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|
/*
* SPDX-License-Identifier: ISC
*
* Copyright (c) 1996, 1998-2005, 2007-2018
* Todd C. Miller <Todd.Miller@sudo.ws>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
* Sponsored in part by the Defense Advanced Research Projects
* Agency (DARPA) and Air Force Research Laboratory, Air Force
* Materiel Command, USAF, under agreement number F39502-99-1-0512.
*/
/*
* This is an open source non-commercial project. Dear PVS-Studio, please check it.
* PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com
*/
#include <config.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#ifdef HAVE_STRINGS_H
# include <strings.h> /* strcasecmp */
#endif
#ifdef HAVE_SETAUTHDB
# include <usersec.h>
#endif /* HAVE_SETAUTHDB */
#include <errno.h>
#include <pwd.h>
#include <grp.h>
#include "sudoers.h"
#include "redblack.h"
#include "pwutil.h"
/*
* The passwd and group caches.
*/
static struct rbtree *pwcache_byuid, *pwcache_byname;
static struct rbtree *grcache_bygid, *grcache_byname;
static struct rbtree *gidlist_cache, *grlist_cache;
static int cmp_pwuid(const void *, const void *);
static int cmp_pwnam(const void *, const void *);
static int cmp_grgid(const void *, const void *);
/*
* Default functions for building cache items.
*/
static sudo_make_pwitem_t make_pwitem = sudo_make_pwitem;
static sudo_make_gritem_t make_gritem = sudo_make_gritem;
static sudo_make_gidlist_item_t make_gidlist_item = sudo_make_gidlist_item;
static sudo_make_grlist_item_t make_grlist_item = sudo_make_grlist_item;
#define cmp_grnam cmp_pwnam
/*
* AIX has the concept of authentication registries (files, NIS, LDAP, etc).
* This allows you to have separate ID <-> name mappings based on which
* authentication registries the user was looked up in.
* We store the registry as part of the key and use it when matching.
*/
#ifdef HAVE_SETAUTHDB
# define getauthregistry(u, r) aix_getauthregistry((u), (r))
#else
# define getauthregistry(u, r) ((r)[0] = '\0')
#endif
/*
* Change the default pwutil backend functions.
* The default functions query the password and group databases.
*/
void
sudo_pwutil_set_backend(sudo_make_pwitem_t pwitem, sudo_make_gritem_t gritem,
sudo_make_gidlist_item_t gidlist_item, sudo_make_grlist_item_t grlist_item)
{
debug_decl(sudo_pwutil_set_backend, SUDOERS_DEBUG_NSS);
if (pwitem != NULL)
make_pwitem = pwitem;
if (gritem != NULL)
make_gritem = gritem;
if (gidlist_item != NULL)
make_gidlist_item = gidlist_item;
if (grlist_item != NULL)
make_grlist_item = grlist_item;
debug_return;
}
/*
* Compare by user-ID.
* v1 is the key to find or data to insert, v2 is in-tree data.
*/
static int
cmp_pwuid(const void *v1, const void *v2)
{
const struct cache_item *ci1 = (const struct cache_item *) v1;
const struct cache_item *ci2 = (const struct cache_item *) v2;
if (ci1->k.uid == ci2->k.uid)
return strcmp(ci1->registry, ci2->registry);
if (ci1->k.uid < ci2->k.uid)
return -1;
return 1;
}
/*
* Compare by user/group name.
* v1 is the key to find or data to insert, v2 is in-tree data.
*/
static int
cmp_pwnam(const void *v1, const void *v2)
{
const struct cache_item *ci1 = (const struct cache_item *) v1;
const struct cache_item *ci2 = (const struct cache_item *) v2;
int ret = strcmp(ci1->k.name, ci2->k.name);
if (ret == 0)
ret = strcmp(ci1->registry, ci2->registry);
return ret;
}
/*
* Compare by user name, taking into account the source type.
* Need to differentiate between group-IDs received from the front-end
* (via getgroups()) and groups IDs queried from the group database.
* v1 is the key to find or data to insert, v2 is in-tree data.
