/* solver.c - Alpine Package Keeper (APK)
* Up- and down-propagating, forwarding checking, deductive dependency solver.
*
* Copyright (C) 2008-2013 Timo Teräs <timo.teras@iki.fi>
* All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 as published
* by the Free Software Foundation. See http://www.gnu.org/ for details.
*/
#include <stdint.h>
#include <unistd.h>
#include "apk_defines.h"
#include "apk_database.h"
#include "apk_package.h"
#include "apk_solver.h"
#include "apk_print.h"
//#define DEBUG_PRINT
#ifdef DEBUG_PRINT
#include <stdio.h>
#define dbg_printf(args...) fprintf(stderr, args)
#else
#define dbg_printf(args...)
#endif
#define ASSERT(cond, fmt...) if (!(cond)) { apk_error(fmt); *(char*)NULL = 0; }
struct apk_solver_state {
struct apk_database *db;
struct apk_changeset *changeset;
struct list_head dirty_head;
struct list_head unresolved_head;
unsigned int errors;
unsigned int num_selections, num_solution_entries;
unsigned int solver_flags_inherit;
unsigned int pinning_inherit;
unsigned int default_repos;
unsigned prefer_pinning : 1;
};
static struct apk_provider provider_none = {
.pkg = NULL,
.version = &apk_null_blob
};
void apk_solver_set_name_flags(struct apk_name *name,
unsigned short solver_flags,
unsigned short solver_flags_inheritable)
{
struct apk_provider *p;
foreach_array_item(p, name->providers) {
struct apk_package *pkg = p->pkg;
pkg->ss.solver_flags |= solver_flags;
pkg->ss.solver_flags_inheritable |= solver_flags_inheritable;
}
}
static int get_tag(struct apk_database *db, unsigned int pinning_mask, unsigned int repos)
{
int i;
for (i = 0; i < db->num_repo_tags; i++) {
if (!(BIT(i) & pinning_mask))
continue;
if (db->repo_tags[i].allowed_repos & repos)
return i;
}
return APK_DEFAULT_REPOSITORY_TAG;
}
static unsigned int get_pkg_repos(struct apk_database *db, struct apk_package *pkg)
{
return pkg->repos | (pkg->ipkg ? db->repo_tags[pkg->ipkg->repository_tag].allowed_repos : 0);
}
static void foreach_rinstall_if_pkg(
struct apk_solver_state *ss, struct apk_package *pkg,
void (*cb)(struct apk_solver_state *ss, struct apk_package *rinstall_if, struct apk_package *parent_pkg))
{
struct apk_name *name = pkg->name, *name0, **pname0;
struct apk_dependency *dep;
struct apk_provider *p0;
foreach_array_item(pname0, pkg->name->rinstall_if) {
name0 = *pname0;
dbg_printf(PKG_VER_FMT ": rinstall_if %s\n", PKG_VER_PRINTF(pkg), name0->name);
foreach_array_item(p0, name0->providers) {
foreach_array_item(dep, p0->pkg->install_if) {
if (dep->name == name && apk_dep_is_provided(dep, p0)) {
/* pkg depends (via install_if) on pkg0 */
cb(ss, p0->pkg, pkg);
break;
}
}
}
}
}
static void mark_error(struct apk_solver_state *ss, struct apk_package *pkg)
{
if (pkg == NULL || pkg->ss.error)
return;
pkg->ss.error = 1;
ss->errors++;
}
static void queue_dirty(struct apk_solver_state *ss, struct apk_name *name)
{
if (list_hashed(&name->ss.dirty_list) || name->ss.locked ||
(name->ss.requirers == 0 && !name->ss.reevaluate_iif))
return;
dbg_printf("queue_dirty: %s\n", name->name);
list_add_tail(&name->ss.dirty_list, &ss->dirty_head);
}
static void queue_unresolved(struct apk_solver_state *ss, struct apk_name *name)
{
int want;
if (name->ss.locked)
return;
want = (name->ss.requirers > 0) || (name->ss.has_iif);
dbg_printf("queue_unresolved: %s, want=%d\n", name->name, want);
if (want && !list_hashed(&name->ss.unresolved_list))
