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emmc_mount.c
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emmc_mount.c
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/*
* Copyright (c) 2015-2016, Renesas Electronics Corporation
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* - Redistributions of source code must retain the above copyright notice,
* this list of conditions and the following disclaimer.
*
* - Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* - Neither the name of Renesas nor the names of its contributors may be
* used to endorse or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
/**
* @file emmc_mount.c
* @brief MMC card mount operation.
*
*/
/* ************************ HEADER (INCLUDE) SECTION *********************** */
#include "emmc_config.h"
#include "emmc_hal.h"
#include "emmc_std.h"
#include "emmc_registers.h"
#include "emmc_def.h"
#include "common.h"
#include "types.h"
#include "bit.h"
#include "cpudrv.h"
/* ***************** MACROS, CONSTANTS, COMPILATION FLAGS ****************** */
/* ********************** STRUCTURES, TYPE DEFINITIONS ********************* */
/* ********************** DECLARATION OF EXTERNAL DATA ********************* */
/* ************************** FUNCTION PROTOTYPES ************************** */
static EMMC_ERROR_CODE emmc_clock_ctrl(uint8_t mode);
static EMMC_ERROR_CODE emmc_card_init (void);
static EMMC_ERROR_CODE emmc_high_speed(void);
static EMMC_ERROR_CODE emmc_bus_width(uint32_t width);
//static EMMC_ERROR_CODE emmc_check_pattern(uint8_t *pat, uint32_t size);
static uint32_t emmc_set_timeout_register_value(uint32_t freq);
static void set_sd_clk(uint32_t clkDiv);
static uint32_t emmc_calc_tran_speed(uint32_t* freq);
/* ********************************* CODE ********************************** */
/** @brief eMMC mount operation.
*
* Sequence is the following.
* 1) Bus initialization (emmc_card_init())
* 2) Switching to high speed mode. (emmc_high_speed())
* 3) Changing the data bus width. (emmc_bus_width())
*
* - Pre-conditions:<BR>
* eMMC driver is initialized. The power supply of MMC IF must be turning on.
* - Post-conditions:<BR>
* MMC card state changes to transfer state.
*
* @return eMMC error code.
*/
EMMC_ERROR_CODE emmc_mount(void)
{
EMMC_ERROR_CODE result;
/* state check */
if ( (mmc_drv_obj.initialize != TRUE)
|| (mmc_drv_obj.card_power_enable != TRUE)
|| ( (GETR_32(SD_INFO2) & SD_INFO2_CBSY) != 0)
)
{
emmc_write_error_info(EMMC_FUNCNO_MOUNT, EMMC_ERR_STATE);
return EMMC_ERR_STATE;
}
/* initialize card (IDLE state --> Transfer state) */
result = emmc_card_init();
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
if (emmc_clock_ctrl(FALSE) != EMMC_SUCCESS)
{
/* nothing to do. */
}
return result;
}
/* Switching high speed mode */
result = emmc_high_speed();
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_HIGH_SPEED);
if (emmc_clock_ctrl(FALSE) != EMMC_SUCCESS)
{
/* nothing to do. */
}
return result;
}
/* Changing the data bus width */
result = emmc_bus_width(8);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_BUS_WIDTH);
if (emmc_clock_ctrl(FALSE) != EMMC_SUCCESS)
{
/* nothing to do. */
}
return result;
}
/* mount complete */
mmc_drv_obj.mount = TRUE;
return EMMC_SUCCESS;
}
/** @brief Bus initialization function
*
* - Pre-conditions:<BR>
* eMMC driver is initialized. The power supply of MMC IF must be turning on.
* - Post-conditions:<BR>
* MMC card state changes to transfer state.
*
* @retval EMMC_SUCCESS successful.
* @return eMMC error code.
* @attention upper layer must be check pre-conditions.
