dbutils.c revision 042addd68015d63c9b5b04cd24af07a18b4a7b62
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2008 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#pragma ident "%Z%%M% %I% %E% SMI"
/*
* Database related utility routines
*/
#include <atomic.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <rpc/rpc.h>
#include <sys/sid.h>
#include <time.h>
#include <pwd.h>
#include <grp.h>
#include <pthread.h>
#include <assert.h>
#include <sys/u8_textprep.h>
#include "idmapd.h"
#include "adutils.h"
#include "string.h"
#include "idmap_priv.h"
#include "schema.h"
#include "nldaputils.h"
static int degraded = 0; /* whether the FMRI has been marked degraded */
static idmap_retcode sql_compile_n_step_once(sqlite *, char *,
sqlite_vm **, int *, int, const char ***);
static idmap_retcode lookup_wksids_name2sid(const char *, char **, char **,
idmap_rid_t *, int *);
static idmap_retcode ad_lookup(lookup_state_t *, idmap_mapping *,
idmap_id_res *, int, int, int);
static idmap_retcode lookup_localsid2pid(idmap_mapping *, idmap_id_res *);
static idmap_retcode lookup_cache_name2sid(sqlite *, const char *,
const char *, char **, char **, idmap_rid_t *, int *);
#define EMPTY_NAME(name) (*name == 0 || strcmp(name, "\"\"") == 0)
#define DO_NOT_ALLOC_NEW_ID_MAPPING(req)\
(req->flag & IDMAP_REQ_FLG_NO_NEW_ID_ALLOC)
#define AVOID_NAMESERVICE(req)\
(req->flag & IDMAP_REQ_FLG_NO_NAMESERVICE)
#define IS_EPHEMERAL(pid) (pid > INT32_MAX && pid != SENTINEL_PID)
#define LOCALRID_MIN 1000
typedef enum init_db_option {
FAIL_IF_CORRUPT = 0,
REMOVE_IF_CORRUPT = 1
} init_db_option_t;
/*
* Data structure to store well-known SIDs and
* associated mappings (if any)
*/
typedef struct wksids_table {
const char *sidprefix;
uint32_t rid;
const char *winname;
int is_wuser;
uid_t pid;
int is_user;
int direction;
} wksids_table_t;
/*
* Thread specfic data to hold the database handles so that the
* databaes are not opened and closed for every request. It also
* contains the sqlite busy handler structure.
*/
struct idmap_busy {
const char *name;
const int *delays;
int delay_size;
int total;
int sec;
};
typedef struct idmap_tsd {
sqlite *db_db;
sqlite *cache_db;
struct idmap_busy cache_busy;
struct idmap_busy db_busy;
} idmap_tsd_t;
static const int cache_delay_table[] =
{ 1, 2, 5, 10, 15, 20, 25, 30, 35, 40,
50, 50, 60, 70, 80, 90, 100};
static const int db_delay_table[] =
{ 5, 10, 15, 20, 30, 40, 55, 70, 100};
static pthread_key_t idmap_tsd_key;
void
idmap_tsd_destroy(void *key)
{
idmap_tsd_t *tsd = (idmap_tsd_t *)key;
if (tsd) {
if (tsd->db_db)
(void) sqlite_close(tsd->db_db);
if (tsd->cache_db)
(void) sqlite_close(tsd->cache_db);
free(tsd);
}
}
int
idmap_init_tsd_key(void)
{
return (pthread_key_create(&idmap_tsd_key, idmap_tsd_destroy));
}
idmap_tsd_t *
idmap_get_tsd(void)
{
idmap_tsd_t *tsd;
if ((tsd = pthread_getspecific(idmap_tsd_key)) == NULL) {
/* No thread specific data so create it */
if ((tsd = malloc(sizeof (*tsd))) != NULL) {
/* Initialize thread specific data */
(void) memset(tsd, 0, sizeof (*tsd));
/* save the trhread specific data */
if (pthread_setspecific(idmap_tsd_key, tsd) != 0) {
/* Can't store key */
free(tsd);
tsd = NULL;
}
} else {
tsd = NULL;
}
}
return (tsd);
}
static
const char *
get_fmri(void)
{
static char *fmri = NULL;
static char buf[60];
char *s;
membar_consumer();
s = fmri;
if (s != NULL && *s == '\0')
return (NULL);
else if (s != NULL)
return (s);
if ((s = getenv("SMF_FMRI")) == NULL || strlen(s) >= sizeof (buf))
buf[0] = '\0';
else
(void) strlcpy(buf, s, sizeof (buf));
membar_producer();
fmri = buf;
return (get_fmri());
}
/*
* Wrappers for smf_degrade/restore_instance()
*
* smf_restore_instance() is too heavy duty to be calling every time we
* have a successful AD name<->SID lookup.
*/
void
degrade_svc(void)
{
const char *fmri;
if ((fmri = get_fmri()) == NULL)
return;
membar_consumer();
if (degraded)
return;
(void) smf_degrade_instance(fmri, 0);
membar_producer();
degraded = 1;
}
void
restore_svc(void)
{
const char *fmri;
if ((fmri = get_fmri()) == NULL)
return;
membar_consumer();
if (!degraded)
return;
(void) smf_restore_instance(fmri);
membar_producer();
degraded = 0;
}
/*
* A simple wrapper around u8_textprep_str() that returns the Unicode
* lower-case version of some string. The result must be freed.
*/
char *
tolower_u8(const char *s)
{
char *res = NULL;
char *outs;
size_t inlen, outlen, inbytesleft, outbytesleft;
int rc, err;
/*
* u8_textprep_str() does not allocate memory. The input and
* output buffers may differ in size (though that would be more
* likely when normalization is done). We have to loop over it...
*
* To improve the chances that we can avoid looping we add 10
* bytes of output buffer room the first go around.
*/
inlen = inbytesleft = strlen(s);
outlen = outbytesleft = inlen + 10;
if ((res = malloc(outlen)) == NULL)
return (NULL);
outs = res;
while ((rc = u8_textprep_str((char *)s, &inbytesleft, outs,
&outbytesleft, U8_TEXTPREP_TOLOWER, U8_UNICODE_LATEST, &err)) < 0 &&
err == E2BIG) {
if ((res = realloc(res, outlen + inbytesleft)) == NULL)
return (NULL);
/* adjust input/output buffer pointers */
s += (inlen - inbytesleft);
outs = res + outlen - outbytesleft;
/* adjust outbytesleft and outlen */
outlen += inbytesleft;
outbytesleft += inbytesleft;
}
if (rc < 0) {
free(res);
res = NULL;
return (NULL);
}
res[outlen - outbytesleft] = '\0';
return (res);
}
static int sql_exec_tran_no_cb(sqlite *db, char *sql, const char *dbname,
const char *while_doing);
/*
* Initialize 'dbname' using 'sql'
*/
static
int
init_db_instance(const char *dbname, int version,
const char *detect_version_sql, char * const *sql,
init_db_option_t opt, int *created, int *upgraded)
{
int rc, curr_version;
int tries = 1;
int prio = LOG_NOTICE;
sqlite *db = NULL;
char *errmsg = NULL;
*created = 0;
*upgraded = 0;
if (opt == REMOVE_IF_CORRUPT)
tries = 3;
rinse_repeat:
if (tries == 0) {
idmapdlog(LOG_ERR, "Failed to initialize db %s", dbname);
return (-1);
}
if (tries-- == 1)
/* Last try, log errors */
prio = LOG_ERR;
db = sqlite_open(dbname, 0600, &errmsg);
if (db == NULL) {
idmapdlog(prio, "Error creating database %s (%s)",
dbname, CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
if (opt == REMOVE_IF_CORRUPT)
(void) unlink(dbname);
goto rinse_repeat;
}
sqlite_busy_timeout(db, 3000);
/* Detect current version of schema in the db, if any */
curr_version = 0;
if (detect_version_sql != NULL) {
char *end, **results;
int nrow;
#ifdef IDMAPD_DEBUG
(void) fprintf(stderr, "Schema version detection SQL: %s\n",
detect_version_sql);
#endif /* IDMAPD_DEBUG */
rc = sqlite_get_table(db, detect_version_sql, &results,
&nrow, NULL, &errmsg);
if (rc != SQLITE_OK) {
idmapdlog(prio,
"Error detecting schema version of db %s (%s)",
dbname, errmsg);
sqlite_freemem(errmsg);
sqlite_free_table(results);
sqlite_close(db);
return (-1);
}
if (nrow != 1) {
idmapdlog(prio,
"Error detecting schema version of db %s", dbname);
sqlite_close(db);
sqlite_free_table(results);
return (-1);
}
curr_version = strtol(results[1], &end, 10);
sqlite_free_table(results);
}
if (curr_version < 0) {
if (opt == REMOVE_IF_CORRUPT)
(void) unlink(dbname);
goto rinse_repeat;
}
if (curr_version == version)
goto done;
/* Install or upgrade schema */
#ifdef IDMAPD_DEBUG
(void) fprintf(stderr, "Schema init/upgrade SQL: %s\n",
sql[curr_version]);
#endif /* IDMAPD_DEBUG */
rc = sql_exec_tran_no_cb(db, sql[curr_version], dbname,
(curr_version == 0) ? "installing schema" : "upgrading schema");
if (rc != 0) {
idmapdlog(prio, "Error %s schema for db %s", dbname,
(curr_version == 0) ? "installing schema" :
"upgrading schema");
if (opt == REMOVE_IF_CORRUPT)
(void) unlink(dbname);
goto rinse_repeat;
}
*upgraded = (curr_version > 0);
*created = (curr_version == 0);
done:
(void) sqlite_close(db);
return (0);
}
/*
* This is the SQLite database busy handler that retries the SQL
* operation until it is successful.
*/
int
/* LINTED E_FUNC_ARG_UNUSED */
idmap_sqlite_busy_handler(void *arg, const char *table_name, int count)
{
struct idmap_busy *busy = arg;
int delay;
struct timespec rqtp;
if (count == 1) {
busy->total = 0;
busy->sec = 2;
}
if (busy->total > 1000 * busy->sec) {
idmapdlog(LOG_ERR,
"Thread %d waited %d sec for the %s database",
pthread_self(), busy->sec, busy->name);
busy->sec++;
}
if (count <= busy->delay_size) {
delay = busy->delays[count-1];
} else {
delay = busy->delays[busy->delay_size - 1];
}
busy->total += delay;
rqtp.tv_sec = 0;
rqtp.tv_nsec = delay * (NANOSEC / MILLISEC);
(void) nanosleep(&rqtp, NULL);
return (1);
}
/*
* Get the database handle
*/
idmap_retcode
get_db_handle(sqlite **db)
{
char *errmsg;
idmap_tsd_t *tsd;
/*
* Retrieve the db handle from thread-specific storage
* If none exists, open and store in thread-specific storage.
*/
if ((tsd = idmap_get_tsd()) == NULL) {
idmapdlog(LOG_ERR,
"Error getting thread specific data for %s", IDMAP_DBNAME);
return (IDMAP_ERR_MEMORY);
}
if (tsd->db_db == NULL) {
tsd->db_db = sqlite_open(IDMAP_DBNAME, 0, &errmsg);
if (tsd->db_db == NULL) {
idmapdlog(LOG_ERR, "Error opening database %s (%s)",
IDMAP_DBNAME, CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
return (IDMAP_ERR_DB);
}
tsd->db_busy.name = IDMAP_DBNAME;
tsd->db_busy.delays = db_delay_table;
tsd->db_busy.delay_size = sizeof (db_delay_table) /
sizeof (int);
sqlite_busy_handler(tsd->db_db, idmap_sqlite_busy_handler,
&tsd->db_busy);
}
*db = tsd->db_db;
return (IDMAP_SUCCESS);
}
/*
* Get the cache handle
*/
idmap_retcode
get_cache_handle(sqlite **cache)
{
char *errmsg;
idmap_tsd_t *tsd;
/*
* Retrieve the db handle from thread-specific storage
* If none exists, open and store in thread-specific storage.
*/
if ((tsd = idmap_get_tsd()) == NULL) {
idmapdlog(LOG_ERR, "Error getting thread specific data for %s",
IDMAP_DBNAME);
return (IDMAP_ERR_MEMORY);
}
if (tsd->cache_db == NULL) {
tsd->cache_db = sqlite_open(IDMAP_CACHENAME, 0, &errmsg);
if (tsd->cache_db == NULL) {
idmapdlog(LOG_ERR, "Error opening database %s (%s)",
IDMAP_CACHENAME, CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
return (IDMAP_ERR_DB);
}
tsd->cache_busy.name = IDMAP_CACHENAME;
tsd->cache_busy.delays = cache_delay_table;
tsd->cache_busy.delay_size = sizeof (cache_delay_table) /
sizeof (int);
sqlite_busy_handler(tsd->cache_db, idmap_sqlite_busy_handler,
&tsd->cache_busy);
}
*cache = tsd->cache_db;
return (IDMAP_SUCCESS);
}
/*
* Initialize cache and db
*/
int
init_dbs()
{
char *sql[2];
int created, upgraded;
/* name-based mappings; probably OK to blow away in a pinch(?) */
sql[0] = DB_INSTALL_SQL;
sql[1] = DB_UPGRADE_FROM_v1_SQL;
if (init_db_instance(IDMAP_DBNAME, DB_VERSION, DB_VERSION_SQL, sql,
FAIL_IF_CORRUPT, &created, &upgraded) < 0)
return (-1);
/* mappings, name/SID lookup cache + ephemeral IDs; OK to blow away */
sql[0] = CACHE_INSTALL_SQL;
sql[1] = CACHE_UPGRADE_FROM_v1_SQL;
if (init_db_instance(IDMAP_CACHENAME, CACHE_VERSION, CACHE_VERSION_SQL,
sql, REMOVE_IF_CORRUPT, &created, &upgraded) < 0)
return (-1);
_idmapdstate.new_eph_db = (created || upgraded) ? 1 : 0;
return (0);
}
/*
* Finalize databases
*/
void
fini_dbs()
{
}
/*
* This table is a listing of status codes that will be returned to the
* client when a SQL command fails with the corresponding error message.
