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uart.c
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uart.c
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/*************************************************************************
Title: Interrupt UART library with receive/transmit circular buffers
Author: Andy Gock
Software: AVR-GCC 4.1, AVR Libc 1.4
Hardware: any AVR with built-in UART, tested on AT90S8515 & ATmega8 at 4 Mhz
License: GNU General Public License
Usage: see README.md and Doxygen manual
Based on original library by Peter Fluery, Tim Sharpe, Nicholas Zambetti.
https://github.com/andygock/avr-uart
Updated UART library (this one) by Andy Gock
https://github.com/andygock/avr-uart
Based on updated UART library (this one) by Tim Sharpe
http://beaststwo.org/avr-uart/index.shtml
Based on original library by Peter Fluery
http://homepage.hispeed.ch/peterfleury/avr-software.html
*************************************************************************/
/*************************************************************************
LICENSE:
Copyright (C) 2012 Andy Gock
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.
*************************************************************************/
/************************************************************************
uart_available, uart_flush, uart1_available, and uart1_flush functions
were adapted from the Arduino HardwareSerial.h library by Tim Sharpe on
11 Jan 2009. The license info for HardwareSerial.h is as follows:
HardwareSerial.cpp - Hardware serial library for Wiring
Copyright (c) 2006 Nicholas Zambetti. All right reserved.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
Modified 23 November 2006 by David A. Mellis
************************************************************************/
/************************************************************************
Changelog for modifications made by Tim Sharpe, starting with the current
library version on his Web site as of 05/01/2009.
Date Description
=========================================================================
05/11/2009 Changed all existing UARTx_RECEIVE_INTERRUPT and UARTx_TRANSMIT_INTERRUPT
macros to use the "_vect" format introduced in AVR-Libc
v1.4.0. Had to split the 3290 and 6490 out of their existing
macro due to an inconsistency in the UART0_RECEIVE_INTERRUPT
vector name (seems like a typo: USART_RX_vect for the 3290/6490
vice USART0_RX_vect for the others in the macro).
Verified all existing macro register names against the device
header files in AVR-Libc v1.6.6 to catch any inconsistencies.
05/12/2009 Added support for 48P, 88P, 168P, and 328P by adding them to the
existing 48/88/168 macro.
Added Arduino-style available() and flush() functions for both
supported UARTs. Really wanted to keep them out of the library, so
that it would be as close as possible to Peter Fleury's original
library, but has scoping issues accessing internal variables from
another program. Go C!
05/13/2009 Changed Interrupt Service Routine label from the old "SIGNAL" to
the "ISR" format introduced in AVR-Libc v1.4.0.
************************************************************************/
#include <avr/io.h>
#include <avr/interrupt.h>
#include <avr/pgmspace.h>
#include <util/atomic.h>
#include "uart.h"
/*
* constants and macros
*/
/* size of RX/TX buffers */
#define UART_RX0_BUFFER_MASK (UART_RX0_BUFFER_SIZE - 1)
#define UART_RX1_BUFFER_MASK (UART_RX1_BUFFER_SIZE - 1)
#define UART_RX2_BUFFER_MASK (UART_RX2_BUFFER_SIZE - 1)
#define UART_RX3_BUFFER_MASK (UART_RX3_BUFFER_SIZE - 1)
#define UART_TX0_BUFFER_MASK (UART_TX0_BUFFER_SIZE - 1)
#define UART_TX1_BUFFER_MASK (UART_TX1_BUFFER_SIZE - 1)
#define UART_TX2_BUFFER_MASK (UART_TX2_BUFFER_SIZE - 1)