*/
static EMMC_ERROR_CODE emmc_card_init (void)
{
int32_t retry;
uint32_t freq = MMC_400KHZ; /* 390KHz */
EMMC_ERROR_CODE result;
uint32_t resultCalc;
/* state check */
if ( (mmc_drv_obj.initialize != TRUE)
|| (mmc_drv_obj.card_power_enable != TRUE)
|| ((GETR_32(SD_INFO2) & SD_INFO2_CBSY) != 0)
)
{
emmc_write_error_info(EMMC_FUNCNO_CARD_INIT, EMMC_ERR_STATE);
return EMMC_ERR_STATE;
}
/* clock on (force change) */
mmc_drv_obj.current_freq = 0;
mmc_drv_obj.max_freq = MMC_20MHZ; /* MMC_20MHZ = MMC_12MHZ = 12.187MHz */
result = emmc_set_request_mmc_clock(&freq);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return EMMC_ERR;
}
#ifdef REWRITE_TOOL
StartTMU0usec(100); /* wait 1ms */
/* CMD0, arg=0x00000000 */
result = emmc_send_idle_cmd (0x00000000);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
#endif /* REWRITE_TOOL */
StartTMU0usec(20); /* wait 74clock 390kHz(189.74us)*/
/* CMD1 */
emmc_make_nontrans_cmd(CMD1_SEND_OP_COND, EMMC_HOST_OCR_VALUE);
for (retry=300; retry > 0; retry--)
{
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
if ((mmc_drv_obj.r3_ocr & EMMC_OCR_STATUS_BIT) != 0)
{
break; /* card is ready. exit loop */
}
StartTMU0usec(100); /* wait 1ms */
}
if (retry == 0)
{
emmc_write_error_info(EMMC_FUNCNO_CARD_INIT, EMMC_ERR_TIMEOUT);
return EMMC_ERR_TIMEOUT;
}
switch (mmc_drv_obj.r3_ocr & EMMC_OCR_ACCESS_MODE_MASK)
{
case EMMC_OCR_ACCESS_MODE_SECT:
mmc_drv_obj.access_mode = TRUE; /* sector mode */
break;
default:
/* unknown value */
emmc_write_error_info(EMMC_FUNCNO_CARD_INIT, EMMC_ERR);
return EMMC_ERR;
}
/* CMD2 */
emmc_make_nontrans_cmd(CMD2_ALL_SEND_CID_MMC, 0x00000000);
mmc_drv_obj.response = (uint32_t *)(&mmc_drv_obj.cid_data[0]); /* use CID special buffer */
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
/* CMD3 */
emmc_make_nontrans_cmd(CMD3_SET_RELATIVE_ADDR, EMMC_RCA<<16);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
/* CMD9 (CSD) */
emmc_make_nontrans_cmd(CMD9_SEND_CSD, EMMC_RCA<<16);
mmc_drv_obj.response = (uint32_t *)(&mmc_drv_obj.csd_data[0]); /* use CSD special buffer */
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
/* card version check */
if (EMMC_CSD_SPEC_VARS() < 4)
{
emmc_write_error_info(EMMC_FUNCNO_CARD_INIT, EMMC_ERR_ILLEGAL_CARD);
return EMMC_ERR_ILLEGAL_CARD;
}
/* CMD7 (select card) */
emmc_make_nontrans_cmd(CMD7_SELECT_CARD, EMMC_RCA<<16);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
mmc_drv_obj.selected = TRUE;
/* card speed check */
resultCalc = emmc_calc_tran_speed( &freq ); /* Card spec is calculated from TRAN_SPEED(CSD). */
if (resultCalc == 0)
{
emmc_write_error_info(EMMC_FUNCNO_CARD_INIT, EMMC_ERR_ILLEGAL_CARD);
return EMMC_ERR_ILLEGAL_CARD;
}
mmc_drv_obj.max_freq = freq; /* max frequency (card spec) */
result = emmc_set_request_mmc_clock(&freq);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return EMMC_ERR;
}
/* set read/write timeout */
mmc_drv_obj.data_timeout = emmc_set_timeout_register_value( freq );
SETR_32( SD_OPTION,((GETR_32(SD_OPTION) & ~(SD_OPTION_TIMEOUT_CNT_MASK)) | mmc_drv_obj.data_timeout));
/* SET_BLOCKLEN(512byte) */
/* CMD16 */
emmc_make_nontrans_cmd(CMD16_SET_BLOCKLEN, EMMC_BLOCK_LENGTH);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
/* Transfer Data Length */
SETR_32( SD_SIZE, EMMC_BLOCK_LENGTH );
/* CMD8 (EXT_CSD) */
emmc_make_trans_cmd(CMD8_SEND_EXT_CSD, 0x00000000, (uint32_t *)(&mmc_drv_obj.ext_csd_data[0]), EMMC_MAX_EXT_CSD_LENGTH, HAL_MEMCARD_READ, HAL_MEMCARD_NOT_DMA);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
/* CMD12 is not send.
