leoint.c 20 KB
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/*
 *  F i l e N a m e  :  l e o i n t . c
 *
 ****************************************************************************
 *                   (C) Copyright ALPS Electric Co., Ltd. 1995-1996
 ****************************************************************************
 *  Version
 *
 *  ver     Date
 *  ----  --------
 *  1.10  '97-02-22  Move leoChk_err_retry() to top of retry ope to correct UA handle.
 *                   Change LEO_SENSE_MEDIUM_NOT_PRESENT to LEO_SENSE_EJECTED_ILLEGALLY_RESUME in leochk_err_reg().
 *  1.09  '97-01-10  Change sense code name to LEO_SENSE_ILLEGAL_SECTOR_SIZE.
 *  1.08  '96-12-24  Add "#ifdef _LONGCMD" for long command.
 *  1.07  '96-10-30  Change seek completer interrupt check.
 *                   Move leoChk_err_retry() in leomecha.c
 *  1.06a '96-10-07  Enable bad-ecc write if SYSTEMWRITE is defined.
 *  1.06  '96-10-02  Change recaliblate execute fail handling.
 *                   Change c2syndrome 0 check. (cast u64 -> u32)
 *  1.05  '96-10-01  Change OSPiHandle structure, make errStatus for each blocks.
 *  1.04  '96-07-30  Change error handling .
 *  1.03  '96-07-29  Rewrite for phase1 new OS. 
 *  1.02  '96-06-06  Add check C2 over-run err.
 *  1.01  '96-02-27  Rename int.c to leoint.c
 *  1.00  '95-12-20  Initial revision .
 ****************************************************************************
*/
#include "os.h"

#include <ultra64.h>
#include "leodefine.h"
#include "leodrive.h"
#include "leomacro.h"
#include "leoappli.h"
#ifdef _LONGCMD
#include "leospappli.h"
#endif

/**************************************
*  PROTOTYPE DEFINITION
**************************************/
void leointerrupt(void *arg);
static u32  read_write_track(void);
static u32  leoChk_mecha_int(void);
static void leosetup_BM(void);
static u32  leochk_err_reg(void);

/**************************************
*  EXTERNALY DEFINITION FUNCTIONS
**************************************/
extern u16  leoLba_to_phys(u32 lba);
extern void leoSet_mseq(u16 rwmode);
extern u32  leoChk_err_retry(u32 sense);

/**************************************/
/* RAM LOCATIONS                      */
/**************************************/
OSMesg      LEOc2ctrl_que_buf;
OSMesgQueue LEOc2ctrl_que;

extern OSPiHandle *LEOPiInfo;
extern OSMesg      LEOcur_command;

/**************************************
*  EXTERNALY DEFINITION RAM LOCATIONS
**************************************/
extern OSThread    LEOinterruptThread;
extern OSMesgQueue LEOcontrol_que;
extern OSMesgQueue LEOdma_que;
extern u8 *LEOwrite_pointer;
extern u32 LEOasic_bm_ctl_shadow;
extern u32 LEOasic_seq_ctl_shadow;
extern struct block_param_form LEOc2_param;
extern struct tgt_param_form   LEOtgt_param;
extern volatile u16 LEOrw_flags;

extern u8  LEOC2_Syndrome[2][SEC_SIZE_ZONE0][C2_SECS_PER_BLK];
extern OSPiHandle *LEOPiInfo;
extern OSIoMesg   LEOPiDmaParam;

/**************************************
*  MACRO DEFINITONS                   *
**************************************/
#define    read_command    ((LEOCmdRead *)LEOcur_command)
#ifdef _LONGCMD
#define    read_long_command    ((LEOCmdReadLong *)LEOcur_command)
#endif

/**********************************************************
* Function : leointerrupt
* ---------------------------------------------------------
* Description : read
* IN  : non
* OUT : non
**********************************************************/
void leointerrupt(void *arg)
{
    u32    result;
    u32    tg_blocks;

