rt-thread/bsp/stm32/libraries/HAL_Drivers/drivers/drv_usart.c

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/*
2023-01-09 10:20:16 +08:00
* Copyright (c) 2006-2023, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
2019-01-22 10:00:45 +08:00
* 2018-10-30 SummerGift first version
2020-03-23 15:35:27 +08:00
* 2020-03-16 SummerGift add device close feature
* 2020-03-20 SummerGift fix bug caused by ORE
* 2020-05-02 whj4674672 support stm32h7 uart dma
2021-03-08 22:40:39 +08:00
* 2020-09-09 forest-rain support stm32wl uart
2020-10-14 15:02:23 +08:00
* 2020-10-14 Dozingfiretruck Porting for stm32wbxx
*/
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#include "board.h"
#include "drv_usart.h"
#include "drv_config.h"
#ifdef RT_USING_SERIAL
//#define DRV_DEBUG
#define LOG_TAG "drv.usart"
#include <drv_log.h>
#if !defined(BSP_USING_UART1) && !defined(BSP_USING_UART2) && !defined(BSP_USING_UART3) && \
!defined(BSP_USING_UART4) && !defined(BSP_USING_UART5) && !defined(BSP_USING_UART6) && \
!defined(BSP_USING_UART7) && !defined(BSP_USING_UART8) && !defined(BSP_USING_LPUART1)
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#error "Please define at least one BSP_USING_UARTx"
/* this driver can be disabled at menuconfig -> RT-Thread Components -> Device Drivers */
#endif
#ifdef RT_SERIAL_USING_DMA
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static void stm32_dma_config(struct rt_serial_device *serial, rt_ubase_t flag);
#endif
enum
{
#ifdef BSP_USING_UART1
UART1_INDEX,
#endif
#ifdef BSP_USING_UART2
UART2_INDEX,
#endif
#ifdef BSP_USING_UART3
UART3_INDEX,
#endif
#ifdef BSP_USING_UART4
UART4_INDEX,
#endif
#ifdef BSP_USING_UART5
UART5_INDEX,
#endif
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#ifdef BSP_USING_UART6
UART6_INDEX,
#endif
#ifdef BSP_USING_UART7
UART7_INDEX,
#endif
#ifdef BSP_USING_UART8
UART8_INDEX,
#endif
#ifdef BSP_USING_LPUART1
LPUART1_INDEX,
#endif
};
static struct stm32_uart_config uart_config[] =
{
#ifdef BSP_USING_UART1
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UART1_CONFIG,
#endif
#ifdef BSP_USING_UART2
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UART2_CONFIG,
#endif
#ifdef BSP_USING_UART3
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UART3_CONFIG,
#endif
#ifdef BSP_USING_UART4
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UART4_CONFIG,
#endif
#ifdef BSP_USING_UART5
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UART5_CONFIG,
#endif
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#ifdef BSP_USING_UART6
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UART6_CONFIG,
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#endif
#ifdef BSP_USING_UART7
UART7_CONFIG,
#endif
#ifdef BSP_USING_UART8
UART8_CONFIG,
#endif
#ifdef BSP_USING_LPUART1
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LPUART1_CONFIG,
#endif
};
static struct stm32_uart uart_obj[sizeof(uart_config) / sizeof(uart_config[0])] = {0};
rt_uint32_t stm32_uart_get_mask(rt_uint32_t word_length, rt_uint32_t parity)
{
rt_uint32_t mask = 0x00FFU;
if (word_length == UART_WORDLENGTH_8B)
{
if (parity == UART_PARITY_NONE)
{
mask = 0x00FFU ;
}
else
{
mask = 0x007FU ;
}
}
#ifdef UART_WORDLENGTH_9B
else if (word_length == UART_WORDLENGTH_9B)
{
if (parity == UART_PARITY_NONE)
{
mask = 0x01FFU ;
}
else
{
mask = 0x00FFU ;
}
}
#endif
#ifdef UART_WORDLENGTH_7B
else if (word_length == UART_WORDLENGTH_7B)
{
if (parity == UART_PARITY_NONE)
{
mask = 0x007FU ;
}
else
{
mask = 0x003FU ;
}
}
else
{
mask = 0x0000U;
}
#endif
return mask;
}
static rt_err_t stm32_configure(struct rt_serial_device *serial, struct serial_configure *cfg)
{
struct stm32_uart *uart;
RT_ASSERT(serial != RT_NULL);
RT_ASSERT(cfg != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
