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|
/* pkg_depends.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 <stdio.h>
#include <ctype.h>
#include "pkg.h"
#include "opkg_utils.h"
#include "pkg_hash.h"
#include "opkg_message.h"
#include "pkg_parse.h"
#include "hash_table.h"
#include "libbb/libbb.h"
static int parseDepends(compound_depend_t *compound_depend, char * depend_str);
static depend_t * depend_init(void);
static char ** add_unresolved_dep(pkg_t * pkg, char ** the_lost, int ref_ndx);
static char ** merge_unresolved(char ** oldstuff, char ** newstuff);
static int is_pkg_in_pkg_vec(pkg_vec_t * vec, pkg_t * pkg);
static int pkg_installed_and_constraint_satisfied(pkg_t *pkg, void *cdata)
{
depend_t *depend = (depend_t *)cdata;
if ((pkg->state_status == SS_INSTALLED || pkg->state_status == SS_UNPACKED) && version_constraints_satisfied(depend, pkg))
return 1;
else
return 0;
}
static int pkg_constraint_satisfied(pkg_t *pkg, void *cdata)
{
depend_t *depend = (depend_t *)cdata;
if (version_constraints_satisfied(depend, pkg))
return 1;
else
return 0;
}
/* returns ndependencies or negative error value */
int
pkg_hash_fetch_unsatisfied_dependencies(pkg_t * pkg, pkg_vec_t *unsatisfied,
char *** unresolved)
{
pkg_t * satisfier_entry_pkg;
int i, j, k;
int count, found;
char ** the_lost;
abstract_pkg_t * ab_pkg;
/*
* this is a setup to check for redundant/cyclic dependency checks,
* which are marked at the abstract_pkg level
*/
if (!(ab_pkg = pkg->parent)) {
opkg_msg(ERROR, "Internal error, with pkg %s.\n", pkg->name);
*unresolved = NULL;
return 0;
}
if (ab_pkg->dependencies_checked) { /* avoid duplicate or cyclic checks */
*unresolved = NULL;
return 0;
} else {
ab_pkg->dependencies_checked = 1; /* mark it for subsequent visits */
}
/**/
count = pkg->pre_depends_count + pkg->depends_count + pkg->recommends_count + pkg->suggests_count;
if (!count){
*unresolved = NULL;
return 0;
}
the_lost = NULL;
/* foreach dependency */
for (i = 0; i < count; i++) {
compound_depend_t * compound_depend = &pkg->depends[i];
depend_t ** possible_satisfiers = compound_depend->possibilities;;
found = 0;
satisfier_entry_pkg = NULL;
if (compound_depend->type == GREEDY_DEPEND) {
/* foreach possible satisfier */
for (j = 0; j < compound_depend->possibility_count; j++) {
/* foreach provided_by, which includes the abstract_pkg itself */
abstract_pkg_t *abpkg = possible_satisfiers[j]->pkg;
abstract_pkg_vec_t *ab_provider_vec = abpkg->provided_by;
int nposs = ab_provider_vec->len;
abstract_pkg_t **ab_providers = ab_provider_vec->pkgs;
int l;
for (l = 0; l < nposs; l++) {
pkg_vec_t *test_vec = ab_providers[l]->pkgs;
/* if no depends on this one, try the first package that Provides this one */
if (!test_vec){ /* no pkg_vec hooked up to the abstract_pkg! (need another feed?) */
continue;
}
/* cruise this possiblity's pkg_vec looking for an installed version */
for (k = 0; k < test_vec->len; k++) {
pkg_t *pkg_scout = test_vec->pkgs[k];
/* not installed, and not already known about? */
if ((pkg_scout->state_want != SW_INSTALL)