*/
static msg_table_t sqlmsgtable[] = {
{IDMAP_ERR_U2W_NAMERULE_CONFLICT,
"columns unixname, is_user, u2w_order are not unique"},
{IDMAP_ERR_W2U_NAMERULE_CONFLICT,
"columns winname, windomain, is_user, is_wuser, w2u_order are not"
" unique"},
{IDMAP_ERR_W2U_NAMERULE_CONFLICT, "Conflicting w2u namerules"},
{-1, NULL}
};
/*
* idmapd's version of string2stat to map SQLite messages to
* status codes
*/
idmap_retcode
idmapd_string2stat(const char *msg)
{
int i;
for (i = 0; sqlmsgtable[i].msg; i++) {
if (strcasecmp(sqlmsgtable[i].msg, msg) == 0)
return (sqlmsgtable[i].retcode);
}
return (IDMAP_ERR_OTHER);
}
/*
* Executes some SQL in a transaction.
*
* Returns 0 on success, -1 if it failed but the rollback succeeded, -2
* if the rollback failed.
*/
static
int
sql_exec_tran_no_cb(sqlite *db, char *sql, const char *dbname,
const char *while_doing)
{
char *errmsg = NULL;
int rc;
rc = sqlite_exec(db, "BEGIN TRANSACTION;", NULL, NULL, &errmsg);
if (rc != SQLITE_OK) {
idmapdlog(LOG_ERR, "Begin transaction failed (%s) "
"while %s (%s)", errmsg, while_doing, dbname);
sqlite_freemem(errmsg);
return (-1);
}
rc = sqlite_exec(db, sql, NULL, NULL, &errmsg);
if (rc != SQLITE_OK) {
idmapdlog(LOG_ERR, "Database error (%s) while %s (%s)", errmsg,
while_doing, dbname);
sqlite_freemem(errmsg);
errmsg = NULL;
goto rollback;
}
rc = sqlite_exec(db, "COMMIT TRANSACTION", NULL, NULL, &errmsg);
if (rc == SQLITE_OK) {
sqlite_freemem(errmsg);
return (0);
}
idmapdlog(LOG_ERR, "Database commit error (%s) while s (%s)",
errmsg, while_doing, dbname);
sqlite_freemem(errmsg);
errmsg = NULL;
rollback:
rc = sqlite_exec(db, "ROLLBACK TRANSACTION", NULL, NULL, &errmsg);
if (rc != SQLITE_OK) {
idmapdlog(LOG_ERR, "Rollback failed (%s) while %s (%s)",
errmsg, while_doing, dbname);
sqlite_freemem(errmsg);
return (-2);
}
sqlite_freemem(errmsg);
return (-1);
}
/*
* Execute the given SQL statment without using any callbacks
*/
idmap_retcode
sql_exec_no_cb(sqlite *db, char *sql)
{
char *errmsg = NULL;
int r;
idmap_retcode retcode;
r = sqlite_exec(db, sql, NULL, NULL, &errmsg);
assert(r != SQLITE_LOCKED && r != SQLITE_BUSY);
if (r != SQLITE_OK) {
idmapdlog(LOG_ERR, "Database error during %s (%s)", sql,
CHECK_NULL(errmsg));
retcode = idmapd_string2stat(errmsg);
if (errmsg != NULL)
sqlite_freemem(errmsg);
return (retcode);
}
return (IDMAP_SUCCESS);
}
/*
* Generate expression that can be used in WHERE statements.
* Examples:
* <prefix> <col> <op> <value> <suffix>
* "" "unixuser" "=" "foo" "AND"
*/
idmap_retcode
gen_sql_expr_from_rule(idmap_namerule *rule, char **out)
{
char *s_windomain = NULL, *s_winname = NULL;
char *s_unixname = NULL;
char *lower_winname;
int retcode = IDMAP_SUCCESS;
if (out == NULL)
return (IDMAP_ERR_ARG);
if (!EMPTY_STRING(rule->windomain)) {
s_windomain = sqlite_mprintf("AND windomain = %Q ",
rule->windomain);
if (s_windomain == NULL) {
retcode = IDMAP_ERR_MEMORY;
goto out;
}
}
if (!EMPTY_STRING(rule->winname)) {
if ((lower_winname = tolower_u8(rule->winname)) == NULL)
lower_winname = rule->winname;
s_winname = sqlite_mprintf(
"AND winname = %Q AND is_wuser = %d ",
lower_winname, rule->is_wuser ? 1 : 0);
if (lower_winname != rule->winname)
free(lower_winname);
if (s_winname == NULL) {
retcode = IDMAP_ERR_MEMORY;
goto out;
}
}
if (!EMPTY_STRING(rule->unixname)) {
s_unixname = sqlite_mprintf(
"AND unixname = %Q AND is_user = %d ",
rule->unixname, rule->is_user ? 1 : 0);
if (s_unixname == NULL) {
retcode = IDMAP_ERR_MEMORY;
goto out;
}
}
*out = sqlite_mprintf("%s %s %s",
s_windomain ? s_windomain : "",
s_winname ? s_winname : "",
s_unixname ? s_unixname : "");
if (*out == NULL) {
retcode = IDMAP_ERR_MEMORY;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
out:
if (s_windomain != NULL)
sqlite_freemem(s_windomain);
if (s_winname != NULL)
sqlite_freemem(s_winname);
if (s_unixname != NULL)
sqlite_freemem(s_unixname);
return (retcode);
}
/*
* Generate and execute SQL statement for LIST RPC calls
*/
idmap_retcode
process_list_svc_sql(sqlite *db, char *sql, uint64_t limit,
list_svc_cb cb, void *result)
{
list_cb_data_t cb_data;
char *errmsg = NULL;
int r;
idmap_retcode retcode = IDMAP_ERR_INTERNAL;
(void) memset(&cb_data, 0, sizeof (cb_data));
cb_data.result = result;
cb_data.limit = limit;
r = sqlite_exec(db, sql, cb, &cb_data, &errmsg);
assert(r != SQLITE_LOCKED && r != SQLITE_BUSY);
switch (r) {
case SQLITE_OK:
retcode = IDMAP_SUCCESS;
break;
default:
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Database error during %s (%s)", sql,
CHECK_NULL(errmsg));
break;
}
if (errmsg != NULL)
sqlite_freemem(errmsg);
return (retcode);
}
/*
* This routine is called by callbacks that process the results of
* LIST RPC calls to validate data and to allocate memory for
* the result array.
*/
idmap_retcode
validate_list_cb_data(list_cb_data_t *cb_data, int argc, char **argv,
int ncol, uchar_t **list, size_t valsize)
{
size_t nsize;
void *tmplist;
if (cb_data->limit > 0 && cb_data->next == cb_data->limit)
return (IDMAP_NEXT);
if (argc < ncol || argv == NULL) {
idmapdlog(LOG_ERR, "Invalid data");
return (IDMAP_ERR_INTERNAL);
}
/* alloc in bulk to reduce number of reallocs */
if (cb_data->next >= cb_data->len) {
nsize = (cb_data->len + SIZE_INCR) * valsize;
tmplist = realloc(*list, nsize);
if (tmplist == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
return (IDMAP_ERR_MEMORY);
}
*list = tmplist;
(void) memset(*list + (cb_data->len * valsize), 0,
SIZE_INCR * valsize);
cb_data->len += SIZE_INCR;
}
return (IDMAP_SUCCESS);
}
static
idmap_retcode
get_namerule_order(char *winname, char *windomain, char *unixname,
int direction, int is_diagonal, int *w2u_order, int *u2w_order)
{
*w2u_order = 0;
*u2w_order = 0;
/*
* Windows to UNIX lookup order:
* 1. winname@domain (or winname) to ""
* 2. winname@domain (or winname) to unixname
* 3. winname@* to ""
* 4. winname@* to unixname
* 5. *@domain (or *) to *
* 6. *@domain (or *) to ""
* 7. *@domain (or *) to unixname
* 8. *@* to *
* 9. *@* to ""
* 10. *@* to unixname
*
* winname is a special case of winname@domain when domain is the
* default domain. Similarly * is a special case of *@domain when
* domain is the default domain.
*
* Note that "" has priority over specific names because "" inhibits
* mappings and traditionally deny rules always had higher priority.
*/
if (direction != IDMAP_DIRECTION_U2W) {
/* bi-directional or from windows to unix */
if (winname == NULL)
return (IDMAP_ERR_W2U_NAMERULE);
else if (unixname == NULL)
return (IDMAP_ERR_W2U_NAMERULE);
else if (EMPTY_NAME(winname))
return (IDMAP_ERR_W2U_NAMERULE);
else if (*winname == '*' && windomain && *windomain == '*') {
if (*unixname == '*')
*w2u_order = 8;
else if (EMPTY_NAME(unixname))
*w2u_order = 9;
else /* unixname == name */
*w2u_order = 10;
} else if (*winname == '*') {
if (*unixname == '*')
*w2u_order = 5;
else if (EMPTY_NAME(unixname))
*w2u_order = 6;
else /* name */
*w2u_order = 7;
} else if (windomain != NULL && *windomain == '*') {
/* winname == name */
if (*unixname == '*')
return (IDMAP_ERR_W2U_NAMERULE);
else if (EMPTY_NAME(unixname))
*w2u_order = 3;
else /* name */
*w2u_order = 4;
} else {
/* winname == name && windomain == null or name */
if (*unixname == '*')
return (IDMAP_ERR_W2U_NAMERULE);
else if (EMPTY_NAME(unixname))
*w2u_order = 1;
else /* name */
*w2u_order = 2;
}
}
/*
* 1. unixname to "", non-diagonal
* 2. unixname to winname@domain (or winname), non-diagonal
* 3. unixname to "", diagonal
* 4. unixname to winname@domain (or winname), diagonal
* 5. * to *@domain (or *), non-diagonal
* 5. * to *@domain (or *), diagonal
* 7. * to ""
* 8. * to winname@domain (or winname)
* 9. * to "", non-diagonal
* 10. * to winname@domain (or winname), diagonal
*/
if (direction != IDMAP_DIRECTION_W2U) {
int diagonal = is_diagonal ? 1 : 0;
/* bi-directional or from unix to windows */
if (unixname == NULL || EMPTY_NAME(unixname))
return (IDMAP_ERR_U2W_NAMERULE);
else if (winname == NULL)
return (IDMAP_ERR_U2W_NAMERULE);
else if (windomain != NULL && *windomain == '*')
return (IDMAP_ERR_U2W_NAMERULE);
else if (*unixname == '*') {
if (*winname == '*')
*u2w_order = 5 + diagonal;
else if (EMPTY_NAME(winname))
*u2w_order = 7 + 2 * diagonal;
else
*u2w_order = 8 + 2 * diagonal;
} else {
if (*winname == '*')
return (IDMAP_ERR_U2W_NAMERULE);
else if (EMPTY_NAME(winname))
*u2w_order = 1 + 2 * diagonal;
else
*u2w_order = 2 + 2 * diagonal;
}
}
return (IDMAP_SUCCESS);
}
/*
* Generate and execute SQL statement to add name-based mapping rule
*/
idmap_retcode
add_namerule(sqlite *db, idmap_namerule *rule)
{
char *sql = NULL;
idmap_stat retcode;
char *dom = NULL;
int w2u_order, u2w_order;
char w2ubuf[11], u2wbuf[11];
retcode = get_namerule_order(rule->winname, rule->windomain,
rule->unixname, rule->direction,
rule->is_user == rule->is_wuser ? 0 : 1, &w2u_order, &u2w_order);
if (retcode != IDMAP_SUCCESS)
goto out;
if (w2u_order)
(void) snprintf(w2ubuf, sizeof (w2ubuf), "%d", w2u_order);
if (u2w_order)
(void) snprintf(u2wbuf, sizeof (u2wbuf), "%d", u2w_order);
/*
* For the triggers on namerules table to work correctly:
* 1) Use NULL instead of 0 for w2u_order and u2w_order
* 2) Use "" instead of NULL for "no domain"
*/
if (!EMPTY_STRING(rule->windomain))
dom = rule->windomain;
else if (lookup_wksids_name2sid(rule->winname, NULL, NULL, NULL, NULL)
== IDMAP_SUCCESS) {
/* well-known SIDs don't need domain */
dom = "";
}
RDLOCK_CONFIG();
if (dom == NULL) {
if (_idmapdstate.cfg->pgcfg.default_domain)
dom = _idmapdstate.cfg->pgcfg.default_domain;
else
dom = "";
}
sql = sqlite_mprintf("INSERT into namerules "
"(is_user, is_wuser, windomain, winname_display, is_nt4, "
"unixname, w2u_order, u2w_order) "
"VALUES(%d, %d, %Q, %Q, %d, %Q, %q, %q);",
rule->is_user ? 1 : 0, rule->is_wuser ? 1 : 0, dom,
rule->winname, rule->is_nt4 ? 1 : 0, rule->unixname,
w2u_order ? w2ubuf : NULL, u2w_order ? u2wbuf : NULL);
UNLOCK_CONFIG();
if (sql == NULL) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
retcode = sql_exec_no_cb(db, sql);
if (retcode == IDMAP_ERR_OTHER)
retcode = IDMAP_ERR_CFG;
out:
if (sql != NULL)
sqlite_freemem(sql);
return (retcode);
}
/*
* Flush name-based mapping rules
*/
idmap_retcode
flush_namerules(sqlite *db)
{
idmap_stat retcode;
retcode = sql_exec_no_cb(db, "DELETE FROM namerules;");
return (retcode);
}
/*
* Generate and execute SQL statement to remove a name-based mapping rule
*/
idmap_retcode
rm_namerule(sqlite *db, idmap_namerule *rule)
{
char *sql = NULL;
idmap_stat retcode;
char buf[80];
char *expr = NULL;
if (rule->direction < 0 && EMPTY_STRING(rule->windomain) &&
EMPTY_STRING(rule->winname) && EMPTY_STRING(rule->unixname))
return (IDMAP_SUCCESS);
buf[0] = 0;
if (rule->direction == IDMAP_DIRECTION_BI)
(void) snprintf(buf, sizeof (buf), "AND w2u_order > 0"
" AND u2w_order > 0");
else if (rule->direction == IDMAP_DIRECTION_W2U)
(void) snprintf(buf, sizeof (buf), "AND w2u_order > 0"
" AND (u2w_order = 0 OR u2w_order ISNULL)");
else if (rule->direction == IDMAP_DIRECTION_U2W)
(void) snprintf(buf, sizeof (buf), "AND u2w_order > 0"
" AND (w2u_order = 0 OR w2u_order ISNULL)");
retcode = gen_sql_expr_from_rule(rule, &expr);
if (retcode != IDMAP_SUCCESS)
goto out;
sql = sqlite_mprintf("DELETE FROM namerules WHERE 1 %s %s;", expr,
buf);
if (sql == NULL) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
retcode = sql_exec_no_cb(db, sql);
out:
if (expr != NULL)
sqlite_freemem(expr);
if (sql != NULL)
sqlite_freemem(sql);
return (retcode);
}
/*
* Compile the given SQL query and step just once.
