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/*
* Copyright (c) 2008, Novell Inc.
*
* This program is licensed under the BSD license, read LICENSE.BSD
* for further information
*/
/*
* solvable.c
*
* set/retrieve data from solvables
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdarg.h>
#include <unistd.h>
#include <string.h>
#include "pool.h"
#include "repo.h"
#include "util.h"
#include "policy.h"
#include "poolvendor.h"
#include "chksum.h"
#include "linkedpkg.h"
const char *
pool_solvable2str(Pool *pool, Solvable *s)
{
const char *n, *e, *a;
int nl, el, al;
char *p;
n = pool_id2str(pool, s->name);
e = pool_id2str(pool, s->evr);
/* XXX: may want to skip the epoch here */
a = pool_id2str(pool, s->arch);
nl = strlen(n);
el = strlen(e);
al = strlen(a);
if (pool->havedistepoch)
{
/* strip the distepoch from the evr */
const char *de = strrchr(e, '-');
if (de && (de = strchr(de, ':')) != 0)
el = de - e;
}
p = pool_alloctmpspace(pool, nl + el + al + 3);
strcpy(p, n);
if (el)
{
p[nl++] = '-';
strncpy(p + nl, e, el);
p[nl + el] = 0;
}
if (al)
{
p[nl + el] = pool->disttype == DISTTYPE_HAIKU ? '-' : '.';
strcpy(p + nl + el + 1, a);
}
return p;
}
Id
solvable_lookup_type(Solvable *s, Id keyname)
{
if (!s->repo)
return 0;
return repo_lookup_type(s->repo, s - s->repo->pool->solvables, keyname);
}
Id
solvable_lookup_id(Solvable *s, Id keyname)
{
if (!s->repo)
return 0;
return repo_lookup_id(s->repo, s - s->repo->pool->solvables, keyname);
}
int
solvable_lookup_idarray(Solvable *s, Id keyname, Queue *q)
{
if (!s->repo)
{
queue_empty(q);
return 0;
}
return repo_lookup_idarray(s->repo, s - s->repo->pool->solvables, keyname, q);
}
int
solvable_lookup_deparray(Solvable *s, Id keyname, Queue *q, Id marker)
{
if (!s->repo)
{
queue_empty(q);
return 0;
}
return repo_lookup_deparray(s->repo, s - s->repo->pool->solvables, keyname, q, marker);
}
static const char *
solvable_lookup_str_joinarray(Solvable *s, Id keyname, const char *joinstr)
{
Queue q;
Id qbuf[10];
char *str = 0;
queue_init_buffer(&q, qbuf, sizeof(qbuf)/sizeof(*qbuf));
if (solvable_lookup_idarray(s, keyname, &q) && q.count)
{
Pool *pool = s->repo->pool;
int i;
str = pool_tmpjoin(pool, pool_id2str(pool, q.elements[0]), 0, 0);
for (i = 1; i < q.count; i++)
str = pool_tmpappend(pool, str, joinstr, pool_id2str(pool, q.elements[i]));
}
queue_free(&q);
return str;
}
const char *
solvable_lookup_str(Solvable *s, Id keyname)
{
const char *str;
if (!s->repo)
return 0;
str = repo_lookup_str(s->repo, s - s->repo->pool->solvables, keyname);
if (!str && (keyname == SOLVABLE_LICENSE || keyname == SOLVABLE_GROUP))
str = solvable_lookup_str_joinarray(s, keyname, ", ");
return str;
}
static const char *
solvable_lookup_str_base(Solvable *s, Id keyname, Id basekeyname, int usebase)
{
Pool *pool;
const char *str, *basestr;
Id p, pp, name;
Solvable *s2;
int pass;
if (!s->repo)
return 0;
pool = s->repo->pool;
str = solvable_lookup_str(s, keyname);
if (str || keyname == basekeyname)
return str;
basestr = solvable_lookup_str(s, basekeyname);
if (!basestr)
return 0;
/* search for a solvable with same name and same base that has the
* translation */
if (!pool->whatprovides)
return usebase ? basestr : 0;
name = s->name;
/* we do this in two passes, first same vendor, then all other vendors */
for (pass = 0; pass < 2; pass++)
{
FOR_PROVIDES(p, pp, name)
{
s2 = pool->solvables + p;
if (s2->name != name)
continue;
if ((s->vendor == s2->vendor) != (pass == 0))
continue;
str = solvable_lookup_str(s2, basekeyname);
