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|
/*
* Copyright 1993 by Holger Veit (data part)
* Copyright 1993 by Brian Moore (audio part)
* Changes Copyright 1993 by Gary Clark II
* Changes Copyright (C) 1994-1995 by Andrey A. Chernov, Moscow, Russia
*
* Rewrote probe routine to work on newer Mitsumi drives.
* Additional changes (C) 1994 by Jordan K. Hubbard
*
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. 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.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This software was developed by Holger Veit and Brian Moore
* for use with "386BSD" and similar operating systems.
* "Similar operating systems" includes mainly non-profit oriented
* systems for research and education, including but not restricted to
* "NetBSD", "FreeBSD", "Mach" (by CMU).
* 4. Neither the name of the developer(s) nor the name "386BSD"
* may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE DEVELOPER(S) ``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 DEVELOPER(S) 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.
*
* $Id: mcd.c,v 1.101 1998/10/22 05:58:39 bde Exp $
*/
static const char COPYRIGHT[] = "mcd-driver (C)1993 by H.Veit & B.Moore";
#include "mcd.h"
#if NMCD > 0
#include "opt_devfs.h"
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/conf.h>
#include <sys/fcntl.h>
#include <sys/buf.h>
#include <sys/cdio.h>
#include <sys/dkbad.h>
#include <sys/disklabel.h>
#include <sys/kernel.h>
#ifdef DEVFS
#include <sys/devfsext.h>
#endif /*DEVFS*/
#include <machine/clock.h>
#include <i386/isa/isa_device.h>
#include <i386/isa/mcdreg.h>
#define MCD_TRACE(format, args...) \
{ \
if (mcd_data[unit].debug) { \
printf("mcd%d: status=0x%02x: ", \
unit, mcd_data[unit].status); \
printf(format, ## args); \
} \
}
#define mcd_part(dev) ((minor(dev)) & 7)
#define mcd_unit(dev) (((minor(dev)) & 0x38) >> 3)
#define mcd_phys(dev) (((minor(dev)) & 0x40) >> 6)
#define RAW_PART 2
/* flags */
#define MCDVALID 0x0001 /* parameters loaded */
#define MCDINIT 0x0002 /* device is init'd */
#define MCDNEWMODEL 0x0004 /* device is new model */
#define MCDLABEL 0x0008 /* label is read */
#define MCDPROBING 0x0010 /* probing */
#define MCDREADRAW 0x0020 /* read raw mode (2352 bytes) */
#define MCDVOLINFO 0x0040 /* already read volinfo */
#define MCDTOC 0x0080 /* already read toc */
#define MCDMBXBSY 0x0100 /* local mbx is busy */
/* status */
#define MCDAUDIOBSY MCD_ST_AUDIOBSY /* playing audio */
#define MCDDSKCHNG MCD_ST_DSKCHNG /* sensed change of disk */
#define MCDDSKIN MCD_ST_DSKIN /* sensed disk in drive */
#define MCDDOOROPEN MCD_ST_DOOROPEN /* sensed door open */
/* These are apparently the different states a mitsumi can get up to */
#define MCDCDABSENT 0x0030
#define MCDCDPRESENT 0x0020
#define MCDSCLOSED 0x0080
#define MCDSOPEN 0x00a0
#define MCD_MD_UNKNOWN (-1)
/* toc */
#define MCD_MAXTOCS 104 /* from the Linux driver */
#define MCD_LASTPLUS1 170 /* special toc entry */
#define MCD_TYPE_UNKNOWN 0
#define MCD_TYPE_LU002S 1
#define MCD_TYPE_LU005S 2
#define MCD_TYPE_LU006S 3
#define MCD_TYPE_FX001 4
#define MCD_TYPE_FX001D 5
struct mcd_mbx {
short unit;
short port;
short retry;
short nblk;
int sz;
u_long skip;
struct buf *bp;
int p_offset;
short count;
short mode;
};
static struct mcd_data {
short type;
char *name;
short config;
short flags;
u_char read_command;
short status;
int blksize;
u_long disksize;
int iobase;
struct disklabel dlabel;
int partflags[MAXPARTITIONS];
int openflags;
struct mcd_volinfo volinfo;
struct mcd_qchninfo toc[MCD_MAXTOCS];
short audio_status;
short curr_mode;
struct mcd_read2 lastpb;
short debug;
struct buf_queue_head head; /* head of buf queue */
struct mcd_mbx mbx;
#ifdef DEVFS
void *ra_devfs_token; /* store the devfs handle here */
void *rc_devfs_token; /* store the devfs handle here */
void *a_devfs_token; /* store the devfs handle here */
void *c_devfs_token; /* store the devfs handle here */
#endif
} mcd_data[NMCD];
/* reader state machine */
#define MCD_S_BEGIN 0
#define MCD_S_BEGIN1 1
#define MCD_S_WAITSTAT 2
#define MCD_S_WAITMODE 3
#define MCD_S_WAITREAD 4
/* prototypes */
static void mcd_start(int unit);
static int mcd_getdisklabel(int unit);
#ifdef NOTYET
static void mcd_configure(struct mcd_data *cd);
#endif
static int mcd_get(int unit, char *buf, int nmax);
static int mcd_setflags(int unit,struct mcd_data *cd);
static int mcd_getstat(int unit,int sflg);
static int mcd_send(int unit, int cmd,int nretrys);
static void hsg2msf(int hsg, bcd_t *msf);
static int msf2hsg(bcd_t *msf, int relative);
static int mcd_volinfo(int unit);
static ointhand2_t mcdintr;
static int mcd_waitrdy(int port,int dly);
static timeout_t mcd_timeout;
static void mcd_doread(int state, struct mcd_mbx *mbxin);
static void mcd_soft_reset(int unit);
static int mcd_hard_reset(int unit);
static int mcd_setmode(int unit, int mode);
static int mcd_getqchan(int unit, struct mcd_qchninfo *q);
static int mcd_subchan(int unit, struct ioc_read_subchannel *sc);
static int mcd_toc_header(int unit, struct ioc_toc_header *th);
static int mcd_read_toc(int unit);
static int mcd_toc_entrys(int unit, struct ioc_read_toc_entry *te);
#if 0
static int mcd_toc_entry(int unit, struct ioc_read_toc_single_entry *te);
#endif
static int mcd_stop(int unit);
static int mcd_eject(int unit);
static int mcd_inject(int unit);
static int mcd_playtracks(int unit, struct ioc_play_track *pt);
static int mcd_play(int unit, struct mcd_read2 *pb);
static int mcd_playmsf(int unit, struct ioc_play_msf *pt);
static int mcd_playblocks(int unit, struct ioc_play_blocks *);
static int mcd_pause(int unit);
static int mcd_resume(int unit);
static int mcd_lock_door(int unit, int lock);
static int mcd_close_tray(int unit);
static int mcd_probe(struct isa_device *dev);
static int mcd_attach(struct isa_device *dev);
struct isa_driver mcddriver = { mcd_probe, mcd_attach, "mcd" };
static d_open_t mcdopen;
