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arm-trusted-firmware/drivers/cadence/emmc/cdns_sdmmc.c
Jit Loon Lim ddaf02d171 feat(intel): sdmmc/nand/combo-phy/qspi driver for Agilex5 SoC FPGA 
This patch is used to implement sdmmc/nand/combo-phy
driver to support Cadence IP for Agilex5 SoC FPGA.
	1. Added SDMMC/NAND/COMBO-PHY support.
	2. Updated product name -> Agilex5
	3. Updated QSPI base address

Signed-off-by: Jit Loon Lim <jit.loon.lim@intel.com>
Change-Id: I6db689d2b784c9f59a25701ab34517f6f6b0a0e6
2023-07-05 10:11:11 +08:00

824 lines
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/*
* Copyright (c) 2022-2023, Intel Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <assert.h>
#include <errno.h>
#include <stdbool.h>
#include <stddef.h>
#include <string.h>
#include <arch_helpers.h>
#include <common/debug.h>
#include <drivers/cadence/cdns_sdmmc.h>
#include <drivers/delay_timer.h>
#include <drivers/mmc.h>
#include <lib/mmio.h>
#include <lib/utils.h>
/* Card busy and present */
#define CARD_BUSY 1
#define CARD_NOT_BUSY 0
/* 500 ms delay to read the RINST register */
#define DELAY_MS_SRS_READ 500
#define DELAY_RES 10
/* SRS12 error mask */
#define SRS12_ERR_MASK 0xFFFF8000
/* Check DV dfi_init val=0 */
#define IO_MASK_END_DATA 0x0
/* Check DV dfi_init val=2; DDR Mode */
#define IO_MASK_END_DATA_DDR 0x2
#define IO_MASK_START_DATA 0x0
#define DATA_SELECT_OE_END_DATA 0x1
#define TIMEOUT 100000
/* General define */
#define SDHC_REG_MASK UINT_MAX
#define SD_HOST_BLOCK_SIZE 0x200
#define DTCVVAL_DEFAULT_VAL 0xE
#define CDMMC_DMA_MAX_BUFFER_SIZE 64*1024
#define CDNSMMC_ADDRESS_MASK U(0x0f)
#define CONFIG_CDNS_DESC_COUNT 8
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,
};
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;
}
int cdns_busy(void)
{
unsigned int data;
data = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS09);
return (data & STATUS_DATA_BUSY) ? CARD_BUSY : CARD_NOT_BUSY;
}
int cdns_vol_reset(void)
{
/* Reset embedded card */
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_SRS10), (7 << SDMMC_CDN_BVS) | (1 << SDMMC_CDN_BP));
udelay(250);
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_SRS10), (7 << SDMMC_CDN_BVS) | (0 << SDMMC_CDN_BP));
udelay(500);
/* Turn on supply voltage */
/* BVS = 7, BP = 1, BP2 only in UHS2 mode */
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_SRS10), (7 << SDMMC_CDN_BVS) | (1 << SDMMC_CDN_BP));
udelay(250);
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 = 0;
combo_phy_reg->cp_dll_bypass_mode = 1;
combo_phy_reg->cp_dll_locked_mode = 0;
combo_phy_reg->cp_dll_start_point = 0;
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 = 0;
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 = 0;
sdhc_reg->sdhc_idelay_val = 0;
sdhc_reg->sdhc_rdcmd_en = 1;
sdhc_reg->sdhc_rddata_en = 1;
sdhc_reg->sdhc_rw_compensate = 9;
sdhc_reg->sdhc_sdcfsh = 0;
sdhc_reg->sdhc_sdcfsl = 1;
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 = 1;
sdhc_reg->sdhc_wrdata0_sdclk_dly = 0;
sdhc_reg->sdhc_wrdata1_dly = 0;
sdhc_reg->sdhc_wrdata1_sdclk_dly = 0;
}
static 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;
/* 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(MMC_REG_BASE + SDHC_CDNS_HRS04,
COMBO_PHY_REG + PHY_DQS_TIMING_REG, MMC_REG_BASE +
SDHC_CDNS_HRS05, value);
if (ret != 0) {
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(MMC_REG_BASE + SDHC_CDNS_HRS04,
