rt-thread-official/bsp/acm32/acm32f4xx-nucleo/libraries/HAL_Driver/Src/HAL_LPUART.c

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2021-09-22 17:14:47 +08:00
/*
******************************************************************************
* @file HAL_LPUART.c
* @version V1.0.0
* @date 2020
* @brief LPUART HAL module driver.
* This file provides firmware functions to manage the following
* functionalities of the Universal Asynchronous Receiver Transmitter Peripheral (LPUART).
* @ Initialization and de-initialization functions
* @ IO operation functions
* @ Peripheral Control functions
******************************************************************************
*/
#include "ACM32Fxx_HAL.h"
/*********************************************************************************
* Function : HAL_LPUART_IRQHander
* Description : LPUART IRQHander
* Input :
* Outpu :
* Author : CWT Data : 2020<EFBFBD><EFBFBD>
**********************************************************************************/
void HAL_LPUART_IRQHander(LPUART_HandleTypeDef *hlpuart)
{
while ( (hlpuart->Instance->SR) & (1U << LPUART_SR_RX_INDEX))
{
if(hlpuart->rx_read_index != (((hlpuart->rx_write_index) + 1)% (hlpuart->rx_buffer_size) ) )
{
hlpuart->rx_buffer[hlpuart->rx_write_index] = hlpuart->Instance->RXDR;
hlpuart->rx_write_index = ((hlpuart->rx_write_index + 1)%(hlpuart->rx_buffer_size) );
}
else
{
hlpuart->Instance->SR = (1U << LPUART_SR_RX_INDEX); // buffer overflow
return;
}
}
}
/************************************************************************
* function : HAL_UART_Buffer_Init
* Description: uart buffer initiation.
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* return: 0: FAIL; 1: SUCCESS
************************************************************************/
HAL_StatusTypeDef HAL_LPUART_Buffer_Init(LPUART_HandleTypeDef *hlpuart)
{
if(0x00 == IS_LPUART_INSTANCE(hlpuart->Instance))
{
return HAL_ERROR;
}
hlpuart->rx_read_index = 0;
hlpuart->rx_write_index = 0;
hlpuart->tx_busy = 0;
return HAL_OK;
}
/**********************************************************************************
* function : HAL_LPUART_MSPInit
* Description: UART MCU specific initiation, such as IO share, module clock, ...
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* return: 0: FAIL; 1: SUCCESS
***************************************************************************************/
__weak void HAL_LPUART_MSPInit(LPUART_HandleTypeDef *hlpuart)
{
GPIO_InitTypeDef gpio_init;
System_Module_Reset(RST_LPUART);
gpio_init.Pin = GPIO_PIN_2|GPIO_PIN_3; // TX PA2 RX PA3
gpio_init.Mode = GPIO_MODE_AF_PP;
gpio_init.Pull = GPIO_PULLUP;
gpio_init.Alternate = GPIO_FUNCTION_6;
HAL_GPIO_Init(GPIOA,&gpio_init);
System_Module_Enable(EN_LPUART);
}
/*********************************************************************************
* Function : HAL_LPUART_MspDeInit
* Description : LPUART MSP De-Initialization
* This function frees the hardware resources used in this example:
* - Disable the Peripheral's clock
* - Revert GPIO configuration to their default state
* Input : hcan : pointer to a CAN_HandleTypeDef structure that contains
* the configuration information for CAN module
* Output :
* Author : CWT Data : 2020<EFBFBD><EFBFBD>
**********************************************************************************/
void HAL_LPUART_MspDeInit(LPUART_HandleTypeDef *hlpuart)
{
GPIO_InitTypeDef GPIO_InitStructure;
/* Initialization GPIO */
/* // TX PA2 RX PA3 */
HAL_GPIO_DeInit(GPIOA, GPIO_PIN_2);
HAL_GPIO_DeInit(GPIOA, GPIO_PIN_3);
}
/**********************************************************************************
* function : HAL_LPUART_Set_Baud_Rate
* Description: set uart module's baud rate. It should be set when UART is disabled.
