#define UART0_UDRIE    UDRIE0
#elif defined(__AVR_ATmega164P__) || defined(__AVR_ATmega324P__) || defined(__AVR_ATmega644P__)
 /* ATmega with two USART */
#define ATMEGA_USART0
#define ATMEGA_USART1
#define UART0_RECEIVE_INTERRUPT   USART0_RX_vect
#define UART1_RECEIVE_INTERRUPT   USART1_RX_vect
#define UART0_TRANSMIT_INTERRUPT  USART0_UDRE_vect
#define UART1_TRANSMIT_INTERRUPT  USART1_UDRE_vect
#define UART0_STATUS   UCSR0A
#define UART0_CONTROL  UCSR0B
#define UART0_DATA     UDR0
#define UART0_UDRIE    UDRIE0
#define UART1_STATUS   UCSR1A
#define UART1_CONTROL  UCSR1B
#define UART1_DATA     UDR1
#define UART1_UDRIE    UDRIE1
#else
#error "no UART definition for MCU available"
#endif


/*
 *  module global variables
 */
static volatile unsigned char UART_TxBuf[UART_TX_BUFFER_SIZE];
static volatile unsigned char UART_RxBuf[UART_RX_BUFFER_SIZE];
static volatile unsigned char UART_TxHead;
static volatile unsigned char UART_TxTail;
static volatile unsigned char UART_RxHead;
static volatile unsigned char UART_RxTail;
static volatile unsigned char UART_LastRxError;

#if defined( ATMEGA_USART1 )
static volatile unsigned char UART1_TxBuf[UART_TX_BUFFER_SIZE];
static volatile unsigned char UART1_RxBuf[UART_RX_BUFFER_SIZE];
static volatile unsigned char UART1_TxHead;
static volatile unsigned char UART1_TxTail;
static volatile unsigned char UART1_RxHead;
static volatile unsigned char UART1_RxTail;
static volatile unsigned char UART1_LastRxError;
#endif



ISR (NOPROTO UART0_RECEIVE_INTERRUPT)
/*************************************************************************
Function: UART Receive Complete interrupt
Purpose:  called when the UART has received a character
**************************************************************************/
{
  unsigned char tmphead;
  unsigned char data;
  unsigned char usr;
  unsigned char lastRxError;


  /* read UART status register and UART data register */
  usr = UART0_STATUS;
  data = UART0_DATA;

  /* */
#if defined( AT90_UART )
  lastRxError = (usr & (_BV (FE) | _BV (DOR)));
#elif defined( ATMEGA_USART )
  lastRxError = (usr & (_BV (FE) | _BV (DOR)));
#elif defined( ATMEGA_USART0 )
  lastRxError = (usr & (_BV (FE0) | _BV (DOR0)));
#elif defined ( ATMEGA_UART )
  lastRxError = (usr & (_BV (FE) | _BV (DOR)));
#endif

  /* calculate buffer index */
  tmphead = (UART_RxHead + 1) & UART_RX_BUFFER_MASK;

  if (tmphead == UART_RxTail)
    {
      /* error: receive buffer overflow */
      lastRxError = UART_BUFFER_OVERFLOW >> 8;
    }
  else
    {
      /* store new index */
      UART_RxHead = tmphead;
      /* store received data in buffer */
      UART_RxBuf[tmphead] = data;
    }
  UART_LastRxError |= lastRxError;
}


ISR (NOPROTO UART0_TRANSMIT_INTERRUPT)
/*************************************************************************
Function: UART Data Register Empty interrupt
Purpose:  called when the UART is ready to transmit the next byte
**************************************************************************/
{
  unsigned char tmptail;


  if (UART_TxHead != UART_TxTail)
    {
      /* calculate and store new buffer index */
      tmptail = (UART_TxTail + 1) & UART_TX_BUFFER_MASK;
      UART_TxTail = tmptail;
      /* get one byte from buffer and write it to UART */
      UART0_DATA = UART_TxBuf[tmptail]; /* start transmission */
    }
  else
    {
      /* tx buffer empty, disable UDRE interrupt */
      UART0_CONTROL &= ~_BV (UART0_UDRIE);
    }
}


/*************************************************************************
Function: uart_init()
Purpose:  initialize UART and set baudrate
Input:    baudrate using macro UART_BAUD_SELECT()
Returns:  none
**************************************************************************/
void
uart_init (unsigned int baudrate)
{
  UART_TxHead = 0;
  UART_TxTail = 0;
  UART_RxHead = 0;
  UART_RxTail = 0;

#if defined( AT90_UART )
  /* set baud rate */
  UBRR = (unsigned char) baudrate;

  /* enable UART receiver and transmmitter and receive complete interrupt */
  UART0_CONTROL = _BV (RXCIE) | _BV (RXEN) | _BV (TXEN);

