blob: b27e165862b189550c27be883477034c18bac09f [file] [log] [blame]
/*
* Copyright (c) 2015-2018, Renesas Electronics Corporation. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <stddef.h>
#include <lib/mmio.h>
#include "emmc_config.h"
#include "emmc_hal.h"
#include "emmc_std.h"
#include "emmc_registers.h"
#include "emmc_def.h"
#include "rcar_private.h"
st_mmc_base mmc_drv_obj;
EMMC_ERROR_CODE rcar_emmc_memcard_power(uint8_t mode)
{
if (mode == TRUE) {
/* power on (Vcc&Vccq is always power on) */
mmc_drv_obj.card_power_enable = TRUE;
} else {
/* power off (Vcc&Vccq is always power on) */
mmc_drv_obj.card_power_enable = FALSE;
mmc_drv_obj.mount = FALSE;
mmc_drv_obj.selected = FALSE;
}
return EMMC_SUCCESS;
}
static __inline void emmc_set_retry_count(uint32_t retry)
{
mmc_drv_obj.retries_after_fail = retry;
}
static __inline void emmc_set_data_timeout(uint32_t data_timeout)
{
mmc_drv_obj.data_timeout = data_timeout;
}
static void emmc_memset(uint8_t *buff, uint8_t data, uint32_t cnt)
{
if (buff == NULL) {
return;
}
while (cnt > 0) {
*buff++ = data;
cnt--;
}
}
static void emmc_driver_config(void)
{
emmc_set_retry_count(EMMC_RETRY_COUNT);
emmc_set_data_timeout(EMMC_RW_DATA_TIMEOUT);
}
static void emmc_drv_init(void)
{
emmc_memset((uint8_t *) (&mmc_drv_obj), 0, sizeof(st_mmc_base));
mmc_drv_obj.card_present = HAL_MEMCARD_CARD_IS_IN;
mmc_drv_obj.data_timeout = EMMC_RW_DATA_TIMEOUT;
mmc_drv_obj.bus_width = HAL_MEMCARD_DATA_WIDTH_1_BIT;
}
static EMMC_ERROR_CODE emmc_dev_finalize(void)
{
EMMC_ERROR_CODE result;
uint32_t dataL;
/* MMC power off
* the power supply of eMMC device is always turning on.
* RST_n : Hi --> Low level.
*/
result = rcar_emmc_memcard_power(FALSE);
/* host controller reset */
SETR_32(SD_INFO1, 0x00000000U); /* all interrupt clear */
SETR_32(SD_INFO2, SD_INFO2_CLEAR); /* all interrupt clear */
SETR_32(SD_INFO1_MASK, 0x00000000U); /* all interrupt disable */
SETR_32(SD_INFO2_MASK, SD_INFO2_CLEAR); /* all interrupt disable */
SETR_32(SD_CLK_CTRL, 0x00000000U); /* MMC clock stop */
dataL = mmio_read_32(CPG_SMSTPCR3);
if ((dataL & CPG_MSTP_MMC) == 0U) {
dataL |= (CPG_MSTP_MMC);
mmio_write_32(CPG_CPGWPR, (~dataL));
mmio_write_32(CPG_SMSTPCR3, dataL);
}
return result;
}
static EMMC_ERROR_CODE emmc_dev_init(void)
{
/* Enable clock supply to eMMC. */
mstpcr_write(CPG_SMSTPCR3, CPG_MSTPSR3, CPG_MSTP_MMC);
/* Set SD clock */
mmio_write_32(CPG_CPGWPR, ~((uint32_t) (BIT9 | BIT0))); /* SD phy 200MHz */
/* Stop SDnH clock & SDn=200MHz */
mmio_write_32(CPG_SDxCKCR, (BIT9 | BIT0));
/* MMCIF initialize */
SETR_32(SD_INFO1, 0x00000000U); /* all interrupt clear */
SETR_32(SD_INFO2, SD_INFO2_CLEAR); /* all interrupt clear */
SETR_32(SD_INFO1_MASK, 0x00000000U); /* all interrupt disable */
SETR_32(SD_INFO2_MASK, SD_INFO2_CLEAR); /* all interrupt disable */
SETR_32(HOST_MODE, 0x00000000U); /* SD_BUF access width = 64-bit */
SETR_32(SD_OPTION, 0x0000C0EEU); /* Bus width = 1bit, timeout=MAX */
SETR_32(SD_CLK_CTRL, 0x00000000U); /* Automatic Control=Disable, Clock Output=Disable */
return EMMC_SUCCESS;
}
static EMMC_ERROR_CODE emmc_reset_controller(void)
{
EMMC_ERROR_CODE retult;
/* initialize mmc driver */
emmc_drv_init();
/* initialize H/W */
retult = emmc_dev_init();
if (EMMC_SUCCESS != retult) {
return retult;
}
mmc_drv_obj.initialize = TRUE;
return retult;
}
EMMC_ERROR_CODE emmc_terminate(void)
{
EMMC_ERROR_CODE result;
result = emmc_dev_finalize();
emmc_memset((uint8_t *) (&mmc_drv_obj), 0, sizeof(st_mmc_base));
return result;
}
EMMC_ERROR_CODE rcar_emmc_init(void)
{
EMMC_ERROR_CODE retult;
retult = emmc_reset_controller();
if (EMMC_SUCCESS != retult) {
return retult;
}
emmc_driver_config();
return EMMC_SUCCESS;
}