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|
/*
* Copyright (c) 2007-2015, SUSE LLC
*
* This program is licensed under the BSD license, read LICENSE.BSD
* for further information
*/
/*
* transaction.c
*
* Transaction handling
*/
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include <assert.h>
#include "transaction.h"
#include "solver.h"
#include "bitmap.h"
#include "pool.h"
#include "poolarch.h"
#include "evr.h"
#include "util.h"
static int
obsq_sortcmp(const void *ap, const void *bp, void *dp)
{
Id a, b, oa, ob;
Pool *pool = dp;
Solvable *s, *oas, *obs;
int r;
a = ((Id *)ap)[0];
oa = ((Id *)ap)[1];
b = ((Id *)bp)[0];
ob = ((Id *)bp)[1];
if (a != b)
return a - b;
if (oa == ob)
return 0;
s = pool->solvables + a;
oas = pool->solvables + oa;
obs = pool->solvables + ob;
if (oas->name != obs->name)
{
/* bring "same name" obsoleters (i.e. upgraders) to front */
if (oas->name == s->name)
return -1;
if (obs->name == s->name)
return 1;
return strcmp(pool_id2str(pool, oas->name), pool_id2str(pool, obs->name));
}
r = pool_evrcmp(pool, oas->evr, obs->evr, EVRCMP_COMPARE);
if (r)
return -r; /* highest version first */
if (oas->arch != obs->arch)
{
/* bring same arch to front */
if (oas->arch == s->arch)
return -1;
if (obs->arch == s->arch)
return 1;
}
return oa - ob;
}
void
transaction_all_obs_pkgs(Transaction *trans, Id p, Queue *pkgs)
{
Pool *pool = trans->pool;
Solvable *s = pool->solvables + p;
Queue *ti = &trans->transaction_info;
Id q;
int i;
queue_empty(pkgs);
if (p <= 0 || !s->repo)
return;
if (s->repo == pool->installed)
{
q = trans->transaction_installed[p - pool->installed->start];
if (!q)
return;
if (q > 0)
{
/* only a single obsoleting package */
queue_push(pkgs, q);
return;
}
/* find which packages obsolete us */
for (i = 0; i < ti->count; i += 2)
if (ti->elements[i + 1] == p)
queue_push2(pkgs, p, ti->elements[i]);
/* sort obsoleters */
if (pkgs->count > 2)
solv_sort(pkgs->elements, pkgs->count / 2, 2 * sizeof(Id), obsq_sortcmp, pool);
for (i = 0; i < pkgs->count; i += 2)
pkgs->elements[i / 2] = pkgs->elements[i + 1];
queue_truncate(pkgs, pkgs->count / 2);
}
else
{
/* find the packages we obsolete */
for (i = 0; i < ti->count; i += 2)
{
if (ti->elements[i] == p)
queue_push(pkgs, ti->elements[i + 1]);
else if (pkgs->count)
break;
}
}
}
Id
transaction_obs_pkg(Transaction *trans, Id p)
{
Pool *pool = trans->pool;
Solvable *s = pool->solvables + p;
Queue *ti;
int i;
if (p <= 0 || !s->repo)
return 0;
if (s->repo == pool->installed)
{
p = trans->transaction_installed[p - pool->installed->start];
return p < 0 ? -p : p;
}
ti = &trans->transaction_info;
for (i = 0; i < ti->count; i += 2)
if (ti->elements[i] == p)
return ti->elements[i + 1];
return 0;
}
/*
* calculate base type of transaction element
*/
static Id
transaction_base_type(Transaction *trans, Id p)
{
Pool *pool = trans->pool;
Solvable *s, *s2;
int r;
Id p2;
if (!MAPTST(&trans->transactsmap, p))
return SOLVER_TRANSACTION_IGNORE;
p2 = transaction_obs_pkg(trans, p);
if (pool->installed && pool->solvables[p].repo == pool->installed)
{
/* erase */
if (!p2)
return SOLVER_TRANSACTION_ERASE;
s = pool->solvables + p;
s2 = pool->solvables + p2;
