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templeos-info/public/Wb/Kernel/BlkDev/DskDrv.HC

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2024-03-16 10:26:19 +00:00
Bool DrvLock(CDrv *dv)
{//Make this task have exclusive access to drv & BlkDev.
DrvChk(dv);
BlkDevLock(dv->bd);
if (!Bt(&dv->locked_flags,DVlf_LOCKED) || dv->owning_task!=Fs) {
while (LBts(&dv->locked_flags,DVlf_LOCKED))
Yield;
dv->owning_task=Fs;
return TRUE;
} else
return FALSE;
}
Bool DrvUnlock(CDrv *dv,Bool rst=FALSE)
{//Release exclusive lock on access to drv & BlkDev.
DrvChk(dv);
if (Bt(&dv->locked_flags,DVlf_LOCKED) && dv->owning_task==Fs) {
BlkDevUnlock(dv->bd,rst);
dv->owning_task=NULL;
LBtr(&dv->locked_flags,DVlf_LOCKED);
Yield; //Prevent deadlock
return TRUE;
} else
return FALSE;
}
U0 DrvsRelease()
{//When task dies, release all owned drvs.
I64 i;
CDrv *dv;
for (i=0;i<DRVS_NUM;i++) {
dv=&blkdev.drvs[i];
if (dv->owning_task==Fs && dv->dv_signature==DRV_SIGNATURE_VAL)
DrvUnlock(dv,TRUE);
}
}
CDrv *DrvMakeFreeSlot(U8 drv_let)
{//Make a slot free for a new drv, like during $LK,"Mount",A="MN:Mount"$().
//!!! drv_let is not a $LK,"remapped",A="MN:DrvMap"$ drv.
I64 i=Let2Let(drv_let)-'A';
CDrv *res;
if (!(0<=i<DRVS_NUM))
throw('Drv');
res=&blkdev.drvs[i];
MemSet(res,0,sizeof(CDrv));
res->drv_let='A'+i;
return res;
}
U8 DrvNextFreeLet(U8 first_drv_let='C')
{//Locate free slot for new drv, like during $LK,"Mount",A="MN:Mount"$().
//!!! first_drv_let is not a $LK,"remapped",A="MN:DrvMap"$ drv.
I64 i=Let2Let(first_drv_let)-'A',type=Let2BlkDevType(first_drv_let);
if (!(0<=i<DRVS_NUM))
throw('Drv');
do
if (blkdev.drvs[i].dv_signature!=DRV_SIGNATURE_VAL) {
if (Let2BlkDevType(i+'A')!=type)
throw('Drv');
else
return i+'A';
}
while (++i<DRVS_NUM);
throw('Drv');
return 0; //Never gets here.
}
U0 DrvDel(CDrv *dv)
{//Delete drv
if (dv->fs_type==FSt_REDSEA && dv->next_free)
RedSeaFreeFreeLst(dv);
Free(dv->cur_fat_blk);
Free(dv->fis);
MemSet(dv,0,sizeof(CDrv));
}
U0 DrvBlkDevDel(CBlkDev *bd)
{//Delete drv's of BlkDev
I64 i;
CDrv *dv;
for (i=0;i<DRVS_NUM;i++) {
dv=&blkdev.drvs[i];
if (dv->bd==bd)
DrvDel(dv);
}
}
U0 DrvFATBlkAlloc(CDrv *dv)
{
DrvChk(dv);
Free(dv->cur_fat_blk);
dv->cur_fat_blk=AMAlloc(BLK_SIZE);
dv->cur_fat_blk_num=0;
dv->fat_blk_dirty=0;
BlkRead(dv,dv->cur_fat_blk,dv->fat1,1);
}
U0 DrvFATBlkClean(CDrv *dv,I64 fat_sel=3)
{
if ((dv->fs_type==FSt_FAT32 || dv->fs_type==FSt_REDSEA) &&
Bt(&dv->fat_blk_dirty,0)) {
if (dv->fat1==dv->fat2) {
BlkWrite(dv,dv->cur_fat_blk,dv->fat1+dv->cur_fat_blk_num,1);
LBtr(&dv->fat_blk_dirty,0);
} else {
if (fat_sel==3 || !fat_sel)
BlkWrite(dv,dv->cur_fat_blk,dv->fat1+dv->cur_fat_blk_num,1);
if (fat_sel==3 || fat_sel==1) {
BlkWrite(dv,dv->cur_fat_blk,dv->fat2+dv->cur_fat_blk_num,1);
LBtr(&dv->fat_blk_dirty,0);
}
}
}
}
U0 DrvFATBlkSet(CDrv *dv,I64 c,I64 fat_sel=3)
{
I64 fat_blk_num;
if (c==INVALID_CLUS)
throw('Drv');
switch (dv->fs_type) {
case FSt_FAT32:
fat_blk_num=c>>(BLK_SIZE_BITS-2);
break;
case FSt_REDSEA:
fat_blk_num=(c-dv->data_area)>>(BLK_SIZE_BITS+3);
break;
default:
throw('Drv');
}
if (fat_blk_num!=dv->cur_fat_blk_num) {
DrvFATBlkClean(dv,fat_sel);
dv->cur_fat_blk_num=fat_blk_num;
if (fat_sel==3 || !fat_sel)
BlkRead(dv,dv->cur_fat_blk,dv->fat1+dv->cur_fat_blk_num,1);
else
BlkRead(dv,dv->cur_fat_blk,dv->fat2+dv->cur_fat_blk_num,1);
}
}
CDrv *DrvChk(CDrv *dv,Bool except=TRUE)
{//Check for valid drv. Throw exception.