*/
static int
cmp_gidlist(const void *v1, const void *v2)
{
const struct cache_item *ci1 = (const struct cache_item *) v1;
const struct cache_item *ci2 = (const struct cache_item *) v2;
int ret = strcmp(ci1->k.name, ci2->k.name);
if (ret == 0) {
if (ci1->type == ENTRY_TYPE_ANY || ci1->type == ci2->type)
return strcmp(ci1->registry, ci2->registry);
if (ci1->type < ci2->type)
return -1;
return 1;
}
return ret;
}
void
sudo_pw_addref(struct passwd *pw)
{
debug_decl(sudo_pw_addref, SUDOERS_DEBUG_NSS);
ptr_to_item(pw)->refcnt++;
debug_return;
}
static void
sudo_pw_delref_item(void *v)
{
struct cache_item *item = v;
debug_decl(sudo_pw_delref_item, SUDOERS_DEBUG_NSS);
if (--item->refcnt == 0)
free(item);
debug_return;
}
void
sudo_pw_delref(struct passwd *pw)
{
debug_decl(sudo_pw_delref, SUDOERS_DEBUG_NSS);
sudo_pw_delref_item(ptr_to_item(pw));
debug_return;
}
/*
* Get a password entry by uid and allocate space for it.
*/
struct passwd *
sudo_getpwuid(uid_t uid)
{
struct cache_item key, *item;
struct rbnode *node;
debug_decl(sudo_getpwuid, SUDOERS_DEBUG_NSS);
if (pwcache_byuid == NULL) {
pwcache_byuid = rbcreate(cmp_pwuid);
if (pwcache_byuid == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
}
key.k.uid = uid;
getauthregistry(IDtouser(uid), key.registry);
if ((node = rbfind(pwcache_byuid, &key)) != NULL) {
item = node->data;
goto done;
}
/*
* Cache passwd db entry if it exists or a negative response if not.
*/
#ifdef HAVE_SETAUTHDB
aix_setauthdb(IDtouser(uid), key.registry);
#endif
item = make_pwitem(uid, NULL);
#ifdef HAVE_SETAUTHDB
aix_restoreauthdb();
#endif
if (item == NULL) {
if (errno != ENOENT || (item = calloc(1, sizeof(*item))) == NULL) {
sudo_warn(U_("unable to cache uid %u"), (unsigned int) uid);
/* cppcheck-suppress memleak */
debug_return_ptr(NULL);
}
item->refcnt = 1;
item->k.uid = uid;
/* item->d.pw = NULL; */
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(pwcache_byuid, item, NULL)) {
case 1:
/* should not happen */
sudo_warnx(U_("unable to cache uid %u, already exists"),
(unsigned int) uid);
item->refcnt = 0;
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache uid %u"), (unsigned int) uid);
item->refcnt = 0;
break;
}
done:
if (item->refcnt != 0) {
sudo_debug_printf(SUDO_DEBUG_DEBUG,
"%s: uid %u [%s] -> user %s [%s] (%s)", __func__,
(unsigned int)uid, key.registry,
item->d.pw ? item->d.pw->pw_name : "unknown",
item->registry, node ? "cache hit" : "cached");
}
if (item->d.pw != NULL)
item->refcnt++;
debug_return_ptr(item->d.pw);
}
/*
* Get a password entry by name and allocate space for it.
*/
struct passwd *
sudo_getpwnam(const char *name)
{
struct cache_item key, *item;
struct rbnode *node;
debug_decl(sudo_getpwnam, SUDOERS_DEBUG_NSS);
if (pwcache_byname == NULL) {
pwcache_byname = rbcreate(cmp_pwnam);
if (pwcache_byname == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
}
key.k.name = (char *) name;
getauthregistry((char *) name, key.registry);
if ((node = rbfind(pwcache_byname, &key)) != NULL) {
item = node->data;
goto done;
}
/*
* Cache passwd db entry if it exists or a negative response if not.
