gd32f30x_usart.c
29.8 KB
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/*!
\file gd32f30x_usart.c
\brief USART driver
\version 2017-02-10, V1.0.0, firmware for GD32F30x
\version 2018-10-10, V1.1.0, firmware for GD32F30x
\version 2018-12-25, V2.0.0, firmware for GD32F30x
\version 2020-09-30, V2.1.0, firmware for GD32F30x
*/
/*
Copyright (c) 2020, GigaDevice Semiconductor Inc.
Redistribution and use in source and binary forms, with or without modification,
are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice, this
list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
3. Neither the name of the copyright holder nor the names of its contributors
may be used to endorse or promote products derived from this software without
specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
OF SUCH DAMAGE.
*/
#include "gd32f30x_usart.h"
/* USART register bit offset */
#define GP_GUAT_OFFSET ((uint32_t)8U) /* bit offset of GUAT in USART_GP */
#define CTL3_SCRTNUM_OFFSET ((uint32_t)1U) /* bit offset of SCRTNUM in USART_CTL3 */
#define RT_BL_OFFSET ((uint32_t)24U) /* bit offset of BL in USART_RT */
/*!
\brief reset USART/UART
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_deinit(uint32_t usart_periph)
{
switch(usart_periph){
case USART0:
/* reset USART0 */
rcu_periph_reset_enable(RCU_USART0RST);
rcu_periph_reset_disable(RCU_USART0RST);
break;
case USART1:
/* reset USART1 */
rcu_periph_reset_enable(RCU_USART1RST);
rcu_periph_reset_disable(RCU_USART1RST);
break;
case USART2:
/* reset USART2 */
rcu_periph_reset_enable(RCU_USART2RST);
rcu_periph_reset_disable(RCU_USART2RST);
break;
case UART3:
/* reset UART3 */
rcu_periph_reset_enable(RCU_UART3RST);
rcu_periph_reset_disable(RCU_UART3RST);
break;
case UART4:
/* reset UART4 */
rcu_periph_reset_enable(RCU_UART4RST);
rcu_periph_reset_disable(RCU_UART4RST);
break;
default:
break;
}
}
/*!
\brief configure USART baud rate value
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] baudval: baud rate value
\param[out] none
\retval none
*/
void usart_baudrate_set(uint32_t usart_periph, uint32_t baudval)
{
uint32_t uclk=0U, intdiv=0U, fradiv=0U, udiv=0U;
switch(usart_periph){
/* get clock frequency */
case USART0:
/* get USART0 clock */
uclk = rcu_clock_freq_get(CK_APB2);
break;
case USART1:
/* get USART1 clock */
uclk = rcu_clock_freq_get(CK_APB1);
break;
case USART2:
/* get USART2 clock */
uclk = rcu_clock_freq_get(CK_APB1);
break;
case UART3:
/* get UART3 clock */
uclk = rcu_clock_freq_get(CK_APB1);
break;
case UART4:
/* get UART4 clock */
uclk = rcu_clock_freq_get(CK_APB1);
break;
default:
break;
}
/* oversampling by 16, configure the value of USART_BAUD */
udiv = (uclk+baudval/2U)/baudval;
intdiv = udiv & 0xfff0U;
fradiv = udiv & 0xfU;
USART_BAUD(usart_periph) = ((USART_BAUD_FRADIV | USART_BAUD_INTDIV) & (intdiv | fradiv));
}
/*!
\brief configure USART parity
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] paritycfg: configure USART parity
only one parameter can be selected which is shown as below:
\arg USART_PM_NONE: no parity
\arg USART_PM_ODD: odd parity
\arg USART_PM_EVEN: even parity
\param[out] none
\retval none
*/
void usart_parity_config(uint32_t usart_periph, uint32_t paritycfg)
{
/* clear USART_CTL0 PM,PCEN bits */
USART_CTL0(usart_periph) &= ~(USART_CTL0_PM | USART_CTL0_PCEN);
/* configure USART parity mode */
USART_CTL0(usart_periph) |= paritycfg ;
}
/*!