static d_read_t mcdread;
static d_close_t mcdclose;
static d_ioctl_t mcdioctl;
static d_psize_t mcdsize;
static d_strategy_t mcdstrategy;
#define CDEV_MAJOR 29
#define BDEV_MAJOR 7
static struct cdevsw mcd_cdevsw = {
mcdopen, mcdclose, mcdread, nowrite,
mcdioctl, nostop, nullreset, nodevtotty,
seltrue, nommap, mcdstrategy, "mcd",
NULL, -1, nodump, nopsize,
D_DISK, 0, NODEV };
#define mcd_put(port,byte) outb(port,byte)
#define MCD_RETRYS 5
#define MCD_RDRETRYS 8
#define CLOSE_TRAY_SECS 8
#define DISK_SENSE_SECS 3
#define WAIT_FRAC 4
/* several delays */
#define RDELAY_WAITSTAT 300
#define RDELAY_WAITMODE 300
#define RDELAY_WAITREAD 800
#define MIN_DELAY 15
#define DELAY_GETREPLY 5000000
int mcd_attach(struct isa_device *dev)
{
int unit = dev->id_unit;
struct mcd_data *cd = mcd_data + unit;
dev->id_ointr = mcdintr;
cd->iobase = dev->id_iobase;
cd->flags |= MCDINIT;
mcd_soft_reset(unit);
bufq_init(&cd->head);
#ifdef NOTYET
/* wire controller for interrupts and dma */
mcd_configure(cd);
#endif
/* name filled in probe */
#ifdef DEVFS
cd->ra_devfs_token =
devfs_add_devswf(&mcd_cdevsw, dkmakeminor(unit, 0, 0),
DV_CHR, UID_ROOT, GID_OPERATOR, 0640,
"rmcd%da", unit);
cd->rc_devfs_token =
devfs_add_devswf(&mcd_cdevsw, dkmakeminor(unit, 0, RAW_PART),
DV_CHR, UID_ROOT, GID_OPERATOR, 0640,
"rmcd%dc", unit);
cd->a_devfs_token =
devfs_add_devswf(&mcd_cdevsw, dkmakeminor(unit, 0, 0),
DV_BLK, UID_ROOT, GID_OPERATOR, 0640,
"mcd%da", unit);
cd->c_devfs_token =
devfs_add_devswf(&mcd_cdevsw, dkmakeminor(unit, 0, RAW_PART),
DV_BLK, UID_ROOT, GID_OPERATOR, 0640,
"mcd%dc", unit);
#endif
return 1;
}
int mcdopen(dev_t dev, int flags, int fmt, struct proc *p)
{
int unit,part,phys,r,retry;
struct mcd_data *cd;
unit = mcd_unit(dev);
if (unit >= NMCD)
return ENXIO;
cd = mcd_data + unit;
part = mcd_part(dev);
phys = mcd_phys(dev);
/* not initialized*/
if (!(cd->flags & MCDINIT))
return ENXIO;
/* invalidated in the meantime? mark all open part's invalid */
if (!(cd->flags & MCDVALID) && cd->openflags)
return ENXIO;
if (mcd_getstat(unit,1) == -1)
return EIO;
if ( (cd->status & (MCDDSKCHNG|MCDDOOROPEN))
|| !(cd->status & MCDDSKIN))
for (retry = 0; retry < DISK_SENSE_SECS * WAIT_FRAC; retry++) {
(void) tsleep((caddr_t)cd, PSOCK | PCATCH, "mcdsn1", hz/WAIT_FRAC);
if ((r = mcd_getstat(unit,1)) == -1)
return EIO;
if (r != -2)
break;
}
if (( (cd->status & (MCDDOOROPEN|MCDDSKCHNG))
|| !(cd->status & MCDDSKIN)
)
&& major(dev) == CDEV_MAJOR && part == RAW_PART
) {
cd->openflags |= (1<<part);
if (phys)
cd->partflags[part] |= MCDREADRAW;
return 0;
}
if (cd->status & MCDDOOROPEN) {
printf("mcd%d: door is open\n", unit);
return ENXIO;
}
if (!(cd->status & MCDDSKIN)) {
printf("mcd%d: no CD inside\n", unit);
return ENXIO;
}
if (cd->status & MCDDSKCHNG) {
printf("mcd%d: CD not sensed\n", unit);
return ENXIO;
}
if (mcdsize(dev) < 0) {
if (major(dev) == CDEV_MAJOR && part == RAW_PART) {
cd->openflags |= (1<<part);
if (phys)
cd->partflags[part] |= MCDREADRAW;
return 0;
}
printf("mcd%d: failed to get disk size\n",unit);
return ENXIO;
} else
cd->flags |= MCDVALID;
/* XXX get a default disklabel */
mcd_getdisklabel(unit);
MCD_TRACE("open: partition=%d, disksize = %ld, blksize=%d\n",
part, cd->disksize, cd->blksize);
if (part == RAW_PART ||
(part < cd->dlabel.d_npartitions &&
cd->dlabel.d_partitions[part].p_fstype != FS_UNUSED)) {
cd->openflags |= (1<<part);
if (part == RAW_PART && phys)
cd->partflags[part] |= MCDREADRAW;
(void) mcd_lock_door(unit, MCD_LK_LOCK);
if (!(cd->flags & MCDVALID))
return ENXIO;
return 0;
}
return ENXIO;
}
int mcdclose(dev_t dev, int flags, int fmt, struct proc *p)
{
int unit,part;
struct mcd_data *cd;
unit = mcd_unit(dev);
if (unit >= NMCD)
return ENXIO;
cd = mcd_data + unit;
part = mcd_part(dev);
if (!(cd->flags & MCDINIT) || !(cd->openflags & (1<<part)))
return ENXIO;
MCD_TRACE("close: partition=%d\n", part);
(void) mcd_lock_door(unit, MCD_LK_UNLOCK);
cd->openflags &= ~(1<<part);
cd->partflags[part] &= ~MCDREADRAW;
return 0;
}
static int
mcdread(dev_t dev, struct uio *uio, int ioflag)
{
return (physio(mcdstrategy, NULL, dev, 1, minphys, uio));
}
void
mcdstrategy(struct buf *bp)
{
struct mcd_data *cd;
int s;
int unit = mcd_unit(bp->b_dev);
cd = mcd_data + unit;
/* test validity */
/*MCD_TRACE("strategy: buf=0x%lx, unit=%ld, block#=%ld bcount=%ld\n",
bp,unit,bp->b_blkno,bp->b_bcount);*/
if (unit >= NMCD || bp->b_blkno < 0) {
printf("mcdstrategy: unit = %d, blkno = %ld, bcount = %ld\n",
unit, (long)bp->b_blkno, bp->b_bcount);
printf("mcd: mcdstratregy failure");
bp->b_error = EINVAL;
bp->b_flags |= B_ERROR;
goto bad;
}
/* if device invalidated (e.g. media change, door open), error */
if (!(cd->flags & MCDVALID)) {
MCD_TRACE("strategy: drive not valid\n");
bp->b_error = EIO;
goto bad;
}
/* read only */
if (!(bp->b_flags & B_READ)) {
bp->b_error = EROFS;
goto bad;
}
/* no data to read */
if (bp->b_bcount == 0)
goto done;
/* for non raw access, check partition limits */
if (mcd_part(bp->b_dev) != RAW_PART) {
if (!(cd->flags & MCDLABEL)) {
bp->b_error = EIO;
goto bad;
}
/* adjust transfer if necessary */
if (bounds_check_with_label(bp,&cd->dlabel,1) <= 0) {
goto done;
}
} else {
bp->b_pblkno = bp->b_blkno;
bp->b_resid = 0;
}
/* queue it */
s = splbio();
bufqdisksort(&cd->head, bp);
splx(s);
/* now check whether we can perform processing */
mcd_start(unit);
return;
bad:
bp->b_flags |= B_ERROR;
done:
bp->b_resid = bp->b_bcount;
biodone(bp);
return;
}
static void mcd_start(int unit)
{
struct mcd_data *cd = mcd_data + unit;
struct partition *p;
struct buf *bp;
register s = splbio();
if (cd->flags & MCDMBXBSY) {
splx(s);
return;
}
bp = bufq_first(&cd->head);
if (bp != 0) {
/* block found to process, dequeue */
/*MCD_TRACE("mcd_start: found block bp=0x%x\n",bp,0,0,0);*/
bufq_remove(&cd->head, bp);
splx(s);
} else {
/* nothing to do */
splx(s);
return;
}
/* changed media? */
if (!(cd->flags & MCDVALID)) {
MCD_TRACE("mcd_start: drive not valid\n");
return;
}