*
* Input:
* db - db handle
* sql - SQL statement
*
* Output:
* vm - virtual SQL machine
* ncol - number of columns in the result
* values - column values
*
* Return values:
* IDMAP_SUCCESS
* IDMAP_ERR_NOTFOUND
* IDMAP_ERR_INTERNAL
*/
static
idmap_retcode
sql_compile_n_step_once(sqlite *db, char *sql, sqlite_vm **vm, int *ncol,
int reqcol, const char ***values)
{
char *errmsg = NULL;
int r;
if ((r = sqlite_compile(db, sql, NULL, vm, &errmsg)) != SQLITE_OK) {
idmapdlog(LOG_ERR, "Database error during %s (%s)", sql,
CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
return (IDMAP_ERR_INTERNAL);
}
r = sqlite_step(*vm, ncol, values, NULL);
assert(r != SQLITE_LOCKED && r != SQLITE_BUSY);
if (r == SQLITE_ROW) {
if (ncol != NULL && *ncol < reqcol) {
(void) sqlite_finalize(*vm, NULL);
*vm = NULL;
return (IDMAP_ERR_INTERNAL);
}
/* Caller will call finalize after using the results */
return (IDMAP_SUCCESS);
} else if (r == SQLITE_DONE) {
(void) sqlite_finalize(*vm, NULL);
*vm = NULL;
return (IDMAP_ERR_NOTFOUND);
}
(void) sqlite_finalize(*vm, &errmsg);
*vm = NULL;
idmapdlog(LOG_ERR, "Database error during %s (%s)", sql,
CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
return (IDMAP_ERR_INTERNAL);
}
/*
* Update nm_siduid and nm_sidgid fields in the lookup state.
*
* state->nm_siduid represents mode used by sid2uid and uid2sid
* requests for directory-based name mappings. Similarly,
* state->nm_sidgid represents mode used by sid2gid and gid2sid
* requests.
*
* sid2uid/uid2sid:
* none -> ds_name_mapping_enabled != true
* AD-mode -> !nldap_winname_attr && ad_unixuser_attr
* nldap-mode -> nldap_winname_attr && !ad_unixuser_attr
* mixed-mode -> nldap_winname_attr && ad_unixuser_attr
*
* sid2gid/gid2sid:
* none -> ds_name_mapping_enabled != true
* AD-mode -> !nldap_winname_attr && ad_unixgroup_attr
* nldap-mode -> nldap_winname_attr && !ad_unixgroup_attr
* mixed-mode -> nldap_winname_attr && ad_unixgroup_attr
*/
idmap_retcode
get_ds_namemap_type(lookup_state_t *state)
{
state->nm_siduid = IDMAP_NM_NONE;
state->nm_sidgid = IDMAP_NM_NONE;
RDLOCK_CONFIG();
if (_idmapdstate.cfg->pgcfg.ds_name_mapping_enabled == FALSE) {
UNLOCK_CONFIG();
return (IDMAP_SUCCESS);
}
if (_idmapdstate.cfg->pgcfg.nldap_winname_attr != NULL) {
state->nm_siduid =
(_idmapdstate.cfg->pgcfg.ad_unixuser_attr != NULL)
? IDMAP_NM_MIXED : IDMAP_NM_NLDAP;
state->nm_sidgid =
(_idmapdstate.cfg->pgcfg.ad_unixgroup_attr != NULL)
? IDMAP_NM_MIXED : IDMAP_NM_NLDAP;
} else {
state->nm_siduid =
(_idmapdstate.cfg->pgcfg.ad_unixuser_attr != NULL)
? IDMAP_NM_AD : IDMAP_NM_NONE;
state->nm_sidgid =
(_idmapdstate.cfg->pgcfg.ad_unixgroup_attr != NULL)
? IDMAP_NM_AD : IDMAP_NM_NONE;
}
if (_idmapdstate.cfg->pgcfg.ad_unixuser_attr != NULL) {
state->ad_unixuser_attr =
strdup(_idmapdstate.cfg->pgcfg.ad_unixuser_attr);
if (state->ad_unixuser_attr == NULL) {
UNLOCK_CONFIG();
return (IDMAP_ERR_MEMORY);
}
}
if (_idmapdstate.cfg->pgcfg.ad_unixgroup_attr != NULL) {
state->ad_unixgroup_attr =
strdup(_idmapdstate.cfg->pgcfg.ad_unixgroup_attr);
if (state->ad_unixgroup_attr == NULL) {
UNLOCK_CONFIG();
return (IDMAP_ERR_MEMORY);
}
}
UNLOCK_CONFIG();
return (IDMAP_SUCCESS);
}
/*
* Table for well-known SIDs.
*
* Background:
*
* Some of the well-known principals are stored under:
* cn=WellKnown Security Principals, cn=Configuration, dc=<forestRootDomain>
* They belong to objectClass "foreignSecurityPrincipal". They don't have
* "samAccountName" nor "userPrincipalName" attributes. Their names are
* available in "cn" and "name" attributes. Some of these principals have a
* second entry under CN=ForeignSecurityPrincipals,dc=<forestRootDomain> and
* these duplicate entries have the stringified SID in the "name" and "cn"
* attributes instead of the actual name.
*
* Those of the form S-1-5-32-X are Builtin groups and are stored in the
* cn=builtin container (except, Power Users which is not stored in AD)
*
* These principals are and will remain constant. Therefore doing AD lookups
* provides no benefit. Also, using hard-coded table (and thus avoiding AD
* lookup) improves performance and avoids additional complexity in the
* adutils.c code. Moreover these SIDs can be used when no Active Directory
* is available (such as the CIFS server's "workgroup" mode).
*
* Notes:
* 1. Currently we don't support localization of well-known SID names,
* unlike Windows.
*
* 2. Other well-known SIDs i.e. S-1-5-<domain>-<w-k RID> are not stored
* here. AD does have normal user/group objects for these objects and
* can be looked up using the existing AD lookup code.
*
* 3. See comments above lookup_wksids_sid2pid() for more information
* on how we lookup the wksids table.
*/
static wksids_table_t wksids[] = {
{"S-1-0", 0, "Nobody", 0, SENTINEL_PID, -1, 1},
{"S-1-1", 0, "Everyone", 0, SENTINEL_PID, -1, -1},
{"S-1-3", 0, "Creator Owner", 1, IDMAP_WK_CREATOR_OWNER_UID, 1, 0},
{"S-1-3", 1, "Creator Group", 0, IDMAP_WK_CREATOR_GROUP_GID, 0, 0},
{"S-1-3", 2, "Creator Owner Server", 1, SENTINEL_PID, -1, -1},
{"S-1-3", 3, "Creator Group Server", 0, SENTINEL_PID, -1, 1},
{"S-1-3", 4, "Owner Rights", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 1, "Dialup", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 2, "Network", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 3, "Batch", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 4, "Interactive", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 6, "Service", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 7, "Anonymous Logon", 0, GID_NOBODY, 0, 0},
{"S-1-5", 7, "Anonymous Logon", 0, UID_NOBODY, 1, 0},
{"S-1-5", 8, "Proxy", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 9, "Enterprise Domain Controllers", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 10, "Self", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 11, "Authenticated Users", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 12, "Restricted Code", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 13, "Terminal Server User", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 14, "Remote Interactive Logon", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 15, "This Organization", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 17, "IUSR", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 18, "Local System", 0, IDMAP_WK_LOCAL_SYSTEM_GID, 0, 0},
{"S-1-5", 19, "Local Service", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 20, "Network Service", 0, SENTINEL_PID, -1, -1},
{"S-1-5", 1000, "Other Organization", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 544, "Administrators", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 545, "Users", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 546, "Guests", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 547, "Power Users", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 548, "Account Operators", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 549, "Server Operators", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 550, "Print Operators", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 551, "Backup Operators", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 552, "Replicator", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 554, "Pre-Windows 2000 Compatible Access", 0,
SENTINEL_PID, -1, -1},
{"S-1-5-32", 555, "Remote Desktop Users", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 556, "Network Configuration Operators", 0,
SENTINEL_PID, -1, -1},
{"S-1-5-32", 557, "Incoming Forest Trust Builders", 0,
SENTINEL_PID, -1, -1},
{"S-1-5-32", 558, "Performance Monitor Users", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 559, "Performance Log Users", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 560, "Windows Authorization Access Group", 0,
SENTINEL_PID, -1, -1},
{"S-1-5-32", 561, "Terminal Server License Servers", 0,
SENTINEL_PID, -1, -1},
{"S-1-5-32", 561, "Distributed COM Users", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 568, "IIS_IUSRS", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 569, "Cryptographic Operators", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 573, "Event Log Readers", 0, SENTINEL_PID, -1, -1},
{"S-1-5-32", 574, "Certificate Service DCOM Access", 0,
SENTINEL_PID, -1, -1},
{"S-1-5-64", 21, "Digest Authentication", 0, SENTINEL_PID, -1, -1},
{"S-1-5-64", 10, "NTLM Authentication", 0, SENTINEL_PID, -1, -1},
{"S-1-5-64", 14, "SChannel Authentication", 0, SENTINEL_PID, -1, -1},
{NULL, UINT32_MAX, NULL, -1, SENTINEL_PID, -1, -1}
};
/*
* Lookup well-known SIDs table either by winname or by SID.
* If the given winname or SID is a well-known SID then we set wksid
* variable and then proceed to see if the SID has a hard mapping to
* a particular UID/GID (Ex: Creator Owner/Creator Group mapped to
* fixed ephemeral ids). If we find such mapping then we return
* success otherwise notfound. If a well-known SID is mapped to
* SENTINEL_PID and the direction field is set (bi-directional or
* win2unix) then we treat it as inhibited mapping and return no
* mapping (Ex. S-1-0-0).
*/
static
idmap_retcode
lookup_wksids_sid2pid(idmap_mapping *req, idmap_id_res *res, int *wksid)
{
int i;
*wksid = 0;
for (i = 0; wksids[i].sidprefix != NULL; i++) {
if (req->id1.idmap_id_u.sid.prefix != NULL) {
if ((strcasecmp(wksids[i].sidprefix,
req->id1.idmap_id_u.sid.prefix) != 0) ||
wksids[i].rid != req->id1.idmap_id_u.sid.rid)
/* this is not our SID */
continue;
if (req->id1name == NULL) {
req->id1name = strdup(wksids[i].winname);
if (req->id1name == NULL)
return (IDMAP_ERR_MEMORY);
}
} else if (req->id1name != NULL) {
if (strcasecmp(wksids[i].winname, req->id1name) != 0)
/* this is not our winname */
continue;
req->id1.idmap_id_u.sid.prefix =
strdup(wksids[i].sidprefix);
if (req->id1.idmap_id_u.sid.prefix == NULL)
return (IDMAP_ERR_MEMORY);
req->id1.idmap_id_u.sid.rid = wksids[i].rid;
}
*wksid = 1;
req->direction |= _IDMAP_F_DONT_UPDATE_NAMECACHE;
req->id1.idtype = (wksids[i].is_wuser) ?
