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/** BEGIN COPYRIGHT BLOCK
* 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; version 2 of the License.
*
* 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.
*
* You should have received a copy of the GNU General Public License along with
* this Program; if not, write to the Free Software Foundation, Inc., 59 Temple
* Place, Suite 330, Boston, MA 02111-1307 USA.
*
* In addition, as a special exception, Red Hat, Inc. gives You the additional
* right to link the code of this Program with code not covered under the GNU
* General Public License ("Non-GPL Code") and to distribute linked combinations
* including the two, subject to the limitations in this paragraph. Non-GPL Code
* permitted under this exception must only link to the code of this Program
* through those well defined interfaces identified in the file named EXCEPTION
* found in the source code files (the "Approved Interfaces"). The files of
* Non-GPL Code may instantiate templates or use macros or inline functions from
* the Approved Interfaces without causing the resulting work to be covered by
* the GNU General Public License. Only Red Hat, Inc. may make changes or
* additions to the list of Approved Interfaces. You must obey the GNU General
* Public License in all respects for all of the Program code and other code used
* in conjunction with the Program except the Non-GPL Code covered by this
* exception. If you modify this file, you may extend this exception to your
* version of the file, but you are not obligated to do so. If you do not wish to
* do so, delete this exception statement from your version.
*
*
* Copyright (C) 2001 Sun Microsystems, Inc. Used by permission.
* Copyright (C) 2005 Red Hat, Inc.
* All rights reserved.
* END COPYRIGHT BLOCK **/
/* #define DBG_PRINT */
#include <netsite.h>
extern "C" {
#include <secitem.h>
}
#include <base/crit.h>
#include <ldaputil/errors.h>
#include <libaccess/usrcache.h>
#include <libaccess/las.h>
#include <libaccess/authdb.h>
#include "permhash.h"
/* uid is unique within a database. The user cache tables are stored per
* database. The following table maps a database name to the corresponding
* user cache table. The user cache table is another hash table which stores
* the UserCacheObj instances.
*/
static PRHashTable *databaseUserCacheTable = 0;
static time_t acl_usr_cache_lifetime = (time_t)120;
static PRCList *usrobj_list = 0;
static const int num_usrobj = 200;
static CRITICAL usr_hash_crit = NULL; /* Controls user cache hash tables & */
/* usrobj link list */
static pool_handle_t *usrcache_pool = NULL;
static PRHashTable *singleDbTable = 0;
#define USEROBJ_PTR(l) \
((UserCacheObj*) ((char*) (l) - offsetof(UserCacheObj, list)))
static void user_hash_crit_enter (void)
{
/* Caching may be disabled (usr_hash_crit will be NULL) */
if (usr_hash_crit) crit_enter(usr_hash_crit);
}
static void user_hash_crit_exit (void)
{
/* Caching may be disabled (usr_hash_crit will be NULL) */
if (usr_hash_crit) crit_exit(usr_hash_crit);
}
static void user_hash_crit_init (void)
{
usr_hash_crit = crit_init();
}
static PRHashNumber
usr_cache_hash_cert(const void *key)
{
PRHashNumber h;
const unsigned char *s;
unsigned int i = 0;
SECItem *derCert = (SECItem *)key;
unsigned int len = derCert->len;
h = 0;
for (s = (const unsigned char *)derCert->data; i < len; s++, i++)
h = (h >> 28) ^ (h << 4) ^ *s;
