/**************************************************************************//** * @file SDH.c * @brief SDH driver source file * * SPDX-License-Identifier: Apache-2.0 * @copyright (C) 2018 Nuvoton Technology Corp. All rights reserved. *****************************************************************************/ #include #include #include #include "nuc980.h" #include "nu_sdh.h" /** @addtogroup Standard_Driver Standard Driver @{ */ /** @addtogroup SDH_Driver SDH Driver @{ */ /** @addtogroup SDH_EXPORTED_FUNCTIONS SDH Exported Functions @{ */ #define SDH_BLOCK_SIZE 512ul /** @cond HIDDEN_SYMBOLS */ /* global variables */ /* For response R3 (such as ACMD41, CRC-7 is invalid; but SD controller will still */ /* calculate CRC-7 and get an error result, software should ignore this error and clear SDISR [CRC_IF] flag */ /* _sd_uR3_CMD is the flag for it. 1 means software should ignore CRC-7 error */ #ifdef __ICCARM__ #pragma data_alignment = 32 static uint8_t _SDH0_ucSDHCBuffer[512]; static uint8_t _SDH1_ucSDHCBuffer[512]; #else static uint8_t _SDH0_ucSDHCBuffer[512] __attribute__((aligned(32))); static uint8_t _SDH1_ucSDHCBuffer[512] __attribute__((aligned(32))); #endif SDH_INFO_T SD0, SD1; void SDH_CheckRB(SDH_T *sdh) { while (1) { sdh->CTL |= SDH_CTL_CLK8OEN_Msk; while ((sdh->CTL & SDH_CTL_CLK8OEN_Msk) == SDH_CTL_CLK8OEN_Msk) { } if ((sdh->INTSTS & SDH_INTSTS_DAT0STS_Msk) == SDH_INTSTS_DAT0STS_Msk) { break; } } } uint32_t SDH_SDCommand(SDH_T *sdh, uint32_t ucCmd, uint32_t uArg) { volatile uint32_t buf, val = 0ul; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } sdh->CMDARG = uArg; buf = (sdh->CTL & (~SDH_CTL_CMDCODE_Msk)) | (ucCmd << 8ul) | (SDH_CTL_COEN_Msk); sdh->CTL = buf; while ((sdh->CTL & SDH_CTL_COEN_Msk) == SDH_CTL_COEN_Msk) { if (pSD->IsCardInsert == 0ul) { val = SDH_NO_SD_CARD; } } return val; } uint32_t SDH_SDCmdAndRsp(SDH_T *sdh, uint32_t ucCmd, uint32_t uArg, uint32_t ntickCount) { volatile uint32_t buf; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } sdh->CMDARG = uArg; buf = (sdh->CTL & (~SDH_CTL_CMDCODE_Msk)) | (ucCmd << 8ul) | (SDH_CTL_COEN_Msk | SDH_CTL_RIEN_Msk); sdh->CTL = buf; if (ntickCount > 0ul) { while ((sdh->CTL & SDH_CTL_RIEN_Msk) == SDH_CTL_RIEN_Msk) { if (ntickCount-- == 0ul) { sdh->CTL |= SDH_CTL_CTLRST_Msk; /* reset SD engine */ return 2ul; } if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } } else { while ((sdh->CTL & SDH_CTL_RIEN_Msk) == SDH_CTL_RIEN_Msk) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } } if (pSD->R7Flag) { uint32_t tmp0 = 0ul, tmp1 = 0ul; tmp1 = sdh->RESP1 & 0xfful; tmp0 = sdh->RESP0 & 0xful; if ((tmp1 != 0x55ul) && (tmp0 != 0x01ul)) { pSD->R7Flag = 0ul; return SDH_CMD8_ERROR; } } if (!pSD->R3Flag) { if ((sdh->INTSTS & SDH_INTSTS_CRC7_Msk) == SDH_INTSTS_CRC7_Msk) /* check CRC7 */ { return Successful; } else { return SDH_CRC7_ERROR; } } else { /* ignore CRC error for R3 case */ pSD->R3Flag = 0ul; sdh->INTSTS = SDH_INTSTS_CRCIF_Msk; return Successful; } } uint32_t SDH_Swap32(uint32_t val) { uint32_t buf; buf = val; val <<= 24; val |= (buf << 8) & 0xff0000ul; val |= (buf >> 8) & 0xff00ul; val |= (buf >> 24) & 0xfful; return val; } /* Get 16 bytes CID or CSD */ uint32_t SDH_SDCmdAndRsp2(SDH_T *sdh, uint32_t ucCmd, uint32_t uArg, uint32_t puR2ptr[]) { uint32_t i, buf; uint32_t tmpBuf[5]; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } sdh->CMDARG = uArg; buf = (sdh->CTL & (~SDH_CTL_CMDCODE_Msk)) | (ucCmd << 8) | (SDH_CTL_COEN_Msk | SDH_CTL_R2EN_Msk); sdh->CTL = buf; while ((sdh->CTL & SDH_CTL_R2EN_Msk) == SDH_CTL_R2EN_Msk) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } if ((sdh->INTSTS & SDH_INTSTS_CRC7_Msk) == SDH_INTSTS_CRC7_Msk) { for (i = 0ul; i < 5ul; i++) { tmpBuf[i] = SDH_Swap32(sdh->FB[i]); } for (i = 0ul; i < 4ul; i++) { puR2ptr[i] = ((tmpBuf[i] & 0x00fffffful) << 8) | ((tmpBuf[i + 1ul] & 0xff000000ul) >> 24); } } else { return SDH_CRC7_ERROR; } return Successful; } uint32_t SDH_SDCmdAndRspDataIn(SDH_T *sdh, uint32_t ucCmd, uint32_t uArg) { volatile uint32_t buf; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } sdh->CMDARG = uArg; buf = (sdh->CTL & (~SDH_CTL_CMDCODE_Msk)) | (ucCmd << 8ul) | (SDH_CTL_COEN_Msk | SDH_CTL_RIEN_Msk | SDH_CTL_DIEN_Msk); sdh->CTL = buf; while ((sdh->CTL & SDH_CTL_RIEN_Msk) == SDH_CTL_RIEN_Msk) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } while ((sdh->CTL & SDH_CTL_DIEN_Msk) == SDH_CTL_DIEN_Msk) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } if ((sdh->INTSTS & SDH_INTSTS_CRC7_Msk) != SDH_INTSTS_CRC7_Msk) { /* check CRC7 */ return SDH_CRC7_ERROR; } if ((sdh->INTSTS & SDH_INTSTS_CRC16_Msk) != SDH_INTSTS_CRC16_Msk) { /* check CRC16 */ return SDH_CRC16_ERROR; } return 0ul; } /* there are 8 bits for divider0, maximum is 256 */ #define SDH_CLK_DIV0_MAX 256ul void SDH_Set_clock(SDH_T *sdh, uint32_t sd_clock_khz) { UINT32 div; uint32_t SDH_ReferenceClock; if (sd_clock_khz <= 2000) { SDH_ReferenceClock = 12000; if (sdh == SDH0) { outpw(REG_CLK_DIVCTL9, (inpw(REG_CLK_DIVCTL9) & ~0x18) | (0x0 << 3)); // SD clock from XIN [4:3] } else { //fixme outpw(REG_CLK_DIVCTL9, (inpw(REG_CLK_DIVCTL9) & ~0x18) | (0x0 << 3)); // SD clock from XIN [4:3] } } else { SDH_ReferenceClock = 300000; if (sdh == SDH0) { outpw(REG_CLK_DIVCTL9, (inpw(REG_CLK_DIVCTL9) & ~0x18) | (0x3 << 3)); // SD clock from UPLL [4:3] } else { //fixme outpw(REG_CLK_DIVCTL9, (inpw(REG_CLK_DIVCTL9) & ~0x18) | (0x3 << 3)); // SD clock from UPLL [4:3] } } div = (SDH_ReferenceClock / sd_clock_khz) - 1; if (div >= SDH_CLK_DIV0_MAX) { div = 0xff; } outpw(REG_CLK_DIVCTL9, (inpw(REG_CLK_DIVCTL9) & ~0xff00) | ((div) << 8)); // SD clock divided by CLKDIV3[SD_N] [15:8] } uint32_t SDH_CardDetection(SDH_T *sdh) { uint32_t i, val = TRUE; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } if ((sdh->INTEN & SDH_INTEN_CDSRC_Msk) == SDH_INTEN_CDSRC_Msk) /* Card detect pin from GPIO */ { if ((sdh->INTSTS & SDH_INTSTS_CDSTS_Msk) == SDH_INTSTS_CDSTS_Msk) /* Card remove */ { pSD->IsCardInsert = (uint8_t)FALSE; val = FALSE; } else { pSD->IsCardInsert = (uint8_t)TRUE; } } else if ((sdh->INTEN & SDH_INTEN_CDSRC_Msk) != SDH_INTEN_CDSRC_Msk) { sdh->CTL |= SDH_CTL_CLKKEEP_Msk; for (i = 0ul; i < 5000ul; i++) { } if ((sdh->INTSTS & SDH_INTSTS_CDSTS_Msk) == SDH_INTSTS_CDSTS_Msk) /* Card insert */ { pSD->IsCardInsert = (uint8_t)TRUE; } else { pSD->IsCardInsert = (uint8_t)FALSE; val = FALSE; } sdh->CTL &= ~SDH_CTL_CLKKEEP_Msk; } return val; } uint32_t SDH_Init(SDH_T *sdh) { uint32_t volatile i, status; uint32_t resp; uint32_t CIDBuffer[4]; uint32_t volatile u32CmdTimeOut; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } /* set the clock to 300KHz */ SDH_Set_clock(sdh, 300ul); /* power ON 74 clock */ sdh->CTL |= SDH_CTL_CLK74OEN_Msk; while ((sdh->CTL & SDH_CTL_CLK74OEN_Msk) == SDH_CTL_CLK74OEN_Msk) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } SDH_SDCommand(sdh, 0ul, 0ul); /* reset all cards */ for (i = 0x1000ul; i > 0ul; i--) { } /* initial SDHC */ pSD->R7Flag = 1ul; u32CmdTimeOut = 0xFFFFFul; i = SDH_SDCmdAndRsp(sdh, 8ul, 0x00000155ul, u32CmdTimeOut); if (i == Successful) { /* SD 2.0 */ SDH_SDCmdAndRsp(sdh, 55ul, 0x00ul, u32CmdTimeOut); pSD->R3Flag = 1ul; SDH_SDCmdAndRsp(sdh, 41ul, 0x40ff8000ul, u32CmdTimeOut); /* 2.7v-3.6v */ resp = sdh->RESP0; while ((resp & 0x00800000ul) != 0x00800000ul) /* check if card is ready */ { SDH_SDCmdAndRsp(sdh, 55ul, 0x00ul, u32CmdTimeOut); pSD->R3Flag = 1ul; SDH_SDCmdAndRsp(sdh, 41ul, 0x40ff8000ul, u32CmdTimeOut); /* 3.0v-3.4v */ resp = sdh->RESP0; } if ((resp & 0x00400000ul) == 0x00400000ul) { pSD->CardType = SDH_TYPE_SD_HIGH; } else { pSD->CardType = SDH_TYPE_SD_LOW; } } else { /* SD 1.1 */ SDH_SDCommand(sdh, 0ul, 0ul); /* reset all cards */ for (i = 0x100ul; i > 0ul; i--) { } i = SDH_SDCmdAndRsp(sdh, 55ul, 0x00ul, u32CmdTimeOut); if (i == 2ul) /* MMC memory */ { SDH_SDCommand(sdh, 0ul, 0ul); /* reset */ for (i = 0x100ul; i > 0ul; i--) { } pSD->R3Flag = 1ul; if (SDH_SDCmdAndRsp(sdh, 1ul, 0x40ff8000ul, u32CmdTimeOut) != 2ul) /* eMMC memory */ { resp = sdh->RESP0; while ((resp & 0x00800000ul) != 0x00800000ul) { /* check if card is ready */ pSD->R3Flag = 1ul; SDH_SDCmdAndRsp(sdh, 1ul, 0x40ff8000ul, u32CmdTimeOut); /* high voltage */ resp = sdh->RESP0; } if ((resp & 0x00400000ul) == 0x00400000ul) { pSD->CardType = SDH_TYPE_EMMC; } else { pSD->CardType = SDH_TYPE_MMC; } } else { pSD->CardType = SDH_TYPE_UNKNOWN; return SDH_ERR_DEVICE; } } else if (i == 0ul) /* SD Memory */ { pSD->R3Flag = 1ul; SDH_SDCmdAndRsp(sdh, 41ul, 0x00ff8000ul, u32CmdTimeOut); /* 3.0v-3.4v */ resp = sdh->RESP0; while ((resp & 0x00800000ul) != 