if (!str || strcmp(str, basestr))
continue;
str = solvable_lookup_str(s2, keyname);
if (str)
return str;
}
#ifdef ENABLE_LINKED_PKGS
/* autopattern/product translation magic */
if (pass)
{
const char *n = pool_id2str(pool, name);
if (*n == 'p')
{
if (!strncmp("pattern:", n, 8) && (name = find_autopattern_name(pool, s)) != 0)
pass = -1;
if (!strncmp("product:", n, 8) && (name = find_autoproduct_name(pool, s)) != 0)
pass = -1;
}
}
#endif
}
return usebase ? basestr : 0;
}
const char *
solvable_lookup_str_poollang(Solvable *s, Id keyname)
{
Pool *pool;
int i, cols;
const char *str;
Id *row;
if (!s->repo)
return 0;
pool = s->repo->pool;
if (!pool->nlanguages)
return solvable_lookup_str(s, keyname);
cols = pool->nlanguages + 1;
if (!pool->languagecache)
{
pool->languagecache = solv_calloc(cols * ID_NUM_INTERNAL, sizeof(Id));
pool->languagecacheother = 0;
}
if (keyname >= ID_NUM_INTERNAL)
{
row = pool->languagecache + ID_NUM_INTERNAL * cols;
for (i = 0; i < pool->languagecacheother; i++, row += cols)
if (*row == keyname)
break;
if (i >= pool->languagecacheother)
{
pool->languagecache = solv_realloc2(pool->languagecache, pool->languagecacheother + 1, cols * sizeof(Id));
row = pool->languagecache + cols * (ID_NUM_INTERNAL + pool->languagecacheother++);
*row = keyname;
}
}
else
row = pool->languagecache + keyname * cols;
row++; /* skip keyname */
for (i = 0; i < pool->nlanguages; i++, row++)
{
if (!*row)
*row = pool_id2langid(pool, keyname, pool->languages[i], 1);
str = solvable_lookup_str_base(s, *row, keyname, 0);
if (str)
return str;
}
return solvable_lookup_str(s, keyname);
}
const char *
solvable_lookup_str_lang(Solvable *s, Id keyname, const char *lang, int usebase)
{
if (s->repo)
{
Id id = pool_id2langid(s->repo->pool, keyname, lang, 0);
if (id)
return solvable_lookup_str_base(s, id, keyname, usebase);
if (!usebase)
return 0;
}
return solvable_lookup_str(s, keyname);
}
unsigned long long
solvable_lookup_num(Solvable *s, Id keyname, unsigned long long notfound)
{
if (!s->repo)
return notfound;
return repo_lookup_num(s->repo, s - s->repo->pool->solvables, keyname, notfound);
}
unsigned int
solvable_lookup_sizek(Solvable *s, Id keyname, unsigned int notfound)
{
unsigned long long size;
if (!s->repo)
return notfound;
size = solvable_lookup_num(s, keyname, (unsigned long long)notfound << 10);
return (unsigned int)((size + 1023) >> 10);
}
int
solvable_lookup_void(Solvable *s, Id keyname)
{
if (!s->repo)
return 0;
return repo_lookup_void(s->repo, s - s->repo->pool->solvables, keyname);
}
int
solvable_lookup_bool(Solvable *s, Id keyname)
{
if (!s->repo)
return 0;
/* historic nonsense: there are two ways of storing a bool, as num == 1 or void. test both. */
if (repo_lookup_type(s->repo, s - s->repo->pool->solvables, keyname) == REPOKEY_TYPE_VOID)
return 1;
return repo_lookup_num(s->repo, s - s->repo->pool->solvables, keyname, 0) == 1;
}
const unsigned char *
solvable_lookup_bin_checksum(Solvable *s, Id keyname, Id *typep)
{
Repo *repo = s->repo;
if (!repo)
{
*typep = 0;
return 0;
}
return repo_lookup_bin_checksum(repo, s - repo->pool->solvables, keyname, typep);
}
const char *
solvable_lookup_checksum(Solvable *s, Id keyname, Id *typep)
{
const unsigned char *chk = solvable_lookup_bin_checksum(s, keyname, typep);
return chk ? pool_bin2hex(s->repo->pool, chk, solv_chksum_len(*typep)) : 0;
}
static inline const char *
evrid2vrstr(Pool *pool, Id evrid)
{
const char *p, *evr = pool_id2str(pool, evrid);
if (!evr)
return evr;