return h;
}
static PRHashNumber
usr_cache_hash_fn (const void *key)
{
UserCacheObj *usrObj = (UserCacheObj *)key;
if (usrObj->derCert)
return usr_cache_hash_cert(usrObj->derCert);
else
return PR_HashCaseString(usrObj->uid);
}
static int
usr_cache_compare_certs(const void *v1, const void *v2)
{
const SECItem *c1 = (const SECItem *)v1;
const SECItem *c2 = (const SECItem *)v2;
return (c1->len == c2 ->len && !memcmp(c1->data, c2->data, c1->len));
}
static int
usr_cache_compare_fn(const void *v1, const void *v2)
{
UserCacheObj *usrObj1 = (UserCacheObj *)v1;
UserCacheObj *usrObj2 = (UserCacheObj *)v2;
if (usrObj1->derCert && usrObj2->derCert)
return usr_cache_compare_certs(usrObj1->derCert, usrObj2->derCert);
else if (!usrObj1->derCert && !usrObj2->derCert)
return PR_CompareCaseStrings(usrObj1->uid, usrObj1->uid);
else
return 0;
}
static PRHashTable *alloc_db2uid_table ()
{
return PR_NewHashTable(0,
usr_cache_hash_fn,
usr_cache_compare_fn,
PR_CompareValues,
&ACLPermAllocOps,
usrcache_pool);
}
int acl_usr_cache_set_timeout (const int nsec)
{
acl_usr_cache_lifetime = (time_t)nsec;
return 0;
}
int acl_usr_cache_enabled ()
{
return (acl_usr_cache_lifetime > 0);
}
int acl_usr_cache_init ()
{
UserCacheObj *usrobj;
int i;
if (acl_usr_cache_lifetime <= 0) {
/* Caching is disabled */
DBG_PRINT1("usrcache is disabled");
return 0;
}
usrcache_pool = pool_create();
user_hash_crit_init();
if (acl_num_databases() == 0) {
/* Something wrong -- No databases registered yet! */
return -1;
}
else if (acl_num_databases() == 1) {
/* Optimize for single database */
DBG_PRINT1("Optimizing usrcache for single db");
singleDbTable = alloc_db2uid_table();
}
else {
singleDbTable = 0;
databaseUserCacheTable = PR_NewHashTable(0,
PR_HashCaseString,
PR_CompareCaseStrings,
PR_CompareValues,
&ACLPermAllocOps,
usrcache_pool);
}
/* Allocate first UserCacheObj and initialize the circular link list */
usrobj = (UserCacheObj *)pool_malloc(usrcache_pool, sizeof(UserCacheObj));
if (!usrobj) return -1;
memset((void *)usrobj, 0, sizeof(UserCacheObj));
usrobj_list = &usrobj->list;
PR_INIT_CLIST(usrobj_list);
/* Allocate rest of the UserCacheObj and put them in the link list */
for(i = 0; i < num_usrobj; i++){
usrobj = (UserCacheObj *)pool_malloc(usrcache_pool,
sizeof(UserCacheObj));
if (!usrobj) return -1;
memset((void *)usrobj, 0, sizeof(UserCacheObj));
PR_INSERT_AFTER(&usrobj->list, usrobj_list);
}
return (singleDbTable || databaseUserCacheTable) ? 0 : -1;
}
/* If the user hash table exists in the databaseUserCacheTable then return it.
* Otherwise, create a new hash table, insert it in the databaseUserCacheTable
* and then return it.
*/
static int usr_cache_table_get (const char *dbname, PRHashTable **usrTable)
{
PRHashTable *table;
if (singleDbTable) {
*usrTable = singleDbTable;
return LAS_EVAL_TRUE;
}
user_hash_crit_enter();
table = (PRHashTable *)PR_HashTableLookup(databaseUserCacheTable,
dbname);
if (!table) {
/* create a new table and insert it in the databaseUserCacheTable */
table = alloc_db2uid_table();
if (table) {
PR_HashTableAdd(databaseUserCacheTable,
pool_strdup(usrcache_pool, dbname),
table);
}
}
*usrTable = table;
user_hash_crit_exit();
return table ? LAS_EVAL_TRUE : LAS_EVAL_FAIL;
}
int acl_usr_cache_insert (const char *uid, const char *dbname,
const char *userdn, const char *passwd,
const char *group,
const SECItem *derCert, const time_t time)
{
