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/* opkg_hash.c - the opkg package management system
Steven M. Ayer
Copyright (C) 2002 Compaq Computer Corporation
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2, or (at
your option) any later version.
This program is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
*/
#include "includes.h"
#include <errno.h>
#include <ctype.h>
#include <stdlib.h>
#include <string.h>
#include "hash_table.h"
#include "pkg.h"
#include "opkg_message.h"
#include "pkg_vec.h"
#include "pkg_hash.h"
#include "pkg_parse.h"
#include "opkg_utils.h"
#include "libbb/libbb.h"
static abstract_pkg_t * add_new_abstract_pkg_by_name(hash_table_t * hash, const char * pkg_name);
/*
* this will talk to both feeds-lists files and installed status files
* example api:
*
* hash_table_t hash;
* pkg_hash_init(name, &hash, 1000);
* pkg_hash_add_from_file(<feed filename>);
*
* the query function is just there as a shell to prove to me that this
* sort of works, but isn't far from doing something useful
*
* -sma, 12/21/01
* modified: CDW 3 Jan. 2002
*/
int pkg_hash_init(const char *name, hash_table_t *hash, int len)
{
return hash_table_init(name, hash, len);
}
void free_pkgs (const char *key, void *entry, void *data)
{
int i;
abstract_pkg_t *ab_pkg;
/* each entry in the hash table is an abstract package, which contains a list
* of packages that provide the abstract package */
ab_pkg = (abstract_pkg_t*) entry;
if (ab_pkg->pkgs)
{
for (i = 0; i < ab_pkg->pkgs->len; i++)
{
pkg_deinit (ab_pkg->pkgs->pkgs[i]);
free (ab_pkg->pkgs->pkgs[i]);
}
}
abstract_pkg_vec_free (ab_pkg->provided_by);
abstract_pkg_vec_free (ab_pkg->replaced_by);
pkg_vec_free (ab_pkg->pkgs);
free (ab_pkg->depended_upon_by);
free (ab_pkg->name);
free (ab_pkg);
}
void pkg_hash_deinit(hash_table_t *hash)
{
hash_table_foreach (hash, free_pkgs, NULL);
hash_table_deinit(hash);
}
/* Find the default arch for a given package status file if none is given. */
static char *pkg_get_default_arch(opkg_conf_t *conf)
{
nv_pair_list_elt_t *l;
char *def_arch = HOST_CPU_STR; /* Default arch */
int def_prio = 0; /* Other archs override this */
list_for_each_entry(l , &conf->arch_list.head, node) {
nv_pair_t *nv = (nv_pair_t *)l->data;
int priority = strtol(nv->value, NULL, 0);
/* Check if this arch has higher priority, and is valid */
if ((priority > def_prio) &&
(strcmp(nv->name, "all")) && (strcmp(nv->name, "noarch"))) {
/* Our new default */
def_prio = priority;
def_arch = nv->name;
}
}
return xstrdup(def_arch);
}
int pkg_hash_add_from_file(opkg_conf_t *conf, const char *file_name,
pkg_src_t *src, pkg_dest_t *dest, int is_status_file)
{
hash_table_t *hash = &conf->pkg_hash;
pkg_t *pkg;
FILE *fp;
char *buf;
const size_t len = 4096;
int ret = 0;
fp = fopen(file_name, "r");
if (fp == NULL) {
fprintf(stderr, "%s: fopen(%s): %s\n",
__FUNCTION__, file_name, strerror(errno));
return -1;
}
buf = xmalloc(len);
do {
pkg = pkg_new();
pkg->src = src;
pkg->dest = dest;
ret = pkg_parse_from_stream_nomalloc(pkg, fp, PFM_ALL,
&buf, len);
if (ret) {
pkg_deinit (pkg);
free(pkg);
if (ret == -1)
break;
continue;
}
if (!pkg->architecture) {
char *version_str = pkg_version_str_alloc(pkg);
pkg->architecture = pkg_get_default_arch(conf);
opkg_message(conf, OPKG_ERROR, "Package %s version %s has no architecture specified, defaulting to %s.\n",
pkg->name, version_str, pkg->architecture);
free(version_str);
}
hash_insert_pkg(hash, pkg, is_status_file, conf);
} while (!feof(fp));
free(buf);
fclose(fp);
return ret;
}
abstract_pkg_t * abstract_pkg_fetch_by_name(hash_table_t * hash, const char * pkg_name)
{
return (abstract_pkg_t *)hash_table_get(hash, pkg_name);
}
abstract_pkg_vec_t *pkg_hash_fetch_all_installation_candidates(hash_table_t *hash, const char *name)