for (p = evr; *p >= '0' && *p <= '9'; p++)
;
return p != evr && *p == ':' && p[1] ? p + 1 : evr;
}
const char *
solvable_lookup_location(Solvable *s, unsigned int *medianrp)
{
Pool *pool;
int l = 0;
char *loc;
const char *mediadir, *mediafile;
if (medianrp)
*medianrp = 0;
if (!s->repo)
return 0;
pool = s->repo->pool;
if (medianrp)
*medianrp = solvable_lookup_num(s, SOLVABLE_MEDIANR, 0);
if (solvable_lookup_void(s, SOLVABLE_MEDIADIR))
mediadir = pool_id2str(pool, s->arch);
else
mediadir = solvable_lookup_str(s, SOLVABLE_MEDIADIR);
if (mediadir)
l = strlen(mediadir) + 1;
if (solvable_lookup_void(s, SOLVABLE_MEDIAFILE))
{
const char *name, *evr, *arch;
name = pool_id2str(pool, s->name);
evr = evrid2vrstr(pool, s->evr);
arch = pool_id2str(pool, s->arch);
/* name-vr.arch.rpm */
loc = pool_alloctmpspace(pool, l + strlen(name) + strlen(evr) + strlen(arch) + 7);
if (mediadir)
sprintf(loc, "%s/%s-%s.%s.rpm", mediadir, name, evr, arch);
else
sprintf(loc, "%s-%s.%s.rpm", name, evr, arch);
}
else
{
mediafile = solvable_lookup_str(s, SOLVABLE_MEDIAFILE);
if (!mediafile)
return 0;
loc = pool_alloctmpspace(pool, l + strlen(mediafile) + 1);
if (mediadir)
sprintf(loc, "%s/%s", mediadir, mediafile);
else
strcpy(loc, mediafile);
}
return loc;
}
const char *
solvable_get_location(Solvable *s, unsigned int *medianrp)
{
const char *loc = solvable_lookup_location(s, medianrp);
if (medianrp && *medianrp == 0)
*medianrp = 1; /* compat, to be removed */
return loc;
}
const char *
solvable_lookup_sourcepkg(Solvable *s)
{
Pool *pool;
const char *evr, *name;
Id archid;
if (!s->repo)
return 0;
pool = s->repo->pool;
if (solvable_lookup_void(s, SOLVABLE_SOURCENAME))
name = pool_id2str(pool, s->name);
else
name = solvable_lookup_str(s, SOLVABLE_SOURCENAME);
if (!name)
return 0;
archid = solvable_lookup_id(s, SOLVABLE_SOURCEARCH);
if (solvable_lookup_void(s, SOLVABLE_SOURCEEVR))
evr = evrid2vrstr(pool, s->evr);
else
evr = solvable_lookup_str(s, SOLVABLE_SOURCEEVR);
if (archid == ARCH_SRC || archid == ARCH_NOSRC)
{
char *str;
str = pool_tmpjoin(pool, name, evr ? "-" : 0, evr);
str = pool_tmpappend(pool, str, ".", pool_id2str(pool, archid));
return pool_tmpappend(pool, str, ".rpm", 0);
}
else
return name; /* FIXME */
}
/*****************************************************************************/
static inline Id dep2name(Pool *pool, Id dep)
{
while (ISRELDEP(dep))
{
Reldep *rd = GETRELDEP(pool, dep);
dep = rd->name;
}
return dep;
}
static int providedbyinstalled_multiversion(Pool *pool, Map *installed, Id n, Id con)
{
Id p, pp;
Solvable *sn = pool->solvables + n;
FOR_PROVIDES(p, pp, sn->name)
{
Solvable *s = pool->solvables + p;
if (s->name != sn->name || s->arch != sn->arch)
continue;
if (!MAPTST(installed, p))
continue;
if (pool_match_nevr(pool, pool->solvables + p, con))
continue;
return 1; /* found installed package that doesn't conflict */
}
return 0;
}
static inline int providedbyinstalled(Pool *pool, Map *installed, Id dep, int ispatch, Map *multiversionmap)
{
Id p, pp;
FOR_PROVIDES(p, pp, dep)
{
if (p == SYSTEMSOLVABLE)
return -1;
if (ispatch && !pool_match_nevr(pool, pool->solvables + p, dep))
continue;
if (ispatch && multiversionmap && multiversionmap->size && MAPTST(multiversionmap, p) && ISRELDEP(dep))
if (providedbyinstalled_multiversion(pool, installed, p, dep))
continue;
if (MAPTST(installed, p))
return 1;
}
return 0;
}
/*
* solvable_trivial_installable_map - anwers is a solvable is installable
* without any other installs/deinstalls.