PRHashTable *usrTable;
UserCacheObj *usrobj;
UserCacheObj key;
int rv;
if (acl_usr_cache_lifetime <= 0) {
/* Caching is disabled */
return LAS_EVAL_TRUE;
}
rv = usr_cache_table_get (dbname, &usrTable);
if (rv != LAS_EVAL_TRUE) return rv;
user_hash_crit_enter();
key.uid = (char *)uid;
key.derCert = (SECItem *)derCert;
usrobj = (UserCacheObj *)PR_HashTableLookup(usrTable, &key);
if (usrobj) {
time_t elapsed = time - usrobj->time;
int expired = (elapsed >= acl_usr_cache_lifetime);
/* Free & reset the old values in usrobj if -- there is an old value
* and if the new value is given then it is different or the usrobj
* has expired */
/* Set the field if the new value is given and the field is not set */
/* If the usrobj has not expired then we only want to update the field
* whose new value is non-NULL and different */
/* Work on the 'uid' field */
if (usrobj->uid &&
(uid ? strcmp(usrobj->uid, uid) : expired))
{
pool_free(usrcache_pool, usrobj->uid);
usrobj->uid = 0;
}
if (uid && !usrobj->uid) {
usrobj->uid = pool_strdup(usrcache_pool, uid);
}
/* Work on the 'userdn' field */
if (usrobj->userdn &&
(userdn ? strcmp(usrobj->userdn, userdn) : expired))
{
pool_free(usrcache_pool, usrobj->userdn);
usrobj->userdn = 0;
}
if (userdn && !usrobj->userdn) {
usrobj->userdn = pool_strdup(usrcache_pool, userdn);
}
/* Work on the 'passwd' field */
if (usrobj->passwd &&
(passwd ? strcmp(usrobj->passwd, passwd) : expired))
{
pool_free(usrcache_pool, usrobj->passwd);
usrobj->passwd = 0;
}
if (passwd && !usrobj->passwd) {
usrobj->passwd = pool_strdup(usrcache_pool, passwd);
}
/* Work on the 'group' field -- not replace a valid group */
if (!expired && usrobj->group &&
(group ? strcmp(usrobj->group, group) : expired))
{
pool_free(usrcache_pool, usrobj->group);
usrobj->group = 0;
}
if (group && !usrobj->group) {
usrobj->group = pool_strdup(usrcache_pool, group);
}
/* Work on the 'derCert' field */
if (usrobj->derCert &&
(derCert ? (derCert->len != usrobj->derCert->len ||
memcmp(usrobj->derCert->data, derCert->data,
derCert->len))
: expired))
{
SECITEM_FreeItem(usrobj->derCert, PR_TRUE);
usrobj->derCert = 0;
}
if (derCert && !usrobj->derCert) {
usrobj->derCert = SECITEM_DupItem((SECItem *)derCert);
}
/* Reset the time only if the usrobj has expired */
if (expired) {
DBG_PRINT1("Replace ");
usrobj->time = time;
}
else {
DBG_PRINT1("Update ");
}
}
else {
/* Get the last usrobj from the link list, erase it and use it */
/* Maybe the last usrobj is not invalid yet but we don't want to grow
* the list of usrobjs. The last obj is the best candidate for being
* not valid. We don't want to compare the time -- just use it.
*/
PRCList *tail = PR_LIST_TAIL(usrobj_list);
usrobj = USEROBJ_PTR(tail);
/* If the removed usrobj is in the hashtable, remove it from there */
if (usrobj->hashtable) {
PR_HashTableRemove(usrobj->hashtable, usrobj);
}
/* Free the memory associated with the usrobj */
if (usrobj->userdn) pool_free(usrcache_pool, usrobj->userdn);
if (usrobj->passwd) pool_free(usrcache_pool, usrobj->passwd);
if (usrobj->group) pool_free(usrcache_pool, usrobj->group);
if (usrobj->derCert) SECITEM_FreeItem(usrobj->derCert, PR_TRUE);
if (usrobj->uid) pool_free(usrcache_pool, usrobj->uid);
/* Fill in the usrobj with the current data */
usrobj->uid = pool_strdup(usrcache_pool, uid);
usrobj->userdn = userdn ? pool_strdup(usrcache_pool, userdn) : 0;
