#include "cmos.h" // inb_cmos
#include "util.h" // dprintf
#include "ata.h" // process_ata_op
+#include "ahci.h" // process_ahci_op
+#include "virtio-blk.h" // process_virtio_blk_op
+#include "blockcmd.h" // cdb_*
-struct drives_s Drives VAR16VISIBLE;
+u8 FloppyCount VAR16VISIBLE;
+u8 CDCount;
+struct drive_s *IDMap[3][CONFIG_MAX_EXTDRIVE] VAR16VISIBLE;
+u8 *bounce_buf_fl VAR16VISIBLE;
+struct drive_s *
+getDrive(u8 exttype, u8 extdriveoffset)
+{
+ if (extdriveoffset >= ARRAY_SIZE(IDMap[0]))
+ return NULL;
+ struct drive_s *drive_gf = GET_GLOBAL(IDMap[exttype][extdriveoffset]);
+ if (!drive_gf)
+ return NULL;
+ return GLOBALFLAT2GLOBAL(drive_gf);
+}
+
+int getDriveId(u8 exttype, struct drive_s *drive_g)
+{
+ int i;
+ for (i = 0; i < ARRAY_SIZE(IDMap[0]); i++)
+ if (getDrive(exttype, i) == drive_g)
+ return i;
+ return -1;
+}
+
+int bounce_buf_init(void)
+{
+ if (bounce_buf_fl)
+ return 0;
+
+ u8 *buf = malloc_low(CDROM_SECTOR_SIZE);
+ if (!buf) {
+ warn_noalloc();
+ return -1;
+ }
+ bounce_buf_fl = buf;
+ return 0;
+}
/****************************************************************
* Disk geometry translation
****************************************************************/
static u8
-get_translation(int driveid)
+get_translation(struct drive_s *drive_g)
{
- u8 type = GET_GLOBAL(Drives.drives[driveid].type);
+ u8 type = GET_GLOBAL(drive_g->type);
if (! CONFIG_COREBOOT && type == DTYPE_ATA) {
// Emulators pass in the translation info via nvram.
- u8 ataid = GET_GLOBAL(Drives.drives[driveid].cntl_id);
+ u8 ataid = GET_GLOBAL(drive_g->cntl_id);
u8 channel = ataid / 2;
u8 translation = inb_cmos(CMOS_BIOS_DISKTRANSFLAG + channel/2);
translation >>= 2 * (ataid % 4);
return translation;
}
- // On COREBOOT, use a heuristic to determine translation type.
- u16 heads = GET_GLOBAL(Drives.drives[driveid].pchs.heads);
- u16 cylinders = GET_GLOBAL(Drives.drives[driveid].pchs.cylinders);
- u16 spt = GET_GLOBAL(Drives.drives[driveid].pchs.spt);
+ // Otherwise use a heuristic to determine translation type.
+ u16 heads = GET_GLOBAL(drive_g->pchs.heads);
+ u16 cylinders = GET_GLOBAL(drive_g->pchs.cylinders);
+ u16 spt = GET_GLOBAL(drive_g->pchs.spt);
+ u64 sectors = GET_GLOBAL(drive_g->sectors);
+ u64 psectors = (u64)heads * cylinders * spt;
+ if (!heads || !cylinders || !spt || psectors > sectors)
+ // pchs doesn't look valid - use LBA.