0x00800000ul) /* check if card is ready */ { SDH_SDCmdAndRsp(sdh, 55ul, 0x00ul, u32CmdTimeOut); pSD->R3Flag = 1ul; SDH_SDCmdAndRsp(sdh, 41ul, 0x00ff8000ul, u32CmdTimeOut); /* 3.0v-3.4v */ resp = sdh->RESP0; } pSD->CardType = SDH_TYPE_SD_LOW; } else { pSD->CardType = SDH_TYPE_UNKNOWN; return SDH_INIT_ERROR; } } if (pSD->CardType != SDH_TYPE_UNKNOWN) { SDH_SDCmdAndRsp2(sdh, 2ul, 0x00ul, CIDBuffer); if ((pSD->CardType == SDH_TYPE_MMC) || (pSD->CardType == SDH_TYPE_EMMC)) { if ((status = SDH_SDCmdAndRsp(sdh, 3ul, 0x10000ul, 0ul)) != Successful) /* set RCA */ { return status; } pSD->RCA = 0x10000ul; } else { if ((status = SDH_SDCmdAndRsp(sdh, 3ul, 0x00ul, 0ul)) != Successful) /* get RCA */ { return status; } else { pSD->RCA = (sdh->RESP0 << 8) & 0xffff0000; } } } return Successful; } uint32_t SDH_SwitchToHighSpeed(SDH_T *sdh, SDH_INFO_T *pSD) { uint32_t volatile status = 0ul; uint16_t current_comsumption, busy_status0; sdh->DMASA = (uint32_t)pSD->dmabuf; sdh->BLEN = 63ul; if ((status = SDH_SDCmdAndRspDataIn(sdh, 6ul, 0x00ffff01ul)) != Successful) { return Fail; } current_comsumption = (uint16_t)(*pSD->dmabuf) << 8; current_comsumption |= (uint16_t)(*(pSD->dmabuf + 1)); if (!current_comsumption) { return Fail; } busy_status0 = (uint16_t)(*(pSD->dmabuf + 28)) << 8; busy_status0 |= (uint16_t)(*(pSD->dmabuf + 29)); if (!busy_status0) /* function ready */ { sdh->DMASA = (uint32_t)pSD->dmabuf; sdh->BLEN = 63ul; /* 512 bit */ if ((status = SDH_SDCmdAndRspDataIn(sdh, 6ul, 0x80ffff01ul)) != Successful) { return Fail; } /* function change timing: 8 clocks */ sdh->CTL |= SDH_CTL_CLK8OEN_Msk; while ((sdh->CTL & SDH_CTL_CLK8OEN_Msk) == SDH_CTL_CLK8OEN_Msk) { } current_comsumption = (uint16_t)(*pSD->dmabuf) << 8; current_comsumption |= (uint16_t)(*(pSD->dmabuf + 1)); if (!current_comsumption) { return Fail; } return Successful; } else { return Fail; } } uint32_t SDH_SelectCardType(SDH_T *sdh) { uint32_t volatile status = 0ul; uint32_t param; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } if ((status = SDH_SDCmdAndRsp(sdh, 7ul, pSD->RCA, 0ul)) != Successful) { return status; } SDH_CheckRB(sdh); /* if SD card set 4bit */ if (pSD->CardType == SDH_TYPE_SD_HIGH) { sdh->DMASA = (uint32_t)pSD->dmabuf; sdh->BLEN = 0x07ul; /* 64 bit */ sdh->DMACTL |= SDH_DMACTL_DMARST_Msk; while ((sdh->DMACTL & SDH_DMACTL_DMARST_Msk) == 0x2); if ((status = SDH_SDCmdAndRsp(sdh, 55ul, pSD->RCA, 0ul)) != Successful) { return status; } if ((status = SDH_SDCmdAndRspDataIn(sdh, 51ul, 0x00ul)) != Successful) { return status; } if ((*pSD->dmabuf & 0xful) == 0x2ul) { status = SDH_SwitchToHighSpeed(sdh, pSD); if (status == Successful) { /* divider */ SDH_Set_clock(sdh, SDHC_FREQ); } } if ((status = SDH_SDCmdAndRsp(sdh, 55ul, pSD->RCA, 0ul)) != Successful) { return status; } if ((status = SDH_SDCmdAndRsp(sdh, 6ul, 0x02ul, 0ul)) != Successful) /* set bus width */ { return status; } sdh->CTL |= SDH_CTL_DBW_Msk; } else if (pSD->CardType == SDH_TYPE_SD_LOW) { sdh->DMASA = (uint32_t)pSD->dmabuf;; sdh->BLEN = 0x07ul; if ((status = SDH_SDCmdAndRsp(sdh, 55ul, pSD->RCA, 0ul)) != Successful) { return status; } if ((status = SDH_SDCmdAndRspDataIn(sdh, 51ul, 0x00ul)) != Successful) { return status; } /* set data bus width. ACMD6 for SD card, SDCR_DBW for host. */ if ((status = SDH_SDCmdAndRsp(sdh, 55ul, pSD->RCA, 0ul)) != Successful) { return status; } if ((status = SDH_SDCmdAndRsp(sdh, 6ul, 0x02ul, 0ul)) != Successful) { return status; } sdh->CTL |= SDH_CTL_DBW_Msk; } else if ((pSD->CardType == SDH_TYPE_MMC) || (pSD->CardType == SDH_TYPE_EMMC)) { if (pSD->CardType == SDH_TYPE_MMC) { sdh->CTL &= ~SDH_CTL_DBW_Msk; } /*--- sent CMD6 to MMC card to set bus width to 4 bits mode */ /* set CMD6 argument Access field to 3, Index to 183, Value to 1 (4-bit mode) */ param = (3ul << 24) | (183ul << 16) | (1ul << 8); if ((status = SDH_SDCmdAndRsp(sdh, 6ul, param, 0ul)) != Successful) { return status; } SDH_CheckRB(sdh); sdh->CTL |= SDH_CTL_DBW_Msk; /* set bus width to 4-bit mode for SD host controller */ } if ((status = SDH_SDCmdAndRsp(sdh, 16ul, SDH_BLOCK_SIZE, 0ul)) != Successful) { return status; } sdh->BLEN = SDH_BLOCK_SIZE - 1ul; SDH_SDCommand(sdh, 7ul, 0ul); sdh->CTL |= SDH_CTL_CLK8OEN_Msk; while ((sdh->CTL & SDH_CTL_CLK8OEN_Msk) == SDH_CTL_CLK8OEN_Msk) { } sdh->INTEN |= SDH_INTEN_BLKDIEN_Msk; return Successful; } void SDH_Get_SD_info(SDH_T *sdh) { unsigned int R_LEN, C_Size, MULT, size; uint32_t Buffer[4]; //unsigned char *ptr; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } SDH_SDCmdAndRsp2(sdh, 9ul, pSD->RCA, Buffer); if ((pSD->CardType == SDH_TYPE_MMC) || (pSD->CardType == SDH_TYPE_EMMC)) { /* for MMC/eMMC card */ if ((Buffer[0] & 0xc0000000) == 0xc0000000) { /* CSD_STRUCTURE [127:126] is 3 */ /* CSD version depend on EXT_CSD register in eMMC v4.4 for card size > 2GB */ SDH_SDCmdAndRsp(sdh, 7ul, pSD->RCA, 0ul); //ptr = (uint8_t *)((uint32_t)_SDH_ucSDHCBuffer ); sdh->DMASA = (uint32_t)pSD->dmabuf;; sdh->BLEN = 511ul; /* read 512 bytes for EXT_CSD */ if (SDH_SDCmdAndRspDataIn(sdh, 8ul, 0x00ul) == Successful) { SDH_SDCommand(sdh, 7ul, 0ul); sdh->CTL |= SDH_CTL_CLK8OEN_Msk; while ((sdh->CTL & SDH_CTL_CLK8OEN_Msk) == SDH_CTL_CLK8OEN_Msk) { } pSD->totalSectorN = (uint32_t)(*(pSD->dmabuf + 215)) << 24; pSD->totalSectorN |= (uint32_t)(*(pSD->dmabuf + 214)) << 16; pSD->totalSectorN |= (uint32_t)(*(pSD->dmabuf + 213)) << 8; pSD->totalSectorN |= (uint32_t)(*(pSD->dmabuf + 212)); pSD->diskSize = pSD->totalSectorN / 2ul; } } else { /* CSD version v1.0/1.1/1.2 in eMMC v4.4 spec for card size <= 2GB */ R_LEN = (Buffer[1] & 0x000f0000ul) >> 16; C_Size = ((Buffer[1] & 0x000003fful) << 2) | ((Buffer[2] & 0xc0000000ul) >> 30); MULT = (Buffer[2] & 0x00038000ul) >> 15; size = (C_Size + 