list_add(&name->ss.unresolved_list, &ss->unresolved_head);
else if (!want && list_hashed(&name->ss.unresolved_list))
list_del_init(&name->ss.unresolved_list);
}
static void reevaluate_reverse_deps(struct apk_solver_state *ss, struct apk_name *name)
{
struct apk_name **pname0, *name0;
foreach_array_item(pname0, name->rdepends) {
name0 = *pname0;
if (!name0->ss.seen)
continue;
name0->ss.reevaluate_deps = 1;
queue_dirty(ss, name0);
}
}
static void reevaluate_reverse_installif(struct apk_solver_state *ss, struct apk_name *name)
{
struct apk_name **pname0, *name0;
foreach_array_item(pname0, name->rinstall_if) {
name0 = *pname0;
if (!name0->ss.seen)
continue;
name0->ss.reevaluate_iif = 1;
queue_dirty(ss, name0);
}
}
static void disqualify_package(struct apk_solver_state *ss, struct apk_package *pkg, const char *reason)
{
struct apk_dependency *p;
dbg_printf("disqualify_package: " PKG_VER_FMT " (%s)\n", PKG_VER_PRINTF(pkg), reason);
pkg->ss.available = 0;
reevaluate_reverse_deps(ss, pkg->name);
foreach_array_item(p, pkg->provides)
reevaluate_reverse_deps(ss, p->name);
reevaluate_reverse_installif(ss, pkg->name);
}
static int dependency_satisfiable(struct apk_solver_state *ss, struct apk_dependency *dep)
{
struct apk_name *name = dep->name;
struct apk_provider *p;
if (name->ss.locked)
return apk_dep_is_provided(dep, &name->ss.chosen);
if (name->ss.requirers == 0 && apk_dep_is_provided(dep, &provider_none))
return TRUE;
foreach_array_item(p, name->providers)
if (p->pkg->ss.available && apk_dep_is_provided(dep, p))
return TRUE;
return FALSE;
}
static void discover_name(struct apk_solver_state *ss, struct apk_name *name)
{
struct apk_database *db = ss->db;
struct apk_name **pname0;
struct apk_provider *p;
struct apk_dependency *dep;
unsigned int repos;
if (name->ss.seen)
return;
name->ss.seen = 1;
foreach_array_item(p, name->providers) {
struct apk_package *pkg = p->pkg;
if (pkg->ss.seen)
continue;
pkg->ss.seen = 1;
pkg->ss.available = pkg->ipkg || (pkg->repos & db->available_repos);
pkg->ss.pinning_allowed = APK_DEFAULT_PINNING_MASK;
pkg->ss.pinning_preferred = APK_DEFAULT_PINNING_MASK;
repos = get_pkg_repos(db, pkg);
pkg->ss.tag_ok = !!(repos & ss->default_repos);
pkg->ss.tag_preferred = !!(repos & ss->default_repos);
foreach_array_item(dep, pkg->depends) {
discover_name(ss, dep->name);
pkg->ss.max_dep_chain = max(pkg->ss.max_dep_chain,
dep->name->ss.max_dep_chain+1);
}
name->ss.max_dep_chain = max(name->ss.max_dep_chain, pkg->ss.max_dep_chain);
dbg_printf("discover " PKG_VER_FMT ": tag_ok=%d, tag_pref=%d max_dep_chain=%d available=%d\n",
PKG_VER_PRINTF(pkg),
pkg->ss.tag_ok,
pkg->ss.tag_preferred,
pkg->ss.max_dep_chain,
pkg->ss.available);
}
foreach_array_item(pname0, name->rinstall_if)
discover_name(ss, *pname0);
}
static void name_requirers_changed(struct apk_solver_state *ss, struct apk_name *name)
{
queue_unresolved(ss, name);
reevaluate_reverse_installif(ss, name);
queue_dirty(ss, name);
}
static void inherit_pinning(struct apk_solver_state *ss, struct apk_package *pkg, unsigned int pinning, int prefer)
{
unsigned int repo_mask = apk_db_get_pinning_mask_repos(ss->db, pinning);
unsigned int repos = get_pkg_repos(ss->db, pkg);
pkg->ss.pinning_allowed |= pinning;
pkg->ss.tag_ok |= !!(repos & repo_mask);
if (prefer) {
pkg->ss.pinning_preferred |= pinning;
pkg->ss.tag_preferred = !!(repos & apk_db_get_pinning_mask_repos(ss->db, pkg->ss.pinning_preferred));