*/
#ifdef HAVE_SETAUTHDB
aix_setauthdb((char *) name, key.registry);
#endif
item = make_pwitem((uid_t)-1, name);
#ifdef HAVE_SETAUTHDB
aix_restoreauthdb();
#endif
if (item == NULL) {
const size_t len = strlen(name) + 1;
if (errno != ENOENT || (item = calloc(1, sizeof(*item) + len)) == NULL) {
sudo_warn(U_("unable to cache user %s"), name);
/* cppcheck-suppress memleak */
debug_return_ptr(NULL);
}
item->refcnt = 1;
item->k.name = (char *) item + sizeof(*item);
memcpy(item->k.name, name, len);
/* item->d.pw = NULL; */
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(pwcache_byname, item, NULL)) {
case 1:
/* should not happen */
sudo_warnx(U_("unable to cache user %s, already exists"), name);
item->refcnt = 0;
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache user %s"), name);
item->refcnt = 0;
break;
}
done:
if (item->refcnt != 0) {
sudo_debug_printf(SUDO_DEBUG_DEBUG,
"%s: user %s [%s] -> uid %d [%s] (%s)", __func__, name,
key.registry, item->d.pw ? (int)item->d.pw->pw_uid : -1,
item->registry, node ? "cache hit" : "cached");
}
if (item->d.pw != NULL)
item->refcnt++;
debug_return_ptr(item->d.pw);
}
/*
* Take a user, uid, gid, home and shell and return a faked up passwd struct.
* If home or shell are NULL default values will be used.
*/
struct passwd *
sudo_mkpwent(const char *user, uid_t uid, gid_t gid, const char *home,
const char *shell)
{
struct cache_item_pw *pwitem;
struct cache_item *item;
struct passwd *pw;
size_t len, name_len, home_len, shell_len;
int i;
debug_decl(sudo_mkpwent, SUDOERS_DEBUG_NSS);
if (pwcache_byuid == NULL)
pwcache_byuid = rbcreate(cmp_pwuid);
if (pwcache_byname == NULL)
pwcache_byname = rbcreate(cmp_pwnam);
if (pwcache_byuid == NULL || pwcache_byname == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
/* Optional arguments. */
if (home == NULL)
home = "/";
if (shell == NULL)
shell = _PATH_BSHELL;
sudo_debug_printf(SUDO_DEBUG_DEBUG,
"%s: creating and caching passwd struct for %s:%u:%u:%s:%s", __func__,
user, (unsigned int)uid, (unsigned int)gid, home, shell);
name_len = strlen(user);
home_len = strlen(home);
shell_len = strlen(shell);
len = sizeof(*pwitem) + name_len + 1 /* pw_name */ +
sizeof("*") /* pw_passwd */ + sizeof("") /* pw_gecos */ +
home_len + 1 /* pw_dir */ + shell_len + 1 /* pw_shell */;
for (i = 0; i < 2; i++) {
struct rbtree *pwcache;
struct rbnode *node;
pwitem = calloc(1, len);
if (pwitem == NULL) {
sudo_warn(U_("unable to cache user %s"), user);
debug_return_ptr(NULL);
}
pw = &pwitem->pw;
pw->pw_uid = uid;
pw->pw_gid = gid;
pw->pw_name = (char *)(pwitem + 1);
memcpy(pw->pw_name, user, name_len + 1);
pw->pw_passwd = pw->pw_name + name_len + 1;
memcpy(pw->pw_passwd, "*", 2);
pw->pw_gecos = pw->pw_passwd + 2;
pw->pw_gecos[0] = '\0';
pw->pw_dir = pw->pw_gecos + 1;
memcpy(pw->pw_dir, home, home_len + 1);
pw->pw_shell = pw->pw_dir + home_len + 1;
memcpy(pw->pw_shell, shell, shell_len + 1);
item = &pwitem->cache;
item->refcnt = 1;
item->d.pw = pw;
if (i == 0) {
/* Store by uid. */
item->k.uid = pw->pw_uid;
pwcache = pwcache_byuid;
} else {
/* Store by name. */
item->k.name = pw->pw_name;
pwcache = pwcache_byname;
}
getauthregistry(NULL, item->registry);
switch (rbinsert(pwcache, item, &node)) {
case 1:
/* Already exists. */
item = node->data;
if (item->d.pw == NULL) {
/* Negative cache entry, replace with ours. */
sudo_pw_delref_item(item);
item = node->data = &pwitem->cache;
} else {
/* Good entry, discard our fake one. */
free(pwitem);
}
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache user %s"), user);
item->refcnt = 0;
break;
}
}
item->refcnt++;
debug_return_ptr(item->d.pw);
}
/*
* Take a uid in string form "#123" and return a faked up passwd struct.