if (s->name == s2->name)
{
if (s->evr == s2->evr && solvable_identical(s, s2))
return SOLVER_TRANSACTION_REINSTALLED;
r = pool_evrcmp(pool, s->evr, s2->evr, EVRCMP_COMPARE);
if (r < 0)
return SOLVER_TRANSACTION_UPGRADED;
else if (r > 0)
return SOLVER_TRANSACTION_DOWNGRADED;
return SOLVER_TRANSACTION_CHANGED;
}
return SOLVER_TRANSACTION_OBSOLETED;
}
else
{
/* install or multiinstall */
int multi = trans->multiversionmap.size && MAPTST(&trans->multiversionmap, p);
if (multi)
{
if (p2)
{
s = pool->solvables + p;
s2 = pool->solvables + p2;
if (s->name == s2->name && s->arch == s2->arch && s->evr == s2->evr)
return SOLVER_TRANSACTION_MULTIREINSTALL;
}
return SOLVER_TRANSACTION_MULTIINSTALL;
}
if (!p2)
return SOLVER_TRANSACTION_INSTALL;
s = pool->solvables + p;
s2 = pool->solvables + p2;
if (s->name == s2->name)
{
if (s->evr == s2->evr && solvable_identical(s, s2))
return SOLVER_TRANSACTION_REINSTALL;
r = pool_evrcmp(pool, s->evr, s2->evr, EVRCMP_COMPARE);
if (r > 0)
return SOLVER_TRANSACTION_UPGRADE;
else if (r < 0)
return SOLVER_TRANSACTION_DOWNGRADE;
else
return SOLVER_TRANSACTION_CHANGE;
}
return SOLVER_TRANSACTION_OBSOLETES;
}
}
/* these packages do not get installed by the package manager */
static inline int
is_pseudo_package(Pool *pool, Solvable *s)
{
const char *n = pool_id2str(pool, s->name);
if (*n == 'p' && !strncmp(n, "patch:", 6))
return 1;
if (*n == 'p' && !strncmp(n, "pattern:", 8))
return 1;
if (*n == 'p' && !strncmp(n, "product:", 8))
return 1;
if (*n == 'a' && !strncmp(n, "application:", 12))
return 1;
return 0;
}
/* these packages will never show up installed */
static inline int
is_noinst_pseudo_package(Pool *pool, Solvable *s)
{
const char *n = pool_id2str(pool, s->name);
if (!strncmp(n, "patch:", 6))
return 1;
if (!strncmp(n, "pattern:", 8))
{
#if defined(SUSE) && defined(ENABLE_LINKED_PKGS)
/* unlike normal patterns, autopatterns *can* be installed (via the package link),
so do not filter them */
if (s->provides)
{
Id prv, *prvp = s->repo->idarraydata + s->provides;
while ((prv = *prvp++) != 0)
if (ISRELDEP(prv) && !strcmp(pool_id2str(pool, prv), "autopattern()"))
return 0;
}
#endif
return 1;
}
return 0;
}
static int
obsoleted_by_pseudos_only(Transaction *trans, Id p)
{
Pool *pool = trans->pool;
Queue q;
Id op;
int i;
op = transaction_obs_pkg(trans, p);
if (op && !is_pseudo_package(pool, pool->solvables + op))
return 0;
queue_init(&q);
transaction_all_obs_pkgs(trans, p, &q);
for (i = 0; i < q.count; i++)
if (!is_pseudo_package(pool, pool->solvables + q.elements[i]))
break;
i = !q.count || i < q.count ? 0 : 1;
queue_free(&q);
return i;
}
/*
* return type of transaction element
*
* filtering is needed if either not all packages are shown
* or replaces are not shown, as otherwise parts of the
* transaction might not be shown to the user */
Id
transaction_type(Transaction *trans, Id p, int mode)
{
Pool *pool = trans->pool;
Solvable *s = pool->solvables + p;
Queue oq, rq;
Id type, q;
int i, j, ref = 0;
if (!s->repo)
return SOLVER_TRANSACTION_IGNORE;
/* XXX: SUSE only? */
if (!(mode & SOLVER_TRANSACTION_KEEP_PSEUDO) && is_noinst_pseudo_package(pool, s))
return SOLVER_TRANSACTION_IGNORE;