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* return: 0: FAIL; 1: SUCCESS
***************************************************************************************/
uint8_t HAL_LPUART_Set_Baud_Rate(LPUART_HandleTypeDef *hlpuart, uint32_t lpuart_clk, uint32_t baud_rate)
{
uint32_t ibaud, fbaud, rxsamp;
if(0x00 == IS_LPUART_INSTANCE(hlpuart->Instance))
{
return 0;
}
ibaud = 2;
fbaud = 0x952;
rxsamp = 1;
switch(lpuart_clk)
{
case 32000:
case 32768:
switch(baud_rate)
{
case 9600:
ibaud = 2;
fbaud = 0x952;
break;
case 4800:
ibaud = 5;
fbaud = 0xefb;
break;
case 2400:
ibaud = 12;
fbaud = 0x6db;
break;
case 1200:
ibaud = 26;
fbaud = 0x492;
break;
default:
ibaud = 2;
fbaud = 0x952;
break;
}
rxsamp = ibaud >> 1;
break;
case 1875000: // for ABP CLK=120M/2=60M lpuart clk = 60M/32=1.875M
switch(baud_rate)
{
case 256000:
ibaud = 6;
fbaud = 0x888;
break;
case 115200:
ibaud = 15;
fbaud = 0x888;
break;
}
rxsamp = ibaud >> 1;
break;
default: // for ABP CLK=180M/2=90M lpuart clk = 90M/32=2.8125M
switch(baud_rate)
{
case 256000:
ibaud = 9; //2.8125M/256000=10.984 ibaud=(10-1)
fbaud = 0x7FE; // 0.984 *11=10
break;
case 115200:
ibaud = 23; //2.8125M/115200=24.4140625 ibaud=(24-1)
fbaud = 0x249; //0.4140625*11=4
break;
}
rxsamp = ibaud >> 1;
break;
}
hlpuart->Instance->IBAUD = ibaud | (rxsamp << 8);
hlpuart->Instance->FBAUD = fbaud;
return 1;
}
/************************************************************************
* function : HAL_LPUART_Config
* Description: Configure UART module parameters, such as baudrate, parity,
* stop bits, dataword.
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* return: 0: FAIL; 1: SUCCESS
************************************************************************/
uint8_t HAL_LPUART_Config(LPUART_HandleTypeDef *hlpuart)
{
volatile uint32_t temp_reg;
if(0x00 == IS_LPUART_INSTANCE(hlpuart->Instance))
{
return 0;
}
temp_reg = 1U << 7; // default value
temp_reg |= ((hlpuart->ConfigParam.WordLength << 4) | (hlpuart->ConfigParam.StopBits << 3));
switch(hlpuart->ConfigParam.Parity)
{
case LPUART_PARITY_NONE:
break; // do nothing
case LPUART_PARITY_SELECT_ODD:
case LPUART_PARITY_SELECT_EVEN:
temp_reg |= (((hlpuart->ConfigParam.Parity - LPUART_PARITY_SELECT_ODD) << LPUART_EPS_INDEX) | (1 << LPUART_PEN_INDEX));
break;
case LPUART_PARITY_SELECT_ONE:
case LPUART_PARITY_SELECT_ZERO:
temp_reg |= (((hlpuart->ConfigParam.Parity - LPUART_PARITY_SELECT_ONE) << LPUART_EPS_INDEX) | (1 << LPUART_SPS_INDEX) | (1 << LPUART_PEN_INDEX) );
break;
}
hlpuart->Instance->LCR = temp_reg;
return 1;
}
/*********************************************************************************
* Function : LPUART_Clock_Select
* Description : Select the LPUART clock.
