freebsd-nq/sys/i386/isa/wcd.c

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/*
* IDE CD-ROM driver for FreeBSD.
* Supports ATAPI-compatible drives.
*
* Copyright (C) 1995 Cronyx Ltd.
* Author Serge Vakulenko, <vak@cronyx.ru>
*
* This software is distributed with NO WARRANTIES, not even the implied
* warranties for MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
*
* Authors grant any other persons or organisations permission to use
* or modify this software as long as this message is kept with the software,
* all derivative works or modified versions.
*
* From: Version 1.9, Mon Oct 9 20:27:42 MSK 1995
1998-04-15 17:47:40 +00:00
* $Id: wcd.c,v 1.51 1998/02/09 06:08:43 eivind Exp $
*/
#include "wdc.h"
#include "wcd.h"
#include "opt_atapi.h"
#include "opt_devfs.h"
#if NWCD > 0 && NWDC > 0 && defined (ATAPI)
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/kernel.h>
#include <sys/proc.h>
#include <sys/malloc.h>
#include <sys/buf.h>
#include <sys/disklabel.h>
#include <sys/cdio.h>
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
#include <sys/conf.h>
#ifdef DEVFS
#include <sys/devfsext.h>
#endif /*DEVFS*/
#include <i386/isa/atapi.h>
static d_open_t wcdropen;
static d_open_t wcdbopen;
static d_close_t wcdrclose;
static d_close_t wcdbclose;
static d_ioctl_t wcdioctl;
static d_strategy_t wcdstrategy;
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
#define CDEV_MAJOR 69
#define BDEV_MAJOR 19
extern struct cdevsw wcd_cdevsw;
static struct bdevsw wcd_bdevsw =
{ wcdbopen, wcdbclose, wcdstrategy, wcdioctl, /*19*/
nodump, nopsize, 0, "wcd", &wcd_cdevsw, -1 };
static struct cdevsw wcd_cdevsw =
{ wcdropen, wcdrclose, rawread, nowrite, /*69*/
wcdioctl, nostop, nullreset, nodevtotty,/* atapi */
seltrue, nommap, wcdstrategy, "wcd",
&wcd_bdevsw, -1 };
#ifndef ATAPI_STATIC
static
#endif
int wcdattach(struct atapi*, int, struct atapi_params*, int);
#define NUNIT 16 /* Max. number of devices */
#define SECSIZE 2048 /* CD-ROM sector size in bytes */
#define F_BOPEN 0x0001 /* The block device is opened */
#define F_MEDIA_CHANGED 0x0002 /* The media have changed since open */
#define F_DEBUG 0x0004 /* Print debug info */
#define F_LOCKED 0x0008 /* This unit is locked (or should be) */
/*
* Disc table of contents.
*/
#define MAXTRK 99
struct toc {
struct ioc_toc_header hdr;
struct cd_toc_entry tab[MAXTRK+1]; /* One extra for the leadout */
};
/*
* Volume size info.
*/
1998-02-09 06:11:36 +00:00
static struct volinfo {
u_long volsize; /* Volume size in blocks */
u_long blksize; /* Block size in bytes */
} info;
/*
* Current subchannel status.
*/
struct subchan {
u_char void0;
u_char audio_status;
u_short data_length;
u_char data_format;
u_char control;
u_char track;
u_char indx;
u_long abslba;
u_long rellba;
};
/*
* Audio Control Parameters Page
*/
struct audiopage {
/* Mode data header */
u_short data_length;
u_char medium_type;
u_char reserved1[5];
/* Audio control page */
u_char page_code;
#define AUDIO_PAGE 0x0e
#define AUDIO_PAGE_MASK 0x4e /* changeable values */
u_char param_len;
u_char flags;
#define CD_PA_SOTC 0x02 /* mandatory */
#define CD_PA_IMMED 0x04 /* always 1 */
u_char reserved3[3];
u_short lb_per_sec;
struct port_control {
u_char channels : 4;
#define CHANNEL_0 1 /* mandatory */
#define CHANNEL_1 2 /* mandatory */
#define CHANNEL_2 4 /* optional */
#define CHANNEL_3 8 /* optional */
u_char volume;
} port[4];
};
/*
* CD-ROM Capabilities and Mechanical Status Page
*/
struct cappage {
/* Mode data header */
u_short data_length;
u_char medium_type;
#define MDT_UNKNOWN 0x00
#define MDT_DATA_120 0x01
#define MDT_AUDIO_120 0x02
#define MDT_COMB_120 0x03
#define MDT_PHOTO_120 0x04
#define MDT_DATA_80 0x05
#define MDT_AUDIO_80 0x06
#define MDT_COMB_80 0x07
#define MDT_PHOTO_80 0x08
#define MDT_NO_DISC 0x70
#define MDT_DOOR_OPEN 0x71
#define MDT_FMT_ERROR 0x72
u_char reserved1[5];
/* Capabilities page */
u_char page_code;
#define CAP_PAGE 0x2a
u_char param_len;
u_char reserved2[2];
u_char audio_play : 1; /* audio play supported */
u_char composite : 1; /* composite audio/video supported */
u_char dport1 : 1; /* digital audio on port 1 */
u_char dport2 : 1; /* digital audio on port 2 */
u_char mode2_form1 : 1; /* mode 2 form 1 (XA) read */
u_char mode2_form2 : 1; /* mode 2 form 2 format */
u_char multisession : 1; /* multi-session photo-CD */
u_char : 1;
u_char cd_da : 1; /* audio-CD read supported */
u_char cd_da_stream : 1; /* CD-DA streaming */
u_char rw : 1; /* combined R-W subchannels */
u_char rw_corr : 1; /* R-W subchannel data corrected */
u_char c2 : 1; /* C2 error pointers supported */
u_char isrc : 1; /* can return the ISRC info */
u_char upc : 1; /* can return the catalog number UPC */
u_char : 1;
u_char lock : 1; /* could be locked */
u_char locked : 1; /* current lock state */
u_char prevent : 1; /* prevent jumper installed */
u_char eject : 1; /* can eject */
u_char : 1;
u_char mech : 3; /* loading mechanism type */
#define MECH_CADDY 0
#define MECH_TRAY 1
#define MECH_POPUP 2
#define MECH_CHANGER 4
#define MECH_CARTRIDGE 5