*/
struct passwd *
sudo_fakepwnam(const char *user, gid_t gid)
{
const char *errstr;
uid_t uid;
debug_decl(sudo_fakepwnam, SUDOERS_DEBUG_NSS);
uid = (uid_t) sudo_strtoid(user + 1, &errstr);
if (errstr != NULL) {
sudo_debug_printf(SUDO_DEBUG_DIAG|SUDO_DEBUG_LINENO,
"uid %s %s", user, errstr);
debug_return_ptr(NULL);
}
debug_return_ptr(sudo_mkpwent(user, uid, gid, NULL, NULL));
}
void
sudo_freepwcache(void)
{
debug_decl(sudo_freepwcache, SUDOERS_DEBUG_NSS);
if (pwcache_byuid != NULL) {
rbdestroy(pwcache_byuid, sudo_pw_delref_item);
pwcache_byuid = NULL;
}
if (pwcache_byname != NULL) {
rbdestroy(pwcache_byname, sudo_pw_delref_item);
pwcache_byname = NULL;
}
debug_return;
}
/*
* Compare by group-ID.
* v1 is the key to find or data to insert, v2 is in-tree data.
*/
static int
cmp_grgid(const void *v1, const void *v2)
{
const struct cache_item *ci1 = (const struct cache_item *) v1;
const struct cache_item *ci2 = (const struct cache_item *) v2;
if (ci1->k.gid == ci2->k.gid)
return strcmp(ci1->registry, ci2->registry);
if (ci1->k.gid < ci2->k.gid)
return -1;
return 1;
}
void
sudo_gr_addref(struct group *gr)
{
debug_decl(sudo_gr_addref, SUDOERS_DEBUG_NSS);
ptr_to_item(gr)->refcnt++;
debug_return;
}
static void
sudo_gr_delref_item(void *v)
{
struct cache_item *item = v;
debug_decl(sudo_gr_delref_item, SUDOERS_DEBUG_NSS);
if (--item->refcnt == 0)
free(item);
debug_return;
}
void
sudo_gr_delref(struct group *gr)
{
debug_decl(sudo_gr_delref, SUDOERS_DEBUG_NSS);
sudo_gr_delref_item(ptr_to_item(gr));
debug_return;
}
/*
* Get a group entry by gid and allocate space for it.
*/
struct group *
sudo_getgrgid(gid_t gid)
{
struct cache_item key, *item;
struct rbnode *node;
debug_decl(sudo_getgrgid, SUDOERS_DEBUG_NSS);
if (grcache_bygid == NULL) {
grcache_bygid = rbcreate(cmp_grgid);
if (grcache_bygid == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
}
key.k.gid = gid;
getauthregistry(NULL, key.registry);
if ((node = rbfind(grcache_bygid, &key)) != NULL) {
item = node->data;
goto done;
}
/*
* Cache group db entry if it exists or a negative response if not.
*/
item = make_gritem(gid, NULL);
if (item == NULL) {
if (errno != ENOENT || (item = calloc(1, sizeof(*item))) == NULL) {
sudo_warn(U_("unable to cache gid %u"), (unsigned int) gid);
/* cppcheck-suppress memleak */
debug_return_ptr(NULL);
}
item->refcnt = 1;
item->k.gid = gid;
/* item->d.gr = NULL; */
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(grcache_bygid, item, NULL)) {
case 1:
/* should not happen */
sudo_warnx(U_("unable to cache gid %u, already exists"),
(unsigned int) gid);
item->refcnt = 0;
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache gid %u"), (unsigned int) gid);
item->refcnt = 0;
break;
}
done:
if (item->refcnt != 0) {
sudo_debug_printf(SUDO_DEBUG_DEBUG,
"%s: gid %u [%s] -> group %s [%s] (%s)", __func__,
(unsigned int)gid, key.registry,
item->d.gr ? item->d.gr->gr_name : "unknown",
item->registry, node ? "cache hit" : "cached");
}
if (item->d.gr != NULL)
item->refcnt++;
debug_return_ptr(item->d.gr);
}
/*
* Get a group entry by name and allocate space for it.
*/
struct group *
sudo_getgrnam(const char *name)
{
struct cache_item key, *item;
struct rbnode *node;
debug_decl(sudo_getgrnam, SUDOERS_DEBUG_NSS);
if (grcache_byname == NULL) {
grcache_byname = rbcreate(cmp_grnam);
if (grcache_byname == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
}
key.k.name = (char *) name;
getauthregistry(NULL, key.registry);
if ((node = rbfind(grcache_byname, &key)) != NULL) {
item = node->data;
goto done;
}
/*
* Cache group db entry if it exists or a negative response if not.