}
}
static void apply_constraint(struct apk_solver_state *ss, struct apk_package *ppkg, struct apk_dependency *dep)
{
struct apk_name *name = dep->name;
struct apk_provider *p0;
unsigned int solver_flags_inherit = ss->solver_flags_inherit;
int is_provided;
dbg_printf("apply_constraint: %s%s%s" BLOB_FMT "\n",
dep->conflict ? "!" : "",
name->name,
apk_version_op_string(dep->result_mask),
BLOB_PRINTF(*dep->version));
name->ss.requirers += !dep->conflict;
if (name->ss.requirers == 1 && !dep->conflict)
name_requirers_changed(ss, name);
foreach_array_item(p0, name->providers) {
struct apk_package *pkg0 = p0->pkg;
is_provided = apk_dep_is_provided(dep, p0);
dbg_printf("apply_constraint: provider: %s-" BLOB_FMT ": %d\n",
pkg0->name->name, BLOB_PRINTF(*p0->version), is_provided);
pkg0->ss.conflicts += !is_provided;
if (unlikely(pkg0->ss.available && pkg0->ss.conflicts))
disqualify_package(ss, pkg0, "conflicting dependency");
if (is_provided) {
pkg0->ss.solver_flags |= solver_flags_inherit;
pkg0->ss.solver_flags_inheritable |= solver_flags_inherit;
inherit_pinning(ss, pkg0, ss->pinning_inherit, ss->prefer_pinning);
dbg_printf(PKG_VER_FMT ": tag_ok=%d, tag_pref=%d\n",
PKG_VER_PRINTF(pkg0),
pkg0->ss.tag_ok,
pkg0->ss.tag_preferred);
}
}
}
static void exclude_non_providers(struct apk_solver_state *ss, struct apk_name *name, struct apk_name *must_provide)
{
struct apk_provider *p;
struct apk_dependency *d;
dbg_printf("%s must provide %s\n", name->name, must_provide->name);
foreach_array_item(p, name->providers) {
if (p->pkg->name == must_provide)
goto next;
foreach_array_item(d, p->pkg->provides)
if (d->name == must_provide)
goto next;
disqualify_package(ss, p->pkg, "provides transitivity");
next: ;
}
}
static inline void merge_index(unsigned short *index, int num_options)
{
if (*index == num_options)
*index = num_options + 1;
}
static inline int merge_index_complete(unsigned short *index, int num_options)
{
int ret;
ret = (*index == num_options);
*index = 0;
return ret;
}
static void reconsider_name(struct apk_solver_state *ss, struct apk_name *name)
{
struct apk_name *name0, **pname0;
struct apk_dependency *dep;
struct apk_package *first_candidate = NULL, *pkg;
struct apk_provider *p;
int reevaluate_deps, reevaluate_iif;
int num_options = 0, num_tag_not_ok = 0, has_iif = 0;
dbg_printf("reconsider_name: %s\n", name->name);
reevaluate_deps = name->ss.reevaluate_deps;
reevaluate_iif = name->ss.reevaluate_iif;
name->ss.reevaluate_deps = 0;
name->ss.reevaluate_iif = 0;
/* propagate down by merging common dependencies and
* applying new constraints */
foreach_array_item(p, name->providers) {
/* check if this pkg's dependencies have become unsatisfiable */
pkg = p->pkg;
pkg->ss.dependencies_merged = 0;
if (reevaluate_deps) {
if (!pkg->ss.available)
continue;
foreach_array_item(dep, pkg->depends) {
if (!dependency_satisfiable(ss, dep)) {
disqualify_package(ss, pkg, "dependency no longer satisfiable");
break;
}
}
}
if (!pkg->ss.available)
continue;
if (reevaluate_iif) {
pkg->ss.iif_triggered = 1;
foreach_array_item(dep, pkg->install_if) {
if (!dependency_satisfiable(ss, dep)) {
pkg->ss.iif_triggered = 0;
break;
}
}
has_iif |= pkg->ss.iif_triggered;
}
if (name->ss.requirers == 0 && !pkg->ss.iif_triggered)
continue;
/* merge common dependencies */
pkg->ss.dependencies_merged = 1;