uart->handle.Instance = uart->config->Instance;
uart->handle.Init.BaudRate = cfg->baud_rate;
uart->handle.Init.Mode = UART_MODE_TX_RX;
#ifdef USART_CR1_OVER8
uart->handle.Init.OverSampling = cfg->baud_rate > 5000000 ? UART_OVERSAMPLING_8 : UART_OVERSAMPLING_16;
#else
uart->handle.Init.OverSampling = UART_OVERSAMPLING_16;
#endif /* USART_CR1_OVER8 */
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switch (cfg->flowcontrol)
{
case RT_SERIAL_FLOWCONTROL_NONE:
uart->handle.Init.HwFlowCtl = UART_HWCONTROL_NONE;
break;
case RT_SERIAL_FLOWCONTROL_CTSRTS:
uart->handle.Init.HwFlowCtl = UART_HWCONTROL_RTS_CTS;
break;
default:
uart->handle.Init.HwFlowCtl = UART_HWCONTROL_NONE;
break;
}
switch (cfg->data_bits)
{
case DATA_BITS_8:
if (cfg->parity == PARITY_ODD || cfg->parity == PARITY_EVEN)
uart->handle.Init.WordLength = UART_WORDLENGTH_9B;
else
uart->handle.Init.WordLength = UART_WORDLENGTH_8B;
break;
case DATA_BITS_9:
uart->handle.Init.WordLength = UART_WORDLENGTH_9B;
break;
default:
uart->handle.Init.WordLength = UART_WORDLENGTH_8B;
break;
}
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switch (cfg->stop_bits)
{
case STOP_BITS_1:
uart->handle.Init.StopBits = UART_STOPBITS_1;
break;
case STOP_BITS_2:
uart->handle.Init.StopBits = UART_STOPBITS_2;
break;
default:
uart->handle.Init.StopBits = UART_STOPBITS_1;
break;
}
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switch (cfg->parity)
{
case PARITY_NONE:
uart->handle.Init.Parity = UART_PARITY_NONE;
break;
case PARITY_ODD:
uart->handle.Init.Parity = UART_PARITY_ODD;
break;
case PARITY_EVEN:
uart->handle.Init.Parity = UART_PARITY_EVEN;
break;
default:
uart->handle.Init.Parity = UART_PARITY_NONE;
break;
}
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#ifdef RT_SERIAL_USING_DMA
if (!(serial->parent.open_flag & RT_DEVICE_OFLAG_OPEN)) {
uart->dma_rx.remaining_cnt = cfg->bufsz;
}
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#endif
if (HAL_UART_Init(&uart->handle) != HAL_OK)
{
return -RT_ERROR;
}
uart->DR_mask = stm32_uart_get_mask(uart->handle.Init.WordLength, uart->handle.Init.Parity);
return RT_EOK;
}
static rt_err_t stm32_control(struct rt_serial_device *serial, int cmd, void *arg)
{
struct stm32_uart *uart;
#ifdef RT_SERIAL_USING_DMA
rt_ubase_t ctrl_arg = (rt_ubase_t)arg;
#endif
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RT_ASSERT(serial != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
switch (cmd)
{
/* disable interrupt */
case RT_DEVICE_CTRL_CLR_INT:
/* disable rx irq */
NVIC_DisableIRQ(uart->config->irq_type);
/* disable interrupt */
__HAL_UART_DISABLE_IT(&(uart->handle), UART_IT_RXNE);
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#ifdef RT_SERIAL_USING_DMA
/* disable DMA */
if (ctrl_arg == RT_DEVICE_FLAG_DMA_RX)
{
HAL_NVIC_DisableIRQ(uart->config->dma_rx->dma_irq);
if (HAL_DMA_Abort(&(uart->dma_rx.handle)) != HAL_OK)
{
RT_ASSERT(0);
}
if (HAL_DMA_DeInit(&(uart->dma_rx.handle)) != HAL_OK)
{
RT_ASSERT(0);
}
}
else if(ctrl_arg == RT_DEVICE_FLAG_DMA_TX)
{
HAL_NVIC_DisableIRQ(uart->config->dma_tx->dma_irq);
if (HAL_DMA_DeInit(&(uart->dma_tx.handle)) != HAL_OK)
{
RT_ASSERT(0);
}
}
#endif
break;
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/* enable interrupt */
case RT_DEVICE_CTRL_SET_INT:
/* enable rx irq */
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HAL_NVIC_SetPriority(uart->config->irq_type, 1, 0);
HAL_NVIC_EnableIRQ(uart->config->irq_type);
/* enable interrupt */
__HAL_UART_ENABLE_IT(&(uart->handle), UART_IT_RXNE);
break;
#ifdef RT_SERIAL_USING_DMA
case RT_DEVICE_CTRL_CONFIG:
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stm32_dma_config(serial, ctrl_arg);
break;
#endif
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case RT_DEVICE_CTRL_CLOSE:
if (HAL_UART_DeInit(&(uart->handle)) != HAL_OK )
{
RT_ASSERT(0)
}
break;
}
return RT_EOK;
}
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static int stm32_putc(struct rt_serial_device *serial, char c)
{
struct stm32_uart *uart;
RT_ASSERT(serial != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
UART_INSTANCE_CLEAR_FUNCTION(&(uart->handle), UART_FLAG_TC);
#if defined(SOC_SERIES_STM32L4) || defined(SOC_SERIES_STM32WL) || defined(SOC_SERIES_STM32F7) || defined(SOC_SERIES_STM32F0) \
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|| defined(SOC_SERIES_STM32L0) || defined(SOC_SERIES_STM32G0) || defined(SOC_SERIES_STM32H7) || defined(SOC_SERIES_STM32L5) \
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|| defined(SOC_SERIES_STM32G4) || defined(SOC_SERIES_STM32MP1) || defined(SOC_SERIES_STM32WB) || defined(SOC_SERIES_STM32F3) \
|| defined(SOC_SERIES_STM32U5) || defined(SOC_SERIES_STM32H5)
uart->handle.Instance->TDR = c;
#else
uart->handle.Instance->DR = c;
#endif
while (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_TC) == RESET);
return 1;
}
static int stm32_getc(struct rt_serial_device *serial)
{
int ch;
struct stm32_uart *uart;
RT_ASSERT(serial != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
ch = -1;
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_RXNE) != RESET)
{
#if defined(SOC_SERIES_STM32L4) || defined(SOC_SERIES_STM32WL) || defined(SOC_SERIES_STM32F7) || defined(SOC_SERIES_STM32F0) \
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|| defined(SOC_SERIES_STM32L0) || defined(SOC_SERIES_STM32G0) || defined(SOC_SERIES_STM32H7) || defined(SOC_SERIES_STM32L5) \
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|| defined(SOC_SERIES_STM32G4) || defined(SOC_SERIES_STM32MP1) || defined(SOC_SERIES_STM32WB)|| defined(SOC_SERIES_STM32F3) \
|| defined(SOC_SERIES_STM32U5) || defined(SOC_SERIES_STM32H5)
ch = uart->handle.Instance->RDR & uart->DR_mask;
#else
ch = uart->handle.Instance->DR & uart->DR_mask;
#endif
}
return ch;
}
static rt_ssize_t stm32_dma_transmit(struct rt_serial_device *serial, rt_uint8_t *buf, rt_size_t size, int direction)
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{
struct stm32_uart *uart;
RT_ASSERT(serial != RT_NULL);
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RT_ASSERT(buf != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
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if (size == 0)
{
return 0;
}
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if (RT_SERIAL_DMA_TX == direction)
{
if (HAL_UART_Transmit_DMA(&uart->handle, buf, size) == HAL_OK)
{
return size;
}
else
{
return 0;
}
}
return 0;
}
#ifdef RT_SERIAL_USING_DMA
static void dma_recv_isr(struct rt_serial_device *serial, rt_uint8_t isr_flag)
{
struct stm32_uart *uart;
rt_base_t level;
rt_size_t recv_len, counter;
RT_ASSERT(serial != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
level = rt_hw_interrupt_disable();
recv_len = 0;
counter = __HAL_DMA_GET_COUNTER(&(uart->dma_rx.handle));
switch (isr_flag)
{
case UART_RX_DMA_IT_IDLE_FLAG:
if (counter <= uart->dma_rx.remaining_cnt)
recv_len = uart->dma_rx.remaining_cnt - counter;
else
recv_len = serial->config.bufsz + uart->dma_rx.remaining_cnt - counter;
break;
case UART_RX_DMA_IT_HT_FLAG:
if (counter < uart->dma_rx.remaining_cnt)
recv_len = uart->dma_rx.remaining_cnt - counter;
break;
case UART_RX_DMA_IT_TC_FLAG:
if(counter >= uart->dma_rx.remaining_cnt)
recv_len = serial->config.bufsz + uart->dma_rx.remaining_cnt - counter;
default:
break;
}
if (recv_len)
{
uart->dma_rx.remaining_cnt = counter;
rt_hw_serial_isr(serial, RT_SERIAL_EVENT_RX_DMADONE | (recv_len << 8));
}
rt_hw_interrupt_enable(level);
}
#endif
/**
* Uart common interrupt process. This need add to uart ISR.