type = transaction_base_type(trans, p);
if (type == SOLVER_TRANSACTION_IGNORE)
return SOLVER_TRANSACTION_IGNORE; /* not part of the transaction */
if ((mode & SOLVER_TRANSACTION_RPM_ONLY) != 0)
{
/* application wants to know what to feed to the package manager */
if (!(mode & SOLVER_TRANSACTION_KEEP_PSEUDO) && is_pseudo_package(pool, s))
return SOLVER_TRANSACTION_IGNORE;
if (type == SOLVER_TRANSACTION_ERASE || type == SOLVER_TRANSACTION_INSTALL || type == SOLVER_TRANSACTION_MULTIINSTALL)
return type;
if (s->repo == pool->installed)
{
/* check if we're a real package that is obsoleted by pseudos */
if (!is_pseudo_package(pool, s) && obsoleted_by_pseudos_only(trans, s - pool->solvables))
return SOLVER_TRANSACTION_ERASE;
return SOLVER_TRANSACTION_IGNORE; /* ignore as we're being obsoleted */
}
if (type == SOLVER_TRANSACTION_MULTIREINSTALL)
return SOLVER_TRANSACTION_MULTIINSTALL;
return SOLVER_TRANSACTION_INSTALL;
}
if ((mode & SOLVER_TRANSACTION_SHOW_MULTIINSTALL) == 0)
{
/* application wants to make no difference between install
* and multiinstall */
if (type == SOLVER_TRANSACTION_MULTIINSTALL)
type = SOLVER_TRANSACTION_INSTALL;
if (type == SOLVER_TRANSACTION_MULTIREINSTALL)
type = SOLVER_TRANSACTION_REINSTALL;
}
if ((mode & SOLVER_TRANSACTION_CHANGE_IS_REINSTALL) != 0)
{
/* application wants to make no difference between change
* and reinstall */
if (type == SOLVER_TRANSACTION_CHANGED)
type = SOLVER_TRANSACTION_REINSTALLED;
else if (type == SOLVER_TRANSACTION_CHANGE)
type = SOLVER_TRANSACTION_REINSTALL;
}
if (type == SOLVER_TRANSACTION_ERASE || type == SOLVER_TRANSACTION_INSTALL || type == SOLVER_TRANSACTION_MULTIINSTALL)
return type;
if (s->repo == pool->installed && (mode & SOLVER_TRANSACTION_SHOW_ACTIVE) == 0)
{
/* erase element and we're showing the passive side */
if (type == SOLVER_TRANSACTION_OBSOLETED && (mode & SOLVER_TRANSACTION_SHOW_OBSOLETES) == 0)
type = SOLVER_TRANSACTION_ERASE;
if (type == SOLVER_TRANSACTION_OBSOLETED && (mode & SOLVER_TRANSACTION_OBSOLETE_IS_UPGRADE) != 0)
type = SOLVER_TRANSACTION_UPGRADED;
return type;
}
if (s->repo != pool->installed && (mode & SOLVER_TRANSACTION_SHOW_ACTIVE) != 0)
{
/* install element and we're showing the active side */
if (type == SOLVER_TRANSACTION_OBSOLETES && (mode & SOLVER_TRANSACTION_SHOW_OBSOLETES) == 0)
type = SOLVER_TRANSACTION_INSTALL;
if (type == SOLVER_TRANSACTION_OBSOLETES && (mode & SOLVER_TRANSACTION_OBSOLETE_IS_UPGRADE) != 0)
type = SOLVER_TRANSACTION_UPGRADE;
return type;
}
/* the element doesn't match the show mode */
/* if we're showing all references, we can ignore this package */
if ((mode & (SOLVER_TRANSACTION_SHOW_ALL|SOLVER_TRANSACTION_SHOW_OBSOLETES)) == (SOLVER_TRANSACTION_SHOW_ALL|SOLVER_TRANSACTION_SHOW_OBSOLETES))
return SOLVER_TRANSACTION_IGNORE;
/* we're not showing all refs. check if some other package
* references us. If yes, it's safe to ignore this package,
* otherwise we need to map the type */
/* most of the time there's only one reference, so check it first */
q = transaction_obs_pkg(trans, p);
if ((mode & SOLVER_TRANSACTION_SHOW_OBSOLETES) == 0)
{
Solvable *sq = pool->solvables + q;
if (sq->name != s->name)
{