{
abstract_pkg_t *apkg = abstract_pkg_fetch_by_name(hash, name);
if (apkg)
return NULL;
return apkg->provided_by;
}
pkg_t *pkg_hash_fetch_best_installation_candidate(opkg_conf_t *conf, abstract_pkg_t *apkg,
int (*constraint_fcn)(pkg_t *pkg, void *cdata), void *cdata, int quiet, int *err)
{
int i;
int nprovides = 0;
int nmatching = 0;
pkg_vec_t *matching_pkgs = pkg_vec_alloc();
abstract_pkg_vec_t *matching_apkgs = abstract_pkg_vec_alloc();
abstract_pkg_vec_t *provided_apkg_vec;
abstract_pkg_t **provided_apkgs;
abstract_pkg_vec_t *providers = abstract_pkg_vec_alloc();
pkg_t *latest_installed_parent = NULL;
pkg_t *latest_matching = NULL;
pkg_t *priorized_matching = NULL;
pkg_t *held_pkg = NULL;
pkg_t *good_pkg_by_name = NULL;
if (err)
*err = 0;
if (apkg == NULL || apkg->provided_by == NULL || (apkg->provided_by->len == 0))
return NULL;
opkg_message(conf, OPKG_DEBUG, "best installation candidate for %s\n", apkg->name);
provided_apkg_vec = apkg->provided_by;
nprovides = provided_apkg_vec->len;
provided_apkgs = provided_apkg_vec->pkgs;
if (nprovides > 1)
opkg_message(conf, OPKG_DEBUG, " apkg=%s nprovides=%d\n", apkg->name, nprovides);
/* accumulate all the providers */
for (i = 0; i < nprovides; i++) {
abstract_pkg_t *provider_apkg = provided_apkgs[i];
opkg_message(conf, OPKG_DEBUG, " adding %s to providers\n", provider_apkg->name);
abstract_pkg_vec_insert(providers, provider_apkg);
}
nprovides = providers->len;
for (i = 0; i < nprovides; i++) {
abstract_pkg_t *provider_apkg = abstract_pkg_vec_get(providers, i);
abstract_pkg_t *replacement_apkg = NULL;
pkg_vec_t *vec;
if (provider_apkg->replaced_by && provider_apkg->replaced_by->len) {
replacement_apkg = provider_apkg->replaced_by->pkgs[0];
if (provider_apkg->replaced_by->len > 1) {
opkg_message(conf, OPKG_NOTICE, "Multiple replacers for %s, using first one (%s)\n",
provider_apkg->name, replacement_apkg->name);
}
}
if (replacement_apkg)
opkg_message(conf, OPKG_DEBUG, " replacement_apkg=%s for provider_apkg=%s\n",
replacement_apkg->name, provider_apkg->name);
if (replacement_apkg && (replacement_apkg != provider_apkg)) {
if (abstract_pkg_vec_contains(providers, replacement_apkg))
continue;
else
provider_apkg = replacement_apkg;
}
if (!(vec = provider_apkg->pkgs)) {
opkg_message(conf, OPKG_DEBUG, " no pkgs for provider_apkg %s\n", provider_apkg->name);
continue;
}
/* now check for supported architecture */
{
int max_count = 0;
int i;
/* count packages matching max arch priority and keep track of last one */
for (i = 0; i < vec->len; i++) {
pkg_t *maybe = vec->pkgs[i];
opkg_message(conf, OPKG_DEBUG, " %s arch=%s arch_priority=%d version=%s \n",
maybe->name, maybe->architecture, maybe->arch_priority, maybe->version);
/* We make sure not to add the same package twice. Need to search for the reason why
they show up twice sometimes. */
if ((maybe->arch_priority > 0) && (! pkg_vec_contains(matching_pkgs, maybe))) {
max_count++;
abstract_pkg_vec_insert(matching_apkgs, maybe->parent);
pkg_vec_insert(matching_pkgs, maybe);
}
}
if (vec->len > 0 && matching_pkgs->len < 1)
{
opkg_message (conf, OPKG_ERROR, "Packages were found, but none compatible with the architectures configured\n");
if (err)
*err = OPKG_PKG_HAS_NO_AVAILABLE_ARCH;
}
}
}
if (matching_pkgs->len > 1)
pkg_vec_sort(matching_pkgs, pkg_name_version_and_architecture_compare);
if (matching_apkgs->len > 1)
abstract_pkg_vec_sort(matching_pkgs, abstract_pkg_name_compare);
/* Here it is usefull, if ( matching_apkgs->len > 1 ), to test if one of this matching packages has the same name of the
needed package. In this case, I would return it for install, otherwise I will continue with the procedure */
/* The problem is what to do when there are more than a mathing package, with the same name and several version ?