#elif defined (ATMEGA_USART)
  /* Set baud rate */
  if (baudrate & 0x8000)
    {
      UART0_STATUS = (1 << U2X); //Enable 2x speed 
      baudrate &= ~0x8000;
    }
  UBRRH = (unsigned char) (baudrate >> 8);
  UBRRL = (unsigned char) baudrate;

  /* Enable USART receiver and transmitter and receive complete interrupt */
  UART0_CONTROL = _BV (RXCIE) | (1 << RXEN) | (1 << TXEN);

  /* Set frame format: asynchronous, 8data, no parity, 1stop bit */
#ifdef URSEL
  UCSRC = (1 << URSEL) | (3 << UCSZ0);
#else
  UCSRC = (3 << UCSZ0);
#endif

#elif defined (ATMEGA_USART0 )
  /* Set baud rate */
  if (baudrate & 0x8000)
    {
      UART0_STATUS = (1 << U2X0); //Enable 2x speed 
      baudrate &= ~0x8000;
    }
  UBRR0H = (unsigned char) (baudrate >> 8);
  UBRR0L = (unsigned char) baudrate;

  /* Enable USART receiver and transmitter and receive complete interrupt */
  UART0_CONTROL = _BV (RXCIE0) | (1 << RXEN0) | (1 << TXEN0);

  /* Set frame format: asynchronous, 8data, no parity, 1stop bit */
#ifdef URSEL0
  UCSR0C = (1 << URSEL0) | (3 << UCSZ00);
#else
  UCSR0C = (3 << UCSZ00);
#endif

#elif defined ( ATMEGA_UART )
  /* set baud rate */
  if (baudrate & 0x8000)
    {
      UART0_STATUS = (1 << U2X); //Enable 2x speed 
      baudrate &= ~0x8000;
    }
  UBRRHI = (unsigned char) (baudrate >> 8);
  UBRR = (unsigned char) baudrate;

  /* Enable UART receiver and transmitter and receive complete interrupt */
  UART0_CONTROL = _BV (RXCIE) | (1 << RXEN) | (1 << TXEN);

#endif

}                               /* uart_init */


/*************************************************************************
Function: uart_getc()
Purpose:  return byte from ringbuffer  
Returns:  lower byte:  received byte from ringbuffer
          higher byte: last receive error
**************************************************************************/
unsigned int
uart_getc (void)
{
  unsigned char tmptail;
  unsigned char data;


  if (UART_RxHead == UART_RxTail)
    {
      return UART_NO_DATA;      /* no data available */
    }

  /* calculate /store buffer index */
  tmptail = (UART_RxTail + 1) & UART_RX_BUFFER_MASK;
  UART_RxTail = tmptail;

  /* get data from receive buffer */
  data = UART_RxBuf[tmptail];

  data = (UART_LastRxError << 8) + data;
  UART_LastRxError = 0;
  return data;

}                               /* uart_getc */


/*************************************************************************
Function: uart_putc()
Purpose:  write byte to ringbuffer for transmitting via UART
Input:    byte to be transmitted
Returns:  none          
**************************************************************************/
void
uart_putc (unsigned char data)
{
  unsigned char tmphead;


  tmphead = (UART_TxHead + 1) & UART_TX_BUFFER_MASK;

  while (tmphead == UART_TxTail)
    {
      ;                         /* wait for free space in buffer */
    }

  UART_TxBuf[tmphead] = data;
  UART_TxHead = tmphead;

  /* enable UDRE interrupt */
  UART0_CONTROL |= _BV (UART0_UDRIE);

}                               /* uart_putc */


/*************************************************************************
Function: uart_puts()
Purpose:  transmit string to UART
Input:    string to be transmitted
Returns:  none          
**************************************************************************/
void
uart_puts (const char *s)
{
  while (*s)
    uart_putc (*s++);

}                               /* uart_puts */


/*************************************************************************
Function: uart_puts_p()
Purpose:  transmit string from program memory to UART
Input:    program memory string to be transmitted
Returns:  none
**************************************************************************/
void
uart_puts_p (const char *progmem_s)
{
  register char c;

  while ((c = pgm_read_byte (progmem_s++)))
    uart_putc (c);

}                               /* uart_puts_p */


/*
 * these functions are only for ATmegas with two USART
 */
#if defined( ATMEGA_USART1 )

ISR (NOPROTO UART1_RECEIVE_INTERRUPT)
/*************************************************************************
Function: UART1 Receive Complete interrupt
Purpose:  called when the UART1 has received a character
**************************************************************************/
{
  unsigned char tmphead;
  unsigned char data;
  unsigned char usr;
  unsigned char lastRxError;


  /* read UART status register and UART data register */
  usr = UART1_STATUS;
  data = UART1_DATA;