usrobj->passwd = passwd ? pool_strdup(usrcache_pool, passwd) : 0;
usrobj->derCert = derCert ? SECITEM_DupItem((SECItem *)derCert) : 0;
usrobj->group = group ? pool_strdup(usrcache_pool, group) : 0;
usrobj->time = time;
/* Add the usrobj to the user hash table */
PR_HashTableAdd(usrTable, usrobj, usrobj);
usrobj->hashtable = usrTable;
DBG_PRINT1("Insert ");
}
/* Move the usrobj to the head of the list */
PR_REMOVE_LINK(&usrobj->list);
PR_INSERT_AFTER(&usrobj->list, usrobj_list);
/* Set the time in the UserCacheObj */
if (usrobj) {
rv = LAS_EVAL_TRUE;
}
else {
rv = LAS_EVAL_FAIL;
}
DBG_PRINT4("acl_usr_cache_insert: derCert = \"%s\" uid = \"%s\" at time = %ld\n",
usrobj->derCert ? (char *)usrobj->derCert->data : "<NONE>",
uid, time);
user_hash_crit_exit();
return rv;
}
static int acl_usr_cache_get_usrobj (const char *uid, const SECItem *derCert,
const char *dbname, const time_t time,
UserCacheObj **usrobj_out)
{
PRHashTable *usrtable;
UserCacheObj *usrobj;
UserCacheObj key;
time_t elapsed;
int rv;
*usrobj_out = 0;
if (acl_usr_cache_lifetime <= 0) {
/* Caching is disabled */
return LAS_EVAL_FALSE;
}
rv = usr_cache_table_get(dbname, &usrtable);
if (!usrtable) return LAS_EVAL_FALSE;
key.uid = (char *)uid;
key.derCert = (SECItem *)derCert;
usrobj = (UserCacheObj *)PR_HashTableLookup(usrtable, &key);
if (!usrobj) return LAS_EVAL_FALSE;
rv = LAS_EVAL_FALSE;
elapsed = time - usrobj->time;
/* If the cache is valid, return the usrobj */
if (elapsed < acl_usr_cache_lifetime) {
rv = LAS_EVAL_TRUE;
*usrobj_out = usrobj;
DBG_PRINT4("usr_cache found: derCert = \"%s\" uid = \"%s\" at time = %ld\n",
usrobj->derCert ? (char *)usrobj->derCert->data : "<NONE>",
usrobj->uid, time);
}
else {
DBG_PRINT4("usr_cache expired: derCert = \"%s\" uid = \"%s\" at time = %ld\n",
usrobj->derCert ? (char *)usrobj->derCert->data : "<NONE>",
usrobj->uid, time);
}
return rv;
}
int acl_usr_cache_passwd_check (const char *uid, const char *dbname,
const char *passwd,
const time_t time, char **dn,
pool_handle_t *pool)
{
UserCacheObj *usrobj;
int rv;
user_hash_crit_enter();
rv = acl_usr_cache_get_usrobj(uid, 0, dbname, time, &usrobj);
if (rv == LAS_EVAL_TRUE && usrobj->passwd && passwd &&
!strcmp(usrobj->passwd, passwd))
{
/* extract dn from the usrobj */
*dn = usrobj->userdn ? pool_strdup(pool, usrobj->userdn) : 0;
rv = LAS_EVAL_TRUE;
DBG_PRINT1("Success ");
}
else {
rv = LAS_EVAL_FALSE;
DBG_PRINT1("Failed ");
}
DBG_PRINT3("acl_usr_cache_passwd_check: uid = \"%s\" at time = %ld\n",
uid, time);
user_hash_crit_exit();
return rv;
}
int acl_usr_cache_group_check (const char *uid, const char *dbname,
const char *group, const time_t time)
{
UserCacheObj *usrobj;
int rv;
user_hash_crit_enter();
rv = acl_usr_cache_get_usrobj(uid, 0, dbname, time, &usrobj);
if (rv == LAS_EVAL_TRUE && usrobj->group && group &&
!strcmp(usrobj->group, group))
{
DBG_PRINT1("Success ");
}
else {
rv = LAS_EVAL_FALSE;
DBG_PRINT1("Failed ");
}
DBG_PRINT3("acl_usr_cache_group_check: uid = \"%s\" group = \"%s\"\n",
uid, group ? group : "<NONE>");
user_hash_crit_exit();
return rv;
}
int acl_usr_cache_group_len_check (const char *uid, const char *dbname,
const char *group, const int len,
const time_t time)
{
UserCacheObj *usrobj;
int rv;
user_hash_crit_enter();
rv = acl_usr_cache_get_usrobj(uid, 0, dbname, time, &usrobj);
if (rv == LAS_EVAL_TRUE && usrobj->group && group &&
!strncmp(usrobj->group, group, len))
{
rv = LAS_EVAL_TRUE;