Until now I always got the latest, but that breaks the downgrade option.
If I stop at the first one, I would probably miss the new ones
Maybe the way is to have some kind of flag somewhere, to see if the package been asked to install is from a file,
or from a Packages feed.
It it is from a file it always need to be checked whatever version I have in feeds or everywhere, according to force-down or whatever options*/
/*Pigi*/
for (i = 0; i < matching_pkgs->len; i++) {
pkg_t *matching = matching_pkgs->pkgs[i];
if (constraint_fcn(matching, cdata)) { /* We found it */
opkg_message(conf, OPKG_DEBUG, " Found a valid candidate for the install: %s %s \n", matching->name, matching->version) ;
good_pkg_by_name = matching;
if ( matching->provided_by_hand == 1 ) /* It has been provided by hand, so it is what user want */
break;
}
}
for (i = 0; i < matching_pkgs->len; i++) {
pkg_t *matching = matching_pkgs->pkgs[i];
latest_matching = matching;
if (matching->parent->state_status == SS_INSTALLED || matching->parent->state_status == SS_UNPACKED)
latest_installed_parent = matching;
if (matching->state_flag & (SF_HOLD|SF_PREFER)) {
if (held_pkg)
opkg_message(conf, OPKG_NOTICE, "Multiple packages (%s and %s) providing same name marked HOLD or PREFER. Using latest.\n",
held_pkg->name, matching->name);
held_pkg = matching;
}
}
if (!good_pkg_by_name && !held_pkg && !latest_installed_parent && matching_apkgs->len > 1 && !quiet) {
int prio = 0;
for (i = 0; i < matching_pkgs->len; i++) {
pkg_t *matching = matching_pkgs->pkgs[i];
if (matching->arch_priority > prio) {
priorized_matching = matching;
prio = matching->arch_priority;
opkg_message(conf, OPKG_DEBUG, "Match with priority %i %s\n", prio, matching->name);
}
}
}
if (conf->verbosity >= OPKG_INFO && matching_apkgs->len > 1) {
opkg_message(conf, OPKG_INFO, "%s: for apkg=%s, %d matching pkgs\n",
__FUNCTION__, apkg->name, matching_pkgs->len);
for (i = 0; i < matching_pkgs->len; i++) {
pkg_t *matching = matching_pkgs->pkgs[i];
opkg_message(conf, OPKG_INFO, " %s %s %s\n",
matching->name, matching->version, matching->architecture);
}
}
nmatching = matching_apkgs->len;
pkg_vec_free(matching_pkgs);
abstract_pkg_vec_free(matching_apkgs);
abstract_pkg_vec_free(providers);
if (good_pkg_by_name) { /* We found a good candidate, we will install it */
return good_pkg_by_name;
}
if (held_pkg) {
opkg_message(conf, OPKG_INFO, " using held package %s\n", held_pkg->name);
return held_pkg;
}
if (latest_installed_parent) {
opkg_message(conf, OPKG_INFO, " using latest version of installed package %s\n", latest_installed_parent->name);
return latest_installed_parent;
}
if (priorized_matching) {
opkg_message(conf, OPKG_INFO, " using priorized matching %s %s %s\n",
priorized_matching->name, priorized_matching->version, priorized_matching->architecture);
return priorized_matching;
}
if (nmatching > 1) {
opkg_message(conf, OPKG_INFO, " no matching pkg out of matching_apkgs=%d\n", nmatching);
return NULL;
}
if (latest_matching) {
opkg_message(conf, OPKG_INFO, " using latest matching %s %s %s\n",
latest_matching->name, latest_matching->version, latest_matching->architecture);
return latest_matching;
}
return NULL;
}
static int pkg_name_constraint_fcn(pkg_t *pkg, void *cdata)
{
const char *name = (const char *)cdata;
if (strcmp(pkg->name, name) == 0)
return 1;
else
return 0;
}