/* it's a replace but we're not showing replaces. map type. */
if (s->repo == pool->installed)
return SOLVER_TRANSACTION_ERASE;
else if (type == SOLVER_TRANSACTION_MULTIREINSTALL)
return SOLVER_TRANSACTION_MULTIINSTALL;
else
return SOLVER_TRANSACTION_INSTALL;
}
}
/* if there's a match, p will be shown when q
* is processed */
if (transaction_obs_pkg(trans, q) == p)
return SOLVER_TRANSACTION_IGNORE;
/* too bad, a miss. check em all */
queue_init(&oq);
queue_init(&rq);
transaction_all_obs_pkgs(trans, p, &oq);
for (i = 0; i < oq.count; i++)
{
q = oq.elements[i];
if ((mode & SOLVER_TRANSACTION_SHOW_OBSOLETES) == 0)
{
Solvable *sq = pool->solvables + q;
if (sq->name != s->name)
continue;
}
/* check if we are referenced? */
if ((mode & SOLVER_TRANSACTION_SHOW_ALL) != 0)
{
transaction_all_obs_pkgs(trans, q, &rq);
for (j = 0; j < rq.count; j++)
if (rq.elements[j] == p)
{
ref = 1;
break;
}
if (ref)
break;
}
else if (transaction_obs_pkg(trans, q) == p)
{
ref = 1;
break;
}
}
queue_free(&oq);
queue_free(&rq);
if (!ref)
{
/* we're not referenced. map type */
if (s->repo == pool->installed)
return SOLVER_TRANSACTION_ERASE;
else if (type == SOLVER_TRANSACTION_MULTIREINSTALL)
return SOLVER_TRANSACTION_MULTIINSTALL;
else
return SOLVER_TRANSACTION_INSTALL;
}
/* there was a ref, so p is shown with some other package */
return SOLVER_TRANSACTION_IGNORE;
}
static int
classify_cmp(const void *ap, const void *bp, void *dp)
{
Transaction *trans = dp;
Pool *pool = trans->pool;
const Id *a = ap;
const Id *b = bp;
int r;
r = a[0] - b[0];
if (r)
return r;
r = a[2] - b[2];
if (r)
return a[2] && b[2] ? strcmp(pool_id2str(pool, a[2]), pool_id2str(pool, b[2])) : r;
r = a[3] - b[3];
if (r)
return a[3] && b[3] ? strcmp(pool_id2str(pool, a[3]), pool_id2str(pool, b[3])) : r;
return 0;
}
static int
classify_cmp_pkgs(const void *ap, const void *bp, void *dp)
{
Transaction *trans = dp;
Pool *pool = trans->pool;
Id a = *(Id *)ap;
Id b = *(Id *)bp;
Solvable *sa, *sb;
sa = pool->solvables + a;
sb = pool->solvables + b;
if (sa->name != sb->name)
return strcmp(pool_id2str(pool, sa->name), pool_id2str(pool, sb->name));
if (sa->evr != sb->evr)
{
int r = pool_evrcmp(pool, sa->evr, sb->evr, EVRCMP_COMPARE);
if (r)
return r;
}
return a - b;
}
static inline void
queue_push4(Queue *q, Id id1, Id id2, Id id3, Id id4)
{
queue_push(q, id1);
queue_push(q, id2);
queue_push(q, id3);
queue_push(q, id4);
}
static inline void
queue_unshift4(Queue *q, Id id1, Id id2, Id id3, Id id4)
{
queue_unshift(q, id4);
queue_unshift(q, id3);
queue_unshift(q, id2);
queue_unshift(q, id1);
}
void
transaction_classify(Transaction *trans, int mode, Queue *classes)
{
Pool *pool = trans->pool;
int ntypes[SOLVER_TRANSACTION_MAXTYPE + 1];
Solvable *s, *sq;
Id v, vq, type, p, q;
int i, j;
queue_empty(classes);
memset(ntypes, 0, sizeof(ntypes));
/* go through transaction and classify each step */
for (i = 0; i < trans->steps.count; i++)
{
p = trans->steps.elements[i];
s = pool->solvables + p;
type = transaction_type(trans, p, mode);
ntypes[type]++;
if (!pool->installed || s->repo != pool->installed)
continue;
/* don't report vendor/arch changes if we were mapped to erase. */
