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dk.c
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dk.c
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/* $NetBSD: dk.c,v 1.171 2023/05/22 15:00:17 riastradh Exp $ */
/*-
* Copyright (c) 2004, 2005, 2006, 2007 The NetBSD Foundation, Inc.
* All rights reserved.
*
* This code is derived from software contributed to The NetBSD Foundation
* by Jason R. Thorpe.
*
* 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.
*
* THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
* ``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 FOUNDATION OR CONTRIBUTORS
* 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.
*/
#include <sys/cdefs.h>
__KERNEL_RCSID(0, "$NetBSD: dk.c,v 1.171 2023/05/22 15:00:17 riastradh Exp $");
#ifdef _KERNEL_OPT
#include "opt_dkwedge.h"
#endif
#include <sys/param.h>
#include <sys/types.h>
#include <sys/buf.h>
#include <sys/bufq.h>
#include <sys/callout.h>
#include <sys/conf.h>
#include <sys/device.h>
#include <sys/disk.h>
#include <sys/disklabel.h>
#include <sys/errno.h>
#include <sys/fcntl.h>
#include <sys/ioctl.h>
#include <sys/kauth.h>
#include <sys/kernel.h>
#include <sys/malloc.h>
#include <sys/pool.h>
#include <sys/proc.h>
#include <sys/rwlock.h>
#include <sys/stat.h>
#include <sys/systm.h>
#include <sys/vnode.h>
#include <miscfs/specfs/specdev.h>
MALLOC_DEFINE(M_DKWEDGE, "dkwedge", "Disk wedge structures");
typedef enum {
DKW_STATE_LARVAL = 0,
DKW_STATE_RUNNING = 1,
DKW_STATE_DYING = 2,
DKW_STATE_DEAD = 666
} dkwedge_state_t;
/*
* Lock order:
*
* sc->sc_dk.dk_openlock
* => sc->sc_parent->dk_rawlock
* => sc->sc_parent->dk_openlock
* => dkwedges_lock
* => sc->sc_sizelock
*
* Locking notes:
*
* W dkwedges_lock
* D device reference
* O sc->sc_dk.dk_openlock
* P sc->sc_parent->dk_openlock
* R sc->sc_parent->dk_rawlock
* S sc->sc_sizelock
* I sc->sc_iolock
* $ stable after initialization
* 1 used only by a single thread
*
* x&y means both x and y must be held to write (with a write lock if
* one is rwlock), and either x or y must be held to read.
*/
struct dkwedge_softc {
device_t sc_dev; /* P&W: pointer to our pseudo-device */
/* sc_dev is also stable while device is referenced */
struct cfdata sc_cfdata; /* 1: our cfdata structure */
uint8_t sc_wname[128]; /* $: wedge name (Unicode, UTF-8) */
dkwedge_state_t sc_state; /* state this wedge is in */
/* stable while device is referenced */
/* used only in assertions when stable, and in dump in ddb */
struct disk *sc_parent; /* $: parent disk */
/* P: sc_parent->dk_openmask */
/* P: sc_parent->dk_nwedges */
/* P: sc_parent->dk_wedges */
/* R: sc_parent->dk_rawopens */
/* R: sc_parent->dk_rawvp (also stable while wedge is open) */
daddr_t sc_offset; /* $: LBA offset of wedge in parent */
krwlock_t sc_sizelock;
uint64_t sc_size; /* S: size of wedge in blocks */