u_char sep_vol : 1; /* independent volume of channels */
u_char sep_mute : 1; /* independent mute of channels */
u_char : 6;
u_short max_speed; /* max raw data rate in bytes/1000 */
u_short max_vol_levels; /* number of discrete volume levels */
u_short buf_size; /* internal buffer size in bytes/1024 */
u_short cur_speed; /* current data rate in bytes/1000 */
/* Digital drive output format description (optional?) */
u_char reserved3;
u_char bckf : 1; /* data valid on failing edge of BCK */
u_char rch : 1; /* high LRCK indicates left channel */
u_char lsbf : 1; /* set if LSB first */
u_char dlen: 2;
#define DLEN_32 0 /* 32 BCKs */
#define DLEN_16 1 /* 16 BCKs */
#define DLEN_24 2 /* 24 BCKs */
#define DLEN_24_I2S 3 /* 24 BCKs (I2S) */
u_char : 3;
u_char reserved4[2];
};
/*
* CDROM changer mechanism status structure
*/
struct changer {
u_char current_slot : 5; /* active changer slot */
u_char mech_state : 2; /* current changer state */
#define CH_READY 0
#define CH_LOADING 1
#define CH_UNLOADING 2
#define CH_INITIALIZING 3
u_char fault : 1; /* fault in last operation */
u_char reserved0 : 5;
u_char cd_state : 3; /* current mechanism state */
#define CD_IDLE 0
#define CD_AUDIO_ACTIVE 1
#define CD_AUDIO_SCAN 2
#define CD_HOST_ACTIVE 3
#define CD_NO_STATE 7
u_char current_lba[3]; /* current LBA */
u_char slots; /* number of available slots */
u_short table_length; /* slot table length */
struct {
u_char changed : 1; /* media has changed in this slot */
u_char unused : 6;
u_char present : 1; /* slot has a CD present */
u_char reserved0;
u_char reserved1;
u_char reserved2;
} slot[32];
};
struct wcd {
struct atapi *ata; /* Controller structure */
int unit; /* IDE bus drive unit */
int lun; /* Logical device unit */
int flags; /* Device state flags */
int refcnt; /* The number of raw opens */
struct buf_queue_head buf_queue;/* Queue of i/o requests */
struct atapi_params *param; /* Drive parameters table */
struct toc toc; /* Table of disc contents */
struct volinfo info; /* Volume size info */
struct audiopage au; /* Audio page info */
struct cappage cap; /* Capabilities page info */
struct audiopage aumask; /* Audio page mask */
struct subchan subchan; /* Subchannel info */
char description[80]; /* Device description */
struct changer *changer_info; /* changer info */
int slot; /* this lun's slot number */
#ifdef DEVFS
void *ra_devfs_token;
void *rc_devfs_token;
void *a_devfs_token;
void *c_devfs_token;
#endif
};
1998-02-09 06:11:36 +00:00
static struct wcd *wcdtab[NUNIT]; /* Drive info by unit number */
static int wcdnlun = 0; /* Number of configured drives */
static struct wcd *wcd_init_lun(struct atapi *ata, int unit,
struct atapi_params *ap, int lun);
static void wcd_start (struct wcd *t);
static void wcd_done (struct wcd *t, struct buf *bp, int resid,
struct atapires result);
static void wcd_error (struct wcd *t, struct atapires result);
static int wcd_read_toc (struct wcd *t);
static int wcd_request_wait (struct wcd *t, u_char cmd, u_char a1, u_char a2,
u_char a3, u_char a4, u_char a5, u_char a6, u_char a7, u_char a8,
u_char a9, char *addr, int count);
static void wcd_describe (struct wcd *t);
static int wcd_open(dev_t dev, int rawflag);
static int wcd_setchan (struct wcd *t,
u_char c0, u_char c1, u_char c2, u_char c3);
1996-06-09 12:17:53 +00:00
static int wcd_eject (struct wcd *t, int closeit);
static void wcd_select_slot(struct wcd *cdp);
/*
* Dump the array in hexadecimal format for debugging purposes.
*/
static void wcd_dump (int lun, char *label, void *data, int len)
{
u_char *p = data;
printf ("wcd%d: %s %x", lun, label, *p++);
while (--len > 0)
printf ("-%x", *p++);
printf ("\n");
}
struct wcd *
wcd_init_lun(struct atapi *ata, int unit, struct atapi_params *ap, int lun)
{
struct wcd *ptr;
ptr = malloc(sizeof(struct wcd), M_TEMP, M_NOWAIT);
if (!ptr)
return NULL;
bzero(ptr, sizeof(struct wcd));
bufq_init(&ptr->buf_queue);
ptr->ata = ata;
ptr->unit = unit;
ptr->lun = lun;
ptr->param = ap;
ptr->flags = F_MEDIA_CHANGED;
ptr->refcnt = 0;
ptr->slot = -1;
ptr->changer_info = NULL;
#ifdef DEVFS
ptr->ra_devfs_token =
devfs_add_devswf(&wcd_cdevsw, dkmakeminor(lun, 0, 0),
DV_CHR, UID_ROOT, GID_OPERATOR, 0640,
"rwcd%da", lun);
ptr->rc_devfs_token =
devfs_add_devswf(&wcd_cdevsw, dkmakeminor(lun, 0, RAW_PART),
DV_CHR, UID_ROOT, GID_OPERATOR, 0640,
"rwcd%dc", lun);
ptr->a_devfs_token =
devfs_add_devswf(&wcd_bdevsw, dkmakeminor(lun, 0, 0),
DV_BLK, UID_ROOT, GID_OPERATOR, 0640,
"wcd%da", lun);
ptr->c_devfs_token =
devfs_add_devswf(&wcd_bdevsw, dkmakeminor(lun, 0, RAW_PART),
DV_BLK, UID_ROOT, GID_OPERATOR, 0640,
"wcd%dc", lun);
#endif
return ptr;
}
#ifndef ATAPI_STATIC
static
#endif
int
wcdattach (struct atapi *ata, int unit, struct atapi_params *ap, int debug)
{
struct wcd *cdp;
struct atapires result;
struct changer *chp;
int i;
if (wcdnlun >= NUNIT) {
printf ("wcd: too many units\n");
return (0);
}
if (!atapi_request_immediate) {
printf("wcd: configuration error, ATAPI core code not present!\n");
printf("wcd: check `options ATAPI_STATIC' in your kernel config file!\n");