if (first_candidate == NULL)
first_candidate = pkg;
/* FIXME: can merge also conflicts */
foreach_array_item(dep, pkg->depends)
if (!dep->conflict)
merge_index(&dep->name->ss.merge_depends, num_options);
merge_index(&pkg->name->ss.merge_provides, num_options);
foreach_array_item(dep, pkg->provides)
if (dep->version != &apk_null_blob)
merge_index(&dep->name->ss.merge_provides, num_options);
num_tag_not_ok += !pkg->ss.tag_ok;
num_options++;
}
name->ss.has_options = (num_options > 1 || num_tag_not_ok > 0);
name->ss.has_iif = has_iif;
queue_unresolved(ss, name);
if (first_candidate != NULL) {
pkg = first_candidate;
foreach_array_item(p, name->providers)
p->pkg->ss.dependencies_used = p->pkg->ss.dependencies_merged;
/* propagate down common dependencies */
if (num_options == 1) {
/* FIXME: keeps increasing counts, use bit fields instead? */
foreach_array_item(dep, pkg->depends)
if (merge_index_complete(&dep->name->ss.merge_depends, num_options))
apply_constraint(ss, pkg, dep);
} else {
/* FIXME: could merge versioning bits too */
foreach_array_item(dep, pkg->depends) {
name0 = dep->name;
if (merge_index_complete(&name0->ss.merge_depends, num_options) &&
name0->ss.requirers == 0) {
/* common dependency name with all */
dbg_printf("%s common dependency: %s\n",
name->name, name0->name);
name0->ss.requirers++;
name_requirers_changed(ss, name0);
}
}
}
/* provides transitivity */
if (merge_index_complete(&pkg->name->ss.merge_provides, num_options))
exclude_non_providers(ss, pkg->name, name);
foreach_array_item(dep, pkg->provides)
if (merge_index_complete(&dep->name->ss.merge_provides, num_options))
exclude_non_providers(ss, dep->name, name);
}
name->ss.reverse_deps_done = 1;
foreach_array_item(pname0, name->rdepends) {
name0 = *pname0;
if (name0->ss.seen && !name0->ss.locked) {
name->ss.reverse_deps_done = 0;
break;
}
}
dbg_printf("reconsider_name: %s [finished], has_options=%d, reverse_deps_done=%d\n",
name->name, name->ss.has_options, name->ss.reverse_deps_done);
}
static int compare_providers(struct apk_solver_state *ss,
struct apk_provider *pA, struct apk_provider *pB)
{
struct apk_database *db = ss->db;
struct apk_package *pkgA = pA->pkg, *pkgB = pB->pkg;
unsigned int solver_flags;
int r;
/* Prefer existing package */
if (pkgA == NULL || pkgB == NULL)
return (pkgA != NULL) - (pkgB != NULL);
/* Latest version required? */
solver_flags = pkgA->ss.solver_flags | pkgB->ss.solver_flags;
if ((solver_flags & APK_SOLVERF_LATEST) &&
(pkgA->ss.pinning_allowed == APK_DEFAULT_PINNING_MASK) &&
(pkgB->ss.pinning_allowed == APK_DEFAULT_PINNING_MASK)) {
/* Prefer allowed pinning */
r = (int)pkgA->ss.tag_ok - (int)pkgB->ss.tag_ok;
if (r)
return r;
/* Prefer available */
if (solver_flags & (APK_SOLVERF_AVAILABLE | APK_SOLVERF_REINSTALL)) {
r = !!(pkgA->repos & db->available_repos) - !!(pkgB->repos & db->available_repos);
if (r)
return r;
}
} else {
/* Prefer without errors */
r = (int)pkgA->ss.available - (int)pkgB->ss.available;
if (r)
return r;
/* Prefer those that were in last dependency merging group */
r = (int)pkgA->ss.dependencies_used - (int)pkgB->ss.dependencies_used;
if (r)
return r;
r = pkgB->ss.conflicts - pkgA->ss.conflicts;
if (r)
return r;
/* Prefer installed on self-upgrade */
if (db->performing_self_update && !(solver_flags & APK_SOLVERF_UPGRADE)) {
r = (pkgA->ipkg != NULL) - (pkgB->ipkg != NULL);
if (r)
return r;