* Input : lpuart_clk_src:Could be LPUART_CLOCK_SOURCE_RC32K LPUART_CLOCK_SOURCE_XTAL LPUART_CLOCK_SOURCE_PLL_DIV
* Outpu :
* Author : CWT Data : 2020<EFBFBD><EFBFBD>
**********************************************************************************/
void LPUART_Clock_Select(uint8_t lpuart_clk_src)
{
if (0 == lpuart_clk_src)
{
SCU->CCR2 &= (~(BIT13 | BIT14) ); // RC32K
}
else if (1 == lpuart_clk_src)
{
SCU->CCR2 = (SCU->CCR2 & (~(BIT13 | BIT14) )) | (BIT13); // XTAL
}
else
{
SCU->CCR2 = (SCU->CCR2 & (~(BIT11 | BIT12| BIT13 | BIT14) )) | (BIT11 | BIT12 | BIT14); // pclk/32
}
}
/************************************************************************
* function : HAL_LPUART_Init
* Description: uart initial with parameters.
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* return: 0: FAIL; 1: SUCCESS
************************************************************************/
HAL_StatusTypeDef HAL_LPUART_Init(LPUART_HandleTypeDef *hlpuart)
{
uint32_t lpuart_clock;
if(0x00 == IS_LPUART_INSTANCE(hlpuart->Instance))
{
return HAL_ERROR;;
}
HAL_LPUART_Buffer_Init(hlpuart);
/*reset module, configure tx and rx, enable module clock*/
HAL_LPUART_MSPInit(hlpuart);
if (LPUART_CLOCK_SOURCE_RC32K == hlpuart->ConfigParam.ClockSrc)
{
lpuart_clock = 32000;
System_Module_Enable(EN_RTC);
System_Enable_Disable_RTC_Domain_Access(FUNC_ENABLE);
System_Enable_RC32K();
LPUART_Clock_Select(0);
}
else if (LPUART_CLOCK_SOURCE_XTAL == hlpuart->ConfigParam.ClockSrc)
{
lpuart_clock = 32768;
System_Module_Enable(EN_RTC);
System_Enable_Disable_RTC_Domain_Access(FUNC_ENABLE);
System_Enable_XTAL();
LPUART_Clock_Select(1);
}
else
{
lpuart_clock = System_Get_APBClock()/32;
LPUART_Clock_Select(2);
}
HAL_LPUART_Set_Baud_Rate(hlpuart, lpuart_clock, hlpuart->ConfigParam.BaudRate);
HAL_LPUART_Config(hlpuart);
hlpuart->Instance->SR = LPUART_SR_BITS_ALL;
hlpuart->Instance->IE = (1U << LPUART_IE_RX_INDEX);
hlpuart->Instance->CR = (1U << LPUART_CR_RXE_INDEX) | (1 << LPUART_CR_TXE_INDEX);
hlpuart->Instance->LCR=((hlpuart->StopWakeup.Wakeup_Source<<5)|(hlpuart->StopWakeup.Wakeup_Check<<7));
hlpuart->Instance->ADDR=(hlpuart->StopWakeup.Wakeup_Addr);
NVIC_ClearPendingIRQ(LPUART_IRQn);
NVIC_EnableIRQ(LPUART_IRQn);
return HAL_OK;;
}
HAL_StatusTypeDef HAL_LPUART_DeInit(LPUART_HandleTypeDef *hlpuart)
{
/* Check handle */
if(!IS_LPUART_INSTANCE(hlpuart->Instance)) return HAL_ERROR;
HAL_LPUART_MspDeInit(hlpuart);
/* Disable LPUART clock */
System_Module_Disable(EN_LPUART);
/* Return function status */
return HAL_OK;
}
/************************************************************************
* function : HAL_LPUART_Wait_TX_Done
* Description: wait uart not busy
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* return: 0: FAIL; 1: SUCCESS
************************************************************************/
HAL_StatusTypeDef HAL_LPUART_Wait_TX_Done(LPUART_HandleTypeDef *hlpuart)
{
while (0 == (hlpuart->Instance->SR & (1 << LPUART_SR_TX_FINISH_INDEX) ) ) {};
hlpuart->Instance->SR = (1 << LPUART_SR_TX_FINISH_INDEX);
return HAL_OK;
}
void HAL_LPUART_Output(LPUART_HandleTypeDef *hlpuart, unsigned char c)
{
if ((hlpuart->Instance->SR) & (1U << LPUART_SR_TX_EMPTY_INDEX) )
{
hlpuart->Instance->TXDR = c;
}
HAL_LPUART_Wait_TX_Done(hlpuart);
}
/************************************************************************
* function : uart_send_bytes
* Description: uart send bytes
