/**************************************************************************//** * @file pdma.c * @version V3.00 * @brief M2354 series PDMA driver source file * * @copyright SPDX-License-Identifier: Apache-2.0 * @copyright Copyright (C) 2020 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #include "NuMicro.h" static uint8_t au8ChSelect[PDMA_CH_MAX]; /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup PDMA_Driver PDMA Driver @{ */ /** @addtogroup PDMA_EXPORTED_FUNCTIONS PDMA Exported Functions @{ */ /** * @brief PDMA Open * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Mask Channel enable bits. * * @return None * * @details This function enable the PDMA channels. */ void PDMA_Open(PDMA_T *pdma, uint32_t u32Mask) { uint32_t i; for(i = 0UL; i < (int)PDMA_CH_MAX; i++) { if((1 << i) & u32Mask) { (pdma)->DSCT[i].CTL = 0UL; au8ChSelect[i] = (uint8_t)PDMA_MEM; } } (pdma)->CHCTL |= u32Mask; } /** * @brief PDMA Close * * @param[in] pdma The pointer of the specified PDMA module * * @return None * * @details This function disable all PDMA channels. */ void PDMA_Close(PDMA_T *pdma) { (pdma)->CHCTL = 0UL; } /** * @brief Set PDMA Transfer Count * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32Width Data width. Valid values are * - \ref PDMA_WIDTH_8 * - \ref PDMA_WIDTH_16 * - \ref PDMA_WIDTH_32 * @param[in] u32TransCount Transfer count * * @return None * * @details This function set the selected channel data width and transfer count. */ void PDMA_SetTransferCnt(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32Width, uint32_t u32TransCount) { (pdma)->DSCT[u32Ch].CTL &= ~(PDMA_DSCT_CTL_TXCNT_Msk | PDMA_DSCT_CTL_TXWIDTH_Msk); (pdma)->DSCT[u32Ch].CTL |= (u32Width | ((u32TransCount - 1UL) << PDMA_DSCT_CTL_TXCNT_Pos)); } /** * @brief Set PDMA Stride Mode * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32DestLen Destination stride count * @param[in] u32SrcLen Source stride count * @param[in] u32TransCount Transfer count * * @return None * * @details This function set the selected stride mode. */ void PDMA_SetStride(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32DestLen, uint32_t u32SrcLen, uint32_t u32TransCount) { (pdma)->DSCT[u32Ch].CTL |= PDMA_DSCT_CTL_STRIDEEN_Msk; (pdma)->STRIDE[u32Ch].ASOCR = (u32DestLen << 16) | u32SrcLen; (pdma)->STRIDE[u32Ch].STCR = u32TransCount; } /** * @brief Set PDMA Repeat * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32DestInterval Destination address interval count * @param[in] u32SrcInterval Source address interval count * @param[in] u32RepeatCount Repeat count * * @return None * * @details This function set the selected repeat. */ void PDMA_SetRepeat(PDMA_T * pdma, uint32_t u32Ch, uint32_t u32DestInterval, uint32_t u32SrcInterval, uint32_t u32RepeatCount) { pdma->DSCT[u32Ch].CTL |= PDMA_DSCT_CTL_STRIDEEN_Msk; pdma->REPEAT[u32Ch].AICTL = ((u32DestInterval) << 