if (type == SOLVER_TRANSACTION_ERASE)
continue;
/* look at arch/vendor changes */
q = transaction_obs_pkg(trans, p);
if (!q)
continue;
sq = pool->solvables + q;
v = s->arch;
vq = sq->arch;
if (v != vq)
{
if ((mode & SOLVER_TRANSACTION_MERGE_ARCHCHANGES) != 0)
v = vq = 0;
for (j = 0; j < classes->count; j += 4)
if (classes->elements[j] == SOLVER_TRANSACTION_ARCHCHANGE && classes->elements[j + 2] == v && classes->elements[j + 3] == vq)
break;
if (j == classes->count)
queue_push4(classes, SOLVER_TRANSACTION_ARCHCHANGE, 1, v, vq);
else
classes->elements[j + 1]++;
}
v = s->vendor ? s->vendor : 1;
vq = sq->vendor ? sq->vendor : 1;
if (v != vq)
{
if ((mode & SOLVER_TRANSACTION_MERGE_VENDORCHANGES) != 0)
v = vq = 0;
for (j = 0; j < classes->count; j += 4)
if (classes->elements[j] == SOLVER_TRANSACTION_VENDORCHANGE && classes->elements[j + 2] == v && classes->elements[j + 3] == vq)
break;
if (j == classes->count)
queue_push4(classes, SOLVER_TRANSACTION_VENDORCHANGE, 1, v, vq);
else
classes->elements[j + 1]++;
}
}
/* now sort all vendor/arch changes */
if (classes->count > 4)
solv_sort(classes->elements, classes->count / 4, 4 * sizeof(Id), classify_cmp, trans);
/* finally add all classes. put erases last */
i = SOLVER_TRANSACTION_ERASE;
if (ntypes[i])
queue_unshift4(classes, i, ntypes[i], 0, 0);
for (i = SOLVER_TRANSACTION_MAXTYPE; i > 0; i--)
{
if (!ntypes[i])
continue;
if (i == SOLVER_TRANSACTION_ERASE)
continue;
queue_unshift4(classes, i, ntypes[i], 0, 0);
}
}
void
transaction_classify_pkgs(Transaction *trans, int mode, Id class, Id from, Id to, Queue *pkgs)
{
Pool *pool = trans->pool;
int i;
Id type, p, q;
Solvable *s, *sq;
queue_empty(pkgs);
for (i = 0; i < trans->steps.count; i++)
{
p = trans->steps.elements[i];
s = pool->solvables + p;
if (class <= SOLVER_TRANSACTION_MAXTYPE)
{
type = transaction_type(trans, p, mode);
if (type == class)
queue_push(pkgs, p);
continue;
}
if (!pool->installed || s->repo != pool->installed)
continue;
q = transaction_obs_pkg(trans, p);
if (!q)
continue;
sq = pool->solvables + q;
if (class == SOLVER_TRANSACTION_ARCHCHANGE)
{
if ((!from && !to) || (s->arch == from && sq->arch == to))
queue_push(pkgs, p);
continue;
}
if (class == SOLVER_TRANSACTION_VENDORCHANGE)
{
Id v = s->vendor ? s->vendor : 1;
Id vq = sq->vendor ? sq->vendor : 1;
if ((!from && !to) || (v == from && vq == to))
queue_push(pkgs, p);
continue;
}
}
if (pkgs->count > 1)
solv_sort(pkgs->elements, pkgs->count, sizeof(Id), classify_cmp_pkgs, trans);
}
static void
create_transaction_info(Transaction *trans, Queue *decisionq)
{
Pool *pool = trans->pool;
Queue *ti = &trans->transaction_info;
Repo *installed = pool->installed;
int i, j, multi;
Id p, p2, pp2;
Solvable *s, *s2;
queue_empty(ti);
trans->transaction_installed = solv_free(trans->transaction_installed);
if (!installed)
return; /* no info needed */
for (i = 0; i < decisionq->count; i++)
{
p = decisionq->elements[i];
if (p <= 0 || p == SYSTEMSOLVABLE)
continue;
s = pool->solvables + p;
if (!s->repo || s->repo == installed)
continue;
if (!MAPTST(&trans->transactsmap, p))
continue;
multi = trans->multiversionmap.size && MAPTST(&trans->multiversionmap, p);
FOR_PROVIDES(p2, pp2, s->name)