return (0);
}
if ((cdp = wcd_init_lun(ata, unit, ap, wcdnlun)) == NULL) {
printf("wcd: out of memory\n");
return 0;
}
wcdtab[wcdnlun] = cdp;
if (debug) {
cdp->flags |= F_DEBUG;
/* Print params. */
wcd_dump (cdp->lun, "info", ap, sizeof *ap);
}
/* Get drive capabilities. */
result = atapi_request_immediate (ata, unit, ATAPI_MODE_SENSE,
0, CAP_PAGE, 0, 0, 0, 0, sizeof (cdp->cap) >> 8, sizeof (cdp->cap),
0, 0, 0, 0, 0, 0, 0, (char*) &cdp->cap, sizeof (cdp->cap));
/* Do it twice to avoid the stale media changed state. */
if (result.code == RES_ERR &&
(result.error & AER_SKEY) == AER_SK_UNIT_ATTENTION)
result = atapi_request_immediate (ata, unit, ATAPI_MODE_SENSE,
0, CAP_PAGE, 0, 0, 0, 0, sizeof (cdp->cap) >> 8,
sizeof (cdp->cap), 0, 0, 0, 0, 0, 0, 0,
(char*) &cdp->cap, sizeof (cdp->cap));
/* Some drives have shorter capabilities page. */
if (result.code == RES_UNDERRUN)
result.code = 0;
if (result.code == 0) {
wcd_describe (cdp);
if (cdp->flags & F_DEBUG)
wcd_dump (cdp->lun, "cap", &cdp->cap, sizeof(cdp->cap));
}
/* If this is a changer device, allocate the neeeded lun's */
if (cdp->cap.mech == MECH_CHANGER) {
chp = malloc(sizeof(struct changer), M_TEMP, M_NOWAIT);
if (chp == NULL) {
printf("wcd: out of memory\n");
return 0;
}
bzero(chp, sizeof(struct changer));
result = atapi_request_immediate(ata, unit, ATAPI_MECH_STATUS,
0, 0, 0, 0, 0, 0, 0,
sizeof(struct changer)> 8, sizeof(struct changer),
0, 0, 0, 0, 0, 0,
(char*) chp, sizeof(struct changer));
if (cdp->flags & F_DEBUG) {
printf("result.code=%d curr=%02x slots=%d len=%d\n",
result.code, chp->current_slot, chp->slots,
htons(chp->table_length));
}
if (result.code == RES_UNDERRUN)
result.code = 0;
if (result.code == 0) {
chp->table_length = htons(chp->table_length);
for (i=0; i<chp->slots && wcdnlun<NUNIT; i++) {
if (i>0) {
cdp = wcd_init_lun(ata,unit,ap,wcdnlun);
if (cdp == NULL) {
printf("wcd: out of memory\n");
return 0;
}
}
cdp->slot = i;
cdp->changer_info = chp;
printf("wcd%d: changer slot %d %s\n",
wcdnlun,
i, (chp->slot[i].present ?
"disk present" : "no disk"));
wcdtab[wcdnlun++] = cdp;
}
if (wcdnlun >= NUNIT) {
printf ("wcd: too many units\n");
return (0);
}
}
}
else
wcdnlun++;
return (1);
}
void wcd_describe (struct wcd *t)
{
char *m;
t->cap.max_speed = ntohs (t->cap.max_speed);
t->cap.max_vol_levels = ntohs (t->cap.max_vol_levels);
t->cap.buf_size = ntohs (t->cap.buf_size);
t->cap.cur_speed = ntohs (t->cap.cur_speed);
printf ("wcd%d: ", t->lun);
if (t->cap.cur_speed != t->cap.max_speed)
printf ("%d/", t->cap.cur_speed * 1000 / 1024);
printf ("%dKb/sec", t->cap.max_speed * 1000 / 1024);
if (t->cap.buf_size)
printf (", %dKb cache", t->cap.buf_size);
if (t->cap.audio_play)
printf (", audio play");
if (t->cap.max_vol_levels)
printf (", %d volume levels", t->cap.max_vol_levels);
switch (t->cap.mech) {
default: m = 0; break;
case MECH_CADDY: m = "caddy"; break;
case MECH_TRAY: m = "tray"; break;
case MECH_POPUP: m = "popup"; break;
case MECH_CHANGER: m = "changer"; break;
case MECH_CARTRIDGE: m = "cartridge"; break;
}
if (m)
printf (", %s%s", t->cap.eject ? "ejectable " : "", m);
else if (t->cap.eject)
printf (", eject");
printf ("\n");
if (t->cap.mech != MECH_CHANGER) {
printf ("wcd%d: ", t->lun);
switch (t->cap.medium_type) {
case MDT_UNKNOWN:
printf ("medium type unknown"); break;
case MDT_DATA_120:
printf ("120mm data disc loaded"); break;
case MDT_AUDIO_120:
printf ("120mm audio disc loaded"); break;
case MDT_COMB_120:
printf ("120mm data/audio disc loaded"); break;
case MDT_PHOTO_120:
printf ("120mm photo disc loaded"); break;
case MDT_DATA_80:
printf ("80mm data disc loaded"); break;
case MDT_AUDIO_80:
printf ("80mm audio disc loaded"); break;
case MDT_COMB_80:
printf ("80mm data/audio disc loaded"); break;
case MDT_PHOTO_80:
printf ("80mm photo disc loaded"); break;
case MDT_NO_DISC:
printf ("no disc inside"); break;
case MDT_DOOR_OPEN:
printf ("door open"); break;
case MDT_FMT_ERROR:
printf ("medium format error"); break;
default:
printf ("medium type=0x%x", t->cap.medium_type); break;
}
}
if (t->cap.lock)
printf (t->cap.locked ? ", locked" : ", unlocked");
if (t->cap.prevent)
printf (", lock protected");
printf ("\n");
}
static int
wcd_open (dev_t dev, int rawflag)
{
int lun = dkunit(dev);
struct wcd *t;
/* Check device number is legal and ATAPI driver is loaded. */
if (lun >= wcdnlun || ! atapi_request_immediate)
return (ENXIO);
t = wcdtab[lun];
/* On the first open, read the table of contents. */
if (! (t->flags & F_BOPEN) && ! t->refcnt) {
/* Read table of contents. */
if (wcd_read_toc (t) < 0)
return (EIO);
/* Lock the media. */
wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0);
t->flags |= F_LOCKED;
}
if (rawflag)
++t->refcnt;
else
t->flags |= F_BOPEN;
return (0);
}
int wcdbopen (dev_t dev, int flags, int fmt, struct proc *p)
{
return wcd_open (dev, 0);
}
int wcdropen (dev_t dev, int flags, int fmt, struct proc *p)
{
return wcd_open (dev, 1);
}
/*
* Close the device. Only called if we are the LAST
* occurence of an open device.