char sc_ptype[32]; /* $: partition type */
dev_t sc_pdev; /* $: cached parent's dev_t */
/* P: link on parent's wedge list */
LIST_ENTRY(dkwedge_softc) sc_plink;
struct disk sc_dk; /* our own disk structure */
/* O&R: sc_dk.dk_bopenmask */
/* O&R: sc_dk.dk_copenmask */
/* O&R: sc_dk.dk_openmask */
struct bufq_state *sc_bufq; /* $: buffer queue */
struct callout sc_restart_ch; /* I: callout to restart I/O */
kmutex_t sc_iolock;
bool sc_iostop; /* I: don't schedule restart */
int sc_mode; /* O&R: parent open mode */
};
static int dkwedge_match(device_t, cfdata_t, void *);
static void dkwedge_attach(device_t, device_t, void *);
static int dkwedge_detach(device_t, int);
static void dk_set_geometry(struct dkwedge_softc *, struct disk *);
static void dkstart(struct dkwedge_softc *);
static void dkiodone(struct buf *);
static void dkrestart(void *);
static void dkminphys(struct buf *);
static int dkfirstopen(struct dkwedge_softc *, int);
static void dklastclose(struct dkwedge_softc *);
static int dkwedge_detach(device_t, int);
static void dkwedge_delall1(struct disk *, bool);
static int dkwedge_del1(struct dkwedge_info *, int);
static int dk_open_parent(dev_t, int, struct vnode **);
static int dk_close_parent(struct vnode *, int);
static dev_type_open(dkopen);
static dev_type_close(dkclose);
static dev_type_cancel(dkcancel);
static dev_type_read(dkread);
static dev_type_write(dkwrite);
static dev_type_ioctl(dkioctl);
static dev_type_strategy(dkstrategy);
static dev_type_dump(dkdump);
static dev_type_size(dksize);
static dev_type_discard(dkdiscard);
CFDRIVER_DECL(dk, DV_DISK, NULL);
CFATTACH_DECL3_NEW(dk, 0,
dkwedge_match, dkwedge_attach, dkwedge_detach, NULL, NULL, NULL,
DVF_DETACH_SHUTDOWN);
const struct bdevsw dk_bdevsw = {
.d_open = dkopen,
.d_close = dkclose,
.d_cancel = dkcancel,
.d_strategy = dkstrategy,
.d_ioctl = dkioctl,
.d_dump = dkdump,
.d_psize = dksize,
.d_discard = dkdiscard,
.d_cfdriver = &dk_cd,
.d_devtounit = dev_minor_unit,
.d_flag = D_DISK | D_MPSAFE
};
const struct cdevsw dk_cdevsw = {
.d_open = dkopen,
.d_close = dkclose,
.d_cancel = dkcancel,
.d_read = dkread,
.d_write = dkwrite,
.d_ioctl = dkioctl,
.d_stop = nostop,
.d_tty = notty,
.d_poll = nopoll,
.d_mmap = nommap,
.d_kqfilter = nokqfilter,
.d_discard = dkdiscard,
.d_cfdriver = &dk_cd,
.d_devtounit = dev_minor_unit,
.d_flag = D_DISK | D_MPSAFE
};
static struct dkwedge_softc **dkwedges;
static u_int ndkwedges;
static krwlock_t dkwedges_lock;
static LIST_HEAD(, dkwedge_discovery_method) dkwedge_discovery_methods;
static krwlock_t dkwedge_discovery_methods_lock;
/*
* dkwedge_match:
*
* Autoconfiguration match function for pseudo-device glue.
*/
static int
dkwedge_match(device_t parent, cfdata_t match, void *aux)
{
/* Pseudo-device; always present. */
return 1;
}
/*
* dkwedge_attach:
*
* Autoconfiguration attach function for pseudo-device glue.