if (!dv || dv->dv_signature!=DRV_SIGNATURE_VAL) {
if (except)
throw('Drv');
else
return NULL;
} else
return dv;
}
U8 Drv2Let(CDrv *dv=NULL)
{//Drv ptr to Drv letter.
if (!dv)
dv=Fs->cur_dv;
DrvChk(dv);
return dv->drv_let;
}
U8 Let2Let(U8 drv_let=0)
{//Drv letter to Drv letter.
if (!drv_let)
drv_let=Drv2Let(Fs->cur_dv);
else if (drv_let==':')
drv_let=blkdev.boot_drv_let;
else if (drv_let=='~')
drv_let=*blkdev.home_dir;
return ToUpper(drv_let);
}
I64 Let2BlkDevType(U8 drv_let)
{//Drv letter to BlkDev Type. drv_let=0 not allowed. See $LK,"BDT_NULL",A="MN:BDT_NULL"$.
drv_let=Let2Let(drv_let);
if ('A'<=drv_let<='B')
return BDT_RAM;
if ('C'<=drv_let<='L')
return BDT_ATA;
if ('M'<=drv_let<='P')
return BDT_ISO_FILE_READ;
if ('Q'<=drv_let<='S')
return BDT_ISO_FILE_WRITE;
if ('T'<=drv_let<='Z')
return BDT_ATAPI;
return BDT_NULL;
}
CDrv *Let2Drv(U8 drv_let=0,Bool except=TRUE)
{//Drv letter to Drv ptr.
CDrv *dv;
if (!drv_let)
dv=Fs->cur_dv;
else {
drv_let=Let2Let(drv_let);
if (!('A'<=drv_let<='Z')) {
if (except)
throw('Drv');
else
return NULL;
}
dv=blkdev.let_to_drv[drv_let-'A'];
}
return DrvChk(dv,except);
}
CBlkDev *DrvIsWritable(U8 drv_let=0,Bool except=FALSE)
{//Is drive writable?
CBlkDev *bd;
if (!(bd=Let2BlkDev(drv_let,except)) || bd->flags & BDF_READ_ONLY) {
if (except)
throw('Drv');
else
return NULL;
} else
return bd;
}
U0 DskCacheInvalidate(CDrv *dv)
{//Needed for removable media. Called by $LK,"DskChg",A="MN:DskChg"$().
Bool unlock;
CBlkDev *bd=dv->bd;
DrvChk(dv);
try {
unlock=DrvLock(dv);
BlkDevInit(bd);
if (bd->flags & BDF_READ_CACHE)
DskCacheInvalidate2(dv);
if (bd->type==BDT_ATAPI && !(bd->flags & BDF_READ_ONLY_OVERRIDE))
ISOInit(dv,(32767/bd->blk_size+1)*bd->blk_size>>BLK_SIZE_BITS);
if (unlock)
DrvUnlock(dv);
} catch
if (unlock)
DrvUnlock(dv);
}
U0 DskChg(U8 drv_let=0)
{//Change disk. (Needed for removable media.)
CDrv *dv=Let2Drv(drv_let);
CBlkDev *bd=dv->bd;
if (!(bd->flags&BDF_INITIALIZED))
BlkDevInit(bd);
else if (bd->flags&BDF_REMOVABLE) {
if (bd->type==BDT_ATAPI)
ATAInit(bd); //TODO: This is a kludge for QEMU?
