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emmc_interrupt.c
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emmc_interrupt.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_interrupt.c
* @brief interrupt service for MMC boot driver.
*
*/
#include "emmc_config.h"
#include "emmc_hal.h"
#include "emmc_std.h"
#include "emmc_registers.h"
#include "emmc_def.h"
#include "common.h"
#include "bit.h"
#include "types.h"
/* ***************** MACROS, CONSTANTS, COMPILATION FLAGS ****************** */
/* ********************** STRUCTURES, TYPE DEFINITIONS ********************* */
/* ********************** DECLARATION OF EXTERNAL DATA ********************* */
/* ************************** FUNCTION PROTOTYPES ************************** */
static EMMC_ERROR_CODE emmc_trans_sector (uint32_t *buff_address_virtual);
static void InterruptRegLog(void);
/* ********************************* CODE ********************************** */
/** @brief emmc driver interrupt service routine.
*
* - Pre-conditions:<BR>
* Must be block emmc driver state machine.
* - Post-conditions:<BR>
* unblocking emmc driver state machine.
*
* @retval INT_SUCCESS
*/
uint32_t emmc_interrupt(void)
{
EMMC_ERROR_CODE result;
#ifdef EMMC_DEBUG
char str[16];
int32_t chCnt;
#endif /* EMMC_DEBUG */
/* SD_INFO */
mmc_drv_obj.error_info.info1 = GETR_32(SD_INFO1);
mmc_drv_obj.error_info.info2 = GETR_32(SD_INFO2);
/* SD_INFO EVENT */
mmc_drv_obj.int_event1 = mmc_drv_obj.error_info.info1 & GETR_32(SD_INFO1_MASK);
mmc_drv_obj.int_event2 = mmc_drv_obj.error_info.info2 & GETR_32(SD_INFO2_MASK);
/* ERR_STS */
mmc_drv_obj.error_info.status1 = GETR_32(SD_ERR_STS1);
mmc_drv_obj.error_info.status2 = GETR_32(SD_ERR_STS2);
/* DM_CM_INFO */
mmc_drv_obj.error_info.dm_info1 = GETR_32(DM_CM_INFO1);
mmc_drv_obj.error_info.dm_info2 = GETR_32(DM_CM_INFO2);
/* DM_CM_INFO EVENT */
mmc_drv_obj.dm_event1 = mmc_drv_obj.error_info.dm_info1 & GETR_32(DM_CM_INFO1_MASK);
mmc_drv_obj.dm_event2 = mmc_drv_obj.error_info.dm_info2 & GETR_32(DM_CM_INFO2_MASK);
InterruptRegLog();
/* ERR SD_INFO2 */
if( (SD_INFO2_ALL_ERR & mmc_drv_obj.int_event2) != 0 )
{
SETR_32(SD_INFO1_MASK, 0x00000000U); /* interrupt disable */
SETR_32(SD_INFO2_MASK, SD_INFO2_CLEAR ); /* interrupt disable */
SETR_32(SD_INFO1, 0x00000000U); /* interrupt clear */
SETR_32(SD_INFO2, SD_INFO2_CLEAR ); /* interrupt clear */
mmc_drv_obj.state_machine_blocking = FALSE;
}
/* PIO Transfer */
/* BWE/BRE */
else if((( SD_INFO2_BWE | SD_INFO2_BRE ) & mmc_drv_obj.int_event2 ) != 0 )
{
/* BWE */
if( SD_INFO2_BWE & mmc_drv_obj.int_event2 )
{
SETR_32(SD_INFO2, (GETR_32(SD_INFO2) & ~SD_INFO2_BWE) ); /* interrupt clear */
}
/* BRE */
else
{
SETR_32(SD_INFO2, (GETR_32(SD_INFO2) & ~SD_INFO2_BRE) ); /* interrupt clear */
}
#ifdef EMMC_DEBUG
PutStr("remain_size before= 0x", 0);
Hex2Ascii(mmc_drv_obj.remain_size, str, &chCnt);
PutStr(str, 1);
#endif /* EMMC_DEBUG */
result = emmc_trans_sector((uint32_t *)mmc_drv_obj.buff_address_virtual); /* sector R/W */
