/* * Copyright (c) 2022-2023, Intel Corporation. All rights reserved. * Copyright (c) 2024, Altera Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include void cdns_init(void); int cdns_send_cmd(struct mmc_cmd *cmd); int cdns_set_ios(unsigned int clk, unsigned int width); int cdns_prepare(int lba, uintptr_t buf, size_t size); int cdns_read(int lba, uintptr_t buf, size_t size); int cdns_write(int lba, uintptr_t buf, size_t size); const struct mmc_ops cdns_sdmmc_ops = { .init = cdns_init, .send_cmd = cdns_send_cmd, .set_ios = cdns_set_ios, .prepare = cdns_prepare, .read = cdns_read, .write = cdns_write, }; void sd_host_adma_prepare(struct cdns_idmac_desc *desc_ptr, uintptr_t buf, size_t size); struct cdns_sdmmc_params cdns_params; struct cdns_sdmmc_combo_phy sdmmc_combo_phy_reg; struct cdns_sdmmc_sdhc sdmmc_sdhc_reg; #ifdef CONFIG_DMA_ADDR_T_64BIT struct cdns_idmac_desc cdns_desc[CONFIG_CDNS_DESC_COUNT]; #else struct cdns_idmac_desc cdns_desc[CONFIG_CDNS_DESC_COUNT] __aligned(32); #endif bool data_cmd; int cdns_wait_ics(uint16_t timeout, uint32_t cdn_srs_res) { /* Clock for sdmclk and sdclk */ uint32_t count = 0; uint32_t data = 0; /* Wait status command response ready */ do { data = mmio_read_32(cdn_srs_res); count++; if (count >= timeout) { return -ETIMEDOUT; } } while ((data & (1 << SDMMC_CDN_ICS)) == 0); return 0; } void cdns_set_sdmmc_var(struct cdns_sdmmc_combo_phy *combo_phy_reg, struct cdns_sdmmc_sdhc *sdhc_reg) { /* Values are taken by the reference of cadence IP documents */ combo_phy_reg->cp_clk_wr_delay = 0; combo_phy_reg->cp_clk_wrdqs_delay = 0; combo_phy_reg->cp_data_select_oe_end = 1; combo_phy_reg->cp_dll_bypass_mode = 1; combo_phy_reg->cp_dll_locked_mode = 0; combo_phy_reg->cp_dll_start_point = 254; combo_phy_reg->cp_gate_cfg_always_on = 1; combo_phy_reg->cp_io_mask_always_on = 0; combo_phy_reg->cp_io_mask_end = 5; combo_phy_reg->cp_io_mask_start = 0; combo_phy_reg->cp_rd_del_sel = 52; combo_phy_reg->cp_read_dqs_cmd_delay = 0; combo_phy_reg->cp_read_dqs_delay = 0; combo_phy_reg->cp_sw_half_cycle_shift = 0; combo_phy_reg->cp_sync_method = 1; combo_phy_reg->cp_underrun_suppress = 1; combo_phy_reg->cp_use_ext_lpbk_dqs = 1; combo_phy_reg->cp_use_lpbk_dqs = 1; combo_phy_reg->cp_use_phony_dqs = 1; combo_phy_reg->cp_use_phony_dqs_cmd = 1; sdhc_reg->sdhc_extended_rd_mode = 1; sdhc_reg->sdhc_extended_wr_mode = 1; sdhc_reg->sdhc_hcsdclkadj = 3; sdhc_reg->sdhc_idelay_val = 0; sdhc_reg->sdhc_rdcmd_en = 1; sdhc_reg->sdhc_rddata_en = 1; sdhc_reg->sdhc_rw_compensate = 10; sdhc_reg->sdhc_sdcfsh = 0; sdhc_reg->sdhc_sdcfsl = 0; sdhc_reg->sdhc_wrcmd0_dly = 1; sdhc_reg->sdhc_wrcmd0_sdclk_dly = 0; sdhc_reg->sdhc_wrcmd1_dly = 0; sdhc_reg->sdhc_wrcmd1_sdclk_dly = 0; sdhc_reg->sdhc_wrdata0_dly = 0; sdhc_reg->sdhc_wrdata0_sdclk_dly = 0; sdhc_reg->sdhc_wrdata1_dly = 0; sdhc_reg->sdhc_wrdata1_sdclk_dly = 0; } int cdns_program_phy_reg(struct cdns_sdmmc_combo_phy *combo_phy_reg, struct cdns_sdmmc_sdhc *sdhc_reg) { uint32_t value = 0; int ret = 0; uint32_t timeout = 0; /* HRS00 - Software Reset */ mmio_write_32((cdns_params.reg_base + SDHC_CDNS_HRS00), SDHC_CDNS_HRS00_SWR); /* Waiting for SDHC_CDNS_HRS00_SWR reset */ timeout = TIMEOUT; do { udelay(250); if (--timeout <= 0) { NOTICE(" SDHC Software Reset failed!!!