IDMAP_USID : IDMAP_GSID;
if (wksids[i].pid == SENTINEL_PID) {
if (wksids[i].direction == IDMAP_DIRECTION_BI ||
wksids[i].direction == IDMAP_DIRECTION_W2U)
/* Inhibited */
return (IDMAP_ERR_NOMAPPING);
/* Not mapped */
return (IDMAP_ERR_NOTFOUND);
} else if (wksids[i].direction == IDMAP_DIRECTION_U2W)
continue;
switch (res->id.idtype) {
case IDMAP_UID:
if (wksids[i].is_user == 0)
continue;
res->id.idmap_id_u.uid = wksids[i].pid;
res->direction = wksids[i].direction;
return (IDMAP_SUCCESS);
case IDMAP_GID:
if (wksids[i].is_user == 1)
continue;
res->id.idmap_id_u.gid = wksids[i].pid;
res->direction = wksids[i].direction;
return (IDMAP_SUCCESS);
case IDMAP_POSIXID:
res->id.idmap_id_u.uid = wksids[i].pid;
res->id.idtype = (!wksids[i].is_user) ?
IDMAP_GID : IDMAP_UID;
res->direction = wksids[i].direction;
return (IDMAP_SUCCESS);
default:
return (IDMAP_ERR_NOTSUPPORTED);
}
}
return (IDMAP_ERR_NOTFOUND);
}
static
idmap_retcode
lookup_wksids_pid2sid(idmap_mapping *req, idmap_id_res *res, int is_user)
{
int i;
if (req->id1.idmap_id_u.uid == SENTINEL_PID)
return (IDMAP_ERR_NOTFOUND);
for (i = 0; wksids[i].sidprefix != NULL; i++) {
if (wksids[i].pid == req->id1.idmap_id_u.uid &&
wksids[i].is_user == is_user &&
wksids[i].direction != IDMAP_DIRECTION_W2U) {
if (res->id.idtype == IDMAP_SID) {
res->id.idtype = (wksids[i].is_wuser) ?
IDMAP_USID : IDMAP_GSID;
}
res->id.idmap_id_u.sid.rid = wksids[i].rid;
res->id.idmap_id_u.sid.prefix =
strdup(wksids[i].sidprefix);
if (res->id.idmap_id_u.sid.prefix == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
return (IDMAP_ERR_MEMORY);
}
res->direction = wksids[i].direction;
return (IDMAP_SUCCESS);
}
}
return (IDMAP_ERR_NOTFOUND);
}
static
idmap_retcode
lookup_wksids_name2sid(const char *name, char **canonname, char **sidprefix,
idmap_rid_t *rid, int *type)
{
int i;
for (i = 0; wksids[i].sidprefix != NULL; i++) {
if (strcasecmp(wksids[i].winname, name) != 0)
continue;
if (sidprefix != NULL &&
(*sidprefix = strdup(wksids[i].sidprefix)) == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
return (IDMAP_ERR_MEMORY);
}
if (canonname != NULL &&
(*canonname = strdup(wksids[i].winname)) == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
if (sidprefix != NULL) {
free(*sidprefix);
*sidprefix = NULL;
}
return (IDMAP_ERR_MEMORY);
}
if (type != NULL)
*type = (wksids[i].is_wuser) ?
_IDMAP_T_USER : _IDMAP_T_GROUP;
if (rid != NULL)
*rid = wksids[i].rid;
return (IDMAP_SUCCESS);
}
return (IDMAP_ERR_NOTFOUND);
}
static
idmap_retcode
lookup_cache_sid2pid(sqlite *cache, idmap_mapping *req, idmap_id_res *res)
{
char *end;
char *sql = NULL;
const char **values;
sqlite_vm *vm = NULL;
int ncol, is_user;
uid_t pid;
time_t curtime, exp;
idmap_retcode retcode;
char *is_user_string, *lower_name;
/* Current time */
errno = 0;
if ((curtime = time(NULL)) == (time_t)-1) {
idmapdlog(LOG_ERR, "Failed to get current time (%s)",
strerror(errno));
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
switch (res->id.idtype) {
case IDMAP_UID:
is_user_string = "1";
break;
case IDMAP_GID:
is_user_string = "0";
break;
case IDMAP_POSIXID:
/* the non-diagonal mapping */
is_user_string = "is_wuser";
break;
default:
retcode = IDMAP_ERR_NOTSUPPORTED;
goto out;
}
/* SQL to lookup the cache */
if (req->id1.idmap_id_u.sid.prefix != NULL) {
sql = sqlite_mprintf("SELECT pid, is_user, expiration, "
"unixname, u2w, is_wuser "
"FROM idmap_cache WHERE is_user = %s AND "
"sidprefix = %Q AND rid = %u AND w2u = 1 AND "
"(pid >= 2147483648 OR "
"(expiration = 0 OR expiration ISNULL OR "
"expiration > %d));",
is_user_string, req->id1.idmap_id_u.sid.prefix,
req->id1.idmap_id_u.sid.rid, curtime);
} else if (req->id1name != NULL) {
if ((lower_name = tolower_u8(req->id1name)) == NULL)
lower_name = req->id1name;
sql = sqlite_mprintf("SELECT pid, is_user, expiration, "
"unixname, u2w, is_wuser "
"FROM idmap_cache WHERE is_user = %s AND "
"winname = %Q AND windomain = %Q AND w2u = 1 AND "
"(pid >= 2147483648 OR "
"(expiration = 0 OR expiration ISNULL OR "
"expiration > %d));",
is_user_string, lower_name, req->id1domain, curtime);
if (lower_name != req->id1name)
free(lower_name);
} else {
retcode = IDMAP_ERR_ARG;
goto out;
}
if (sql == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
retcode = sql_compile_n_step_once(cache, sql, &vm, &ncol, 6, &values);
sqlite_freemem(sql);
if (retcode == IDMAP_ERR_NOTFOUND) {
goto out;
} else if (retcode == IDMAP_SUCCESS) {
/* sanity checks */
if (values[0] == NULL || values[1] == NULL) {
retcode = IDMAP_ERR_CACHE;
goto out;
}
pid = strtoul(values[0], &end, 10);
is_user = strncmp(values[1], "0", 2) ? 1 : 0;
if (is_user) {
res->id.idtype = IDMAP_UID;
res->id.idmap_id_u.uid = pid;
} else {
res->id.idtype = IDMAP_GID;
res->id.idmap_id_u.gid = pid;
}
/*
* We may have an expired ephemeral mapping. Consider
* the expired entry as valid if we are not going to
* perform name-based mapping. But do not renew the
* expiration.
* If we will be doing name-based mapping then store the
* ephemeral pid in the result so that we can use it
* if we end up doing dynamic mapping again.
*/
if (!DO_NOT_ALLOC_NEW_ID_MAPPING(req) &&
!AVOID_NAMESERVICE(req) &&
IS_EPHEMERAL(pid) && values[2] != NULL) {
exp = strtoll(values[2], &end, 10);
if (exp && exp <= curtime) {
/* Store the ephemeral pid */
res->direction = IDMAP_DIRECTION_BI;
req->direction |= is_user
? _IDMAP_F_EXP_EPH_UID
: _IDMAP_F_EXP_EPH_GID;
retcode = IDMAP_ERR_NOTFOUND;
}
}
}
out:
if (retcode == IDMAP_SUCCESS) {
if (values[4] != NULL)
res->direction =
(strtol(values[4], &end, 10) == 0)?
IDMAP_DIRECTION_W2U:IDMAP_DIRECTION_BI;
else
res->direction = IDMAP_DIRECTION_W2U;
if (values[3] != NULL) {
if (req->id2name != NULL)
free(req->id2name);
req->id2name = strdup(values[3]);
if (req->id2name == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
}
}
req->id1.idtype = strncmp(values[5], "0", 2) ?
IDMAP_USID : IDMAP_GSID;
}
if (vm != NULL)
(void) sqlite_finalize(vm, NULL);
return (retcode);
}
static
idmap_retcode
lookup_cache_sid2name(sqlite *cache, const char *sidprefix, idmap_rid_t rid,
char **name, char **domain, int *type)
{
char *end;
char *sql = NULL;
const char **values;
sqlite_vm *vm = NULL;
int ncol;
time_t curtime;
idmap_retcode retcode = IDMAP_SUCCESS;
/* Get current time */
errno = 0;
if ((curtime = time(NULL)) == (time_t)-1) {
idmapdlog(LOG_ERR, "Failed to get current time (%s)",
strerror(errno));
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
/* SQL to lookup the cache */
sql = sqlite_mprintf("SELECT canon_name, domain, type "
"FROM name_cache WHERE "
"sidprefix = %Q AND rid = %u AND "
"(expiration = 0 OR expiration ISNULL OR "
"expiration > %d);",
sidprefix, rid, curtime);
if (sql == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
retcode = sql_compile_n_step_once(cache, sql, &vm, &ncol, 3, &values);
sqlite_freemem(sql);
if (retcode == IDMAP_SUCCESS) {
if (type != NULL) {
if (values[2] == NULL) {
retcode = IDMAP_ERR_CACHE;
goto out;
}
*type = strtol(values[2], &end, 10);
}
if (name != NULL && values[0] != NULL) {
if ((*name = strdup(values[0])) == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
}
if (domain != NULL && values[1] != NULL) {
if ((*domain = strdup(values[1])) == NULL) {
if (name != NULL && *name) {
free(*name);
*name = NULL;
}
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
}
}
out:
if (vm != NULL)
(void) sqlite_finalize(vm, NULL);
return (retcode);
}
/*
* Given SID, find winname using name_cache OR
* Given winname, find SID using name_cache.
* Used when mapping win to unix i.e. req->id1 is windows id and
* req->id2 is unix id
*/
static
idmap_retcode
lookup_name_cache(sqlite *cache, idmap_mapping *req, idmap_id_res *res)
{
int type = -1;
idmap_retcode retcode;
char *sidprefix = NULL;
idmap_rid_t rid;
char *name = NULL, *domain = NULL;
/* Done if we've both sid and winname */
if (req->id1.idmap_id_u.sid.prefix != NULL && req->id1name != NULL)
return (IDMAP_SUCCESS);
/* Lookup sid to winname */
if (req->id1.idmap_id_u.sid.prefix != NULL) {
retcode = lookup_cache_sid2name(cache,
req->id1.idmap_id_u.sid.prefix,
req->id1.idmap_id_u.sid.rid, &name, &domain, &type);
goto out;
}
/* Lookup winame to sid */
retcode = lookup_cache_name2sid(cache, req->id1name, req->id1domain,
&name, &sidprefix, &rid, &type);
out:
if (retcode != IDMAP_SUCCESS) {
free(name);
free(domain);
free(sidprefix);
return (retcode);
}
if (res->id.idtype == IDMAP_POSIXID) {
res->id.idtype = (type == _IDMAP_T_USER) ?
IDMAP_UID : IDMAP_GID;
}
req->id1.idtype = (type == _IDMAP_T_USER) ?
IDMAP_USID : IDMAP_GSID;
req->direction |= _IDMAP_F_DONT_UPDATE_NAMECACHE;
if (name != NULL) {
free(req->id1name); /* Free existing winname */
req->id1name = name; /* and use canonical name instead */
}
if (req->id1domain == NULL)
req->id1domain = domain;
if (req->id1.idmap_id_u.sid.prefix == NULL) {
req->id1.idmap_id_u.sid.prefix = sidprefix;
req->id1.idmap_id_u.sid.rid = rid;
}
return (retcode);
}
/*
* Batch AD lookups
*/
idmap_retcode
ad_lookup_batch(lookup_state_t *state, idmap_mapping_batch *batch,
idmap_ids_res *result)
{
idmap_retcode retcode;
int i, add, type, is_wuser, is_user;
int retries = 0, eunixtype;
char **unixname;
idmap_mapping *req;
idmap_id_res *res;
idmap_query_state_t *qs = NULL;
/*
* Since req->id2.idtype is unused, we will use it here
* to retrieve the value of sid_type. But it needs to be
* reset to IDMAP_NONE before we return to prevent xdr
* from mis-interpreting req->id2 when it tries to free
* the input argument. Other option is to allocate an
* array of integers and use it instead for the batched
* call. But why un-necessarily allocate memory. That may
* be an option if req->id2.idtype cannot be re-used in
* future.