* input :
* UINT32 uart_index: Serial port number
* UINT8* buff: out buffer
* UINT32 length: buffer length
* return: none
************************************************************************/
void HAL_LPUART_Send_Bytes(LPUART_HandleTypeDef *hlpuart, uint8_t *buff, uint32_t length)
{
uint32_t i;
for (i = 0; i < length; i++)
{
HAL_LPUART_Output(hlpuart, *buff++);
}
}
/************************************************************************
* function : HAL_LPUART_Receive_Bytes_Timeout
* Description: uart receive bytes
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* UINT8* buff: out buffer
* UINT32 length: buffer length
* UINT32 ms: number of ms to delay one byte
* return: received bytes
************************************************************************/
uint32_t HAL_LPUART_Receive_Bytes_Timeout(LPUART_HandleTypeDef *hlpuart, uint8_t * rxbuff, uint32_t length, uint32_t ms)
{
volatile uint32_t i, timeout, count;;
if(0x00 == IS_LPUART_INSTANCE(hlpuart->Instance))
{
return 0;
}
timeout = (System_Get_APBClock() >> 13) * ms;
count = timeout;
i = 0;
while(i < length)
{
if((hlpuart->rx_read_index) != (hlpuart->rx_write_index))
{
rxbuff[i] = hlpuart->rx_buffer[hlpuart->rx_read_index];
hlpuart->rx_read_index = (((hlpuart->rx_read_index) + 1)%(hlpuart->rx_buffer_size) );
count = timeout;
i++;
}
else
{
if (0 == count)//timeout
{
break;
}
else
{
count--;
}
}
}
return i;
}
/************************************************************************
* function : HAL_LPUART_Receive_Bytes
* Description: LPUART receive bytes.
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* buff:receive data buff
* length:length of buff
* return:length
************************************************************************/
uint32_t HAL_LPUART_Receive_Bytes(LPUART_HandleTypeDef *hlpuart, uint8_t * rxbuff, uint32_t length)
{
volatile uint32_t i, ie_backup;
if(0x00 == IS_LPUART_INSTANCE(hlpuart->Instance))
{
return 0;
}
ie_backup = hlpuart->Instance->IE;
hlpuart->Instance->IE = 0;
i = 0;
while(i < length)
{
if( (hlpuart->Instance->SR) & (1U << LPUART_SR_RX_INDEX) )
{
rxbuff[i] = hlpuart->Instance->RXDR;
i++;
}
}
hlpuart->Instance->IE = ie_backup;
return length;
}
/************************************************************************
* function : HAL_LPUART_DMA_Send_Bytes
* Description: LPUART send bytes by DMA.
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* buff:send data buff
* length:length of buff
* return:none
************************************************************************/
void HAL_LPUART_DMA_Send_Bytes(LPUART_HandleTypeDef *hlpuart, uint8_t *buff, uint32_t length)
{
hlpuart->Instance->CR |= (1U << LPUART_CR_DMA_EN_INDEX);
hlpuart->tx_busy = 1;
HAL_DMA_Start_IT(hlpuart->dma_tx_handler, (uint32_t)buff, (uint32_t)&hlpuart->Instance->TXDR, length);
}
/************************************************************************
* function : HAL_LPUART_Clear_Wakeup_Flags
* Description: Clear the LPUART STOP wake up flag.
* input :
* UART_HandleTypeDef *huart: pointer to uart handle structure
* Wakeup_Bits:LPUART wakeup flag,could be: LPUART_WAKEUP_RX_BIT LPUART_WAKEUP_MATCH_BIT LPUART_WAKEUP_START_BIT
* return:none
************************************************************************/
void HAL_LPUART_Clear_Wakeup_Flags(LPUART_HandleTypeDef *hlpuart, uint32_t Wakeup_Bits)
{
hlpuart->Instance->SR = Wakeup_Bits;
}