\n"); panic(); } } while (((mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS00) & SDHC_CDNS_HRS00_SWR) == 1)); /* Step 1, switch on DLL_RESET */ value = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09); value &= ~SDHC_PHY_SW_RESET; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS09, value); /* program PHY_DQS_TIMING_REG */ value = (CP_USE_EXT_LPBK_DQS(combo_phy_reg->cp_use_ext_lpbk_dqs)) | (CP_USE_LPBK_DQS(combo_phy_reg->cp_use_lpbk_dqs)) | (CP_USE_PHONY_DQS(combo_phy_reg->cp_use_phony_dqs)) | (CP_USE_PHONY_DQS_CMD(combo_phy_reg->cp_use_phony_dqs_cmd)); ret = cdns_sdmmc_write_phy_reg(cdns_params.reg_base + SDHC_CDNS_HRS04, COMBO_PHY_REG + PHY_DQS_TIMING_REG, cdns_params.reg_base + SDHC_CDNS_HRS05, value); if (ret != 0U) { return ret; } /* program PHY_GATE_LPBK_CTRL_REG */ value = (CP_SYNC_METHOD(combo_phy_reg->cp_sync_method)) | (CP_SW_HALF_CYCLE_SHIFT(combo_phy_reg->cp_sw_half_cycle_shift)) | (CP_RD_DEL_SEL(combo_phy_reg->cp_rd_del_sel)) | (CP_UNDERRUN_SUPPRESS(combo_phy_reg->cp_underrun_suppress)) | (CP_GATE_CFG_ALWAYS_ON(combo_phy_reg->cp_gate_cfg_always_on)); ret = cdns_sdmmc_write_phy_reg(cdns_params.reg_base + SDHC_CDNS_HRS04, COMBO_PHY_REG + PHY_GATE_LPBK_CTRL_REG, cdns_params.reg_base + SDHC_CDNS_HRS05, value); if (ret != 0U) { return -ret; } /* program PHY_DLL_MASTER_CTRL_REG */ value = (CP_DLL_BYPASS_MODE(combo_phy_reg->cp_dll_bypass_mode)) | (2 << 20) | (CP_DLL_START_POINT(combo_phy_reg->cp_dll_start_point)); ret = cdns_sdmmc_write_phy_reg(cdns_params.reg_base + SDHC_CDNS_HRS04, COMBO_PHY_REG + PHY_DLL_MASTER_CTRL_REG, cdns_params.reg_base + SDHC_CDNS_HRS05, value); if (ret != 0U) { return ret; } /* program PHY_DLL_SLAVE_CTRL_REG */ value = (CP_READ_DQS_CMD_DELAY(combo_phy_reg->cp_read_dqs_cmd_delay)) | (CP_CLK_WRDQS_DELAY(combo_phy_reg->cp_clk_wrdqs_delay)) | (CP_CLK_WR_DELAY(combo_phy_reg->cp_clk_wr_delay)) | (CP_READ_DQS_DELAY(combo_phy_reg->cp_read_dqs_delay)); ret = cdns_sdmmc_write_phy_reg(cdns_params.reg_base + SDHC_CDNS_HRS04, COMBO_PHY_REG + PHY_DLL_SLAVE_CTRL_REG, cdns_params.reg_base + SDHC_CDNS_HRS05, value); if (ret != 0U) { return ret; } /* program PHY_CTRL_REG */ mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS04, COMBO_PHY_REG + PHY_CTRL_REG); value = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS05); /* phony_dqs_timing=0 */ value &= ~(CP_PHONY_DQS_TIMING_MASK << CP_PHONY_DQS_TIMING_SHIFT); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS05, value); /* switch off DLL_RESET */ do { value = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09); value |= SDHC_PHY_SW_RESET; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS09, value); value = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09); /* polling PHY_INIT_COMPLETE */ } while ((value & SDHC_PHY_INIT_COMPLETE) != SDHC_PHY_INIT_COMPLETE); /* program PHY_DQ_TIMING_REG */ value = (CP_IO_MASK_ALWAYS_ON(combo_phy_reg->cp_io_mask_always_on)) | (CP_IO_MASK_END(combo_phy_reg->cp_io_mask_end)) | (CP_IO_MASK_START(combo_phy_reg->cp_io_mask_start)) | (CP_DATA_SELECT_OE_END(combo_phy_reg->cp_data_select_oe_end)); ret = cdns_sdmmc_write_phy_reg(cdns_params.reg_base + SDHC_CDNS_HRS04, COMBO_PHY_REG + PHY_DQ_TIMING_REG, cdns_params.reg_base + SDHC_CDNS_HRS05, value); if (ret != 0U) { return ret; } value = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09); value |= (HRS_09_EXTENDED_RD_MODE | HRS_09_EXTENDED_WR_MODE | HRS_09_RDCMD_EN | HRS_09_RDDATA_EN); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS09, value); value = 0; value = SDHC_HCSDCLKADJ(HRS_10_HCSDCLKADJ_VAL); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS10, value); value = 0; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS16, value); value = (10 << 16); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS07, value); return 0; } int cdns_read(int lba, uintptr_t buf, size_t size) { return 0; } int cdns_write(int lba, uintptr_t buf, size_t size) { return 0; } void cdns_init(void) { /* Dummy function pointer for cdns_init. */ } int cdns_prepare(int dma_start_addr, uintptr_t dma_buff, size_t size) { struct cdns_idmac_desc *cdns_desc_data; assert(((dma_buff & CDNSMMC_ADDRESS_MASK) == 0) && (cdns_params.desc_size > 0)); cdns_desc_data = (struct cdns_idmac_desc *)cdns_params.desc_base; sd_host_adma_prepare(cdns_desc_data, dma_buff, size); return 0; } void cdns_host_set_clk(uint32_t clk) { uint32_t ret = 0; uint32_t sdclkfsval = 0; uint32_t dtcvval = 0xE; sdclkfsval = (SD_HOST_CLK / 2) / clk; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS11, 0); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS11, (dtcvval << SDMMC_CDN_DTCV) | (sdclkfsval << SDMMC_CDN_SDCLKFS) | (1 << SDMMC_CDN_ICE)); ret = cdns_wait_ics(5000, cdns_params.reg_base + SDHC_CDNS_SRS11); if (ret != 0) { ERROR("Waiting ICS timeout"); } /* Enable DLL reset */ mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS09, mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09) & ~0x00000001); /* Set extended_wr_mode */ mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS09, (mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09) & 0xFFFFFFF7) | (1 << EXTENDED_WR_MODE)); /* Release DLL reset */ mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS09, mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09) | PHY_SW_RESET_EN); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_HRS09, mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09) | RDCMD_EN); do { mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09); } while (~mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS09) & (PHY_INIT_COMPLETE_BIT)); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS11, (dtcvval << SDMMC_CDN_DTCV) | (sdclkfsval << SDMMC_CDN_SDCLKFS) | (1 << SDMMC_CDN_ICE) | (1 << SDMMC_CDN_SDCE)); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS13, 0xFFFFFFFF); } int cdns_set_ios(unsigned int clk, unsigned int width) { uint32_t _status = 0; _status = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); switch (width) { case MMC_BUS_WIDTH_1: _status &= ~(BIT4); break; case MMC_BUS_WIDTH_4: _status |= BIT4; break; case MMC_BUS_WIDTH_8: _status |= BIT8; break; default: assert(0); break; } mmio_write_32((cdns_params.reg_base + SDHC_CDNS_SRS10), _status); cdns_host_set_clk(clk); return 0; } int cdns_sdmmc_write_sd_host_reg(uint32_t addr, uint32_t data) { uint32_t value = 0; value = mmio_read_32(addr); value &= ~SDHC_REG_MASK; value |= data; mmio_write_32(addr, value); value = mmio_read_32(addr); if (value != data) { ERROR("SD host address is not set properly\n"); return -ENXIO; } return 0; } void sd_host_oper_mode(enum sd_opr_modes opr_mode) { uint32_t reg = 0; switch (opr_mode) { case SD_HOST_OPR_MODE_HV4E_0_SDMA_32: reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); reg &= ~(DMA_SEL_BIT); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg); reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS15); reg &= ~(HV4E | BIT_AD_64); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS15, reg); break; case SD_HOST_OPR_MODE_HV4E_1_SDMA_32: reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); reg &= ~(DMA_SEL_BIT); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg); reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS15); reg &= ~(HV4E | BIT_AD_64); reg |= (HV4E); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS15, reg); break; case SD_HOST_OPR_MODE_HV4E_1_SDMA_64: reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); reg &= ~(DMA_SEL_BIT); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg); reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS15); reg |= (HV4E | BIT_AD_64); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS15, reg); break; case SD_HOST_OPR_MODE_HV4E_0_ADMA_32: reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); reg &= ~(DMA_SEL_BIT); reg |= DMA_SEL_BIT_2; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg); reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS15); reg &= ~(HV4E | BIT_AD_64); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS15, reg); break; case SD_HOST_OPR_MODE_HV4E_0_ADMA_64: reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); reg &= ~(DMA_SEL_BIT); reg |= DMA_SEL_BIT_3; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg); reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS15); reg &= ~(HV4E | BIT_AD_64); reg |= BIT_AD_64; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS15, reg); break; case SD_HOST_OPR_MODE_HV4E_1_ADMA_32: reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); reg &= ~(DMA_SEL_BIT); reg |= DMA_SEL_BIT_2; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg); reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS15); reg &= ~(HV4E | BIT_AD_64); reg |= HV4E; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS15, reg); break; case SD_HOST_OPR_MODE_HV4E_1_ADMA_64: reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); reg &= ~(DMA_SEL_BIT); reg |= DMA_SEL_BIT_2; mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg); reg = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS15); reg |= (HV4E | BIT_AD_64); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS15, reg); break; } } void card_reset(bool power_enable) { uint32_t reg_value = 0; /* Reading SRS10 value before writing */ reg_value = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); if (power_enable == true) { reg_value &= ~((7 << SDMMC_CDN_BVS) | (1 << SDMMC_CDN_BP)); reg_value = ((1 << SDMMC_CDN_BVS) | (1 << SDMMC_CDN_BP)); } else { reg_value &= ~((7 << SDMMC_CDN_BVS) | (1 << SDMMC_CDN_BP)); } mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg_value); } void high_speed_enable(bool mode) { uint32_t reg_value = 0; /* Reading SRS10 value before writing */ reg_value = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS10); if (mode == true) { reg_value |= HS_EN; } else { reg_value &= ~HS_EN; } mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS10, reg_value); } int cdns_reset(void) { volatile uint32_t data = 0; uint32_t count = 0; /* Software reset */ mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS11, SRS11_SRFA); /* Wait status command response ready */ do { data = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_HRS00); count++; if (count >= CDNS_TIMEOUT) { return -ETIMEDOUT; } /* Wait for SRS11 */ } while (((SRS11_SRFA_CHK(data)) & 1) == 1); return 0; } void sdmmc_host_init(bool uhs2_enable) { uint32_t timeout; /* SRS11 - Host Control default value set */ mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS11, 0x0); /* Waiting for detect card */ timeout = TIMEOUT; do { udelay(250); if (--timeout <= 0) { NOTICE(" SDHC Card Detecion failed!!!