&& !pkg_scout->parent->dependencies_checked
&& !is_pkg_in_pkg_vec(unsatisfied, pkg_scout)) {
char ** newstuff = NULL;
int rc;
pkg_vec_t *tmp_vec = pkg_vec_alloc ();
/* check for not-already-installed dependencies */
rc = pkg_hash_fetch_unsatisfied_dependencies(pkg_scout,
tmp_vec,
&newstuff);
if (newstuff == NULL) {
int m;
int ok = 1;
for (m = 0; m < rc; m++) {
pkg_t *p = tmp_vec->pkgs[m];
if (p->state_want == SW_INSTALL)
continue;
opkg_msg(DEBUG,
"Not installing %s due"
" to requirement for %s.\n",
pkg_scout->name,
p->name);
ok = 0;
break;
}
pkg_vec_free (tmp_vec);
if (ok) {
/* mark this one for installation */
opkg_msg(NOTICE,
"Adding satisfier for greedy"
" dependence %s.\n",
pkg_scout->name);
pkg_vec_insert(unsatisfied, pkg_scout);
}
} else {
opkg_msg(DEBUG,
"Not installing %s due to "
"broken depends.\n",
pkg_scout->name);
free (newstuff);
}
}
}
}
}
continue;
}
/* foreach possible satisfier, look for installed package */
for (j = 0; j < compound_depend->possibility_count; j++) {
/* foreach provided_by, which includes the abstract_pkg itself */
depend_t *dependence_to_satisfy = possible_satisfiers[j];
abstract_pkg_t *satisfying_apkg = possible_satisfiers[j]->pkg;
pkg_t *satisfying_pkg =
pkg_hash_fetch_best_installation_candidate(satisfying_apkg,
pkg_installed_and_constraint_satisfied,
dependence_to_satisfy, 1);
/* Being that I can't test constraing in pkg_hash, I will test it here */
if (satisfying_pkg != NULL) {
if (!pkg_installed_and_constraint_satisfied ( satisfying_pkg,dependence_to_satisfy)) {
satisfying_pkg = NULL;
}
}
opkg_msg(DEBUG, "satisfying_pkg=%p\n", satisfying_pkg);
if (satisfying_pkg != NULL) {
found = 1;
break;
}
}
/* if nothing installed matches, then look for uninstalled satisfier */
if (!found) {
/* foreach possible satisfier, look for installed package */
for (j = 0; j < compound_depend->possibility_count; j++) {
/* foreach provided_by, which includes the abstract_pkg itself */
depend_t *dependence_to_satisfy = possible_satisfiers[j];
abstract_pkg_t *satisfying_apkg = possible_satisfiers[j]->pkg;
pkg_t *satisfying_pkg =
pkg_hash_fetch_best_installation_candidate(satisfying_apkg,
pkg_constraint_satisfied,
dependence_to_satisfy, 1);
/* Being that I can't test constraing in pkg_hash, I will test it here too */
if (satisfying_pkg != NULL) {
if (!pkg_constraint_satisfied ( satisfying_pkg,dependence_to_satisfy)) {
satisfying_pkg = NULL;
}
}
/* user request overrides package recommendation */
if (satisfying_pkg != NULL
&& (compound_depend->type == RECOMMEND || compound_depend->type == SUGGEST)
&& (satisfying_pkg->state_want == SW_DEINSTALL || satisfying_pkg->state_want == SW_PURGE)) {
opkg_msg(NOTICE, "%s: ignoring recommendation for "
"%s at user request\n",
pkg->name, satisfying_pkg->name);
continue;
}
opkg_msg(DEBUG, "satisfying_pkg=%p\n", satisfying_pkg);
if (satisfying_pkg != NULL) {
satisfier_entry_pkg = satisfying_pkg;
break;
}
}
}
/* we didn't find one, add something to the unsatisfied vector */
if (!found) {
if (!satisfier_entry_pkg) {
/* failure to meet recommendations is not an error */