*/
int wcdbclose (dev_t dev, int flags, int fmt, struct proc *p)
{
int lun = dkunit(dev);
struct wcd *t = wcdtab[lun];
/* If we were the last open of the entire device, release it. */
if (! t->refcnt)
wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
t->flags &= ~(F_BOPEN|F_LOCKED);
return (0);
}
int wcdrclose (dev_t dev, int flags, int fmt, struct proc *p)
{
int lun = dkunit(dev);
struct wcd *t = wcdtab[lun];
/* If we were the last open of the entire device, release it. */
if (! (t->flags & F_BOPEN) && t->refcnt == 1)
wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
t->flags &= ~F_LOCKED;
--t->refcnt;
return (0);
}
/*
* Actually translate the requested transfer into one the physical driver can
* understand. The transfer is described by a buf and will include only one
* physical transfer.
*/
void wcdstrategy (struct buf *bp)
{
int lun = dkunit(bp->b_dev);
struct wcd *t = wcdtab[lun];
int x;
/* Can't ever write to a CD. */
if (! (bp->b_flags & B_READ)) {
bp->b_error = EROFS;
bp->b_flags |= B_ERROR;
biodone (bp);
return;
}
/* If it's a null transfer, return immediatly. */
if (bp->b_bcount == 0) {
bp->b_resid = 0;
biodone (bp);
return;
}
/* Process transfer request. */
bp->b_pblkno = bp->b_blkno;
bp->b_resid = bp->b_bcount;
x = splbio();
/* Place it in the queue of disk activities for this disk. */
bufqdisksort (&t->buf_queue, bp);
/* Tell the device to get going on the transfer if it's
* not doing anything, otherwise just wait for completion. */
wcd_start (t);
splx(x);
}
/*
* Look to see if there is a buf waiting for the device
* and that the device is not already busy. If both are true,
* It dequeues the buf and creates an ATAPI command to perform the
* transfer in the buf.
* The bufs are queued by the strategy routine (wcdstrategy).
* Must be called at the correct (splbio) level.
*/
static void wcd_start (struct wcd *t)
{
struct buf *bp = bufq_first(&t->buf_queue);
u_long blkno, nblk;
/* See if there is a buf to do and we are not already doing one. */
if (! bp)
return;
/* Unqueue the request. */
bufq_remove(&t->buf_queue, bp);
/* Should reject all queued entries if media have changed. */
if (t->flags & F_MEDIA_CHANGED) {
bp->b_error = EIO;
bp->b_flags |= B_ERROR;
biodone (bp);
return;
}
wcd_select_slot(t);
/* We have a buf, now we should make a command
* First, translate the block to absolute and put it in terms of the
* logical blocksize of the device.
* What if something asks for 512 bytes not on a 2k boundary? */
blkno = bp->b_blkno / (SECSIZE / 512);
nblk = (bp->b_bcount + (SECSIZE - 1)) / SECSIZE;
atapi_request_callback (t->ata, t->unit, ATAPI_READ_BIG, 0,
blkno>>24, blkno>>16, blkno>>8, blkno, 0, nblk>>8, nblk, 0, 0,
0, 0, 0, 0, 0, (u_char*) bp->b_data, bp->b_bcount,
wcd_done, t, bp);
}
static void wcd_done (struct wcd *t, struct buf *bp, int resid,
struct atapires result)
{
if (result.code) {
wcd_error (t, result);
bp->b_error = EIO;
bp->b_flags |= B_ERROR;
} else
bp->b_resid = resid;
biodone (bp);
wcd_start (t);
}
static void wcd_error (struct wcd *t, struct atapires result)
{
if (result.code != RES_ERR)
return;
switch (result.error & AER_SKEY) {
case AER_SK_NOT_READY:
if (result.error & ~AER_SKEY) {
/* Audio disc. */
printf ("wcd%d: cannot read audio disc\n", t->lun);
return;
}
/* Tray open. */
if (! (t->flags & F_MEDIA_CHANGED))
printf ("wcd%d: tray open\n", t->lun);
t->flags |= F_MEDIA_CHANGED;
return;
case AER_SK_UNIT_ATTENTION:
/* Media changed. */
if (! (t->flags & F_MEDIA_CHANGED))
printf ("wcd%d: media changed\n", t->lun);
t->flags |= F_MEDIA_CHANGED;
return;
case AER_SK_ILLEGAL_REQUEST:
/* Unknown command or invalid command arguments. */
if (t->flags & F_DEBUG)
printf ("wcd%d: invalid command\n", t->lun);
return;
}
printf ("wcd%d: i/o error, status=%b, error=%b\n", t->lun,
result.status, ARS_BITS, result.error, AER_BITS);
}
static int wcd_request_wait (struct wcd *t, u_char cmd, u_char a1, u_char a2,
u_char a3, u_char a4, u_char a5, u_char a6, u_char a7, u_char a8,
u_char a9, char *addr, int count)
{
struct atapires result;
result = atapi_request_wait (t->ata, t->unit, cmd,
a1, a2, a3, a4, a5, a6, a7, a8, a9, 0, 0, 0, 0, 0, 0,
addr, count);
if (result.code) {
wcd_error (t, result);
return (EIO);
}
return (0);
}
1998-04-15 17:47:40 +00:00
static __inline void lba2msf (int lba, u_char *m, u_char *s, u_char *f)
{
lba += 150; /* offset of first logical frame */
lba &= 0xffffff; /* negative lbas use only 24 bits */
*m = lba / (60 * 75);
lba %= (60 * 75);
*s = lba / 75;
*f = lba % 75;
}
/*
* Perform special action on behalf of the user.