* The packages considered to be installed are provided via the
* installedmap bitmap. A additional "conflictsmap" bitmap providing
* information about the conflicts of the installed packages can be
* used for extra speed up. Provide a NULL pointer if you do not
* have this information.
* Both maps can be created with pool_create_state_maps() or
* solver_create_state_maps().
*
* returns:
* 1: solvable is installable without any other package changes
* 0: solvable is not installable
* -1: solvable is installable, but doesn't constrain any installed packages
*/
int
solvable_trivial_installable_map(Solvable *s, Map *installedmap, Map *conflictsmap, Map *multiversionmap)
{
Pool *pool = s->repo->pool;
Solvable *s2;
Id p, *dp;
Id *reqp, req;
Id *conp, con;
int r, interesting = 0;
if (conflictsmap && MAPTST(conflictsmap, s - pool->solvables))
return 0;
if (s->requires)
{
reqp = s->repo->idarraydata + s->requires;
while ((req = *reqp++) != 0)
{
if (req == SOLVABLE_PREREQMARKER)
continue;
r = providedbyinstalled(pool, installedmap, req, 0, 0);
if (!r)
return 0;
if (r > 0)
interesting = 1;
}
}
if (s->conflicts)
{
int ispatch = 0;
if (!strncmp("patch:", pool_id2str(pool, s->name), 6))
ispatch = 1;
conp = s->repo->idarraydata + s->conflicts;
while ((con = *conp++) != 0)
{
if (providedbyinstalled(pool, installedmap, con, ispatch, multiversionmap))
{
if (ispatch && solvable_is_irrelevant_patch(s, installedmap))
return -1;
return 0;
}
if (!interesting && ISRELDEP(con))
{
con = dep2name(pool, con);
if (providedbyinstalled(pool, installedmap, con, ispatch, multiversionmap))
interesting = 1;
}
}
if (ispatch && interesting && solvable_is_irrelevant_patch(s, installedmap))
interesting = 0;
}
#if 0
if (s->repo)
{
Id *obsp, obs;
Repo *installed = 0;
if (s->obsoletes && s->repo != installed)
{
obsp = s->repo->idarraydata + s->obsoletes;
while ((obs = *obsp++) != 0)
{
if (providedbyinstalled(pool, installedmap, obs, 0, 0))
return 0;
}
}
if (s->repo != installed)
{
Id pp;
FOR_PROVIDES(p, pp, s->name)
{
s2 = pool->solvables + p;
if (s2->repo == installed && s2->name == s->name)
return 0;
}
}
}
#endif
if (!conflictsmap)
{
int i;
p = s - pool->solvables;
for (i = 1; i < pool->nsolvables; i++)
{
if (!MAPTST(installedmap, i))
continue;
s2 = pool->solvables + i;
if (!s2->conflicts)
continue;
conp = s2->repo->idarraydata + s2->conflicts;
while ((con = *conp++) != 0)
{
dp = pool_whatprovides_ptr(pool, con);
for (; *dp; dp++)
if (*dp == p)
return 0;
}
}
}
return interesting ? 1 : -1;
}
/*
* different interface for solvable_trivial_installable_map, where
* the information about the installed packages is provided
* by a queue.
*/
int
solvable_trivial_installable_queue(Solvable *s, Queue *installed, Map *multiversionmap)
{
Pool *pool = s->repo->pool;
int i;
Id p;
Map installedmap;
int r;
map_init(&installedmap, pool->nsolvables);
for (i = 0; i < installed->count; i++)
{
p = installed->elements[i];
if (p > 0) /* makes it work with decisionq */
MAPSET(&installedmap, p);
}
r = solvable_trivial_installable_map(s, &installedmap, 0, multiversionmap);
map_free(&installedmap);
return r;
}
/*
* different interface for solvable_trivial_installable_map, where
* the information about the installed packages is provided
* by a repo containing the installed solvables.