if (compound_depend->type != RECOMMEND && compound_depend->type != SUGGEST)
the_lost = add_unresolved_dep(pkg, the_lost, i);
else
opkg_msg(NOTICE,
"%s: unsatisfied recommendation for %s\n",
pkg->name,
compound_depend->possibilities[0]->pkg->name);
}
else {
if (compound_depend->type == SUGGEST) {
/* just mention it politely */
opkg_msg(NOTICE, "package %s suggests installing %s\n",
pkg->name, satisfier_entry_pkg->name);
} else {
char ** newstuff = NULL;
if (satisfier_entry_pkg != pkg &&
!is_pkg_in_pkg_vec(unsatisfied, satisfier_entry_pkg)) {
pkg_vec_insert(unsatisfied, satisfier_entry_pkg);
pkg_hash_fetch_unsatisfied_dependencies(satisfier_entry_pkg,
unsatisfied,
&newstuff);
the_lost = merge_unresolved(the_lost, newstuff);
if (newstuff)
free(newstuff);
}
}
}
}
}
*unresolved = the_lost;
return unsatisfied->len;
}
pkg_vec_t *
pkg_hash_fetch_satisfied_dependencies(pkg_t * pkg)
{
pkg_vec_t *satisfiers;
int i, j, k;
int count;
abstract_pkg_t * ab_pkg;
satisfiers = pkg_vec_alloc();
/*
* this is a setup to check for redundant/cyclic dependency checks,
* which are marked at the abstract_pkg level
*/
if (!(ab_pkg = pkg->parent)) {
opkg_msg(ERROR, "Internal error, with pkg %s.\n", pkg->name);
return satisfiers;
}
count = pkg->pre_depends_count + pkg->depends_count + pkg->recommends_count + pkg->suggests_count;
if (!count)
return satisfiers;
/* foreach dependency */
for (i = 0; i < count; i++) {
compound_depend_t * compound_depend = &pkg->depends[i];
depend_t ** possible_satisfiers = compound_depend->possibilities;;
if (compound_depend->type == RECOMMEND || compound_depend->type == SUGGEST)
continue;
if (compound_depend->type == GREEDY_DEPEND) {
/* foreach possible satisfier */
for (j = 0; j < compound_depend->possibility_count; j++) {
/* foreach provided_by, which includes the abstract_pkg itself */
abstract_pkg_t *abpkg = possible_satisfiers[j]->pkg;
abstract_pkg_vec_t *ab_provider_vec = abpkg->provided_by;
int nposs = ab_provider_vec->len;
abstract_pkg_t **ab_providers = ab_provider_vec->pkgs;
int l;
for (l = 0; l < nposs; l++) {
pkg_vec_t *test_vec = ab_providers[l]->pkgs;
/* if no depends on this one, try the first package that Provides this one */
if (!test_vec){ /* no pkg_vec hooked up to the abstract_pkg! (need another feed?) */
continue;
}
/* cruise this possiblity's pkg_vec looking for an installed version */
for (k = 0; k < test_vec->len; k++) {
pkg_t *pkg_scout = test_vec->pkgs[k];
/* not installed, and not already known about? */
if (pkg_scout->state_want == SW_INSTALL && pkg_scout != pkg)
pkg_vec_insert(satisfiers, pkg_scout);
}
}
}
continue;
}
/* foreach possible satisfier, look for installed package */
for (j = 0; j < compound_depend->possibility_count; j++) {
/* foreach provided_by, which includes the abstract_pkg itself */
depend_t *dependence_to_satisfy = possible_satisfiers[j];
abstract_pkg_t *satisfying_apkg = possible_satisfiers[j]->pkg;
pkg_t *satisfying_pkg =
pkg_hash_fetch_best_installation_candidate(satisfying_apkg,
pkg_installed_and_constraint_satisfied,
dependence_to_satisfy, 0);