* If BUS initialization is failed, user must be execute Bus initialization again.
* Bus initialization is start CMD0(soft reset command).
*/
emmc_write_error_info_func_no(EMMC_FUNCNO_CARD_INIT);
return result;
}
return EMMC_SUCCESS;
}
/** @brief Switching to high-speed mode
*
* - Pre-conditions:<BR>
* Executing Bus initializatin by emmc_card_init().
* EXT_CSD data must be stored in mmc_drv_obj.ext_csd_data[].
*
* - Post-conditions:<BR>
* Change the clock frequency to 26MHz or 52MHz.
*
* @retval EMMC_SUCCESS successful or aleady switching.
* @retval EMMC_ERR_STATE state error.
* @retval EMMC_ERR unknown error.
* @return emmc error code.
*/
static EMMC_ERROR_CODE emmc_high_speed(void)
{
uint32_t freq; /**< High speed mode clock frequency */
EMMC_ERROR_CODE result;
uint8_t cardType;
/* state check */
if (mmc_drv_obj.selected != TRUE)
{
emmc_write_error_info(EMMC_FUNCNO_HIGH_SPEED, EMMC_ERR_STATE);
return EMMC_ERR_STATE;
}
/* max frequency */
cardType = (uint8_t)mmc_drv_obj.ext_csd_data[EMMC_EXT_CSD_CARD_TYPE];
if( (cardType & EMMC_EXT_CSD_CARD_TYPE_52MHZ ) != 0 )
{
freq = MMC_52MHZ;
}
else if( (cardType & EMMC_EXT_CSD_CARD_TYPE_26MHZ ) != 0 )
{
freq = MMC_26MHZ;
}
else
{
freq = MMC_20MHZ;
}
/* Hi-Speed-mode selction */
if( ( MMC_52MHZ == freq ) ||
( MMC_26MHZ == freq ) )
{
/* CMD6 */
emmc_make_nontrans_cmd(CMD6_SWITCH, EMMC_SWITCH_HS_TIMING);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_HIGH_SPEED);
return result;
}
mmc_drv_obj.hs_timing = TIMING_HIGH_SPEED; /* High-Speed */
}
/* set mmc clock */
mmc_drv_obj.max_freq = freq;
result = emmc_set_request_mmc_clock(&freq);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_HIGH_SPEED);
return EMMC_ERR;
}
/* set read/write timeout */
mmc_drv_obj.data_timeout = emmc_set_timeout_register_value( freq );
SETR_32( SD_OPTION,((GETR_32(SD_OPTION) & ~(SD_OPTION_TIMEOUT_CNT_MASK)) | mmc_drv_obj.data_timeout));
/* CMD13 */
emmc_make_nontrans_cmd(CMD13_SEND_STATUS, EMMC_RCA<<16);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
emmc_write_error_info_func_no(EMMC_FUNCNO_HIGH_SPEED);
return result;
}
return EMMC_SUCCESS;
}
/** @brief Changing the data bus width
*
* if chinging the data bus width failed, card is reset by CMD0.
* Please do Bus initialization over again.
*
* - Pre-conditions:<BR>
* Executing Bus initializatin by emmc_card_init().
*
* - Post-conditions:<BR>
* Change the data bus width to 8bit or 4bit.
* mmc_drv_obj.ext_csd_data is updated.