+ return TRANSLATION_LBA;
if (cylinders <= 1024 && heads <= 16 && spt <= 63)
return TRANSLATION_NONE;
return TRANSLATION_LBA;
}
-void
-setup_translation(int driveid)
+static void
+setup_translation(struct drive_s *drive_g)
{
- u8 translation = get_translation(driveid);
- SET_GLOBAL(Drives.drives[driveid].translation, translation);
-
- u8 ataid = GET_GLOBAL(Drives.drives[driveid].cntl_id);
- u8 channel = ataid / 2;
- u8 slave = ataid % 2;
- u16 heads = GET_GLOBAL(Drives.drives[driveid].pchs.heads);
- u16 cylinders = GET_GLOBAL(Drives.drives[driveid].pchs.cylinders);
- u16 spt = GET_GLOBAL(Drives.drives[driveid].pchs.spt);
- u64 sectors = GET_GLOBAL(Drives.drives[driveid].sectors);
-
- dprintf(1, "ata%d-%d: PCHS=%u/%d/%d translation="
- , channel, slave, cylinders, heads, spt);
+ u8 translation = get_translation(drive_g);
+ SET_GLOBAL(drive_g->translation, translation);
+
+ u16 heads = GET_GLOBAL(drive_g->pchs.heads);
+ u16 cylinders = GET_GLOBAL(drive_g->pchs.cylinders);
+ u16 spt = GET_GLOBAL(drive_g->pchs.spt);
+ u64 sectors = GET_GLOBAL(drive_g->sectors);
+ const char *desc = NULL;
+
switch (translation) {
+ default:
case TRANSLATION_NONE:
- dprintf(1, "none");
+ desc = "none";
break;
case TRANSLATION_LBA:
- dprintf(1, "lba");
+ desc = "lba";
spt = 63;
if (sectors > 63*255*1024) {
heads = 255;
cylinders = sect / heads;
break;
case TRANSLATION_RECHS:
- dprintf(1, "r-echs");
+ desc = "r-echs";
// Take care not to overflow
if (heads==16) {
if (cylinders>61439)
// then go through the large bitshift process
case TRANSLATION_LARGE:
if (translation == TRANSLATION_LARGE)
- dprintf(1, "large");
+ desc = "large";
while (cylinders > 1024) {
cylinders >>= 1;
heads <<= 1;
// clip to 1024 cylinders in lchs
if (cylinders > 1024)
cylinders = 1024;
- dprintf(1, " LCHS=%d/%d/%d\n", cylinders, heads, spt);
-
- SET_GLOBAL(Drives.drives[driveid].lchs.heads, heads);
- SET_GLOBAL(Drives.drives[driveid].lchs.cylinders, cylinders);
- SET_GLOBAL(Drives.drives[driveid].lchs.spt, spt);
+ dprintf(1, "drive %p: PCHS=%u/%d/%d translation=%s LCHS=%d/%d/%d s=%d\n"
+ , drive_g
+ , drive_g->pchs.cylinders, drive_g->pchs.heads, drive_g->pchs.spt
+ , desc
+ , cylinders, heads, spt
+ , (u32)sectors);
+
+ SET_GLOBAL(drive_g->lchs.heads, heads);
+ SET_GLOBAL(drive_g->lchs.cylinders, cylinders);
+ SET_GLOBAL(drive_g->lchs.spt, spt);
}
// Fill in Fixed Disk Parameter Table (located in ebda).
static void
-fill_fdpt(int driveid, int hdid)
+fill_fdpt(struct drive_s *drive_g, int hdid)
{
if (hdid > 1)
return;
- u16 nlc = GET_GLOBAL(Drives.drives[driveid].lchs.cylinders);
- u16 nlh = GET_GLOBAL(Drives.drives[driveid].lchs.heads);
- u16 nlspt = GET_GLOBAL(Drives.drives[driveid].lchs.spt);
+ u16 nlc = GET_GLOBAL(drive_g->lchs.cylinders);
+ u16 nlh = GET_GLOBAL(drive_g->lchs.heads);
+ u16 nlspt = GET_GLOBAL(drive_g->lchs.spt);
- u16 npc = GET_GLOBAL(Drives.drives[driveid].pchs.cylinders);
- u16 nph = GET_GLOBAL(Drives.drives[driveid].pchs.heads);
- u16 npspt = GET_GLOBAL(Drives.drives[driveid].pchs.spt);
+ u16 npc = GET_GLOBAL(drive_g->pchs.cylinders);
+ u16 nph = GET_GLOBAL(drive_g->pchs.heads);
+ u16 npspt = GET_GLOBAL(drive_g->pchs.spt);
struct fdpt_s *fdpt = &get_ebda_ptr()->fdpt[hdid];
fdpt->precompensation = 0xffff;
fdpt->heads = nlh;
fdpt->sectors = nlspt;
- if (nlc == npc && nlh == nph && nlspt == npspt)
- // no logical CHS mapping used, just physical CHS
- // use Standard Fixed Disk Parameter Table (FDPT)
- return;
+ if (nlc != npc || nlh != nph || nlspt != npspt) {
+ // Logical mapping present - use extended structure.