*/
int
solvable_trivial_installable_repo(Solvable *s, Repo *installed, Map *multiversionmap)
{
Pool *pool = s->repo->pool;
Id p;
Solvable *s2;
Map installedmap;
int r;
map_init(&installedmap, pool->nsolvables);
FOR_REPO_SOLVABLES(installed, p, s2)
MAPSET(&installedmap, p);
r = solvable_trivial_installable_map(s, &installedmap, 0, multiversionmap);
map_free(&installedmap);
return r;
}
/* FIXME: this mirrors policy_illegal_vendorchange */
static int
pool_illegal_vendorchange(Pool *pool, Solvable *s1, Solvable *s2)
{
Id v1, v2;
Id vendormask1, vendormask2;
if (pool->custom_vendorcheck)
return pool->custom_vendorcheck(pool, s1, s2);
/* treat a missing vendor as empty string */
v1 = s1->vendor ? s1->vendor : ID_EMPTY;
v2 = s2->vendor ? s2->vendor : ID_EMPTY;
if (v1 == v2)
return 0;
vendormask1 = pool_vendor2mask(pool, v1);
if (!vendormask1)
return 1; /* can't match */
vendormask2 = pool_vendor2mask(pool, v2);
if ((vendormask1 & vendormask2) != 0)
return 0;
return 1; /* no class matches */
}
/* check if this patch is relevant according to the vendor. To bad that patches
* don't have a vendor, so we need to do some careful repo testing. */
int
solvable_is_irrelevant_patch(Solvable *s, Map *installedmap)
{
Pool *pool = s->repo->pool;
Id con, *conp;
int hadpatchpackage = 0;
if (!s->conflicts)
return 0;
conp = s->repo->idarraydata + s->conflicts;
while ((con = *conp++) != 0)
{
Reldep *rd;
Id p, pp, p2, pp2;
if (!ISRELDEP(con))
continue;
rd = GETRELDEP(pool, con);
if (rd->flags != REL_LT)
continue;
FOR_PROVIDES(p, pp, con)
{
Solvable *si;
if (!MAPTST(installedmap, p))
continue;
si = pool->solvables + p;
if (!pool_match_nevr(pool, si, con))
continue;
FOR_PROVIDES(p2, pp2, rd->name)
{
Solvable *s2 = pool->solvables + p2;
if (!pool_match_nevr(pool, s2, rd->name))
continue;
if (pool_match_nevr(pool, s2, con))
continue; /* does not fulfill patch */
if (s2->repo == s->repo)
{
hadpatchpackage = 1;
/* ok, we have a package from the patch repo that solves the conflict. check vendor */
if (si->vendor == s2->vendor)
return 0;
if (!pool_illegal_vendorchange(pool, si, s2))
return 0;
/* vendor change was illegal, ignore conflict */
}
}
}
}
/* if we didn't find a patchpackage don't claim that the patch is irrelevant */
if (!hadpatchpackage)
return 0;
return 1;
}
/*****************************************************************************/
/*
* Create maps containing the state of each solvable. Input is a "installed" queue,
* it contains all solvable ids that are considered to be installed.
*
* The created maps can be used for solvable_trivial_installable_map(),
* pool_calc_duchanges(), pool_calc_installsizechange().