p = cd->dlabel.d_partitions + mcd_part(bp->b_dev);
cd->flags |= MCDMBXBSY;
if (cd->partflags[mcd_part(bp->b_dev)] & MCDREADRAW)
cd->flags |= MCDREADRAW;
cd->mbx.unit = unit;
cd->mbx.port = cd->iobase;
cd->mbx.retry = MCD_RETRYS;
cd->mbx.bp = bp;
cd->mbx.p_offset = p->p_offset;
/* calling the read routine */
mcd_doread(MCD_S_BEGIN,&(cd->mbx));
/* triggers mcd_start, when successful finished */
return;
}
int mcdioctl(dev_t dev, u_long cmd, caddr_t addr, int flags, struct proc *p)
{
struct mcd_data *cd;
int unit,part,retry,r;
unit = mcd_unit(dev);
part = mcd_part(dev);
cd = mcd_data + unit;
if (mcd_getstat(unit, 1) == -1) /* detect disk change too */
return EIO;
MCD_TRACE("ioctl called 0x%lx\n", cmd);
switch (cmd) {
case CDIOCSETPATCH:
case CDIOCGETVOL:
case CDIOCSETVOL:
case CDIOCSETMONO:
case CDIOCSETSTERIO:
case CDIOCSETMUTE:
case CDIOCSETLEFT:
case CDIOCSETRIGHT:
return EINVAL;
case CDIOCEJECT:
return mcd_eject(unit);
case CDIOCSETDEBUG:
cd->debug = 1;
return 0;
case CDIOCCLRDEBUG:
cd->debug = 0;
return 0;
case CDIOCRESET:
return mcd_hard_reset(unit);
case CDIOCALLOW:
return mcd_lock_door(unit, MCD_LK_UNLOCK);
case CDIOCPREVENT:
return mcd_lock_door(unit, MCD_LK_LOCK);
case CDIOCCLOSE:
return mcd_inject(unit);
}
if (!(cd->flags & MCDVALID)) {
if ( major(dev) != CDEV_MAJOR
|| part != RAW_PART
|| !(cd->openflags & (1<<RAW_PART))
)
return ENXIO;
if ( (cd->status & (MCDDSKCHNG|MCDDOOROPEN))
|| !(cd->status & MCDDSKIN))
for (retry = 0; retry < DISK_SENSE_SECS * WAIT_FRAC; retry++) {
(void) tsleep((caddr_t)cd, PSOCK | PCATCH, "mcdsn2", hz/WAIT_FRAC);
if ((r = mcd_getstat(unit,1)) == -1)
return EIO;
if (r != -2)
break;
}
if ( (cd->status & (MCDDOOROPEN|MCDDSKCHNG))
|| !(cd->status & MCDDSKIN)
|| mcdsize(dev) < 0
)
return ENXIO;
cd->flags |= MCDVALID;
mcd_getdisklabel(unit);
if (mcd_phys(dev))
cd->partflags[part] |= MCDREADRAW;
(void) mcd_lock_door(unit, MCD_LK_LOCK);
if (!(cd->flags & MCDVALID))
return ENXIO;
}
switch (cmd) {
case DIOCSBAD:
return EINVAL;
case DIOCGDINFO:
*(struct disklabel *) addr = cd->dlabel;
return 0;
case DIOCGPART:
((struct partinfo *) addr)->disklab = &cd->dlabel;
((struct partinfo *) addr)->part =
&cd->dlabel.d_partitions[mcd_part(dev)];
return 0;
/*
* a bit silly, but someone might want to test something on a
* section of cdrom.
*/
case DIOCWDINFO:
case DIOCSDINFO:
if ((flags & FWRITE) == 0)
return EBADF;
else {
return setdisklabel(&cd->dlabel,
(struct disklabel *) addr,
0);
}
case DIOCWLABEL:
return EBADF;
case CDIOCPLAYTRACKS:
return mcd_playtracks(unit, (struct ioc_play_track *) addr);
case CDIOCPLAYBLOCKS:
return mcd_playblocks(unit, (struct ioc_play_blocks *) addr);
case CDIOCPLAYMSF:
return mcd_playmsf(unit, (struct ioc_play_msf *) addr);
case CDIOCREADSUBCHANNEL:
return mcd_subchan(unit, (struct ioc_read_subchannel *) addr);
case CDIOREADTOCHEADER:
return mcd_toc_header(unit, (struct ioc_toc_header *) addr);
case CDIOREADTOCENTRYS:
return mcd_toc_entrys(unit, (struct ioc_read_toc_entry *) addr);
case CDIOCRESUME:
return mcd_resume(unit);
case CDIOCPAUSE:
return mcd_pause(unit);
case CDIOCSTART:
if (mcd_setmode(unit, MCD_MD_COOKED) != 0)
return EIO;
return 0;
case CDIOCSTOP:
return mcd_stop(unit);
default:
return ENOTTY;
}
/*NOTREACHED*/
}
/* this could have been taken from scsi/cd.c, but it is not clear
* whether the scsi cd driver is linked in
*/
static int mcd_getdisklabel(int unit)
{
struct mcd_data *cd = mcd_data + unit;
if (cd->flags & MCDLABEL)
return -1;
bzero(&cd->dlabel,sizeof(struct disklabel));
/* filled with spaces first */
strncpy(cd->dlabel.d_typename," ",
sizeof(cd->dlabel.d_typename));
strncpy(cd->dlabel.d_typename, cd->name,
min(strlen(cd->name), sizeof(cd->dlabel.d_typename) - 1));
strncpy(cd->dlabel.d_packname,"unknown ",
sizeof(cd->dlabel.d_packname));
cd->dlabel.d_secsize = cd->blksize;
cd->dlabel.d_nsectors = 100;
cd->dlabel.d_ntracks = 1;
cd->dlabel.d_ncylinders = (cd->disksize/100)+1;
cd->dlabel.d_secpercyl = 100;
cd->dlabel.d_secperunit = cd->disksize;
cd->dlabel.d_rpm = 300;
cd->dlabel.d_interleave = 1;
cd->dlabel.d_flags = D_REMOVABLE;
cd->dlabel.d_npartitions= 1;
cd->dlabel.d_partitions[0].p_offset = 0;
cd->dlabel.d_partitions[0].p_size = cd->disksize;
cd->dlabel.d_partitions[0].p_fstype = 9;
cd->dlabel.d_magic = DISKMAGIC;
cd->dlabel.d_magic2 = DISKMAGIC;
cd->dlabel.d_checksum = dkcksum(&cd->dlabel);
cd->flags |= MCDLABEL;
return 0;
}
int mcdsize(dev_t dev)
{
int size;
int unit = mcd_unit(dev);
struct mcd_data *cd = mcd_data + unit;
if (mcd_volinfo(unit) == 0) {
cd->blksize = MCDBLK;
size = msf2hsg(cd->volinfo.vol_msf, 0);
cd->disksize = size * (MCDBLK/DEV_BSIZE);
return 0;
}
return -1;
}
/***************************************************************
* lower level of driver starts here
**************************************************************/
#ifdef NOTDEF
static char
irqs[] = {
0x00,0x00,0x10,0x20,0x00,0x30,0x00,0x00,
0x00,0x10,0x40,0x50,0x00,0x00,0x00,0x00
};
static char
drqs[] = {
0x00,0x01,0x00,0x03,0x00,0x05,0x06,0x07,
};
#endif
#ifdef NOT_YET
static void
mcd_configure(struct mcd_data *cd)
{
outb(cd->iobase+mcd_config,cd->config);
}
#endif
/* Wait for non-busy - return 0 on timeout */
static int
twiddle_thumbs(int port, int unit, int count, char *whine)
{
int i;
for (i = 0; i < count; i++) {
if (!(inb(port+MCD_FLAGS) & MFL_STATUS_NOT_AVAIL))
return 1;
}
if (bootverbose)
printf("mcd%d: timeout %s\n", unit, whine);
return 0;
}
/* check to see if a Mitsumi CD-ROM is attached to the ISA bus */
int
mcd_probe(struct isa_device *dev)
{
int port = dev->id_iobase;
int unit = dev->id_unit;
int i, j;
unsigned char stbytes[3];
mcd_data[unit].flags = MCDPROBING;
#ifdef NOTDEF
/* get irq/drq configuration word */
mcd_data[unit].config = irqs[dev->id_irq]; /* | drqs[dev->id_drq];*/
#else
mcd_data[unit].config = 0;
#endif
/* send a reset */
outb(port+MCD_FLAGS, M_RESET);
/*
* delay awhile by getting any pending garbage (old data) and
* throwing it away.