* Knows about the internals of this device
*/
int wcdioctl (dev_t dev, int cmd, caddr_t addr, int flag, struct proc *p)
{
int lun = dkunit(dev);
struct wcd *t = wcdtab[lun];
int error = 0;
if (t->flags & F_MEDIA_CHANGED)
switch (cmd) {
case CDIOCSETDEBUG:
case CDIOCCLRDEBUG:
case CDIOCRESET:
/* These ops are media change transparent. */
break;
default:
/* Read table of contents. */
wcd_read_toc (t);
/* Lock the media. */
wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0);
t->flags |= F_LOCKED;
break;
}
switch (cmd) {
default:
return (ENOTTY);
case CDIOCSETDEBUG:
if (p->p_cred->pc_ucred->cr_uid)
return (EPERM);
t->flags |= F_DEBUG;
atapi_debug (t->ata, 1);
return 0;
case CDIOCCLRDEBUG:
if (p->p_cred->pc_ucred->cr_uid)
return (EPERM);
t->flags &= ~F_DEBUG;
atapi_debug (t->ata, 0);
return 0;
case CDIOCRESUME:
return wcd_request_wait (t, ATAPI_PAUSE,
0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0);
case CDIOCPAUSE:
return wcd_request_wait (t, ATAPI_PAUSE,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
case CDIOCSTART:
return wcd_request_wait (t, ATAPI_START_STOP,
1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0);
case CDIOCSTOP:
return wcd_request_wait (t, ATAPI_START_STOP,
1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
case CDIOCALLOW:
wcd_select_slot(t);
t->flags &= ~F_LOCKED;
return wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
case CDIOCPREVENT:
wcd_select_slot(t);
t->flags |= F_LOCKED;
return wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0);
case CDIOCRESET:
if (p->p_cred->pc_ucred->cr_uid)
return (EPERM);
return wcd_request_wait (t, ATAPI_TEST_UNIT_READY,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
case CDIOCEJECT:
/* Don't allow eject if the device is opened
* by somebody (not us) in block mode. */
if ((t->flags & F_BOPEN) && t->refcnt)
return (EBUSY);
1996-06-09 12:17:53 +00:00
return wcd_eject (t, 0);
case CDIOCCLOSE:
if ((t->flags & F_BOPEN) && t->refcnt)
return (0);
return wcd_eject (t, 1);
case CDIOREADTOCHEADER:
if (! t->toc.hdr.ending_track)
return (EIO);
bcopy (&t->toc.hdr, addr, sizeof t->toc.hdr);
break;
case CDIOREADTOCENTRYS: {
struct ioc_read_toc_entry *te =
(struct ioc_read_toc_entry*) addr;
struct toc *toc = &t->toc;
struct toc buf;
u_long len;
u_char starting_track = te->starting_track;
if (! t->toc.hdr.ending_track)
return (EIO);
if ( te->data_len < sizeof(toc->tab[0])
|| (te->data_len % sizeof(toc->tab[0])) != 0
|| te->address_format != CD_MSF_FORMAT
&& te->address_format != CD_LBA_FORMAT
)
return EINVAL;
if (starting_track == 0)
starting_track = toc->hdr.starting_track;
else if (starting_track == 170) /* Handle leadout request */
starting_track = toc->hdr.ending_track + 1;
else if (starting_track < toc->hdr.starting_track ||
starting_track > toc->hdr.ending_track + 1)
return (EINVAL);
len = ((toc->hdr.ending_track + 1 - starting_track) + 1) *
sizeof(toc->tab[0]);
if (te->data_len < len)
len = te->data_len;
if (len > sizeof(toc->tab))
return EINVAL;
/* Convert to MSF format, if needed. */
if (te->address_format == CD_MSF_FORMAT) {
struct cd_toc_entry *e;
buf = t->toc;
toc = &buf;
e = toc->tab + (toc->hdr.ending_track + 1 -
toc->hdr.starting_track) + 1;
while (--e >= toc->tab)
lba2msf (ntohl(e->addr.lba), &e->addr.msf.minute,
&e->addr.msf.second, &e->addr.msf.frame);
}
return copyout (toc->tab + starting_track -
toc->hdr.starting_track, te->data, len);
}
case CDIOREADTOCENTRY: {
struct ioc_read_toc_single_entry *te =
(struct ioc_read_toc_single_entry*) addr;
struct toc *toc = &t->toc;
struct toc buf;
u_char track = te->track;
if (! t->toc.hdr.ending_track)
return (EIO);
if (te->address_format != CD_MSF_FORMAT
&& te->address_format != CD_LBA_FORMAT)
return EINVAL;
if (track == 0)
track = toc->hdr.starting_track;
else if (track == 170) /* Handle leadout request */
track = toc->hdr.ending_track + 1;
else if (track < toc->hdr.starting_track ||
track > toc->hdr.ending_track + 1)
return (EINVAL);
/* Convert to MSF format, if needed. */
if (te->address_format == CD_MSF_FORMAT) {
struct cd_toc_entry *e;
buf = t->toc;
toc = &buf;
e = toc->tab + (track - toc->hdr.starting_track);
lba2msf (ntohl(e->addr.lba), &e->addr.msf.minute,
&e->addr.msf.second, &e->addr.msf.frame);
}
bcopy(toc->tab + track - toc->hdr.starting_track,
&te->entry, sizeof(struct cd_toc_entry));
}
case CDIOCREADSUBCHANNEL: {
struct ioc_read_subchannel *args =
(struct ioc_read_subchannel*) addr;
struct cd_sub_channel_info data;
u_long len = args->data_len;
int abslba, rellba;
if (len > sizeof(data) ||
len < sizeof(struct cd_sub_channel_header))
return (EINVAL);
if (wcd_request_wait (t, ATAPI_READ_SUBCHANNEL, 0, 0x40, 1, 0,
0, 0, sizeof (t->subchan) >> 8, sizeof (t->subchan),
0, (char*)&t->subchan, sizeof (t->subchan)) != 0)
return (EIO);