\n"); panic(); } } while (((mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS09) & CHECK_CARD) == 0)); /* UHS2 Host setting */ if (uhs2_enable == true) { /** need to implement*/ } /* Card reset */ card_reset(1); udelay(2500); card_reset(0); udelay(2500); card_reset(1); udelay(2500); /* Enable Interrupt Flags*/ mmio_write_32((cdns_params.reg_base + SDHC_CDNS_SRS13), ~0); high_speed_enable(true); } int cdns_sd_host_init(struct cdns_sdmmc_combo_phy *mmc_combo_phy_reg, struct cdns_sdmmc_sdhc *mmc_sdhc_reg) { int ret = 0; ret = cdns_reset(); if (ret != 0U) { ERROR("Program phy reg init failed"); return ret; } ret = cdns_program_phy_reg(&sdmmc_combo_phy_reg, &sdmmc_sdhc_reg); if (ret != 0U) { ERROR("Program phy reg init failed"); return ret; } sdmmc_host_init(0); cdns_host_set_clk(100000); sd_host_oper_mode(SD_HOST_OPR_MODE_HV4E_0_ADMA_64); return 0; } int cdns_send_cmd(struct mmc_cmd *cmd) { uint32_t cmd_flags = 0; uint32_t timeout = 0; uint32_t status_check = 0; uint32_t mode = 0; uint32_t status; assert(cmd); cmd_flags = CDNS_HOST_CMD_INHIBIT | CDNS_HOST_DATA_INHIBIT; if ((cmd->cmd_idx == SD_STOP_TRANSMISSION) && (!data_cmd)) { cmd_flags &= ~CDNS_HOST_DATA_INHIBIT; } timeout = TIMEOUT; do { udelay(100); if (--timeout <= 0) { udelay(50); NOTICE("Timeout occur data and cmd line %x\n", mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS09)); panic(); } } while ((mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS09) & (cmd_flags))); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS12, 0xFFFFFFFF); cmd_flags = 0; cmd_flags = (cmd->cmd_idx) << COM_IDX; if ((cmd->resp_type & MMC_RSP_136) != 0) { cmd_flags |= RES_TYPE_SEL_136; } else if (((cmd->resp_type & MMC_RSP_48) != 0) && ((cmd->resp_type & MMC_RSP_BUSY) != 0)) { cmd_flags |= RES_TYPE_SEL_48_B; } else if ((cmd->resp_type & MMC_RSP_48) != 0) { cmd_flags |= RES_TYPE_SEL_48; } else { cmd_flags &= ~RES_TYPE_SEL_NO; } if ((cmd->resp_type & MMC_RSP_CRC) != 0) { cmd_flags |= CMD_CHECK_RESP_CRC; } if ((cmd->resp_type & MMC_RSP_CMD_IDX) != 0) { cmd_flags |= CMD_IDX_CHK_ENABLE; } if ((cmd->cmd_idx == MMC_ACMD(51)) || (cmd->cmd_idx == MMC_CMD(17)) || (cmd->cmd_idx == MMC_CMD(18)) || (cmd->cmd_idx == MMC_CMD(24)) || (cmd->cmd_idx == MMC_CMD(25))) { mmio_write_8((cdns_params.reg_base + DTCV_OFFSET), DTCV_VAL); cmd_flags |= DATA_PRESENT; mode |= BLK_CNT_EN; mode |= (DMA_ENABLED); if ((cmd->cmd_idx == SD_WRITE_MULTIPLE_BLOCK) || (cmd->cmd_idx == SD_READ_MULTIPLE_BLOCK)) { mode |= (MULTI_BLK_READ); } else { mode &= ~(MULTI_BLK_READ); } if ((cmd->cmd_idx == SD_WRITE_MULTIPLE_BLOCK) || (cmd->cmd_idx == SD_WRITE_SINGLE_BLOCK)) { mode &= ~CMD_READ; } else { mode |= CMD_READ; } mmio_write_16(cdns_params.reg_base + SDHC_CDNS_SRS03, mode); } else { mmio_write_8((cdns_params.reg_base + DTCV_OFFSET), DTCV_VAL); } mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS02, cmd->cmd_arg); mmio_write_16((cdns_params.reg_base + CICE_OFFSET), SDHCI_MAKE_CMD(cmd->cmd_idx, cmd_flags)); timeout = TIMEOUT; do { udelay(CDNS_TIMEOUT); status = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS12); } while (((status & (INT_CMD_DONE | ERROR_INT)) == 0) && (timeout-- > 0)); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS12, (SRS_12_CC_EN)); status_check = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS12) & 0xffff8000; if (status_check != 0U) { timeout = TIMEOUT; ERROR("SD host controller send command failed, SRS12 = %x", status_check); return -1; } if (!