16) | (u32SrcInterval); pdma->REPEAT[u32Ch].RCNT = u32RepeatCount; } /** * @brief Set PDMA Transfer Address * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32SrcAddr Source address * @param[in] u32SrcCtrl Source control attribute. Valid values are * - \ref PDMA_SAR_INC * - \ref PDMA_SAR_FIX * @param[in] u32DstAddr destination address * @param[in] u32DstCtrl destination control attribute. Valid values are * - \ref PDMA_DAR_INC * - \ref PDMA_DAR_FIX * * @return None * * @details This function set the selected channel source/destination address and attribute. */ void PDMA_SetTransferAddr(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32SrcAddr, uint32_t u32SrcCtrl, uint32_t u32DstAddr, uint32_t u32DstCtrl) { (pdma)->DSCT[u32Ch].SA = u32SrcAddr; (pdma)->DSCT[u32Ch].DA = u32DstAddr; (pdma)->DSCT[u32Ch].CTL &= ~(PDMA_DSCT_CTL_SAINC_Msk | PDMA_DSCT_CTL_DAINC_Msk); (pdma)->DSCT[u32Ch].CTL |= (u32SrcCtrl | u32DstCtrl); } /** * @brief Set PDMA Transfer Mode * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32Peripheral The selected peripheral. Valid values are * - \ref PDMA_MEM * - \ref PDMA_USB_TX * - \ref PDMA_USB_RX * - \ref PDMA_UART0_TX * - \ref PDMA_UART0_RX * - \ref PDMA_UART1_TX * - \ref PDMA_UART1_RX * - \ref PDMA_UART2_TX * - \ref PDMA_UART2_RX * - \ref PDMA_UART3_TX * - \ref PDMA_UART3_RX * - \ref PDMA_UART4_TX * - \ref PDMA_UART4_RX * - \ref PDMA_UART5_TX * - \ref PDMA_UART5_RX * - \ref PDMA_USCI0_TX * - \ref PDMA_USCI0_RX * - \ref PDMA_USCI1_TX * - \ref PDMA_USCI1_RX * - \ref PDMA_QSPI0_TX * - \ref PDMA_QSPI0_RX * - \ref PDMA_SPI0_TX * - \ref PDMA_SPI0_RX * - \ref PDMA_SPI1_TX * - \ref PDMA_SPI1_RX * - \ref PDMA_SPI2_TX * - \ref PDMA_SPI2_RX * - \ref PDMA_SPI3_TX * - \ref PDMA_SPI3_RX * - \ref PDMA_EPWM0_P1_RX * - \ref PDMA_EPWM0_P2_RX * - \ref PDMA_EPWM0_P3_RX * - \ref PDMA_EPWM1_P1_RX * - \ref PDMA_EPWM1_P2_RX * - \ref PDMA_EPWM1_P3_RX * - \ref PDMA_I2C0_TX * - \ref PDMA_I2C0_RX * - \ref PDMA_I2C1_TX * - \ref PDMA_I2C1_RX * - \ref PDMA_I2C2_TX * - \ref PDMA_I2C2_RX * - \ref PDMA_I2S0_TX * - \ref PDMA_I2S0_RX * - \ref PDMA_TMR0 * - \ref PDMA_TMR1 * - \ref PDMA_TMR2 * - \ref PDMA_TMR3 * - \ref PDMA_ADC_RX * - \ref PDMA_DAC0_TX * - \ref PDMA_DAC1_TX * - \ref PDMA_EPWM0_CH0_TX * - \ref PDMA_EPWM0_CH1_TX * - \ref PDMA_EPWM0_CH2_TX * - \ref PDMA_EPWM0_CH3_TX * - \ref PDMA_EPWM0_CH4_TX * - \ref PDMA_EPWM0_CH5_TX * - \ref PDMA_EPWM1_CH0_TX * - \ref PDMA_EPWM1_CH1_TX * - \ref PDMA_EPWM1_CH2_TX * - \ref PDMA_EPWM1_CH3_TX * - \ref PDMA_EPWM1_CH4_TX * - \ref PDMA_EPWM1_CH5_TX * @param[in] u32ScatterEn Scatter-gather mode enable * @param[in] u32DescAddr Scatter-gather descriptor address * * @return None * * @details This function set the selected channel transfer mode. Include peripheral setting. */ void PDMA_SetTransferMode(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32Peripheral, uint32_t u32ScatterEn, uint32_t