NetBSD/usr.sbin/config/pack.c

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/* $NetBSD: pack.c,v 1.7 1997/10/18 07:59:32 lukem Exp $ */
1996-03-03 20:21:25 +03:00
/*
* Copyright (c) 1992, 1993
* The Regents of the University of California. All rights reserved.
*
* This software was developed by the Computer Systems Engineering group
* at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and
* contributed to Berkeley.
*
* All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Lawrence Berkeley Laboratories.
*
* 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 product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS 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 REGENTS 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.
*
* from: @(#)pack.c 8.1 (Berkeley) 6/6/93
*/
#include <sys/param.h>
#include <stdlib.h>
#include <string.h>
#include "config.h"
/*
* Packing. We have three separate kinds of packing here.
*
* First, we pack device instances, to collapse things like
*
* uba0 at sbi0 nexus ?
* uba0 at bi0 nexus ?
*
* into a single instance that is "at sbi0 or bi0".
*
* Second, we pack locators. Given something like
*
* hp0 at mba0 drive 0
* hp* at mba* drive ?
* ht0 at mba0 drive 0
* tu0 at ht0 slave 0
* ht* at mba* drive ?
* tu* at ht* slave ?
*
* (where the default drive and slave numbers are -1), we have three
* locators whose value is 0 and three whose value is -1. Rather than
* emitting six integers, we emit just two.
*
* Finally, we pack parent vectors. This is very much like packing
* locators. Unlike locators, however, parent vectors are always
* terminated by -1 (rather like the way C strings always end with
* a NUL).
*
* When packing locators, we would like to find sequences such as
* {1 2 3} {2 3 4} {3} {4 5}
* and turn this into the flat sequence {1 2 3 4 5}, with each subsequence
* given by the appropriate offset (here 0, 1, 2, and 3 respectively).
* When we pack parent vectors, overlap of this sort is impossible.
* Non-overlapping packing is much easier, and so we use that here
* and miss out on the chance to squeeze the locator sequence optimally.
* (So it goes.)
*/
typedef int (*vec_cmp_func) __P((const void *, int, int));
#define TAILHSIZE 128
#define PVHASH(i) ((i) & (TAILHSIZE - 1))
#define LOCHASH(l) (((long)(l) >> 2) & (TAILHSIZE - 1))
struct tails {
struct tails *t_next;
int t_ends_at;
};
static struct tails *tails[TAILHSIZE];
static int locspace;
static int pvecspace;
static int longest_pvec;
static void packdevi __P((void));
static void packlocs __P((void));
static void packpvec __P((void));
static void addparents __P((struct devi *src, struct devi *dst));
static int nparents __P((struct devi **, struct devbase *, int));
static int sameas __P((struct devi *, struct devi *));
static int findvec __P((const void *, int, int, vec_cmp_func, int));
static int samelocs __P((const void *, int, int));
static int addlocs __P((const char **, int));
static int loclencmp __P((const void *, const void *));
static int samepv __P((const void *, int, int));
static int addpv __P((short *, int));
static int pvlencmp __P((const void *, const void *));
static void resettails __P((void));
void
pack()
{
struct devi *i;
int n;
/* Pack instances and make parent vectors. */
packdevi();
/*
* Now that we know what we have, find upper limits on space
* needed for the loc[] and pv[] tables, and find the longest
* single pvec. The loc and pv table sizes are bounded by
* what we would get if no packing occurred.
*/
locspace = pvecspace = 0;
for (i = alldevi; i != NULL; i = i->i_next) {
if (i->i_collapsed)
continue;
locspace += i->i_atattr->a_loclen;
n = i->i_pvlen + 1;
if (n > longest_pvec)
longest_pvec = n;
pvecspace += n;
}
/* Allocate and pack loc[]. */
locators.vec = emalloc(locspace * sizeof(*locators.vec));
locators.used = 0;
packlocs();
/* Allocate and pack pv[]. */
parents.vec = emalloc(pvecspace * sizeof(*parents.vec));
parents.used = 0;
packpvec();
}
/*
* Pack instances together wherever possible. When everything is
* packed, go back and set up the parents for each. We must do this
* on a second pass because during the first one, we do not know which,
* if any, of the parents will collapse during packing.
*/
void
packdevi()
{
struct devi *firststar, *i, **ip, *l, *p;
struct devbase *d;
int j, m, n;
/*
* Sort all the cloning units to after the non-cloning units,
* preserving order of cloning and non-cloning units with
* respect to other units of the same time.
*
* Algorithm: Walk down the list until the first cloning unit is
* seen for the second time (or until the end of the list, if there
* are no cloning units on the list), moving starred units to the
* end of the list.