*
* @param serial serial device
*/
static void uart_isr(struct rt_serial_device *serial)
{
struct stm32_uart *uart;
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RT_ASSERT(serial != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
/* UART in mode Receiver -------------------------------------------------*/
if ((__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_RXNE) != RESET) &&
(__HAL_UART_GET_IT_SOURCE(&(uart->handle), UART_IT_RXNE) != RESET))
{
rt_hw_serial_isr(serial, RT_SERIAL_EVENT_RX_IND);
}
#ifdef RT_SERIAL_USING_DMA
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else if ((uart->uart_dma_flag) && (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_IDLE) != RESET)
&& (__HAL_UART_GET_IT_SOURCE(&(uart->handle), UART_IT_IDLE) != RESET))
{
dma_recv_isr(serial, UART_RX_DMA_IT_IDLE_FLAG);
__HAL_UART_CLEAR_IDLEFLAG(&uart->handle);
}
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else if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_TC) &&
(__HAL_UART_GET_IT_SOURCE(&(uart->handle), UART_IT_TC) != RESET))
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{
if ((serial->parent.open_flag & RT_DEVICE_FLAG_DMA_TX) != 0)
{
HAL_UART_IRQHandler(&(uart->handle));
}
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UART_INSTANCE_CLEAR_FUNCTION(&(uart->handle), UART_FLAG_TC);
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}
#endif
else
{
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_ORE) != RESET)
{
__HAL_UART_CLEAR_OREFLAG(&uart->handle);
}
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_NE) != RESET)
{
__HAL_UART_CLEAR_NEFLAG(&uart->handle);
}
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_FE) != RESET)
{
__HAL_UART_CLEAR_FEFLAG(&uart->handle);
}
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_PE) != RESET)
{
__HAL_UART_CLEAR_PEFLAG(&uart->handle);
}
#if !defined(SOC_SERIES_STM32L4) && !defined(SOC_SERIES_STM32WL) && !defined(SOC_SERIES_STM32F7) && !defined(SOC_SERIES_STM32F0) \
&& !defined(SOC_SERIES_STM32L0) && !defined(SOC_SERIES_STM32G0) && !defined(SOC_SERIES_STM32H7) \
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&& !defined(SOC_SERIES_STM32G4) && !defined(SOC_SERIES_STM32MP1) && !defined(SOC_SERIES_STM32WB) \
&& !defined(SOC_SERIES_STM32L5) && !defined(SOC_SERIES_STM32U5) && !defined(SOC_SERIES_STM32H5)
#ifdef SOC_SERIES_STM32F3
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_LBDF) != RESET)
{
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UART_INSTANCE_CLEAR_FUNCTION(&(uart->handle), UART_FLAG_LBDF);
}
#else
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_LBD) != RESET)
{
UART_INSTANCE_CLEAR_FUNCTION(&(uart->handle), UART_FLAG_LBD);
}
#endif
#endif
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_CTS) != RESET)
{
UART_INSTANCE_CLEAR_FUNCTION(&(uart->handle), UART_FLAG_CTS);
}
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_TXE) != RESET)
{
UART_INSTANCE_CLEAR_FUNCTION(&(uart->handle), UART_FLAG_TXE);
}
if (__HAL_UART_GET_FLAG(&(uart->handle), UART_FLAG_RXNE) != RESET)
{
UART_INSTANCE_CLEAR_FUNCTION(&(uart->handle), UART_FLAG_RXNE);
}
}
}
#if defined(BSP_USING_UART1)
void USART1_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART1_INDEX].serial));
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/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART1_RX_USING_DMA)
void UART1_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
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HAL_DMA_IRQHandler(&uart_obj[UART1_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART1_RX_USING_DMA) */
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#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART1_TX_USING_DMA)
void UART1_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART1_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART1_TX_USING_DMA) */
#endif /* BSP_USING_UART1 */
#if defined(BSP_USING_UART2)
void USART2_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART2_INDEX].serial));
/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART2_RX_USING_DMA)
void UART2_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
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HAL_DMA_IRQHandler(&uart_obj[UART2_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART2_RX_USING_DMA) */
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#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART2_TX_USING_DMA)
void UART2_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART2_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART2_TX_USING_DMA) */
#endif /* BSP_USING_UART2 */
#if defined(BSP_USING_UART3)
void USART3_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART3_INDEX].serial));
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/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART3_RX_USING_DMA)
void UART3_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
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HAL_DMA_IRQHandler(&uart_obj[UART3_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(BSP_UART_USING_DMA_RX) && defined(BSP_UART3_RX_USING_DMA) */