if (t->flags & F_DEBUG)
wcd_dump (t->lun, "subchan", &t->subchan, sizeof t->subchan);
abslba = t->subchan.abslba;
rellba = t->subchan.rellba;
if (args->address_format == CD_MSF_FORMAT) {
lba2msf (ntohl(abslba),
&data.what.position.absaddr.msf.minute,
&data.what.position.absaddr.msf.second,
&data.what.position.absaddr.msf.frame);
lba2msf (ntohl(rellba),
&data.what.position.reladdr.msf.minute,
&data.what.position.reladdr.msf.second,
&data.what.position.reladdr.msf.frame);
} else {
data.what.position.absaddr.lba = abslba;
data.what.position.reladdr.lba = rellba;
}
data.header.audio_status = t->subchan.audio_status;
1996-02-02 20:54:27 +00:00
data.what.position.control = t->subchan.control & 0xf;
data.what.position.addr_type = t->subchan.control >> 4;
data.what.position.track_number = t->subchan.track;
data.what.position.index_number = t->subchan.indx;
return copyout (&data, args->data, len);
}
case CDIOCPLAYMSF: {
struct ioc_play_msf *args = (struct ioc_play_msf*) addr;
return wcd_request_wait (t, ATAPI_PLAY_MSF, 0, 0,
args->start_m, args->start_s, args->start_f,
args->end_m, args->end_s, args->end_f, 0, 0, 0);
}
case CDIOCPLAYBLOCKS: {
struct ioc_play_blocks *args = (struct ioc_play_blocks*) addr;
return wcd_request_wait (t, ATAPI_PLAY_BIG, 0,
args->blk >> 24 & 0xff, args->blk >> 16 & 0xff,
args->blk >> 8 & 0xff, args->blk & 0xff,
args->len >> 24 & 0xff, args->len >> 16 & 0xff,
args->len >> 8 & 0xff, args->len & 0xff, 0, 0);
}
case CDIOCPLAYTRACKS: {
struct ioc_play_track *args = (struct ioc_play_track*) addr;
u_long start, len;
int t1, t2;
if (! t->toc.hdr.ending_track)
return (EIO);
/* Ignore index fields,
* play from start_track to end_track inclusive. */
if (args->end_track < t->toc.hdr.ending_track+1)
++args->end_track;
if (args->end_track > t->toc.hdr.ending_track+1)
args->end_track = t->toc.hdr.ending_track+1;
t1 = args->start_track - t->toc.hdr.starting_track;
t2 = args->end_track - t->toc.hdr.starting_track;
if (t1 < 0 || t2 < 0)
return (EINVAL);
start = ntohl(t->toc.tab[t1].addr.lba);
len = ntohl(t->toc.tab[t2].addr.lba) - start;
return wcd_request_wait (t, ATAPI_PLAY_BIG, 0,
start >> 24 & 0xff, start >> 16 & 0xff,
start >> 8 & 0xff, start & 0xff,
len >> 24 & 0xff, len >> 16 & 0xff,
len >> 8 & 0xff, len & 0xff, 0, 0);
}
case CDIOCGETVOL: {
struct ioc_vol *arg = (struct ioc_vol*) addr;
error = wcd_request_wait (t, ATAPI_MODE_SENSE, 0, AUDIO_PAGE,
0, 0, 0, 0, sizeof (t->au) >> 8, sizeof (t->au), 0,
(char*) &t->au, sizeof (t->au));
if (error)
return (error);
if (t->flags & F_DEBUG)
wcd_dump (t->lun, "au", &t->au, sizeof t->au);
if (t->au.page_code != AUDIO_PAGE)
return (EIO);
arg->vol[0] = t->au.port[0].volume;
arg->vol[1] = t->au.port[1].volume;
arg->vol[2] = t->au.port[2].volume;
arg->vol[3] = t->au.port[3].volume;
break;
}
case CDIOCSETVOL: {
struct ioc_vol *arg = (struct ioc_vol*) addr;
error = wcd_request_wait (t, ATAPI_MODE_SENSE, 0, AUDIO_PAGE,
0, 0, 0, 0, sizeof (t->au) >> 8, sizeof (t->au), 0,
(char*) &t->au, sizeof (t->au));
if (error)
return (error);
if (t->flags & F_DEBUG)
wcd_dump (t->lun, "au", &t->au, sizeof t->au);
if (t->au.page_code != AUDIO_PAGE)
return (EIO);
error = wcd_request_wait (t, ATAPI_MODE_SENSE, 0,
AUDIO_PAGE_MASK, 0, 0, 0, 0, sizeof (t->aumask) >> 8,
sizeof (t->aumask), 0, (char*) &t->aumask,
sizeof (t->aumask));
if (error)
return (error);
if (t->flags & F_DEBUG)
wcd_dump (t->lun, "mask", &t->aumask, sizeof t->aumask);
/* Sony-55E requires the data length field to be zeroed. */
t->au.data_length = 0;
t->au.port[0].channels = CHANNEL_0;
t->au.port[1].channels = CHANNEL_1;
t->au.port[0].volume = arg->vol[0] & t->aumask.port[0].volume;
t->au.port[1].volume = arg->vol[1] & t->aumask.port[1].volume;
t->au.port[2].volume = arg->vol[2] & t->aumask.port[2].volume;
t->au.port[3].volume = arg->vol[3] & t->aumask.port[3].volume;
return wcd_request_wait (t, ATAPI_MODE_SELECT_BIG, 0x10,
0, 0, 0, 0, 0, sizeof (t->au) >> 8, sizeof (t->au),
0, (char*) &t->au, - sizeof (t->au));
}
case CDIOCSETPATCH: {
struct ioc_patch *arg = (struct ioc_patch*) addr;
return wcd_setchan (t, arg->patch[0], arg->patch[1],
arg->patch[2], arg->patch[3]);
}
case CDIOCSETMONO:
return wcd_setchan (t, CHANNEL_0 | CHANNEL_1,
CHANNEL_0 | CHANNEL_1, 0, 0);
case CDIOCSETSTERIO:
return wcd_setchan (t, CHANNEL_0, CHANNEL_1, 0, 0);
case CDIOCSETMUTE:
return wcd_setchan (t, 0, 0, 0, 0);
case CDIOCSETLEFT:
return wcd_setchan (t, CHANNEL_0, CHANNEL_0, 0, 0);
case CDIOCSETRIGHT:
return wcd_setchan (t, CHANNEL_1, CHANNEL_1, 0, 0);
}
return (error);
}
/*
* Read the entire TOC for the disc into our internal buffer.
*/
static int wcd_read_toc (struct wcd *t)
{
int ntracks, len;
struct atapires result;
bzero (&t->toc, sizeof (t->toc));
bzero (&t->info, sizeof (t->info));
wcd_select_slot(t);
/* Check for the media.