*/
item = make_gritem((gid_t)-1, name);
if (item == NULL) {
const size_t len = strlen(name) + 1;
if (errno != ENOENT || (item = calloc(1, sizeof(*item) + len)) == NULL) {
sudo_warn(U_("unable to cache group %s"), name);
/* cppcheck-suppress memleak */
debug_return_ptr(NULL);
}
item->refcnt = 1;
item->k.name = (char *) item + sizeof(*item);
memcpy(item->k.name, name, len);
/* item->d.gr = NULL; */
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(grcache_byname, item, NULL)) {
case 1:
/* should not happen */
sudo_warnx(U_("unable to cache group %s, already exists"), name);
item->refcnt = 0;
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache group %s"), name);
item->refcnt = 0;
break;
}
done:
if (item->refcnt != 0) {
sudo_debug_printf(SUDO_DEBUG_DEBUG,
"%s: group %s [%s] -> gid %d [%s] (%s)", __func__, name,
key.registry, item->d.gr ? (int)item->d.gr->gr_gid : -1,
item->registry, node ? "cache hit" : "cached");
}
if (item->d.gr != NULL)
item->refcnt++;
debug_return_ptr(item->d.gr);
}
/*
* Take a group name, ID, members and return a faked up group struct.
*/
struct group *
sudo_mkgrent(const char *group, gid_t gid, ...)
{
struct cache_item_gr *gritem;
struct cache_item *item;
struct group *gr;
size_t nmem, nsize, total;
char *cp, *mem;
va_list ap;
int i;
debug_decl(sudo_mkgrent, SUDOERS_DEBUG_NSS);
if (grcache_bygid == NULL)
grcache_bygid = rbcreate(cmp_grgid);
if (grcache_byname == NULL)
grcache_byname = rbcreate(cmp_grnam);
if (grcache_bygid == NULL || grcache_byname == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
/* Allocate in one big chunk for easy freeing. */
nsize = strlen(group) + 1;
total = sizeof(*gritem) + nsize;
va_start(ap, gid);
for (nmem = 1; (mem = va_arg(ap, char *)) != NULL; nmem++) {
total += strlen(mem) + 1;
}
va_end(ap);
total += sizeof(char *) * nmem;
for (i = 0; i < 2; i++) {
struct rbtree *grcache;
struct rbnode *node;
/*
* Fill in group contents and make strings relative to space
* at the end of the buffer. Note that gr_mem must come
* immediately after struct group to guarantee proper alignment.
*/
gritem = calloc(1, total);
if (gritem == NULL) {
sudo_warn(U_("unable to cache group %s"), group);
debug_return_ptr(NULL);
}
gr = &gritem->gr;
gr->gr_gid = gid;
gr->gr_passwd = (char *)"*";
cp = (char *)(gritem + 1);
gr->gr_mem = (char **)cp;
cp += sizeof(char *) * nmem;
va_start(ap, gid);
for (nmem = 0; (mem = va_arg(ap, char *)) != NULL; nmem++) {
size_t len = strlen(mem) + 1;
memcpy(cp, mem, len);
gr->gr_mem[nmem] = cp;
cp += len;
}
va_end(ap);
gr->gr_mem[nmem] = NULL;
gr->gr_name = cp;
memcpy(gr->gr_name, group, nsize);
item = &gritem->cache;
item->refcnt = 1;
item->d.gr = gr;
if (i == 0) {
/* Store by gid if it doesn't already exist. */
item->k.gid = gr->gr_gid;
grcache = grcache_bygid;
} else {
/* Store by name, overwriting cached version. */
gritem->cache.k.name = gr->gr_name;
grcache = grcache_byname;
}
getauthregistry(NULL, item->registry);
switch (rbinsert(grcache, item, &node)) {
case 1:
/* Already exists. */
item = node->data;
if (item->d.gr == NULL) {
/* Negative cache entry, replace with ours. */
sudo_gr_delref_item(item);
item = node->data = &gritem->cache;
} else {
/* Good entry, discard our fake one. */
free(gritem);
}
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache group %s"), group);
item->refcnt = 0;
break;
}
}
if (item->d.gr != NULL)
item->refcnt++;
debug_return_ptr(item->d.gr);
}
/*
* Take a gid in string form "#123" and return a faked up group struct.