mmc_drv_obj.buff_address_virtual += EMMC_BLOCK_LENGTH;
mmc_drv_obj.remain_size -= EMMC_BLOCK_LENGTH;
#ifdef EMMC_DEBUG
PutStr("remain_size after= 0x", 0);
Hex2Ascii(mmc_drv_obj.remain_size, str, &chCnt);
PutStr(str, 1);
#endif /* EMMC_DEBUG */
if(result != EMMC_SUCCESS)
{
#ifdef EMMC_DEBUG
PutStr("err:Transfer",1);
#endif /* EMMC_DEBUG */
/* data transfer error */
emmc_write_error_info(EMMC_FUNCNO_NONE, result);
/* Panic */
SETR_32(SD_INFO1_MASK, 0x00000000U); /* interrupt disable */
SETR_32(SD_INFO2_MASK, SD_INFO2_CLEAR ); /* interrupt disable */
SETR_32(SD_INFO1, 0x00000000U); /* interrupt clear */
SETR_32(SD_INFO2, SD_INFO2_CLEAR ); /* interrupt clear */
mmc_drv_obj.force_terminate = TRUE;
}
else
{
#ifdef EMMC_DEBUG
PutStr("Transfer End", 0);
#endif /* EMMC_DEBUG */
mmc_drv_obj.during_transfer = FALSE;
}
mmc_drv_obj.state_machine_blocking = FALSE;
}
/* DMA_TRANSFER */
/* DM_CM_INFO1: DMA-ch0 transfer complete or error occured */
else if( (BIT16 & mmc_drv_obj.dm_event1) != 0 )
{
SETR_32(DM_CM_INFO1, 0x00000000U);
SETR_32(DM_CM_INFO2, 0x00000000U);
SETR_32(SD_INFO2, (GETR_32(SD_INFO2) & ~SD_INFO2_BWE) ); /* interrupt clear */
/* DM_CM_INFO2: DMA-ch0 error occured */
if( ( BIT16 & mmc_drv_obj.dm_event2 ) != 0 )
{
#ifdef EMMC_DEBUG
PutStr("DMA-ch0 error",1);
#endif /* EMMC_DEBUG */
mmc_drv_obj.dma_error_flag = TRUE;
}
else
{
#ifdef EMMC_DEBUG
PutStr("DMA-ch0 end",1);
#endif /* EMMC_DEBUG */
mmc_drv_obj.during_dma_transfer = FALSE;
mmc_drv_obj.during_transfer = FALSE;
}
mmc_drv_obj.state_machine_blocking = FALSE; /* wait next interrupt */
}
/* DM_CM_INFO1: DMA-ch1 transfer complete or error occured */
else if( (BIT17 & mmc_drv_obj.dm_event1) != 0 )
{
SETR_32(DM_CM_INFO1, 0x00000000U);
SETR_32(DM_CM_INFO2, 0x00000000U);
SETR_32(SD_INFO2, (GETR_32(SD_INFO2) & ~SD_INFO2_BRE) ); /* interrupt clear */
/* DM_CM_INFO2: DMA-ch1 error occured */
if( ( BIT17 & mmc_drv_obj.dm_event2 ) != 0 )
{
#ifdef EMMC_DEBUG
PutStr("DMA-ch1 error",1);
#endif /* EMMC_DEBUG */
mmc_drv_obj.dma_error_flag = TRUE;
}
else
{
#ifdef EMMC_DEBUG
PutStr("DMA-ch1 end",1);
#endif /* EMMC_DEBUG */
mmc_drv_obj.during_dma_transfer = FALSE;
mmc_drv_obj.during_transfer = FALSE;
}
mmc_drv_obj.state_machine_blocking = FALSE; /* wait next interrupt */
}
/* Response end */
else if( (SD_INFO1_INFO0 & mmc_drv_obj.int_event1) != 0)
{
#ifdef EMMC_DEBUG
PutStr("Response end",1);
#endif /* EMMC_DEBUG */
SETR_32(SD_INFO1, (GETR_32(SD_INFO1) & ~SD_INFO1_INFO0) ); /* interrupt clear */
mmc_drv_obj.state_machine_blocking = FALSE;
}
/* Access end */
else if( (SD_INFO1_INFO2 & mmc_drv_obj.int_event1) != 0)
{
#ifdef EMMC_DEBUG
PutStr("Access end",1);
#endif /* EMMC_DEBUG */
SETR_32(SD_INFO1, (GETR_32(SD_INFO1) & ~SD_INFO1_INFO2) ); /* interrupt clear */
mmc_drv_obj.state_machine_blocking = FALSE;
}
else
{
/* nothing to do. */
}
#ifdef EMMC_DEBUG
PutStr("", 1);
#endif /* EMMC_DEBUG */
return (uint32_t)0;
}
/** @brief Data transfer function with PIO (Single sector).
*
* - Pre-conditions:<BR>
* Called from interrupt service.
