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view Common/Drivers/STM32F4xx_HAL_Driver/Src/stm32f4xx_ll_spi.c @ 944:44599695df41 Evo_2_23
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author | Ideenmodellierer |
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date | Thu, 19 Dec 2024 18:58:18 +0100 |
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/** ****************************************************************************** * @file stm32f4xx_ll_spi.c * @author MCD Application Team * @brief SPI LL module driver. ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2017 STMicroelectronics</center></h2> * * 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 STMicroelectronics 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. * ****************************************************************************** */ #if defined(USE_FULL_LL_DRIVER) /* Includes ------------------------------------------------------------------*/ #include "stm32f4xx_ll_spi.h" #include "stm32f4xx_ll_bus.h" #include "stm32f4xx_ll_rcc.h" #ifdef USE_FULL_ASSERT #include "stm32_assert.h" #else #define assert_param(expr) ((void)0U) #endif /** @addtogroup STM32F4xx_LL_Driver * @{ */ #if defined (SPI1) || defined (SPI2) || defined (SPI3) || defined (SPI4) || defined (SPI5) || defined(SPI6) /** @addtogroup SPI_LL * @{ */ /* Private types -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private constants ---------------------------------------------------------*/ /** @defgroup SPI_LL_Private_Constants SPI Private Constants * @{ */ /* SPI registers Masks */ #define SPI_CR1_CLEAR_MASK (SPI_CR1_CPHA | SPI_CR1_CPOL | SPI_CR1_MSTR | \ SPI_CR1_BR | SPI_CR1_LSBFIRST | SPI_CR1_SSI | \ SPI_CR1_SSM | SPI_CR1_RXONLY | SPI_CR1_DFF | \ SPI_CR1_CRCNEXT | SPI_CR1_CRCEN | SPI_CR1_BIDIOE | \ SPI_CR1_BIDIMODE) /** * @} */ /* Private macros ------------------------------------------------------------*/ /** @defgroup SPI_LL_Private_Macros SPI Private Macros * @{ */ #define IS_LL_SPI_TRANSFER_DIRECTION(__VALUE__) (((__VALUE__) == LL_SPI_FULL_DUPLEX) \ || ((__VALUE__) == LL_SPI_SIMPLEX_RX) \ || ((__VALUE__) == LL_SPI_HALF_DUPLEX_RX) \ || ((__VALUE__) == LL_SPI_HALF_DUPLEX_TX)) #define IS_LL_SPI_MODE(__VALUE__) (((__VALUE__) == LL_SPI_MODE_MASTER) \ || ((__VALUE__) == LL_SPI_MODE_SLAVE)) #define IS_LL_SPI_DATAWIDTH(__VALUE__) (((__VALUE__) == LL_SPI_DATAWIDTH_8BIT) \ || ((__VALUE__) == LL_SPI_DATAWIDTH_16BIT)) #define IS_LL_SPI_POLARITY(__VALUE__) (((__VALUE__) == LL_SPI_POLARITY_LOW) \ || ((__VALUE__) == LL_SPI_POLARITY_HIGH)) #define IS_LL_SPI_PHASE(__VALUE__) (((__VALUE__) == LL_SPI_PHASE_1EDGE) \ || ((__VALUE__) == LL_SPI_PHASE_2EDGE)) #define IS_LL_SPI_NSS(__VALUE__) (((__VALUE__) == LL_SPI_NSS_SOFT) \ || ((__VALUE__) == LL_SPI_NSS_HARD_INPUT) \ || ((__VALUE__) == LL_SPI_NSS_HARD_OUTPUT)) #define