pkg_t *pkg_hash_fetch_best_installation_candidate_by_name(opkg_conf_t *conf, const char *name, int *err)
{
hash_table_t *hash = &conf->pkg_hash;
abstract_pkg_t *apkg = NULL;
pkg_t *ret;
if (!(apkg = abstract_pkg_fetch_by_name(hash, name)))
return NULL;
ret = pkg_hash_fetch_best_installation_candidate(conf, apkg, pkg_name_constraint_fcn, apkg->name, 0, err);
return ret;
}
pkg_t * pkg_hash_fetch_by_name_version(hash_table_t *hash,
const char *pkg_name,
const char * version)
{
pkg_vec_t * vec;
int i;
char *version_str = NULL;
if(!(vec = pkg_vec_fetch_by_name(hash, pkg_name)))
return NULL;
for(i = 0; i < vec->len; i++) {
version_str = pkg_version_str_alloc(vec->pkgs[i]);
if(!strcmp(version_str, version)) {
free(version_str);
break;
}
free(version_str);
}
if(i == vec->len)
return NULL;
return vec->pkgs[i];
}
pkg_t *pkg_hash_fetch_installed_by_name_dest(hash_table_t *hash,
const char *pkg_name,
pkg_dest_t *dest)
{
pkg_vec_t * vec;
int i;
if(!(vec = pkg_vec_fetch_by_name(hash, pkg_name))) {
return NULL;
}
for(i = 0; i < vec->len; i++)
if((vec->pkgs[i]->state_status == SS_INSTALLED || vec->pkgs[i]->state_status == SS_UNPACKED) && vec->pkgs[i]->dest == dest) {
return vec->pkgs[i];
}
return NULL;
}
pkg_t *pkg_hash_fetch_installed_by_name(hash_table_t *hash,
const char *pkg_name)
{
pkg_vec_t * vec;
int i;
if(!(vec = pkg_vec_fetch_by_name(hash, pkg_name))){
return NULL;
}
for(i = 0; i < vec->len; i++)
if (vec->pkgs[i]->state_status == SS_INSTALLED || vec->pkgs[i]->state_status == SS_UNPACKED){
return vec->pkgs[i];
}
return NULL;
}
pkg_vec_t *pkg_vec_fetch_by_name(hash_table_t *hash, const char *pkg_name)
{
abstract_pkg_t * ab_pkg;
if(!(ab_pkg = abstract_pkg_fetch_by_name(hash, pkg_name))){
return NULL;
}
if (ab_pkg->pkgs) {
return ab_pkg->pkgs;
} else if (ab_pkg->provided_by) {
abstract_pkg_t *abpkg = abstract_pkg_vec_get(ab_pkg->provided_by, 0);
if (abpkg != NULL){
return abpkg->pkgs;
} else {
return ab_pkg->pkgs;
}
} else {
return NULL;
}
}
static void pkg_hash_fetch_available_helper(const char *pkg_name, void *entry, void *data)
{
int j;
abstract_pkg_t *ab_pkg = (abstract_pkg_t *)entry;
pkg_vec_t *all = (pkg_vec_t *)data;
pkg_vec_t *pkg_vec = ab_pkg->pkgs;
if (pkg_vec) {
for (j = 0; j < pkg_vec->len; j++) {
pkg_t *pkg = pkg_vec->pkgs[j];
pkg_vec_insert(all, pkg);
}
}
}
void pkg_hash_fetch_available(hash_table_t *hash, pkg_vec_t *all)
{
hash_table_foreach(hash, pkg_hash_fetch_available_helper, all);
}
static void pkg_hash_fetch_all_installed_helper(const char *pkg_name, void *entry, void *data)
{
abstract_pkg_t *ab_pkg = (abstract_pkg_t *)entry;
pkg_vec_t *all = (pkg_vec_t *)data;
pkg_vec_t *pkg_vec = ab_pkg->pkgs;
int j;
if (pkg_vec) {
for (j = 0; j < pkg_vec->len; j++) {
pkg_t *pkg = pkg_vec->pkgs[j];
if (pkg->state_status == SS_INSTALLED || pkg->state_status == SS_UNPACKED) {
pkg_vec_insert(all, pkg);
}
}
}
}
void pkg_hash_fetch_all_installed(hash_table_t *hash, pkg_vec_t *all)
{
hash_table_foreach(hash, pkg_hash_fetch_all_installed_helper, all);
}
static void pkg_hash_dump_helper(const char *pkg_name, void *entry, void *data)
{
int i;
pkg_t *pkg;
abstract_pkg_t *ab_pkg = (abstract_pkg_t *)entry;
opkg_conf_t *conf = (opkg_conf_t *)data;
abstract_pkg_t ** dependents = ab_pkg->depended_upon_by;
fprintf(stdout, "%s\n", ab_pkg->name);
i = 0;
if (dependents != NULL)
while (dependents [i] != NULL)