COMBO_PHY_REG + PHY_GATE_LPBK_CTRL_REG, MMC_REG_BASE +
SDHC_CDNS_HRS05, value);
if (ret != 0) {
return ret;
}
/* program PHY_DLL_MASTER_CTRL_REG */
value = (CP_DLL_BYPASS_MODE(combo_phy_reg->cp_dll_bypass_mode))
| (CP_DLL_START_POINT(combo_phy_reg->cp_dll_start_point));
ret = cdns_sdmmc_write_phy_reg(MMC_REG_BASE + SDHC_CDNS_HRS04,
COMBO_PHY_REG + PHY_DLL_MASTER_CTRL_REG, MMC_REG_BASE
+ SDHC_CDNS_HRS05, value);
if (ret != 0) {
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(MMC_REG_BASE + SDHC_CDNS_HRS04,
COMBO_PHY_REG + PHY_DLL_SLAVE_CTRL_REG, MMC_REG_BASE
+ SDHC_CDNS_HRS05, value);
if (ret != 0) {
return ret;
}
/* program PHY_CTRL_REG */
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS04, COMBO_PHY_REG
+ PHY_CTRL_REG);
value = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS05);
/* phony_dqs_timing=0 */
value &= ~(CP_PHONY_DQS_TIMING_MASK << CP_PHONY_DQS_TIMING_SHIFT);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS05, value);
/* switch off DLL_RESET */
do {
value = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09);
value |= SDHC_PHY_SW_RESET;
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, value);
value = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09);
/* polling PHY_INIT_COMPLETE */
} while ((value & SDHC_PHY_INIT_COMPLETE) != SDHC_PHY_INIT_COMPLETE);
/* program PHY_DQ_TIMING_REG */
combo_phy_reg->cp_io_mask_end = 0U;
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(MMC_REG_BASE + SDHC_CDNS_HRS04,
COMBO_PHY_REG + PHY_DQ_TIMING_REG, MMC_REG_BASE
+ SDHC_CDNS_HRS05, value);
if (ret != 0) {
return ret;
}
return 0;
}
int cdns_read(int lba, uintptr_t buf, size_t size)
{
inv_dcache_range(buf, 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)
{
data_cmd = true;
struct cdns_idmac_desc *desc;
uint32_t desc_cnt, i;
uint64_t desc_base;
assert(((dma_buff & CDNSMMC_ADDRESS_MASK) == 0) &&
(cdns_params.desc_size > 0) &&
((MMC_REG_BASE & MMC_BLOCK_MASK) == 0) &&
((cdns_params.desc_base & MMC_BLOCK_MASK) == 0) &&
((cdns_params.desc_size & MMC_BLOCK_MASK) == 0));
flush_dcache_range(dma_buff, size);
desc_cnt = (size + (CDMMC_DMA_MAX_BUFFER_SIZE) - 1) / (CDMMC_DMA_MAX_BUFFER_SIZE);
assert(desc_cnt * sizeof(struct cdns_idmac_desc) < cdns_params.desc_size);
if (desc_cnt > CONFIG_CDNS_DESC_COUNT) {
ERROR("Requested data transfer length %ld is greater than configured length %d",
size, (CONFIG_CDNS_DESC_COUNT * CDMMC_DMA_MAX_BUFFER_SIZE));
return -EINVAL;
}
desc = (struct cdns_idmac_desc *)cdns_params.desc_base;
desc_base = (uint64_t)desc;
i = 0;
while ((i + 1) < desc_cnt) {
desc->attr = ADMA_DESC_ATTR_VALID | ADMA_DESC_TRANSFER_DATA;
desc->reserved = 0;
desc->len = MAX_64KB_PAGE;
desc->addr_lo = (dma_buff & UINT_MAX) + (CDMMC_DMA_MAX_BUFFER_SIZE * i);
#if CONFIG_DMA_ADDR_T_64BIT == 1
desc->addr_hi = (dma_buff >> 32) & 0xffffffff;
#endif
size -= CDMMC_DMA_MAX_BUFFER_SIZE;
desc++;
i++;
}
desc->attr = ADMA_DESC_ATTR_VALID | ADMA_DESC_TRANSFER_DATA |
ADMA_DESC_ATTR_END;
desc->reserved = 0;
desc->len = size;
#if CONFIG_DMA_ADDR_T_64BIT == 1
desc->addr_lo = (dma_buff & UINT_MAX) + (CDMMC_DMA_MAX_BUFFER_SIZE * i);
desc->addr_hi = (dma_buff >> 32) & UINT_MAX;
#else
desc->addr_lo = (dma_buff & UINT_MAX);
#endif
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS22, (uint32_t)desc_base);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS23, (uint32_t)(desc_base >> 32));
flush_dcache_range(cdns_params.desc_base,
