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usart.c
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usart.c
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/*
* This file is part of the libopencm3 project.
*
* Copyright (C) 2009 Uwe Hermann <[email protected]>,
* Copyright (C) 2011 Piotr Esden-Tempski <[email protected]>
*
* 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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include "stm32-slcan.h"
#include <libopencm3/stm32/dma.h>
#define BUFFER_SIZE 2048
#define USART2_SPEED 2000000
#define RING_SIZE(RING) ((RING)->size - 1)
#define RING_DATA(RING) (RING)->data
#define RING_EMPTY(RING) ((RING)->begin == (RING)->end)
void dma_rx_poll(void);
int _write(int file, char* ptr, int len);
static void dma_read(void);
static void ring_init(struct ring* ring, uint8_t* buf, ring_size_t size)
{
ring->data = buf;
ring->size = size;
ring->begin = 0;
ring->end = 0;
}
int32_t ring_write_ch(struct ring* ring, uint8_t ch)
{
if (((ring->end + 1) % ring->size) != ring->begin) {
ring->data[ring->end++] = ch;
ring->end %= ring->size;
return (uint32_t)ch;
}
return -1;
}
int32_t ring_write(struct ring* ring, uint8_t* data, ring_size_t size)
{
int32_t i;
for (i = 0; i < size; i++) {
if (ring_write_ch(ring, data[i]) < 0)
return -i;
}
return i;
}
int32_t ring_read_ch(struct ring* ring, uint8_t* ch)
{
int32_t ret = -1;
if (ring->begin != ring->end) {
ret = ring->data[ring->begin++];
ring->begin %= ring->size;
if (ch)
*ch = ret;
}
return ret;
}
int32_t ring_bytes_free(const struct ring* rb)
{
if (rb->end >= rb->begin)
return BUFFER_SIZE - (rb->end - rb->begin);
else
return rb->begin - rb->end - 1;
}
struct ring output_ring;
struct ring input_ring;
uint8_t output_ring_buffer[BUFFER_SIZE];
uint8_t input_ring_buffer[BUFFER_SIZE];
void usart_setup(void)
{
/* Initialize output ring buffer. */
ring_init(&output_ring, output_ring_buffer, BUFFER_SIZE);
ring_init(&input_ring, input_ring_buffer, BUFFER_SIZE);
/* Enable the USART2 interrupt. */
nvic_enable_irq(NVIC_USART2_IRQ);
/* Setup GPIO pin GPIO_USART2_TX on GPIO port A for transmit. */
gpio_set_mode(GPIOA, GPIO_MODE_OUTPUT_50_MHZ,
GPIO_CNF_OUTPUT_ALTFN_PUSHPULL, GPIO_USART2_TX);
/* Setup GPIO pin GPIO_USART2_RX on GPIO port A for receive. */
gpio_set_mode(GPIOA, GPIO_MODE_INPUT, GPIO_CNF_INPUT_FLOAT, GPIO_USART2_RX);
/* Setup UART parameters. */
usart_set_baudrate(USART2, USART2_SPEED);
usart_set_databits(USART2, 8);
usart_set_stopbits(USART2, USART_STOPBITS_1);
usart_set_parity(USART2, USART_PARITY_NONE);
/* TODO use hardware handshaking */
usart_set_flow_control(USART2, USART_FLOWCONTROL_NONE);
usart_set_mode(USART2, USART_MODE_TX_RX);
/* Enable USART2 Receive interrupt. */
USART_CR1(USART2) |= USART_CR1_RXNEIE;
/* Finally enable the USART. */
usart_enable(USART2);
dma_read();
}
uint8_t dma_rx_buf[1024];
volatile uint32_t dma_last_rx_poll = 0;
void dma_rx_poll(void)
{
uint32_t n = sizeof(dma_rx_buf) - dma_get_number_of_data(DMA1, DMA_CHANNEL6);
int to_read = (n - dma_last_rx_poll);
if (to_read < 0) {
for (unsigned int i = dma_last_rx_poll; i < sizeof(dma_rx_buf); i++) {
ring_write_ch(&input_ring, dma_rx_buf[i % sizeof(dma_rx_buf)]);
}
to_read = 0;
n = 0;
}
if (to_read) {
for (unsigned int i = dma_last_rx_poll; i < dma_last_rx_poll + to_read; i++) {
ring_write_ch(&input_ring, dma_rx_buf[i % sizeof(dma_rx_buf)]);
}
}
dma_last_rx_poll = n;
}
static void dma_read()
{
/* Reset DMA channel*/
dma_channel_reset(DMA1, DMA_CHANNEL6);
dma_set_peripheral_address(DMA1, DMA_CHANNEL6, (uint32_t)&USART2_DR);
dma_set_memory_address(DMA1, DMA_CHANNEL6, (uint32_t)dma_rx_buf);
dma_set_number_of_data(DMA1, DMA_CHANNEL6, sizeof(dma_rx_buf));
dma_set_read_from_peripheral(DMA1, DMA_CHANNEL6);
dma_enable_memory_increment_mode(DMA1, DMA_CHANNEL6);
dma_enable_circular_mode(DMA1, DMA_CHANNEL6);
dma_set_peripheral_size(DMA1, DMA_CHANNEL6, DMA_CCR_PSIZE_8BIT);
dma_set_memory_size(DMA1, DMA_CHANNEL6, DMA_CCR_MSIZE_8BIT);
dma_set_priority(DMA1, DMA_CHANNEL6, DMA_CCR_PL_HIGH);
//dma_enable_transfer_complete_interrupt(DMA1, DMA_CHANNEL6);
dma_enable_channel(DMA1, DMA_CHANNEL6);
usart_enable_rx_dma(USART2);
}
void usart2_isr(void)
{
uint8_t c;
volatile uint32_t sr = USART_SR(USART2);
volatile uint32_t cr1 = USART_CR1(USART2);
/* Check if we were called because of TXE. */
if (((sr & USART_SR_TXE) != 0)) {
volatile int32_t data;
data = ring_read_ch(&output_ring, NULL);
if (data == -1) {
/* Disable the TXE interrupt, it's no longer needed. */
USART_CR1(USART2) &= ~USART_CR1_TXEIE;
} else {
/* Put data into the transmit register. */
usart_send(USART2, data);
}
}
}
int _write(int file, char* ptr, int len)
{
int ret;
if (file == 1) {
ret = ring_write(&output_ring, (uint8_t*)ptr, len);
if (ret < 0)
ret = -ret;
USART_CR1(USART2) |= USART_CR1_TXEIE;
return ret;
}
errno = EIO;
return -1;
}
uint8_t uart_read_blocking()
{
int32_t ret;
uint8_t c;
do {
dma_rx_poll();
ret = ring_read_ch(&input_ring, &c);
} while (ret == -1);
return c;
}