/** ******************************************************************************** * @file stm8s_uart3.c * @author MCD Application Team * @version V2.2.0 * @date 30-September-2014 * @brief This file contains all the functions for the uart3 peripheral. ****************************************************************************** * @attention * *

© COPYRIGHT 2014 STMicroelectronics

* * Licensed under MCD-ST Liberty SW License Agreement V2, (the "License"); * You may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.st.com/software_license_agreement_liberty_v2 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ****************************************************************************** */ /* Includes ------------------------------------------------------------------*/ #include "stm8s_uart3.h" /** @addtogroup STM8S_StdPeriph_Driver * @{ */ /* Private typedef -----------------------------------------------------------*/ /* Private define ------------------------------------------------------------*/ /* Private macro -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private function prototypes -----------------------------------------------*/ /* Private functions ---------------------------------------------------------*/ /* Public functions ----------------------------------------------------------*/ /** @} * @addtogroup UART3_Public_Functions * @{ */ /** * @brief Deinitializes the UART peripheral. * @param None * @retval None */ void UART3_DeInit(void) { /* Clear the Idle Line Detected bit in the status rerister by a read to the UART3_SR register followed by a Read to the UART3_DR register */ (void) UART3->SR; (void) UART3->DR; UART3->BRR2 = UART3_BRR2_RESET_VALUE; /*Set UART3_BRR2 to reset value 0x00 */ UART3->BRR1 = UART3_BRR1_RESET_VALUE; /*Set UART3_BRR1 to reset value 0x00 */ UART3->CR1 = UART3_CR1_RESET_VALUE; /*Set UART3_CR1 to reset value 0x00 */ UART3->CR2 = UART3_CR2_RESET_VALUE; /*Set UART3_CR2 to reset value 0x00 */ UART3->CR3 = UART3_CR3_RESET_VALUE; /*Set UART3_CR3 to reset value 0x00 */ UART3->CR4 = UART3_CR4_RESET_VALUE; /*Set UART3_CR4 to reset value 0x00 */ UART3->CR6 = UART3_CR6_RESET_VALUE; /*Set UART3_CR6 to reset value 0x00 */ } /** * @brief Initializes the UART3 according to the specified parameters. * @param BaudRate: The baudrate. * @param WordLength : This parameter can be any of * the @ref UART3_WordLength_TypeDef enumeration. * @param StopBits: This parameter can be any of the * @ref UART3_StopBits_TypeDef enumeration. * @param Parity: This parameter can be any of the * @ref UART3_Parity_TypeDef enumeration. * @param Mode: This parameter can be any of the @ref UART3_Mode_TypeDef values * @retval None */ void UART3_Init(uint32_t BaudRate, UART3_WordLength_TypeDef WordLength, UART3_StopBits_TypeDef StopBits, UART3_Parity_TypeDef Parity, UART3_Mode_TypeDef Mode) { uint8_t BRR2_1 = 0, BRR2_2 = 0; uint32_t BaudRate_Mantissa = 0, BaudRate_Mantissa100 = 0; /* Check the parameters */ assert_param(IS_UART3_WORDLENGTH_OK(WordLength)); assert_param(IS_UART3_STOPBITS_OK(StopBits)); assert_param(IS_UART3_PARITY_OK(Parity)); assert_param(IS_UART3_BAUDRATE_OK(BaudRate)); assert_param(IS_UART3_MODE_OK((uint8_t)Mode)); /* Clear the word length bit */ UART3->CR1 &= (uint8_t)(~UART3_CR1_M); /* Set the word length bit according to UART3_WordLength value */ UART3->CR1 |= (uint8_t)WordLength; /* Clear the STOP bits */ UART3->CR3 &= (uint8_t)(~UART3_CR3_STOP); /* Set the STOP bits number according to UART3_StopBits value */ UART3->CR3 |= (uint8_t)StopBits; /* Clear the Parity Control bit */ UART3->CR1 &= (uint8_t)(~(UART3_CR1_PCEN | UART3_CR1_PS)); /* Set the Parity Control bit to UART3_Parity value */ UART3->CR1 |= (uint8_t)Parity; /* Clear the LSB mantissa of UART3DIV */ UART3->BRR1 &= (uint8_t)(~UART3_BRR1_DIVM); /* Clear the MSB mantissa of UART3DIV */ UART3->BRR2 &= (uint8_t)(~UART3_BRR2_DIVM); /* Clear the Fraction bits of UART3DIV */ UART3->BRR2 &= (uint8_t)(~UART3_BRR2_DIVF); /* Set the UART3 BaudRates in BRR1 and BRR2 registers according to UART3_BaudRate value */ BaudRate_Mantissa = ((uint32_t)CLK_GetClockFreq() / (BaudRate << 4)); BaudRate_Mantissa100 = (((uint32_t)CLK_GetClockFreq() * 100) / (BaudRate << 4)); /* The fraction and MSB mantissa should be loaded in one step in the BRR2 register */ /* Set the fraction of UART3DIV */ BRR2_1 = (uint8_t)((uint8_t)(((BaudRate_Mantissa100 - (BaudRate_Mantissa * 100)) << 4) / 100) & (uint8_t)0x0F); BRR2_2 = (uint8_t)((BaudRate_Mantissa >> 4) & (uint8_t)0xF0); UART3->BRR2 = (uint8_t)(BRR2_1 | BRR2_2); /* Set the LSB mantissa of UART3DIV */ UART3->BRR1 = (uint8_t)BaudRate_Mantissa; if ((uint8_t)(Mode & UART3_MODE_TX_ENABLE)) { /* Set the Transmitter Enable bit */ UART3->CR2 |= UART3_CR2_TEN; } else { /* Clear the Transmitter Disable bit */ UART3->CR2 &= (uint8_t)(~UART3_CR2_TEN); } if ((uint8_t)(Mode & UART3_MODE_RX_ENABLE)) { /* Set the Receiver Enable bit */ UART3->CR2 |= UART3_CR2_REN; } else { /* Clear the Receiver Disable bit */ UART3->CR2 &= (uint8_t)(~UART3_CR2_REN); } } /** * @brief Enable the UART1 peripheral. * @param NewState : The new state of the UART Communication. * This parameter can be any of the @ref FunctionalState enumeration. * @retval None */ void UART3_Cmd(FunctionalState NewState) { if (NewState != DISABLE) { /* UART3 Enable */ UART3->CR1 &= (uint8_t)(~UART3_CR1_UARTD); } else { /* UART3 Disable */ UART3->CR1 |= UART3_CR1_UARTD; } } /** * @brief Enables or disables the specified UART3 interrupts. * @param UART3_IT specifies the UART3 interrupt sources to be enabled or disabled. * This parameter can be one of the following values: * - UART3_IT_LBDF: LIN Break detection interrupt * - UART3_IT_LHDF: LIN Break detection interrupt * - UART3_IT_TXE: Transmit Data Register empty interrupt * - UART3_IT_TC: Transmission complete interrupt * - UART3_IT_RXNE_OR: Receive Data register not empty/Over run error interrupt * - UART3_IT_IDLE: Idle line detection interrupt * - UART3_IT_PE: Parity Error interrupt * @param NewState new state of the specified UART3 interrupts. * This parameter can be: ENABLE or DISABLE. * @retval None */ void UART3_ITConfig(UART3_IT_TypeDef UART3_IT, FunctionalState NewState) { uint8_t uartreg = 0, itpos = 0x00; /* Check the parameters */ assert_param(IS_UART3_CONFIG_IT_OK(UART3_IT)); assert_param(IS_FUNCTIONALSTATE_OK(NewState)); /* Get the UART3 register index */ uartreg = (uint8_t)((uint16_t)UART3_IT >> 0x08); /* Get the UART3 IT index */ itpos = (uint8_t)((uint8_t)1 << (uint8_t)((uint8_t)UART3_IT & (uint8_t)0x0F)); if (NewState != DISABLE) { /* Enable the Interrupt bits according to UART3_IT mask */ if (uartreg == 0x01) { UART3->CR1 |= itpos; } else if (uartreg == 0x02) { UART3->CR2 |= itpos; } else if (uartreg == 0x03) { UART3->CR4 |= itpos; } else { UART3->CR6 |= itpos; } } else { /* Disable the interrupt bits according to UART3_IT mask */ if (uartreg == 0x01) { UART3->CR1 &= (uint8_t)(~itpos); } else if (uartreg == 0x02) { UART3->CR2 &= (uint8_t)(~itpos); } else if (uartreg == 0x03) { UART3->CR4 &= (uint8_t)(~itpos); } else { UART3->CR6 &= (uint8_t)(~itpos); } } } /** * @brief Sets the UART3 LIN Break detection length. * @param UART3_LINBreakDetectionLength specifies the LIN break detection length. * This parameter can be any of the * @ref UART3_LINBreakDetectionLength_TypeDef values. * @retval None */ void UART3_LINBreakDetectionConfig(UART3_LINBreakDetectionLength_TypeDef UART3_LINBreakDetectionLength) { /* Check the parameters */ assert_param(IS_UART3_LINBREAKDETECTIONLENGTH_OK(UART3_LINBreakDetectionLength)); if (UART3_LINBreakDetectionLength != UART3_LINBREAKDETECTIONLENGTH_10BITS) { UART3->CR4 |= UART3_CR4_LBDL; } else { UART3->CR4 &= ((uint8_t)~UART3_CR4_LBDL); } } /** * @brief Configure the UART3 peripheral. * @param UART3_Mode specifies the LIN mode. * This parameter can be any of the @ref UART3_LinMode_TypeDef values. * @param UART3_Autosync specifies the LIN automatic resynchronization mode. * This parameter can be any of the @ref UART3_LinAutosync_TypeDef values. * @param UART3_DivUp specifies the LIN divider update method. * This parameter can be any of the @ref UART3_LinDivUp_TypeDef values. * @retval None */ void UART3_LINConfig(UART3_LinMode_TypeDef UART3_Mode, UART3_LinAutosync_TypeDef UART3_Autosync, UART3_LinDivUp_TypeDef UART3_DivUp) { /* Check the parameters */ assert_param(IS_UART3_SLAVE_OK(UART3_Mode)); assert_param(IS_UART3_AUTOSYNC_OK(UART3_Autosync)); assert_param(IS_UART3_DIVUP_OK(UART3_DivUp)); if (UART3_Mode != UART3_LIN_MODE_MASTER) { UART3->CR6 |= UART3_CR6_LSLV; } else { UART3->CR6 &= ((uint8_t)~UART3_CR6_LSLV); } if (UART3_Autosync != UART3_LIN_AUTOSYNC_DISABLE) { UART3->CR6 |= UART3_CR6_LASE ; } else { UART3->CR6 &= ((uint8_t)~ UART3_CR6_LASE ); } if (UART3_DivUp != UART3_LIN_DIVUP_LBRR1) { UART3->CR6 |= UART3_CR6_LDUM; } else { UART3->CR6 &= ((uint8_t)~ UART3_CR6_LDUM); } } /** * @brief Enables or disables the UART3 LIN mode. * @param NewState is new state of the UART3 LIN mode. * This parameter can be ENABLE or DISABLE * @retval None */ void UART3_LINCmd(FunctionalState NewState) { /* Check the parameters */ assert_param(IS_FUNCTIONALSTATE_OK(NewState)); if (NewState != DISABLE) { /* Enable the LIN mode by setting the LINE bit in the CR2 register */ UART3->CR3 |= UART3_CR3_LINEN; } else { /* Disable the LIN mode by clearing the LINE bit in the CR2 register */ UART3->CR3 &= ((uint8_t)~UART3_CR3_LINEN); } } /** * @brief Selects the UART3 WakeUp method. * @param UART3_WakeUp: specifies the UART3 wakeup method. * This parameter can be any of the @ref UART3_WakeUp_TypeDef values. * @retval None */ void UART3_WakeUpConfig(UART3_WakeUp_TypeDef UART3_WakeUp) { /* Check the parameters */ assert_param(IS_UART3_WAKEUP_OK(UART3_WakeUp)); UART3->CR1 &= ((uint8_t)~UART3_CR1_WAKE); UART3->CR1 |= (uint8_t)UART3_WakeUp; } /** * @brief Determines if the UART3 is in mute mode or not. * @param NewState: new state of the UART3 mode. * This parameter can be ENABLE or DISABLE * @retval None */ void UART3_ReceiverWakeUpCmd(FunctionalState NewState) { /* Check the parameters */ assert_param(IS_FUNCTIONALSTATE_OK(NewState)); if (NewState != DISABLE) { /* Enable the mute mode UART3 by setting the RWU bit in the CR2 register */ UART3->CR2 |= UART3_CR2_RWU; } else { /* Disable the mute mode UART3 by clearing the RWU bit in the CR1 register */ UART3->CR2 &= ((uint8_t)~UART3_CR2_RWU); } } /** * @brief Returns the most recent received data by the UART3 peripheral. * @param None * @retval Received Data */ uint8_t UART3_ReceiveData8(void) { return ((uint8_t)UART3->DR); } /** * @brief Returns the most recent received data by the UART3 peripheral. * @param None * @retval Received Data */ uint16_t UART3_ReceiveData9(void) { uint16_t temp = 0; temp = (uint16_t)(((uint16_t)((uint16_t)UART3->CR1 & (uint16_t)UART3_CR1_R8)) << 1); return (uint16_t)((((uint16_t)UART3->DR) | temp) & ((uint16_t)0x01FF)); } /** * @brief Transmits 8 bit data through the UART3 peripheral. * @param Data the data to transmit. * @retval None */ void UART3_SendData8(uint8_t Data) { /* Transmit Data */ UART3->DR = Data; } /** * @brief Transmits 9 bit data through the UART3 peripheral. * @param Data: the data to transmit. * @retval None */ void UART3_SendData9(uint16_t Data) { /* Clear the transmit data bit 8 */ UART3->CR1 &= ((uint8_t)~UART3_CR1_T8); /* Write the transmit data bit [8] */ UART3->CR1 |= (uint8_t)(((uint8_t)(Data >> 2)) & UART3_CR1_T8); /* Write the transmit data bit [0:7] */ UART3->DR = (uint8_t)(Data); } /** * @brief Transmits break characters. * @param None * @retval None */ void UART3_SendBreak(void) { UART3->CR2 |= UART3_CR2_SBK; } /** * @brief Sets the address of the UART3 node. * @param UART3_Address: Indicates the address of the UART3 node. * @retval None */ void UART3_SetAddress(uint8_t UART3_Address) { /* Check the parameters */ assert_param(IS_UART3_ADDRESS_OK(UART3_Address)); /* Clear the UART3 address */ UART3->CR4 &= ((uint8_t)~UART3_CR4_ADD); /* Set the UART3 address node */ UART3->CR4 |= UART3_Address; } /** * @brief Checks whether the specified UART3 flag is set or not. * @param UART3_FLAG specifies the flag to check. * This parameter can be any of the @ref UART3_Flag_TypeDef enumeration. * @retval FlagStatus (SET or RESET) */ FlagStatus UART3_GetFlagStatus(UART3_Flag_TypeDef UART3_FLAG) { FlagStatus status = RESET; /* Check parameters */ assert_param(IS_UART3_FLAG_OK(UART3_FLAG)); /* Check the status of the specified UART3 flag*/ if (UART3_FLAG == UART3_FLAG_LBDF) { if ((UART3->CR4 & (uint8_t)UART3_FLAG) != (uint8_t)0x00) { /* UART3_FLAG is set*/ status = SET; } else { /* UART3_FLAG is reset*/ status = RESET; } } else if (UART3_FLAG == UART3_FLAG_SBK) { if ((UART3->CR2 & (uint8_t)UART3_FLAG) != (uint8_t)0x00) { /* UART3_FLAG is set*/ status = SET; } else { /* UART3_FLAG is reset*/ status = RESET; } } else if ((UART3_FLAG == UART3_FLAG_LHDF) || (UART3_FLAG == UART3_FLAG_LSF)) { if ((UART3->CR6 & (uint8_t)UART3_FLAG) != (uint8_t)0x00) { /* UART3_FLAG is set*/ status = SET; } else { /* UART3_FLAG is reset*/ status = RESET; } } else { if ((UART3->SR & (uint8_t)UART3_FLAG) != (uint8_t)0x00) { /* UART3_FLAG is set*/ status = SET; } else { /* UART3_FLAG is reset*/ status = RESET; } } /* Return the UART3_FLAG status*/ return status; } /** * @brief Clears the UART3 flags. * @param UART3_FLAG specifies the flag to clear * This parameter can be any combination of the following values: * - UART3_FLAG_LBDF: LIN Break detection flag. * - UART3_FLAG_LHDF: LIN Header detection flag. * - UART3_FLAG_LSF: LIN synchrone field flag. * - UART3_FLAG_RXNE: Receive data register not empty flag. * @note * - PE (Parity error), FE (Framing error), NF (Noise error), * OR (OverRun error) and IDLE (Idle line detected) flags are cleared * by software sequence: a read operation to UART3_SR register * (UART3_GetFlagStatus())followed by a read operation to UART3_DR * register(UART3_ReceiveData8() or UART3_ReceiveData9()). * * - RXNE flag can be also cleared by a read to the UART3_DR register * (UART3_ReceiveData8()or UART3_ReceiveData9()). * * - TC flag can be also cleared by software sequence: a read operation * to UART3_SR register (UART3_GetFlagStatus()) followed by a write * operation to UART3_DR register (UART3_SendData8() or UART3_SendData9()). * * - TXE flag is cleared only by a write to the UART3_DR register * (UART3_SendData8() or UART3_SendData9()). * * - SBK flag is cleared during the stop bit of break. * @retval None */ void UART3_ClearFlag(UART3_Flag_TypeDef UART3_FLAG) { /* Check the parameters */ assert_param(IS_UART3_CLEAR_FLAG_OK(UART3_FLAG)); /*Clear the Receive Register Not Empty flag */ if (UART3_FLAG == UART3_FLAG_RXNE) { UART3->SR = (uint8_t)~(UART3_SR_RXNE); } /*Clear the LIN Break Detection flag */ else if (UART3_FLAG == UART3_FLAG_LBDF) { UART3->CR4 &= (uint8_t)(~UART3_CR4_LBDF); } /*Clear the LIN Header Detection Flag */ else if (UART3_FLAG == UART3_FLAG_LHDF) { UART3->CR6 &= (uint8_t)(~UART3_CR6_LHDF); } /*Clear the LIN Synch Field flag */ else { UART3->CR6 &= (uint8_t)(~UART3_CR6_LSF); } } /** * @brief Checks whether the specified UART3 interrupt has occurred or not. * @param UART3_IT: Specifies the UART3 interrupt pending bit to check. * This parameter can be one of the following values: * - UART3_IT_LBDF: LIN Break detection interrupt * - UART3_IT_TXE: Transmit Data Register empty interrupt * - UART3_IT_TC: Transmission complete interrupt * - UART3_IT_RXNE: Receive Data register not empty interrupt * - UART3_IT_IDLE: Idle line detection interrupt * - UART3_IT_OR: OverRun Error interrupt * - UART3_IT_PE: Parity Error interrupt * @retval The state of UART3_IT (SET or RESET). */ ITStatus UART3_GetITStatus(UART3_IT_TypeDef UART3_IT) { ITStatus pendingbitstatus = RESET; uint8_t itpos = 0; uint8_t itmask1 = 0; uint8_t itmask2 = 0; uint8_t enablestatus = 0; /* Check parameters */ assert_param(IS_UART3_GET_IT_OK(UART3_IT)); /* Get the UART3 IT index*/ itpos = (uint8_t)((uint8_t)1 << (uint8_t)((uint8_t)UART3_IT & (uint8_t)0x0F)); /* Get the UART3 IT index*/ itmask1 = (uint8_t)((uint8_t)UART3_IT >> (uint8_t)4); /* Set the IT mask*/ itmask2 = (uint8_t)((uint8_t)1 << itmask1); /* Check the status of the