desc_cnt * CDMMC_DMA_MAX_BUFFER_SIZE);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS01,
((512 << BLOCK_SIZE) | ((size/512) << BLK_COUNT_CT) | SDMA_BUF));
return 0;
}
static void cdns_host_set_clk(int clk)
{
uint32_t ret = 0;
uint32_t sdclkfsval = 0;
uint32_t dtcvval = DTCVVAL_DEFAULT_VAL;
sdclkfsval = (cdns_params.clk_rate / 2000) / clk;
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, 0);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, (dtcvval << SDMMC_CDN_DTCV) |
(sdclkfsval << SDMMC_CDN_SDCLKFS) | (1 << SDMMC_CDN_ICE));
ret = cdns_wait_ics(5000, MMC_REG_BASE + SDHC_CDNS_SRS11);
if (ret != 0U) {
ERROR("Waiting SDMMC_CDN_ICS timeout");
}
/* Enable DLL reset */
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09) &
~SDHC_DLL_RESET_MASK);
/* Set extended_wr_mode */
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, (mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09)
& SDHC_EXTENDED_WR_MODE_MASK) | (1 << EXTENDED_WR_MODE));
/* Release DLL reset */
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, mmio_read_32(MMC_REG_BASE
+ SDHC_CDNS_HRS09) | 1);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, mmio_read_32(MMC_REG_BASE
+ SDHC_CDNS_HRS09) | (3 << RDCMD_EN));
do {
mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09);
} while (~mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09) & (1 << 1));
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, (dtcvval << SDMMC_CDN_DTCV) |
(sdclkfsval << SDMMC_CDN_SDCLKFS) | (1 << SDMMC_CDN_ICE) | (1 << SDMMC_CDN_SDCE));
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS13, UINT_MAX);
}
int cdns_set_ios(unsigned int clk, unsigned int width)
{
switch (width) {
case MMC_BUS_WIDTH_1:
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_SRS10), LEDC_OFF);
break;
case MMC_BUS_WIDTH_4:
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_SRS10), DTW_4BIT);
break;
case MMC_BUS_WIDTH_8:
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_SRS10), EDTW_8BIT);
break;
default:
assert(0);
break;
}
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;
}
int cdns_write(int lba, uintptr_t buf, size_t size)
{
return 0;
}
static int cdns_init_hrs_io(struct cdns_sdmmc_combo_phy *combo_phy_reg,
struct cdns_sdmmc_sdhc *sdhc_reg)
{
uint32_t value = 0;
int ret = 0;
/* program HRS09, register 42 */
value = (SDHC_RDDATA_EN(sdhc_reg->sdhc_rddata_en))
| (SDHC_RDCMD_EN(sdhc_reg->sdhc_rdcmd_en))
| (SDHC_EXTENDED_WR_MODE(sdhc_reg->sdhc_extended_wr_mode))
| (SDHC_EXTENDED_RD_MODE(sdhc_reg->sdhc_extended_rd_mode));
ret = cdns_sdmmc_write_sd_host_reg(MMC_REG_BASE + SDHC_CDNS_HRS09, value);
if (ret != 0) {
ERROR("Program HRS09 failed");
return ret;
}
/* program HRS10, register 43 */
value = (SDHC_HCSDCLKADJ(sdhc_reg->sdhc_hcsdclkadj));
ret = cdns_sdmmc_write_sd_host_reg(MMC_REG_BASE + SDHC_CDNS_HRS10, value);
if (ret != 0) {
ERROR("Program HRS10 failed");
return ret;
}
/* program HRS16, register 48 */
value = (SDHC_WRDATA1_SDCLK_DLY(sdhc_reg->sdhc_wrdata1_sdclk_dly))
| (SDHC_WRDATA0_SDCLK_DLY(sdhc_reg->sdhc_wrdata0_sdclk_dly))
| (SDHC_WRCMD1_SDCLK_DLY(sdhc_reg->sdhc_wrcmd1_sdclk_dly))
| (SDHC_WRCMD0_SDCLK_DLY(sdhc_reg->sdhc_wrcmd0_sdclk_dly))
| (SDHC_WRDATA1_DLY(sdhc_reg->sdhc_wrdata1_dly))
| (SDHC_WRDATA0_DLY(sdhc_reg->sdhc_wrdata0_dly))
| (SDHC_WRCMD1_DLY(sdhc_reg->sdhc_wrcmd1_dly))
| (SDHC_WRCMD0_DLY(sdhc_reg->sdhc_wrcmd0_dly));
ret = cdns_sdmmc_write_sd_host_reg(MMC_REG_BASE + SDHC_CDNS_HRS16, value);
if (ret != 0) {
ERROR("Program HRS16 failed");