printf ("\tdepended upon by - %s\n", dependents [i ++]->name);
dependents = ab_pkg->provided_by->pkgs;
i = 0;
if (dependents != NULL)
while (dependents [i] != NULL && i < ab_pkg->provided_by->len)
printf ("\tprovided by - %s\n", dependents [i ++]->name);
pkg = pkg_hash_fetch_best_installation_candidate_by_name (conf, ab_pkg->name, NULL);
if (pkg) {
i = 0;
while (i < pkg->depends_count)
printf ("\tdepends on - %s\n", pkg->depends_str [i ++]);
}
}
void pkg_hash_dump(hash_table_t *hash, void *data)
{
printf ("\n\n+=+%s+=+\n\n", __FUNCTION__);
hash_table_foreach(hash, pkg_hash_dump_helper, data);
printf ("\n+=+%s+=+\n\n", __FUNCTION__);
}
abstract_pkg_t * ensure_abstract_pkg_by_name(hash_table_t * hash, const char * pkg_name)
{
abstract_pkg_t * ab_pkg;
if(!(ab_pkg = abstract_pkg_fetch_by_name(hash, pkg_name)))
ab_pkg = add_new_abstract_pkg_by_name(hash, pkg_name);
return ab_pkg;
}
pkg_t *hash_insert_pkg(hash_table_t *hash, pkg_t *pkg, int set_status,opkg_conf_t *conf)
{
abstract_pkg_t * ab_pkg;
int arch_priority;
if(!pkg)
return pkg;
arch_priority = pkg->arch_priority;
buildDepends(hash, pkg);
ab_pkg = ensure_abstract_pkg_by_name(hash, pkg->name);
if (set_status) {
if (pkg->state_status == SS_INSTALLED) {
ab_pkg->state_status = SS_INSTALLED;
} else if (pkg->state_status == SS_UNPACKED) {
ab_pkg->state_status = SS_UNPACKED;
}
}
if(!ab_pkg->pkgs)
ab_pkg->pkgs = pkg_vec_alloc();
buildProvides(hash, ab_pkg, pkg);
/* need to build the conflicts graph before replaces for correct calculation of replaced_by relation */
buildConflicts(hash, ab_pkg, pkg);
buildReplaces(hash, ab_pkg, pkg);
buildDependedUponBy(pkg, ab_pkg);
/* pkg_vec_insert_merge might munge package, but it returns an unmunged pkg */
pkg = pkg_vec_insert_merge(ab_pkg->pkgs, pkg, set_status,conf );
pkg->parent = ab_pkg;
return pkg;
}
/*
* this will assume that we've already determined that
* the abstract pkg doesn't exist, 'cause we should know these things...
*/
static abstract_pkg_t * add_new_abstract_pkg_by_name(hash_table_t * hash, const char * pkg_name)
{
abstract_pkg_t * ab_pkg;
ab_pkg = abstract_pkg_new();
ab_pkg->name = xstrdup(pkg_name);
hash_table_insert(hash, pkg_name, ab_pkg);
return ab_pkg;
}
pkg_t *file_hash_get_file_owner(opkg_conf_t *conf, const char *file_name)
{
hash_table_t *file_hash = &conf->file_hash;
return hash_table_get(file_hash, file_name);
}
int file_hash_set_file_owner(opkg_conf_t *conf, const char *file_name, pkg_t *owning_pkg)
{
hash_table_t *file_hash = &conf->file_hash;
pkg_t *old_owning_pkg = hash_table_get(file_hash, file_name);
int file_name_len = strlen(file_name);
if (file_name[file_name_len -1] == '/')
return 0;
if (conf->offline_root) {
int len = strlen(conf->offline_root);
if (strncmp(file_name, conf->offline_root, len) == 0) {
file_name += len;
}
}
// opkg_message(conf, OPKG_DEBUG2, "owning_pkg=%s filename=%s\n", owning_pkg->name, file_name);
hash_table_insert(file_hash, file_name, owning_pkg);
if (old_owning_pkg) {
pkg_get_installed_files(conf, old_owning_pkg);
str_list_remove_elt(old_owning_pkg->installed_files, file_name);
pkg_free_installed_files(old_owning_pkg);
/* mark this package to have its filelist written */
old_owning_pkg->state_flag |= SF_FILELIST_CHANGED;
owning_pkg->state_flag |= SF_FILELIST_CHANGED;
}
return 0;
}
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