*/
struct group *
sudo_fakegrnam(const char *group)
{
const char *errstr;
gid_t gid;
debug_decl(sudo_fakegrnam, SUDOERS_DEBUG_NSS);
gid = (gid_t) sudo_strtoid(group + 1, &errstr);
if (errstr != NULL) {
sudo_debug_printf(SUDO_DEBUG_DIAG|SUDO_DEBUG_LINENO,
"gid %s %s", group, errstr);
debug_return_ptr(NULL);
}
debug_return_ptr(sudo_mkgrent(group, gid, (char *)NULL));
}
void
sudo_gidlist_addref(struct gid_list *gidlist)
{
debug_decl(sudo_gidlist_addref, SUDOERS_DEBUG_NSS);
ptr_to_item(gidlist)->refcnt++;
debug_return;
}
static void
sudo_gidlist_delref_item(void *v)
{
struct cache_item *item = v;
debug_decl(sudo_gidlist_delref_item, SUDOERS_DEBUG_NSS);
if (--item->refcnt == 0)
free(item);
debug_return;
}
void
sudo_gidlist_delref(struct gid_list *gidlist)
{
debug_decl(sudo_gidlist_delref, SUDOERS_DEBUG_NSS);
sudo_gidlist_delref_item(ptr_to_item(gidlist));
debug_return;
}
void
sudo_grlist_addref(struct group_list *grlist)
{
debug_decl(sudo_grlist_addref, SUDOERS_DEBUG_NSS);
ptr_to_item(grlist)->refcnt++;
debug_return;
}
static void
sudo_grlist_delref_item(void *v)
{
struct cache_item *item = v;
debug_decl(sudo_grlist_delref_item, SUDOERS_DEBUG_NSS);
if (--item->refcnt == 0)
free(item);
debug_return;
}
void
sudo_grlist_delref(struct group_list *grlist)
{
debug_decl(sudo_grlist_delref, SUDOERS_DEBUG_NSS);
sudo_grlist_delref_item(ptr_to_item(grlist));
debug_return;
}
void
sudo_freegrcache(void)
{
debug_decl(sudo_freegrcache, SUDOERS_DEBUG_NSS);
if (grcache_bygid != NULL) {
rbdestroy(grcache_bygid, sudo_gr_delref_item);
grcache_bygid = NULL;
}
if (grcache_byname != NULL) {
rbdestroy(grcache_byname, sudo_gr_delref_item);
grcache_byname = NULL;
}
if (grlist_cache != NULL) {
rbdestroy(grlist_cache, sudo_grlist_delref_item);
grlist_cache = NULL;
}
if (gidlist_cache != NULL) {
rbdestroy(gidlist_cache, sudo_gidlist_delref_item);
gidlist_cache = NULL;
}
debug_return;
}
struct group_list *
sudo_get_grlist(const struct passwd *pw)
{
struct cache_item key, *item;
struct rbnode *node;
debug_decl(sudo_get_grlist, SUDOERS_DEBUG_NSS);
sudo_debug_printf(SUDO_DEBUG_DEBUG, "%s: looking up group names for %s",
__func__, pw->pw_name);
if (grlist_cache == NULL) {
grlist_cache = rbcreate(cmp_pwnam);
if (grlist_cache == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
}
key.k.name = pw->pw_name;
getauthregistry(pw->pw_name, key.registry);
if ((node = rbfind(grlist_cache, &key)) != NULL) {
item = node->data;
goto done;
}
/*
* Cache group db entry if it exists or a negative response if not.