*/
if (state->ad_nqueries == 0)
return (IDMAP_SUCCESS);
retry:
retcode = idmap_lookup_batch_start(_idmapdstate.ad, state->ad_nqueries,
&qs);
if (retcode != IDMAP_SUCCESS) {
degrade_svc();
idmapdlog(LOG_ERR,
"Failed to create batch for AD lookup");
goto out;
}
restore_svc();
idmap_lookup_batch_set_unixattr(qs, state->ad_unixuser_attr,
state->ad_unixgroup_attr);
for (i = 0, add = 0; i < batch->idmap_mapping_batch_len; i++) {
req = &batch->idmap_mapping_batch_val[i];
res = &result->ids.ids_val[i];
retcode = IDMAP_SUCCESS;
req->id2.idtype = IDMAP_NONE;
/* Skip if not marked for AD lookup */
if (!(req->direction & _IDMAP_F_LOOKUP_AD))
continue;
if (retries == 0)
res->retcode = IDMAP_ERR_RETRIABLE_NET_ERR;
else if (res->retcode != IDMAP_ERR_RETRIABLE_NET_ERR)
continue;
if (IS_REQUEST_SID(*req, 1)) {
/* win to unix */
assert(req->id1.idmap_id_u.sid.prefix != NULL);
/* Lookup AD by SID */
unixname = NULL;
eunixtype = _IDMAP_T_UNDEF;
if (req->id2name == NULL) {
if (res->id.idtype == IDMAP_UID &&
AD_OR_MIXED(state->nm_siduid)) {
eunixtype = _IDMAP_T_USER;
unixname = &req->id2name;
} else if (res->id.idtype == IDMAP_GID &&
AD_OR_MIXED(state->nm_sidgid)) {
eunixtype = _IDMAP_T_GROUP;
unixname = &req->id2name;
} else if (AD_OR_MIXED(state->nm_siduid) ||
AD_OR_MIXED(state->nm_sidgid)) {
unixname = &req->id2name;
}
}
add = 1;
retcode = idmap_sid2name_batch_add1(
qs, req->id1.idmap_id_u.sid.prefix,
&req->id1.idmap_id_u.sid.rid, eunixtype,
(req->id1name == NULL) ? &req->id1name : NULL,
(req->id1domain == NULL) ? &req->id1domain : NULL,
(int *)&req->id2.idtype, unixname, &res->retcode);
} else if (IS_REQUEST_UID(*req) || IS_REQUEST_GID(*req)) {
/* unix to win */
if (res->id.idmap_id_u.sid.prefix != NULL &&
req->id2name != NULL) {
/* Already have SID and winname -- done */
res->retcode = IDMAP_SUCCESS;
continue;
}
if (res->id.idmap_id_u.sid.prefix != NULL) {
/*
* SID but no winname -- lookup AD by
* SID to get winname.
*/
add = 1;
retcode = idmap_sid2name_batch_add1(
qs, res->id.idmap_id_u.sid.prefix,
&res->id.idmap_id_u.sid.rid,
_IDMAP_T_UNDEF, &req->id2name,
&req->id2domain, (int *)&req->id2.idtype,
NULL, &res->retcode);
} else if (req->id2name != NULL) {
/*
* winname but no SID -- lookup AD by
* winname to get SID.
*/
add = 1;
retcode = idmap_name2sid_batch_add1(
qs, req->id2name, req->id2domain,
_IDMAP_T_UNDEF, NULL,
&res->id.idmap_id_u.sid.prefix,
&res->id.idmap_id_u.sid.rid,
(int *)&req->id2.idtype, NULL,
&res->retcode);
} else if (req->id1name != NULL) {
/*
* No SID and no winname but we've unixname --
* lookup AD by unixname to get SID.
*/
is_user = (IS_REQUEST_UID(*req)) ? 1 : 0;
if (res->id.idtype == IDMAP_USID)
is_wuser = 1;
else if (res->id.idtype == IDMAP_GSID)
is_wuser = 0;
else
is_wuser = is_user;
add = 1;
retcode = idmap_unixname2sid_batch_add1(
qs, req->id1name, is_user, is_wuser,
&res->id.idmap_id_u.sid.prefix,
&res->id.idmap_id_u.sid.rid,
&req->id2name, &req->id2domain,
(int *)&req->id2.idtype, &res->retcode);
}
}
if (retcode != IDMAP_SUCCESS) {
idmap_lookup_release_batch(&qs);
break;
}
}
if (retcode == IDMAP_SUCCESS && add)
retcode = idmap_lookup_batch_end(&qs, NULL);
if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR && retries++ < 2)
goto retry;
else if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR)
degrade_svc();
if (retcode != IDMAP_SUCCESS)
idmapdlog(LOG_NOTICE, "Failed to batch AD lookup requests");
out:
/*
* This loop does the following:
* 1) If there are errors in creating or submitting the batch then
* we set the retcode for each request (res->retcode) that's part
* of the batch to that error. If there were no such errors then
* res->retcode for each request will reflect the status of AD
* lookup for that particular request. Initial value of
* res->retcode is IDMAP_ERR_RETRIABLE_NET_ERR.
* 2) If AD lookup for a given request succeeds then evaluate the
* type of the AD object (i.e user or group) and update the
* idtype in res and req.
* 3) Reset req->id2.idtype to IDMAP_NONE.
*/
for (i = 0; i < batch->idmap_mapping_batch_len; i++) {
req = &batch->idmap_mapping_batch_val[i];
type = req->id2.idtype;
req->id2.idtype = IDMAP_NONE;
res = &result->ids.ids_val[i];
if (!(req->direction & _IDMAP_F_LOOKUP_AD))
/* Entry that wasn't marked for AD lookup - skip */
continue;
if (retcode != IDMAP_SUCCESS) {
res->retcode = retcode;
continue;
}
if (!add)
continue;
if (IS_REQUEST_SID(*req, 1)) {
if (res->retcode != IDMAP_SUCCESS)
continue;
switch (type) {
case _IDMAP_T_USER:
if (res->id.idtype == IDMAP_POSIXID)
res->id.idtype = IDMAP_UID;
req->id1.idtype = IDMAP_USID;
break;
case _IDMAP_T_GROUP:
if (res->id.idtype == IDMAP_POSIXID)
res->id.idtype = IDMAP_GID;
req->id1.idtype = IDMAP_GSID;
break;
default:
res->retcode = IDMAP_ERR_SID;
break;
}
} else if (IS_REQUEST_UID(*req) || IS_REQUEST_GID(*req)) {
if (res->retcode != IDMAP_SUCCESS) {
if ((!(IDMAP_FATAL_ERROR(res->retcode))) &&
res->id.idmap_id_u.sid.prefix == NULL &&
req->id2name == NULL && /* no winname */
req->id1name != NULL) /* unixname */
/*
* Here we have a pid2sid request
* that was marked for AD lookup
* with no SID, no winname but with
* unixname. This request was
* added to the batch to do AD lookup
* by unixname but it failed with non
* fatal error. In such case we
* ignore the error (i.e set
* res->retcode to success) so that
* next pass considers it for name
* based mapping rules or ephemeral
* mapping.
*/
res->retcode = IDMAP_SUCCESS;
continue;
}
switch (type) {
case _IDMAP_T_USER:
if (res->id.idtype == IDMAP_SID)
res->id.idtype = IDMAP_USID;
break;
case _IDMAP_T_GROUP:
if (res->id.idtype == IDMAP_SID)
res->id.idtype = IDMAP_GSID;
break;
default:
res->retcode = IDMAP_ERR_SID;
break;
}
}
}
/* AD lookups done. Reset state->ad_nqueries and return */
state->ad_nqueries = 0;
return (retcode);
}
/*
* Convention when processing win2unix requests:
*
* Windows identity:
* req->id1name =
* winname if given otherwise winname found will be placed
* here.
* req->id1domain =
* windomain if given otherwise windomain found will be
* placed here.
* req->id1.idtype =
* Either IDMAP_SID/USID/GSID. If this is IDMAP_SID then it'll
* be set to IDMAP_USID/GSID depending upon whether the
* given SID is user or group respectively. The user/group-ness
* is determined either when looking up well-known SIDs table OR
* if the SID is found in namecache OR by ad_lookup() OR by
* ad_lookup_batch().
* req->id1..sid.[prefix, rid] =
* SID if given otherwise SID found will be placed here.
*
* Unix identity:
* req->id2name =
* unixname found will be placed here.
* req->id2domain =
* NOT USED
* res->id.idtype =
* Target type initialized from req->id2.idtype. If
* it is IDMAP_POSIXID then actual type (IDMAP_UID/GID) found
* will be placed here.
* res->id..[uid or gid] =
* UID/GID found will be placed here.
*
* Others:
* res->retcode =
* Return status for this request will be placed here.
* res->direction =
* Direction found will be placed here. Direction
* meaning whether the resultant mapping is valid
* only from win2unix or bi-directional.
* req->direction =
* INTERNAL USE. Used by idmapd to set various
* flags (_IDMAP_F_xxxx) to aid in processing
* of the request.
* req->id2.idtype =
* INTERNAL USE. Initially this is the requested target
* type and is used to initialize res->id.idtype.
* ad_lookup_batch() uses this field temporarily to store
* sid_type obtained by the batched AD lookups and after
* use resets it to IDMAP_NONE to prevent xdr from
* mis-interpreting the contents of req->id2.
* req->id2..[uid or gid or sid] =
* NOT USED
*/
/*
* This function does the following:
* 1. Lookup well-known SIDs table.
* 2. Check if the given SID is a local-SID and if so extract UID/GID from it.
* 3. Lookup cache.
* 4. Check if the client does not want new mapping to be allocated
* in which case this pass is the final pass.
* 5. Set AD lookup flag if it determines that the next stage needs
* to do AD lookup.
*/
idmap_retcode
sid2pid_first_pass(lookup_state_t *state, sqlite *cache, idmap_mapping *req,
idmap_id_res *res)
{
idmap_retcode retcode;
int wksid;
/* Initialize result */
res->id.idtype = req->id2.idtype;
res->id.idmap_id_u.uid = SENTINEL_PID;
res->direction = IDMAP_DIRECTION_UNDEF;
wksid = 0;
if (EMPTY_STRING(req->id1.idmap_id_u.sid.prefix)) {
if (req->id1name == NULL) {
retcode = IDMAP_ERR_ARG;
goto out;
}
/* sanitize sidprefix */
free(req->id1.idmap_id_u.sid.prefix);
req->id1.idmap_id_u.sid.prefix = NULL;
}
/* Lookup well-known SIDs table */
retcode = lookup_wksids_sid2pid(req, res, &wksid);
if (retcode != IDMAP_ERR_NOTFOUND)
goto out;
/* Check if this is a localsid */
if (!wksid) {
retcode = lookup_localsid2pid(req, res);
if (retcode != IDMAP_ERR_NOTFOUND)
goto out;
}
/* Lookup cache */
retcode = lookup_cache_sid2pid(cache, req, res);
if (retcode != IDMAP_ERR_NOTFOUND)
goto out;
if (DO_NOT_ALLOC_NEW_ID_MAPPING(req) || AVOID_NAMESERVICE(req)) {
retcode = IDMAP_ERR_NOMAPPING;
goto out;
}
/*
* Failed to find non-expired entry in cache. Next step is
* to determine if this request needs to be batched for AD lookup.
*
* At this point we have either sid or winname or both. If we don't
* have both then lookup name_cache for the sid or winname
* whichever is missing. If not found then this request will be
* batched for AD lookup.
*/
retcode = lookup_name_cache(cache, req, res);
if (retcode != IDMAP_SUCCESS && retcode != IDMAP_ERR_NOTFOUND)
goto out;
/*
* Set the flag to indicate that we are not done yet so that
* subsequent passes considers this request for name-based
* mapping and ephemeral mapping.
*/
state->sid2pid_done = FALSE;
req->direction |= _IDMAP_F_NOTDONE;
/*
* Even if we have both sid and winname, we still may need to batch
* this request for AD lookup if we don't have unixname and
* directory-based name mapping (AD or mixed) is enabled.
* We avoid AD lookup for well-known SIDs because they don't have
* regular AD objects.
*/
if (retcode != IDMAP_SUCCESS ||
(!wksid && req->id2name == NULL &&
AD_OR_MIXED_MODE(res->id.idtype, state))) {
retcode = IDMAP_SUCCESS;
req->direction |= _IDMAP_F_LOOKUP_AD;
state->ad_nqueries++;
}
out:
res->retcode = idmap_stat4prot(retcode);
/*
* If we are done and there was an error then set fallback pid
* in the result.
*/
if (ARE_WE_DONE(req->direction) && res->retcode != IDMAP_SUCCESS)
res->id.idmap_id_u.uid = UID_NOBODY;
return (retcode);
}
/*
* Generate SID using the following convention
* <machine-sid-prefix>-<1000 + uid>
* <machine-sid-prefix>-<2^31 + gid>
*/
static
idmap_retcode
generate_localsid(idmap_mapping *req, idmap_id_res *res, int is_user)
{
free(res->id.idmap_id_u.sid.prefix);
res->id.idmap_id_u.sid.prefix = NULL;
/*
* Diagonal mapping for localSIDs not supported because of the
* way we generate localSIDs.
*/
if (is_user && res->id.idtype == IDMAP_GSID)
return (IDMAP_ERR_NOMAPPING);
if (!is_user && res->id.idtype == IDMAP_USID)
return (IDMAP_ERR_NOMAPPING);
/* Skip 1000 UIDs */
if (is_user && req->id1.idmap_id_u.uid >
(INT32_MAX - LOCALRID_MIN))
return (IDMAP_ERR_NOMAPPING);
RDLOCK_CONFIG();
/*
* machine_sid is never NULL because if it is we won't be here.