*/
for (i = 1000000; i != 0; i--)
inb(port+MCD_FLAGS);
/* Get status */
outb(port+MCD_DATA, MCD_CMDGETSTAT);
if (!twiddle_thumbs(port, unit, 1000000, "getting status"))
return 0; /* Timeout */
/* Get version information */
outb(port+MCD_DATA, MCD_CMDCONTINFO);
for (j = 0; j < 3; j++) {
if (!twiddle_thumbs(port, unit, 3000, "getting version info"))
return 0;
stbytes[j] = (inb(port+MCD_DATA) & 0xFF);
}
if (stbytes[1] == stbytes[2])
return 0;
if (stbytes[2] >= 4 || stbytes[1] != 'M') {
outb(port+MCD_CTRL, M_PICKLE);
mcd_data[unit].flags |= MCDNEWMODEL;
}
mcd_data[unit].read_command = MCD_CMDSINGLESPEEDREAD;
switch (stbytes[1]) {
case 'M':
if (stbytes[2] <= 2) {
mcd_data[unit].type = MCD_TYPE_LU002S;
mcd_data[unit].name = "Mitsumi LU002S";
} else if (stbytes[2] <= 5) {
mcd_data[unit].type = MCD_TYPE_LU005S;
mcd_data[unit].name = "Mitsumi LU005S";
} else {
mcd_data[unit].type = MCD_TYPE_LU006S;
mcd_data[unit].name = "Mitsumi LU006S";
}
break;
case 'F':
mcd_data[unit].type = MCD_TYPE_FX001;
mcd_data[unit].name = "Mitsumi FX001";
break;
case 'D':
mcd_data[unit].type = MCD_TYPE_FX001D;
mcd_data[unit].name = "Mitsumi FX001D";
mcd_data[unit].read_command = MCD_CMDDOUBLESPEEDREAD;
break;
default:
mcd_data[unit].type = MCD_TYPE_UNKNOWN;
mcd_data[unit].name = "Mitsumi ???";
break;
}
printf("mcd%d: type %s, version info: %c %x\n", unit, mcd_data[unit].name,
stbytes[1], stbytes[2]);
return 4;
}
static int
mcd_waitrdy(int port,int dly)
{
int i;
/* wait until flag port senses status ready */
for (i=0; i<dly; i+=MIN_DELAY) {
if (!(inb(port+MCD_FLAGS) & MFL_STATUS_NOT_AVAIL))
return 0;
DELAY(MIN_DELAY);
}
return -1;
}
static int
mcd_getreply(int unit,int dly)
{
struct mcd_data *cd = mcd_data + unit;
int port = cd->iobase;
/* wait data to become ready */
if (mcd_waitrdy(port,dly)<0) {
printf("mcd%d: timeout getreply\n",unit);
return -1;
}
/* get the data */
return inb(port+mcd_status) & 0xFF;
}
static int
mcd_getstat(int unit,int sflg)
{
int i;
struct mcd_data *cd = mcd_data + unit;
int port = cd->iobase;
/* get the status */
if (sflg)
outb(port+mcd_command, MCD_CMDGETSTAT);
i = mcd_getreply(unit,DELAY_GETREPLY);
if (i<0 || (i & MCD_ST_CMDCHECK)) {
cd->curr_mode = MCD_MD_UNKNOWN;
return -1;
}
cd->status = i;
if (mcd_setflags(unit,cd) < 0)
return -2;
return cd->status;
}
static int
mcd_setflags(int unit, struct mcd_data *cd)
{
/* check flags */
if ( (cd->status & (MCDDSKCHNG|MCDDOOROPEN))
|| !(cd->status & MCDDSKIN)) {
MCD_TRACE("setflags: sensed DSKCHNG or DOOROPEN or !DSKIN\n");
mcd_soft_reset(unit);
return -1;
}
if (cd->status & MCDAUDIOBSY)
cd->audio_status = CD_AS_PLAY_IN_PROGRESS;
else if (cd->audio_status == CD_AS_PLAY_IN_PROGRESS)
cd->audio_status = CD_AS_PLAY_COMPLETED;
return 0;
}
static int
mcd_get(int unit, char *buf, int nmax)
{
int i,k;
for (i=0; i<nmax; i++) {
/* wait for data */
if ((k = mcd_getreply(unit,DELAY_GETREPLY)) < 0) {
printf("mcd%d: timeout mcd_get\n",unit);
return -1;
}
buf[i] = k;
}
return i;
}
static int
mcd_send(int unit, int cmd,int nretrys)
{
int i,k=0;
int port = mcd_data[unit].iobase;
/*MCD_TRACE("mcd_send: command = 0x%02x\n",cmd,0,0,0);*/
for (i=0; i<nretrys; i++) {
outb(port+mcd_command, cmd);
if ((k=mcd_getstat(unit,0)) != -1)
break;
}
if (k == -2) {
printf("mcd%d: media changed\n",unit);
return -1;
}
if (i == nretrys) {
printf("mcd%d: mcd_send retry cnt exceeded\n",unit);
return -1;
}
/*MCD_TRACE("mcd_send: done\n",0,0,0,0);*/
return 0;
}
static void
hsg2msf(int hsg, bcd_t *msf)
{
hsg += 150;
F_msf(msf) = bin2bcd(hsg % 75);
hsg /= 75;
S_msf(msf) = bin2bcd(hsg % 60);
hsg /= 60;
M_msf(msf) = bin2bcd(hsg);
}
static int
msf2hsg(bcd_t *msf, int relative)
{
return (bcd2bin(M_msf(msf)) * 60 + bcd2bin(S_msf(msf))) * 75 +
bcd2bin(F_msf(msf)) - (!relative) * 150;
}
static int
mcd_volinfo(int unit)
{
struct mcd_data *cd = mcd_data + unit;
/* Just return if we already have it */
if (cd->flags & MCDVOLINFO) return 0;
/*MCD_TRACE("mcd_volinfo: enter\n",0,0,0,0);*/
/* send volume info command */
if (mcd_send(unit,MCD_CMDGETVOLINFO,MCD_RETRYS) < 0)
return EIO;
/* get data */
if (mcd_get(unit,(char*) &cd->volinfo,sizeof(struct mcd_volinfo)) < 0) {
printf("mcd%d: mcd_volinfo: error read data\n",unit);
return EIO;
}
if (cd->volinfo.trk_low > 0 &&
cd->volinfo.trk_high >= cd->volinfo.trk_low
) {
cd->flags |= MCDVOLINFO; /* volinfo is OK */
return 0;
}
return EINVAL;
}
static void
mcdintr(unit)
int unit;
{
MCD_TRACE("stray interrupt\n");
}
/* state machine to process read requests
* initialize with MCD_S_BEGIN: calculate sizes, and read status
* MCD_S_WAITSTAT: wait for status reply, set mode
* MCD_S_WAITMODE: waits for status reply from set mode, set read command
* MCD_S_WAITREAD: wait for read ready, read data
*/
static struct mcd_mbx *mbxsave;
static struct callout_handle tohandle = CALLOUT_HANDLE_INITIALIZER(&tohandle);
static void
mcd_timeout(void *arg)
{
mcd_doread((int)arg, mbxsave);
}
static void
mcd_doread(int state, struct mcd_mbx *mbxin)
{
struct mcd_mbx *mbx = (state!=MCD_S_BEGIN) ? mbxsave : mbxin;