\brief configure USART word length
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] wlen: USART word length configure
only one parameter can be selected which is shown as below:
\arg USART_WL_8BIT: 8 bits
\arg USART_WL_9BIT: 9 bits
\param[out] none
\retval none
*/
void usart_word_length_set(uint32_t usart_periph, uint32_t wlen)
{
/* clear USART_CTL0 WL bit */
USART_CTL0(usart_periph) &= ~USART_CTL0_WL;
/* configure USART word length */
USART_CTL0(usart_periph) |= wlen;
}
/*!
\brief configure USART stop bit length
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] stblen: USART stop bit configure
only one parameter can be selected which is shown as below:
\arg USART_STB_1BIT: 1 bit
\arg USART_STB_0_5BIT: 0.5 bit, not available for UARTx(x=3,4)
\arg USART_STB_2BIT: 2 bits
\arg USART_STB_1_5BIT: 1.5 bits, not available for UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_stop_bit_set(uint32_t usart_periph, uint32_t stblen)
{
/* clear USART_CTL1 STB bits */
USART_CTL1(usart_periph) &= ~USART_CTL1_STB;
/* configure USART stop bits */
USART_CTL1(usart_periph) |= stblen;
}
/*!
\brief enable USART
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_enable(uint32_t usart_periph)
{
USART_CTL0(usart_periph) |= USART_CTL0_UEN;
}
/*!
\brief disable USART
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_disable(uint32_t usart_periph)
{
USART_CTL0(usart_periph) &= ~(USART_CTL0_UEN);
}
/*!
\brief configure USART transmitter
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] txconfig: enable or disable USART transmitter
only one parameter can be selected which is shown as below:
\arg USART_TRANSMIT_ENABLE: enable USART transmission
\arg USART_TRANSMIT_DISABLE: enable USART transmission
\param[out] none
\retval none
*/
void usart_transmit_config(uint32_t usart_periph, uint32_t txconfig)
{
uint32_t ctl = 0U;
ctl = USART_CTL0(usart_periph);
ctl &= ~USART_CTL0_TEN;
ctl |= txconfig;
/* configure transfer mode */
USART_CTL0(usart_periph) = ctl;
}
/*!
\brief configure USART receiver
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] rxconfig: enable or disable USART receiver
only one parameter can be selected which is shown as below:
\arg USART_RECEIVE_ENABLE: enable USART reception
\arg USART_RECEIVE_DISABLE: disable USART reception
\param[out] none
\retval none
*/
void usart_receive_config(uint32_t usart_periph, uint32_t rxconfig)
{
uint32_t ctl = 0U;
ctl = USART_CTL0(usart_periph);
ctl &= ~USART_CTL0_REN;
ctl |= rxconfig;
/* configure transfer mode */
USART_CTL0(usart_periph) = ctl;
}
/*!
\brief data is transmitted/received with the LSB/MSB first
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] msbf: LSB/MSB
only one parameter can be selected which is shown as below:
\arg USART_MSBF_LSB: LSB first
\arg USART_MSBF_MSB: MSB first
\param[out] none
\retval none
*/
void usart_data_first_config(uint32_t usart_periph, uint32_t msbf)
{
USART_CTL3(usart_periph) &= ~(USART_CTL3_MSBF);
USART_CTL3(usart_periph) |= msbf;
}
/*!