- // complies with Phoenix style Translated Fixed Disk Parameter
- // Table (FDPT)
- fdpt->phys_cylinders = npc;
- fdpt->phys_heads = nph;
- fdpt->phys_sectors = npspt;
- fdpt->a0h_signature = 0xa0;
+ // complies with Phoenix style Translated Fixed Disk Parameter
+ // Table (FDPT)
+ fdpt->phys_cylinders = npc;
+ fdpt->phys_heads = nph;
+ fdpt->phys_sectors = npspt;
+ fdpt->a0h_signature = 0xa0;
- // Checksum structure.
- fdpt->checksum -= checksum(fdpt, sizeof(*fdpt));
+ // Checksum structure.
+ fdpt->checksum -= checksum(fdpt, sizeof(*fdpt));
+ }
if (hdid == 0)
SET_IVT(0x41, SEGOFF(get_ebda_seg(), offsetof(
struct extended_bios_data_area_s, fdpt[1])));
}
-// Map a drive (that was registered via add_bcv_hd)
-void
-map_hd_drive(int driveid)
+// Find spot to add a drive
+static void
+add_drive(struct drive_s **idmap, u8 *count, struct drive_s *drive_g)
{
- // fill hdidmap
- u8 hdcount = GET_BDA(hdcount);
- if (hdcount >= ARRAY_SIZE(Drives.idmap[0]))
+ if (*count >= ARRAY_SIZE(IDMap[0])) {
+ warn_noalloc();
return;
- dprintf(3, "Mapping hd driveid %d to %d\n", driveid, hdcount);
- SET_GLOBAL(Drives.idmap[EXTTYPE_HD][hdcount], driveid);
- SET_BDA(hdcount, hdcount + 1);
+ }
+ idmap[*count] = drive_g;
+ *count = *count + 1;
+}
+
+// Map a hard drive
+void
+map_hd_drive(struct drive_s *drive_g)
+{
+ ASSERT32FLAT();
+ struct bios_data_area_s *bda = MAKE_FLATPTR(SEG_BDA, 0);
+ int hdid = bda->hdcount;
+ dprintf(3, "Mapping hd drive %p to %d\n", drive_g, hdid);
+ add_drive(IDMap[EXTTYPE_HD], &bda->hdcount, drive_g);
+
+ // Setup disk geometry translation.
+ setup_translation(drive_g);
// Fill "fdpt" structure.
- fill_fdpt(driveid, hdcount);
+ fill_fdpt(drive_g, hdid);
}
// Map a cd
void
-map_cd_drive(int driveid)
+map_cd_drive(struct drive_s *drive_g)
{
- // fill cdidmap
- u8 cdcount = GET_GLOBAL(Drives.cdcount);
- if (cdcount >= ARRAY_SIZE(Drives.idmap[0]))
- return;
- dprintf(3, "Mapping cd driveid %d to %d\n", driveid, cdcount);
- SET_GLOBAL(Drives.idmap[EXTTYPE_CD][cdcount], driveid);
- SET_GLOBAL(Drives.cdcount, cdcount+1);
+ dprintf(3, "Mapping cd drive %p\n", drive_g);
+ add_drive(IDMap[EXTTYPE_CD], &CDCount, drive_g);
}
// Map a floppy
void
-map_floppy_drive(int driveid)
+map_floppy_drive(struct drive_s *drive_g)
{
- // fill idmap
- u8 floppycount = GET_GLOBAL(Drives.floppycount);
- if (floppycount >= ARRAY_SIZE(Drives.idmap[0]))
- return;
- dprintf(3, "Mapping floppy driveid %d to %d\n", driveid, floppycount);
- SET_GLOBAL(Drives.idmap[EXTTYPE_FLOPPY][floppycount], driveid);
- floppycount++;
- SET_GLOBAL(Drives.floppycount, floppycount);
+ dprintf(3, "Mapping floppy drive %p\n", drive_g);
+ add_drive(IDMap[EXTTYPE_FLOPPY], &FloppyCount, drive_g);
// Update equipment word bits for floppy
- if (floppycount == 1) {
+ if (FloppyCount == 1) {
// 1 drive, ready for boot
SETBITS_BDA(equipment_list_flags, 0x01);
SET_BDA(floppy_harddisk_info, 0x07);
- } else {
+ } else if (FloppyCount >= 2) {
// 2 drives, ready for boot
SETBITS_BDA(equipment_list_flags, 0x41);
SET_BDA(floppy_harddisk_info, 0x77);
}
}
-// Show a one line description (without trailing newline) of a drive.
