/**************************************************************************//** * @file ccap.c * @version V3.00 * @brief M460 Series CCAP Driver Source File * * @copyright SPDX-License-Identifier: Apache-2.0 * @copyright Copyright (C) 2021 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #include "NuMicro.h" /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup CCAP_Driver CCAP Driver @{ */ int32_t g_CCAP_i32ErrCode = 0; /*!< CCAP global error code */ /** @addtogroup CCAP_EXPORTED_FUNCTIONS CCAP Exported Functions @{ */ /** * @brief Open and set CCAP function * * @param[in] u32InFormat The bits corresponding VSP, HSP, PCLK, INFMT, SNRTYPE, OUTFMT and PDORD configurations. * - VSP Sensor Vsync Polarity. It should be either \ref CCAP_PAR_VSP_LOW or \ref CCAP_PAR_VSP_HIGH * - HSP Sensor Hsync Polarity. It should be either \ref CCAP_PAR_HSP_LOW or \ref CCAP_PAR_HSP_HIGH * - PCLK Sensor Pixel Clock Polarity. It should be either \ref CCAP_PAR_PCLKP_LOW or \ref CCAP_PAR_PCLKP_HIGH * - INFMT Sensor Input Data Format. It should be either \ref CCAP_PAR_INFMT_YUV422 or \ref CCAP_PAR_INFMT_RGB565 * - SNRTYPE Sensor Input Type. It should be either \ref CCAP_PAR_SENTYPE_CCIR601 or \ref CCAP_PAR_SENTYPE_CCIR656 * - PLNFMT Planar Output YUV Format * - \ref 0 = YUV422 * - OUTFMT Image Data Format Output to System Memory. It should be one of the following settings * - \ref CCAP_PAR_OUTFMT_YUV422 * - \ref CCAP_PAR_OUTFMT_ONLY_Y * - \ref CCAP_PAR_OUTFMT_RGB555 * - \ref CCAP_PAR_OUTFMT_RGB565 * - PDORD Sensor Input Data Order. It should be one of the following settings * - \ref CCAP_PAR_INDATORD_YUYV * - \ref CCAP_PAR_INDATORD_YVYU * - \ref CCAP_PAR_INDATORD_UYVY * - \ref CCAP_PAR_INDATORD_VYUY * - \ref CCAP_PAR_INDATORD_RGGB * - \ref CCAP_PAR_INDATORD_BGGR * - \ref CCAP_PAR_INDATORD_GBRG * - \ref CCAP_PAR_INDATORD_GRBG * @param[in] u32OutFormat Image Data Output Format. It should be * - \ref CCAP_CTL_PKTEN * * @return None * * @details Initialize the Camera Capture Interface. */ void CCAP_Open(CCAP_T *ccap, uint32_t u32InFormat, uint32_t u32OutFormat) { ccap->PAR = (ccap->PAR & ~(0x000007BFUL)) | u32InFormat; ccap->CTL = (ccap->CTL & ~(0x00000060UL)) | u32OutFormat; } /** * @brief Set Cropping Window Starting Address and Size * * @param[in] u32VStart: Cropping Window Vertical Starting Address. It should be 0 ~ 0x7FF. * @param[in] u32HStart: Cropping Window Horizontal Starting Address. It should be 0 ~ 0x7FF. * @param[in] u32Height: Cropping Window Height. It should be 0 ~ 0x7FF. * @param[in] u32Width: Cropping Window Width. It should be 0 ~ 0x7FF. * * @return None * * @details This function is used to set cropping window starting address and size. */ void CCAP_SetCroppingWindow(CCAP_T *ccap, uint32_t u32VStart, uint32_t u32HStart, uint32_t u32Height, uint32_t u32Width) { ccap->CWSP = (ccap->CWSP & ~(CCAP_CWSP_CWSADDRV_Msk | CCAP_CWSP_CWSADDRH_Msk)) | (((u32VStart << 16) | u32HStart)); ccap->CWS = (ccap->CWS & ~(CCAP_CWS_CWH_Msk | CCAP_CWS_CWW_Msk)) | ((u32Height << 16) | u32Width); } /** * @brief Set System Memory Packet Base Address * * @param[in] u32Address: Set CCAP_PKTBA0 register. It should be 0x0 ~ 0xFFFFFFFF. * * @return None * * @details This function is used to set System Memory Packet Base Address 0 Register. */ void CCAP_SetPacketBuf(CCAP_T *ccap, uint32_t u32Address) { ccap->PKTBA0 = u32Address; ccap->CTL |= CCAP_CTL_UPDATE_Msk; } /** * @brief Set System Memory Planar Y Base Address * * @param[in] u32Address: Set CCAP_YBA register. It should be 0x0 ~ 0xFFFFFFFF. * * @return None * * @details This function is used to set System Memory Planar Y Base Address 0 Register. */ void CCAP_SetPlanarYBuf(CCAP_T *ccap, uint32_t u32Address) { ccap->YBA = u32Address; ccap->CTL |= CCAP_CTL_UPDATE_Msk; } /** * @brief Set System Memory Planar U Base Address * * @param[in] u32Address: Set CCAP_UBA register. It should be 0x0 ~ 0xFFFFFFFF. * * @return None * * @details This function is used to set System Memory Planar U Base Address 0 Register. */ void CCAP_SetPlanarUBuf(CCAP_T *ccap, uint32_t u32Address) { ccap->UBA = u32Address; ccap->CTL |= CCAP_CTL_UPDATE_Msk; } /** * @brief Set System Memory Planar V Base Address * * @param[in] u32Address: Set CCAP_VBA register. It should be 0x0 ~ 0xFFFFFFFF. * * @return None * * @details This function is used to set System Memory Planar V Base Address 0 Register. */ void CCAP_SetPlanarVBuf(CCAP_T *ccap, uint32_t u32Address) { ccap->VBA = u32Address; ccap->CTL |= CCAP_CTL_UPDATE_Msk; } /** * @brief Close Camera Capture Interface * * @param None * * @return None * * @details This function is used to disable Camera Capture Interface. */ void CCAP_Close(CCAP_T *ccap) { ccap->CTL &= ~CCAP_CTL_CCAPEN; } /** * @brief Enable CCAP Interrupt * * @param[in] u32IntMask Interrupt settings. It could be * - \ref CCAP_INT_VIEN_Msk * - \ref CCAP_INT_MEIEN_Msk * - \ref CCAP_INT_ADDRMIEN_Msk * * @return None * * @details This function is used to enable Video Frame End Interrupt, * Bus Master Transfer Error Interrupt and Memory Address Match Interrupt. */ void CCAP_EnableInt(CCAP_T *ccap, uint32_t u32IntMask) { ccap->INT = (ccap->INT & ~(CCAP_INT_VIEN_Msk | CCAP_INT_MEIEN_Msk | CCAP_INT_ADDRMIEN_Msk)) | u32IntMask; } /** * @brief Disable CCAP Interrupt * * @param[in] u32IntMask Interrupt settings. It could be * - \ref CCAP_INT_VINTF_Msk * - \ref CCAP_INT_MEINTF_Msk * - \ref CCAP_INT_ADDRMINTF_Msk * * @return None * * @details This function is used to disable Video Frame End Interrupt, * Bus Master Transfer Error Interrupt and Memory Address Match Interrupt. */ void CCAP_DisableInt(CCAP_T *ccap, uint32_t u32IntMask) { ccap->INT = (ccap->INT & ~(u32IntMask)); } /** * @brief Enable Monochrome CMOS Sensor * * @param[in] u32Interface Data I/O interface setting. It could be * - \ref CCAP_CTL_MY8_MY4 * - \ref CCAP_CTL_MY8_MY8 * @return None * * @details This function is used to select monochrome CMOS sensor and set data width. */ void CCAP_EnableMono(CCAP_T *ccap, uint32_t u32Interface) { ccap->CTL = (ccap->CTL & ~CCAP_CTL_MY8_MY4) | CCAP_CTL_MONO_Msk | u32Interface; } /** * @brief Disable Monochrome CMOS Sensor * * @param None * * @return None * * @details This function is used to disable monochrome