\brief configure USART inversion
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] invertpara: refer to enum usart_invert_enum
only one parameter can be selected which is shown as below:
\arg USART_DINV_ENABLE: data bit level inversion
\arg USART_DINV_DISABLE: data bit level not inversion
\arg USART_TXPIN_ENABLE: TX pin level inversion
\arg USART_TXPIN_DISABLE: TX pin level not inversion
\arg USART_RXPIN_ENABLE: RX pin level inversion
\arg USART_RXPIN_DISABLE: RX pin level not inversion
\param[out] none
\retval none
*/
void usart_invert_config(uint32_t usart_periph, usart_invert_enum invertpara)
{
/* inverted or not the specified siginal */
switch(invertpara){
case USART_DINV_ENABLE:
/* data bit level inversion */
USART_CTL3(usart_periph) |= USART_CTL3_DINV;
break;
case USART_TXPIN_ENABLE:
/* TX pin level inversion */
USART_CTL3(usart_periph) |= USART_CTL3_TINV;
break;
case USART_RXPIN_ENABLE:
/* RX pin level inversion */
USART_CTL3(usart_periph) |= USART_CTL3_RINV;
break;
case USART_DINV_DISABLE:
/* data bit level not inversion */
USART_CTL3(usart_periph) &= ~(USART_CTL3_DINV);
break;
case USART_TXPIN_DISABLE:
/* TX pin level not inversion */
USART_CTL3(usart_periph) &= ~(USART_CTL3_TINV);
break;
case USART_RXPIN_DISABLE:
/* RX pin level not inversion */
USART_CTL3(usart_periph) &= ~(USART_CTL3_RINV);
break;
default:
break;
}
}
/*!
\brief enable receiver timeout of USART
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_receiver_timeout_enable(uint32_t usart_periph)
{
USART_CTL3(usart_periph) |= USART_CTL3_RTEN;
}
/*!
\brief disable receiver timeout of USART
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_receiver_timeout_disable(uint32_t usart_periph)
{
USART_CTL3(usart_periph) &= ~(USART_CTL3_RTEN);
}
/*!
\brief set the receiver timeout threshold of USART
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] rtimeout: 0-0xFFFFFF
\param[out] none
\retval none
*/
void usart_receiver_timeout_threshold_config(uint32_t usart_periph, uint32_t rtimeout)
{
USART_RT(usart_periph) &= ~(USART_RT_RT);
USART_RT(usart_periph) |= rtimeout;
}
/*!
\brief USART transmit data function
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] data: data of transmission
\param[out] none
\retval none
*/
void usart_data_transmit(uint32_t usart_periph, uint32_t data)
{
USART_DATA(usart_periph) = ((uint16_t)USART_DATA_DATA & data);
}
/*!
\brief USART receive data function
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval data of received
*/
uint16_t usart_data_receive(uint32_t usart_periph)
{
return (uint16_t)(GET_BITS(USART_DATA(usart_periph), 0U, 8U));
}
/*!
\brief configure the address of the USART in wake up by address match mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] addr: address of USART/UART
\param[out] none
\retval none
*/
void usart_address_config(uint32_t usart_periph, uint8_t addr)
{
USART_CTL1(usart_periph) &= ~(USART_CTL1_ADDR);
USART_CTL1(usart_periph) |= (USART_CTL1_ADDR & addr);
}
/*!
\brief receiver in mute mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_mute_mode_enable(uint32_t usart_periph)
{
USART_CTL0(usart_periph) |= USART_CTL0_RWU;
}
/*!
\brief receiver in active mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_mute_mode_disable(uint32_t usart_periph)
{
USART_CTL0(usart_periph) &= ~(USART_CTL0_RWU);
}
/*!
\brief configure wakeup method in mute mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] wmethod: two methods be used to enter or exit the mute mode
only one parameter can be selected which is shown as below:
\arg USART_WM_IDLE: idle line
\arg USART_WM_ADDR: address mask
\param[out] none
\retval none
*/
void usart_mute_mode_wakeup_config(uint32_t usart_periph, uint32_t wmethod)
{
USART_CTL0(usart_periph) &= ~(USART_CTL0_WM);
USART_CTL0(usart_periph) |= wmethod;
}
/*!
\brief enable LIN mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_lin_mode_enable(uint32_t usart_periph)
{
USART_CTL1(usart_periph) |= USART_CTL1_LMEN;
}
/*!