*
* @param[in] width bus width (8 or 4)
* @retval EMMC_SUCCESS successful.
* @retval EMMC_ERR_PARAM parameter error
* @retval EMMC_ERR_STATE state error.
*
*/
static EMMC_ERROR_CODE emmc_bus_width(
uint32_t width
)
{
EMMC_ERROR_CODE result = EMMC_ERR;
#ifdef EMMC_DEBUG
int32_t lchCnt;
char buf[16];
#endif /* EMMC_DEBUG */
/* parameter check */
if ( (width != 8) && (width != 4) && (width != 1) )
{
#ifdef EMMC_DEBUG
PutStr("err:width = ",0);
Hex2Ascii((int32_t)width,buf,&lchCnt);
PutStr(buf,1);
#endif /* EMMC_DEBUG */
emmc_write_error_info(EMMC_FUNCNO_BUS_WIDTH, EMMC_ERR_PARAM);
return EMMC_ERR_PARAM;
}
/* state check */
if (mmc_drv_obj.selected != TRUE)
{
emmc_write_error_info(EMMC_FUNCNO_BUS_WIDTH, EMMC_ERR_STATE);
return EMMC_ERR_STATE;
}
mmc_drv_obj.bus_width = (HAL_MEMCARD_DATA_WIDTH)(width>>2); /* 2 = 8bit, 1 = 4bit, 0 =1bit */
/* CMD6 */
emmc_make_nontrans_cmd(CMD6_SWITCH, ( EMMC_SWITCH_BUS_WIDTH_1 | ( mmc_drv_obj.bus_width << 8 ) ) );
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
/* occurred error */
mmc_drv_obj.bus_width = HAL_MEMCARD_DATA_WIDTH_1_BIT;
goto EXIT;
}
#ifdef EMMC_DEBUG
PutStr("SD_OPTION before= ",0);
Hex2Ascii((int32_t)GETR_32(SD_OPTION),buf,&lchCnt);
PutStr(buf,1);
#endif /* EMMC_DEBUG */
switch(mmc_drv_obj.bus_width)
{
case HAL_MEMCARD_DATA_WIDTH_1_BIT:
SETR_32( SD_OPTION,((GETR_32(SD_OPTION) & ~(BIT15|BIT13)) | BIT15 ));
break;
case HAL_MEMCARD_DATA_WIDTH_4_BIT:
SETR_32( SD_OPTION,(GETR_32(SD_OPTION) & ~(BIT15|BIT13)));
break;
case HAL_MEMCARD_DATA_WIDTH_8_BIT:
SETR_32( SD_OPTION,((GETR_32(SD_OPTION) & ~(BIT15|BIT13)) | BIT13 ));
break;
default:
goto EXIT;
}
#ifdef EMMC_DEBUG
PutStr("SD_OPTION after = ",0);
Hex2Ascii((int32_t)GETR_32(SD_OPTION),buf,&lchCnt);
PutStr(buf,1);
#endif /* EMMC_DEBUG */
/* CMD13 */
emmc_make_nontrans_cmd(CMD13_SEND_STATUS, EMMC_RCA<<16);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
#ifdef EMMC_DEBUG
PutStr("err:CMD13",1);
#endif /* EMMC_DEBUG */
goto EXIT;
}
/* CMD8 (EXT_CSD) */
emmc_make_trans_cmd(CMD8_SEND_EXT_CSD, 0x00000000, (uint32_t *)(&mmc_drv_obj.ext_csd_data[0]), EMMC_MAX_EXT_CSD_LENGTH, HAL_MEMCARD_READ, HAL_MEMCARD_NOT_DMA);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
#ifdef EMMC_DEBUG
PutStr("err:CMD8",1);
#endif /* EMMC_DEBUG */
goto EXIT;
}
return EMMC_SUCCESS;
EXIT:
emmc_write_error_info(EMMC_FUNCNO_BUS_WIDTH, result);
PutStr("bus_width error end",1);
return result;
}
/** @brief select access partition
*
* This function write the EXT_CSD register(PARTITION_ACCESS: PARTITION_CONFIG[2:0]).