1ul) * (1ul << (MULT + 2ul)) * (1ul << R_LEN); pSD->diskSize = size / 1024ul; pSD->totalSectorN = size / 512ul; } } else { if ((Buffer[0] & 0xc0000000) != 0x0ul) { C_Size = ((Buffer[1] & 0x0000003ful) << 16) | ((Buffer[2] & 0xffff0000ul) >> 16); size = (C_Size + 1ul) * 512ul; /* Kbytes */ pSD->diskSize = size; pSD->totalSectorN = size << 1; } else { R_LEN = (Buffer[1] & 0x000f0000ul) >> 16; C_Size = ((Buffer[1] & 0x000003fful) << 2) | ((Buffer[2] & 0xc0000000ul) >> 30); MULT = (Buffer[2] & 0x00038000ul) >> 15; size = (C_Size + 1ul) * (1ul << (MULT + 2ul)) * (1ul << R_LEN); pSD->diskSize = size / 1024ul; pSD->totalSectorN = size / 512ul; } } pSD->sectorSize = (int)512; // printf("The size is %d KB\n", pSD->diskSize); } /** @endcond HIDDEN_SYMBOLS */ /** * @brief This function use to reset SD function and select card detection source and pin. * * @param[in] sdh Select SDH0 or SDH1. * @param[in] u32CardDetSrc Select card detection pin from GPIO or DAT3 pin. ( \ref CardDetect_From_GPIO / \ref CardDetect_From_DAT3) * * @return None */ void SDH_Open(SDH_T *sdh, uint32_t u32CardDetSrc) { volatile int i; sdh->DMACTL = SDH_DMACTL_DMARST_Msk; while ((sdh->DMACTL & SDH_DMACTL_DMARST_Msk) == SDH_DMACTL_DMARST_Msk) { } sdh->DMACTL = SDH_DMACTL_DMAEN_Msk; sdh->GCTL = SDH_GCTL_GCTLRST_Msk | SDH_GCTL_SDEN_Msk; while ((sdh->GCTL & SDH_GCTL_GCTLRST_Msk) == SDH_GCTL_GCTLRST_Msk) { } if (sdh == SDH0) { memset(&SD0, 0, sizeof(SDH_INFO_T)); SD0.dmabuf = (unsigned char *)((uint32_t)_SDH0_ucSDHCBuffer | 0x80000000); } else if (sdh == SDH1) { memset(&SD1, 0, sizeof(SDH_INFO_T)); SD1.dmabuf = (unsigned char *)((uint32_t)_SDH1_ucSDHCBuffer | 0x80000000); } else { } sdh->GCTL = SDH_GCTL_SDEN_Msk; if ((u32CardDetSrc & CardDetect_From_DAT3) == CardDetect_From_DAT3) { sdh->INTEN &= ~SDH_INTEN_CDSRC_Msk; } else { sdh->INTEN |= SDH_INTEN_CDSRC_Msk; } for (i = 0; i < 0x100; i++); sdh->INTSTS = SDH_INTSTS_CDIF_Msk; sdh->INTEN |= SDH_INTEN_CDIEN_Msk; sdh->CTL |= SDH_CTL_CTLRST_Msk; while ((sdh->CTL & SDH_CTL_CTLRST_Msk) == SDH_CTL_CTLRST_Msk) { } } /** * @brief This function use to initial SD card. * * @param[in] sdh Select SDH0 or SDH1. * * @return None * * @details This function is used to initial SD card. * SD initial state needs 400KHz clock output, driver will use HIRC for SD initial clock source. * And then switch back to the user's setting. */ uint32_t SDH_Probe(SDH_T *sdh) { uint32_t val; sdh->GINTEN = 0ul; sdh->CTL &= ~SDH_CTL_SDNWR_Msk; sdh->CTL |= 0x09ul << SDH_CTL_SDNWR_Pos; /* set SDNWR = 9 */ sdh->CTL &= ~SDH_CTL_BLKCNT_Msk; sdh->CTL |= 0x01ul << SDH_CTL_BLKCNT_Pos; /* set BLKCNT = 1 */ sdh->CTL &= ~SDH_CTL_DBW_Msk; /* SD 1-bit data bus */ if (!