-void
-describe_drive(int driveid)
-{
- ASSERT32();
- u8 type = GET_GLOBAL(Drives.drives[driveid].type);
- switch (type) {
- case DTYPE_FLOPPY:
- describe_floppy(driveid);
- break;
- case DTYPE_ATA:
- describe_ata(driveid);
- break;
- case DTYPE_ATAPI:
- describe_atapi(driveid);
- break;
- case DTYPE_RAMDISK:
- describe_ramdisk(driveid);
- break;
- default:
- printf("Unknown");
- break;
- }
-}
-
/****************************************************************
* 16bit calling interface
****************************************************************/
+int
+process_scsi_op(struct disk_op_s *op)
+{
+ if (!CONFIG_USB_MSC)
+ return 0;
+ switch (op->command) {
+ case CMD_READ:
+ return cdb_read(op);
+ case CMD_WRITE:
+ return cdb_write(op);
+ case CMD_FORMAT:
+ case CMD_RESET:
+ case CMD_ISREADY:
+ case CMD_VERIFY:
+ case CMD_SEEK:
+ return DISK_RET_SUCCESS;
+ default:
+ op->count = 0;
+ return DISK_RET_EPARAM;
+ }
+}
+
// Execute a disk_op request.
int
process_op(struct disk_op_s *op)
{
- u8 type = GET_GLOBAL(Drives.drives[op->driveid].type);
+ ASSERT16();
+ u8 type = GET_GLOBAL(op->drive_g->type);
switch (type) {
case DTYPE_FLOPPY:
return process_floppy_op(op);
return process_ramdisk_op(op);
case DTYPE_CDEMU:
return process_cdemu_op(op);
+ case DTYPE_VIRTIO_BLK:
+ return process_virtio_blk_op(op);
+ case DTYPE_AHCI:
+ return process_ahci_op(op);
+ case DTYPE_USB:
+ return process_scsi_op(op);
default:
op->count = 0;
return DISK_RET_EPARAM;
, op_seg, op_far
, sizeof(dop));
- dprintf(DEBUG_HDL_13, "disk_op d=%d lba=%d buf=%p count=%d cmd=%d\n"
- , dop.driveid, (u32)dop.lba, dop.buf_fl
+ dprintf(DEBUG_HDL_13, "disk_op d=%p lba=%d buf=%p count=%d cmd=%d\n"
+ , dop.drive_g, (u32)dop.lba, dop.buf_fl
, dop.count, dop.command);
- irq_enable();
-
int status = process_op(&dop);
- irq_disable();
-
// Update count with total sectors transferred.
SET_FARVAR(op_seg, op_far->count, dop.count);
int
send_disk_op(struct disk_op_s *op)
{
+ ASSERT16();
if (! CONFIG_DRIVES)
return -1;
- ASSERT16();
- return stack_hop((u32)op, GET_SEG(SS), 0, __send_disk_op);
-}
-
-
-/****************************************************************
- * Setup
- ****************************************************************/
-
-void
-drive_setup()
-{
- memset(&Drives, 0, sizeof(Drives));
- memset(&Drives.idmap, 0xff, sizeof(Drives.idmap));
+ return stack_hop((u32)op, GET_SEG(SS), __send_disk_op);
}