}
/* Prefer allowed pinning */
r = (int)pkgA->ss.tag_ok - (int)pkgB->ss.tag_ok;
if (r)
return r;
/* Prefer available */
if (solver_flags & (APK_SOLVERF_AVAILABLE | APK_SOLVERF_REINSTALL)) {
r = !!(pkgA->repos & db->available_repos) - !!(pkgB->repos & db->available_repos);
if (r)
return r;
}
/* Prefer preferred pinning */
r = (int)pkgA->ss.tag_preferred - (int)pkgB->ss.tag_preferred;
if (r)
return r;
/* Prefer installed */
if (!(solver_flags & APK_SOLVERF_UPGRADE)) {
r = (pkgA->ipkg != NULL) - (pkgB->ipkg != NULL);
if (r)
return r;
}
}
/* Select latest by requested name */
switch (apk_version_compare_blob(*pA->version, *pB->version)) {
case APK_VERSION_LESS:
return -1;
case APK_VERSION_GREATER:
return 1;
}
/* Select latest by principal name */
if (pkgA->name == pkgB->name) {
switch (apk_version_compare_blob(*pkgA->version, *pkgB->version)) {
case APK_VERSION_LESS:
return -1;
case APK_VERSION_GREATER:
return 1;
}
}
/* Prefer installed (matches here if upgrading) */
r = (pkgA->ipkg != NULL) - (pkgB->ipkg != NULL);
if (r)
return r;
/* Prefer lowest available repository */
return ffsl(pkgB->repos) - ffsl(pkgA->repos);
}
static void inherit_pinning_from_pkg(struct apk_solver_state *ss, struct apk_package *rinstall_if, struct apk_package *parent_pkg)
{
inherit_pinning(ss, rinstall_if, parent_pkg->ss.pinning_allowed, 0);
}
static void assign_name(struct apk_solver_state *ss, struct apk_name *name, struct apk_provider p)
{
struct apk_provider *p0;
if (name->ss.locked) {
/* If both are providing this name without version, it's ok */
if (p.version == &apk_null_blob &&
name->ss.chosen.version == &apk_null_blob)
return;
/* Conflict: providing same name */
mark_error(ss, p.pkg);
mark_error(ss, name->ss.chosen.pkg);
return;
}
if (p.pkg)
dbg_printf("assign %s to "PKG_VER_FMT"\n", name->name, PKG_VER_PRINTF(p.pkg));
name->ss.locked = 1;
name->ss.chosen = p;
if (list_hashed(&name->ss.unresolved_list))
list_del(&name->ss.unresolved_list);
if (list_hashed(&name->ss.dirty_list))
list_del(&name->ss.dirty_list);
/* propagate pinning to install_if candidates */
if (p.pkg)
foreach_rinstall_if_pkg(ss, p.pkg, inherit_pinning_from_pkg);
/* disqualify all conflicting packages */
foreach_array_item(p0, name->providers) {
if (p0->pkg == p.pkg)
continue;
if (p.version == &apk_null_blob &&
p0->version == &apk_null_blob)
continue;
disqualify_package(ss, p0->pkg, "conflicting provides");
}
reevaluate_reverse_deps(ss, name);
}
static void select_package(struct apk_solver_state *ss, struct apk_name *name)
{
struct apk_provider chosen = { NULL, &apk_null_blob }, *p;
struct apk_package *pkg = NULL;
struct apk_dependency *d;
dbg_printf("select_package: %s\n", name->name);
if (name->ss.requirers || name->ss.has_iif) {
foreach_array_item(p, name->providers) {
/* Ensure valid pinning and install-if trigger */
if (name->ss.requirers == 0 &&
(!p->pkg->ss.iif_triggered ||
!p->pkg->ss.tag_ok))
continue;
/* Virtual packages cannot be autoselected */
if (p->version == &apk_null_blob && p->pkg->name->ss.requirers == 0)
continue;
if (compare_providers(ss, p, &chosen) > 0)
chosen = *p;
}
}
pkg = chosen.pkg;
if (pkg) {
if (!pkg->ss.available || !pkg->ss.tag_ok) {
/* Selecting broken or unallowed package */
mark_error(ss, pkg);
}
dbg_printf("selecting: " PKG_VER_FMT ", available: %d\n", PKG_VER_PRINTF(pkg), pkg->ss.available);