/* Being that I can't test constraing in pkg_hash, I will test it here */
if (satisfying_pkg != NULL && satisfying_pkg != pkg) {
if (pkg_constraint_satisfied(satisfying_pkg, dependence_to_satisfy) && (satisfying_pkg->state_want == SW_INSTALL || satisfying_pkg->state_want == SW_UNKNOWN))
pkg_vec_insert(satisfiers, satisfying_pkg);
}
}
}
return satisfiers;
}
/*checking for conflicts !in replaces
If a packages conflicts with another but is also replacing it, I should not consider it a
really conflicts
returns 0 if conflicts <> replaces or 1 if conflicts == replaces
*/
static int
is_pkg_a_replaces(pkg_t *pkg_scout,pkg_t *pkg)
{
int i ;
int replaces_count = pkg->replaces_count;
abstract_pkg_t **replaces;
if (pkg->replaces_count==0) // No replaces, it's surely a conflict
return 0;
replaces = pkg->replaces;
for (i = 0; i < replaces_count; i++) {
if (strcmp(pkg_scout->name,pkg->replaces[i]->name)==0) { // Found
opkg_msg(DEBUG2, "Seems I've found a replace %s %s\n",
pkg_scout->name, pkg->replaces[i]->name);
return 1;
}
}
return 0;
}
pkg_vec_t * pkg_hash_fetch_conflicts(pkg_t * pkg)
{
pkg_vec_t * installed_conflicts, * test_vec;
compound_depend_t * conflicts;
depend_t ** possible_satisfiers;
depend_t * possible_satisfier;
int i, j, k;
int count;
abstract_pkg_t * ab_pkg;
pkg_t **pkg_scouts;
pkg_t *pkg_scout;
/*
* this is a setup to check for redundant/cyclic dependency checks,
* which are marked at the abstract_pkg level
*/
if(!(ab_pkg = pkg->parent)){
opkg_msg(ERROR, "Internal error: %s not in hash table\n", pkg->name);
return (pkg_vec_t *)NULL;
}
conflicts = pkg->conflicts;
if(!conflicts){
return (pkg_vec_t *)NULL;
}
installed_conflicts = pkg_vec_alloc();
count = pkg->conflicts_count;
/* foreach conflict */
for(i = 0; i < pkg->conflicts_count; i++){
possible_satisfiers = conflicts->possibilities;
/* foreach possible satisfier */
for(j = 0; j < conflicts->possibility_count; j++){
possible_satisfier = possible_satisfiers[j];
if (!possible_satisfier)
opkg_msg(ERROR, "Internal error: possible_satisfier=NULL\n");
if (!possible_satisfier->pkg)
opkg_msg(ERROR, "Internal error: possible_satisfier->pkg=NULL\n");
test_vec = possible_satisfier->pkg->pkgs;
if (test_vec) {
/* pkg_vec found, it is an actual package conflict
* cruise this possiblity's pkg_vec looking for an installed version */
pkg_scouts = test_vec->pkgs;
for(k = 0; k < test_vec->len; k++){
pkg_scout = pkg_scouts[k];
if (!pkg_scout) {
opkg_msg(ERROR, "Internal error: pkg_scout=NULL\n");
continue;
}
if ((pkg_scout->state_status == SS_INSTALLED || pkg_scout->state_want == SW_INSTALL) &&
version_constraints_satisfied(possible_satisfier, pkg_scout) && !is_pkg_a_replaces(pkg_scout,pkg)){
if (!is_pkg_in_pkg_vec(installed_conflicts, pkg_scout)){
pkg_vec_insert(installed_conflicts, pkg_scout);
}
}
}
}
}
conflicts++;
}
if (installed_conflicts->len)
return installed_conflicts;
pkg_vec_free(installed_conflicts);
return (pkg_vec_t *)NULL;
}
int version_constraints_satisfied(depend_t * depends, pkg_t * pkg)
{
pkg_t * temp;
int comparison;
if(depends->constraint == NONE)
return 1;
temp = pkg_new();