  /* */
  lastRxError = (usr & (_BV (FE1) | _BV (DOR1)));

  /* calculate buffer index */
  tmphead = (UART1_RxHead + 1) & UART_RX_BUFFER_MASK;

  if (tmphead == UART1_RxTail)
    {
      /* error: receive buffer overflow */
      lastRxError = UART_BUFFER_OVERFLOW >> 8;
    }
  else
    {
      /* store new index */
      UART1_RxHead = tmphead;
      /* store received data in buffer */
      UART1_RxBuf[tmphead] = data;
    }
  UART1_LastRxError |= lastRxError;
}


ISR (NOPROTO UART1_TRANSMIT_INTERRUPT)
/*************************************************************************
Function: UART1 Data Register Empty interrupt
Purpose:  called when the UART1 is ready to transmit the next byte
**************************************************************************/
{
  unsigned char tmptail;


  if (UART1_TxHead != UART1_TxTail)
    {
      /* calculate and store new buffer index */
      tmptail = (UART1_TxTail + 1) & UART_TX_BUFFER_MASK;
      UART1_TxTail = tmptail;
      /* get one byte from buffer and write it to UART */
      UART1_DATA = UART1_TxBuf[tmptail]; /* start transmission */
    }
  else
    {
      /* tx buffer empty, disable UDRE interrupt */
      UART1_CONTROL &= ~_BV (UART1_UDRIE);
    }
}


/*************************************************************************
Function: uart1_init()
Purpose:  initialize UART1 and set baudrate
Input:    baudrate using macro UART_BAUD_SELECT()
Returns:  none
**************************************************************************/
void
uart1_init (unsigned int baudrate)
{
  UART1_TxHead = 0;
  UART1_TxTail = 0;
  UART1_RxHead = 0;
  UART1_RxTail = 0;


  /* Set baud rate */
  if (baudrate & 0x8000)
    {
      UART1_STATUS = (1 << U2X1); //Enable 2x speed 
      baudrate &= ~0x8000;
    }
  UBRR1H = (unsigned char) (baudrate >> 8);
  UBRR1L = (unsigned char) baudrate;

  /* Enable USART receiver and transmitter and receive complete interrupt */
  UART1_CONTROL = _BV (RXCIE1) | (1 << RXEN1) | (1 << TXEN1);

  /* Set frame format: asynchronous, 8data, no parity, 1stop bit */
#ifdef URSEL1
  UCSR1C = (1 << URSEL1) | (3 << UCSZ10);
#else
  UCSR1C = (3 << UCSZ10);
#endif
}                               /* uart_init */


/*************************************************************************
Function: uart1_getc()
Purpose:  return byte from ringbuffer  
Returns:  lower byte:  received byte from ringbuffer
          higher byte: last receive error
**************************************************************************/
unsigned int
uart1_getc (void)
{
  unsigned char tmptail;
  unsigned char data;


  if (UART1_RxHead == UART1_RxTail)
    {
      return UART_NO_DATA;      /* no data available */
    }

  /* calculate /store buffer index */
  tmptail = (UART1_RxTail + 1) & UART_RX_BUFFER_MASK;
  UART1_RxTail = tmptail;

  /* get data from receive buffer */
  data = UART1_RxBuf[tmptail];

  data = (UART1_LastRxError << 8) + data;
  UART1_LastRxError = 0;
  return data;

}                               /* uart1_getc */


/*************************************************************************
Function: uart1_putc()
Purpose:  write byte to ringbuffer for transmitting via UART
Input:    byte to be transmitted
Returns:  none          
**************************************************************************/
void
uart1_putc (unsigned char data)
{
  unsigned char tmphead;


  tmphead = (UART1_TxHead + 1) & UART_TX_BUFFER_MASK;

  while (tmphead == UART1_TxTail)
    {
      ;                         /* wait for free space in buffer */
    }

  UART1_TxBuf[tmphead] = data;
  UART1_TxHead = tmphead;

  /* enable UDRE interrupt */
  UART1_CONTROL |= _BV (UART1_UDRIE);

}                               /* uart1_putc */


/*************************************************************************
Function: uart1_puts()
Purpose:  transmit string to UART1
Input:    string to be transmitted
Returns:  none          
**************************************************************************/
void
uart1_puts (const char *s)
{
  while (*s)
    uart1_putc (*s++);

}                               /* uart1_puts */


/*************************************************************************
Function: uart1_puts_p()
Purpose:  transmit string from program memory to UART1
Input:    program memory string to be transmitted
Returns:  none
**************************************************************************/
void
uart1_puts_p (const char *progmem_s)
{
  register char c;

  while ((c = pgm_read_byte (progmem_s++)))
    uart1_putc (c);

}                               /* uart1_puts_p */


#endif