\brief disable LIN mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_lin_mode_disable(uint32_t usart_periph)
{
USART_CTL1(usart_periph) &= ~(USART_CTL1_LMEN);
}
/*!
\brief configure lin break frame length
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] lblen: lin break frame length
only one parameter can be selected which is shown as below:
\arg USART_LBLEN_10B: 10 bits
\arg USART_LBLEN_11B: 11 bits
\param[out] none
\retval none
*/
void usart_lin_break_detection_length_config(uint32_t usart_periph, uint32_t lblen)
{
USART_CTL1(usart_periph) &= ~(USART_CTL1_LBLEN);
USART_CTL1(usart_periph) |= (USART_CTL1_LBLEN & lblen);
}
/*!
\brief send break frame
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_send_break(uint32_t usart_periph)
{
USART_CTL0(usart_periph) |= USART_CTL0_SBKCMD;
}
/*!
\brief enable half duplex mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_halfduplex_enable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) |= USART_CTL2_HDEN;
}
/*!
\brief disable half duplex mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_halfduplex_disable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) &= ~(USART_CTL2_HDEN);
}
/*!
\brief enable CK pin in synchronous mode
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_synchronous_clock_enable(uint32_t usart_periph)
{
USART_CTL1(usart_periph) |= USART_CTL1_CKEN;
}
/*!
\brief disable CK pin in synchronous mode
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_synchronous_clock_disable(uint32_t usart_periph)
{
USART_CTL1(usart_periph) &= ~(USART_CTL1_CKEN);
}
/*!
\brief configure USART synchronous mode parameters
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] clen: CK length
only one parameter can be selected which is shown as below:
\arg USART_CLEN_NONE: there are 7 CK pulses for an 8 bit frame and 8 CK pulses for a 9 bit frame
\arg USART_CLEN_EN: there are 8 CK pulses for an 8 bit frame and 9 CK pulses for a 9 bit frame
\param[in] cph: clock phase
only one parameter can be selected which is shown as below:
\arg USART_CPH_1CK: first clock transition is the first data capture edge
\arg USART_CPH_2CK: second clock transition is the first data capture edge
\param[in] cpl: clock polarity
only one parameter can be selected which is shown as below:
\arg USART_CPL_LOW: steady low value on CK pin
\arg USART_CPL_HIGH: steady high value on CK pin
\param[out] none
\retval none
*/
void usart_synchronous_clock_config(uint32_t usart_periph, uint32_t clen, uint32_t cph, uint32_t cpl)
{
uint32_t ctl = 0U;
/* read USART_CTL1 register */
ctl = USART_CTL1(usart_periph);
ctl &= ~(USART_CTL1_CLEN | USART_CTL1_CPH | USART_CTL1_CPL);
/* set CK length, CK phase, CK polarity */
ctl |= (USART_CTL1_CLEN & clen) | (USART_CTL1_CPH & cph) | (USART_CTL1_CPL & cpl);
USART_CTL1(usart_periph) = ctl;
}
/*!
\brief configure guard time value in smartcard mode
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] guat: guard time value, 0-0xFF
\param[out] none
\retval none
*/
void usart_guard_time_config(uint32_t usart_periph,uint32_t guat)
{
USART_GP(usart_periph) &= ~(USART_GP_GUAT);
USART_GP(usart_periph) |= (USART_GP_GUAT & ((guat)<<GP_GUAT_OFFSET));
}
/*!
\brief enable smartcard mode
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_smartcard_mode_enable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) |= USART_CTL2_SCEN;
}
/*!
\brief disable smartcard mode
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_smartcard_mode_disable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) &= ~(USART_CTL2_SCEN);
}
/*!
\brief enable NACK in smartcard mode
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_smartcard_mode_nack_enable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) |= USART_CTL2_NKEN;
}
/*!
\brief disable NACK in smartcard mode
\param[in] usart_periph: USARTx(x=0,1,2)
\param[out] none
\retval none
*/
void usart_smartcard_mode_nack_disable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) &= ~(USART_CTL2_NKEN);
}
/*!