*
* - Pre-conditions:<BR>
* MMC card is mounted.
*
* - Post-conditions:<BR>
* selected partition can access.
*
* @param[in] id user selects partitions to access.
* @retval EMMC_SUCCESS successful.
* @retval EMMC_ERR_STATE state error.
* @retval EMMC_ERR_PARAM parameter error.
* @return emmc error code.
*/
EMMC_ERROR_CODE emmc_select_partition(
EMMC_PARTITION_ID id
)
{
EMMC_ERROR_CODE result;
uint32_t arg;
uint32_t partition_config;
#ifdef EMMC_DEBUG
char buf[16];
int32_t chCnt;
#endif /* EMMC_DEBUG */
/* state check */
if (mmc_drv_obj.mount != TRUE)
{
emmc_write_error_info(EMMC_FUNCNO_NONE, EMMC_ERR_STATE);
return EMMC_ERR_STATE;
}
/* id = PARTITION_ACCESS(Bit[2:0]) */
if ((id & ~PARTITION_ID_MASK) != 0)
{
emmc_write_error_info(EMMC_FUNCNO_NONE, EMMC_ERR_PARAM);
return EMMC_ERR_PARAM;
}
/* EXT_CSD[179] value */
partition_config = (uint32_t)mmc_drv_obj.ext_csd_data[EMMC_EXT_CSD_PARTITION_CONFIG];
if ((partition_config & PARTITION_ID_MASK) == id) {
result = EMMC_SUCCESS;
} else {
partition_config = (uint32_t)((partition_config & ~PARTITION_ID_MASK) | id);
arg = EMMC_SWITCH_PARTITION_CONFIG | (partition_config<<8);
result = emmc_set_ext_csd(arg);
}
#ifdef EMMC_DEBUG
PutStr(" EXT_CSD[179] = ",0);
Hex2DecAscii((int32_t)mmc_drv_obj.ext_csd_data[EMMC_EXT_CSD_PARTITION_CONFIG],buf,&chCnt);
PutStr(buf,1);
#endif /* EMMC_DEBUG */
return result;
}
/** @brief set EXT CSD data
*
* - Pre-conditions:<BR>
* MMC card is mounted.
*
* - Post-conditions:<BR>
* mmc_drv_obj.ext_csd_data[] is updated.
*
* @param[in] arg argument of CMD6
* @return emmc error code.
*/
EMMC_ERROR_CODE emmc_set_ext_csd(
uint32_t arg
)
{
EMMC_ERROR_CODE result;
// st_error_info backup;
/* CMD6 */
emmc_make_nontrans_cmd(CMD6_SWITCH, arg);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
return result;
}
/* CMD13 */
emmc_make_nontrans_cmd(CMD13_SEND_STATUS, EMMC_RCA<<16);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
return result;
}
/* CMD8 (EXT_CSD) */
emmc_make_trans_cmd(CMD8_SEND_EXT_CSD, 0x00000000, (uint32_t *)(&mmc_drv_obj.ext_csd_data[0]), EMMC_MAX_EXT_CSD_LENGTH, HAL_MEMCARD_READ, HAL_MEMCARD_NOT_DMA);
result = emmc_exec_cmd(EMMC_R1_ERROR_MASK, mmc_drv_obj.response);
if (result != EMMC_SUCCESS)
{
return result;
}
return EMMC_SUCCESS;
}
/** @brief set request MMC clock frequency.
*
* Function returns EMMC_SUCCESS if clock is already running in the desired frequency.
* EMMC_ERR is returned if the HW doesn't support requested clock frequency.
* If matching frequence cannot be set the closest frequence below should be selected.
* For example if 50MHz is requested, but HW supports only 48MHz then 48MHz should be returned in the freq parameter.
*
* - Pre-conditions:<BR>
* initialized eMMC driver with emmc_init().
* Memory card and MMCSDIO host controller needs to be powered up beforehand.
*
* - Post-conditions:<BR>
* Desired clock frequency is set to memory card IF.