*/
item = make_grlist_item(pw, NULL);
if (item == NULL) {
/* Out of memory? */
debug_return_ptr(NULL);
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(grlist_cache, item, NULL)) {
case 1:
/* should not happen */
sudo_warnx(U_("unable to cache group list for %s, already exists"),
pw->pw_name);
item->refcnt = 0;
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache group list for %s"), pw->pw_name);
item->refcnt = 0;
break;
}
if (item->d.grlist != NULL) {
int i;
for (i = 0; i < item->d.grlist->ngroups; i++) {
sudo_debug_printf(SUDO_DEBUG_DEBUG,
"%s: user %s is a member of group %s", __func__,
pw->pw_name, item->d.grlist->groups[i]);
}
}
done:
if (item->d.grlist != NULL)
item->refcnt++;
debug_return_ptr(item->d.grlist);
}
static void
sudo_debug_group_list(const char *user, char * const *groups, int level)
{
size_t i, len = 0;
debug_decl(sudo_debug_group_list, SUDOERS_DEBUG_NSS);
if (groups == NULL || !sudo_debug_needed(level))
debug_return;
for (i = 0; groups[i] != NULL; i++) {
len += strlen(groups[i]) + 1;
}
if (len != 0) {
char *groupstr = malloc(len);
if (groupstr != NULL) {
char *cp = groupstr;
for (i = 0; groups[i] != NULL; i++) {
size_t n = snprintf(cp, len, "%s%s", i ? "," : "", groups[i]);
if (n >= len)
break;
cp += n;
len -= n;
}
sudo_debug_printf(level, "%s: %s", user, groupstr);
free(groupstr);
}
}
debug_return;
}
int
sudo_set_grlist(struct passwd *pw, char * const *groups)
{
struct cache_item key, *item;
debug_decl(sudo_set_grlist, SUDOERS_DEBUG_NSS);
sudo_debug_group_list(pw->pw_name, groups, SUDO_DEBUG_DEBUG);
if (grlist_cache == NULL) {
grlist_cache = rbcreate(cmp_pwnam);
if (grlist_cache == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_int(-1);
}
}
/*
* Cache group db entry if it doesn't already exist
*/
key.k.name = pw->pw_name;
getauthregistry(NULL, key.registry);
if (rbfind(grlist_cache, &key) == NULL) {
if ((item = make_grlist_item(pw, groups)) == NULL) {
sudo_warnx(U_("unable to parse groups for %s"), pw->pw_name);
debug_return_int(-1);
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(grlist_cache, item, NULL)) {
case 1:
sudo_warnx(U_("unable to cache group list for %s, already exists"),
pw->pw_name);
sudo_grlist_delref_item(item);
break;
case -1:
sudo_warn(U_("unable to cache group list for %s"), pw->pw_name);
sudo_grlist_delref_item(item);
debug_return_int(-1);
}
} else {
sudo_debug_printf(SUDO_DEBUG_WARN|SUDO_DEBUG_LINENO,
"groups for user %s are already cached", pw->pw_name);
}
debug_return_int(0);
}
struct gid_list *
sudo_get_gidlist(const struct passwd *pw, unsigned int type)
{
struct cache_item key, *item;
struct rbnode *node;
debug_decl(sudo_get_gidlist, SUDOERS_DEBUG_NSS);
sudo_debug_printf(SUDO_DEBUG_DEBUG, "%s: looking up group-IDs for %s",
__func__, pw->pw_name);
if (gidlist_cache == NULL) {
gidlist_cache = rbcreate(cmp_gidlist);
if (gidlist_cache == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_ptr(NULL);
}
}
key.k.name = pw->pw_name;
key.type = type;
getauthregistry(pw->pw_name, key.registry);
if ((node = rbfind(gidlist_cache, &key)) != NULL) {
item = node->data;
goto done;
}
/*
* Cache group db entry if it exists or a negative response if not.