assign_name(ss, pkg->name, APK_PROVIDER_FROM_PACKAGE(pkg));
foreach_array_item(d, pkg->provides)
assign_name(ss, d->name, APK_PROVIDER_FROM_PROVIDES(pkg, d));
ss->solver_flags_inherit = pkg->ss.solver_flags_inheritable;
ss->pinning_inherit = pkg->ss.pinning_allowed;
foreach_array_item(d, pkg->depends)
apply_constraint(ss, pkg, d);
ss->solver_flags_inherit = 0;
ss->pinning_inherit = 0;
ss->num_selections++;
} else {
dbg_printf("selecting: %s [unassigned]\n", name->name);
assign_name(ss, name, provider_none);
ss->errors += (name->ss.requirers > 0);
}
}
static void generate_change_dep(struct apk_solver_state *ss, struct apk_package *ppkg, struct apk_dependency *dep);
static void generate_change_iif(struct apk_solver_state *ss, struct apk_name *name);
static void generate_change(struct apk_solver_state *ss, struct apk_name *name)
{
struct apk_name **pname;
struct apk_package *pkg = name->ss.chosen.pkg, *opkg;
struct apk_changeset *changeset = ss->changeset;
struct apk_change *change;
struct apk_dependency *d;
if (pkg == NULL)
return;
if (pkg->ss.in_changeset)
return;
pkg->ss.in_changeset = 1;
pkg->name->ss.in_changeset = 1;
foreach_array_item(d, pkg->depends)
generate_change_dep(ss, pkg, d);
change = &changeset->changes->item[ss->num_solution_entries++];
dbg_printf("Selecting: "PKG_VER_FMT"%s\n", PKG_VER_PRINTF(pkg), pkg->ss.available ? "" : " [NOT AVAILABLE]");
opkg = apk_pkg_get_installed(pkg->name);
*change = (struct apk_change) {
.old_pkg = opkg,
.old_repository_tag = opkg ? opkg->ipkg->repository_tag : 0,
.new_pkg = pkg,
.new_repository_tag = get_tag(ss->db, pkg->ss.pinning_allowed, get_pkg_repos(ss->db, pkg)),
.reinstall = !!(pkg->ss.solver_flags & APK_SOLVERF_REINSTALL),
};
if (change->new_pkg == NULL)
changeset->num_remove++;
else if (change->old_pkg == NULL)
changeset->num_install++;
else if (change->new_pkg != change->old_pkg || change->reinstall ||
change->new_repository_tag != change->old_repository_tag)
changeset->num_adjust++;
foreach_array_item(pname, pkg->name->rinstall_if)
generate_change_iif(ss, *pname);
}
static void generate_change_iif(struct apk_solver_state *ss, struct apk_name *name)
{
struct apk_package *pkg = name->ss.chosen.pkg;
struct apk_dependency *dep0;
if (pkg == NULL || !name->ss.seen)
return;
foreach_array_item(dep0, pkg->install_if) {
struct apk_name *name0 = dep0->name;
if (!name0->ss.in_changeset)
return;
if (!apk_dep_is_provided(dep0, &name0->ss.chosen))
return;
}
generate_change(ss, name);
}
static void generate_change_dep(struct apk_solver_state *ss, struct apk_package *ppkg, struct apk_dependency *dep)
{
struct apk_name *name = dep->name;
struct apk_package *pkg = name->ss.chosen.pkg;
if (!apk_dep_is_provided(dep, &name->ss.chosen))
mark_error(ss, ppkg);
generate_change(ss, name);
if (pkg && pkg->ss.error)
mark_error(ss, ppkg);
}
static void generate_changeset(struct apk_solver_state *ss, struct apk_dependency_array *world)
{
struct apk_changeset *changeset = ss->changeset;
struct apk_installed_package *ipkg;
struct apk_dependency *d;
list_for_each_entry(ipkg, &ss->db->installed.packages, installed_pkgs_list) {
struct apk_name *name = ipkg->pkg->name;
if (name->ss.chosen.pkg == NULL && !name->ss.locked)
ss->num_selections++;
}
apk_change_array_resize(&ss->changeset->changes, ss->num_selections);
foreach_array_item(d, world)
generate_change_dep(ss, NULL, d);
/* FIXME: could order better the removals of unneeded packages */