DskCacheInvalidate(dv);
}
Drv(drv_let);
RedSeaFreeFreeLst(dv);
}
Bool DrvMap(U8 drv_let,CDrv *dv)
{//Make drive letter map to another.
drv_let=Let2Let(drv_let);
if ('A'<=drv_let<='Z') {
blkdev.let_to_drv[drv_let-'A']=dv;
dv->drv_let=drv_let;
return TRUE;
} else
return FALSE;
}
Bool Drv(U8 drv_let)
{//Change drive. You can set drive with $LK,"Cd",A="MN:Cd"$() as well.
CDrv *dv=Let2Drv(drv_let);
CBlkDev *bd;
bd=BlkDevChk(dv->bd);
if (dv!=Fs->cur_dv) {
if (bd->flags & BDF_REMOVABLE && !(bd->flags & BDF_INITIALIZED))
DskChg(Drv2Let(dv));
if (bd->type==BDT_RAM ||
bd->type==BDT_ISO_FILE_READ || bd->type==BDT_ISO_FILE_WRITE)
BlkDevInit(bd);
}
Fs->cur_dv=dv;
Free(Fs->cur_dir);
Fs->cur_dir=StrNew("/");
switch (dv->fs_type) {
case FSt_REDSEA:
case FSt_FAT32:
return TRUE;
default:
PrintErr("File System Not Supported\n");
return FALSE;
}
}
U8 *DrvSerialNum(U8 drv_let=0)
{//20 bytes max.
CBlkDev *bd=Let2BlkDev(drv_let);
U16 *st,*res=NULL;
I64 i;
if (bd->dev_id_record) {
st=CAlloc(20+1);
for (i=0;i<10;i++)
st[i]=EndianU16(bd->dev_id_record[10+i]);
res=MStrUtil(st,SUF_REM_LEADING|SUF_REM_TRAILING);
Free(st);
}
return res;
}
U8 *DrvModelNum(U8 drv_let=0)
{//40 bytes max.
CBlkDev *bd=Let2BlkDev(drv_let);
U16 *st,*res=NULL;
I64 i;
if (bd->dev_id_record) {
st=CAlloc(40+1);
for (i=0;i<20;i++)
st[i]=EndianU16(bd->dev_id_record[27+i]);
res=MStrUtil(st,SUF_REM_LEADING|SUF_REM_TRAILING);
Free(st);
}
return res;
}
U8 blkdev_text_attr[BDT_TYPES_NUM]={BLACK,LTCYAN,WHITE,LTGREEN,LTRED,LTBLUE};
U8 drv_text_attr[3]={BLACK,BLUE,RED};
U8 DrvTextAttrGet(U8 drv_let=0)
{//Get color of drive.
drv_let=Let2Let(drv_let);
if ('A'<=drv_let<='Z')
return blkdev_text_attr[Let2BlkDevType(drv_let)]<<4|
drv_text_attr[drv_let%sizeof(drv_text_attr)];
else
return BLACK<<4|WHITE;
}
U0 DrvRep()
{//Drive report.
CDrv *dv;
CBlkDev *bd;
I64 ch,i,drv_let,attr;
U8 *st;
"\nDefined Drives:\n";
for (i=0,dv=blkdev.drvs;i<DRVS_NUM;i++,dv++) {
if (dv->dv_signature==DRV_SIGNATURE_VAL) {
bd=dv->bd;
drv_let=Drv2Let(dv);
if (Bt(&dv->fs_type,FStf_DISABLE))
ch='-';
else if (drv_let==blkdev.boot_drv_let)
ch=':';
else
ch='+';
attr=DrvTextAttrGet(drv_let);
"$$FG,%d$$$$BG,%d$$%C %-8Z %-10Z %04X %04X %02X\n",
attr&15,attr>>4,drv_let,dv->fs_type&FSG_TYPE_MASK,"ST_DRV_TYPES",
bd->type,"ST_BLKDEV_TYPES",bd->base0,bd->base1,bd->unit;
if (st=DrvModelNum(drv_let)) {
"Model#:%s\n",st;
Free(st);
}
if (st=DrvSerialNum(drv_let)) {
"Serial#:%s\n",st;
Free(st);
}
if (bd->type==BDT_ISO_FILE_READ || bd->type==BDT_ISO_FILE_WRITE)
"File=\"%s\"\n",bd->file_dsk_name;
"%016X-%016X\n$$FG$$$$BG$$",dv->drv_offset,dv->drv_offset+dv->size-1;
}
}
"Home Dir:\"%s\"\n",blkdev.home_dir;
}
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