* No need to assert because stdrup(NULL) will core anyways.
*/
res->id.idmap_id_u.sid.prefix =
strdup(_idmapdstate.cfg->pgcfg.machine_sid);
if (res->id.idmap_id_u.sid.prefix == NULL) {
UNLOCK_CONFIG();
idmapdlog(LOG_ERR, "Out of memory");
return (IDMAP_ERR_MEMORY);
}
UNLOCK_CONFIG();
res->id.idmap_id_u.sid.rid =
(is_user) ? req->id1.idmap_id_u.uid + LOCALRID_MIN :
req->id1.idmap_id_u.gid + INT32_MAX + 1;
res->direction = IDMAP_DIRECTION_BI;
if (res->id.idtype == IDMAP_SID)
res->id.idtype = is_user ? IDMAP_USID : IDMAP_GSID;
/*
* Don't update name_cache because local sids don't have
* valid windows names.
*/
req->direction |= _IDMAP_F_DONT_UPDATE_NAMECACHE;
return (IDMAP_SUCCESS);
}
static
idmap_retcode
lookup_localsid2pid(idmap_mapping *req, idmap_id_res *res)
{
char *sidprefix;
uint32_t rid;
int s;
/*
* If the sidprefix == localsid then UID = last RID - 1000 or
* GID = last RID - 2^31.
*/
if ((sidprefix = req->id1.idmap_id_u.sid.prefix) == NULL)
/* This means we are looking up by winname */
return (IDMAP_ERR_NOTFOUND);
rid = req->id1.idmap_id_u.sid.rid;
RDLOCK_CONFIG();
s = (_idmapdstate.cfg->pgcfg.machine_sid) ?
strcasecmp(sidprefix, _idmapdstate.cfg->pgcfg.machine_sid) : 1;
UNLOCK_CONFIG();
/*
* If the given sidprefix does not match machine_sid then this is
* not a local SID.
*/
if (s != 0)
return (IDMAP_ERR_NOTFOUND);
switch (res->id.idtype) {
case IDMAP_UID:
if (rid > INT32_MAX || rid < LOCALRID_MIN)
return (IDMAP_ERR_ARG);
res->id.idmap_id_u.uid = rid - LOCALRID_MIN;
break;
case IDMAP_GID:
if (rid <= INT32_MAX)
return (IDMAP_ERR_ARG);
res->id.idmap_id_u.gid = rid - INT32_MAX - 1;
break;
case IDMAP_POSIXID:
if (rid > INT32_MAX) {
res->id.idmap_id_u.gid = rid - INT32_MAX - 1;
res->id.idtype = IDMAP_GID;
} else if (rid < LOCALRID_MIN) {
return (IDMAP_ERR_ARG);
} else {
res->id.idmap_id_u.uid = rid - LOCALRID_MIN;
res->id.idtype = IDMAP_UID;
}
break;
default:
return (IDMAP_ERR_NOTSUPPORTED);
}
return (IDMAP_SUCCESS);
}
/*
* Name service lookup by unixname to get pid
*/
static
idmap_retcode
ns_lookup_byname(const char *name, const char *lower_name, idmap_id *id)
{
struct passwd pwd, *pwdp;
struct group grp, *grpp;
char buf[1024];
int errnum;
const char *me = "ns_lookup_byname";
switch (id->idtype) {
case IDMAP_UID:
pwdp = getpwnam_r(name, &pwd, buf, sizeof (buf));
if (pwdp == NULL && errno == 0 && lower_name != NULL &&
name != lower_name && strcmp(name, lower_name) != 0)
pwdp = getpwnam_r(lower_name, &pwd, buf, sizeof (buf));
if (pwdp == NULL) {
errnum = errno;
idmapdlog(LOG_WARNING,
"%s: getpwnam_r(%s) failed (%s).",
me, name, errnum ? strerror(errnum) : "not found");
if (errnum == 0)
return (IDMAP_ERR_NOTFOUND);
else
return (IDMAP_ERR_INTERNAL);
}
id->idmap_id_u.uid = pwd.pw_uid;
break;
case IDMAP_GID:
grpp = getgrnam_r(name, &grp, buf, sizeof (buf));
if (grpp == NULL && errno == 0 && lower_name != NULL &&
name != lower_name && strcmp(name, lower_name) != 0)
grpp = getgrnam_r(lower_name, &grp, buf, sizeof (buf));
if (grpp == NULL) {
errnum = errno;
idmapdlog(LOG_WARNING,
"%s: getgrnam_r(%s) failed (%s).",
me, name, errnum ? strerror(errnum) : "not found");
if (errnum == 0)
return (IDMAP_ERR_NOTFOUND);
else
return (IDMAP_ERR_INTERNAL);
}
id->idmap_id_u.gid = grp.gr_gid;
break;
default:
return (IDMAP_ERR_ARG);
}
return (IDMAP_SUCCESS);
}
/*
* Name service lookup by pid to get unixname
*/
static
idmap_retcode
ns_lookup_bypid(uid_t pid, int is_user, char **unixname)
{
struct passwd pwd;
struct group grp;
char buf[1024];
int errnum;
const char *me = "ns_lookup_bypid";
if (is_user) {
errno = 0;
if (getpwuid_r(pid, &pwd, buf, sizeof (buf)) == NULL) {
errnum = errno;
idmapdlog(LOG_WARNING,
"%s: getpwuid_r(%u) failed (%s).",
me, pid, errnum ? strerror(errnum) : "not found");
if (errnum == 0)
return (IDMAP_ERR_NOTFOUND);
else
return (IDMAP_ERR_INTERNAL);
}
*unixname = strdup(pwd.pw_name);
} else {
errno = 0;
if (getgrgid_r(pid, &grp, buf, sizeof (buf)) == NULL) {
errnum = errno;
idmapdlog(LOG_WARNING,
"%s: getgrgid_r(%u) failed (%s).",
me, pid, errnum ? strerror(errnum) : "not found");
if (errnum == 0)
return (IDMAP_ERR_NOTFOUND);
else
return (IDMAP_ERR_INTERNAL);
}
*unixname = strdup(grp.gr_name);
}
if (*unixname == NULL)
return (IDMAP_ERR_MEMORY);
return (IDMAP_SUCCESS);
}
/*
* Name-based mapping
*
* Case 1: If no rule matches do ephemeral
*
* Case 2: If rule matches and unixname is "" then return no mapping.
*
* Case 3: If rule matches and unixname is specified then lookup name
* service using the unixname. If unixname not found then return no mapping.
*
* Case 4: If rule matches and unixname is * then lookup name service
* using winname as the unixname. If unixname not found then process
* other rules using the lookup order. If no other rule matches then do
* ephemeral. Otherwise, based on the matched rule do Case 2 or 3 or 4.
* This allows us to specify a fallback unixname per _domain_ or no mapping
* instead of the default behaviour of doing ephemeral mapping.
*
* Example 1:
* *@sfbay == *
* If looking up windows users foo@sfbay and foo does not exists in
* the name service then foo@sfbay will be mapped to an ephemeral id.
*
* Example 2:
* *@sfbay == *
* *@sfbay => guest
* If looking up windows users foo@sfbay and foo does not exists in
* the name service then foo@sfbay will be mapped to guest.
*
* Example 3:
* *@sfbay == *
* *@sfbay => ""
* If looking up windows users foo@sfbay and foo does not exists in
* the name service then we will return no mapping for foo@sfbay.
*
*/
static
idmap_retcode
name_based_mapping_sid2pid(sqlite *db, idmap_mapping *req, idmap_id_res *res)
{
const char *unixname, *windomain;
char *sql = NULL, *errmsg = NULL, *lower_winname = NULL;
idmap_retcode retcode;
char *end, *lower_unixname, *winname;
const char **values;
sqlite_vm *vm = NULL;
int ncol, r, i, is_user, is_wuser;
const char *me = "name_based_mapping_sid2pid";
assert(req->id1name != NULL); /* We have winname */
assert(req->id2name == NULL); /* We don't have unixname */
winname = req->id1name;
windomain = req->id1domain;
switch (req->id1.idtype) {
case IDMAP_USID:
is_wuser = 1;
break;
case IDMAP_GSID:
is_wuser = 0;
break;
default:
idmapdlog(LOG_ERR, "%s: Unable to determine if the "
"given Windows id is user or group.", me);
return (IDMAP_ERR_INTERNAL);
}
switch (res->id.idtype) {
case IDMAP_UID:
is_user = 1;
break;
case IDMAP_GID:
is_user = 0;
break;
case IDMAP_POSIXID:
is_user = is_wuser;
res->id.idtype = is_user ? IDMAP_UID : IDMAP_GID;
break;
}
i = 0;
if (windomain == NULL) {
windomain = "";
} else {
RDLOCK_CONFIG();
if (_idmapdstate.cfg->pgcfg.default_domain != NULL) {
if (strcasecmp(_idmapdstate.cfg->pgcfg.default_domain,
windomain) == 0)
i = 1;
}
UNLOCK_CONFIG();
}
if ((lower_winname = tolower_u8(winname)) == NULL)
lower_winname = winname; /* hope for the best */
sql = sqlite_mprintf(
"SELECT unixname, u2w_order FROM namerules WHERE "
"w2u_order > 0 AND is_user = %d AND is_wuser = %d AND "
"(winname = %Q OR winname = '*') AND "
"(windomain = %Q OR windomain = '*' %s) "
"ORDER BY w2u_order ASC;",
is_user, is_wuser, lower_winname, windomain,
i ? "OR windomain ISNULL OR windomain = ''" : "");
if (sql == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
if (sqlite_compile(db, sql, NULL, &vm, &errmsg) != SQLITE_OK) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "%s: database error (%s)", me,
CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
goto out;
}
for (; ; ) {
r = sqlite_step(vm, &ncol, &values, NULL);
assert(r != SQLITE_LOCKED && r != SQLITE_BUSY);
if (r == SQLITE_ROW) {
if (ncol < 2) {
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
if (values[0] == NULL) {
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
if (EMPTY_NAME(values[0])) {
retcode = IDMAP_ERR_NOMAPPING;
goto out;
}
unixname = (values[0][0] == '*') ? winname : values[0];
lower_unixname = (values[0][0] == '*') ?
lower_winname : NULL;
retcode = ns_lookup_byname(unixname, lower_unixname,
&res->id);
if (retcode == IDMAP_ERR_NOTFOUND) {
if (unixname == winname)
/* Case 4 */
continue;
else
/* Case 3 */
retcode = IDMAP_ERR_NOMAPPING;
}
goto out;
} else if (r == SQLITE_DONE) {
retcode = IDMAP_ERR_NOTFOUND;
goto out;
} else {
(void) sqlite_finalize(vm, &errmsg);
vm = NULL;
idmapdlog(LOG_ERR, "%s: database error (%s)", me,
CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
}
out:
sqlite_freemem(sql);
if (retcode == IDMAP_SUCCESS) {
if (values[1] != NULL)
res->direction =
(strtol(values[1], &end, 10) == 0)?
IDMAP_DIRECTION_W2U:IDMAP_DIRECTION_BI;
else
res->direction = IDMAP_DIRECTION_W2U;
req->id2name = strdup(unixname);
}
if (lower_winname != NULL && lower_winname != winname)
free(lower_winname);
if (vm != NULL)
(void) sqlite_finalize(vm, NULL);
return (retcode);
}
static
int
get_next_eph_uid(uid_t *next_uid)
{
uid_t uid;
gid_t gid;
int err;
*next_uid = (uid_t)-1;
uid = _idmapdstate.next_uid++;
if (uid >= _idmapdstate.limit_uid) {
if ((err = allocids(0, 8192, &uid, 0, &gid)) != 0)
return (err);
_idmapdstate.limit_uid = uid + 8192;
_idmapdstate.next_uid = uid;
}
*next_uid = uid;
return (0);
}
static
int
get_next_eph_gid(gid_t *next_gid)
{
uid_t uid;
gid_t gid;
int err;
*next_gid = (uid_t)-1;
gid = _idmapdstate.next_gid++;
if (gid >= _idmapdstate.limit_gid) {
if ((err = allocids(0, 0, &uid, 8192, &gid)) != 0)
return (err);
_idmapdstate.limit_gid = gid + 8192;
_idmapdstate.next_gid = gid;
}
*next_gid = gid;
return (0);
}
static
int
gethash(const char *str, uint32_t num, uint_t htsize)
{
uint_t hval, i, len;
if (str == NULL)
return (0);
for (len = strlen(str), hval = 0, i = 0; i < len; i++) {
hval += str[i];
hval += (hval << 10);
hval ^= (hval >> 6);
}
for (str = (const char *)&num, i = 0; i < sizeof (num); i++) {
hval += str[i];
hval += (hval << 10);
hval ^= (hval >> 6);
}
hval += (hval << 3);
hval ^= (hval >> 11);
hval += (hval << 15);
return (hval % htsize);
}
static
int
get_from_sid_history(lookup_state_t *state, const char *prefix, uint32_t rid,
uid_t *pid)
{
uint_t next, key;
uint_t htsize = state->sid_history_size;
idmap_sid *sid;
next = gethash(prefix, rid, htsize);
while (next != htsize) {
key = state->sid_history[next].key;
if (key == htsize)
return (0);
sid = &state->batch->idmap_mapping_batch_val[key].id1.