int unit = mbx->unit;
int port = mbx->port;
int com_port = mbx->port + mcd_command;
int data_port = mbx->port + mcd_rdata;
struct buf *bp = mbx->bp;
struct mcd_data *cd = mcd_data + unit;
int rm,i,k;
struct mcd_read2 rbuf;
int blknum;
caddr_t addr;
loop:
switch (state) {
case MCD_S_BEGIN:
mbx = mbxsave = mbxin;
case MCD_S_BEGIN1:
retry_status:
/* get status */
outb(com_port, MCD_CMDGETSTAT);
mbx->count = RDELAY_WAITSTAT;
tohandle = timeout(mcd_timeout,
(caddr_t)MCD_S_WAITSTAT,hz/100); /* XXX */
return;
case MCD_S_WAITSTAT:
untimeout(mcd_timeout,(caddr_t)MCD_S_WAITSTAT, tohandle);
if (mbx->count-- >= 0) {
if (inb(port+MCD_FLAGS) & MFL_STATUS_NOT_AVAIL) {
timeout(mcd_timeout,
(caddr_t)MCD_S_WAITSTAT,hz/100); /* XXX */
return;
}
cd->status = inb(port+mcd_status) & 0xFF;
if (cd->status & MCD_ST_CMDCHECK)
goto retry_status;
if (mcd_setflags(unit,cd) < 0)
goto changed;
MCD_TRACE("got WAITSTAT delay=%d\n",
RDELAY_WAITSTAT-mbx->count);
/* reject, if audio active */
if (cd->status & MCDAUDIOBSY) {
printf("mcd%d: audio is active\n",unit);
goto readerr;
}
retry_mode:
/* to check for raw/cooked mode */
if (cd->flags & MCDREADRAW) {
rm = MCD_MD_RAW;
mbx->sz = MCDRBLK;
} else {
rm = MCD_MD_COOKED;
mbx->sz = cd->blksize;
}
if (rm == cd->curr_mode)
goto modedone;
mbx->count = RDELAY_WAITMODE;
cd->curr_mode = MCD_MD_UNKNOWN;
mbx->mode = rm;
mcd_put(com_port, MCD_CMDSETMODE);
mcd_put(com_port, rm);
tohandle = timeout(mcd_timeout,
(caddr_t)MCD_S_WAITMODE,hz/100); /* XXX */
return;
} else {
printf("mcd%d: timeout getstatus\n",unit);
goto readerr;
}
case MCD_S_WAITMODE:
untimeout(mcd_timeout,(caddr_t)MCD_S_WAITMODE, tohandle);
if (mbx->count-- < 0) {
printf("mcd%d: timeout set mode\n",unit);
goto readerr;
}
if (inb(port+MCD_FLAGS) & MFL_STATUS_NOT_AVAIL) {
tohandle = timeout(mcd_timeout,
(caddr_t)MCD_S_WAITMODE,hz/100);
return;
}
cd->status = inb(port+mcd_status) & 0xFF;
if (cd->status & MCD_ST_CMDCHECK) {
cd->curr_mode = MCD_MD_UNKNOWN;
goto retry_mode;
}
if (mcd_setflags(unit,cd) < 0)
goto changed;
cd->curr_mode = mbx->mode;
MCD_TRACE("got WAITMODE delay=%d\n",
RDELAY_WAITMODE-mbx->count);
modedone:
/* for first block */
mbx->nblk = (bp->b_bcount + (mbx->sz-1)) / mbx->sz;
mbx->skip = 0;
nextblock:
blknum = (bp->b_blkno / (mbx->sz/DEV_BSIZE))
+ mbx->p_offset + mbx->skip/mbx->sz;
MCD_TRACE("mcd_doread: read blknum=%d for bp=%p\n",
blknum, bp);
/* build parameter block */
hsg2msf(blknum,rbuf.start_msf);
retry_read:
/* send the read command */
disable_intr();
mcd_put(com_port,cd->read_command);
mcd_put(com_port,rbuf.start_msf[0]);
mcd_put(com_port,rbuf.start_msf[1]);
mcd_put(com_port,rbuf.start_msf[2]);
mcd_put(com_port,0);
mcd_put(com_port,0);
mcd_put(com_port,1);
enable_intr();
/* Spin briefly (<= 2ms) to avoid missing next block */
for (i = 0; i < 20; i++) {
k = inb(port+MCD_FLAGS);
if (!(k & MFL_DATA_NOT_AVAIL))
goto got_it;
DELAY(100);
}
mbx->count = RDELAY_WAITREAD;
tohandle = timeout(mcd_timeout,
(caddr_t)MCD_S_WAITREAD,hz/100); /* XXX */
return;
case MCD_S_WAITREAD:
untimeout(mcd_timeout,(caddr_t)MCD_S_WAITREAD, tohandle);
if (mbx->count-- > 0) {
k = inb(port+MCD_FLAGS);
if (!(k & MFL_DATA_NOT_AVAIL)) { /* XXX */
MCD_TRACE("got data delay=%d\n",
RDELAY_WAITREAD-mbx->count);
got_it:
/* data is ready */
addr = bp->b_data + mbx->skip;
outb(port+mcd_ctl2,0x04); /* XXX */
for (i=0; i<mbx->sz; i++)
*addr++ = inb(data_port);
outb(port+mcd_ctl2,0x0c); /* XXX */
k = inb(port+MCD_FLAGS);
/* If we still have some junk, read it too */
if (!(k & MFL_DATA_NOT_AVAIL)) {
outb(port+mcd_ctl2,0x04); /* XXX */
(void)inb(data_port);
(void)inb(data_port);
outb(port+mcd_ctl2,0x0c); /* XXX */
}
if (--mbx->nblk > 0) {
mbx->skip += mbx->sz;
goto nextblock;
}
/* return buffer */
bp->b_resid = 0;
biodone(bp);
cd->flags &= ~(MCDMBXBSY|MCDREADRAW);
mcd_start(mbx->unit);
return;
}
if (!(k & MFL_STATUS_NOT_AVAIL)) {
cd->status = inb(port+mcd_status) & 0xFF;
if (cd->status & MCD_ST_CMDCHECK)
goto retry_read;
if (mcd_setflags(unit,cd) < 0)
goto changed;
}
tohandle = timeout(mcd_timeout,
(caddr_t)MCD_S_WAITREAD,hz/100); /* XXX */
return;
} else {
printf("mcd%d: timeout read data\n",unit);
goto readerr;
}
}
readerr:
if (mbx->retry-- > 0) {
printf("mcd%d: retrying\n",unit);
state = MCD_S_BEGIN1;
goto loop;
}
harderr:
/* invalidate the buffer */
bp->b_flags |= B_ERROR;
bp->b_resid = bp->b_bcount;
biodone(bp);
cd->flags &= ~(MCDMBXBSY|MCDREADRAW);
mcd_start(mbx->unit);
return;
changed:
printf("mcd%d: media changed\n", unit);
goto harderr;
#ifdef NOTDEF
printf("mcd%d: unit timeout, resetting\n",mbx->unit);
outb(mbx->port+mcd_reset,MCD_CMDRESET);
DELAY(300000);
(void)mcd_getstat(mbx->unit,1);
(void)mcd_getstat(mbx->unit,1);
/*cd->status &= ~MCDDSKCHNG; */
cd->debug = 1; /* preventive set debug mode */
#endif
}
static int
mcd_lock_door(int unit, int lock)
{
struct mcd_data *cd = mcd_data + unit;
int port = cd->iobase;
outb(port+mcd_command, MCD_CMDLOCKDRV);
outb(port+mcd_command, lock);
if (mcd_getstat(unit,0) == -1)
return EIO;
return 0;
}
static int
mcd_close_tray(int unit)