\brief configure smartcard auto-retry number
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] scrtnum: smartcard auto-retry number
\param[out] none
\retval none
*/
void usart_smartcard_autoretry_config(uint32_t usart_periph, uint32_t scrtnum)
{
USART_CTL3(usart_periph) &= ~(USART_CTL3_SCRTNUM);
USART_CTL3(usart_periph) |= (USART_CTL3_SCRTNUM & ((scrtnum)<<CTL3_SCRTNUM_OFFSET));
}
/*!
\brief configure block length in Smartcard T=1 reception
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] bl: block length
\param[out] none
\retval none
*/
void usart_block_length_config(uint32_t usart_periph, uint32_t bl)
{
USART_RT(usart_periph) &= ~(USART_RT_BL);
USART_RT(usart_periph) |= (USART_RT_BL & ((bl)<<RT_BL_OFFSET));
}
/*!
\brief enable IrDA mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_irda_mode_enable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) |= USART_CTL2_IREN;
}
/*!
\brief disable IrDA mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[out] none
\retval none
*/
void usart_irda_mode_disable(uint32_t usart_periph)
{
USART_CTL2(usart_periph) &= ~(USART_CTL2_IREN);
}
/*!
\brief configure the peripheral clock prescaler in USART IrDA low-power mode
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] psc: 0x00-0xFF
\param[out] none
\retval none
*/
void usart_prescaler_config(uint32_t usart_periph, uint8_t psc)
{
USART_GP(usart_periph) &= ~(USART_GP_PSC);
USART_GP(usart_periph) |= psc;
}
/*!
\brief configure IrDA low-power
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] irlp: IrDA low-power or normal
only one parameter can be selected which is shown as below:
\arg USART_IRLP_LOW: low-power
\arg USART_IRLP_NORMAL: normal
\param[out] none
\retval none
*/
void usart_irda_lowpower_config(uint32_t usart_periph, uint32_t irlp)
{
USART_CTL2(usart_periph) &= ~(USART_CTL2_IRLP);
USART_CTL2(usart_periph) |= (USART_CTL2_IRLP & irlp);
}
/*!
\brief configure hardware flow control RTS
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] rtsconfig: enable or disable RTS
only one parameter can be selected which is shown as below:
\arg USART_RTS_ENABLE: enable RTS
\arg USART_RTS_DISABLE: disable RTS
\param[out] none
\retval none
*/
void usart_hardware_flow_rts_config(uint32_t usart_periph, uint32_t rtsconfig)
{
uint32_t ctl = 0U;
ctl = USART_CTL2(usart_periph);
ctl &= ~USART_CTL2_RTSEN;
ctl |= rtsconfig;
/* configure RTS */
USART_CTL2(usart_periph) = ctl;
}
/*!
\brief configure hardware flow control CTS
\param[in] usart_periph: USARTx(x=0,1,2)
\param[in] ctsconfig: enable or disable CTS
only one parameter can be selected which is shown as below:
\arg USART_CTS_ENABLE: enable CTS
\arg USART_CTS_DISABLE: disable CTS
\param[out] none
\retval none
*/
void usart_hardware_flow_cts_config(uint32_t usart_periph, uint32_t ctsconfig)
{
uint32_t ctl = 0U;
ctl = USART_CTL2(usart_periph);
ctl &= ~USART_CTL2_CTSEN;
ctl |= ctsconfig;
/* configure CTS */
USART_CTL2(usart_periph) = ctl;
}
/*!
\brief configure USART DMA reception
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3)
\param[in] dmacmd: enable or disable DMA for reception
only one parameter can be selected which is shown as below:
\arg USART_DENR_ENABLE: DMA enable for reception
\arg USART_DENR_DISABLE: DMA disable for reception
\param[out] none
\retval none
*/
void usart_dma_receive_config(uint32_t usart_periph, uint32_t dmacmd)
{
uint32_t ctl = 0U;
ctl = USART_CTL2(usart_periph);
ctl &= ~USART_CTL2_DENR;
ctl |= dmacmd;
/* configure DMA reception */
USART_CTL2(usart_periph) = ctl;
}
/*!