idmap_id_u.sid;
if (sid->rid == rid && strcmp(sid->prefix, prefix) == 0) {
*pid = state->result->ids.ids_val[key].id.
idmap_id_u.uid;
return (1);
}
next = state->sid_history[next].next;
}
return (0);
}
static
void
add_to_sid_history(lookup_state_t *state, const char *prefix, uint32_t rid)
{
uint_t hash, next;
uint_t htsize = state->sid_history_size;
hash = next = gethash(prefix, rid, htsize);
while (state->sid_history[next].key != htsize) {
next++;
next %= htsize;
}
state->sid_history[next].key = state->curpos;
if (hash == next)
return;
state->sid_history[next].next = state->sid_history[hash].next;
state->sid_history[hash].next = next;
}
void
cleanup_lookup_state(lookup_state_t *state)
{
free(state->sid_history);
free(state->ad_unixuser_attr);
free(state->ad_unixgroup_attr);
}
/* ARGSUSED */
static
idmap_retcode
dynamic_ephemeral_mapping(lookup_state_t *state, sqlite *cache,
idmap_mapping *req, idmap_id_res *res)
{
uid_t next_pid;
res->direction = IDMAP_DIRECTION_BI;
if (IS_EPHEMERAL(res->id.idmap_id_u.uid))
return (IDMAP_SUCCESS);
if (state->sid_history != NULL &&
get_from_sid_history(state, req->id1.idmap_id_u.sid.prefix,
req->id1.idmap_id_u.sid.rid, &next_pid)) {
res->id.idmap_id_u.uid = next_pid;
return (IDMAP_SUCCESS);
}
if (res->id.idtype == IDMAP_UID) {
if (get_next_eph_uid(&next_pid) != 0)
return (IDMAP_ERR_INTERNAL);
res->id.idmap_id_u.uid = next_pid;
} else {
if (get_next_eph_gid(&next_pid) != 0)
return (IDMAP_ERR_INTERNAL);
res->id.idmap_id_u.gid = next_pid;
}
if (state->sid_history != NULL)
add_to_sid_history(state, req->id1.idmap_id_u.sid.prefix,
req->id1.idmap_id_u.sid.rid);
return (IDMAP_SUCCESS);
}
idmap_retcode
sid2pid_second_pass(lookup_state_t *state, sqlite *cache, sqlite *db,
idmap_mapping *req, idmap_id_res *res)
{
idmap_retcode retcode;
/* Check if second pass is needed */
if (ARE_WE_DONE(req->direction))
return (res->retcode);
/* Get status from previous pass */
retcode = res->retcode;
if (retcode != IDMAP_SUCCESS)
goto out;
/*
* If directory-based name mapping is enabled then the unixname
* may already have been retrieved from the AD object (AD-mode or
* mixed-mode) or from native LDAP object (nldap-mode) -- done.
*/
if (req->id2name != NULL) {
assert(res->id.idtype != IDMAP_POSIXID);
if (AD_MODE(res->id.idtype, state))
res->direction = IDMAP_DIRECTION_BI;
else if (NLDAP_MODE(res->id.idtype, state))
res->direction = IDMAP_DIRECTION_BI;
else if (MIXED_MODE(res->id.idtype, state))
res->direction = IDMAP_DIRECTION_W2U;
/*
* Special case: (1) If the ad_unixuser_attr and
* ad_unixgroup_attr uses the same attribute
* name and (2) if this is a diagonal mapping
* request and (3) the unixname has been retrieved
* from the AD object -- then we ignore it and fallback
* to name-based mapping rules and ephemeral mapping
*
* Example:
* Properties:
* config/ad_unixuser_attr = "unixname"
* config/ad_unixgroup_attr = "unixname"
* AD user object:
* dn: cn=bob ...
* objectclass: user
* sam: bob
* unixname: bob1234
* AD group object:
* dn: cn=winadmins ...
* objectclass: group
* sam: winadmins
* unixname: unixadmins
*
* In this example whether "unixname" refers to a unixuser
* or unixgroup depends upon the AD object.
*
* $idmap show -c winname:bob gid
* AD lookup by "samAccountName=bob" for
* "ad_unixgroup_attr (i.e unixname)" for directory-based
* mapping would get "bob1234" which is not what we want.
* Now why not getgrnam_r("bob1234") and use it if it
* is indeed a unixgroup? That's because Unix can have
* users and groups with the same name and we clearly
* don't know the intention of the admin here.
* Therefore we ignore this and fallback to name-based
* mapping rules or ephemeral mapping.
*/
if ((AD_MODE(res->id.idtype, state) ||
MIXED_MODE(res->id.idtype, state)) &&
state->ad_unixuser_attr != NULL &&
state->ad_unixgroup_attr != NULL &&
strcasecmp(state->ad_unixuser_attr,
state->ad_unixgroup_attr) == 0 &&
((req->id1.idtype == IDMAP_USID &&
res->id.idtype == IDMAP_GID) ||
(req->id1.idtype == IDMAP_GSID &&
res->id.idtype == IDMAP_UID))) {
free(req->id2name);
req->id2name = NULL;
res->id.idmap_id_u.uid = SENTINEL_PID;
/* fallback */
} else {
if (res->id.idmap_id_u.uid == SENTINEL_PID)
retcode = ns_lookup_byname(req->id2name,
NULL, &res->id);
/*
* We don't fallback to name-based mapping rules
* or ephemeral mapping.
*/
goto out;
}
}
/*
* If we don't have unixname then evaluate local name-based
* mapping rules.
*/
retcode = name_based_mapping_sid2pid(db, req, res);
if (retcode != IDMAP_ERR_NOTFOUND)
goto out;
/* If not found, do ephemeral mapping */
retcode = dynamic_ephemeral_mapping(state, cache, req, res);
out:
res->retcode = idmap_stat4prot(retcode);
if (res->retcode != IDMAP_SUCCESS) {
req->direction = _IDMAP_F_DONE;
res->id.idmap_id_u.uid = UID_NOBODY;
}
if (!ARE_WE_DONE(req->direction))
state->sid2pid_done = FALSE;
return (retcode);
}
idmap_retcode
update_cache_pid2sid(lookup_state_t *state, sqlite *cache,
idmap_mapping *req, idmap_id_res *res)
{
char *sql = NULL;
idmap_retcode retcode;
/* Check if we need to cache anything */
if (ARE_WE_DONE(req->direction))
return (IDMAP_SUCCESS);
/* We don't cache negative entries */
if (res->retcode != IDMAP_SUCCESS)
return (IDMAP_SUCCESS);
assert(res->direction != IDMAP_DIRECTION_UNDEF);
/*
* Using NULL for u2w instead of 0 so that our trigger allows
* the same pid to be the destination in multiple entries
*/
sql = sqlite_mprintf("INSERT OR REPLACE into idmap_cache "
"(sidprefix, rid, windomain, canon_winname, pid, unixname, "
"is_user, is_wuser, expiration, w2u, u2w) "
"VALUES(%Q, %u, %Q, %Q, %u, %Q, %d, %d, "
"strftime('%%s','now') + 600, %q, 1); ",
res->id.idmap_id_u.sid.prefix, res->id.idmap_id_u.sid.rid,
req->id2domain, req->id2name, req->id1.idmap_id_u.uid,
req->id1name, (req->id1.idtype == IDMAP_UID) ? 1 : 0,
(res->id.idtype == IDMAP_USID) ? 1 : 0,
(res->direction == 0) ? "1" : NULL);
if (sql == NULL) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
retcode = sql_exec_no_cb(cache, sql);
if (retcode != IDMAP_SUCCESS)
goto out;
state->pid2sid_done = FALSE;
sqlite_freemem(sql);
sql = NULL;
/* Check if we need to update namecache */
if (req->direction & _IDMAP_F_DONT_UPDATE_NAMECACHE)
goto out;
if (req->id2name == NULL)
goto out;
sql = sqlite_mprintf("INSERT OR REPLACE into name_cache "
"(sidprefix, rid, canon_name, domain, type, expiration) "
"VALUES(%Q, %u, %Q, %Q, %d, strftime('%%s','now') + 3600); ",
res->id.idmap_id_u.sid.prefix, res->id.idmap_id_u.sid.rid,
req->id2name, req->id2domain,
(res->id.idtype == IDMAP_USID) ? _IDMAP_T_USER : _IDMAP_T_GROUP);
if (sql == NULL) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
retcode = sql_exec_no_cb(cache, sql);
out:
if (sql != NULL)
sqlite_freemem(sql);
return (retcode);
}
idmap_retcode
update_cache_sid2pid(lookup_state_t *state, sqlite *cache,
idmap_mapping *req, idmap_id_res *res)
{
char *sql = NULL;
idmap_retcode retcode;
int is_eph_user;
/* Check if we need to cache anything */
if (ARE_WE_DONE(req->direction))
return (IDMAP_SUCCESS);
/* We don't cache negative entries */
if (res->retcode != IDMAP_SUCCESS)
return (IDMAP_SUCCESS);
if (req->direction & _IDMAP_F_EXP_EPH_UID)
is_eph_user = 1;
else if (req->direction & _IDMAP_F_EXP_EPH_GID)
is_eph_user = 0;
else
is_eph_user = -1;
if (is_eph_user >= 0 && !IS_EPHEMERAL(res->id.idmap_id_u.uid)) {
sql = sqlite_mprintf("UPDATE idmap_cache "
"SET w2u = 0 WHERE "
"sidprefix = %Q AND rid = %u AND w2u = 1 AND "
"pid >= 2147483648 AND is_user = %d;",
req->id1.idmap_id_u.sid.prefix,
req->id1.idmap_id_u.sid.rid,
is_eph_user);
if (sql == NULL) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
retcode = sql_exec_no_cb(cache, sql);
if (retcode != IDMAP_SUCCESS)
goto out;
sqlite_freemem(sql);
sql = NULL;
}
assert(res->direction != IDMAP_DIRECTION_UNDEF);
sql = sqlite_mprintf("INSERT OR REPLACE into idmap_cache "
"(sidprefix, rid, windomain, canon_winname, pid, unixname, "
"is_user, is_wuser, expiration, w2u, u2w) "
"VALUES(%Q, %u, %Q, %Q, %u, %Q, %d, %d, "
"strftime('%%s','now') + 600, 1, %q); ",
req->id1.idmap_id_u.sid.prefix, req->id1.idmap_id_u.sid.rid,
(req->id1domain != NULL) ? req->id1domain : "", req->id1name,
res->id.idmap_id_u.uid, req->id2name,
(res->id.idtype == IDMAP_UID) ? 1 : 0,
(req->id1.idtype == IDMAP_USID) ? 1 : 0,
(res->direction == 0) ? "1" : NULL);
if (sql == NULL) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
retcode = sql_exec_no_cb(cache, sql);
if (retcode != IDMAP_SUCCESS)
goto out;
state->sid2pid_done = FALSE;
sqlite_freemem(sql);
sql = NULL;
/* Check if we need to update namecache */
if (req->direction & _IDMAP_F_DONT_UPDATE_NAMECACHE)
goto out;
if (EMPTY_STRING(req->id1name))
goto out;
sql = sqlite_mprintf("INSERT OR REPLACE into name_cache "
"(sidprefix, rid, canon_name, domain, type, expiration) "
"VALUES(%Q, %u, %Q, %Q, %d, strftime('%%s','now') + 3600); ",
req->id1.idmap_id_u.sid.prefix, req->id1.idmap_id_u.sid.rid,
req->id1name, req->id1domain,
(req->id1.idtype == IDMAP_USID) ? _IDMAP_T_USER : _IDMAP_T_GROUP);
if (sql == NULL) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "Out of memory");
goto out;
}
retcode = sql_exec_no_cb(cache, sql);
out:
if (sql != NULL)
sqlite_freemem(sql);
return (retcode);
}
static
idmap_retcode
lookup_cache_pid2sid(sqlite *cache, idmap_mapping *req, idmap_id_res *res,
int is_user, int getname)
{
char *end;
char *sql = NULL;
const char **values;
sqlite_vm *vm = NULL;
int ncol;
idmap_retcode retcode = IDMAP_SUCCESS;
time_t curtime;
idmap_id_type idtype;
/* Current time */
errno = 0;
if ((curtime = time(NULL)) == (time_t)-1) {
idmapdlog(LOG_ERR, "Failed to get current time (%s)",
strerror(errno));
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
/* SQL to lookup the cache by pid or by unixname */
if (req->id1.idmap_id_u.uid != SENTINEL_PID) {
sql = sqlite_mprintf("SELECT sidprefix, rid, canon_winname, "
"windomain, w2u, is_wuser "
"FROM idmap_cache WHERE "
"pid = %u AND u2w = 1 AND is_user = %d AND "
"(pid >= 2147483648 OR "
"(expiration = 0 OR expiration ISNULL OR "
"expiration > %d));",
req->id1.idmap_id_u.uid, is_user, curtime);
} else if (req->id1name != NULL) {
sql = sqlite_mprintf("SELECT sidprefix, rid, canon_winname, "
"windomain, w2u, is_wuser "
"FROM idmap_cache WHERE "
"unixname = %Q AND u2w = 1 AND is_user = %d AND "
"(pid >= 2147483648 OR "
"(expiration = 0 OR expiration ISNULL OR "
"expiration > %d));",
req->id1name, is_user, curtime);
}
if (sql == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
retcode = sql_compile_n_step_once(cache, sql, &vm, &ncol, 5, &values);
sqlite_freemem(sql);
if (retcode == IDMAP_ERR_NOTFOUND)
goto out;
else if (retcode == IDMAP_SUCCESS) {
/* sanity checks */
if (values[0] == NULL || values[1] == NULL) {
retcode = IDMAP_ERR_CACHE;
goto out;
}
switch (res->id.idtype) {
case IDMAP_SID:
case IDMAP_USID:
case IDMAP_GSID:
idtype = strtol(values[5], &end, 10) == 1
? IDMAP_USID : IDMAP_GSID;
if (res->id.idtype == IDMAP_USID &&
idtype != IDMAP_USID) {
retcode = IDMAP_ERR_NOTUSER;
goto out;
} else if (res->id.idtype == IDMAP_GSID &&
idtype != IDMAP_GSID) {
retcode = IDMAP_ERR_NOTGROUP;
goto out;
}
res->id.idtype = idtype;
res->id.idmap_id_u.sid.rid =
strtoul(values[1], &end, 10);
res->id.idmap_id_u.sid.prefix = strdup(values[0]);
if (res->id.idmap_id_u.sid.prefix == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
if (values[4] != NULL)
res->direction =
(strtol(values[4], &end, 10) == 0)?