*
*/
void
pool_create_state_maps(Pool *pool, Queue *installed, Map *installedmap, Map *conflictsmap)
{
int i;
Solvable *s;
Id p, *dp;
Id *conp, con;
map_init(installedmap, pool->nsolvables);
if (conflictsmap)
map_init(conflictsmap, pool->nsolvables);
for (i = 0; i < installed->count; i++)
{
p = installed->elements[i];
if (p <= 0) /* makes it work with decisionq */
continue;
MAPSET(installedmap, p);
if (!conflictsmap)
continue;
s = pool->solvables + p;
if (!s->conflicts)
continue;
conp = s->repo->idarraydata + s->conflicts;
while ((con = *conp++) != 0)
{
dp = pool_whatprovides_ptr(pool, con);
for (; *dp; dp++)
MAPSET(conflictsmap, *dp);
}
}
}
/* Tests if two solvables have identical content. Currently
* both solvables need to come from the same pool
*/
#warning HOTFIX [Bug 881493] New: zypper dup does always update sles-release
inline int isProduct(const char *name)
{ return name && strncmp(name, "product:", 8) == 0; }
int
solvable_identical(Solvable *s1, Solvable *s2)
{
unsigned int bt1, bt2;
Id rq1, rq2;
Id *reqp;
if (s1->name != s2->name)
return 0;
if (s1->arch != s2->arch)
return 0;
if (s1->evr != s2->evr)
return 0;
if (isProduct(pool_id2str(s1->repo->pool, s1->name))) // HOTFIX [Bug 881493] end check for products here
return 1;
/* map missing vendor to empty string */
if ((s1->vendor ? s1->vendor : 1) != (s2->vendor ? s2->vendor : 1))
return 0;
/* looking good, try some fancier stuff */
/* might also look up the package checksum here */
bt1 = solvable_lookup_num(s1, SOLVABLE_BUILDTIME, 0);
bt2 = solvable_lookup_num(s2, SOLVABLE_BUILDTIME, 0);
if (bt1 && bt2)
{
if (bt1 != bt2)
return 0;
}
else
{
/* look at requires in a last attempt to find recompiled packages */
rq1 = rq2 = 0;
if (s1->requires)
for (reqp = s1->repo->idarraydata + s1->requires; *reqp; reqp++)
rq1 ^= *reqp;
if (s2->requires)
for (reqp = s2->repo->idarraydata + s2->requires; *reqp; reqp++)
rq2 ^= *reqp;
if (rq1 != rq2)
return 0;
}
return 1;
}
/* return the self provide dependency of a solvable */
Id
solvable_selfprovidedep(Solvable *s)
{
Pool *pool;
Reldep *rd;
Id prov, *provp;
if (!s->repo)
return s->name;
pool = s->repo->pool;
if (s->provides)
{
provp = s->repo->idarraydata + s->provides;
while ((prov = *provp++) != 0)
{
if (!ISRELDEP(prov))
continue;
rd = GETRELDEP(pool, prov);
if (rd->name == s->name && rd->evr == s->evr && rd->flags == REL_EQ)
return prov;
}
}
return pool_rel2id(pool, s->name, s->evr, REL_EQ, 1);
}
/* setter functions, simply call the repo variants */
void
solvable_set_id(Solvable *s, Id keyname, Id id)
{
repo_set_id(s->repo, s - s->repo->pool->solvables, keyname, id);
}
void
solvable_set_num(Solvable *s, Id keyname, unsigned long long num)
{
repo_set_num(s->repo, s - s->repo->pool->solvables, keyname, num);
}
void
solvable_set_str(Solvable *s, Id keyname, const char *str)
{
repo_set_str(s->repo, s - s->repo->pool->solvables, keyname, str);
}
void
solvable_set_poolstr(Solvable *s, Id keyname, const char *str)
{
repo_set_poolstr(s->repo, s - s->repo->pool->solvables, keyname, str);
}
void
solvable_add_poolstr_array(Solvable *s, Id keyname, const char *str)
{
repo_add_poolstr_array(s->repo, s - s->repo->pool->solvables, keyname, str);
}
void
solvable_add_idarray(Solvable *s, Id keyname, Id id)
{
repo_add_idarray(s->repo, s - s->repo->pool->solvables, keyname, id);
}
void
solvable_add_deparray(Solvable *s, Id keyname, Id dep, Id marker)
{
repo_add_deparray(s->repo, s - s->repo->pool->solvables, keyname, dep, marker);
}
void
solvable_set_idarray(Solvable *s, Id keyname, Queue *q)
{
repo_set_idarray(s->repo, s - s->repo->pool->solvables, keyname, q);
}
void
solvable_set_deparray(Solvable *s, Id keyname, Queue *q, Id marker)
{
repo_set_deparray(s->repo, s - s->repo->pool->solvables, keyname, q, marker);
}
void
solvable_unset(Solvable *s, Id keyname)
{
repo_unset(s->repo, s - s->repo->pool->solvables, keyname);
}
/* return true if a dependency intersects dep in the keyname array */
int
solvable_matchesdep(Solvable *s, Id keyname, Id dep, int marker)
{
int i;
Pool *pool = s->repo->pool;
Queue q;
queue_init(&q);
solvable_lookup_deparray(s, keyname, &q, marker);
for (i = 0; i < q.count; i++)
if (pool_match_dep(pool, q.elements[i], dep))
break;
i = i == q.count ? 0 : 1;
queue_free(&q);
return i;
}
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