*
* @param[in] freq frequency [Hz]
* @retval EMMC_SUCCESS successful.
* @retval EMMC_ERR_STATE state error.
* @retval EMMC_ERR busy
*/
EMMC_ERROR_CODE emmc_set_request_mmc_clock(
uint32_t *freq
)
{
/* parameter check */
if (freq == NULL)
{
emmc_write_error_info(EMMC_FUNCNO_SET_CLOCK, EMMC_ERR_PARAM);
return EMMC_ERR_PARAM;
}
/* state check */
if ( (mmc_drv_obj.initialize != TRUE) || (mmc_drv_obj.card_power_enable != TRUE) )
{
emmc_write_error_info(EMMC_FUNCNO_SET_CLOCK, EMMC_ERR_STATE);
return EMMC_ERR_STATE;
}
/* clock is already running in the desired frequency. */
if ( (mmc_drv_obj.clock_enable == TRUE) && (mmc_drv_obj.current_freq == *freq) )
{
return EMMC_SUCCESS;
}
/* busy check */
if ((GETR_32(SD_INFO2) & SD_INFO2_CBSY) != 0)
{
emmc_write_error_info(EMMC_FUNCNO_SET_CLOCK, EMMC_ERR_CARD_BUSY);
return EMMC_ERR;
}
set_sd_clk(*freq);
mmc_drv_obj.clock_enable = FALSE;
return emmc_clock_ctrl(TRUE); /* clock on */
}
/** @brief set sd clock.
*
* - Pre-conditions:<BR>
* CSD data must be stored in mmc_drv_obj.csd_data[].
*
* - Post-conditions:<BR>
* set mmc clock.
*
* @param[in] clkDiv request freq
* @return None.
*/
static void set_sd_clk(uint32_t clkDiv)
{
uint32_t dataL;
#ifdef EMMC_DEBUG
char str[16];
int32_t chCnt;
#endif /* EMMC_DEBUG */
dataL = (GETR_32((volatile uint32_t *)SD_CLK_CTRL) & (~SD_CLK_CTRL_CLKDIV_MASK) );
#ifdef EMMC_DEBUG
PutStr("set_sd_clk freq:", 0);
Hex2DecAscii(clkDiv, str, &chCnt);
PutStr(str, 1);
#endif /* EMMC_DEBUG */
switch(clkDiv){
case 1: dataL |= 0x000000FFU; break; /* 1/1 */
case 2: dataL |= 0x00000000U; break; /* 1/2 */
case 4: dataL |= 0x00000001U; break; /* 1/4 */
case 8: dataL |= 0x00000002U; break; /* 1/8 */
case 16: dataL |= 0x00000004U; break; /* 1/16 */
case 32: dataL |= 0x00000008U; break; /* 1/32 */
case 64: dataL |= 0x00000010U; break; /* 1/64 */
case 128: dataL |= 0x00000020U; break; /* 1/128 */
case 256: dataL |= 0x00000040U; break; /* 1/256 */
case 512: dataL |= 0x00000080U; break; /* 1/512 */
}
SETR_32((volatile uint32_t *)SD_CLK_CTRL, dataL);
mmc_drv_obj.current_freq = (uint32_t)clkDiv;
}
/** @brief Enable/Disable MMC clock
*
* - Pre-conditions:<BR>
* Before enabling the clock for the first time the desired clock frequency must be set with
* emmc_set_clock_freq().
* Berore setting mmc_drv_obj.data_timeout with emmc_set_data_timeout().
*
* - Post-conditions:<BR>
* After this function is called, clock to memory card IF is on/off.