IS_LL_SPI_BAUDRATE(__VALUE__) (((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV2) \ || ((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV4) \ || ((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV8) \ || ((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV16) \ || ((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV32) \ || ((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV64) \ || ((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV128) \ || ((__VALUE__) == LL_SPI_BAUDRATEPRESCALER_DIV256)) #define IS_LL_SPI_BITORDER(__VALUE__) (((__VALUE__) == LL_SPI_LSB_FIRST) \ || ((__VALUE__) == LL_SPI_MSB_FIRST)) #define IS_LL_SPI_CRCCALCULATION(__VALUE__) (((__VALUE__) == LL_SPI_CRCCALCULATION_ENABLE) \ || ((__VALUE__) == LL_SPI_CRCCALCULATION_DISABLE)) #define IS_LL_SPI_CRC_POLYNOMIAL(__VALUE__) ((__VALUE__) >= 0x1U) /** * @} */ /* Private function prototypes -----------------------------------------------*/ /* Exported functions --------------------------------------------------------*/ /** @addtogroup SPI_LL_Exported_Functions * @{ */ /** @addtogroup SPI_LL_EF_Init * @{ */ /** * @brief De-initialize the SPI registers to their default reset values. * @param SPIx SPI Instance * @retval An ErrorStatus enumeration value: * - SUCCESS: SPI registers are de-initialized * - ERROR: SPI registers are not de-initialized */ ErrorStatus LL_SPI_DeInit(SPI_TypeDef *SPIx) { ErrorStatus status = ERROR; /* Check the parameters */ assert_param(IS_SPI_ALL_INSTANCE(SPIx)); #if defined(SPI1) if (SPIx == SPI1) { /* Force reset of SPI clock */ LL_APB2_GRP1_ForceReset(LL_APB2_GRP1_PERIPH_SPI1); /* Release reset of SPI clock */ LL_APB2_GRP1_ReleaseReset(LL_APB2_GRP1_PERIPH_SPI1); status = SUCCESS; } #endif /* SPI1 */ #if defined(SPI2) if (SPIx == SPI2) { /* Force reset of SPI clock */ LL_APB1_GRP1_ForceReset(LL_APB1_GRP1_PERIPH_SPI2); /* Release reset of SPI clock */ LL_APB1_GRP1_ReleaseReset(LL_APB1_GRP1_PERIPH_SPI2); status = SUCCESS; } #endif /* SPI2 */ #if defined(SPI3) if (SPIx == SPI3) { /* Force reset of SPI clock */ LL_APB1_GRP1_ForceReset(LL_APB1_GRP1_PERIPH_SPI3); /* Release reset of SPI clock */ LL_APB1_GRP1_ReleaseReset(LL_APB1_GRP1_PERIPH_SPI3); status = SUCCESS; } #endif /* SPI3 */ #if defined(SPI4) if (SPIx == SPI4) { /* Force reset of SPI clock */ LL_APB2_GRP1_ForceReset(LL_APB2_GRP1_PERIPH_SPI4); /* Release reset of SPI clock */ LL_APB2_GRP1_ReleaseReset(LL_APB2_GRP1_PERIPH_SPI4); status = SUCCESS; } #endif /* SPI4 */ #if defined(SPI5) if (SPIx == SPI5) { /* Force reset of SPI clock */ LL_APB2_GRP1_ForceReset(LL_APB2_GRP1_PERIPH_SPI5); /* Release reset of SPI clock */ LL_APB2_GRP1_ReleaseReset(LL_APB2_GRP1_PERIPH_SPI5); status = SUCCESS; } #endif /* SPI5 */ #if defined(SPI6) if (SPIx == SPI6) { /* Force reset of SPI clock */ LL_APB2_GRP1_ForceReset(LL_APB2_GRP1_PERIPH_SPI6); /* Release reset of