    osCreateMesgQueue(C2_CTRL_QUE, &LEOc2ctrl_que_buf, 1/*size*/);
    for (;;)
    {
        /* wait task start */
        (void)osStopThread(&LEOinterruptThread);
        tg_blocks = read_command->xfer_blks;
        LEOwrite_pointer = (u8*)read_command->buff_ptr;
        do
        {
            /* convert logical to physical to seek */
            leoLba_to_phys(LEOtgt_param.lba);
#ifdef _LONGCMD
            if (LEOrw_flags & FIXSIZE)
            {
                if (LEOtgt_param.sec_bytes < read_long_command->size)
                {
                    result = LEO_SENSE_ILLEGAL_SECTOR_SIZE;
                    goto complete;
                }
            }
#endif
            /* issue seek command to drive */
            if (LEOrw_flags & WRITE_MODE)
                result = leoSeek_write_i();
            else
                result = leoSeek_read_i();
            if (result)
                goto complete;
#ifdef _LONGCMD
            if (LEOrw_flags & (SECTOR_READ+LONG_RW))
                LEOtgt_param.rdwr_blocks = 1;
            else if (LEOtgt_param.rdwr_blocks > tg_blocks)  /* compare blocks in tk and blocks to read */
                LEOtgt_param.rdwr_blocks = tg_blocks;
#else
            if (LEOrw_flags & SECTOR_READ)
                LEOtgt_param.rdwr_blocks = 1;
            else if (LEOtgt_param.rdwr_blocks > tg_blocks)  /* compare blocks in tk and blocks to read */
                LEOtgt_param.rdwr_blocks = tg_blocks;
#endif
            LEOtgt_param.lba += LEOtgt_param.rdwr_blocks;
            tg_blocks        -= LEOtgt_param.rdwr_blocks;
            result = read_write_track();
            if (result)
                goto complete;
            read_command->rw_bytes = (u32)LEOwrite_pointer - (u32)read_command->buff_ptr;
        } while(tg_blocks);
        result = (u32)MES_RW_COMPLETE;
complete:
        osSendMesg(CONTROL_QUE, (OSMesg)result, OS_MESG_BLOCK);
    }
}


u32 read_write_track(void)
{
    u32    message;
    u32    block;
    u32    retry_cntr;
    struct block_param_form  block_param;
#ifdef _ERRCHK
    struct tgt_param_form   tgt_param_bk;
    void *pntr_bk;
#endif

    /* here seek operation already start and waiting done */
#ifdef _LONGCMD
    block_param.bytes = LEOtgt_param.sec_bytes;
    if (LEOrw_flags & (LONG_RW+FIXSIZE+SECTOR_READ))
    {
        if (LEOrw_flags & FIXSIZE)
        {
            block_param.bytes = read_long_command->size;
        }
        if (LEOrw_flags & LONG_RW)
        {
            block_param.bytes += 8;
        }
        block_param.blkbytes = block_param.bytes * USR_SECS_PER_BLK;
        if (LEOrw_flags & SECTOR_READ)
            block_param.blkbytes = block_param.bytes;
    }
    else
    {
        block_param.blkbytes = LEOtgt_param.blk_bytes;
    }
#else
    block_param.bytes    = LEOtgt_param.sec_bytes;
    block_param.blkbytes = LEOtgt_param.blk_bytes;
#if 1
    if (LEOrw_flags & SECTOR_READ)
        block_param.blkbytes = block_param.bytes;
#endif
#endif
    block_param.pntr     = (void*)LEOwrite_pointer;
    LEOwrite_pointer    += block_param.blkbytes;
    if (LEOtgt_param.rdwr_blocks == 2)
        LEOwrite_pointer += block_param.blkbytes;
    retry_cntr = 0;
#ifdef _ERRCHK
    tgt_param_bk = LEOtgt_param;
    pntr_bk      = block_param.pntr;
#endif

    for (;;)                         /* loop with seek */
    {
#ifdef _ERRCHK
        LEOtgt_param  = tgt_param_bk;
        block_param.pntr = pntr_bk;
#endif
        do  /* while(0) */
        {
            LEOPiInfo->transferInfo.transferMode        = LEO_BLOCK_MODE;    /* block, track or sector */
            LEOPiInfo->transferInfo.blockNum            = 0;       /* which block transfer(not set if track mode) */
            LEOPiInfo->transferInfo.block[0].C1ErrNum   = 0;  /* initialize parameter */
            LEOPiInfo->transferInfo.block[0].sectorSize = block_param.bytes;
            LEOPiInfo->transferInfo.block[0].dramAddr   = (void*)block_param.pntr;
            LEOPiInfo->transferInfo.block[0].C2Addr     = &LEOC2_Syndrome[0][0][0];