((cmd_flags & RES_TYPE_SEL_NO) == 0)) { cmd->resp_data[0] = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS04); if ((cmd_flags & RES_TYPE_SEL_NO) == RES_TYPE_SEL_136) { cmd->resp_data[1] = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS05); cmd->resp_data[2] = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS06); cmd->resp_data[3] = mmio_read_32(cdns_params.reg_base + SDHC_CDNS_SRS07); /* 136-bit: RTS=01b, Response field R[127:8] - RESP3[23:0], * RESP2[31:0], RESP1[31:0], RESP0[31:0] * Subsystem expects 128 bits response but cadence SDHC sends * 120 bits response from R[127:8]. Bits manupulation to address * the correct responses for the 136 bit response type. */ cmd->resp_data[3] = ((cmd->resp_data[3] << 8) | ((cmd->resp_data[2] >> 24) & CDNS_CSD_BYTE_MASK)); cmd->resp_data[2] = ((cmd->resp_data[2] << 8) | ((cmd->resp_data[1] >> 24) & CDNS_CSD_BYTE_MASK)); cmd->resp_data[1] = ((cmd->resp_data[1] << 8) | ((cmd->resp_data[0] >> 24) & CDNS_CSD_BYTE_MASK)); cmd->resp_data[0] = (cmd->resp_data[0] << 8); } } mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS12, (SRS_12_CC_EN)); return 0; } void sd_host_adma_prepare(struct cdns_idmac_desc *desc_ptr, uint64_t buf, size_t size) { uint32_t full_desc_cnt = 0; uint32_t non_full_desc_cnt = 0; uint64_t desc_address; uint32_t block_count; uint32_t transfer_block_size; full_desc_cnt = (size / PAGE_BUFFER_LEN); non_full_desc_cnt = (size % PAGE_BUFFER_LEN); for (int i = 0; i < full_desc_cnt; i++) { desc_ptr->attr = (ADMA_DESC_TRANSFER_DATA | ADMA_DESC_ATTR_VALID); desc_ptr->len = 0; // 0 means 64kb page size it will take desc_ptr->addr_lo = 0; #if CONFIG_DMA_ADDR_T_64BIT == 1 desc_ptr->addr_hi = (uint32_t)((buf >> 32) & 0xffffffff); #endif if (non_full_desc_cnt == 0) { desc_ptr->attr |= (ADMA_DESC_ATTR_END); } buf += PAGE_BUFFER_LEN; } if (non_full_desc_cnt != 0) { desc_ptr->attr = (ADMA_DESC_TRANSFER_DATA | ADMA_DESC_ATTR_END | ADMA_DESC_ATTR_VALID); desc_ptr->addr_lo = buf & 0xffffffff; desc_ptr->len = size; #if CONFIG_DMA_ADDR_T_64BIT == 1 desc_ptr->addr_hi = (uint32_t)((buf >> 32) & 0xffffffff); #endif desc_address = (uint64_t)desc_ptr; if (size > MMC_MAX_BLOCK_LEN) { transfer_block_size = MMC_MAX_BLOCK_LEN; } else { transfer_block_size = size; } block_count = (size / transfer_block_size); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS01, ((transfer_block_size << BLOCK_SIZE) | SDMA_BUF | (block_count << BLK_COUNT_CT))); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS22, (uint32_t)desc_address & 0xFFFFFFFF); mmio_write_32(cdns_params.reg_base + SDHC_CDNS_SRS23, (uint32_t)(desc_address >> 32 & 0xFFFFFFFF)); } } int cdns_mmc_init(struct cdns_sdmmc_params *params, struct mmc_device_info *info) { int result = 0; assert((params != NULL) && ((params->reg_base & MMC_BLOCK_MASK) == 0) && ((params->desc_size & MMC_BLOCK_MASK) == 0) && ((params->reg_pinmux & MMC_BLOCK_MASK) == 0) && ((params->reg_phy & MMC_BLOCK_MASK) == 0) && (params->desc_size > 0) && (params->clk_rate > 0) && ((params->bus_width == MMC_BUS_WIDTH_1) || (params->bus_width == MMC_BUS_WIDTH_4) || (params->bus_width == MMC_BUS_WIDTH_8))); memcpy(&cdns_params, params, sizeof(struct cdns_sdmmc_params)); cdns_set_sdmmc_var(&sdmmc_combo_phy_reg, &sdmmc_sdhc_reg); result = cdns_sd_host_init(&sdmmc_combo_phy_reg, &sdmmc_sdhc_reg); if (result < 0) { return result; } cdns_params.cdn_sdmmc_dev_type = info->mmc_dev_type; cdns_params.cdn_sdmmc_dev_mode = SD_DS; result = mmc_init(&cdns_sdmmc_ops, params->clk_rate, params->bus_width, params->flags, info); return result; }