{
if (!MAPTST(&trans->transactsmap, p2))
continue;
s2 = pool->solvables + p2;
if (s2->repo != installed)
continue;
if (multi && (s->name != s2->name || s->evr != s2->evr || s->arch != s2->arch))
continue;
if (!pool->implicitobsoleteusesprovides && s->name != s2->name)
continue;
if (pool->implicitobsoleteusescolors && !pool_colormatch(pool, s, s2))
continue;
queue_push2(ti, p, p2);
}
if (s->obsoletes && !multi)
{
Id obs, *obsp = s->repo->idarraydata + s->obsoletes;
while ((obs = *obsp++) != 0)
{
FOR_PROVIDES(p2, pp2, obs)
{
if (!MAPTST(&trans->transactsmap, p2))
continue;
s2 = pool->solvables + p2;
if (s2->repo != installed)
continue;
if (!pool->obsoleteusesprovides && !pool_match_nevr(pool, s2, obs))
continue;
if (pool->obsoleteusescolors && !pool_colormatch(pool, s, s2))
continue;
queue_push2(ti, p, p2);
}
}
}
}
if (ti->count > 2)
{
/* sort and unify */
solv_sort(ti->elements, ti->count / 2, 2 * sizeof(Id), obsq_sortcmp, pool);
for (i = j = 2; i < ti->count; i += 2)
{
if (ti->elements[i] == ti->elements[j - 2] && ti->elements[i + 1] == ti->elements[j - 1])
continue;
ti->elements[j++] = ti->elements[i];
ti->elements[j++] = ti->elements[i + 1];
}
queue_truncate(ti, j);
}
/* create transaction_installed helper */
/* entry > 0: exactly one obsoleter, entry < 0: multiple obsoleters, -entry is "best" */
trans->transaction_installed = solv_calloc(installed->end - installed->start, sizeof(Id));
for (i = 0; i < ti->count; i += 2)
{
j = ti->elements[i + 1] - installed->start;
if (!trans->transaction_installed[j])
trans->transaction_installed[j] = ti->elements[i];
else
{
/* more than one package obsoletes us. compare to find "best" */
Id q[4];
if (trans->transaction_installed[j] > 0)
trans->transaction_installed[j] = -trans->transaction_installed[j];
q[0] = q[2] = ti->elements[i + 1];
q[1] = ti->elements[i];
q[3] = -trans->transaction_installed[j];
if (obsq_sortcmp(q, q + 2, pool) < 0)
trans->transaction_installed[j] = -ti->elements[i];
}
}
}
/* create a transaction from the decisionq */
Transaction *
transaction_create_decisionq(Pool *pool, Queue *decisionq, Map *multiversionmap)
{
Repo *installed = pool->installed;
int i, needmulti;
Id p, pp;
Solvable *s;
Transaction *trans;
Map selfdestructmap;
trans = transaction_create(pool);
if (multiversionmap && !multiversionmap->size)
multiversionmap = 0; /* ignore empty map */
queue_empty(&trans->steps);
map_init(&trans->transactsmap, pool->nsolvables);
needmulti = 0;
map_init(&selfdestructmap, 0);
FOR_PROVIDES(p, pp, LIBSOLV_SELF_DESTRUCT_PKG)
{
if (!selfdestructmap.size)
map_grow(&selfdestructmap, pool->nsolvables);
MAPSET(&selfdestructmap, p);
}
for (i = 0; i < decisionq->count; i++)
{
p = decisionq->elements[i];
s = pool->solvables + (p > 0 ? p : -p);
if (!s->repo)
continue;
if (installed && s->repo == installed && p < 0)
MAPSET(&trans->transactsmap, -p);
if (!(installed && s->repo == installed) && p > 0)
{
if (selfdestructmap.size && MAPTST(&selfdestructmap, p))
continue;
MAPSET(&trans->transactsmap, p);
if (multiversionmap && MAPTST(multiversionmap, p))
needmulti = 1;
}
}
map_free(&selfdestructmap);
MAPCLR(&trans->transactsmap, SYSTEMSOLVABLE);
if (needmulti)