            if (LEOrw_flags & SECTOR_READ)
            {
                LEOtgt_param.rdwr_blocks = 1;
                LEOPiInfo->transferInfo.transferMode = LEO_SECTOR_MODE;    /* block, track or sector */
            }
            else if (LEOtgt_param.rdwr_blocks == 2)
            {
                LEOPiInfo->transferInfo.transferMode      = LEO_TRACK_MODE;    /* block, track or sector */
                LEOPiInfo->transferInfo.block[1]          = LEOPiInfo->transferInfo.block[0];
                LEOPiInfo->transferInfo.block[1].C2Addr   = &LEOC2_Syndrome[1][0][0];
                LEOPiInfo->transferInfo.block[1].dramAddr =
                     (u8*)((u32)LEOPiInfo->transferInfo.block[1].dramAddr + (u32)block_param.blkbytes);
            }

            /***************************/
            /* seek complete interrupt */
            /***************************/
            if (message = leoChk_mecha_int())
            {
                break;
            }
            if (LEOrw_flags & WRITE_MODE)
                leoSet_mseq(W_MODE);        /* set drive sequencer for write */
            else
                leoSet_mseq(R_MODE);        /* set drive sequencer for read  */
            leosetup_BM();
            /***************************/
            /* Do read/write operation */
            /***************************/
            LEOPiInfo->transferInfo.bmCtlShadow  = LEOasic_bm_ctl_shadow;
            LEOPiInfo->transferInfo.seqCtlShadow = LEOasic_seq_ctl_shadow;
            if (LEOrw_flags & WRITE_MODE)
            {
  	        u16 bnum;

                /*******************/
                /* WRITE OPERATION */
                /*******************/
                LEOPiInfo->transferInfo.cmdType = OS_WRITE;  /* disk_read, disk-write or others */
                osWritebackDCache((void*)block_param.pntr, block_param.blkbytes*LEOtgt_param.rdwr_blocks);

                /* Start sequencer and dma */
                leoAd16StartDma(OS_WRITE);
                (void)osRecvMesg(DMA_QUE, NULL, OS_MESG_BLOCK);
                LEOasic_bm_ctl_shadow  = LEOPiInfo->transferInfo.bmCtlShadow;
                LEOasic_seq_ctl_shadow = LEOPiInfo->transferInfo.seqCtlShadow;
		bnum = LEOPiInfo->transferInfo.blockNum;
                message = LEOPiInfo->transferInfo.block[bnum].errStatus;
#ifdef _ERRCHK
                goto track_end;
#else
                if (message == 0)
                {
                    return message;
                }
                goto track_end;
#endif
            }
            /******************/
            /* read operation */
            /******************/
            /* check C2-ECC OVER-RUN ERR for first block (C2 correction is in progress) */
            if (LEOrw_flags & LOCK_C2_PARAM)
            {
                /* wait last block C2 Correction complete message */
                (void)osRecvMesg(C2_CTRL_QUE, NULL, OS_MESG_BLOCK);
                osSendMesg(C2_CTRL_QUE, MES_NONE, OS_MESG_NOBLOCK);
            }
            LEOPiInfo->transferInfo.cmdType = OS_READ;  /* disk_read, disk-write or others */
#if 0
            if (LEOrw_flags & SECTOR_READ)
                osInvalDCache((void*)block_param.pntr, block_param.bytes);
            else
#endif
                osInvalDCache((void*)block_param.pntr, block_param.blkbytes*LEOtgt_param.rdwr_blocks);

            /* Start sequencer and dma for read */
            leoAd16StartDma(OS_READ);
            for (block = 0 ; LEOtgt_param.rdwr_blocks; block++)
            {
                (void)osRecvMesg(DMA_QUE, NULL, OS_MESG_BLOCK);

                LEOasic_bm_ctl_shadow  = LEOPiInfo->transferInfo.bmCtlShadow;
                LEOasic_seq_ctl_shadow = LEOPiInfo->transferInfo.seqCtlShadow;
                message = LEOPiInfo->transferInfo.block[block].errStatus;
                if (message)
                    goto track_end;
                /* CHECK SECTOR READ MODE  */
                if (LEOrw_flags & SECTOR_READ)
                {
#ifdef _ERRCHK
                    message =  LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION;
                    goto track_end;
#else
                    return LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION;
#endif
                }