return ret;
}
/* program HRS07, register 40 */
value = (SDHC_RW_COMPENSATE(sdhc_reg->sdhc_rw_compensate))
| (SDHC_IDELAY_VAL(sdhc_reg->sdhc_idelay_val));
ret = cdns_sdmmc_write_sd_host_reg(MMC_REG_BASE + SDHC_CDNS_HRS07, value);
if (ret != 0) {
ERROR("Program HRS07 failed");
return ret;
}
return ret;
}
static int cdns_hc_set_clk(struct cdns_sdmmc_params *cdn_sdmmc_dev_mode_params)
{
uint32_t ret = 0;
uint32_t dtcvval, sdclkfsval;
dtcvval = DTC_VAL;
sdclkfsval = 0;
if ((cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == SD_DS) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == SD_UHS_SDR12) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == EMMC_SDR_BC)) {
sdclkfsval = 4;
} else if ((cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == SD_HS) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == SD_UHS_SDR25) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == SD_UHS_DDR50) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == EMMC_SDR)) {
sdclkfsval = 2;
} else if ((cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == SD_UHS_SDR50) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == EMMC_DDR) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == EMMC_HS400) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == EMMC_HS400es)) {
sdclkfsval = 1;
} else if ((cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == SD_UHS_SDR104) ||
(cdn_sdmmc_dev_mode_params->cdn_sdmmc_dev_mode == EMMC_HS200)) {
sdclkfsval = 0;
}
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, 0);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, (dtcvval << SDMMC_CDN_DTCV) |
(sdclkfsval << SDMMC_CDN_SDCLKFS) | (1 << SDMMC_CDN_ICE));
ret = cdns_wait_ics(5000, MMC_REG_BASE + SDHC_CDNS_SRS11);
if (ret != 0U) {
ERROR("Waiting SDMMC_CDN_ICS timeout");
return ret;
}
/* Enable DLL reset */
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_HRS09), mmio_read_32(MMC_REG_BASE
+ SDHC_CDNS_HRS09) & ~SDHC_DLL_RESET_MASK);
/* Set extended_wr_mode */
mmio_write_32((MMC_REG_BASE + SDHC_CDNS_HRS09),
(mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09) & SDHC_EXTENDED_WR_MODE_MASK) |
(1 << EXTENDED_WR_MODE));
/* Release DLL reset */
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, mmio_read_32(MMC_REG_BASE
+ SDHC_CDNS_HRS09) | 1);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, mmio_read_32(MMC_REG_BASE
+ SDHC_CDNS_HRS09) | (3 << RDCMD_EN));
do {
mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09);
} while (~mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09) & (1 << 1));
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, (dtcvval << SDMMC_CDN_DTCV) |
(sdclkfsval << SDMMC_CDN_SDCLKFS) | (1 << SDMMC_CDN_ICE) | (1 << SDMMC_CDN_SDCE));
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS13, UINT_MAX);
return 0;
}
int cdns_reset(void)
{
uint32_t data = 0;
uint32_t count = 0;
uint32_t value = 0;
value = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS11);
value &= ~(0xFFFF);
value |= 0x0;
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, value);
udelay(500);
/* Software reset */
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS00, 1);
/* Wait status command response ready */
do {
data = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS00);
count++;
if (count >= 5000) {
return -ETIMEDOUT;
}
/* Wait for HRS00.SWR */
} while ((data & 1) == 1);
/* Step 1, switch on DLL_RESET */
value = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_HRS09);