CMOS sensor selection. */ void CCAP_DisableMono(CCAP_T *ccap) { ccap->CTL &= ~CCAP_CTL_MONO_Msk; } /** * @brief Enable Luminance 8-bit Y to 1-bit Y Conversion * * @param[in] u32th Luminance Y8 to Y1 Threshold Value. It should be 0 ~ 255. * * @return None * * @details This function is used to enable luminance Y8 to Y1 function and set its threshold value. */ void CCAP_EnableLumaYOne(CCAP_T *ccap, uint32_t u32th) { ccap->CTL |= CCAP_CTL_Luma_Y_One_Msk; ccap->LUMA_Y1_THD = u32th & 0xff; } /** * @brief Disable Luminance 8-bit Y to 1-bit Y Conversion * * @param None * * @return None * * @details This function is used to disable luminance Y8 to Y1 function. * */ void CCAP_DisableLumaYOne(CCAP_T *ccap) { ccap->CTL &= ~CCAP_CTL_Luma_Y_One_Msk; } /** * @brief Start Camera Capture Interface * * @param None * * @return None * * @details This function is used to start Camera Capture Interface function. */ void CCAP_Start(CCAP_T *ccap) { ccap->CTL |= CCAP_CTL_CCAPEN; } /** * @brief Stop Camera Capture Interface * * @param[in] u32FrameComplete: * - \ref TRUE: Capture module disables the CCAP module automatically after a frame had been captured. * - \ref FALSE: Stop Capture module now. * * @return None * * @details If u32FrameComplete is set to TRUE then get a new frame and disable CCAP module. * * @note This function sets g_CCAP_i32ErrCode to CCAP_TIMEOUT_ERR if the CCAP_IS_STOPPED() longer than expected. */ void CCAP_Stop(CCAP_T *ccap, uint32_t u32FrameComplete) { uint32_t u32TimeOutCount = SystemCoreClock; if (u32FrameComplete == FALSE) ccap->CTL &= ~CCAP_CTL_CCAPEN; else { ccap->CTL |= CCAP_CTL_SHUTTER_Msk; while (!CCAP_IS_STOPPED(ccap)) { if (--u32TimeOutCount == 0) { g_CCAP_i32ErrCode = CCAP_TIMEOUT_ERR; break; } } } } /** * @brief Set Packet Scaling Factor * * @param[in] u32VNumerator: Packet Scaling Vertical Factor N. It should be 0x0 ~ 0xFFFF. * @param[in] u32VDenominator: Packet Scaling Vertical Factor M. It should be 0x0 ~ 0xFFFF. * @param[in] u32HNumerator: Packet Scaling Horizontal Factor N. It should be 0x0 ~ 0xFFFF. * @param[in] u32HDenominator: Packet Scaling Horizontal Factor M. It should be 0x0 ~ 0xFFFF. * * @return None * * @details This function is used to set Packet Scaling Vertical and Horizontal Factor register. */ void CCAP_SetPacketScaling(CCAP_T *ccap, uint32_t u32VNumerator, uint32_t u32VDenominator, uint32_t u32HNumerator, uint32_t u32HDenominator) { uint32_t u32NumeratorL, u32NumeratorH; uint32_t u32DenominatorL, u32DenominatorH; u32NumeratorL = u32VNumerator & 0xFF; u32NumeratorH = u32VNumerator >> 8; u32DenominatorL = u32VDenominator & 0xFF; u32DenominatorH = u32VDenominator >> 8; ccap->PKTSL = (ccap->PKTSL & ~(CCAP_PKTSL_PKTSVNL_Msk | CCAP_PKTSL_PKTSVML_Msk)) | ((u32NumeratorL << CCAP_PKTSL_PKTSVNL_Pos) | (u32DenominatorL << CCAP_PKTSL_PKTSVML_Pos)); ccap->PKTSM = (ccap->PKTSM & ~(CCAP_PKTSM_PKTSVNH_Msk | CCAP_PKTSM_PKTSVMH_Msk)) | ((u32NumeratorH << CCAP_PKTSL_PKTSVNL_Pos) | (u32DenominatorH << CCAP_PKTSL_PKTSVML_Pos)); u32NumeratorL = u32HNumerator & 0xFF; u32NumeratorH = u32HNumerator >> 8; u32DenominatorL = u32HDenominator & 