{
struct mcd_data *cd = mcd_data + unit;
int port = cd->iobase;
int retry, r;
if (mcd_getstat(unit,1) == -1)
return EIO;
if (cd->status & MCDDOOROPEN) {
outb(port+mcd_command, MCD_CMDCLOSETRAY);
for (retry = 0; retry < CLOSE_TRAY_SECS * WAIT_FRAC; retry++) {
if (inb(port+MCD_FLAGS) & MFL_STATUS_NOT_AVAIL)
(void) tsleep((caddr_t)cd, PSOCK | PCATCH, "mcdcls", hz/WAIT_FRAC);
else {
if ((r = mcd_getstat(unit,0)) == -1)
return EIO;
return 0;
}
}
return ENXIO;
}
return 0;
}
static int
mcd_eject(int unit)
{
struct mcd_data *cd = mcd_data + unit;
int port = cd->iobase, r;
if (mcd_getstat(unit,1) == -1) /* detect disk change too */
return EIO;
if (cd->status & MCDDOOROPEN)
return 0;
if ((r = mcd_stop(unit)) == EIO)
return r;
outb(port+mcd_command, MCD_CMDEJECTDISK);
if (mcd_getstat(unit,0) == -1)
return EIO;
return 0;
}
static int
mcd_inject(int unit)
{
struct mcd_data *cd = mcd_data + unit;
if (mcd_getstat(unit,1) == -1) /* detect disk change too */
return EIO;
if (cd->status & MCDDOOROPEN)
return mcd_close_tray(unit);
return 0;
}
static int
mcd_hard_reset(int unit)
{
struct mcd_data *cd = mcd_data + unit;
int port = cd->iobase;
outb(port+mcd_reset,MCD_CMDRESET);
cd->curr_mode = MCD_MD_UNKNOWN;
cd->audio_status = CD_AS_AUDIO_INVALID;
return 0;
}
static void
mcd_soft_reset(int unit)
{
struct mcd_data *cd = mcd_data + unit;
int i;
cd->flags &= (MCDINIT|MCDPROBING|MCDNEWMODEL);
cd->curr_mode = MCD_MD_UNKNOWN;
for (i=0; i<MAXPARTITIONS; i++) cd->partflags[i] = 0;
cd->audio_status = CD_AS_AUDIO_INVALID;
}
static int
mcd_setmode(int unit, int mode)
{
struct mcd_data *cd = mcd_data + unit;
int port = cd->iobase;
int retry, st;
if (cd->curr_mode == mode)
return 0;
if (cd->debug)
printf("mcd%d: setting mode to %d\n", unit, mode);
for(retry=0; retry<MCD_RETRYS; retry++)
{
cd->curr_mode = MCD_MD_UNKNOWN;
outb(port+mcd_command, MCD_CMDSETMODE);
outb(port+mcd_command, mode);
if ((st = mcd_getstat(unit, 0)) >= 0) {
cd->curr_mode = mode;
return 0;
}
if (st == -2) {
printf("mcd%d: media changed\n", unit);
break;
}
}
return -1;
}
static int
mcd_toc_header(int unit, struct ioc_toc_header *th)
{
struct mcd_data *cd = mcd_data + unit;
int r;
if ((r = mcd_volinfo(unit)) != 0)
return r;
th->starting_track = bcd2bin(cd->volinfo.trk_low);
th->ending_track = bcd2bin(cd->volinfo.trk_high);
th->len = 2 * sizeof(u_char) /* start & end tracks */ +
(th->ending_track + 1 - th->starting_track + 1) *
sizeof(struct cd_toc_entry);
return 0;
}
static int
mcd_read_toc(int unit)
{
struct mcd_data *cd = mcd_data + unit;
struct ioc_toc_header th;
struct mcd_qchninfo q;
int rc, trk, idx, retry;
/* Only read TOC if needed */
if (cd->flags & MCDTOC)
return 0;
if (cd->debug)
printf("mcd%d: reading toc header\n", unit);
if ((rc = mcd_toc_header(unit, &th)) != 0)
return rc;
if (mcd_send(unit, MCD_CMDSTOPAUDIO, MCD_RETRYS) < 0)
return EIO;
if (mcd_setmode(unit, MCD_MD_TOC) != 0)
return EIO;
if (cd->debug)
printf("mcd%d: get_toc reading qchannel info\n",unit);
for(trk=th.starting_track; trk<=th.ending_track; trk++)
cd->toc[trk].idx_no = 0;
trk = th.ending_track - th.starting_track + 1;
for(retry=0; retry<600 && trk>0; retry++)
{
if (mcd_getqchan(unit, &q) < 0) break;
idx = bcd2bin(q.idx_no);
if (idx>=th.starting_track && idx<=th.ending_track && q.trk_no==0) {
if (cd->toc[idx].idx_no == 0) {
cd->toc[idx] = q;
trk--;
}
}
}
if (mcd_setmode(unit, MCD_MD_COOKED) != 0)
return EIO;
if (trk != 0)
return ENXIO;
/* add a fake last+1 */
idx = th.ending_track + 1;
cd->toc[idx].control = cd->toc[idx-1].control;
cd->toc[idx].addr_type = cd->toc[idx-1].addr_type;
cd->toc[idx].trk_no = 0;
cd->toc[idx].idx_no = MCD_LASTPLUS1;
cd->toc[idx].hd_pos_msf[0] = cd->volinfo.vol_msf[0];
cd->toc[idx].hd_pos_msf[1] = cd->volinfo.vol_msf[1];
cd->toc[idx].hd_pos_msf[2] = cd->volinfo.vol_msf[2];
if (cd->debug)
{ int i;
for (i = th.starting_track; i <= idx; i++)
printf("mcd%d: trk %d idx %d pos %d %d %d\n",
unit, i,
cd->toc[i].idx_no > 0x99 ? cd->toc[i].idx_no :
bcd2bin(cd->toc[i].idx_no),
bcd2bin(cd->toc[i].hd_pos_msf[0]),
bcd2bin(cd->toc[i].hd_pos_msf[1]),
bcd2bin(cd->toc[i].hd_pos_msf[2]));
}
cd->flags |= MCDTOC;
return 0;
}
#if 0
static int
mcd_toc_entry(int unit, struct ioc_read_toc_single_entry *te)
{
struct mcd_data *cd = mcd_data + unit;
struct ioc_toc_header th;
int rc, trk;
if (te->address_format != CD_MSF_FORMAT
&& te->address_format != CD_LBA_FORMAT)
return EINVAL;
/* Copy the toc header */
if ((rc = mcd_toc_header(unit, &th)) != 0)
return rc;
/* verify starting track */
trk = te->track;
if (trk == 0)
trk = th.starting_track;
else if (trk == MCD_LASTPLUS1)
trk = th.ending_track + 1;
else if (trk < th.starting_track || trk > th.ending_track + 1)
return EINVAL;
/* Make sure we have a valid toc */
if ((rc=mcd_read_toc(unit)) != 0)
return rc;
/* Copy the TOC data. */
if (cd->toc[trk].idx_no == 0)
return EIO;
te->entry.control = cd->toc[trk].control;
te->entry.addr_type = cd->toc[trk].addr_type;
te->entry.track =
cd->toc[trk].idx_no > 0x99 ? cd->toc[trk].idx_no :
bcd2bin(cd->toc[trk].idx_no);