                /* check if C2 required? */
                if (LEOPiInfo->transferInfo.block[block].C1ErrNum)
                {   /* c1 err exist */
                    if (LEOPiInfo->transferInfo.block[block].C1ErrSector[0] < USR_SECS_PER_BLK)
                    {   /* do c2-ecc */
                        if (LEOtgt_param.rdwr_blocks == 1)  /* last block check */
                        {   /* check C2 data xfer over-run err */
                            leoGet_leo_err_sec(&message);
                            if (message & BIT_OVER_RUN)
                            {
                                message = LEO_SENSE_DATA_PHASE_ERROR; /* XFER OVER RUN */
                                goto track_end;
                            }
                        }

                        {
                            u8 *temp;
                            u32 c2datasize;
                            if (block == 0)
                                temp = &LEOC2_Syndrome[0][0][0];
                            else
                                temp = &LEOC2_Syndrome[1][0][0];
                            c2datasize = (u32)block_param.bytes * (u32)C2_SECS_PER_BLK;
                            block_param.c2buff_e   = temp + c2datasize; /* c2buffer_last_adr+1 */
                            osInvalDCache((void*)temp, c2datasize);
                        }

                        block_param.err_num    = LEOPiInfo->transferInfo.block[block].C1ErrNum;
                        block_param.err_pos[0] = LEOPiInfo->transferInfo.block[block].C1ErrSector[0];
                        block_param.err_pos[1] = LEOPiInfo->transferInfo.block[block].C1ErrSector[1];
                        block_param.err_pos[2] = LEOPiInfo->transferInfo.block[block].C1ErrSector[2];
                        block_param.err_pos[3] = LEOPiInfo->transferInfo.block[block].C1ErrSector[3];

                        /* wait C2 Correction complete message */
                        (void)osRecvMesg(C2_CTRL_QUE, NULL, OS_MESG_BLOCK);
                        LEOrw_flags |= LOCK_C2_PARAM;
                        LEOc2_param = block_param;
                        osSendMesg(CONTROL_QUE, (OSMesg)MES_REQ_C2_CORR, OS_MESG_BLOCK);
                    }
                }
                else
                {   /* c1 err not exist */
                    /* check c2 16byte */
                    if (LEOtgt_param.rdwr_blocks == 1)
                    {   /* check index error(last block only) */
                        if ( (*(u32 *)&LEOC2_Syndrome[block][0][0]) | (*(u32 *)&LEOC2_Syndrome[block][0][ 4]) |
                             (*(u32 *)&LEOC2_Syndrome[block][0][8]) | (*(u32 *)&LEOC2_Syndrome[block][0][12]) )
                        {
                            /* INDEX DETECTION ERROR  顼ѹ */
                            message = LEO_SENSE_UNRECOVERED_READ_ERROR;  /* UNCORECTABLE */
                            goto track_end;
                        }
                    }
                    /* no error */
                }
                block_param.pntr += block_param.blkbytes;
                LEOtgt_param.start_block ^= 1;
                LEOtgt_param.rdwr_blocks--;
#ifdef _ERRCHK
                if ((read_command->header.reserve1 == LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION)
                   && (retry_cntr >= read_command->header.reserve3) )
                {
                    tgt_param_bk = LEOtgt_param;
                    pntr_bk      = block_param.pntr;
                }
            }
            message = LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION;
            goto track_end;
#else
            }
            return LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION;
#endif
        } while (0);
track_end:
        /********************************/
        /* Error Handling               */
        /********************************/
        if (message == LEO_SENSE_WRITE_FAULT) /* ISR detect err case */
            message = leochk_err_reg();
#ifdef _ERRCHK
        if (message == LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION)
            message = read_command->header.reserve1;
        if ( (message == LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION) &&
             (retry_cntr >= read_command->header.reserve3) )
        {
            break;
        }
#else
#ifdef _LONGCMD
        if (message == LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION)
            break;
#endif
#endif
        /********************************/
        /* Retry Operation              */
        /********************************/
do_retry:
        if (leoChk_err_retry(message)) /* Put this check at top of retry ope to set UA */
            break;
        if (LEOrw_flags & NO_RETRY)
            break;
        if (retry_cntr++ == MAX_RETRY)
            break;