parse_version(temp, depends->version);
comparison = pkg_compare_versions(pkg, temp);
free (temp->version);
free(temp);
if((depends->constraint == EARLIER) &&
(comparison < 0))
return 1;
else if((depends->constraint == LATER) &&
(comparison > 0))
return 1;
else if(comparison == 0)
return 1;
else if((depends->constraint == LATER_EQUAL) &&
(comparison >= 0))
return 1;
else if((depends->constraint == EARLIER_EQUAL) &&
(comparison <= 0))
return 1;
return 0;
}
int pkg_dependence_satisfiable(depend_t *depend)
{
abstract_pkg_t *apkg = depend->pkg;
abstract_pkg_vec_t *provider_apkgs = apkg->provided_by;
int n_providers = provider_apkgs->len;
abstract_pkg_t **apkgs = provider_apkgs->pkgs;
pkg_vec_t *pkg_vec;
int n_pkgs ;
int i;
int j;
for (i = 0; i < n_providers; i++) {
abstract_pkg_t *papkg = apkgs[i];
pkg_vec = papkg->pkgs;
if (pkg_vec) {
n_pkgs = pkg_vec->len;
for (j = 0; j < n_pkgs; j++) {
pkg_t *pkg = pkg_vec->pkgs[j];
if (version_constraints_satisfied(depend, pkg)) {
return 1;
}
}
}
}
return 0;
}
int pkg_dependence_satisfied(depend_t *depend)
{
abstract_pkg_t *apkg = depend->pkg;
abstract_pkg_vec_t *provider_apkgs = apkg->provided_by;
int n_providers = provider_apkgs->len;
abstract_pkg_t **apkgs = provider_apkgs->pkgs;
int i;
int n_pkgs;
int j;
for (i = 0; i < n_providers; i++) {
abstract_pkg_t *papkg = apkgs[i];
pkg_vec_t *pkg_vec = papkg->pkgs;
if (pkg_vec) {
n_pkgs = pkg_vec->len;
for (j = 0; j < n_pkgs; j++) {
pkg_t *pkg = pkg_vec->pkgs[j];
if (version_constraints_satisfied(depend, pkg)) {
if (pkg->state_status == SS_INSTALLED || pkg->state_status == SS_UNPACKED)
return 1;
}
}
}
}
return 0;
}
static int is_pkg_in_pkg_vec(pkg_vec_t * vec, pkg_t * pkg)
{
int i;
pkg_t ** pkgs = vec->pkgs;
for(i = 0; i < vec->len; i++)
if((strcmp(pkg->name, (*(pkgs + i))->name) == 0)
&& (pkg_compare_versions(pkg, *(pkgs + i)) == 0)
&& (strcmp(pkg->architecture, (*(pkgs + i))->architecture) == 0))
return 1;
return 0;
}
/**
* pkg_replaces returns 1 if pkg->replaces contains one of replacee's provides and 0
* otherwise.
*/
int pkg_replaces(pkg_t *pkg, pkg_t *replacee)
{
abstract_pkg_t **replaces = pkg->replaces;
int replaces_count = pkg->replaces_count;
int replacee_provides_count = replacee->provides_count;
int i, j;
for (i = 0; i < replaces_count; i++) {
abstract_pkg_t *abstract_replacee = replaces[i];
for (j = 0; j < replacee_provides_count; j++) {
if (replacee->provides[j] == abstract_replacee)
return 1;
}
}
return 0;
}
/**
* pkg_conflicts_abstract returns 1 if pkg->conflicts contains conflictee and 0
* otherwise.
*/
int pkg_conflicts_abstract(pkg_t *pkg, abstract_pkg_t *conflictee)
{
compound_depend_t *conflicts = pkg->conflicts;
int conflicts_count = pkg->conflicts_count;
int i, j;
for (i = 0; i < conflicts_count; i++) {
int possibility_count = conflicts[i].possibility_count;
struct depend **possibilities = conflicts[i].possibilities;
for (j = 0; j < possibility_count; j++) {
if (possibilities[j]->pkg == conflictee) {
return 1;
}
}
}
return 0;
}
/**
* pkg_conflicts returns 1 if pkg->conflicts contains one of
* conflictee's provides and 0 otherwise.