switch (te->address_format) {
case CD_MSF_FORMAT:
te->entry.addr.msf.unused = 0;
te->entry.addr.msf.minute = bcd2bin(cd->toc[trk].hd_pos_msf[0]);
te->entry.addr.msf.second = bcd2bin(cd->toc[trk].hd_pos_msf[1]);
te->entry.addr.msf.frame = bcd2bin(cd->toc[trk].hd_pos_msf[2]);
break;
case CD_LBA_FORMAT:
te->entry.addr.lba = htonl(msf2hsg(cd->toc[trk].hd_pos_msf, 0));
break;
}
return 0;
}
#endif
static int
mcd_toc_entrys(int unit, struct ioc_read_toc_entry *te)
{
struct mcd_data *cd = mcd_data + unit;
struct cd_toc_entry entries[MCD_MAXTOCS];
struct ioc_toc_header th;
int rc, n, trk, len;
if ( te->data_len < sizeof(entries[0])
|| (te->data_len % sizeof(entries[0])) != 0
|| te->address_format != CD_MSF_FORMAT
&& te->address_format != CD_LBA_FORMAT
)
return EINVAL;
/* Copy the toc header */
if ((rc = mcd_toc_header(unit, &th)) != 0)
return rc;
/* verify starting track */
trk = te->starting_track;
if (trk == 0)
trk = th.starting_track;
else if (trk == MCD_LASTPLUS1)
trk = th.ending_track + 1;
else if (trk < th.starting_track || trk > th.ending_track + 1)
return EINVAL;
len = ((th.ending_track + 1 - trk) + 1) *
sizeof(entries[0]);
if (te->data_len < len)
len = te->data_len;
if (len > sizeof(entries))
return EINVAL;
/* Make sure we have a valid toc */
if ((rc=mcd_read_toc(unit)) != 0)
return rc;
/* Copy the TOC data. */
for (n = 0; len > 0 && trk <= th.ending_track + 1; trk++) {
if (cd->toc[trk].idx_no == 0)
continue;
entries[n].control = cd->toc[trk].control;
entries[n].addr_type = cd->toc[trk].addr_type;
entries[n].track =
cd->toc[trk].idx_no > 0x99 ? cd->toc[trk].idx_no :
bcd2bin(cd->toc[trk].idx_no);
switch (te->address_format) {
case CD_MSF_FORMAT:
entries[n].addr.msf.unused = 0;
entries[n].addr.msf.minute = bcd2bin(cd->toc[trk].hd_pos_msf[0]);
entries[n].addr.msf.second = bcd2bin(cd->toc[trk].hd_pos_msf[1]);
entries[n].addr.msf.frame = bcd2bin(cd->toc[trk].hd_pos_msf[2]);
break;
case CD_LBA_FORMAT:
entries[n].addr.lba = htonl(msf2hsg(cd->toc[trk].hd_pos_msf, 0));
break;
}
len -= sizeof(struct cd_toc_entry);
n++;
}
/* copy the data back */
return copyout(entries, te->data, n * sizeof(struct cd_toc_entry));
}
static int
mcd_stop(int unit)
{
struct mcd_data *cd = mcd_data + unit;
/* Verify current status */
if (cd->audio_status != CD_AS_PLAY_IN_PROGRESS &&
cd->audio_status != CD_AS_PLAY_PAUSED &&
cd->audio_status != CD_AS_PLAY_COMPLETED) {
if (cd->debug)
printf("mcd%d: stop attempted when not playing, audio status %d\n",
unit, cd->audio_status);
return EINVAL;
}
if (cd->audio_status == CD_AS_PLAY_IN_PROGRESS)
if (mcd_send(unit, MCD_CMDSTOPAUDIO, MCD_RETRYS) < 0)
return EIO;
cd->audio_status = CD_AS_PLAY_COMPLETED;
return 0;
}
static int
mcd_getqchan(int unit, struct mcd_qchninfo *q)
{
struct mcd_data *cd = mcd_data + unit;
if (mcd_send(unit, MCD_CMDGETQCHN, MCD_RETRYS) < 0)
return -1;
if (mcd_get(unit, (char *) q, sizeof(struct mcd_qchninfo)) < 0)
return -1;
if (cd->debug) {
printf("mcd%d: getqchan control=0x%x addr_type=0x%x trk=%d ind=%d ttm=%d:%d.%d dtm=%d:%d.%d\n",
unit,
q->control, q->addr_type, bcd2bin(q->trk_no),
bcd2bin(q->idx_no),
bcd2bin(q->trk_size_msf[0]), bcd2bin(q->trk_size_msf[1]),
bcd2bin(q->trk_size_msf[2]),
bcd2bin(q->hd_pos_msf[0]), bcd2bin(q->hd_pos_msf[1]),
bcd2bin(q->hd_pos_msf[2]));
}
return 0;
}
static int
mcd_subchan(int unit, struct ioc_read_subchannel *sc)
{
struct mcd_data *cd = mcd_data + unit;
struct mcd_qchninfo q;
struct cd_sub_channel_info data;
int lba;
if (cd->debug)
printf("mcd%d: subchan af=%d, df=%d\n", unit,
sc->address_format,
sc->data_format);
if (sc->address_format != CD_MSF_FORMAT &&
sc->address_format != CD_LBA_FORMAT)
return EINVAL;
if (sc->data_format != CD_CURRENT_POSITION &&
sc->data_format != CD_MEDIA_CATALOG)
return EINVAL;
if (mcd_setmode(unit, MCD_MD_COOKED) != 0)
return EIO;
if (mcd_getqchan(unit, &q) < 0)
return EIO;
data.header.audio_status = cd->audio_status;
data.what.position.data_format = sc->data_format;
switch (sc->data_format) {
case CD_MEDIA_CATALOG:
data.what.media_catalog.mc_valid = 1;
data.what.media_catalog.mc_number[0] = '\0';
break;
case CD_CURRENT_POSITION:
data.what.position.control = q.control;
data.what.position.addr_type = q.addr_type;
data.what.position.track_number = bcd2bin(q.trk_no);
data.what.position.index_number = bcd2bin(q.idx_no);
switch (sc->address_format) {
case CD_MSF_FORMAT:
data.what.position.reladdr.msf.unused = 0;
data.what.position.reladdr.msf.minute = bcd2bin(q.trk_size_msf[0]);
data.what.position.reladdr.msf.second = bcd2bin(q.trk_size_msf[1]);
data.what.position.reladdr.msf.frame = bcd2bin(q.trk_size_msf[2]);
data.what.position.absaddr.msf.unused = 0;
data.what.position.absaddr.msf.minute = bcd2bin(q.hd_pos_msf[0]);
data.what.position.absaddr.msf.second = bcd2bin(q.hd_pos_msf[1]);
data.what.position.absaddr.msf.frame = bcd2bin(q.hd_pos_msf[2]);
break;
case CD_LBA_FORMAT:
lba = msf2hsg(q.trk_size_msf, 1);
/*
* Pre-gap has index number of 0, and decreasing MSF
* address. Must be converted to negative LBA, per
* SCSI spec.