specified UART3 pending bit*/ if (UART3_IT == UART3_IT_PE) { /* Get the UART3_ITPENDINGBIT enable bit status*/ enablestatus = (uint8_t)((uint8_t)UART3->CR1 & itmask2); /* Check the status of the specified UART3 interrupt*/ if (((UART3->SR & itpos) != (uint8_t)0x00) && enablestatus) { /* Interrupt occurred*/ pendingbitstatus = SET; } else { /* Interrupt not occurred*/ pendingbitstatus = RESET; } } else if (UART3_IT == UART3_IT_LBDF) { /* Get the UART3_IT enable bit status*/ enablestatus = (uint8_t)((uint8_t)UART3->CR4 & itmask2); /* Check the status of the specified UART3 interrupt*/ if (((UART3->CR4 & itpos) != (uint8_t)0x00) && enablestatus) { /* Interrupt occurred*/ pendingbitstatus = SET; } else { /* Interrupt not occurred*/ pendingbitstatus = RESET; } } else if (UART3_IT == UART3_IT_LHDF) { /* Get the UART3_IT enable bit status*/ enablestatus = (uint8_t)((uint8_t)UART3->CR6 & itmask2); /* Check the status of the specified UART3 interrupt*/ if (((UART3->CR6 & itpos) != (uint8_t)0x00) && enablestatus) { /* Interrupt occurred*/ pendingbitstatus = SET; } else { /* Interrupt not occurred*/ pendingbitstatus = RESET; } } else { /* Get the UART3_IT enable bit status*/ enablestatus = (uint8_t)((uint8_t)UART3->CR2 & itmask2); /* Check the status of the specified UART3 interrupt*/ if (((UART3->SR & itpos) != (uint8_t)0x00) && enablestatus) { /* Interrupt occurred*/ pendingbitstatus = SET; } else { /* Interrupt not occurred*/ pendingbitstatus = RESET; } } /* Return the UART3_IT status*/ return pendingbitstatus; } /** * @brief Clears the UART3 pending flags. * @param UART3_IT specifies the pending bit to clear * This parameter can be one of the following values: * - UART3_IT_LBDF: LIN Break detection interrupt * - UART3_IT_LHDF: LIN Header detection interrupt * - UART3_IT_RXNE: Receive Data register not empty interrupt. * * @note * - PE (Parity error), FE (Framing error), NF (Noise error), * OR (OverRun error) and IDLE (Idle line detected) pending bits are * cleared by software sequence: a read operation to UART3_SR register * (UART3_GetITStatus()) followed by a read operation to UART3_DR register * (UART3_ReceiveData8() or UART3_ReceiveData9()). * * - RXNE pending bit can be also cleared by a read to the UART3_DR register * (UART3_ReceiveData8() or UART3_ReceiveData9() ). * * - TC (Transmit complete) pending bit can be cleared by software * sequence: a read operation to UART3_SR register (UART3_GetITStatus()) * followed by a write operation to UART3_DR register * (UART3_SendData8()or UART3_SendData9()). * * - TXE pending bit is cleared only by a write to the UART3_DR register * (UART3_SendData8() or UART3_SendData9()). * @retval None */ void UART3_ClearITPendingBit(UART3_IT_TypeDef UART3_IT) { /* Check the parameters */ assert_param(IS_UART3_CLEAR_IT_OK(UART3_IT)); /*Clear the Receive Register Not Empty pending bit */ if (UART3_IT == UART3_IT_RXNE) { UART3->SR = (uint8_t)~(UART3_SR_RXNE); } /*Clear the LIN Break Detection pending bit */ else if (UART3_IT == UART3_IT_LBDF) { UART3->CR4 &= (uint8_t)~(UART3_CR4_LBDF); } /*Clear the LIN Header Detection pending bit */ else { UART3->CR6 &= (uint8_t)(~UART3_CR6_LHDF); } } /** * @} */ /** * @} */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/