#define UART_TX3_BUFFER_MASK (UART_TX3_BUFFER_SIZE - 1)
#if (UART_RX0_BUFFER_SIZE & UART_RX0_BUFFER_MASK)
#error RX0 buffer size is not a power of 2
#endif
#if (UART_TX0_BUFFER_SIZE & UART_TX0_BUFFER_MASK)
#error TX0 buffer size is not a power of 2
#endif
#if (UART_RX1_BUFFER_SIZE & UART_RX1_BUFFER_MASK)
#error RX1 buffer size is not a power of 2
#endif
#if (UART_TX1_BUFFER_SIZE & UART_TX1_BUFFER_MASK)
#error TX1 buffer size is not a power of 2
#endif
#if (UART_RX2_BUFFER_SIZE & UART_RX2_BUFFER_MASK)
#error RX2 buffer size is not a power of 2
#endif
#if (UART_TX2_BUFFER_SIZE & UART_TX2_BUFFER_MASK)
#error TX2 buffer size is not a power of 2
#endif
#if (UART_RX3_BUFFER_SIZE & UART_RX3_BUFFER_MASK)
#error RX3 buffer size is not a power of 2
#endif
#if (UART_TX3_BUFFER_SIZE & UART_TX3_BUFFER_MASK)
#error TX3 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_ATmega8U2__) || defined(__AVR_ATmega16U2__) || defined(__AVR_ATmega16U4__) || \
defined(__AVR_ATmega32U2__) || defined(__AVR_ATmega32U4__) || defined(__AVR_ATmega32U6__)
/* ATmega with one USART, but is called USART1 (untested) */
#define ATMEGA_USART1
#define UART1_RECEIVE_INTERRUPT USART1_RX_vect
#define UART1_TRANSMIT_INTERRUPT USART1_UDRE_vect
#define UART1_STATUS UCSR1A
#define UART1_CONTROL UCSR1B
#define UART1_DATA UDR1
#define UART1_UDRIE UDRIE1
#elif defined(__AVR_ATmega8515__) || defined(__AVR_ATmega8535__)
/* ATmega with one USART */
#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__)
/* TLS-Added 48P/88P/168P/328P */
/* 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__) || defined(__AVR_ATtiny2313A__) || defined(__AVR_ATtiny4313__)
#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_ATmega3250__) ||\
defined(__AVR_ATmega645__) ||defined(__AVR_ATmega6450__)
/* 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_ATmega3290__) ||\
defined(__AVR_ATmega6490__)
/* TLS-Separated these two from the previous group because of inconsistency in the USART_RX */
/* ATmega with one USART */
#define ATMEGA_USART0
#define UART0_RECEIVE_INTERRUPT USART_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_ATmega1280__) || defined(__AVR_ATmega640__)
/* ATmega with four USART */
#define ATMEGA_USART0
#define ATMEGA_USART1
#define ATMEGA_USART2
#define ATMEGA_USART3
#define UART0_RECEIVE_INTERRUPT USART0_RX_vect
#define UART1_RECEIVE_INTERRUPT USART1_RX_vect
#define UART2_RECEIVE_INTERRUPT USART2_RX_vect
#define UART3_RECEIVE_INTERRUPT USART3_RX_vect
#define UART0_TRANSMIT_INTERRUPT USART0_UDRE_vect
#define UART1_TRANSMIT_INTERRUPT USART1_UDRE_vect
#define UART2_TRANSMIT_INTERRUPT USART2_UDRE_vect
#define UART3_TRANSMIT_INTERRUPT USART3_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
#define UART2_STATUS UCSR2A
#define UART2_CONTROL UCSR2B
#define UART2_DATA UDR2
#define UART2_UDRIE UDRIE2
#define UART3_STATUS UCSR3A
#define UART3_CONTROL UCSR3B
#define UART3_DATA UDR3
#define UART3_UDRIE UDRIE3
#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__) || \
defined(__AVR_ATmega1284P__)
/* 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
*/
#if defined(USART0_ENABLED)
#if defined(ATMEGA_USART) || defined(ATMEGA_USART0)
static volatile uint8_t UART_TxBuf[UART_TX0_BUFFER_SIZE];
static volatile uint8_t UART_RxBuf[UART_RX0_BUFFER_SIZE];
#if defined(USART0_LARGE_BUFFER)
static volatile uint16_t UART_TxHead;
static volatile uint16_t UART_TxTail;
static volatile uint16_t UART_RxHead;
static volatile uint16_t UART_RxTail;
static volatile uint8_t UART_LastRxError;
#else
static volatile uint8_t UART_TxHead;
static volatile uint8_t UART_TxTail;
static volatile uint8_t UART_RxHead;
static volatile uint8_t UART_RxTail;
static volatile uint8_t UART_LastRxError;
#endif
#endif
#endif
#if defined(USART1_ENABLED)
#if defined(ATMEGA_USART1)