SPI clock */ LL_APB2_GRP1_ReleaseReset(LL_APB2_GRP1_PERIPH_SPI6); status = SUCCESS; } #endif /* SPI6 */ return status; } /** * @brief Initialize the SPI registers according to the specified parameters in SPI_InitStruct. * @note As some bits in SPI configuration registers can only be written when the SPI is disabled (SPI_CR1_SPE bit =0), * SPI IP should be in disabled state prior calling this function. Otherwise, ERROR result will be returned. * @param SPIx SPI Instance * @param SPI_InitStruct pointer to a @ref LL_SPI_InitTypeDef structure * @retval An ErrorStatus enumeration value. (Return always SUCCESS) */ ErrorStatus LL_SPI_Init(SPI_TypeDef *SPIx, LL_SPI_InitTypeDef *SPI_InitStruct) { ErrorStatus status = ERROR; /* Check the SPI Instance SPIx*/ assert_param(IS_SPI_ALL_INSTANCE(SPIx)); /* Check the SPI parameters from SPI_InitStruct*/ assert_param(IS_LL_SPI_TRANSFER_DIRECTION(SPI_InitStruct->TransferDirection)); assert_param(IS_LL_SPI_MODE(SPI_InitStruct->Mode)); assert_param(IS_LL_SPI_DATAWIDTH(SPI_InitStruct->DataWidth)); assert_param(IS_LL_SPI_POLARITY(SPI_InitStruct->ClockPolarity)); assert_param(IS_LL_SPI_PHASE(SPI_InitStruct->ClockPhase)); assert_param(IS_LL_SPI_NSS(SPI_InitStruct->NSS)); assert_param(IS_LL_SPI_BAUDRATE(SPI_InitStruct->BaudRate)); assert_param(IS_LL_SPI_BITORDER(SPI_InitStruct->BitOrder)); assert_param(IS_LL_SPI_CRCCALCULATION(SPI_InitStruct->CRCCalculation)); if (LL_SPI_IsEnabled(SPIx) == 0x00000000U) { /*---------------------------- SPIx CR1 Configuration ------------------------ * Configure SPIx CR1 with parameters: * - TransferDirection: SPI_CR1_BIDIMODE, SPI_CR1_BIDIOE and SPI_CR1_RXONLY bits * - Master/Slave Mode: SPI_CR1_MSTR bit * - DataWidth: SPI_CR1_DFF bit * - ClockPolarity: SPI_CR1_CPOL bit * - ClockPhase: SPI_CR1_CPHA bit * - NSS management: SPI_CR1_SSM bit * - BaudRate prescaler: SPI_CR1_BR[2:0] bits * - BitOrder: SPI_CR1_LSBFIRST bit * - CRCCalculation: SPI_CR1_CRCEN bit */ MODIFY_REG(SPIx->CR1, SPI_CR1_CLEAR_MASK, SPI_InitStruct->TransferDirection | SPI_InitStruct->Mode | SPI_InitStruct->DataWidth | SPI_InitStruct->ClockPolarity | SPI_InitStruct->ClockPhase | SPI_InitStruct->NSS | SPI_InitStruct->BaudRate | SPI_InitStruct->BitOrder | SPI_InitStruct->CRCCalculation); /*---------------------------- SPIx CR2 Configuration ------------------------ * Configure SPIx CR2 with parameters: * - NSS management: SSOE bit */ MODIFY_REG(SPIx->CR2, SPI_CR2_SSOE, (SPI_InitStruct->NSS >> 16U)); /*---------------------------- SPIx CRCPR Configuration ---------------------- * Configure SPIx CRCPR with parameters: * - CRCPoly: CRCPOLY[15:0] bits */ if (SPI_InitStruct->CRCCalculation == LL_SPI_CRCCALCULATION_ENABLE) { assert_param(IS_LL_SPI_CRC_POLYNOMIAL(SPI_InitStruct->CRCPoly)); LL_SPI_SetCRCPolynomial(SPIx, SPI_InitStruct->CRCPoly); } status = SUCCESS; } /* Activate the SPI