*/
int pkg_conflicts(pkg_t *pkg, pkg_t *conflictee)
{
compound_depend_t *conflicts = pkg->conflicts;
int conflicts_count = pkg->conflicts_count;
abstract_pkg_t **conflictee_provides = conflictee->provides;
int conflictee_provides_count = conflictee->provides_count;
int i, j, k;
int possibility_count;
struct depend **possibilities;
abstract_pkg_t *possibility ;
for (i = 0; i < conflicts_count; i++) {
possibility_count = conflicts[i].possibility_count;
possibilities = conflicts[i].possibilities;
for (j = 0; j < possibility_count; j++) {
possibility = possibilities[j]->pkg;
for (k = 0; k < conflictee_provides_count; k++) {
if (possibility == conflictee_provides[k]) {
return 1;
}
}
}
}
return 0;
}
static char ** merge_unresolved(char ** oldstuff, char ** newstuff)
{
int oldlen = 0, newlen = 0;
char ** result;
int i, j;
if(!newstuff)
return oldstuff;
while(oldstuff && oldstuff[oldlen]) oldlen++;
while(newstuff && newstuff[newlen]) newlen++;
result = xrealloc(oldstuff, sizeof(char *) * (oldlen + newlen + 1));
for(i = oldlen, j = 0; i < (oldlen + newlen); i++, j++)
*(result + i) = *(newstuff + j);
*(result + i) = NULL;
return result;
}
/*
* a kinda kludgy way to back out depends str from two different arrays (reg'l'r 'n pre)
* this is null terminated, no count is carried around
*/
char ** add_unresolved_dep(pkg_t * pkg, char ** the_lost, int ref_ndx)
{
int count;
char ** resized;
count = 0;
while(the_lost && the_lost[count]) count++;
count++; /* need one to hold the null */
resized = xrealloc(the_lost, sizeof(char *) * (count + 1));
resized[count - 1] = pkg_depend_str(pkg, ref_ndx);
resized[count] = NULL;
return resized;
}
void buildProvides(abstract_pkg_t * ab_pkg, pkg_t * pkg)
{
int i;
/* every pkg provides itself */
pkg->provides_count++;
abstract_pkg_vec_insert(ab_pkg->provided_by, ab_pkg);
pkg->provides = xcalloc(pkg->provides_count, sizeof(abstract_pkg_t *));
pkg->provides[0] = ab_pkg;
for (i=1; i<pkg->provides_count; i++) {
abstract_pkg_t *provided_abpkg = ensure_abstract_pkg_by_name(
pkg->provides_str[i-1]);
free(pkg->provides_str[i-1]);
pkg->provides[i] = provided_abpkg;
abstract_pkg_vec_insert(provided_abpkg->provided_by, ab_pkg);
}
if (pkg->provides_str)
free(pkg->provides_str);
}
void buildConflicts(pkg_t * pkg)
{
int i;
compound_depend_t * conflicts;
if (!pkg->conflicts_count)
return;
conflicts = pkg->conflicts = xcalloc(pkg->conflicts_count, sizeof(compound_depend_t));
for (i = 0; i < pkg->conflicts_count; i++) {
conflicts->type = CONFLICTS;
parseDepends(conflicts, pkg->conflicts_str[i]);
free(pkg->conflicts_str[i]);
conflicts++;
}
if (pkg->conflicts_str)
free(pkg->conflicts_str);
}
void buildReplaces(abstract_pkg_t * ab_pkg, pkg_t * pkg)
{
int i;
if (!pkg->replaces_count)
return;
pkg->replaces = xcalloc(pkg->replaces_count, sizeof(abstract_pkg_t *));
for(i = 0; i < pkg->replaces_count; i++){
abstract_pkg_t *old_abpkg = ensure_abstract_pkg_by_name(pkg->replaces_str[i]);
pkg->replaces[i] = old_abpkg;
free(pkg->replaces_str[i]);
if (!old_abpkg->replaced_by)
old_abpkg->replaced_by = abstract_pkg_vec_alloc();