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#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART3_TX_USING_DMA)
void UART3_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART3_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(BSP_UART_USING_DMA_TX) && defined(BSP_UART3_TX_USING_DMA) */
#endif /* BSP_USING_UART3*/
#if defined(BSP_USING_UART4)
void UART4_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART4_INDEX].serial));
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/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART4_RX_USING_DMA)
void UART4_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
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HAL_DMA_IRQHandler(&uart_obj[UART4_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(BSP_UART_USING_DMA_RX) && defined(BSP_UART4_RX_USING_DMA) */
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#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART4_TX_USING_DMA)
void UART4_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART4_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(BSP_UART_USING_DMA_TX) && defined(BSP_UART4_TX_USING_DMA) */
#endif /* BSP_USING_UART4*/
#if defined(BSP_USING_UART5)
void UART5_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART5_INDEX].serial));
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/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART5_RX_USING_DMA)
void UART5_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
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HAL_DMA_IRQHandler(&uart_obj[UART5_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART5_RX_USING_DMA) */
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#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART5_TX_USING_DMA)
void UART5_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART5_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART5_TX_USING_DMA) */
#endif /* BSP_USING_UART5*/
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#if defined(BSP_USING_UART6)
void USART6_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART6_INDEX].serial));
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/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART6_RX_USING_DMA)
void UART6_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
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HAL_DMA_IRQHandler(&uart_obj[UART6_INDEX].dma_rx.handle);
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/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART6_RX_USING_DMA) */
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#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART6_TX_USING_DMA)
void UART6_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART6_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART6_TX_USING_DMA) */
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#endif /* BSP_USING_UART6*/
#if defined(BSP_USING_UART7)
void UART7_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART7_INDEX].serial));
/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART7_RX_USING_DMA)
void UART7_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART7_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART7_RX_USING_DMA) */
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART7_TX_USING_DMA)
void UART7_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART7_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART7_TX_USING_DMA) */
#endif /* BSP_USING_UART7*/
#if defined(BSP_USING_UART8)
void UART8_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[UART8_INDEX].serial));
/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART8_RX_USING_DMA)
void UART8_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART8_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART8_RX_USING_DMA) */
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_UART8_TX_USING_DMA)
void UART8_DMA_TX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
HAL_DMA_IRQHandler(&uart_obj[UART8_INDEX].dma_tx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_UART8_TX_USING_DMA) */
#endif /* BSP_USING_UART8*/
#if defined(BSP_USING_LPUART1)
void LPUART1_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
uart_isr(&(uart_obj[LPUART1_INDEX].serial));
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/* leave interrupt */
rt_interrupt_leave();
}
#if defined(RT_SERIAL_USING_DMA) && defined(BSP_LPUART1_RX_USING_DMA)
void LPUART1_DMA_RX_IRQHandler(void)
{
/* enter interrupt */
rt_interrupt_enter();
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HAL_DMA_IRQHandler(&uart_obj[LPUART1_INDEX].dma_rx.handle);
/* leave interrupt */
rt_interrupt_leave();
}
#endif /* defined(RT_SERIAL_USING_DMA) && defined(BSP_LPUART1_RX_USING_DMA) */
#endif /* BSP_USING_LPUART1*/
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static void stm32_uart_get_dma_config(void)
{
#ifdef BSP_USING_UART1
uart_obj[UART1_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART1_RX_USING_DMA