static volatile uint8_t UART1_TxBuf[UART_TX1_BUFFER_SIZE];
static volatile uint8_t UART1_RxBuf[UART_RX1_BUFFER_SIZE];
#if defined(USART1_LARGE_BUFFER)
static volatile uint16_t UART1_TxHead;
static volatile uint16_t UART1_TxTail;
static volatile uint16_t UART1_RxHead;
static volatile uint16_t UART1_RxTail;
static volatile uint8_t UART1_LastRxError;
#else
static volatile uint8_t UART1_TxHead;
static volatile uint8_t UART1_TxTail;
static volatile uint8_t UART1_RxHead;
static volatile uint8_t UART1_RxTail;
static volatile uint8_t UART1_LastRxError;
#endif
#endif
#endif
#if defined(USART2_ENABLED)
#if defined(ATMEGA_USART2)
static volatile uint8_t UART2_TxBuf[UART_TX2_BUFFER_SIZE];
static volatile uint8_t UART2_RxBuf[UART_RX2_BUFFER_SIZE];
#if defined(USART2_LARGE_BUFFER)
static volatile uint16_t UART2_TxHead;
static volatile uint16_t UART2_TxTail;
static volatile uint16_t UART2_RxHead;
static volatile uint16_t UART2_RxTail;
static volatile uint8_t UART2_LastRxError;
#else
static volatile uint8_t UART2_TxHead;
static volatile uint8_t UART2_TxTail;
static volatile uint8_t UART2_RxHead;
static volatile uint8_t UART2_RxTail;
static volatile uint8_t UART2_LastRxError;
#endif
#endif
#endif
#if defined(USART3_ENABLED)
#if defined(ATMEGA_USART3)
static volatile uint8_t UART3_TxBuf[UART_TX3_BUFFER_SIZE];
static volatile uint8_t UART3_RxBuf[UART_RX3_BUFFER_SIZE];
#if defined(USART3_LARGE_BUFFER)
static volatile uint16_t UART3_TxHead;
static volatile uint16_t UART3_TxTail;
static volatile uint16_t UART3_RxHead;
static volatile uint16_t UART3_RxTail;
static volatile uint8_t UART3_LastRxError;
#else
static volatile uint8_t UART3_TxHead;
static volatile uint8_t UART3_TxTail;
static volatile uint8_t UART3_RxHead;
static volatile uint8_t UART3_RxTail;
static volatile uint8_t UART3_LastRxError;
#endif
#endif
#endif
#if defined(USART0_ENABLED)
#if defined(AT90_UART) || defined(ATMEGA_USART) || defined(ATMEGA_USART0)
ISR(UART0_RECEIVE_INTERRUPT)
/*************************************************************************
Function: UART Receive Complete interrupt
Purpose: called when the UART has received a character
**************************************************************************/
{
uint16_t tmphead;
uint8_t data;
uint8_t usr;
uint8_t 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_RX0_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(UART0_TRANSMIT_INTERRUPT)
/*************************************************************************
Function: UART Data Register Empty interrupt
Purpose: called when the UART is ready to transmit the next byte
**************************************************************************/
{
uint16_t tmptail;
if (UART_TxHead != UART_TxTail) {
/* calculate and store new buffer index */
tmptail = (UART_TxTail + 1) & UART_TX0_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: uart0_init()
Purpose: initialize UART and set baudrate
Input: baudrate using macro UART_BAUD_SELECT()
Returns: none
**************************************************************************/
void uart0_init(uint16_t baudrate)
{
ATOMIC_BLOCK(ATOMIC_FORCEON) {
UART_TxHead = 0;
UART_TxTail = 0;
UART_RxHead = 0;
UART_RxTail = 0;
}
#if defined(AT90_UART)
/* set baud rate */
UBRR = (uint8_t) baudrate;
/* enable UART receiver and transmitter 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 = (uint8_t) (baudrate>>8);
UBRRL = (uint8_t) 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 = (uint8_t)(baudrate>>8);
UBRR0L = (uint8_t) 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 = (uint8_t) (baudrate>>8);
UBRR = (uint8_t) baudrate;
/* Enable UART receiver and transmitter and receive complete interrupt */
UART0_CONTROL = _BV(RXCIE)|(1<<RXEN)|(1<<TXEN);
#endif
} /* uart0_init */
/*************************************************************************
