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serial.c
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serial.c
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/*
serial.c - Low level functions for sending and recieving bytes via the serial port
Part of Grbl v0.9
Copyright (c) 2012-2014 Sungeun K. Jeon
Grbl 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 3 of the License, or
(at your option) any later version.
Grbl 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.
You should have received a copy of the GNU General Public License
along with Grbl. If not, see <http://www.gnu.org/licenses/>.
*/
/*
This file is based on work from Grbl v0.8, distributed under the
terms of the MIT-license. See COPYING for more details.
Copyright (c) 2009-2011 Simen Svale Skogsrud
Copyright (c) 2011-2012 Sungeun K. Jeon
*/
#include <avr/interrupt.h>
#include "system.h"
#include "serial.h"
#include "motion_control.h"
#include "protocol.h"
uint8_t serial_rx_buffer[RX_BUFFER_SIZE];
uint8_t serial_rx_buffer_head = 0;
volatile uint8_t serial_rx_buffer_tail = 0;
uint8_t serial_tx_buffer[TX_BUFFER_SIZE];
uint8_t serial_tx_buffer_head = 0;
volatile uint8_t serial_tx_buffer_tail = 0;
#ifdef ENABLE_XONXOFF
volatile uint8_t flow_ctrl = XON_SENT; // Flow control state variable
#endif
// Returns the number of bytes used in the RX serial buffer.
uint8_t serial_get_rx_buffer_count()
{
uint8_t rtail = serial_rx_buffer_tail; // Copy to limit multiple calls to volatile
if (serial_rx_buffer_head >= rtail) { return(serial_rx_buffer_head-rtail); }
return (RX_BUFFER_SIZE - (rtail-serial_rx_buffer_head));
}
// Returns the number of bytes used in the TX serial buffer.
// NOTE: Not used except for debugging and ensuring no TX bottlenecks.
uint8_t serial_get_tx_buffer_count()
{
uint8_t ttail = serial_tx_buffer_tail; // Copy to limit multiple calls to volatile
if (serial_tx_buffer_head >= ttail) { return(serial_tx_buffer_head-ttail); }
return (TX_BUFFER_SIZE - (ttail-serial_tx_buffer_head));
}
void serial_init()
{
// Set baud rate
#if BAUD_RATE < 57600
uint16_t UBRR0_value = ((F_CPU / (8L * BAUD_RATE)) - 1)/2 ;
UCSR0A &= ~(1 << U2X0); // baud doubler off - Only needed on Uno XXX
#else
uint16_t UBRR0_value = ((F_CPU / (4L * BAUD_RATE)) - 1)/2;
UCSR0A |= (1 << U2X0); // baud doubler on for high baud rates, i.e. 115200
#endif
UBRR0H = UBRR0_value >> 8;
UBRR0L = UBRR0_value;
// enable rx and tx
UCSR0B |= 1<<RXEN0;
UCSR0B |= 1<<TXEN0;
// enable interrupt on complete reception of a byte
UCSR0B |= 1<<RXCIE0;
// defaults to 8-bit, no parity, 1 stop bit
}
// Writes one byte to the TX serial buffer. Called by main program.
// TODO: Check if we can speed this up for writing strings, rather than single bytes.
void serial_write(uint8_t data) {
// Calculate next head
uint8_t next_head = serial_tx_buffer_head + 1;
if (next_head == TX_BUFFER_SIZE) { next_head = 0; }
// Wait until there is space in the buffer
while (next_head == serial_tx_buffer_tail) {
// TODO: Restructure st_prep_buffer() calls to be executed here during a long print.
if (sys.execute & EXEC_RESET) { return; } // Only check for abort to avoid an endless loop.
}
// Store data and advance head
serial_tx_buffer[serial_tx_buffer_head] = data;
serial_tx_buffer_head = next_head;
// Enable Data Register Empty Interrupt to make sure tx-streaming is running
UCSR0B |= (1 << UDRIE0);
}
// Data Register Empty Interrupt handler
ISR(SERIAL_UDRE)
{
uint8_t tail = serial_tx_buffer_tail; // Temporary serial_tx_buffer_tail (to optimize for volatile)
#ifdef ENABLE_XONXOFF
if (flow_ctrl == SEND_XOFF) {
UDR0 = XOFF_CHAR;
flow_ctrl = XOFF_SENT;
} else if (flow_ctrl == SEND_XON) {
UDR0 = XON_CHAR;
flow_ctrl = XON_SENT;
} else
#endif
{
// Send a byte from the buffer
UDR0 = serial_tx_buffer[tail];
// Update tail position
tail++;
if (tail == TX_BUFFER_SIZE) { tail = 0; }
serial_tx_buffer_tail = tail;
}
// Turn off Data Register Empty Interrupt to stop tx-streaming if this concludes the transfer
if (tail == serial_tx_buffer_head) { UCSR0B &= ~(1 << UDRIE0); }
}
// Fetches the first byte in the serial read buffer. Called by main program.
uint8_t serial_read()
{
uint8_t tail = serial_rx_buffer_tail; // Temporary serial_rx_buffer_tail (to optimize for volatile)
if (serial_rx_buffer_head == tail) {
return SERIAL_NO_DATA;
} else {
uint8_t data = serial_rx_buffer[tail];
tail++;
if (tail == RX_BUFFER_SIZE) { tail = 0; }
serial_rx_buffer_tail = tail;
#ifdef ENABLE_XONXOFF
if ((serial_get_rx_buffer_count() < RX_BUFFER_LOW) && flow_ctrl == XOFF_SENT) {
flow_ctrl = SEND_XON;
UCSR0B |= (1 << UDRIE0); // Force TX
}
#endif
return data;
}
}
ISR(SERIAL_RX)
{
uint8_t data = UDR0;
uint8_t next_head;
// Pick off runtime command characters directly from the serial stream. These characters are
// not passed into the buffer, but these set system state flag bits for runtime execution.
switch (data) {
case CMD_STATUS_REPORT: bit_true_atomic(sys.execute, EXEC_STATUS_REPORT); break; // Set as true
case CMD_CYCLE_START: bit_true_atomic(sys.execute, EXEC_CYCLE_START); break; // Set as true
case CMD_FEED_HOLD: bit_true_atomic(sys.execute, EXEC_FEED_HOLD); break; // Set as true
case CMD_RESET: mc_reset(); break; // Call motion control reset routine.
default: // Write character to buffer
next_head = serial_rx_buffer_head + 1;
if (next_head == RX_BUFFER_SIZE) { next_head = 0; }
// Write data to buffer unless it is full.
if (next_head != serial_rx_buffer_tail) {
serial_rx_buffer[serial_rx_buffer_head] = data;
serial_rx_buffer_head = next_head;
#ifdef ENABLE_XONXOFF
if ((serial_get_rx_buffer_count() >= RX_BUFFER_FULL) && flow_ctrl == XON_SENT) {
flow_ctrl = SEND_XOFF;
UCSR0B |= (1 << UDRIE0); // Force TX
}
#endif
}
//TODO: else alarm on overflow?
}
}
void serial_reset_read_buffer()
{
serial_rx_buffer_tail = serial_rx_buffer_head;
#ifdef ENABLE_XONXOFF
flow_ctrl = XON_SENT;
#endif
}