*/
static void
dkwedge_attach(device_t parent, device_t self, void *aux)
{
struct dkwedge_softc *sc = aux;
struct disk *pdk = sc->sc_parent;
int unit = device_unit(self);
KASSERTMSG(unit >= 0, "unit=%d", unit);
if (!pmf_device_register(self, NULL, NULL))
aprint_error_dev(self, "couldn't establish power handler\n");
mutex_enter(&pdk->dk_openlock);
rw_enter(&dkwedges_lock, RW_WRITER);
KASSERTMSG(unit < ndkwedges, "unit=%d ndkwedges=%u", unit, ndkwedges);
KASSERTMSG(sc == dkwedges[unit], "sc=%p dkwedges[%d]=%p",
sc, unit, dkwedges[unit]);
KASSERTMSG(sc->sc_dev == NULL, "sc=%p sc->sc_dev=%p", sc, sc->sc_dev);
sc->sc_dev = self;
rw_exit(&dkwedges_lock);
mutex_exit(&pdk->dk_openlock);
disk_init(&sc->sc_dk, device_xname(sc->sc_dev), NULL);
mutex_enter(&pdk->dk_openlock);
dk_set_geometry(sc, pdk);
mutex_exit(&pdk->dk_openlock);
disk_attach(&sc->sc_dk);
/* Disk wedge is ready for use! */
device_set_private(self, sc);
sc->sc_state = DKW_STATE_RUNNING;
}
/*
* dkwedge_compute_pdev:
*
* Compute the parent disk's dev_t.
*/
static int
dkwedge_compute_pdev(const char *pname, dev_t *pdevp, enum vtype type)
{
const char *name, *cp;
devmajor_t pmaj;
int punit;
char devname[16];
name = pname;
switch (type) {
case VBLK:
pmaj = devsw_name2blk(name, devname, sizeof(devname));
break;
case VCHR:
pmaj = devsw_name2chr(name, devname, sizeof(devname));
break;
default:
pmaj = NODEVMAJOR;
break;
}
if (pmaj == NODEVMAJOR)
return ENXIO;
name += strlen(devname);
for (cp = name, punit = 0; *cp >= '0' && *cp <= '9'; cp++)
punit = (punit * 10) + (*cp - '0');
if (cp == name) {
/* Invalid parent disk name. */
return ENXIO;
}
*pdevp = MAKEDISKDEV(pmaj, punit, RAW_PART);
return 0;
}
/*
* dkwedge_array_expand:
*
* Expand the dkwedges array.
*
* Releases and reacquires dkwedges_lock as a writer.
*/
static int
dkwedge_array_expand(void)
{
const unsigned incr = 16;
unsigned newcnt, oldcnt;
struct dkwedge_softc **newarray = NULL, **oldarray = NULL;
KASSERT(rw_write_held(&dkwedges_lock));
oldcnt = ndkwedges;
oldarray = dkwedges;
if (oldcnt >= INT_MAX - incr)
return ENFILE; /* XXX */
newcnt = oldcnt + incr;
rw_exit(&dkwedges_lock);
newarray = malloc(newcnt * sizeof(*newarray), M_DKWEDGE,
M_WAITOK|M_ZERO);
rw_enter(&dkwedges_lock, RW_WRITER);
if (ndkwedges != oldcnt || dkwedges != oldarray) {
oldarray = NULL; /* already recycled */
goto out;
}
if (oldarray != NULL)
memcpy(newarray, dkwedges, ndkwedges * sizeof(*newarray));
dkwedges = newarray;
newarray = NULL; /* transferred to dkwedges */
ndkwedges = newcnt;
out: rw_exit(&dkwedges_lock);
if (oldarray != NULL)
free(oldarray, M_DKWEDGE);
if (newarray != NULL)
free(newarray, M_DKWEDGE);
rw_enter(&dkwedges_lock, RW_WRITER);
return 0;
}
static void
dkwedge_size_init(struct dkwedge_softc *sc, uint64_t size)
{
rw_init(&sc->sc_sizelock);
sc->sc_size = size;
}
static void
dkwedge_size_fini(struct dkwedge_softc *sc)
{
rw_destroy(&sc->sc_sizelock);
}
static uint64_t
dkwedge_size(struct dkwedge_softc *sc)
{
uint64_t size;
rw_enter(&sc->sc_sizelock, RW_READER);
size = sc->sc_size;
rw_exit(&sc->sc_sizelock);
return size;
}
static void
dkwedge_size_increase(struct dkwedge_softc *sc, uint64_t size)
{
KASSERT(mutex_owned(&sc->sc_parent->dk_openlock));
rw_enter(&sc->sc_sizelock, RW_WRITER);
KASSERTMSG(size >= sc->sc_size,
"decreasing dkwedge size from %"PRIu64" to %"PRIu64,
sc->sc_size, size);
sc->sc_size = size;
rw_exit(&sc->sc_sizelock);
}
static void
dk_set_geometry(struct dkwedge_softc *sc, struct disk *pdk)
{
struct disk *dk = &sc->sc_dk;
struct disk_geom *dg = &dk->dk_geom;
KASSERT(mutex_owned(&pdk->dk_openlock));
memset(dg, 0, sizeof(*dg));
dg->dg_secperunit = dkwedge_size(sc);
dg->dg_secsize = DEV_BSIZE << pdk->dk_blkshift;
/* fake numbers, 1 cylinder is 1 MB with default sector size */
dg->dg_nsectors = 32;
dg->dg_ntracks = 64;
dg->dg_ncylinders =
dg->dg_secperunit / (dg->dg_nsectors * dg->dg_ntracks);
disk_set_info(sc->sc_dev, dk, NULL);
}
/*
* dkwedge_add: [exported function]
*
* Add a disk wedge based on the provided information.