uart_obj[UART1_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart1_dma_rx = UART1_DMA_RX_CONFIG;
uart_config[UART1_INDEX].dma_rx = &uart1_dma_rx;
#endif
#ifdef BSP_UART1_TX_USING_DMA
uart_obj[UART1_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart1_dma_tx = UART1_DMA_TX_CONFIG;
uart_config[UART1_INDEX].dma_tx = &uart1_dma_tx;
#endif
#endif
#ifdef BSP_USING_UART2
uart_obj[UART2_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART2_RX_USING_DMA
uart_obj[UART2_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart2_dma_rx = UART2_DMA_RX_CONFIG;
uart_config[UART2_INDEX].dma_rx = &uart2_dma_rx;
#endif
#ifdef BSP_UART2_TX_USING_DMA
uart_obj[UART2_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart2_dma_tx = UART2_DMA_TX_CONFIG;
uart_config[UART2_INDEX].dma_tx = &uart2_dma_tx;
#endif
#endif
#ifdef BSP_USING_UART3
uart_obj[UART3_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART3_RX_USING_DMA
uart_obj[UART3_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart3_dma_rx = UART3_DMA_RX_CONFIG;
uart_config[UART3_INDEX].dma_rx = &uart3_dma_rx;
#endif
#ifdef BSP_UART3_TX_USING_DMA
uart_obj[UART3_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart3_dma_tx = UART3_DMA_TX_CONFIG;
uart_config[UART3_INDEX].dma_tx = &uart3_dma_tx;
#endif
#endif
#ifdef BSP_USING_UART4
uart_obj[UART4_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART4_RX_USING_DMA
uart_obj[UART4_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart4_dma_rx = UART4_DMA_RX_CONFIG;
uart_config[UART4_INDEX].dma_rx = &uart4_dma_rx;
#endif
#ifdef BSP_UART4_TX_USING_DMA
uart_obj[UART4_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart4_dma_tx = UART4_DMA_TX_CONFIG;
uart_config[UART4_INDEX].dma_tx = &uart4_dma_tx;
#endif
#endif
#ifdef BSP_USING_UART5
uart_obj[UART5_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART5_RX_USING_DMA
uart_obj[UART5_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart5_dma_rx = UART5_DMA_RX_CONFIG;
uart_config[UART5_INDEX].dma_rx = &uart5_dma_rx;
#endif
#ifdef BSP_UART5_TX_USING_DMA
uart_obj[UART5_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart5_dma_tx = UART5_DMA_TX_CONFIG;
uart_config[UART5_INDEX].dma_tx = &uart5_dma_tx;
#endif
#endif
#ifdef BSP_USING_UART6
uart_obj[UART6_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART6_RX_USING_DMA
uart_obj[UART6_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart6_dma_rx = UART6_DMA_RX_CONFIG;
uart_config[UART6_INDEX].dma_rx = &uart6_dma_rx;
#endif
#ifdef BSP_UART6_TX_USING_DMA
uart_obj[UART6_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart6_dma_tx = UART6_DMA_TX_CONFIG;
uart_config[UART6_INDEX].dma_tx = &uart6_dma_tx;
#endif
#endif
#ifdef BSP_USING_UART7
uart_obj[UART7_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART7_RX_USING_DMA
uart_obj[UART7_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart7_dma_rx = UART7_DMA_RX_CONFIG;
uart_config[UART7_INDEX].dma_rx = &uart7_dma_rx;
#endif
#ifdef BSP_UART7_TX_USING_DMA
uart_obj[UART7_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart7_dma_tx = UART7_DMA_TX_CONFIG;
uart_config[UART7_INDEX].dma_tx = &uart7_dma_tx;
#endif
#endif
#ifdef BSP_USING_UART8
uart_obj[UART8_INDEX].uart_dma_flag = 0;
#ifdef BSP_UART8_RX_USING_DMA
uart_obj[UART8_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_RX;
static struct dma_config uart8_dma_rx = UART8_DMA_RX_CONFIG;
uart_config[UART8_INDEX].dma_rx = &uart8_dma_rx;
#endif
#ifdef BSP_UART8_TX_USING_DMA
uart_obj[UART8_INDEX].uart_dma_flag |= RT_DEVICE_FLAG_DMA_TX;
static struct dma_config uart8_dma_tx = UART8_DMA_TX_CONFIG;
uart_config[UART8_INDEX].dma_tx = &uart8_dma_tx;
#endif
#endif
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}
#ifdef RT_SERIAL_USING_DMA
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static void stm32_dma_config(struct rt_serial_device *serial, rt_ubase_t flag)
{
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struct rt_serial_rx_fifo *rx_fifo;
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DMA_HandleTypeDef *DMA_Handle;
struct dma_config *dma_config;
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struct stm32_uart *uart;
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RT_ASSERT(serial != RT_NULL);
RT_ASSERT(flag == RT_DEVICE_FLAG_DMA_TX || flag == RT_DEVICE_FLAG_DMA_RX);
uart = rt_container_of(serial, struct stm32_uart, serial);
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if (RT_DEVICE_FLAG_DMA_RX == flag)
{
DMA_Handle = &uart->dma_rx.handle;
dma_config = uart->config->dma_rx;
}
else /* RT_DEVICE_FLAG_DMA_TX == flag */
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{
DMA_Handle = &uart->dma_tx.handle;
dma_config = uart->config->dma_tx;
}
LOG_D("%s dma config start", uart->config->name);
{
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rt_uint32_t tmpreg = 0x00U;
#if defined(SOC_SERIES_STM32F1) || defined(SOC_SERIES_STM32F0) || defined(SOC_SERIES_STM32G0) \
|| defined(SOC_SERIES_STM32L0)|| defined(SOC_SERIES_STM32F3) || defined(SOC_SERIES_STM32L1)
/* enable DMA clock && Delay after an RCC peripheral clock enabling*/