Function: uart0_getc()
Purpose: return byte from ringbuffer
Returns: lower byte: received byte from ringbuffer
higher byte: last receive error
**************************************************************************/
uint16_t uart0_getc(void)
{
uint16_t tmptail;
uint8_t data;
ATOMIC_BLOCK(ATOMIC_FORCEON) {
if (UART_RxHead == UART_RxTail) {
return UART_NO_DATA; /* no data available */
}
}
/* calculate / store buffer index */
tmptail = (UART_RxTail + 1) & UART_RX0_BUFFER_MASK;
UART_RxTail = tmptail;
/* get data from receive buffer */
data = UART_RxBuf[tmptail];
return (UART_LastRxError << 8) + data;
} /* uart0_getc */
/*************************************************************************
Function: uart0_peek()
Purpose: Returns the next byte (character) of incoming UART data without
removing it from the ring buffer. That is, successive calls to
uartN_peek() will return the same character, as will the next
call to uartN_getc()
Returns: lower byte: next byte in ring buffer
higher byte: last receive error
**************************************************************************/
uint16_t uart0_peek(void)
{
uint16_t tmptail;
uint8_t data;
ATOMIC_BLOCK(ATOMIC_FORCEON) {
if (UART_RxHead == UART_RxTail) {
return UART_NO_DATA; /* no data available */
}
}
tmptail = (UART_RxTail + 1) & UART_RX0_BUFFER_MASK;
/* get data from receive buffer */
data = UART_RxBuf[tmptail];
return (UART_LastRxError << 8) + data;
} /* uart0_peek */
/*************************************************************************
Function: uart0_putc()
Purpose: write byte to ringbuffer for transmitting via UART
Input: byte to be transmitted
Returns: none
**************************************************************************/
void uart0_putc(uint8_t data)
{
#ifdef USART0_LARGE_BUFFER
uint16_t tmphead;
uint16_t txtail_tmp;
tmphead = (UART_TxHead + 1) & UART_TX0_BUFFER_MASK;
do {
ATOMIC_BLOCK(ATOMIC_FORCEON) {
txtail_tmp = UART_TxTail;
}
} while (tmphead == txtail_tmp); /* wait for free space in buffer */
#else
uint16_t tmphead;
tmphead = (UART_TxHead + 1) & UART_TX0_BUFFER_MASK;
while (tmphead == UART_TxTail); /* wait for free space in buffer */
#endif
UART_TxBuf[tmphead] = data;
UART_TxHead = tmphead;
/* enable UDRE interrupt */
UART0_CONTROL |= _BV(UART0_UDRIE);
} /* uart0_putc */
/*************************************************************************
Function: uart0_puts()
Purpose: transmit string to UART
Input: string to be transmitted
Returns: none
**************************************************************************/
void uart0_puts(const char *s)
{
while (*s) {
uart0_putc(*s++);
}
} /* uart0_puts */
/*************************************************************************
Function: uart0_puts_p()
Purpose: transmit string from program memory to UART
Input: program memory string to be transmitted
Returns: none
**************************************************************************/
void uart0_puts_p(const char *progmem_s)
{
register char c;
while ((c = pgm_read_byte(progmem_s++))) {
uart0_putc(c);
}
} /* uart0_puts_p */
/*************************************************************************
Function: uart0_available()
Purpose: Determine the number of bytes waiting in the receive buffer
Input: None
Returns: Integer number of bytes in the receive buffer
**************************************************************************/
uint16_t uart0_available(void)
{
uint16_t ret;
ATOMIC_BLOCK(ATOMIC_FORCEON) {
ret = (UART_RX0_BUFFER_SIZE + UART_RxHead - UART_RxTail) & UART_RX0_BUFFER_MASK;
}
return ret;
} /* uart0_available */
/*************************************************************************
Function: uart0_flush()
Purpose: Flush bytes waiting the receive buffer. Actually ignores them.