0xFF; u32DenominatorH = u32HDenominator >> 8; ccap->PKTSL = (ccap->PKTSL & ~(CCAP_PKTSL_PKTSHNL_Msk | CCAP_PKTSL_PKTSHML_Msk)) | ((u32NumeratorL << CCAP_PKTSL_PKTSHNL_Pos) | (u32DenominatorL << CCAP_PKTSL_PKTSHML_Pos)); ccap->PKTSM = (ccap->PKTSM & ~(CCAP_PKTSM_PKTSHNH_Msk | CCAP_PKTSM_PKTSHMH_Msk)) | ((u32NumeratorH << CCAP_PKTSL_PKTSHNL_Pos) | (u32DenominatorH << CCAP_PKTSL_PKTSHML_Pos)); } /** * @brief Set Planar Scaling Factor * * @param[in] u32VNumerator: Planar Scaling Vertical Factor N. It should be 0x0 ~ 0xFFFF. * @param[in] u32VDenominator: Planar Scaling Vertical Factor M. It should be 0x0 ~ 0xFFFF. * @param[in] u32HNumerator: Planar Scaling Horizontal Factor N. It should be 0x0 ~ 0xFFFF. * @param[in] u32HDenominator: Planar Scaling Horizontal Factor M. It should be 0x0 ~ 0xFFFF. * * @return None * * @details This function is used to set Planar Scaling Vertical and Horizontal Factor register. */ void CCAP_SetPlanarScaling(CCAP_T *ccap, uint32_t u32VNumerator, uint32_t u32VDenominator, uint32_t u32HNumerator, uint32_t u32HDenominator) { uint32_t u32NumeratorL, u32NumeratorH; uint32_t u32DenominatorL, u32DenominatorH; u32NumeratorL = u32VNumerator & 0xFF; u32NumeratorH = u32VNumerator >> 8; u32DenominatorL = u32VDenominator & 0xFF; u32DenominatorH = u32VDenominator >> 8; ccap->PLNSL = (ccap->PLNSL & ~(CCAP_PLNSL_PLNSVNL_Msk | CCAP_PLNSL_PLNSVML_Msk)) | ((u32NumeratorL << CCAP_PLNSL_PLNSVNL_Pos) | (u32DenominatorL << CCAP_PLNSL_PLNSVML_Pos)); ccap->PLNSM = (ccap->PLNSM & ~(CCAP_PLNSM_PLNSVNH_Msk | CCAP_PLNSM_PLNSVMH_Msk)) | ((u32NumeratorH << CCAP_PLNSL_PLNSVNL_Pos) | (u32DenominatorH << CCAP_PLNSL_PLNSVML_Pos)); u32NumeratorL = u32HNumerator & 0xFF; u32NumeratorH = u32HNumerator >> 8; u32DenominatorL = u32HDenominator & 0xFF; u32DenominatorH = u32HDenominator >> 8; ccap->PLNSL = (ccap->PLNSL & ~(CCAP_PLNSL_PLNSHNL_Msk | CCAP_PLNSL_PLNSHML_Msk)) | ((u32NumeratorL << CCAP_PLNSL_PLNSHNL_Pos) | (u32DenominatorL << CCAP_PLNSL_PLNSHML_Pos)); ccap->PLNSM = (ccap->PLNSM & ~(CCAP_PLNSM_PLNSHNH_Msk | CCAP_PLNSM_PLNSHMH_Msk)) | ((u32NumeratorH << CCAP_PLNSL_PLNSHNL_Pos) | (u32DenominatorH << CCAP_PLNSL_PLNSHML_Pos)); } /** * @brief Set Packet Frame Output Pixel Stride Width * * @param[in] u32Stride: Set CCAP_STRIDE register. It should be 0x0 ~ 0x3FFF. * * @return None * * @details This function is used to set Packet Frame Output Pixel Stride Width. */ void CCAP_SetPacketStride(CCAP_T *ccap, uint32_t u32Stride) { ccap->STRIDE = (ccap->STRIDE & ~CCAP_STRIDE_PKTSTRIDE_Msk) | (u32Stride << CCAP_STRIDE_PKTSTRIDE_Pos); } /** * @brief Set Planar Frame Output Pixel Stride Width * * @param[in] u32Stride: Set CCAP_STRIDE register. It should be 0x0 ~ 0x3FFF. * * @return None * * @details This function is used to set Planar Frame Output Pixel Stride Width. */ void CCAP_SetPlanarStride(CCAP_T *ccap, uint32_t u32Stride) { ccap->STRIDE = (ccap->STRIDE & ~CCAP_STRIDE_PLNSTRIDE_Msk) | (u32Stride << CCAP_STRIDE_PLNSTRIDE_Pos); } /*@}*/ /* end of group CCAP_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group CCAP_Driver */ /*@}*/ /* end of group Standard_Driver */