(SDH_CardDetection(sdh))) { return SDH_NO_SD_CARD; } if ((val = SDH_Init(sdh)) != 0ul) { return val; } /* divider */ if ((SD0.CardType == SDH_TYPE_MMC) || (SD1.CardType == SDH_TYPE_MMC)) { SDH_Set_clock(sdh, MMC_FREQ); } else { SDH_Set_clock(sdh, SD_FREQ); } SDH_Get_SD_info(sdh); if ((val = SDH_SelectCardType(sdh)) != 0ul) { return val; } return 0ul; } /** * @brief This function use to read data from SD card. * * @param[in] sdh Select SDH0 or SDH1. * @param[out] pu8BufAddr The buffer to receive the data from SD card. * @param[in] u32StartSec The start read sector address. * @param[in] u32SecCount The the read sector number of data * * @return None */ uint32_t SDH_Read(SDH_T *sdh, uint8_t *pu8BufAddr, uint32_t u32StartSec, uint32_t u32SecCount) { uint32_t volatile bIsSendCmd = FALSE, buf; uint32_t volatile reg; uint32_t volatile i, loop, status; uint32_t blksize = SDH_BLOCK_SIZE; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } if (u32SecCount == 0ul) { return SDH_SELECT_ERROR; } if ((status = SDH_SDCmdAndRsp(sdh, 7ul, pSD->RCA, 0ul)) != Successful) { return status; } SDH_CheckRB(sdh); sdh->BLEN = blksize - 1ul; /* the actual byte count is equal to (SDBLEN+1) */ if ((pSD->CardType == SDH_TYPE_SD_HIGH) || (pSD->CardType == SDH_TYPE_EMMC)) { sdh->CMDARG = u32StartSec; } else { sdh->CMDARG = u32StartSec * blksize; } sdh->DMASA = (uint32_t)pu8BufAddr; loop = u32SecCount / 255ul; for (i = 0ul; i < loop; i++) { pSD->DataReadyFlag = (uint8_t)FALSE; reg = sdh->CTL & ~SDH_CTL_CMDCODE_Msk; reg = reg | 0xff0000ul; /* set BLK_CNT to 255 */ if (bIsSendCmd == FALSE) { sdh->CTL = reg | (18ul << 8) | (SDH_CTL_COEN_Msk | SDH_CTL_RIEN_Msk | SDH_CTL_DIEN_Msk); bIsSendCmd = TRUE; } else { sdh->CTL = reg | SDH_CTL_DIEN_Msk; } while (!pSD->DataReadyFlag) { if (pSD->DataReadyFlag) { break; } if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } if ((sdh->INTSTS & SDH_INTSTS_CRC7_Msk) != SDH_INTSTS_CRC7_Msk) /* check CRC7 */ { return SDH_CRC7_ERROR; } if ((sdh->INTSTS & SDH_INTSTS_CRC16_Msk) != SDH_INTSTS_CRC16_Msk) /* check CRC16 */ { return SDH_CRC16_ERROR; } } loop = u32SecCount % 255ul; if (loop != 0ul) { pSD->DataReadyFlag = (uint8_t)FALSE; reg = sdh->CTL & (~SDH_CTL_CMDCODE_Msk); reg = reg & (~SDH_CTL_BLKCNT_Msk); reg |= (loop << 16); /* setup SDCR_BLKCNT */ if (bIsSendCmd == FALSE) { sdh->CTL = reg | (18ul << 8) | (SDH_CTL_COEN_Msk | SDH_CTL_RIEN_Msk | SDH_CTL_DIEN_Msk); bIsSendCmd = TRUE; } else { sdh->CTL = reg | SDH_CTL_DIEN_Msk; } while (!pSD->DataReadyFlag) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } if ((sdh->INTSTS & SDH_INTSTS_CRC7_Msk) != SDH_INTSTS_CRC7_Msk) /* check CRC7 */ { return SDH_CRC7_ERROR; } if ((sdh->INTSTS & SDH_INTSTS_CRC16_Msk) != SDH_INTSTS_CRC16_Msk) /* check CRC16 */ { return SDH_CRC16_ERROR; } } if (SDH_SDCmdAndRsp(sdh, 12ul, 0ul, 0ul)) /* stop command */ { return SDH_CRC7_ERROR; } SDH_CheckRB(sdh); SDH_SDCommand(sdh, 7ul, 0ul); sdh->CTL |= SDH_CTL_CLK8OEN_Msk; while ((sdh->CTL & SDH_CTL_CLK8OEN_Msk) == SDH_CTL_CLK8OEN_Msk) { } return Successful; } /** * @brief