u32DescAddr) { au8ChSelect[u32Ch] = (uint8_t)u32Peripheral; switch(u32Ch) { case 0UL: (pdma)->REQSEL0_3 = ((pdma)->REQSEL0_3 & ~PDMA_REQSEL0_3_REQSRC0_Msk) | u32Peripheral; break; case 1UL: (pdma)->REQSEL0_3 = ((pdma)->REQSEL0_3 & ~PDMA_REQSEL0_3_REQSRC1_Msk) | (u32Peripheral << PDMA_REQSEL0_3_REQSRC1_Pos); break; case 2UL: (pdma)->REQSEL0_3 = ((pdma)->REQSEL0_3 & ~PDMA_REQSEL0_3_REQSRC2_Msk) | (u32Peripheral << PDMA_REQSEL0_3_REQSRC2_Pos); break; case 3UL: (pdma)->REQSEL0_3 = ((pdma)->REQSEL0_3 & ~PDMA_REQSEL0_3_REQSRC3_Msk) | (u32Peripheral << PDMA_REQSEL0_3_REQSRC3_Pos); break; case 4UL: (pdma)->REQSEL4_7 = ((pdma)->REQSEL4_7 & ~PDMA_REQSEL4_7_REQSRC4_Msk) | u32Peripheral; break; case 5UL: (pdma)->REQSEL4_7 = ((pdma)->REQSEL4_7 & ~PDMA_REQSEL4_7_REQSRC5_Msk) | (u32Peripheral << PDMA_REQSEL4_7_REQSRC5_Pos); break; case 6UL: (pdma)->REQSEL4_7 = ((pdma)->REQSEL4_7 & ~PDMA_REQSEL4_7_REQSRC6_Msk) | (u32Peripheral << PDMA_REQSEL4_7_REQSRC6_Pos); break; case 7UL: (pdma)->REQSEL4_7 = ((pdma)->REQSEL4_7 & ~PDMA_REQSEL4_7_REQSRC7_Msk) | (u32Peripheral << PDMA_REQSEL4_7_REQSRC7_Pos); break; default: break; } if(u32ScatterEn) { (pdma)->DSCT[u32Ch].CTL = ((pdma)->DSCT[u32Ch].CTL & ~PDMA_DSCT_CTL_OPMODE_Msk) | PDMA_OP_SCATTER; (pdma)->DSCT[u32Ch].NEXT = u32DescAddr - ((pdma)->SCATBA); } else { (pdma)->DSCT[u32Ch].CTL = ((pdma)->DSCT[u32Ch].CTL & ~PDMA_DSCT_CTL_OPMODE_Msk) | PDMA_OP_BASIC; } } /** * @brief Set PDMA Burst Type and Size * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32BurstType Burst mode or single mode. Valid values are * - \ref PDMA_REQ_SINGLE * - \ref PDMA_REQ_BURST * @param[in] u32BurstSize Set the size of burst mode. Valid values are * - \ref PDMA_BURST_128 * - \ref PDMA_BURST_64 * - \ref PDMA_BURST_32 * - \ref PDMA_BURST_16 * - \ref PDMA_BURST_8 * - \ref PDMA_BURST_4 * - \ref PDMA_BURST_2 * - \ref PDMA_BURST_1 * * @return None * * @details This function set the selected channel burst type and size. */ void PDMA_SetBurstType(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32BurstType, uint32_t u32BurstSize) { (pdma)->DSCT[u32Ch].CTL &= ~(PDMA_DSCT_CTL_TXTYPE_Msk | PDMA_DSCT_CTL_BURSIZE_Msk); (pdma)->DSCT[u32Ch].CTL |= (u32BurstType | u32BurstSize); } /** * @brief Enable timeout function * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Mask Channel enable bits. * * @return None * * @details This function enable timeout function of the selected channel(s). * @note This function is only supported in channel 0 and channel 1. */ void PDMA_EnableTimeout(PDMA_T *pdma, uint32_t u32Mask) { (pdma)->TOUTEN |= u32Mask; } /** * @brief Disable timeout function * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Mask Channel enable bits. * * @return None * * @details This function disable timeout function of the selected channel(s). * @note This function is only supported in channel 0 and channel 1. */ void PDMA_DisableTimeout(PDMA_T *pdma, uint32_t u32Mask) { (pdma)->TOUTEN &= ~u32Mask; } /** * @brief Set PDMA Timeout Count * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32OnOff Enable/disable timeout function * @param[in] u32TimeOutCnt Timeout count * * @return None * * @details This function set the timeout count. * @note This function is only supported in channel 0 and channel 1. */ void PDMA_SetTimeOut(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32OnOff, uint32_t u32TimeOutCnt) { switch(u32Ch) { case 0UL: (pdma)->TOC0_1 = ((pdma)->TOC0_1 & ~PDMA_TOC0_1_TOC0_Msk) | u32TimeOutCnt; break; case 1UL: (pdma)->TOC0_1 = ((pdma)->TOC0_1 & ~PDMA_TOC0_1_TOC1_Msk) | (u32TimeOutCnt << PDMA_TOC0_1_TOC1_Pos); break; default: break; } if(u32OnOff) { (pdma)->TOUTEN |= (1UL << u32Ch); } else { (pdma)->TOUTEN &= ~(1UL << u32Ch); } } /** * @brief Trigger PDMA * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * * @return None * * @details This function trigger the selected channel. */ void PDMA_Trigger(PDMA_T *pdma, uint32_t u32Ch) { if(au8ChSelect[u32Ch] == PDMA_MEM) { (pdma)->SWREQ = (1UL << u32Ch); } } /** * @brief Enable Interrupt * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32Mask The Interrupt Type. Valid values are * - \ref PDMA_INT_TRANS_DONE * - \ref PDMA_INT_TABLE * - \ref PDMA_INT_TIMEOUT * - \ref PDMA_INT_ALIGN * * @return None * * @details This function enable the selected channel interrupt. * @note PDMA_INT_TIMEOUT is only supported in channel 0 and channel 1. */ void PDMA_EnableInt(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32Mask) { switch(u32Mask) { case PDMA_INT_TRANS_DONE: case PDMA_INT_ALIGN: (pdma)->INTEN |= (1UL << u32Ch); break; case PDMA_INT_TABLE: (pdma)->DSCT[u32Ch].CTL &= ~PDMA_DSCT_CTL_TBINTDIS_Msk; break; case PDMA_INT_TIMEOUT: (pdma)->TOUTIEN |= (1UL << u32Ch); break; default: break; } } /** * @brief Disable Interrupt * * @param[in] pdma The pointer of the specified PDMA module * @param[in] u32Ch The selected channel * @param[in] u32Mask The Interrupt Type. Valid values are * - \ref PDMA_INT_TRANS_DONE * - \ref PDMA_INT_TABLE * - \ref PDMA_INT_TIMEOUT * - \ref PDMA_INT_ALIGN * * @return None * * @details This function disable the selected channel interrupt. * @note PDMA_INT_TIMEOUT is only supported in channel 0 and channel 1. * @note The transfer done interrupt is disabled when table empty interrupt is disabled(PDMA_INT_TEMPTY). */ void PDMA_DisableInt(PDMA_T *pdma, uint32_t u32Ch, uint32_t u32Mask) { switch(u32Mask) { case PDMA_INT_TRANS_DONE: case PDMA_INT_ALIGN: (pdma)->INTEN &= ~(1UL << u32Ch); break; case PDMA_INT_TABLE: (pdma)->DSCT[u32Ch].CTL |= PDMA_DSCT_CTL_TBINTDIS_Msk; break; case PDMA_INT_TIMEOUT: (pdma)->TOUTIEN &= ~(1UL << u32Ch); break; default: break; } } /**@}*/ /* end of group PDMA_EXPORTED_FUNCTIONS */ /**@}*/ /* end of group PDMA_Driver */ /**@}*/ /* end of group Standard_Driver */