/* if a package pkg both replaces and conflicts old_abpkg,
* then add it to the replaced_by vector so that old_abpkg
* will be upgraded to ab_pkg automatically */
if (pkg_conflicts_abstract(pkg, old_abpkg))
abstract_pkg_vec_insert(old_abpkg->replaced_by, ab_pkg);
}
if (pkg->replaces_str)
free(pkg->replaces_str);
}
void buildDepends(pkg_t * pkg)
{
unsigned int count;
int i;
compound_depend_t * depends;
if(!(count = pkg->pre_depends_count + pkg->depends_count + pkg->recommends_count + pkg->suggests_count))
return;
depends = pkg->depends = xcalloc(count, sizeof(compound_depend_t));
for(i = 0; i < pkg->pre_depends_count; i++){
parseDepends(depends, pkg->pre_depends_str[i]);
free(pkg->pre_depends_str[i]);
depends->type = PREDEPEND;
depends++;
}
if (pkg->pre_depends_str)
free(pkg->pre_depends_str);
for(i = 0; i < pkg->depends_count; i++){
parseDepends(depends, pkg->depends_str[i]);
free(pkg->depends_str[i]);
depends++;
}
if (pkg->depends_str)
free(pkg->depends_str);
for(i = 0; i < pkg->recommends_count; i++){
parseDepends(depends, pkg->recommends_str[i]);
free(pkg->recommends_str[i]);
depends->type = RECOMMEND;
depends++;
}
if(pkg->recommends_str)
free(pkg->recommends_str);
for(i = 0; i < pkg->suggests_count; i++){
parseDepends(depends, pkg->suggests_str[i]);
free(pkg->suggests_str[i]);
depends->type = SUGGEST;
depends++;
}
if(pkg->suggests_str)
free(pkg->suggests_str);
}
const char*
constraint_to_str(enum version_constraint c)
{
switch (c) {
case NONE:
return "";
case EARLIER:
return "< ";
case EARLIER_EQUAL:
return "<= ";
case EQUAL:
return "= ";
case LATER_EQUAL:
return ">= ";
case LATER:
return "> ";
}
return "";
}
/*
* Returns a printable string for pkg's dependency at the specified idx. The
* resultant string must be passed to free() by the caller.
*/
char *
pkg_depend_str(pkg_t *pkg, int idx)
{
int i;
unsigned int len;
char *str;
compound_depend_t *cdep;
depend_t *dep;
len = 0;
cdep = &pkg->depends[idx];
/* calculate string length */
for (i=0; i<cdep->possibility_count; i++) {
dep = cdep->possibilities[i];
if (i != 0)
len += 3; /* space, pipe, space */
len += strlen(dep->pkg->name);
if (dep->version) {
len += 2; /* space, left parenthesis */
len += 3; /* constraint string (<=, >=, etc), space */
len += strlen(dep->version);
len += 1; /* right parenthesis */
}
}
str = xmalloc(len + 1); /* +1 for the NULL terminator */
str[0] = '\0';
for (i=0; i<cdep->possibility_count; i++) {
dep = cdep->possibilities[i];
if (i != 0)
strncat(str, " | ", len);
strncat(str, dep->pkg->name, len);
if (dep->version) {
strncat(str, " (", len);
strncat(str, constraint_to_str(dep->constraint), len);
strncat(str, dep->version, len);
strncat(str, ")", len);
}
}
return str;
}
void buildDependedUponBy(pkg_t * pkg, abstract_pkg_t * ab_pkg)
{
compound_depend_t * depends;
int count, othercount;
int i, j;
abstract_pkg_t * ab_depend;
abstract_pkg_t ** temp;
count = pkg->pre_depends_count +
pkg->depends_count +
pkg->recommends_count +
pkg->suggests_count;
for (i = 0; i < count; i++) {
depends = &pkg->depends[i];
if (depends->type != PREDEPEND