This function use to write data to SD card. * * @param[in] sdh Select SDH0 or SDH1. * @param[in] pu8BufAddr The buffer to send the data to SD card. * @param[in] u32StartSec The start write sector address. * @param[in] u32SecCount The the write sector number of data. * * @return \ref SDH_SELECT_ERROR : u32SecCount is zero. \n * \ref SDH_NO_SD_CARD : SD card be removed. \n * \ref SDH_CRC_ERROR : CRC error happen. \n * \ref SDH_CRC7_ERROR : CRC7 error happen. \n * \ref Successful : Write data to SD card success. */ uint32_t SDH_Write(SDH_T *sdh, uint8_t *pu8BufAddr, uint32_t u32StartSec, uint32_t u32SecCount) { uint32_t volatile bIsSendCmd = FALSE; uint32_t volatile reg; uint32_t volatile i, loop, status; SDH_INFO_T *pSD; if (sdh == SDH0) { pSD = &SD0; } else { pSD = &SD1; } if (u32SecCount == 0ul) { return SDH_SELECT_ERROR; } if ((status = SDH_SDCmdAndRsp(sdh, 7ul, pSD->RCA, 0ul)) != Successful) { return status; } SDH_CheckRB(sdh); /* According to SD Spec v2.0, the write CMD block size MUST be 512, and the start address MUST be 512*n. */ sdh->BLEN = SDH_BLOCK_SIZE - 1ul; if ((pSD->CardType == SDH_TYPE_SD_HIGH) || (pSD->CardType == SDH_TYPE_EMMC)) { sdh->CMDARG = u32StartSec; } else { sdh->CMDARG = u32StartSec * SDH_BLOCK_SIZE; /* set start address for SD CMD */ } sdh->DMASA = (uint32_t)pu8BufAddr; loop = u32SecCount / 255ul; /* the maximum block count is 0xFF=255 for register SDCR[BLK_CNT] */ for (i = 0ul; i < loop; i++) { pSD->DataReadyFlag = (uint8_t)FALSE; reg = sdh->CTL & 0xff00c080; reg = reg | 0xff0000ul; /* set BLK_CNT to 0xFF=255 */ if (!bIsSendCmd) { sdh->CTL = reg | (25ul << 8) | (SDH_CTL_COEN_Msk | SDH_CTL_RIEN_Msk | SDH_CTL_DOEN_Msk); bIsSendCmd = TRUE; } else { sdh->CTL = reg | SDH_CTL_DOEN_Msk; } while (!pSD->DataReadyFlag) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } if ((sdh->INTSTS & SDH_INTSTS_CRCIF_Msk) != 0ul) { sdh->INTSTS = SDH_INTSTS_CRCIF_Msk; return SDH_CRC_ERROR; } } loop = u32SecCount % 255ul; if (loop != 0ul) { pSD->DataReadyFlag = (uint8_t)FALSE; reg = (sdh->CTL & 0xff00c080) | (loop << 16); if (!bIsSendCmd) { sdh->CTL = reg | (25ul << 8) | (SDH_CTL_COEN_Msk | SDH_CTL_RIEN_Msk | SDH_CTL_DOEN_Msk); bIsSendCmd = TRUE; } else { sdh->CTL = reg | SDH_CTL_DOEN_Msk; } while (!pSD->DataReadyFlag) { if (pSD->IsCardInsert == FALSE) { return SDH_NO_SD_CARD; } } if ((sdh->INTSTS & SDH_INTSTS_CRCIF_Msk) != 0ul) { sdh->INTSTS = SDH_INTSTS_CRCIF_Msk; return SDH_CRC_ERROR; } } sdh->INTSTS = SDH_INTSTS_CRCIF_Msk; if (SDH_SDCmdAndRsp(sdh, 12ul, 0ul, 0ul)) /* stop command */ { return SDH_CRC7_ERROR; } SDH_CheckRB(sdh); SDH_SDCommand(sdh, 7ul, 0ul); sdh->CTL |= SDH_CTL_CLK8OEN_Msk; while ((sdh->CTL & SDH_CTL_CLK8OEN_Msk) == SDH_CTL_CLK8OEN_Msk) { } return Successful; } /*@}*/ /* end of group SDH_EXPORTED_FUNCTIONS */ /*@}*/ /* end of group SDH_Driver */ /*@}*/ /* end of group Device_Driver */