list_for_each_entry(ipkg, &ss->db->installed.packages, installed_pkgs_list) {
struct apk_name *name = ipkg->pkg->name;
if (name->ss.chosen.pkg == NULL && !name->ss.in_changeset) {
struct apk_change *change = &changeset->changes->item[ss->num_solution_entries++];
*change = (struct apk_change) {
.old_pkg = ipkg->pkg,
.new_pkg = NULL,
};
changeset->num_remove++;
}
}
changeset->num_total_changes = changeset->num_install + changeset->num_remove + changeset->num_adjust;
#if 1
/* FIXME: calculate num_solution_entries correctly */
ASSERT(ss->num_solution_entries <= changeset->changes->num,
"Got %d changes, but expected %d\n",
ss->num_solution_entries, changeset->changes->num);
apk_change_array_resize(&ss->changeset->changes, ss->num_solution_entries);
#else
ASSERT(ss->num_solution_entries == changeset->changes->num,
"Got %d changes, but expected %d\n",
ss->num_solution_entries, changeset->changes->num);
#endif
}
static int free_state(apk_hash_item item, void *ctx)
{
struct apk_name *name = (struct apk_name *) item;
memset(&name->ss, 0, sizeof(name->ss));
return 0;
}
static int free_package(apk_hash_item item, void *ctx)
{
struct apk_package *pkg = (struct apk_package *) item;
memset(&pkg->ss, 0, sizeof(pkg->ss));
return 0;
}
int apk_solver_solve(struct apk_database *db,
unsigned short solver_flags,
struct apk_dependency_array *world,
struct apk_changeset *changeset)
{
struct apk_name *name, *name0;
struct apk_package *pkg;
struct apk_solver_state ss_data, *ss = &ss_data;
struct apk_dependency *d;
restart:
memset(ss, 0, sizeof(*ss));
ss->db = db;
ss->changeset = changeset;
ss->default_repos = apk_db_get_pinning_mask_repos(db, APK_DEFAULT_PINNING_MASK);
list_init(&ss->dirty_head);
list_init(&ss->unresolved_head);
dbg_printf("applying world\n");
ss->prefer_pinning = 1;
ss->solver_flags_inherit = solver_flags;
foreach_array_item(d, world) {
if (d->broken)
continue;
name = d->name;
name->ss.in_world_dependency = 1;
discover_name(ss, d->name);
ss->pinning_inherit = BIT(d->repository_tag);
apply_constraint(ss, NULL, d);
}
ss->solver_flags_inherit = 0;
ss->pinning_inherit = 0;
ss->prefer_pinning = 0;
dbg_printf("applying world [finished]\n");
do {
while (!list_empty(&ss->dirty_head)) {
name = list_pop(&ss->dirty_head, struct apk_name, ss.dirty_list);
reconsider_name(ss, name);
}
name = NULL;
list_for_each_entry(name0, &ss->unresolved_head, ss.unresolved_list) {
if (name0->ss.reverse_deps_done && name0->ss.requirers && !name0->ss.has_options) {
name = name0;
break;
}
if (name == NULL)
goto prefer;
if ((!!name0->ss.requirers) - (!!name->ss.requirers) < 0)
continue;
if (name0->ss.max_dep_chain - name->ss.max_dep_chain < 0)
continue;
prefer:
name = name0;
}
if (name == NULL)
break;
select_package(ss, name);
} while (1);
generate_changeset(ss, world);
if (ss->errors && (apk_flags & APK_FORCE)) {
foreach_array_item(d, world) {
name = d->name;
pkg = name->ss.chosen.pkg;
if (pkg == NULL || pkg->ss.error) {
d->broken = 1;
dbg_printf("disabling broken world dep: %s", name->name);
}
}
apk_hash_foreach(&db->available.names, free_state, NULL);
apk_hash_foreach(&db->available.packages, free_package, NULL);
goto restart;
}
apk_hash_foreach(&db->available.names, free_state, NULL);
apk_hash_foreach(&db->available.packages, free_package, NULL);
dbg_printf("solver done, errors=%d\n", ss->errors);
return ss->errors;
}