*
* The incoming dkw_devname[] is ignored, instead being
* filled in and returned to the caller.
*/
int
dkwedge_add(struct dkwedge_info *dkw)
{
struct dkwedge_softc *sc, *lsc;
struct disk *pdk;
u_int unit;
int error;
dev_t pdev;
device_t dev __diagused;
dkw->dkw_parent[sizeof(dkw->dkw_parent) - 1] = '\0';
pdk = disk_find(dkw->dkw_parent);
if (pdk == NULL)
return ENXIO;
error = dkwedge_compute_pdev(pdk->dk_name, &pdev, VBLK);
if (error)
return error;
if (dkw->dkw_offset < 0)
return EINVAL;
/*
* Check for an existing wedge at the same disk offset. Allow
* updating a wedge if the only change is the size, and the new
* size is larger than the old.
*/
sc = NULL;
mutex_enter(&pdk->dk_openlock);
LIST_FOREACH(lsc, &pdk->dk_wedges, sc_plink) {
if (lsc->sc_offset != dkw->dkw_offset)
continue;
if (strcmp(lsc->sc_wname, dkw->dkw_wname) != 0)
break;
if (strcmp(lsc->sc_ptype, dkw->dkw_ptype) != 0)
break;
if (dkwedge_size(lsc) > dkw->dkw_size)
break;
if (lsc->sc_dev == NULL)
break;
sc = lsc;
device_acquire(sc->sc_dev);
dkwedge_size_increase(sc, dkw->dkw_size);
dk_set_geometry(sc, pdk);
break;
}
mutex_exit(&pdk->dk_openlock);
if (sc != NULL)
goto announce;
sc = malloc(sizeof(*sc), M_DKWEDGE, M_WAITOK|M_ZERO);
sc->sc_state = DKW_STATE_LARVAL;
sc->sc_parent = pdk;
sc->sc_pdev = pdev;
sc->sc_offset = dkw->dkw_offset;
dkwedge_size_init(sc, dkw->dkw_size);
memcpy(sc->sc_wname, dkw->dkw_wname, sizeof(sc->sc_wname));
sc->sc_wname[sizeof(sc->sc_wname) - 1] = '\0';
memcpy(sc->sc_ptype, dkw->dkw_ptype, sizeof(sc->sc_ptype));
sc->sc_ptype[sizeof(sc->sc_ptype) - 1] = '\0';
bufq_alloc(&sc->sc_bufq, "fcfs", 0);
callout_init(&sc->sc_restart_ch, 0);
callout_setfunc(&sc->sc_restart_ch, dkrestart, sc);
mutex_init(&sc->sc_iolock, MUTEX_DEFAULT, IPL_BIO);
/*
* Wedge will be added; increment the wedge count for the parent.
* Only allow this to happen if RAW_PART is the only thing open.