*/
for (d = allbases; d != NULL; d = d->d_next) {
ip = &d->d_ihead;
firststar = NULL;
for (i = *ip; i != firststar; i = *ip) {
if (i->i_unit != STAR) {
/* try i->i_bsame next */
ip = &i->i_bsame;
} else {
if (firststar == NULL)
firststar = i;
*d->d_ipp = i;
d->d_ipp = &i->i_bsame;
*ip = i->i_bsame;
i->i_bsame = NULL;
/* leave ip alone; try (old) i->i_bsame next */
}
}
}
packed = emalloc((ndevi + 1) * sizeof *packed);
n = 0;
for (d = allbases; d != NULL; d = d->d_next) {
/*
* For each instance of each device, add or collapse
* all its aliases.
*/
for (i = d->d_ihead; i != NULL; i = i->i_bsame) {
m = n;
for (l = i; l != NULL; l = l->i_alias) {
l->i_pvlen = 0;
l->i_pvoff = -1;
l->i_locoff = -1;
/* try to find an equivalent for l */
for (j = m; j < n; j++) {
p = packed[j];
if (sameas(l, p)) {
l->i_collapsed = 1;
l->i_cfindex = p->i_cfindex;
goto nextalias;
}
}
/* could not find a suitable alias */
l->i_collapsed = 0;
l->i_cfindex = n;
l->i_parents = emalloc(sizeof(*l->i_parents));
l->i_parents[0] = NULL;
packed[n++] = l;
nextalias:;
}
}
}
npacked = n;
packed[n] = NULL;
for (i = alldevi; i != NULL; i = i->i_next)
addparents(i, packed[i->i_cfindex]);
}
/*
* Return true if two aliases are "the same". In this case, they need
* to attach via the same attribute, have the same config flags, and
* have the same locators.
*/
static int
sameas(i1, i2)
struct devi *i1, *i2;
{
const char **p1, **p2;
if (i1->i_atattr != i2->i_atattr)
return (0);
if (i1->i_cfflags != i2->i_cfflags)
return (0);
for (p1 = i1->i_locs, p2 = i2->i_locs; *p1 == *p2; p2++)
if (*p1++ == 0)
return (1);
return 0;
}
/*
* Add the parents associated with "src" to the (presumably uncollapsed)
* instance "dst".
*/
static void
addparents(src, dst)
struct devi *src, *dst;
{
struct nvlist *nv;
struct devi *i, **p, **q;
int j, n, old, new, ndup;
if (dst->i_collapsed)
panic("addparents() i_collapsed");
/* Collect up list of parents to add. */
if (src->i_at == NULL) /* none, 'cuz "at root" */
return;
if (src->i_atdev != NULL) {
n = nparents(NULL, src->i_atdev, src->i_atunit);
p = emalloc(n * sizeof *p);
if (n == 0)
return;
(void)nparents(p, src->i_atdev, src->i_atunit);
} else {
n = 0;
for (nv = src->i_atattr->a_refs; nv != NULL; nv = nv->nv_next)
n += nparents(NULL, nv->nv_ptr, src->i_atunit);
if (n == 0)
return;
p = emalloc(n * sizeof *p);
n = 0;
for (nv = src->i_atattr->a_refs; nv != NULL; nv = nv->nv_next)
n += nparents(p + n, nv->nv_ptr, src->i_atunit);
}
/* Now elide duplicates. */
ndup = 0;
for (j = 0; j < n; j++) {
i = p[j];
for (q = dst->i_parents; *q != NULL; q++) {
if (*q == i) {
ndup++;
p[j] = NULL;
break;
}
}
}
/* Finally, add all the non-duplicates. */
old = dst->i_pvlen;
new = old + (n - ndup);
if (old > new)
panic("addparents() old > new");
if (old == new) {
free(p);
return;
}
dst->i_parents = q = erealloc(dst->i_parents, (new + 1) * sizeof(*q));
dst->i_pvlen = new;
q[new] = NULL;
q += old;
for (j = 0; j < n; j++)
if (p[j] != NULL)
*q++ = p[j];
free(p);
}
/*
* Count up parents, and optionally store pointers to each.