value &= ~SDHC_PHY_SW_RESET;
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_HRS09, value);
return 0;
}
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 != 0) {
ERROR("Program phy reg init failed");
return ret;
}
ret = cdns_program_phy_reg(&sdmmc_combo_phy_reg, &sdmmc_sdhc_reg);
if (ret != 0) {
ERROR("Program phy reg init failed");
return ret;
}
ret = cdns_init_hrs_io(&sdmmc_combo_phy_reg, &sdmmc_sdhc_reg);
if (ret != 0) {
ERROR("Program init for HRS reg is failed");
return ret;
}
ret = cdns_sd_card_detect();
if (ret != 0) {
ERROR("SD card does not detect");
return ret;
}
ret = cdns_vol_reset();
if (ret != 0) {
ERROR("eMMC card reset failed");
return ret;
}
ret = cdns_hc_set_clk(&cdns_params);
if (ret != 0) {
ERROR("hc set clk failed");
return ret;
}
return 0;
}
void cdns_srs10_value_toggle(uint8_t write_val, uint8_t prev_val)
{
uint32_t data_op = 0U;
data_op = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS10);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS10, (data_op & (prev_val << 0)));
mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS10);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS10, data_op | (write_val << 0));
}
void cdns_srs11_srs15_config(uint32_t srs11_val, uint32_t srs15_val)
{
uint32_t data = 0U;
data = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS11);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS11, (data | srs11_val));
data = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS15);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS15, (data | srs15_val));
}
int cdns_send_cmd(struct mmc_cmd *cmd)
{
uint32_t op = 0, ret = 0;
uint8_t write_value = 0, prev_val = 0;
uint32_t value;
int32_t timeout;
uint32_t cmd_indx;
uint32_t status = 0, srs15_val = 0, srs11_val = 0;
uint32_t status_check = 0;
assert(cmd);
cmd_indx = (cmd->cmd_idx) << COM_IDX;
if (data_cmd) {
switch (cmd->cmd_idx) {
case SD_SWITCH:
op = DATA_PRESENT;
write_value = ADMA2_32 | DT_WIDTH;
prev_val = ADMA2_32 | DT_WIDTH;
cdns_srs10_value_toggle(write_value, prev_val);
srs11_val = READ_CLK | SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
srs15_val = BIT_AD_64 | HV4E | V18SE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
break;
case SD_WRITE_SINGLE_BLOCK:
case SD_READ_SINGLE_BLOCK:
op = DATA_PRESENT;
write_value = ADMA2_32 | HS_EN | DT_WIDTH | LEDC;
prev_val = ADMA2_32 | HS_EN | DT_WIDTH;
cdns_srs10_value_toggle(write_value, prev_val);
srs15_val = PVE | BIT_AD_64 | HV4E | SDR104_MODE | V18SE;
srs11_val = READ_CLK | SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS00, SAAR);
break;
case SD_WRITE_MULTIPLE_BLOCK:
case SD_READ_MULTIPLE_BLOCK:
op = DATA_PRESENT | AUTO_CMD_EN | MULTI_BLK_READ;
write_value = ADMA2_32 | HS_EN | DT_WIDTH | LEDC;
prev_val = ADMA2_32 | HS_EN | DT_WIDTH;
cdns_srs10_value_toggle(write_value, prev_val);
srs15_val = PVE | BIT_AD_64 | HV4E | SDR104_MODE | V18SE;
srs11_val = READ_CLK | SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS00, SAAR);
break;
case SD_APP_SEND_SCR:
op = DATA_PRESENT;
write_value = ADMA2_32 | LEDC;
prev_val = LEDC;
cdns_srs10_value_toggle(write_value, prev_val);
srs15_val = BIT_AD_64 | HV4E | V18SE;
srs11_val = READ_CLK | SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
break;
case SD_SEND_IF_COND:
op = DATA_PRESENT | CMD_IDX_CHK_ENABLE;
write_value = LEDC;
prev_val = 0x0;
cdns_srs10_value_toggle(write_value, prev_val);
srs15_val = HV4E;