&& depends->type != DEPEND
&& depends->type != RECOMMEND)
continue;
for (j = 0; j < depends->possibility_count; j++) {
ab_depend = depends->possibilities[j]->pkg;
if (!ab_depend->depended_upon_by) {
ab_depend->depended_upon_by =
xcalloc(1, sizeof(abstract_pkg_t *));
}
temp = ab_depend->depended_upon_by;
othercount = 1;
while (*temp) {
temp++;
othercount++;
}
*temp = ab_pkg;
ab_depend->depended_upon_by =
xrealloc(ab_depend->depended_upon_by,
(othercount + 1) * sizeof(abstract_pkg_t *));
/* the array may have been moved by realloc */
temp = ab_depend->depended_upon_by + othercount;
*temp = NULL;
}
}
}
static depend_t * depend_init(void)
{
depend_t * d = xcalloc(1, sizeof(depend_t));
d->constraint = NONE;
d->version = NULL;
d->pkg = NULL;
return d;
}
static int parseDepends(compound_depend_t *compound_depend,
char * depend_str)
{
char * pkg_name, buffer[2048];
unsigned int num_of_ors = 0;
int i;
char * src, * dest;
depend_t ** possibilities;
/* first count the number of ored possibilities for satisfying dependency */
src = depend_str;
while(*src)
if(*src++ == '|')
num_of_ors++;
compound_depend->type = DEPEND;
compound_depend->possibility_count = num_of_ors + 1;
possibilities = xcalloc((num_of_ors + 1), sizeof(depend_t *) );
compound_depend->possibilities = possibilities;
src = depend_str;
for(i = 0; i < num_of_ors + 1; i++){
possibilities[i] = depend_init();
/* gobble up just the name first */
dest = buffer;
while(*src &&
!isspace(*src) &&
(*src != '(') &&
(*src != '*') &&
(*src != '|'))
*dest++ = *src++;
*dest = '\0';
pkg_name = trim_xstrdup(buffer);
/* now look at possible version info */
/* skip to next chars */
if(isspace(*src))
while(*src && isspace(*src)) src++;
/* extract constraint and version */
if(*src == '('){
src++;
if(!strncmp(src, "<<", 2)){
possibilities[i]->constraint = EARLIER;
src += 2;
}
else if(!strncmp(src, "<=", 2)){
possibilities[i]->constraint = EARLIER_EQUAL;
src += 2;
}
else if(!strncmp(src, ">=", 2)){
possibilities[i]->constraint = LATER_EQUAL;
src += 2;
}
else if(!strncmp(src, ">>", 2)){
possibilities[i]->constraint = LATER;
src += 2;
}
else if(!strncmp(src, "=", 1)){
possibilities[i]->constraint = EQUAL;
src++;
}
/* should these be here to support deprecated designations; dpkg does */
else if(!strncmp(src, "<", 1)){
possibilities[i]->constraint = EARLIER_EQUAL;
src++;
}
else if(!strncmp(src, ">", 1)){
possibilities[i]->constraint = LATER_EQUAL;
src++;
}
/* now we have any constraint, pass space to version string */
while(isspace(*src)) src++;
/* this would be the version string */
dest = buffer;
while(*src && *src != ')')
*dest++ = *src++;
*dest = '\0';
possibilities[i]->version = trim_xstrdup(buffer);
}
/* hook up the dependency to its abstract pkg */
possibilities[i]->pkg = ensure_abstract_pkg_by_name(pkg_name);
free(pkg_name);
/* now get past the ) and any possible | chars */
while(*src &&
(isspace(*src) ||
(*src == ')') ||
(*src == '|')))
src++;
if (*src == '*')
{
compound_depend->type = GREEDY_DEPEND;
src++;
}
}
return 0;
}
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