*/
item = make_gidlist_item(pw, NULL, type);
if (item == NULL) {
/* Out of memory? */
debug_return_ptr(NULL);
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(gidlist_cache, item, NULL)) {
case 1:
/* should not happen */
sudo_warnx(U_("unable to cache group list for %s, already exists"),
pw->pw_name);
item->refcnt = 0;
break;
case -1:
/* can't cache item, just return it */
sudo_warn(U_("unable to cache group list for %s"), pw->pw_name);
item->refcnt = 0;
break;
}
if (item->d.gidlist != NULL) {
int i;
for (i = 0; i < item->d.gidlist->ngids; i++) {
sudo_debug_printf(SUDO_DEBUG_DEBUG,
"%s: user %s has supplementary gid %u", __func__,
pw->pw_name, (unsigned int)item->d.gidlist->gids[i]);
}
}
done:
if (item->d.gidlist != NULL)
item->refcnt++;
debug_return_ptr(item->d.gidlist);
}
int
sudo_set_gidlist(struct passwd *pw, char * const *gids, unsigned int type)
{
struct cache_item key, *item;
debug_decl(sudo_set_gidlist, SUDOERS_DEBUG_NSS);
sudo_debug_group_list(pw->pw_name, gids, SUDO_DEBUG_DEBUG);
if (gidlist_cache == NULL) {
gidlist_cache = rbcreate(cmp_gidlist);
if (gidlist_cache == NULL) {
sudo_warnx(U_("%s: %s"), __func__, U_("unable to allocate memory"));
debug_return_int(-1);
}
}
/*
* Cache group db entry if it doesn't already exist
*/
key.k.name = pw->pw_name;
key.type = type;
getauthregistry(NULL, key.registry);
if (rbfind(gidlist_cache, &key) == NULL) {
if ((item = make_gidlist_item(pw, gids, type)) == NULL) {
sudo_warnx(U_("unable to parse gids for %s"), pw->pw_name);
debug_return_int(-1);
}
strlcpy(item->registry, key.registry, sizeof(item->registry));
switch (rbinsert(gidlist_cache, item, NULL)) {
case 1:
sudo_warnx(U_("unable to cache group list for %s, already exists"),
pw->pw_name);
sudo_gidlist_delref_item(item);
break;
case -1:
sudo_warn(U_("unable to cache group list for %s"), pw->pw_name);
sudo_gidlist_delref_item(item);
debug_return_int(-1);
}
} else {
sudo_debug_printf(SUDO_DEBUG_WARN|SUDO_DEBUG_LINENO,
"gids for user %s are already cached", pw->pw_name);
}
debug_return_int(0);
}
bool
user_in_group(const struct passwd *pw, const char *group)
{
struct group_list *grlist = NULL;
struct gid_list *gidlist = NULL;
struct group *grp = NULL;
bool matched = false;
int i;
debug_decl(user_in_group, SUDOERS_DEBUG_NSS);
/*
* If it could be a sudo-style group-ID check gids first.
*/
if (group[0] == '#') {
const char *errstr;
gid_t gid = (gid_t) sudo_strtoid(group + 1, &errstr);
if (errstr != NULL) {
sudo_debug_printf(SUDO_DEBUG_DIAG|SUDO_DEBUG_LINENO,
"gid %s %s", group, errstr);
} else {
if (gid == pw->pw_gid) {
matched = true;
goto done;
}
if ((gidlist = sudo_get_gidlist(pw, ENTRY_TYPE_ANY)) != NULL) {
for (i = 0; i < gidlist->ngids; i++) {
if (gid == gidlist->gids[i]) {
matched = true;
goto done;
}
}
}
}
}
/*
* Next match the group name. By default, sudoers resolves all the user's
* group-IDs to names and matches by name. If match_group_by_gid is
* set, each group is sudoers is resolved and matching is by group-ID.
*/
if (def_match_group_by_gid) {
gid_t gid;
/* Look up the ID of the group in sudoers. */
if ((grp = sudo_getgrnam(group)) == NULL)
goto done;
gid = grp->gr_gid;
/* Check against user's primary (passwd file) group-ID. */
if (gid == pw->pw_gid) {
matched = true;
goto done;
}
/* Check the supplementary group vector. */
if (gidlist == NULL) {
if ((gidlist = sudo_get_gidlist(pw, ENTRY_TYPE_ANY)) != NULL) {
for (i = 0; i < gidlist->ngids; i++) {
if (gid == gidlist->gids[i]) {
matched = true;
goto done;
}
}
}
}
} else if ((grlist = sudo_get_grlist(pw)) != NULL) {
int (*compare)(const char *, const char *);
if (def_case_insensitive_group)
compare = strcasecmp;
else
compare = strcmp;
/* Check the supplementary group vector. */
for (i = 0; i < grlist->ngroups; i++) {
if (compare(group, grlist->groups[i]) == 0) {
matched = true;
goto done;
}
}
/* Check against user's primary (passwd file) group. */
if ((grp = sudo_getgrgid(pw->pw_gid)) != NULL) {
if (compare(group, grp->gr_name) == 0) {
matched = true;
goto done;
}
}
}
done:
if (grp != NULL)
sudo_gr_delref(grp);
if (grlist != NULL)
sudo_grlist_delref(grlist);
if (gidlist != NULL)
sudo_gidlist_delref(gidlist);
sudo_debug_printf(SUDO_DEBUG_DEBUG, "%s: user %s %sin group %s",
__func__, pw->pw_name, matched ? "" : "NOT ", group);
debug_return_bool(matched);
}
|