        /* do retry */
        if (leoChk_recal(retry_cntr))
        {
            message = leoSend_asic_cmd_w(ASIC_RECAL, 0x00);
            if (message)
                goto do_retry;
        }

        if ( (message == LEO_SENSE_NO_REFERENCE_POSITION_FOUND) ||
	    ( (message == LEO_SENSE_UNRECOVERED_READ_ERROR) && (retry_cntr == MAX_RETRY/2) ))
        {
            message = leoDetect_index_w();       /* Detect index signal */
            if (message)
                goto do_retry;
        }

        if (LEOrw_flags & WRITE_MODE)
            message = leoSeek_write_i();
        else
            message = leoSeek_read_i();
        if (message)
            goto do_retry;

    }  /* end of for(;;) */
#ifdef _ERRCHK
    read_command->header.reserve7 = retry_cntr;
#endif
    return message;
}

/**********************************************************
* Function : leoChk_mecha_int
* ---------------------------------------------------------
* Description : mecha int or error int handler.
* IN  : non
* OUT : non
* ARG : message .. status register value.
* RET : error sense code
**********************************************************/
u32 leoChk_mecha_int(void)
{
    u32 stat;
    u32 index_stat;

    /* seek complete interrupt */
    stat = leoWait_mecha_cmd_done(ASIC_RD_SEEK);

    if (stat == 0)
    {
        leoGet_leo_cur_tk(&index_stat);
        if ((index_stat & BIT_INDEX_LOCK) != BIT_INDEX_LOCK)
            stat = LEO_SENSE_NO_REFERENCE_POSITION_FOUND;  /* Index Lock error */
    }
    return stat;
}
/**********************************************************
* Function : leosetup_BM
* ---------------------------------------------------------
* Description : 
* IN  : non
* OUT : non
* ARG : non
* RET : error sense code
**********************************************************/
void leosetup_BM(void)
{
    /*  BM_CTL register must be set after seek done */
   leoClear_bm_error();

    /* set start sector number */
    if (LEOtgt_param.start_block)
        LEOasic_bm_ctl_shadow = (u32)(ALL_SECS_PER_BLK << 16);
    else
        LEOasic_bm_ctl_shadow = (u32)(0x00000000);  /* start at index */

    if (!(LEOrw_flags & WRITE_MODE))
        LEOasic_bm_ctl_shadow |= BM_MODE;           /* Set BM Read  Mode */

    if (LEOtgt_param.rdwr_blocks == 2)
        LEOasic_bm_ctl_shadow |= BM_XFERBLKS;    /* Xfer 2 Blocks */

    /* Set BM_MODE,BM_XFERBLKS,TSN */
    leoAd16WriteIo(ASIC_BM_CTL, LEOasic_bm_ctl_shadow);
}
/**********************************************************
* Function : leochk_err_reg
* ---------------------------------------------------------
* Description : Use this routine if ISR return Write-Fault err.
* IN  : non
* OUT : non
* ARG : non
* RET : error sense code
**********************************************************/
static u32 leochk_err_reg(void)
{
    u32 sense;
    u32 index_status;

    leoGet_leo_err_sec(&sense);          /* read error register  */
    leoClear_bm_error();                 /* clear error info because it's already used */

    if (sense & BIT_NO_DISK)
        return LEO_SENSE_EJECTED_ILLEGALLY_RESUME;          /* NO DISK */
    else if (sense & BIT_OVER_RUN)
        return LEO_SENSE_DATA_PHASE_ERROR;            /* XFER OVER RUN */
    else if (sense & (BIT_CLOCK_UNLOCK+BIT_MICRO_FAIL))
    {
        if (LEOrw_flags & WRITE_MODE)
            return LEO_SENSE_WRITE_FAULT;             /* WRITE FAULT */
        return LEO_SENSE_UNRECOVERED_READ_ERROR;      /* UNCORRECTABLE ERROR */
    }
    else if (sense & BIT_AM_FAIL)
        return LEO_SENSE_NO_REFERENCE_POSITION_FOUND; /* AM NOT FOUND */
#ifdef _LONGCMD
    else if (sense & BIT_SELF_STOP)
        return LEO_SENSE_NO_ADDITIONAL_SENSE_INFOMATION;
#endif
    else
    {   /* OFFTRACK or SPINDLE_FAIL    */
        leoGet_leo_cur_tk(&index_status);
        if ((index_status & BIT_INDEX_LOCK) == BIT_INDEX_LOCK)
            return LEO_SENSE_TRACK_FOLLOWING_ERROR;
        else
            return LEO_SENSE_NO_REFERENCE_POSITION_FOUND;   /* drive lost index */
    }
}