DBG_PRINT1("Success ");
}
else {
rv = LAS_EVAL_FALSE;
DBG_PRINT1("Failed ");
}
DBG_PRINT3("acl_usr_cache_group_check: uid = \"%s\" group = \"%s\"\n",
uid, group);
user_hash_crit_exit();
return rv;
}
int acl_usr_cache_get_userdn (const char *uid, const char *dbname,
const time_t time, char **userdn,
pool_handle_t *pool)
{
UserCacheObj *usrobj;
int rv;
*userdn = 0;
user_hash_crit_enter();
rv = acl_usr_cache_get_usrobj(uid, 0, dbname, time, &usrobj);
if (rv == LAS_EVAL_TRUE) {
*userdn = usrobj->userdn ? pool_strdup(pool, usrobj->userdn) : 0;
DBG_PRINT1("Success ");
}
else {
DBG_PRINT1("Failed ");
}
DBG_PRINT3("acl_usr_cache_get_userdn: uid = \"%s\" userdn = \"%s\"\n",
uid, *userdn ? *userdn : "<NONE>");
user_hash_crit_exit();
return *userdn ? LAS_EVAL_TRUE : LAS_EVAL_FALSE;
}
int acl_usr_cache_userdn_check (const char *uid, const char *dbname,
const char *userdn, const time_t time)
{
UserCacheObj *usrobj;
int rv;
user_hash_crit_enter();
rv = acl_usr_cache_get_usrobj(uid, 0, dbname, time, &usrobj);
if (rv == LAS_EVAL_TRUE && usrobj->userdn && userdn &&
!strcmp(usrobj->userdn, userdn))
{
DBG_PRINT1("Success ");
}
else {
rv = LAS_EVAL_FALSE;
DBG_PRINT1("Failed ");
}
DBG_PRINT3("acl_usr_cache_userdn_check: uid = \"%s\" userdn = \"%s\"\n",
uid, userdn ? userdn : "<NONE>");
user_hash_crit_exit();
return rv;
}
int acl_usr_cache_set_userdn (const char *uid, const char *dbname,
const char *userdn, const time_t time)
{
int rv;
/* acl_usr_cache_insert updates the existing un-expired entry or creates a
* new one */
rv = acl_usr_cache_insert(uid, dbname, userdn, 0, 0, 0, time);
return rv;
}
int acl_usr_cache_get_group (const char *uid, const char *dbname,
const time_t time, char **group,
pool_handle_t *pool)
{
UserCacheObj *usrobj;
int rv;
*group = 0;
user_hash_crit_enter();
rv = acl_usr_cache_get_usrobj(uid, 0, dbname, time, &usrobj);
if (rv == LAS_EVAL_TRUE) {
*group = usrobj->group ? pool_strdup(pool, usrobj->group) : 0;
DBG_PRINT1("Success ");
}
else {
DBG_PRINT1("Failed ");
}
DBG_PRINT3("acl_usr_cache_get_group: uid = \"%s\" group = \"%s\"\n",
uid, *group ? *group : "<NONE>");
user_hash_crit_exit();
return *group ? LAS_EVAL_TRUE : LAS_EVAL_FALSE;
}
int acl_usr_cache_set_group (const char *uid, const char *dbname,
const char *group, const time_t time)
{
int rv;
/* acl_usr_cache_insert updates the existing un-expired entry or creates a
* new one */
rv = acl_usr_cache_insert(uid, dbname, 0, 0, group, 0, time);
return rv;
}
int acl_cert_cache_insert (void *cert_in, const char *dbname,
const char *uid, const char *dn,
const time_t time)
{
CERTCertificate *cert = (CERTCertificate *)cert_in;
SECItem derCert = cert->derCert;
int rv;
rv = acl_usr_cache_insert(uid, dbname, dn, 0, 0, &derCert, time);
return rv;
}
/* Returns LAS_EVAL_TRUE if the user's cache is valid and returns uid */
int acl_cert_cache_get_uid (void *cert_in, const char *dbname,
const time_t time, char **uid, char **dn,
pool_handle_t *pool)
{
CERTCertificate *cert = (CERTCertificate *)cert_in;
SECItem derCert = cert->derCert;
UserCacheObj *usrobj = 0;
int rv;
rv = acl_usr_cache_get_usrobj(0, &derCert, dbname, time, &usrobj);
if (rv == LAS_EVAL_TRUE && usrobj && usrobj->uid) {
*uid = pool_strdup(pool, usrobj->uid);
*dn = usrobj->userdn ? pool_strdup(pool, usrobj->userdn) : 0;
}
else {
*uid = 0;
*dn = 0;
rv = LAS_EVAL_FALSE;
}
return rv;
}
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