Input: None
Returns: None
**************************************************************************/
void uart0_flush(void)
{
ATOMIC_BLOCK(ATOMIC_FORCEON) {
UART_RxHead = UART_RxTail;
}
} /* uart0_flush */
#endif
#endif /* defined(USART0_ENABLED) */
#if defined(USART1_ENABLED)
/*
* these functions are only for ATmegas with two USART
*/
#if defined(ATMEGA_USART1)
ISR(UART1_RECEIVE_INTERRUPT)
/*************************************************************************
Function: UART1 Receive Complete interrupt
Purpose: called when the UART1 has received a character
**************************************************************************/
{
uint16_t tmphead;
uint8_t data;
uint8_t usr;
uint8_t 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_RX1_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(UART1_TRANSMIT_INTERRUPT)
/*************************************************************************
Function: UART1 Data Register Empty interrupt
Purpose: called when the UART1 is ready to transmit the next byte
**************************************************************************/
{
uint16_t tmptail;
if (UART1_TxHead != UART1_TxTail) {
/* calculate and store new buffer index */
tmptail = (UART1_TxTail + 1) & UART_TX1_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(uint16_t baudrate)
{
ATOMIC_BLOCK(ATOMIC_FORCEON) {
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 = (uint8_t) (baudrate>>8);
UBRR1L = (uint8_t) 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
**************************************************************************/
uint16_t uart1_getc(void)
{
uint16_t tmptail;
uint8_t data;
ATOMIC_BLOCK(ATOMIC_FORCEON) {
if (UART1_RxHead == UART1_RxTail) {
return UART_NO_DATA; /* no data available */
}
/* calculate / store buffer index */
tmptail = (UART1_RxTail + 1) & UART_RX1_BUFFER_MASK;
UART1_RxTail = tmptail;
}
/* get data from receive buffer */
data = UART1_RxBuf[tmptail];
return (UART1_LastRxError << 8) + data;
} /* uart1_getc */
/*************************************************************************
Function: uart1_peek()
Purpose: Returns the next byte (character) of incoming UART data without
removing it from the ring buffer. That is, successive calls to
uartN_peek() will return the same character, as will the next
call to uartN_getc()
Returns: lower byte: next byte in ring buffer
higher byte: last receive error
**************************************************************************/
uint16_t uart1_peek(void)
{
uint16_t tmptail;
uint8_t data;
ATOMIC_BLOCK(ATOMIC_FORCEON) {
if (UART1_RxHead == UART1_RxTail) {
return UART_NO_DATA; /* no data available */
}
}
tmptail = (UART1_RxTail + 1) & UART_RX1_BUFFER_MASK;
/* get data from receive buffer */
data = UART1_RxBuf[tmptail];
return (UART1_LastRxError << 8) + data;
} /* uart1_peek */
/*************************************************************************
Function: uart1_putc()
Purpose: write byte to ringbuffer for transmitting via UART
Input: byte to be transmitted
Returns: none
**************************************************************************/
void uart1_putc(uint8_t data)
{
#ifdef USART1_LARGE_BUFFER
uint16_t tmphead;
uint16_t txtail_tmp;
tmphead = (UART1_TxHead + 1) & UART_TX1_BUFFER_MASK;
do {
ATOMIC_BLOCK(ATOMIC_FORCEON) {
txtail_tmp = UART1_TxTail;
}
} while (tmphead == txtail_tmp); /* wait for free space in buffer */
#else
uint16_t tmphead;
tmphead = (UART1_TxHead + 1) & UART_TX1_BUFFER_MASK;
while (tmphead == UART1_TxTail); /* wait for free space in buffer */
#endif
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 */
/*************************************************************************
Function: uart1_available()
Purpose: Determine the number of bytes waiting in the receive buffer
Input: None
Returns: Integer number of bytes in the receive buffer
**************************************************************************/
uint16_t uart1_available(void)
{
uint16_t ret;
ATOMIC_BLOCK(ATOMIC_FORCEON) {
ret = (UART_RX1_BUFFER_SIZE + UART1_RxHead - UART1_RxTail) & UART_RX1_BUFFER_MASK;
}
return ret;
} /* uart1_available */
/*************************************************************************
Function: uart1_flush()
Purpose: Flush bytes waiting the receive buffer. Actually ignores them.
Input: None
Returns: None
**************************************************************************/
void uart1_flush(void)
{
ATOMIC_BLOCK(ATOMIC_FORCEON) {
UART1_RxHead = UART1_RxTail;
}
} /* uart1_flush */
#endif