* Do it twice to avoid the stale media changed state. */
result = atapi_request_wait (t->ata, t->unit, ATAPI_TEST_UNIT_READY,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
if (result.code == RES_ERR &&
(result.error & AER_SKEY) == AER_SK_UNIT_ATTENTION) {
t->flags |= F_MEDIA_CHANGED;
result = atapi_request_wait (t->ata, t->unit,
ATAPI_TEST_UNIT_READY, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0);
}
if (result.code) {
wcd_error (t, result);
return (EIO);
}
t->flags &= ~F_MEDIA_CHANGED;
/* First read just the header, so we know how long the TOC is. */
len = sizeof(struct ioc_toc_header) + sizeof(struct cd_toc_entry);
if (wcd_request_wait (t, ATAPI_READ_TOC, 0, 0, 0, 0, 0, 0,
len >> 8, len & 0xff, 0, (char*)&t->toc, len) != 0) {
err: bzero (&t->toc, sizeof (t->toc));
return (0);
}
ntracks = t->toc.hdr.ending_track - t->toc.hdr.starting_track + 1;
if (ntracks <= 0 || ntracks > MAXTRK)
goto err;
/* Now read the whole schmeer. */
len = sizeof(struct ioc_toc_header) +
ntracks * sizeof(struct cd_toc_entry);
if (wcd_request_wait (t, ATAPI_READ_TOC, 0, 0, 0, 0, 0, 0,
len >> 8, len & 0xff, 0, (char*)&t->toc, len) & 0xff)
goto err;
NTOHS(t->toc.hdr.len);
/* Read disc capacity. */
if (wcd_request_wait (t, ATAPI_READ_CAPACITY, 0, 0, 0, 0, 0, 0,
0, sizeof(t->info), 0, (char*)&t->info, sizeof(t->info)) != 0)
bzero (&t->info, sizeof (t->info));
/* make fake leadout entry */
t->toc.tab[ntracks].control = t->toc.tab[ntracks-1].control;
t->toc.tab[ntracks].addr_type = t->toc.tab[ntracks-1].addr_type;
t->toc.tab[ntracks].track = 170; /* magic */
t->toc.tab[ntracks].addr.lba = t->info.volsize;
NTOHL(t->info.volsize);
NTOHL(t->info.blksize);
/* Print the disc description string on every disc change.
* It would help to track the history of disc changes. */
if (t->info.volsize && t->toc.hdr.ending_track &&
(t->flags & F_MEDIA_CHANGED) && (t->flags & F_DEBUG)) {
printf ("wcd%d: ", t->lun);
1996-02-02 20:54:27 +00:00
if (t->toc.tab[0].control & 4)
printf ("%ldMB ", t->info.volsize / 512);
else
printf ("%ld:%ld audio ", t->info.volsize/75/60,
t->info.volsize/75%60);
printf ("(%ld sectors), %d tracks\n", t->info.volsize,
t->toc.hdr.ending_track - t->toc.hdr.starting_track + 1);
}
return (0);
}
/*
* Set up the audio channel masks.
*/
static int wcd_setchan (struct wcd *t,
u_char c0, u_char c1, u_char c2, u_char c3)
{
int error;
error = wcd_request_wait (t, ATAPI_MODE_SENSE, 0, AUDIO_PAGE,
0, 0, 0, 0, sizeof (t->au) >> 8, sizeof (t->au), 0,
(char*) &t->au, sizeof (t->au));
if (error)
return (error);
if (t->flags & F_DEBUG)
wcd_dump (t->lun, "au", &t->au, sizeof t->au);
if (t->au.page_code != AUDIO_PAGE)
return (EIO);
/* Sony-55E requires the data length field to be zeroed. */
t->au.data_length = 0;
t->au.port[0].channels = c0;
t->au.port[1].channels = c1;
t->au.port[2].channels = c2;
t->au.port[3].channels = c3;
return wcd_request_wait (t, ATAPI_MODE_SELECT_BIG, 0x10,
0, 0, 0, 0, 0, sizeof (t->au) >> 8, sizeof (t->au),
0, (char*) &t->au, - sizeof (t->au));
}
1996-06-09 12:17:53 +00:00
static int wcd_eject (struct wcd *t, int closeit)
{
struct atapires result;
wcd_select_slot(t);
/* Try to stop the disc. */
result = atapi_request_wait (t->ata, t->unit, ATAPI_START_STOP,
1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
if (result.code == RES_ERR &&
((result.error & AER_SKEY) == AER_SK_NOT_READY ||
(result.error & AER_SKEY) == AER_SK_UNIT_ATTENTION)) {
1996-06-09 12:17:53 +00:00
int err;
if (!closeit)
return (0);
/*
* The disc was unloaded.
* Load it (close tray).
* Read the table of contents.
*/
1996-06-09 12:17:53 +00:00
err = wcd_request_wait (t, ATAPI_START_STOP,
0, 0, 0, 3, 0, 0, 0, 0, 0, 0, 0);
if (err)
return (err);
/* Read table of contents. */
wcd_read_toc (t);
/* Lock the media. */
wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0);
t->flags |= F_LOCKED;
return (0);
}
if (result.code) {
wcd_error (t, result);
return (EIO);
}
1996-06-09 12:17:53 +00:00
if (closeit)
return (0);
/* Give it some time to stop spinning. */
tsleep ((caddr_t)&lbolt, PRIBIO, "wcdej1", 0);
tsleep ((caddr_t)&lbolt, PRIBIO, "wcdej2", 0);
/* Unlock. */
wcd_request_wait (t, ATAPI_PREVENT_ALLOW,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
t->flags &= ~F_LOCKED;
/* Eject. */
t->flags |= F_MEDIA_CHANGED;
return wcd_request_wait (t, ATAPI_START_STOP,
0, 0, 0, 2, 0, 0, 0, 0, 0, 0, 0);
}
static void
wcd_select_slot(struct wcd *cdp)
{
if (cdp->slot < 0 || cdp->changer_info->current_slot == cdp->slot)
return;
/* Unlock (might not be needed but its cheaper than asking) */
wcd_request_wait (cdp, ATAPI_PREVENT_ALLOW,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0);
/* Unload the current media from player */
wcd_request_wait (cdp, ATAPI_LOAD_UNLOAD,
0, 0, 0, 2, 0, 0, 0, cdp->changer_info->current_slot, 0, 0, 0);
/* load the wanted slot */
wcd_request_wait (cdp, ATAPI_LOAD_UNLOAD,
0, 0, 0, 3, 0, 0, 0, cdp->slot, 0, 0, 0);
cdp->changer_info->current_slot = cdp->slot;
/* Lock the media if needed */
if (cdp->flags & F_LOCKED) {
wcd_request_wait (cdp, ATAPI_PREVENT_ALLOW,
0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0);
}
}
#ifdef WCD_MODULE
/*
* Loadable ATAPI CD-ROM driver stubs.