*/
mutex_enter(&pdk->dk_openlock);
if (pdk->dk_openmask & ~(1 << RAW_PART))
error = EBUSY;
else {
/* Check for wedge overlap. */
LIST_FOREACH(lsc, &pdk->dk_wedges, sc_plink) {
/* XXX arithmetic overflow */
uint64_t size = dkwedge_size(sc);
uint64_t lsize = dkwedge_size(lsc);
daddr_t lastblk = sc->sc_offset + size - 1;
daddr_t llastblk = lsc->sc_offset + lsize - 1;
if (sc->sc_offset >= lsc->sc_offset &&
sc->sc_offset <= llastblk) {
/* Overlaps the tail of the existing wedge. */
break;
}
if (lastblk >= lsc->sc_offset &&
lastblk <= llastblk) {
/* Overlaps the head of the existing wedge. */
break;
}
}
if (lsc != NULL) {
if (sc->sc_offset == lsc->sc_offset &&
dkwedge_size(sc) == dkwedge_size(lsc) &&
strcmp(sc->sc_wname, lsc->sc_wname) == 0)
error = EEXIST;
else
error = EINVAL;
} else {
pdk->dk_nwedges++;
LIST_INSERT_HEAD(&pdk->dk_wedges, sc, sc_plink);
}
}
mutex_exit(&pdk->dk_openlock);
if (error) {
mutex_destroy(&sc->sc_iolock);
bufq_free(sc->sc_bufq);
dkwedge_size_fini(sc);
free(sc, M_DKWEDGE);
return error;
}
/* Fill in our cfdata for the pseudo-device glue. */
sc->sc_cfdata.cf_name = dk_cd.cd_name;
sc->sc_cfdata.cf_atname = dk_ca.ca_name;
/* sc->sc_cfdata.cf_unit set below */
sc->sc_cfdata.cf_fstate = FSTATE_NOTFOUND; /* use chosen cf_unit */
/* Insert the larval wedge into the array. */
rw_enter(&dkwedges_lock, RW_WRITER);
for (error = 0;;) {
struct dkwedge_softc **scpp;
/*
* Check for a duplicate wname while searching for
* a slot.
*/
for (scpp = NULL, unit = 0; unit < ndkwedges; unit++) {
if (dkwedges[unit] == NULL) {
if (scpp == NULL) {
scpp = &dkwedges[unit];
sc->sc_cfdata.cf_unit = unit;
}
} else {
/* XXX Unicode. */
if (strcmp(dkwedges[unit]->sc_wname,
sc->sc_wname) == 0) {
error = EEXIST;
break;
}
}
}
if (error)
break;
KASSERT(unit == ndkwedges);
if (scpp == NULL) {
error = dkwedge_array_expand();
if (error)
break;
} else {
KASSERT(scpp == &dkwedges[sc->sc_cfdata.cf_unit]);
*scpp = sc;
break;
}
}
rw_exit(&dkwedges_lock);
if (error) {
mutex_enter(&pdk->dk_openlock);
pdk->dk_nwedges--;
LIST_REMOVE(sc, sc_plink);
mutex_exit(&pdk->dk_openlock);
mutex_destroy(&sc->sc_iolock);
bufq_free(sc->sc_bufq);
dkwedge_size_fini(sc);
free(sc, M_DKWEDGE);
return error;
}
/*
* Now that we know the unit #, attach a pseudo-device for
* this wedge instance. This will provide us with the
* device_t necessary for glue to other parts of the system.
*
* This should never fail, unless we're almost totally out of
* memory.