mode (Reset I2SMOD bit in I2SCFGR register) */ CLEAR_BIT(SPIx->I2SCFGR, SPI_I2SCFGR_I2SMOD); return status; } /** * @brief Set each @ref LL_SPI_InitTypeDef field to default value. * @param SPI_InitStruct pointer to a @ref LL_SPI_InitTypeDef structure * whose fields will be set to default values. * @retval None */ void LL_SPI_StructInit(LL_SPI_InitTypeDef *SPI_InitStruct) { /* Set SPI_InitStruct fields to default values */ SPI_InitStruct->TransferDirection = LL_SPI_FULL_DUPLEX; SPI_InitStruct->Mode = LL_SPI_MODE_SLAVE; SPI_InitStruct->DataWidth = LL_SPI_DATAWIDTH_8BIT; SPI_InitStruct->ClockPolarity = LL_SPI_POLARITY_LOW; SPI_InitStruct->ClockPhase = LL_SPI_PHASE_1EDGE; SPI_InitStruct->NSS = LL_SPI_NSS_HARD_INPUT; SPI_InitStruct->BaudRate = LL_SPI_BAUDRATEPRESCALER_DIV2; SPI_InitStruct->BitOrder = LL_SPI_MSB_FIRST; SPI_InitStruct->CRCCalculation = LL_SPI_CRCCALCULATION_DISABLE; SPI_InitStruct->CRCPoly = 7U; } /** * @} */ /** * @} */ /** * @} */ /** @addtogroup I2S_LL * @{ */ /* Private types -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /* Private constants ---------------------------------------------------------*/ /** @defgroup I2S_LL_Private_Constants I2S Private Constants * @{ */ /* I2S registers Masks */ #define I2S_I2SCFGR_CLEAR_MASK (SPI_I2SCFGR_CHLEN | SPI_I2SCFGR_DATLEN | \ SPI_I2SCFGR_CKPOL | SPI_I2SCFGR_I2SSTD | \ SPI_I2SCFGR_I2SCFG | SPI_I2SCFGR_I2SMOD ) #define I2S_I2SPR_CLEAR_MASK 0x0002U /** * @} */ /* Private macros ------------------------------------------------------------*/ /** @defgroup I2S_LL_Private_Macros I2S Private Macros * @{ */ #define IS_LL_I2S_DATAFORMAT(__VALUE__) (((__VALUE__) == LL_I2S_DATAFORMAT_16B) \ || ((__VALUE__) == LL_I2S_DATAFORMAT_16B_EXTENDED) \ || ((__VALUE__) == LL_I2S_DATAFORMAT_24B) \ || ((__VALUE__) == LL_I2S_DATAFORMAT_32B)) #define IS_LL_I2S_CPOL(__VALUE__) (((__VALUE__) == LL_I2S_POLARITY_LOW) \ || ((__VALUE__) == LL_I2S_POLARITY_HIGH)) #define IS_LL_I2S_STANDARD(__VALUE__) (((__VALUE__) == LL_I2S_STANDARD_PHILIPS) \ || ((__VALUE__) == LL_I2S_STANDARD_MSB) \ || ((__VALUE__) == LL_I2S_STANDARD_LSB) \ || ((__VALUE__) == LL_I2S_STANDARD_PCM_SHORT) \ || ((__VALUE__) == LL_I2S_STANDARD_PCM_LONG)) #define IS_LL_I2S_MODE(__VALUE__) (((__VALUE__) == LL_I2S_MODE_SLAVE_TX) \ || ((__VALUE__) == LL_I2S_MODE_SLAVE_RX) \ || ((__VALUE__) == LL_I2S_MODE_MASTER_TX) \ || ((__VALUE__) == LL_I2S_MODE_MASTER_RX)) #define IS_LL_I2S_MCLK_OUTPUT(__VALUE__) (((__VALUE__) == LL_I2S_MCLK_OUTPUT_ENABLE) \ || ((__VALUE__) == LL_I2S_MCLK_OUTPUT_DISABLE)) #define IS_LL_I2S_AUDIO_FREQ(__VALUE__) ((((__VALUE__) >= LL_I2S_AUDIOFREQ_8K) \ && ((__VALUE__) <= LL_I2S_AUDIOFREQ_192K)) \ || ((__VALUE__) == LL_I2S_AUDIOFREQ_DEFAULT)) #define IS_LL_I2S_PRESCALER_LINEAR(__VALUE__) ((__VALUE__) >= 0x2U) #define IS_LL_I2S_PRESCALER_PARITY(__VALUE__) (((__VALUE__) == LL_I2S_PRESCALER_PARITY_EVEN) \ || ((__VALUE__) == LL_I2S_PRESCALER_PARITY_ODD)) /** * @} */ /* Private function prototypes -----------------------------------------------*/ /* Exported functions --------------------------------------------------------*/ /** @addtogroup I2S_LL_Exported_Functions * @{ */ /** @addtogroup I2S_LL_EF_Init * @{ */ /** * @brief De-initialize the SPI/I2S registers to their default reset values. * @param SPIx SPI Instance * @retval An ErrorStatus enumeration value: * - SUCCESS: SPI registers are de-initialized * - ERROR: SPI registers are not de-initialized */ ErrorStatus LL_I2S_DeInit(SPI_TypeDef *SPIx) { return LL_SPI_DeInit(SPIx); } /** * @brief Initializes the SPI/I2S registers according to the specified parameters in I2S_InitStruct. * @note As some bits in SPI configuration registers can only be written when the SPI is disabled (SPI_CR1_SPE bit =0), * SPI IP should be in disabled state prior calling this function. Otherwise, ERROR result will be returned. * @param SPIx SPI Instance * @param I2S_InitStruct pointer to a @ref LL_I2S_InitTypeDef structure * @retval An ErrorStatus enumeration value: * - SUCCESS: SPI registers are Initialized * - ERROR: SPI registers are not Initialized */ ErrorStatus LL_I2S_Init(SPI_TypeDef *SPIx, LL_I2S_InitTypeDef *I2S_InitStruct) { uint16_t i2sdiv = 2U, i2sodd = 0U, packetlength = 1U; uint32_t tmp = 0U; uint32_t sourceclock = 0U; ErrorStatus status = ERROR; /* Check the I2S parameters */ assert_param(IS_I2S_ALL_INSTANCE(SPIx)); assert_param(IS_LL_I2S_MODE(I2S_InitStruct->Mode)); assert_param(IS_LL_I2S_STANDARD(I2S_InitStruct->Standard)); assert_param(IS_LL_I2S_DATAFORMAT(I2S_InitStruct->DataFormat)); assert_param(IS_LL_I2S_MCLK_OUTPUT(I2S_InitStruct->MCLKOutput)); assert_param(IS_LL_I2S_AUDIO_FREQ(I2S_InitStruct->AudioFreq)); assert_param(IS_LL_I2S_CPOL(I2S_InitStruct->ClockPolarity)); if (LL_I2S_IsEnabled(SPIx) == 0x00000000U) { /*---------------------------- SPIx I2SCFGR Configuration -------------------- * Configure SPIx I2SCFGR with parameters: * - Mode: SPI_I2SCFGR_I2SCFG[1:0] bit * - Standard: SPI_I2SCFGR_I2SSTD[1:0] and SPI_I2SCFGR_PCMSYNC bits * - DataFormat: SPI_I2SCFGR_CHLEN and SPI_I2SCFGR_DATLEN bits * - ClockPolarity: SPI_I2SCFGR_CKPOL bit */ /* Write to SPIx I2SCFGR */ MODIFY_REG(SPIx->I2SCFGR, I2S_I2SCFGR_CLEAR_MASK, I2S_InitStruct->Mode | I2S_InitStruct->Standard | I2S_InitStruct->DataFormat | I2S_InitStruct->ClockPolarity | SPI_I2SCFGR_I2SMOD); /*---------------------------- SPIx I2SPR Configuration ---------------------- * Configure SPIx I2SPR with parameters: * - MCLKOutput: SPI_I2SPR_MCKOE bit * - AudioFreq: SPI_I2SPR_I2SDIV[7:0] and SPI_I2SPR_ODD bits */ /* If the requested audio frequency is not the default, compute the prescaler (i2sodd, i2sdiv) * else, default values are used: i2sodd = 0U, i2sdiv = 2U. */ if (I2S_InitStruct->AudioFreq != LL_I2S_AUDIOFREQ_DEFAULT) { /* Check the frame length (For the Prescaler computing) * Default value: LL_I2S_DATAFORMAT_16B (packetlength = 1U). */ if (I2S_InitStruct->DataFormat != LL_I2S_DATAFORMAT_16B) { /* Packet length is 32 bits */ packetlength = 2U; } /* If an external I2S clock has to be used, the specific define should be set in the project configuration or in the stm32f4xx_ll_rcc.h file */ /* Get the I2S source clock value */ sourceclock = LL_RCC_GetI2SClockFreq(LL_RCC_I2S1_CLKSOURCE); /* Compute the Real divider depending on the MCLK output state with a floating point */ if (I2S_InitStruct->MCLKOutput == LL_I2S_MCLK_OUTPUT_ENABLE) { /* MCLK output is enabled */ tmp = (uint16_t)(((((sourceclock / 256U) * 10U) / I2S_InitStruct->AudioFreq)) + 5U); } else { /* MCLK output is disabled */ tmp = (uint16_t)(((((sourceclock / (32U * packetlength)) * 10U) / I2S_InitStruct->AudioFreq)) + 5U); } /* Remove the floating point */ tmp = tmp / 10U; /* Check the parity of the divider */ i2sodd = (uint16_t)(tmp & (uint16_t)0x0001U); /* Compute the i2sdiv prescaler */ i2sdiv = (uint16_t)((tmp - i2sodd) / 2U); /* Get the Mask for the Odd bit (SPI_I2SPR[8]) register */ i2sodd = (uint16_t)(i2sodd << 8U); } /* Test if the divider is 1 or 0 or greater than 0xFF */ if ((i2sdiv < 2U) || (i2sdiv > 0xFFU)) { /* Set the default values */ i2sdiv = 2U; i2sodd = 0U; } /* Write to SPIx I2SPR register the computed value */ WRITE_REG(SPIx->I2SPR, i2sdiv | i2sodd | I2S_InitStruct->MCLKOutput); status = SUCCESS; } return status; } /** * @brief Set each @ref LL_I2S_InitTypeDef field to default value. * @param I2S_InitStruct pointer to a @ref LL_I2S_InitTypeDef structure * whose fields will be set to default values. * @retval None */ void LL_I2S_StructInit(LL_I2S_InitTypeDef *I2S_InitStruct) { /*--------------- Reset I2S init structure parameters values -----------------*/ I2S_InitStruct->Mode = LL_I2S_MODE_SLAVE_TX; I2S_InitStruct->Standard = LL_I2S_STANDARD_PHILIPS; I2S_InitStruct->DataFormat = LL_I2S_DATAFORMAT_16B; I2S_InitStruct->MCLKOutput = LL_I2S_MCLK_OUTPUT_DISABLE; I2S_InitStruct->AudioFreq = LL_I2S_AUDIOFREQ_DEFAULT; I2S_InitStruct->ClockPolarity = LL_I2S_POLARITY_LOW; } /** * @brief Set linear and parity prescaler. * @note To calculate value of PrescalerLinear(I2SDIV[7:0] bits) and PrescalerParity(ODD bit)\n * Check Audio frequency table and formulas inside Reference Manual (SPI/I2S). * @param SPIx SPI Instance * @param PrescalerLinear value Min_Data=0x02 and Max_Data=0xFF. * @param PrescalerParity This parameter can be one of the following values: * @arg @ref LL_I2S_PRESCALER_PARITY_EVEN * @arg @ref LL_I2S_PRESCALER_PARITY_ODD * @retval None */ void LL_I2S_ConfigPrescaler(SPI_TypeDef *SPIx, uint32_t PrescalerLinear, uint32_t PrescalerParity) { /* Check the I2S parameters */ assert_param(IS_I2S_ALL_INSTANCE(SPIx)); assert_param(IS_LL_I2S_PRESCALER_LINEAR(PrescalerLinear)); assert_param(IS_LL_I2S_PRESCALER_PARITY(PrescalerParity)); /* Write to SPIx I2SPR */ MODIFY_REG(SPIx->I2SPR, SPI_I2SPR_I2SDIV | SPI_I2SPR_ODD, PrescalerLinear | (PrescalerParity << 8U)); } #if defined (SPI_I2S_FULLDUPLEX_SUPPORT) /** * @brief Configures the full duplex mode for the I2Sx peripheral using its extension * I2Sxext according to the specified parameters in the I2S_InitStruct. * @note The structure pointed by I2S_InitStruct parameter should be the same * used for the master I2S peripheral. In this case, if the master is * configured as transmitter, the slave will be receiver and vice versa. * Or you can force a different mode by modifying the field I2S_Mode to the * value I2S_SlaveRx or I2S_SlaveTx independently of the master configuration. * @param I2Sxext SPI Instance * @param I2S_InitStruct pointer to a @ref LL_I2S_InitTypeDef structure * @retval An ErrorStatus enumeration value: * - SUCCESS: I2Sxext registers are Initialized * - ERROR: I2Sxext registers are not Initialized */ ErrorStatus LL_I2S_InitFullDuplex(SPI_TypeDef *I2Sxext, LL_I2S_InitTypeDef *I2S_InitStruct) { uint16_t mode = 0U; ErrorStatus status = ERROR; /* Check the I2S parameters */ assert_param(IS_I2S_EXT_ALL_INSTANCE(I2Sxext)); assert_param(IS_LL_I2S_MODE(I2S_InitStruct->Mode)); assert_param(IS_LL_I2S_STANDARD(I2S_InitStruct->Standard)); assert_param(IS_LL_I2S_DATAFORMAT(I2S_InitStruct->DataFormat)); assert_param(IS_LL_I2S_CPOL(I2S_InitStruct->ClockPolarity)); if (LL_I2S_IsEnabled(I2Sxext) == 0x00000000U) { /*---------------------------- SPIx I2SCFGR Configuration -------------------- * Configure SPIx I2SCFGR with parameters: * - Mode: SPI_I2SCFGR_I2SCFG[1:0] bit * - Standard: SPI_I2SCFGR_I2SSTD[1:0] and SPI_I2SCFGR_PCMSYNC bits * - DataFormat: SPI_I2SCFGR_CHLEN and SPI_I2SCFGR_DATLEN bits * - ClockPolarity: SPI_I2SCFGR_CKPOL bit */ /* Reset I2SPR registers */ WRITE_REG(I2Sxext->I2SPR, I2S_I2SPR_CLEAR_MASK); /* Get the mode to be configured for the extended I2S */ if ((I2S_InitStruct->Mode == LL_I2S_MODE_MASTER_TX) || (I2S_InitStruct->Mode == LL_I2S_MODE_SLAVE_TX)) { mode = LL_I2S_MODE_SLAVE_RX; } else { if ((I2S_InitStruct->Mode == LL_I2S_MODE_MASTER_RX) || (I2S_InitStruct->Mode == LL_I2S_MODE_SLAVE_RX)) { mode = LL_I2S_MODE_SLAVE_TX; } } /* Write to SPIx I2SCFGR */ MODIFY_REG(I2Sxext->I2SCFGR, I2S_I2SCFGR_CLEAR_MASK, I2S_InitStruct->Standard | I2S_InitStruct->DataFormat | I2S_InitStruct->ClockPolarity | SPI_I2SCFGR_I2SMOD | mode); status = SUCCESS; } return status; } #endif /* SPI_I2S_FULLDUPLEX_SUPPORT */ /** * @} */ /** * @} */ /** * @} */ #endif /* defined (SPI1) || defined (SPI2) || defined (SPI3) || defined (SPI4) || defined (SPI5) || defined(SPI6) */ /** * @} */ #endif /* USE_FULL_LL_DRIVER */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/