*/
#include <sys/exec.h>
#include <sys/sysent.h>
#include <sys/lkm.h>
/*
* Construct lkm_dev structures (see lkm.h).
* Our bdevsw/cdevsw slot numbers are 19/69.
*/
MOD_DEV(wcd, LM_DT_BLOCK, BDEV_MAJOR, &wcd_bdevsw);
MOD_DEV(rwcd, LM_DT_CHAR, CDEV_MAJOR, &wcd_cdevsw);
/*
* Function called when loading the driver.
*/
int wcd_load (struct lkm_table *lkmtp, int cmd)
{
struct atapi *ata;
int n, u;
if (! atapi_start)
/* No ATAPI driver available. */
return EPROTONOSUPPORT;
n = 0;
for (ata=atapi_tab; ata<atapi_tab+2; ++ata)
if (ata->port)
for (u=0; u<2; ++u)
/* Probing controller ata->ctrlr, unit u. */
if (ata->params[u] && ! ata->attached[u] &&
wcdattach (ata, u, ata->params[u],
ata->debug) >= 0)
{
/* Drive found. */
ata->attached[u] = 1;
++n;
}
if (! n)
/* No IDE CD-ROMs found. */
return ENXIO;
return 0;
}
/*
* Function called when unloading the driver.
*/
int wcd_unload (struct lkm_table *lkmtp, int cmd)
{
struct wcd **t;
for (t=wcdtab; t<wcdtab+wcdnlun; ++t)
if (((*t)->flags & F_BOPEN) || (*t)->refcnt)
/* The device is opened, cannot unload the driver. */
return EBUSY;
for (t=wcdtab; t<wcdtab+wcdnlun; ++t) {
(*t)->ata->attached[(*t)->unit] = 0;
free (*t, M_TEMP);
}
wcdnlun = 0;
bzero (wcdtab, sizeof(wcdtab));
return 0;
}
/*
* Dispatcher function for the module (load/unload/stat).
*/
int wcd_mod (struct lkm_table *lkmtp, int cmd, int ver)
{
int err = 0;
if (ver != LKM_VERSION)
return EINVAL;
if (cmd == LKM_E_LOAD)
err = wcd_load (lkmtp, cmd);
else if (cmd == LKM_E_UNLOAD)
err = wcd_unload (lkmtp, cmd);
if (err)
return err;
/* XXX Poking around in the LKM internals like this is bad.
*/
/* Register the cdevsw entry. */
lkmtp->private.lkm_dev = & MOD_PRIVATE(rwcd);
err = lkmdispatch (lkmtp, cmd);
if (err)
return err;
/* Register the bdevsw entry. */
lkmtp->private.lkm_dev = & MOD_PRIVATE(wcd);
return lkmdispatch (lkmtp, cmd);
}
#endif /* WCD_MODULE */
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
static wcd_devsw_installed = 0;
static void wcd_drvinit(void *unused)
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
{
dev_t dev;
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
if( ! wcd_devsw_installed ) {
dev = makedev(CDEV_MAJOR, 0);
cdevsw_add(&dev,&wcd_cdevsw, NULL);
dev = makedev(BDEV_MAJOR, 0);
bdevsw_add(&dev,&wcd_bdevsw, NULL);
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
wcd_devsw_installed = 1;
}
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
}
SYSINIT(wcddev,SI_SUB_DRIVERS,SI_ORDER_MIDDLE+CDEV_MAJOR,wcd_drvinit,NULL)
the second set of changes in a move towards getting devices to be totally dynamic. this is only the devices in i386/isa I'll do more tomorrow. they're completely masked by #ifdef JREMOD at this stage... the eventual aim is that every driver will do a SYSINIT at startup BEFORE the probes, which will effectively link it into the devsw tables etc. If I'd thought about it more I'd have put that in in this set (damn) The ioconf lines generated by config will also end up in the device's own scope as well, so ioconf.c will eventually be gutted the SYSINIT call to the driver will include a phase where the driver links it's ioconf line into a chain of such. when this phase is done then the user can modify them with the boot: -c config menu if he wants, just like now.. config will put the config lines out in the .h file (e.g. in aha.h will be the addresses for the aha driver to look.) as I said this is a very small first step.. the aim of THIS set of edits is to not have to edit conf.c at all when adding a new device.. the tabe will be a simple skeleton.. when this is done, it will allow other changes to be made, all teh time still having a fully working kernel tree, but the logical outcome is the complete REMOVAL of the devsw tables. By the end of this, linked in drivers will be exactly the same as run-time loaded drivers, except they JUST HAPPEN to already be linked and present at startup.. the SYSINIT calls will be the equivalent of the "init" call made to a newly loaded driver in every respect. For this edit, each of the files has the following code inserted into it: obviously, tailored to suit.. ----------------------somewhere at the top: #ifdef JREMOD #include <sys/conf.h> #define CDEV_MAJOR 13 #define BDEV_MAJOR 4 static void sd_devsw_install(); #endif /*JREMOD */ ---------------------somewhere that's run during bootup: EVENTUALLY a SYSINIT #ifdef JREMOD sd_devsw_install(); #endif /*JREMOD*/ -----------------------at the bottom: #ifdef JREMOD struct bdevsw sd_bdevsw = { sdopen, sdclose, sdstrategy, sdioctl, /*4*/ sddump, sdsize, 0 }; struct cdevsw sd_cdevsw = { sdopen, sdclose, rawread, rawwrite, /*13*/ sdioctl, nostop, nullreset, nodevtotty,/* sd */ seltrue, nommap, sdstrategy }; static sd_devsw_installed = 0; static void sd_devsw_install() { dev_t descript; if( ! sd_devsw_installed ) { descript = makedev(CDEV_MAJOR,0); cdevsw_add(&descript,&sd_cdevsw,NULL); #if defined(BDEV_MAJOR) descript = makedev(BDEV_MAJOR,0); bdevsw_add(&descript,&sd_bdevsw,NULL); #endif /*BDEV_MAJOR*/ sd_devsw_installed = 1; } } #endif /* JREMOD */
1995-11-28 09:42:06 +00:00
#endif /* NWCD && NWDC && ATAPI */