map_init_clone(&trans->multiversionmap, multiversionmap);
create_transaction_info(trans, decisionq);
if (installed)
{
FOR_REPO_SOLVABLES(installed, p, s)
{
if (MAPTST(&trans->transactsmap, p))
queue_push(&trans->steps, p);
}
}
for (i = 0; i < decisionq->count; i++)
{
p = decisionq->elements[i];
if (p > 0 && MAPTST(&trans->transactsmap, p))
queue_push(&trans->steps, p);
}
return trans;
}
int
transaction_installedresult(Transaction *trans, Queue *installedq)
{
Pool *pool = trans->pool;
Repo *installed = pool->installed;
Solvable *s;
int i, cutoff;
Id p;
queue_empty(installedq);
/* first the new installs, than the kept packages */
for (i = 0; i < trans->steps.count; i++)
{
p = trans->steps.elements[i];
s = pool->solvables + p;
if (installed && s->repo == installed)
continue;
queue_push(installedq, p);
}
cutoff = installedq->count;
if (installed)
{
FOR_REPO_SOLVABLES(installed, p, s)
if (!MAPTST(&trans->transactsmap, p))
queue_push(installedq, p);
}
return cutoff;
}
static void
transaction_make_installedmap(Transaction *trans, Map *installedmap)
{
Pool *pool = trans->pool;
Repo *installed = pool->installed;
Solvable *s;
Id p;
int i;
map_init(installedmap, pool->nsolvables);
for (i = 0; i < trans->steps.count; i++)
{
p = trans->steps.elements[i];
s = pool->solvables + p;
if (!installed || s->repo != installed)
MAPSET(installedmap, p);
}
if (installed)
{
FOR_REPO_SOLVABLES(installed, p, s)
if (!MAPTST(&trans->transactsmap, p))
MAPSET(installedmap, p);
}
}
long long
transaction_calc_installsizechange(Transaction *trans)
{
Map installedmap;
long long change;
transaction_make_installedmap(trans, &installedmap);
change = pool_calc_installsizechange(trans->pool, &installedmap);
map_free(&installedmap);
return change;
}
void
transaction_calc_duchanges(Transaction *trans, DUChanges *mps, int nmps)
{
Map installedmap;
transaction_make_installedmap(trans, &installedmap);
pool_calc_duchanges(trans->pool, &installedmap, mps, nmps);
map_free(&installedmap);
}
Transaction *
transaction_create(Pool *pool)
{
Transaction *trans = solv_calloc(1, sizeof(*trans));
trans->pool = pool;
return trans;
}
Transaction *
transaction_create_clone(Transaction *srctrans)
{
Transaction *trans = transaction_create(srctrans->pool);
queue_init_clone(&trans->steps, &srctrans->steps);
queue_init_clone(&trans->transaction_info, &srctrans->transaction_info);
if (srctrans->transaction_installed)
{
Repo *installed = srctrans->pool->installed;
trans->transaction_installed = solv_memdup2(srctrans->transaction_installed, installed->end - installed->start, sizeof(Id));
}
map_init_clone(&trans->transactsmap, &srctrans->transactsmap);
map_init_clone(&trans->multiversionmap, &srctrans->multiversionmap);
if (srctrans->orderdata)
transaction_clone_orderdata(trans, srctrans);
return trans;
}
void
transaction_free(Transaction *trans)
{
queue_free(&trans->steps);
queue_free(&trans->transaction_info);
trans->transaction_installed = solv_free(trans->transaction_installed);
map_free(&trans->transactsmap);
map_free(&trans->multiversionmap);
if (trans->orderdata)
transaction_free_orderdata(trans);
free(trans);
}
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