*/
static int
nparents(p, dev, unit)
struct devi **p;
struct devbase *dev;
int unit;
{
struct devi *i, *l;
int n;
n = 0;
/* for each instance ... */
for (i = dev->d_ihead; i != NULL; i = i->i_bsame) {
/* ... take each un-collapsed alias */
for (l = i; l != NULL; l = l->i_alias) {
if (!l->i_collapsed &&
(unit == WILD || unit == l->i_unit)) {
if (p != NULL)
*p++ = l;
n++;
}
}
}
return (n);
}
static void
packlocs()
{
struct devi **p, *i;
int l, o;
qsort(packed, npacked, sizeof *packed, loclencmp);
for (p = packed; (i = *p) != NULL; p++) {
if ((l = i->i_atattr->a_loclen) > 0) {
o = findvec(i->i_locs, LOCHASH(i->i_locs[l - 1]), l,
samelocs, locators.used);
i->i_locoff = o < 0 ? addlocs(i->i_locs, l) : o;
} else
i->i_locoff = -1;
}
resettails();
}
static void
packpvec()
{
struct devi **p, *i, **par;
int l, v, o;
short *vec;
vec = emalloc(longest_pvec * sizeof(*vec));
qsort(packed, npacked, sizeof *packed, pvlencmp);
for (p = packed; (i = *p) != NULL; p++) {
l = i->i_pvlen;
if (l > longest_pvec) panic("packpvec");
par = i->i_parents;
for (v = 0; v < l; v++)
vec[v] = par[v]->i_cfindex;
if (l == 0 ||
(o = findvec(vec, PVHASH(vec[l - 1]), l,
samepv, parents.used)) < 0)
o = addpv(vec, l);
i->i_pvoff = o;
}
free(vec);
resettails();
}
/*
* Return the index at which the given vector already exists, or -1
* if it is not anywhere in the current set. If we return -1, we assume
* our caller will add it at the end of the current set, and we make
* sure that next time, we will find it there.
*/
static int
findvec(ptr, hash, len, cmp, nextplace)
const void *ptr;
int hash, len;
vec_cmp_func cmp;
int nextplace;
{
struct tails *t, **hp;
int off;
hp = &tails[hash];
for (t = *hp; t != NULL; t = t->t_next) {
off = t->t_ends_at - len;
if (off >= 0 && (*cmp)(ptr, off, len))
return (off);
}
t = emalloc(sizeof(*t));
t->t_next = *hp;
*hp = t;
t->t_ends_at = nextplace + len;
return (-1);
}
/*
* Comparison function for locators.
*/
static int
samelocs(ptr, off, len)
const void *ptr;
int off;
int len;
{
const char **p, **q;
for (p = &locators.vec[off], q = (const char **)ptr; --len >= 0;)
if (*p++ != *q++)
return (0); /* different */
return (1); /* same */
}
/*
* Add the given locators at the end of the global loc[] table.
*/
static int
addlocs(locs, len)
const char **locs;
int len;
{
const char **p;
int ret;
ret = locators.used;
if ((locators.used = ret + len) > locspace)
panic("addlocs: overrun");
for (p = &locators.vec[ret]; --len >= 0;)
*p++ = *locs++;
return (ret);
}
/*
* Comparison function for qsort-by-locator-length, longest first.
* We rashly assume that subtraction of these lengths does not overflow.
*/
static int
loclencmp(a, b)
const void *a, *b;
{
int l1, l2;
l1 = (*(struct devi **)a)->i_atattr->a_loclen;
l2 = (*(struct devi **)b)->i_atattr->a_loclen;
return (l2 - l1);
}
/*
* Comparison function for parent vectors.
*/
static int
samepv(ptr, off, len)
const void *ptr;
int off;
int len;
{
short *p, *q;
for (p = &parents.vec[off], q = (short *)ptr; --len >= 0;)
if (*p++ != *q++)
return (0); /* different */
return (1); /* same */
}
/*
* Add the given parent vectors at the end of the global pv[] table.
*/
static int
addpv(pv, len)
short *pv;
int len;
{
short *p;
int ret;
static int firstend = -1;
/*
* If the vector is empty, reuse the first -1. It will be
* there if there are any nonempty vectors at all, since we
* do the longest first. If there are no nonempty vectors,
* something is probably wrong, but we will ignore that here.
*/
if (len == 0 && firstend >= 0)
return (firstend);
len++; /* account for trailing -1 */
ret = parents.used;
if ((parents.used = ret + len) > pvecspace)
panic("addpv: overrun");
for (p = &parents.vec[ret]; --len > 0;)
*p++ = *pv++;
*p = -1;
if (firstend < 0)
firstend = parents.used - 1;
return (ret);
}
/*
* Comparison function for qsort-by-parent-vector-length, longest first.
* We rashly assume that subtraction of these lengths does not overflow.
*/
static int
pvlencmp(a, b)
const void *a, *b;
{
int l1, l2;
l1 = (*(struct devi **)a)->i_pvlen;
l2 = (*(struct devi **)b)->i_pvlen;
return (l2 - l1);
}
static void
resettails()
{
struct tails **p, *t, *next;
int i;
for (p = tails, i = TAILHSIZE; --i >= 0; p++) {
for (t = *p; t != NULL; t = next) {
next = t->t_next;
free(t);
}
*p = NULL;
}
}