*/
if (data.what.position.index_number == 0)
lba = -lba;
data.what.position.reladdr.lba = htonl(lba);
data.what.position.absaddr.lba = htonl(msf2hsg(q.hd_pos_msf, 0));
break;
}
break;
}
return copyout(&data, sc->data, min(sizeof(struct cd_sub_channel_info), sc->data_len));
}
static int
mcd_playmsf(int unit, struct ioc_play_msf *p)
{
struct mcd_data *cd = mcd_data + unit;
struct mcd_read2 pb;
if (cd->debug)
printf("mcd%d: playmsf: from %d:%d.%d to %d:%d.%d\n",
unit,
p->start_m, p->start_s, p->start_f,
p->end_m, p->end_s, p->end_f);
if ((p->start_m * 60 * 75 + p->start_s * 75 + p->start_f) >=
(p->end_m * 60 * 75 + p->end_s * 75 + p->end_f) ||
(p->end_m * 60 * 75 + p->end_s * 75 + p->end_f) >
M_msf(cd->volinfo.vol_msf) * 60 * 75 +
S_msf(cd->volinfo.vol_msf) * 75 +
F_msf(cd->volinfo.vol_msf))
return EINVAL;
pb.start_msf[0] = bin2bcd(p->start_m);
pb.start_msf[1] = bin2bcd(p->start_s);
pb.start_msf[2] = bin2bcd(p->start_f);
pb.end_msf[0] = bin2bcd(p->end_m);
pb.end_msf[1] = bin2bcd(p->end_s);
pb.end_msf[2] = bin2bcd(p->end_f);
if (mcd_setmode(unit, MCD_MD_COOKED) != 0)
return EIO;
return mcd_play(unit, &pb);
}
static int
mcd_playtracks(int unit, struct ioc_play_track *pt)
{
struct mcd_data *cd = mcd_data + unit;
struct mcd_read2 pb;
int a = pt->start_track;
int z = pt->end_track;
int rc, i;
if ((rc = mcd_read_toc(unit)) != 0)
return rc;
if (cd->debug)
printf("mcd%d: playtracks from %d:%d to %d:%d\n", unit,
a, pt->start_index, z, pt->end_index);
if ( a < bcd2bin(cd->volinfo.trk_low)
|| a > bcd2bin(cd->volinfo.trk_high)
|| a > z
|| z < bcd2bin(cd->volinfo.trk_low)
|| z > bcd2bin(cd->volinfo.trk_high))
return EINVAL;
for (i = 0; i < 3; i++) {
pb.start_msf[i] = cd->toc[a].hd_pos_msf[i];
pb.end_msf[i] = cd->toc[z+1].hd_pos_msf[i];
}
if (mcd_setmode(unit, MCD_MD_COOKED) != 0)
return EIO;
return mcd_play(unit, &pb);
}
static int
mcd_playblocks(int unit, struct ioc_play_blocks *p)
{
struct mcd_data *cd = mcd_data + unit;
struct mcd_read2 pb;
if (cd->debug)
printf("mcd%d: playblocks: blkno %d length %d\n",
unit, p->blk, p->len);
if (p->blk > cd->disksize || p->len > cd->disksize ||
p->blk < 0 || p->len < 0 ||
(p->blk + p->len) > cd->disksize)
return EINVAL;
hsg2msf(p->blk, pb.start_msf);
hsg2msf(p->blk + p->len, pb.end_msf);
if (mcd_setmode(unit, MCD_MD_COOKED) != 0)
return EIO;
return mcd_play(unit, &pb);
}
static int
mcd_play(int unit, struct mcd_read2 *pb)
{
struct mcd_data *cd = mcd_data + unit;
int com_port = cd->iobase + mcd_command;
int retry, st = -1, status;
cd->lastpb = *pb;
for(retry=0; retry<MCD_RETRYS; retry++) {
disable_intr();
outb(com_port, MCD_CMDSINGLESPEEDREAD);
outb(com_port, pb->start_msf[0]);
outb(com_port, pb->start_msf[1]);
outb(com_port, pb->start_msf[2]);
outb(com_port, pb->end_msf[0]);
outb(com_port, pb->end_msf[1]);
outb(com_port, pb->end_msf[2]);
enable_intr();
status=mcd_getstat(unit, 0);
if (status == -1)
continue;
else if (status != -2)
st = 0;
break;
}
if (status == -2) {
printf("mcd%d: media changed\n", unit);
return ENXIO;
}
if (cd->debug)
printf("mcd%d: mcd_play retry=%d, status=0x%02x\n", unit, retry, status);
if (st < 0)
return ENXIO;
cd->audio_status = CD_AS_PLAY_IN_PROGRESS;
return 0;
}
static int
mcd_pause(int unit)
{
struct mcd_data *cd = mcd_data + unit;
struct mcd_qchninfo q;
int rc;
/* Verify current status */
if (cd->audio_status != CD_AS_PLAY_IN_PROGRESS &&
cd->audio_status != CD_AS_PLAY_PAUSED) {
if (cd->debug)
printf("mcd%d: pause attempted when not playing, audio status %d\n",
unit, cd->audio_status);
return EINVAL;
}
/* Get the current position */
if (mcd_getqchan(unit, &q) < 0)
return EIO;
/* Copy it into lastpb */
cd->lastpb.start_msf[0] = q.hd_pos_msf[0];
cd->lastpb.start_msf[1] = q.hd_pos_msf[1];
cd->lastpb.start_msf[2] = q.hd_pos_msf[2];
/* Stop playing */
if ((rc=mcd_stop(unit)) != 0)
return rc;
/* Set the proper status and exit */
cd->audio_status = CD_AS_PLAY_PAUSED;
return 0;
}
static int
mcd_resume(int unit)
{
struct mcd_data *cd = mcd_data + unit;
if (cd->audio_status != CD_AS_PLAY_PAUSED)
return EINVAL;
return mcd_play(unit, &cd->lastpb);
}
static int mcd_devsw_installed;
static void mcd_drvinit(void *unused)
{
if( ! mcd_devsw_installed ) {
cdevsw_add_generic(BDEV_MAJOR,CDEV_MAJOR, &mcd_cdevsw);
mcd_devsw_installed = 1;
}
}
SYSINIT(mcddev,SI_SUB_DRIVERS,SI_ORDER_MIDDLE+CDEV_MAJOR,mcd_drvinit,NULL)
#endif /* NMCD > 0 */
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