*/
if ((dev = config_attach_pseudo_acquire(&sc->sc_cfdata, sc)) == NULL) {
aprint_error("%s%u: unable to attach pseudo-device\n",
sc->sc_cfdata.cf_name, sc->sc_cfdata.cf_unit);
rw_enter(&dkwedges_lock, RW_WRITER);
KASSERT(dkwedges[sc->sc_cfdata.cf_unit] == sc);
dkwedges[sc->sc_cfdata.cf_unit] = NULL;
rw_exit(&dkwedges_lock);
mutex_enter(&pdk->dk_openlock);
pdk->dk_nwedges--;
LIST_REMOVE(sc, sc_plink);
mutex_exit(&pdk->dk_openlock);
mutex_destroy(&sc->sc_iolock);
bufq_free(sc->sc_bufq);
dkwedge_size_fini(sc);
free(sc, M_DKWEDGE);
return ENOMEM;
}
KASSERT(dev == sc->sc_dev);
announce:
/* Announce our arrival. */
aprint_normal(
"%s at %s: \"%s\", %"PRIu64" blocks at %"PRId64", type: %s\n",
device_xname(sc->sc_dev), pdk->dk_name,
sc->sc_wname, /* XXX Unicode */
dkwedge_size(sc), sc->sc_offset,
sc->sc_ptype[0] == '\0' ? "<unknown>" : sc->sc_ptype);
/* Return the devname to the caller. */
strlcpy(dkw->dkw_devname, device_xname(sc->sc_dev),
sizeof(dkw->dkw_devname));
device_release(sc->sc_dev);
return 0;
}
/*
* dkwedge_find_acquire:
*
* Lookup a disk wedge based on the provided information.
* NOTE: We look up the wedge based on the wedge devname,
* not wname.
*
* Return NULL if the wedge is not found, otherwise return
* the wedge's softc. Assign the wedge's unit number to unitp
* if unitp is not NULL. The wedge's sc_dev is referenced and
* must be released by device_release or equivalent.
*/
static struct dkwedge_softc *
dkwedge_find_acquire(struct dkwedge_info *dkw, u_int *unitp)
{
struct dkwedge_softc *sc = NULL;
u_int unit;
/* Find our softc. */
dkw->dkw_devname[sizeof(dkw->dkw_devname) - 1] = '\0';
rw_enter(&dkwedges_lock, RW_READER);
for (unit = 0; unit < ndkwedges; unit++) {
if ((sc = dkwedges[unit]) != NULL &&
sc->sc_dev != NULL &&
strcmp(device_xname(sc->sc_dev), dkw->dkw_devname) == 0 &&
strcmp(sc->sc_parent->dk_name, dkw->dkw_parent) == 0) {
device_acquire(sc->sc_dev);
break;
}
}
rw_exit(&dkwedges_lock);
if (sc == NULL)
return NULL;
if (unitp != NULL)
*unitp = unit;
return sc;
}
/*
* dkwedge_del: [exported function]
*
* Delete a disk wedge based on the provided information.
* NOTE: We look up the wedge based on the wedge devname,
* not wname.
*/
int
dkwedge_del(struct dkwedge_info *dkw)
{
return dkwedge_del1(dkw, 0);
}
int
dkwedge_del1(struct dkwedge_info *dkw, int flags)
{
struct dkwedge_softc *sc = NULL;
/* Find our softc. */
if ((sc = dkwedge_find_acquire(dkw, NULL)) == NULL)
return ESRCH;
return config_detach_release(sc->sc_dev, flags);
}
/*
* dkwedge_detach:
*
* Autoconfiguration detach function for pseudo-device glue.
*/
static int
dkwedge_detach(device_t self, int flags)
{
struct dkwedge_softc *const sc = device_private(self);
const u_int unit = device_unit(self);
int bmaj, cmaj, error;
error = disk_begindetach(&sc->sc_dk, /*lastclose*/NULL, self, flags);
if (error)
return error;
/* Mark the wedge as dying. */
sc->sc_state = DKW_STATE_DYING;
pmf_device_deregister(self);
/* Kill any pending restart. */
mutex_enter(&sc->sc_iolock);
sc->sc_iostop = true;
mutex_exit(&sc->sc_iolock);
callout_halt(&sc->sc_restart_ch, NULL);
/* Locate the wedge major numbers. */
bmaj = bdevsw_lookup_major(&dk_bdevsw);
cmaj = cdevsw_lookup_major(&dk_cdevsw);
/* Nuke the vnodes for any open instances. */
vdevgone(bmaj, unit, unit, VBLK);
vdevgone(cmaj, unit, unit, VCHR);
/*
* At this point, all block device opens have been closed,
* synchronously flushing any buffered writes; and all
* character device I/O operations have completed
* synchronously, and character device opens have been closed.