* - Post-conditions:<BR>
* .
*
* @param[in,out] buff_address_virtual Dest/Src buffer address(virtual).
* @retval EMMC_SUCCESS successful.
* @retval EMMC_ERR_PARAM parameter error.
* @retval EMMC_ERR_STATE state error.
*/
static EMMC_ERROR_CODE emmc_trans_sector (
uint32_t *buff_address_virtual
)
{
uint32_t length,i;
uint64_t *bufPtrLL;
#ifdef EMMC_DEBUG
char str[16];
int32_t chCnt;
#endif /* EMMC_DEBUG */
if (buff_address_virtual == NULL)
{
#ifdef EMMC_DEBUG
PutStr("address err",1);
#endif /* EMMC_DEBUG */
return EMMC_ERR_PARAM;
}
if ((mmc_drv_obj.during_transfer != TRUE) || (mmc_drv_obj.remain_size == 0) )
{
#ifdef EMMC_DEBUG
PutStr("status err",1);
#endif /* EMMC_DEBUG */
return EMMC_ERR_STATE;
}
bufPtrLL = (uint64_t*)buff_address_virtual;
length = mmc_drv_obj.remain_size;
#ifdef EMMC_DEBUG
PutStr("remain_size = 0x",0);
Hex2Ascii(mmc_drv_obj.remain_size, str, &chCnt);
PutStr(str, 1);
PutStr("length = 0x",0);
Hex2Ascii(length, str, &chCnt);
PutStr(str, 1);
#endif /* EMMC_DEBUG */
/* data transefer */
for (i=0; i<(length>>3);i++)
{
/* Write */
if (mmc_drv_obj.cmd_info.dir == HAL_MEMCARD_WRITE)
{
SETR_64(SD_BUF0, *bufPtrLL); /* buffer --> FIFO */
}
/* Read */
else
{
*bufPtrLL = GETR_64(SD_BUF0); /* FIFO --> buffer */
}
bufPtrLL++;
}
#ifdef EMMC_DEBUG
PutStr("i = 0x",0);
Hex2Ascii(i, str, &chCnt);
PutStr(str, 1);
#endif /* EMMC_DEBUG */
return EMMC_SUCCESS;
}
/** @brief debug log interrupt register
*
* - Pre-conditions:<BR>
* after emmc_interrupt.
* - Post-conditions:<BR>
* .
*
* @return None.
*/
static void InterruptRegLog(void)
{
#ifdef EMMC_DEBUG
char str[16];
int32_t chCnt;
/* SD_INFO */
PutStr("info SD_INFO1 = 0x", 0);
Hex2Ascii(mmc_drv_obj.error_info.info1, str, &chCnt);
PutStr(str, 1);
PutStr("info SD_INFO2 = 0x", 0);
Hex2Ascii(mmc_drv_obj.error_info.info2, str, &chCnt);
PutStr(str, 1);
/* SD_INFO EVENT */
PutStr("event SD_INFO1 = 0x", 0);
Hex2Ascii(mmc_drv_obj.int_event1, str, &chCnt);
PutStr(str, 1);
PutStr("event SD_INFO2 = 0x", 0);
Hex2Ascii(mmc_drv_obj.int_event2, str, &chCnt);
PutStr(str, 1);
/* ERR_STS */
PutStr("error ERR_STS1 = 0x", 0);
Hex2Ascii(mmc_drv_obj.error_info.status1, str, &chCnt);
PutStr(str, 1);
PutStr("error ERR_STS2 = 0x", 0);
Hex2Ascii(mmc_drv_obj.error_info.status2, str, &chCnt);
PutStr(str, 1);
/* DM_CM_INFO */
PutStr("info DM_INFO1 = 0x", 0);
Hex2Ascii(mmc_drv_obj.error_info.dm_info1, str, &chCnt);
PutStr(str, 1);
PutStr("info DM_INFO2 = 0x", 0);
Hex2Ascii(mmc_drv_obj.error_info.dm_info2, str, &chCnt);
PutStr(str, 1);
/* DM_CM_INFO EVENT */
PutStr("event DM_CM_INFO1 = 0x", 0);
Hex2Ascii(mmc_drv_obj.dm_event1, str, &chCnt);
PutStr(str, 1);
PutStr("event DM_CM_INFO2 = 0x", 0);
Hex2Ascii(mmc_drv_obj.dm_event2, str, &chCnt);
PutStr(str, 1);
#endif /* EMMC_DEBUG */
}
/* ******************************** END ************************************ */