\brief configure USART DMA transmission
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3)
\param[in] dmacmd: enable or disable DMA for transmission
only one parameter can be selected which is shown as below:
\arg USART_DENT_ENABLE: DMA enable for transmission
\arg USART_DENT_DISABLE: DMA disable for transmission
\param[out] none
\retval none
*/
void usart_dma_transmit_config(uint32_t usart_periph, uint32_t dmacmd)
{
uint32_t ctl = 0U;
ctl = USART_CTL2(usart_periph);
ctl &= ~USART_CTL2_DENT;
ctl |= dmacmd;
/* configure DMA transmission */
USART_CTL2(usart_periph) = ctl;
}
/*!
\brief get flag in STAT0/STAT1 register
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] flag: USART flags, refer to usart_flag_enum
only one parameter can be selected which is shown as below:
\arg USART_FLAG_CTS: CTS change flag
\arg USART_FLAG_LBD: LIN break detected flag
\arg USART_FLAG_TBE: transmit data buffer empty
\arg USART_FLAG_TC: transmission complete
\arg USART_FLAG_RBNE: read data buffer not empty
\arg USART_FLAG_IDLE: IDLE frame detected flag
\arg USART_FLAG_ORERR: overrun error
\arg USART_FLAG_NERR: noise error flag
\arg USART_FLAG_FERR: frame error flag
\arg USART_FLAG_PERR: parity error flag
\arg USART_FLAG_BSY: busy flag
\arg USART_FLAG_EB: end of block flag
\arg USART_FLAG_RT: receiver timeout flag
\param[out] none
\retval FlagStatus: SET or RESET
*/
FlagStatus usart_flag_get(uint32_t usart_periph, usart_flag_enum flag)
{
if(RESET != (USART_REG_VAL(usart_periph, flag) & BIT(USART_BIT_POS(flag)))){
return SET;
}else{
return RESET;
}
}
/*!
\brief clear flag in STAT0/STAT1 register
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] flag: USART flags, refer to usart_flag_enum
only one parameter can be selected which is shown as below:
\arg USART_FLAG_CTS: CTS change flag
\arg USART_FLAG_LBD: LIN break detected flag
\arg USART_FLAG_TC: transmission complete
\arg USART_FLAG_RBNE: read data buffer not empty
\arg USART_FLAG_EB: end of block flag
\arg USART_FLAG_RT: receiver timeout flag
\param[out] none
\retval none
*/
void usart_flag_clear(uint32_t usart_periph, usart_flag_enum flag)
{
USART_REG_VAL(usart_periph, flag) &= ~BIT(USART_BIT_POS(flag));
}
/*!
\brief enable USART interrupt
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] interrupt: USART interrupts, refer to usart_interrupt_enum
only one parameter can be selected which is shown as below:
\arg USART_INT_PERR: parity error interrupt
\arg USART_INT_TBE: transmitter buffer empty interrupt
\arg USART_INT_TC: transmission complete interrupt
\arg USART_INT_RBNE: read data buffer not empty interrupt and overrun error interrupt
\arg USART_INT_IDLE: IDLE line detected interrupt
\arg USART_INT_LBD: LIN break detected interrupt
\arg USART_INT_ERR: error interrupt
\arg USART_INT_CTS: CTS interrupt
\arg USART_INT_RT: interrupt enable bit of receive timeout event
\arg USART_INT_EB: interrupt enable bit of end of block event
\param[out] none
\retval none
*/
void usart_interrupt_enable(uint32_t usart_periph, usart_interrupt_enum interrupt)
{
USART_REG_VAL(usart_periph, interrupt) |= BIT(USART_BIT_POS(interrupt));
}
/*!