*
* So there can be no more opens or queued buffers by now.
*/
KASSERT(sc->sc_dk.dk_openmask == 0);
KASSERT(bufq_peek(sc->sc_bufq) == NULL);
bufq_drain(sc->sc_bufq);
/* Announce our departure. */
aprint_normal("%s at %s (%s) deleted\n", device_xname(sc->sc_dev),
sc->sc_parent->dk_name,
sc->sc_wname); /* XXX Unicode */
mutex_enter(&sc->sc_parent->dk_openlock);
sc->sc_parent->dk_nwedges--;
LIST_REMOVE(sc, sc_plink);
mutex_exit(&sc->sc_parent->dk_openlock);
/* Delete our buffer queue. */
bufq_free(sc->sc_bufq);
/* Detach from the disk list. */
disk_detach(&sc->sc_dk);
disk_destroy(&sc->sc_dk);
/* Poof. */
rw_enter(&dkwedges_lock, RW_WRITER);
KASSERT(dkwedges[unit] == sc);
dkwedges[unit] = NULL;
sc->sc_state = DKW_STATE_DEAD;
rw_exit(&dkwedges_lock);
mutex_destroy(&sc->sc_iolock);
dkwedge_size_fini(sc);
free(sc, M_DKWEDGE);
return 0;
}
/*
* dkwedge_delall: [exported function]
*
* Forcibly delete all of the wedges on the specified disk. Used
* when a disk is being detached.
*/
void
dkwedge_delall(struct disk *pdk)
{
dkwedge_delall1(pdk, /*idleonly*/false);
}
/*
* dkwedge_delidle: [exported function]
*
* Delete all of the wedges on the specified disk if idle. Used
* by ioctl(DIOCRMWEDGES).
*/
void
dkwedge_delidle(struct disk *pdk)
{
dkwedge_delall1(pdk, /*idleonly*/true);
}
static void
dkwedge_delall1(struct disk *pdk, bool idleonly)
{
struct dkwedge_softc *sc;
int flags;
flags = DETACH_QUIET;
if (!idleonly)
flags |= DETACH_FORCE;
for (;;) {
mutex_enter(&pdk->dk_rawlock); /* for sc->sc_dk.dk_openmask */
mutex_enter(&pdk->dk_openlock);
LIST_FOREACH(sc, &pdk->dk_wedges, sc_plink) {
/*
* Wedge is not yet created. This is a race --
* it may as well have been added just after we
* deleted all the wedges, so pretend it's not
* here yet.
*/
if (sc->sc_dev == NULL)
continue;
if (!idleonly || sc->sc_dk.dk_openmask == 0) {
device_acquire(sc->sc_dev);
break;
}
}
if (sc == NULL) {
KASSERT(idleonly || pdk->dk_nwedges == 0);
mutex_exit(&pdk->dk_openlock);
mutex_exit(&pdk->dk_rawlock);
return;
}
mutex_exit(&pdk->dk_openlock);
mutex_exit(&pdk->dk_rawlock);
(void)config_detach_release(sc->sc_dev, flags);
}
}
/*
* dkwedge_list: [exported function]
*
* List all of the wedges on a particular disk.