*
* @param[in] mode TRUE = clock on, FALSE = clock off
* @retval EMMC_SUCCESS succeeded
* @retval EMMC_ERR Busy
*/
static EMMC_ERROR_CODE emmc_clock_ctrl(
uint8_t mode
)
{
uint32_t value;
/* busy check */
if ((GETR_32(SD_INFO2) & SD_INFO2_CBSY) != 0)
{
emmc_write_error_info(EMMC_FUNCNO_SET_CLOCK, EMMC_ERR_CARD_BUSY);
return EMMC_ERR;
}
if (mode == TRUE)
{
/* clock ON */
value = ((GETR_32(SD_CLK_CTRL) | MMC_SD_CLK_START) & SD_CLK_WRITE_MASK);
SETR_32(SD_CLK_CTRL, value); /* on */
mmc_drv_obj.clock_enable = TRUE;
}
else
{
/* clock OFF */
value = ((GETR_32(SD_CLK_CTRL) & MMC_SD_CLK_STOP) & SD_CLK_WRITE_MASK);
SETR_32(SD_CLK_CTRL, value); /* off */
mmc_drv_obj.clock_enable = FALSE;
}
return EMMC_SUCCESS;
}
/** @brief Calculate Card support frequency.
* TRAN_SPEED defines the clock frequency when not in high speed mode.
*
* - Pre-conditions:<BR>
* CSD data must be stored in mmc_drv_obj.csd_data[].
*
* - Post-conditions:<BR>
* None.
* @return Frquency[Hz]
*/
static uint32_t emmc_calc_tran_speed( uint32_t* freq )
{
static const uint32_t unit[8] = {10000, 100000, 1000000, 10000000, 0, 0, 0, 0}; /**< frequency unit (1/10) */
static const uint32_t mult[16] = {0, 10, 12, 13, 15, 20, 26, 30, 35, 40, 45, 52, 55, 60, 70, 80}; /**< multiple factor (x10) */
uint32_t maxFreq;
uint32_t result;
uint32_t tran_speed = EMMC_CSD_TRAN_SPEED();
/* tran_speed = 0x32
* unit[tran_speed&0x7] = uint[0x2] = 1000000
* mult[(tran_speed&0x78)>>3] = mult[0x30>>3] = mult[6] = 26
* 1000000 * 26 = 26000000 (26MHz)
*/
result= 1;
maxFreq = unit[tran_speed&EMMC_TRANSPEED_FREQ_UNIT_MASK] * mult[(tran_speed&EMMC_TRANSPEED_MULT_MASK)>>EMMC_TRANSPEED_MULT_SHIFT];
if( maxFreq == 0 )
{
result= 0;
}
else if( MMC_FREQ_52MHZ <= maxFreq )
{
*freq = MMC_52MHZ;
}
else if( MMC_FREQ_26MHZ <= maxFreq )
{
*freq = MMC_26MHZ;
}
else if( MMC_FREQ_20MHZ <= maxFreq )
{
*freq = MMC_20MHZ;
}
else
{
*freq = MMC_400KHZ;
}
return result;
}
/** @brief Calculate read/write timeout.
*
* - Pre-conditions:<BR>
* CSD data must be stored in mmc_drv_obj.csd_data[].
*
* - Post-conditions:<BR>
* set mmc clock.
*
* @param[in] freq Base clock Div
* @return SD_OPTION Timeout Counter
*/
static uint32_t emmc_set_timeout_register_value(
uint32_t freq
)
{
uint32_t timeoutCnt=0; /* SD_OPTION - Timeout Counter */
switch(freq){
case 1: timeoutCnt = 0xE0U; break; /* SDCLK * 2^27 */
case 2: timeoutCnt = 0xE0U; break; /* SDCLK * 2^27 */
case 4: timeoutCnt = 0xD0U; break; /* SDCLK * 2^26 */
case 8: timeoutCnt = 0xC0U; break; /* SDCLK * 2^25 */
case 16: timeoutCnt = 0xB0U; break; /* SDCLK * 2^24 */
case 32: timeoutCnt = 0xA0U; break; /* SDCLK * 2^23 */
case 64: timeoutCnt = 0x90U; break; /* SDCLK * 2^22 */
case 128: timeoutCnt = 0x80U; break; /* SDCLK * 2^21 */
case 256: timeoutCnt = 0x70U; break; /* SDCLK * 2^20 */
case 512: timeoutCnt = 0x60U; break; /* SDCLK * 2^19 */
}
return timeoutCnt;
}