SET_BIT(RCC->AHBENR, dma_config->dma_rcc);
tmpreg = READ_BIT(RCC->AHBENR, dma_config->dma_rcc);
#elif defined(SOC_SERIES_STM32F4) || defined(SOC_SERIES_STM32F7) || defined(SOC_SERIES_STM32L4) || defined(SOC_SERIES_STM32WL) \
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|| defined(SOC_SERIES_STM32G4)|| defined(SOC_SERIES_STM32H7) || defined(SOC_SERIES_STM32WB)
/* enable DMA clock && Delay after an RCC peripheral clock enabling*/
SET_BIT(RCC->AHB1ENR, dma_config->dma_rcc);
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tmpreg = READ_BIT(RCC->AHB1ENR, dma_config->dma_rcc);
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#elif defined(SOC_SERIES_STM32MP1)
/* enable DMA clock && Delay after an RCC peripheral clock enabling*/
SET_BIT(RCC->MP_AHB2ENSETR, dma_config->dma_rcc);
tmpreg = READ_BIT(RCC->MP_AHB2ENSETR, dma_config->dma_rcc);
#endif
#if (defined(SOC_SERIES_STM32L4) || defined(SOC_SERIES_STM32WL) || defined(SOC_SERIES_STM32G4) || defined(SOC_SERIES_STM32WB)) && defined(DMAMUX1)
/* enable DMAMUX clock for L4+ and G4 */
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__HAL_RCC_DMAMUX1_CLK_ENABLE();
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#elif defined(SOC_SERIES_STM32MP1)
__HAL_RCC_DMAMUX_CLK_ENABLE();
#endif
UNUSED(tmpreg); /* To avoid compiler warnings */
}
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if (RT_DEVICE_FLAG_DMA_RX == flag)
{
__HAL_LINKDMA(&(uart->handle), hdmarx, uart->dma_rx.handle);
}
else if (RT_DEVICE_FLAG_DMA_TX == flag)
{
__HAL_LINKDMA(&(uart->handle), hdmatx, uart->dma_tx.handle);
}
#if defined(SOC_SERIES_STM32F1) || defined(SOC_SERIES_STM32F0) || defined(SOC_SERIES_STM32L0)|| defined(SOC_SERIES_STM32F3) || defined(SOC_SERIES_STM32L1) || defined(SOC_SERIES_STM32U5) || defined(SOC_SERIES_STM32H5)
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DMA_Handle->Instance = dma_config->Instance;
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#elif defined(SOC_SERIES_STM32F4) || defined(SOC_SERIES_STM32F7)
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DMA_Handle->Instance = dma_config->Instance;
DMA_Handle->Init.Channel = dma_config->channel;
#elif defined(SOC_SERIES_STM32L4) || defined(SOC_SERIES_STM32WL) || defined(SOC_SERIES_STM32G0) || defined(SOC_SERIES_STM32G4) || defined(SOC_SERIES_STM32WB)\
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|| defined(SOC_SERIES_STM32H7) || defined(SOC_SERIES_STM32MP1)
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DMA_Handle->Instance = dma_config->Instance;
DMA_Handle->Init.Request = dma_config->request;
#endif
DMA_Handle->Init.PeriphInc = DMA_PINC_DISABLE;
DMA_Handle->Init.MemInc = DMA_MINC_ENABLE;
DMA_Handle->Init.PeriphDataAlignment = DMA_PDATAALIGN_BYTE;
DMA_Handle->Init.MemDataAlignment = DMA_MDATAALIGN_BYTE;
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if (RT_DEVICE_FLAG_DMA_RX == flag)
{
DMA_Handle->Init.Direction = DMA_PERIPH_TO_MEMORY;
DMA_Handle->Init.Mode = DMA_CIRCULAR;
}
else if (RT_DEVICE_FLAG_DMA_TX == flag)
{
DMA_Handle->Init.Direction = DMA_MEMORY_TO_PERIPH;
DMA_Handle->Init.Mode = DMA_NORMAL;
}
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DMA_Handle->Init.Priority = DMA_PRIORITY_MEDIUM;
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#if defined(SOC_SERIES_STM32F4) || defined(SOC_SERIES_STM32F7) || defined(SOC_SERIES_STM32H7) || defined(SOC_SERIES_STM32MP1)
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DMA_Handle->Init.FIFOMode = DMA_FIFOMODE_DISABLE;
#endif
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if (HAL_DMA_DeInit(DMA_Handle) != HAL_OK)
{
RT_ASSERT(0);
}
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if (HAL_DMA_Init(DMA_Handle) != HAL_OK)
{
RT_ASSERT(0);
}
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/* enable interrupt */
if (flag == RT_DEVICE_FLAG_DMA_RX)
{
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rx_fifo = (struct rt_serial_rx_fifo *)serial->serial_rx;
/* Start DMA transfer */
if (HAL_UART_Receive_DMA(&(uart->handle), rx_fifo->buffer, serial->config.bufsz) != HAL_OK)
{
/* Transfer error in reception process */
RT_ASSERT(0);
}
CLEAR_BIT(uart->handle.Instance->CR3, USART_CR3_EIE);
__HAL_UART_ENABLE_IT(&(uart->handle), UART_IT_IDLE);
}
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/* DMA irq should set in DMA TX mode, or HAL_UART_TxCpltCallback function will not be called */
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HAL_NVIC_SetPriority(dma_config->dma_irq, 0, 0);
HAL_NVIC_EnableIRQ(dma_config->dma_irq);
HAL_NVIC_SetPriority(uart->config->irq_type, 1, 0);
HAL_NVIC_EnableIRQ(uart->config->irq_type);
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LOG_D("%s dma %s instance: %x", uart->config->name, flag == RT_DEVICE_FLAG_DMA_RX ? "RX" : "TX", DMA_Handle->Instance);
LOG_D("%s dma config done", uart->config->name);
}
/**
* @brief UART error callbacks
* @param huart: UART handle
* @note This example shows a simple way to report transfer error, and you can
* add your own implementation.