*/
int
dkwedge_list(struct disk *pdk, struct dkwedge_list *dkwl, struct lwp *l)
{
struct uio uio;
struct iovec iov;
struct dkwedge_softc *sc;
struct dkwedge_info dkw;
int error = 0;
iov.iov_base = dkwl->dkwl_buf;
iov.iov_len = dkwl->dkwl_bufsize;
uio.uio_iov = &iov;
uio.uio_iovcnt = 1;
uio.uio_offset = 0;
uio.uio_resid = dkwl->dkwl_bufsize;
uio.uio_rw = UIO_READ;
KASSERT(l == curlwp);
uio.uio_vmspace = l->l_proc->p_vmspace;
dkwl->dkwl_ncopied = 0;
mutex_enter(&pdk->dk_openlock);
LIST_FOREACH(sc, &pdk->dk_wedges, sc_plink) {
if (uio.uio_resid < sizeof(dkw))
break;
if (sc->sc_dev == NULL)
continue;
strlcpy(dkw.dkw_devname, device_xname(sc->sc_dev),
sizeof(dkw.dkw_devname));
memcpy(dkw.dkw_wname, sc->sc_wname, sizeof(dkw.dkw_wname));
dkw.dkw_wname[sizeof(dkw.dkw_wname) - 1] = '\0';
strlcpy(dkw.dkw_parent, sc->sc_parent->dk_name,
sizeof(dkw.dkw_parent));
dkw.dkw_offset = sc->sc_offset;
dkw.dkw_size = dkwedge_size(sc);
strlcpy(dkw.dkw_ptype, sc->sc_ptype, sizeof(dkw.dkw_ptype));
/*
* Acquire a device reference so this wedge doesn't go
* away before our next iteration in LIST_FOREACH, and
* then release the lock for uiomove.
*/
device_acquire(sc->sc_dev);
mutex_exit(&pdk->dk_openlock);
error = uiomove(&dkw, sizeof(dkw), &uio);
mutex_enter(&pdk->dk_openlock);
device_release(sc->sc_dev);
if (error)
break;
dkwl->dkwl_ncopied++;
}
dkwl->dkwl_nwedges = pdk->dk_nwedges;
mutex_exit(&pdk->dk_openlock);
return error;
}
static device_t
dkwedge_find_by_wname_acquire(const char *wname)
{
device_t dv = NULL;
struct dkwedge_softc *sc;
int i;
rw_enter(&dkwedges_lock, RW_READER);
for (i = 0; i < ndkwedges; i++) {
if ((sc = dkwedges[i]) == NULL || sc->sc_dev == NULL)
continue;
if (strcmp(sc->sc_wname, wname) == 0) {
if (dv != NULL) {
printf(
"WARNING: double match for wedge name %s "
"(%s, %s)\n", wname, device_xname(dv),
device_xname(sc->sc_dev));
continue;
}
device_acquire(sc->sc_dev);
dv = sc->sc_dev;
}
}
rw_exit(&dkwedges_lock);
return dv;
}
static device_t
dkwedge_find_by_parent_acquire(const char *name, size_t *i)
{
rw_enter(&dkwedges_lock, RW_READER);
for (; *i < (size_t)ndkwedges; (*i)++) {
struct dkwedge_softc *sc;
if ((sc = dkwedges[*i]) == NULL || sc->sc_dev == NULL)
continue;
if (strcmp(sc->sc_parent->dk_name, name) != 0)
continue;
device_acquire(sc->sc_dev);
rw_exit(&dkwedges_lock);
return sc->sc_dev;
}
rw_exit(&dkwedges_lock);
return NULL;
}
/* XXX unsafe */
device_t
dkwedge_find_by_wname(const char *wname)
{
device_t dv;
if ((dv = dkwedge_find_by_wname_acquire(wname)) == NULL)
return NULL;
device_release(dv);
return dv;
}
/* XXX unsafe */
device_t
dkwedge_find_by_parent(const char *name, size_t *i)
{
device_t dv;
if ((dv = dkwedge_find_by_parent_acquire(name, i)) == NULL)
return NULL;
device_release(dv);
return dv;
}
void
dkwedge_print_wnames(void)
{
struct dkwedge_softc *sc;
int i;
rw_enter(&dkwedges_lock, RW_READER);
for (i = 0; i < ndkwedges; i++) {
if ((sc = dkwedges[i]) == NULL || sc->sc_dev == NULL)