\brief disable USART interrupt
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] interrupt: USART interrupts, refer to usart_interrupt_enum
only one parameter can be selected which is shown as below:
\arg USART_INT_PERR: parity error interrupt
\arg USART_INT_TBE: transmitter buffer empty interrupt
\arg USART_INT_TC: transmission complete interrupt
\arg USART_INT_RBNE: read data buffer not empty interrupt and overrun error interrupt
\arg USART_INT_IDLE: IDLE line detected interrupt
\arg USART_INT_LBD: LIN break detected interrupt
\arg USART_INT_ERR: error interrupt
\arg USART_INT_CTS: CTS interrupt
\arg USART_INT_RT: interrupt enable bit of receive timeout event
\arg USART_INT_EB: interrupt enable bit of end of block event
\param[out] none
\retval none
*/
void usart_interrupt_disable(uint32_t usart_periph, usart_interrupt_enum interrupt)
{
USART_REG_VAL(usart_periph, interrupt) &= ~BIT(USART_BIT_POS(interrupt));
}
/*!
\brief get USART interrupt and flag status
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] int_flag: USART interrupt flags, refer to usart_interrupt_flag_enum
only one parameter can be selected which is shown as below:
\arg USART_INT_FLAG_PERR: parity error interrupt and flag
\arg USART_INT_FLAG_TBE: transmitter buffer empty interrupt and flag
\arg USART_INT_FLAG_TC: transmission complete interrupt and flag
\arg USART_INT_FLAG_RBNE: read data buffer not empty interrupt and flag
\arg USART_INT_FLAG_RBNE_ORERR: read data buffer not empty interrupt and overrun error flag
\arg USART_INT_FLAG_IDLE: IDLE line detected interrupt and flag
\arg USART_INT_FLAG_LBD: LIN break detected interrupt and flag
\arg USART_INT_FLAG_CTS: CTS interrupt and flag
\arg USART_INT_FLAG_ERR_ORERR: error interrupt and overrun error
\arg USART_INT_FLAG_ERR_NERR: error interrupt and noise error flag
\arg USART_INT_FLAG_ERR_FERR: error interrupt and frame error flag
\arg USART_INT_FLAG_EB: interrupt enable bit of end of block event and flag
\arg USART_INT_FLAG_RT: interrupt enable bit of receive timeout event and flag
\param[out] none
\retval FlagStatus: SET or RESET
*/
FlagStatus usart_interrupt_flag_get(uint32_t usart_periph, usart_interrupt_flag_enum int_flag)
{
uint32_t intenable = 0U, flagstatus = 0U;
/* get the interrupt enable bit status */
intenable = (USART_REG_VAL(usart_periph, int_flag) & BIT(USART_BIT_POS(int_flag)));
/* get the corresponding flag bit status */
flagstatus = (USART_REG_VAL2(usart_periph, int_flag) & BIT(USART_BIT_POS2(int_flag)));
if((0U != flagstatus) && (0U != intenable)){
return SET;
}else{
return RESET;
}
}
/*!
\brief clear USART interrupt flag in STAT0/STAT1 register
\param[in] usart_periph: USARTx(x=0,1,2)/UARTx(x=3,4)
\param[in] int_flag: USART interrupt flags, refer to usart_interrupt_flag_enum
only one parameter can be selected which is shown as below:
\arg USART_INT_FLAG_CTS: CTS change flag
\arg USART_INT_FLAG_LBD: LIN break detected flag
\arg USART_INT_FLAG_TC: transmission complete
\arg USART_INT_FLAG_RBNE: read data buffer not empty
\arg USART_INT_FLAG_EB: end of block flag
\arg USART_INT_FLAG_RT: receiver timeout flag
\param[out] none
\retval none
*/
void usart_interrupt_flag_clear(uint32_t usart_periph, usart_interrupt_flag_enum int_flag)
{
USART_REG_VAL2(usart_periph, int_flag) &= ~BIT(USART_BIT_POS2(int_flag));
}