* @retval None
*/
void HAL_UART_ErrorCallback(UART_HandleTypeDef *huart)
{
RT_ASSERT(huart != NULL);
struct stm32_uart *uart = (struct stm32_uart *)huart;
LOG_D("%s: %s %d\n", __FUNCTION__, uart->config->name, huart->ErrorCode);
UNUSED(uart);
}
/**
* @brief Rx Transfer completed callback
* @param huart: UART handle
* @note This example shows a simple way to report end of DMA Rx transfer, and
* you can add your own implementation.
* @retval None
*/
void HAL_UART_RxCpltCallback(UART_HandleTypeDef *huart)
{
struct stm32_uart *uart;
RT_ASSERT(huart != NULL);
uart = (struct stm32_uart *)huart;
dma_recv_isr(&uart->serial, UART_RX_DMA_IT_TC_FLAG);
}
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/**
* @brief Rx Half transfer completed callback
* @param huart: UART handle
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* @note This example shows a simple way to report end of DMA Rx Half transfer,
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* and you can add your own implementation.
* @retval None
*/
void HAL_UART_RxHalfCpltCallback(UART_HandleTypeDef *huart)
{
struct stm32_uart *uart;
RT_ASSERT(huart != NULL);
uart = (struct stm32_uart *)huart;
dma_recv_isr(&uart->serial, UART_RX_DMA_IT_HT_FLAG);
}
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static void _dma_tx_complete(struct rt_serial_device *serial)
{
struct stm32_uart *uart;
rt_size_t trans_total_index;
rt_base_t level;
RT_ASSERT(serial != RT_NULL);
uart = rt_container_of(serial, struct stm32_uart, serial);
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level = rt_hw_interrupt_disable();
trans_total_index = __HAL_DMA_GET_COUNTER(&(uart->dma_tx.handle));
rt_hw_interrupt_enable(level);
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if (trans_total_index == 0)
{
rt_hw_serial_isr(serial, RT_SERIAL_EVENT_TX_DMADONE);
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}
}
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/**
* @brief HAL_UART_TxCpltCallback
* @param huart: UART handle
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* @note This callback can be called by two functions, first in UART_EndTransmit_IT when
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* UART Tx complete and second in UART_DMATransmitCplt function in DMA Circular mode.
* @retval None
*/
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void HAL_UART_TxCpltCallback(UART_HandleTypeDef *huart)
{
struct stm32_uart *uart;
RT_ASSERT(huart != NULL);
uart = (struct stm32_uart *)huart;
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_dma_tx_complete(&uart->serial);
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}
#endif /* RT_SERIAL_USING_DMA */
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static const struct rt_uart_ops stm32_uart_ops =
{
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.configure = stm32_configure,
.control = stm32_control,
.putc = stm32_putc,
.getc = stm32_getc,
.dma_transmit = stm32_dma_transmit
};
int rt_hw_usart_init(void)
{
struct serial_configure config = RT_SERIAL_CONFIG_DEFAULT;
rt_err_t result = 0;
stm32_uart_get_dma_config();
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for (rt_size_t i = 0; i < sizeof(uart_obj) / sizeof(struct stm32_uart); i++)
{
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/* init UART object */
uart_obj[i].config = &uart_config[i];
uart_obj[i].serial.ops = &stm32_uart_ops;
uart_obj[i].serial.config = config;
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/* register UART device */
result = rt_hw_serial_register(&uart_obj[i].serial, uart_obj[i].config->name,
RT_DEVICE_FLAG_RDWR
| RT_DEVICE_FLAG_INT_RX
| RT_DEVICE_FLAG_INT_TX
| uart_obj[i].uart_dma_flag
, NULL);
RT_ASSERT(result == RT_EOK);
}
return result;
}
#endif /* RT_USING_SERIAL */