srs11_val = READ_CLK | SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
break;
default:
write_value = LEDC;
prev_val = 0x0;
cdns_srs10_value_toggle(write_value, prev_val);
op = 0;
break;
}
} else {
switch (cmd->cmd_idx) {
case SD_GO_IDLE_STATE:
write_value = LEDC;
prev_val = 0x0;
cdns_srs10_value_toggle(write_value, prev_val);
srs15_val = HV4E;
srs11_val = SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
break;
case SD_ALL_SEND_CID:
write_value = LEDC;
prev_val = 0x0;
cdns_srs10_value_toggle(write_value, prev_val);
srs15_val = HV4E | V18SE;
srs11_val = SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
break;
case SD_SEND_IF_COND:
op = CMD_IDX_CHK_ENABLE;
write_value = LEDC;
prev_val = 0x0;
cdns_srs10_value_toggle(write_value, prev_val);
srs15_val = HV4E;
srs11_val = READ_CLK | SDMMC_CDN_ICE | SDMMC_CDN_ICS | SDMMC_CDN_SDCE;
cdns_srs11_srs15_config(srs11_val, srs15_val);
break;
case SD_STOP_TRANSMISSION:
op = CMD_STOP_ABORT_CMD;
break;
case SD_SEND_STATUS:
break;
case 1:
cmd->cmd_arg = 0;
break;
case SD_SELECT_CARD:
op = MULTI_BLK_READ;
break;
case SD_APP_CMD:
default:
write_value = LEDC;
prev_val = 0x0;
cdns_srs10_value_toggle(write_value, prev_val);
op = 0;
break;
}
}
switch (cmd->resp_type) {
case MMC_RESPONSE_NONE:
op |= CMD_READ | MULTI_BLK_READ | DMA_ENABLED | BLK_CNT_EN;
break;
case MMC_RESPONSE_R2:
op |= CMD_READ | MULTI_BLK_READ | DMA_ENABLED | BLK_CNT_EN |
RES_TYPE_SEL_136 | CMD_CHECK_RESP_CRC;
break;
case MMC_RESPONSE_R3:
op |= CMD_READ | MULTI_BLK_READ | DMA_ENABLED | BLK_CNT_EN |
RES_TYPE_SEL_48;
break;
case MMC_RESPONSE_R1:
if ((cmd->cmd_idx == SD_WRITE_SINGLE_BLOCK) || (cmd->cmd_idx
== SD_WRITE_MULTIPLE_BLOCK)) {
op |= DMA_ENABLED | BLK_CNT_EN | RES_TYPE_SEL_48
| CMD_CHECK_RESP_CRC | CMD_IDX_CHK_ENABLE;
} else {
op |= DMA_ENABLED | BLK_CNT_EN | CMD_READ | RES_TYPE_SEL_48
| CMD_CHECK_RESP_CRC | CMD_IDX_CHK_ENABLE;
}
break;
default:
op |= DMA_ENABLED | BLK_CNT_EN | CMD_READ | MULTI_BLK_READ |
RES_TYPE_SEL_48 | CMD_CHECK_RESP_CRC | CMD_IDX_CHK_ENABLE;
break;
}
timeout = TIMEOUT;
do {
udelay(100);
ret = cdns_busy();
if (--timeout <= 0) {
udelay(50);
panic();
}
} while (ret);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS12, UINT_MAX);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS02, cmd->cmd_arg);
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS14, 0x00000000);
if (cmd_indx == 1)
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS03, SDHC_CDNS_SRS03_VALUE);
else
mmio_write_32(MMC_REG_BASE + SDHC_CDNS_SRS03, op | cmd_indx);
timeout = TIMEOUT;
do {
udelay(500);
value = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS12);
} while (((value & (INT_CMD_DONE | ERROR_INT)) == 0) && (timeout-- > 0));
timeout = TIMEOUT;
if (data_cmd) {
data_cmd = false;
do {
udelay(250);
} while (((value & TRAN_COMP) == 0) && (timeout-- > 0));
}
status_check = value & SRS12_ERR_MASK;
if (status_check != 0U) {
ERROR("SD host controller send command failed, SRS12 = %x", status);
return -1;
}
if ((op & RES_TYPE_SEL_48) || (op & RES_TYPE_SEL_136)) {
cmd->resp_data[0] = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS04);
if (op & RES_TYPE_SEL_136) {
cmd->resp_data[1] = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS05);
cmd->resp_data[2] = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS06);
cmd->resp_data[3] = mmio_read_32(MMC_REG_BASE + SDHC_CDNS_SRS07);
}
}
return 0;
}
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