IDMAP_DIRECTION_U2W:IDMAP_DIRECTION_BI;
else
res->direction = IDMAP_DIRECTION_U2W;
if (getname == 0 || values[2] == NULL)
break;
req->id2name = strdup(values[2]);
if (req->id2name == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
if (values[3] == NULL)
break;
req->id2domain = strdup(values[3]);
if (req->id2domain == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
break;
default:
retcode = IDMAP_ERR_NOTSUPPORTED;
break;
}
}
out:
if (vm != NULL)
(void) sqlite_finalize(vm, NULL);
return (retcode);
}
static
idmap_retcode
lookup_cache_name2sid(sqlite *cache, const char *name, const char *domain,
char **canonname, char **sidprefix, idmap_rid_t *rid, int *type)
{
char *end, *lower_name;
char *sql = NULL;
const char **values;
sqlite_vm *vm = NULL;
int ncol;
time_t curtime;
idmap_retcode retcode = IDMAP_SUCCESS;
/* Get current time */
errno = 0;
if ((curtime = time(NULL)) == (time_t)-1) {
idmapdlog(LOG_ERR, "Failed to get current time (%s)",
strerror(errno));
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
/* SQL to lookup the cache */
if ((lower_name = tolower_u8(name)) == NULL)
lower_name = (char *)name;
sql = sqlite_mprintf("SELECT sidprefix, rid, type, canon_name "
"FROM name_cache WHERE name = %Q AND domain = %Q AND "
"(expiration = 0 OR expiration ISNULL OR "
"expiration > %d);", lower_name, domain, curtime);
if (lower_name != name)
free(lower_name);
if (sql == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
retcode = sql_compile_n_step_once(cache, sql, &vm, &ncol, 4, &values);
sqlite_freemem(sql);
if (retcode == IDMAP_SUCCESS) {
if (type != NULL) {
if (values[2] == NULL) {
retcode = IDMAP_ERR_CACHE;
goto out;
}
*type = strtol(values[2], &end, 10);
}
if (values[0] == NULL || values[1] == NULL) {
retcode = IDMAP_ERR_CACHE;
goto out;
}
if (canonname != NULL) {
assert(values[3] != NULL);
if ((*canonname = strdup(values[3])) == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
}
if ((*sidprefix = strdup(values[0])) == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
if (canonname != NULL) {
free(*canonname);
*canonname = NULL;
}
goto out;
}
*rid = strtoul(values[1], &end, 10);
}
out:
if (vm != NULL)
(void) sqlite_finalize(vm, NULL);
return (retcode);
}
static
idmap_retcode
ad_lookup_by_winname(lookup_state_t *state,
const char *name, const char *domain, int eunixtype,
char **canonname, char **sidprefix,
idmap_rid_t *rid, int *wintype, char **unixname)
{
int retries = 0;
idmap_query_state_t *qs = NULL;
idmap_retcode rc, retcode;
retry:
retcode = idmap_lookup_batch_start(_idmapdstate.ad, 1, &qs);
if (retcode != IDMAP_SUCCESS) {
degrade_svc();
idmapdlog(LOG_ERR,
"Failed to create request for AD lookup by winname");
return (retcode);
}
restore_svc();
if (state != NULL)
idmap_lookup_batch_set_unixattr(qs, state->ad_unixuser_attr,
state->ad_unixgroup_attr);
retcode = idmap_name2sid_batch_add1(qs, name, domain, eunixtype,
canonname, sidprefix, rid, wintype, unixname, &rc);
if (retcode != IDMAP_SUCCESS)
idmap_lookup_release_batch(&qs);
else
retcode = idmap_lookup_batch_end(&qs, NULL);
if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR && retries++ < 2)
goto retry;
else if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR)
degrade_svc();
if (retcode != IDMAP_SUCCESS) {
idmapdlog(LOG_NOTICE, "AD lookup by winname failed");
return (retcode);
}
return (rc);
}
static
idmap_retcode
lookup_name2sid(sqlite *cache, const char *name, const char *domain,
int *is_wuser, char **canonname, char **sidprefix,
idmap_rid_t *rid, idmap_mapping *req)
{
int type;
idmap_retcode retcode;
*sidprefix = NULL;
if (canonname != NULL)
*canonname = NULL;
/* Lookup well-known SIDs table */
retcode = lookup_wksids_name2sid(name, canonname, sidprefix, rid,
&type);
if (retcode == IDMAP_SUCCESS) {
req->direction |= _IDMAP_F_DONT_UPDATE_NAMECACHE;
goto out;
} else if (retcode != IDMAP_ERR_NOTFOUND) {
return (retcode);
}
/* Lookup cache */
retcode = lookup_cache_name2sid(cache, name, domain, canonname,
sidprefix, rid, &type);
if (retcode == IDMAP_SUCCESS) {
req->direction |= _IDMAP_F_DONT_UPDATE_NAMECACHE;
goto out;
} else if (retcode != IDMAP_ERR_NOTFOUND) {
return (retcode);
}
/* Lookup AD */
retcode = ad_lookup_by_winname(NULL, name, domain, _IDMAP_T_UNDEF,
canonname, sidprefix, rid, &type, NULL);
if (retcode != IDMAP_SUCCESS)
return (retcode);
/* Don't need to set req->direction |= _IDMAP_F_LOOKUP_AD; */
out:
/*
* Entry found (cache or Windows lookup)
* is_wuser is both input as well as output parameter
*/
if (*is_wuser == 1 && type != _IDMAP_T_USER)
retcode = IDMAP_ERR_NOTUSER;
else if (*is_wuser == 0 && type != _IDMAP_T_GROUP)
retcode = IDMAP_ERR_NOTGROUP;
else if (*is_wuser == -1) {
/* Caller wants to know if its user or group */
if (type == _IDMAP_T_USER)
*is_wuser = 1;
else if (type == _IDMAP_T_GROUP)
*is_wuser = 0;
else
retcode = IDMAP_ERR_SID;
}
if (retcode != IDMAP_SUCCESS) {
free(*sidprefix);
*sidprefix = NULL;
if (canonname != NULL) {
free(*canonname);
*canonname = NULL;
}
}
return (retcode);
}
static
idmap_retcode
name_based_mapping_pid2sid(sqlite *db, sqlite *cache, const char *unixname,
int is_user, idmap_mapping *req, idmap_id_res *res)
{
const char *winname, *windomain;
char *canonname;
char *default_domain = NULL;
char *sql = NULL, *errmsg = NULL;
idmap_retcode retcode;
char *end;
const char **values;
sqlite_vm *vm = NULL;
int ncol, r, nrow;
int is_wuser;
const char *me = "name_based_mapping_pid2sid";
assert(unixname != NULL); /* We have unixname */
assert(req->id2name == NULL); /* We don't have winname */
assert(res->id.idmap_id_u.sid.prefix == NULL); /* No SID either */
RDLOCK_CONFIG();
if (_idmapdstate.cfg->pgcfg.default_domain != NULL) {
default_domain =
strdup(_idmapdstate.cfg->pgcfg.default_domain);
if (default_domain == NULL) {
UNLOCK_CONFIG();
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
}
UNLOCK_CONFIG();
sql = sqlite_mprintf(
"SELECT winname_display, windomain, w2u_order FROM namerules WHERE "
"u2w_order > 0 AND is_user = %d AND "
"(unixname = %Q OR unixname = '*') "
"ORDER BY u2w_order ASC;", is_user, unixname);
if (sql == NULL) {
idmapdlog(LOG_ERR, "Out of memory");
retcode = IDMAP_ERR_MEMORY;
goto out;
}
if (sqlite_compile(db, sql, NULL, &vm, &errmsg) != SQLITE_OK) {
retcode = IDMAP_ERR_INTERNAL;
idmapdlog(LOG_ERR, "%s: database error (%s)", me,
CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
goto out;
}
for (nrow = 0; ; ) {
r = sqlite_step(vm, &ncol, &values, NULL);
assert(r != SQLITE_LOCKED && r != SQLITE_BUSY);
if (r == SQLITE_ROW) {
nrow++;
if (ncol < 3) {
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
if (values[0] == NULL) {
/* values [1] and [2] can be null */
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
if (EMPTY_NAME(values[0])) {
retcode = IDMAP_ERR_NOMAPPING;
goto out;
}
if (values[0][0] == '*') {
if (nrow > 1) {
/*
* There were non-wildcard rules where
* windows identity doesn't exist
*/
retcode = IDMAP_ERR_NOMAPPING;
goto out;
}
winname = unixname;
} else {
winname = values[0];
}
if (values[1] != NULL)
windomain = values[1];
else if (default_domain != NULL)
windomain = default_domain;
else {
idmapdlog(LOG_ERR, "%s: no domain", me);
retcode = IDMAP_ERR_DOMAIN_NOTFOUND;
goto out;
}
/* Lookup winname@domain to sid */
is_wuser = res->id.idtype == IDMAP_USID ? 1
: res->id.idtype == IDMAP_GSID ? 0
: -1;
retcode = lookup_name2sid(cache, winname, windomain,
&is_wuser, &canonname,
&res->id.idmap_id_u.sid.prefix,
&res->id.idmap_id_u.sid.rid, req);
if (retcode == IDMAP_ERR_NOTFOUND) {
continue;
}
goto out;
} else if (r == SQLITE_DONE) {
retcode = IDMAP_ERR_NOTFOUND;
goto out;
} else {
(void) sqlite_finalize(vm, &errmsg);
vm = NULL;
idmapdlog(LOG_ERR, "%s: database error (%s)", me,
CHECK_NULL(errmsg));
sqlite_freemem(errmsg);
retcode = IDMAP_ERR_INTERNAL;
goto out;
}
}
out:
if (sql != NULL)
sqlite_freemem(sql);
if (retcode == IDMAP_SUCCESS) {
res->id.idtype = is_wuser ? IDMAP_USID : IDMAP_GSID;
if (values[2] != NULL)
res->direction =
(strtol(values[2], &end, 10) == 0)?
IDMAP_DIRECTION_U2W:IDMAP_DIRECTION_BI;
else
res->direction = IDMAP_DIRECTION_U2W;
req->id2name = canonname;
if (req->id2name != NULL) {
if (windomain == default_domain) {
req->id2domain = (char *)windomain;
default_domain = NULL;
} else {
req->id2domain = strdup(windomain);
}
}
}
if (vm != NULL)
(void) sqlite_finalize(vm, NULL);
if (default_domain != NULL)
free(default_domain);
return (retcode);
}
/*
* Convention when processing unix2win requests:
*
* Unix identity:
* req->id1name =
* unixname if given otherwise unixname found will be placed
* here.
* req->id1domain =
* NOT USED
* req->id1.idtype =
* Given type (IDMAP_UID or IDMAP_GID)
* req->id1..[uid or gid] =
* UID/GID if given otherwise UID/GID found will be placed here.
*
* Windows identity:
* req->id2name =
* winname found will be placed here.
* req->id2domain =
* windomain found will be placed here.
* res->id.idtype =
* Target type initialized from req->id2.idtype. If
* it is IDMAP_SID then actual type (IDMAP_USID/GSID) found
* will be placed here.
* req->id..sid.[prefix, rid] =
* SID found will be placed here.
*
* Others:
* res->retcode =
* Return status for this request will be placed here.
* res->direction =
* Direction found will be placed here. Direction
* meaning whether the resultant mapping is valid
* only from unix2win or bi-directional.
* req->direction =
* INTERNAL USE. Used by idmapd to set various
* flags (_IDMAP_F_xxxx) to aid in processing
* of the request.
* req->id2.idtype =
* INTERNAL USE. Initially this is the requested target
* type and is used to initialize res->id.idtype.
* ad_lookup_batch() uses this field temporarily to store
* sid_type obtained by the batched AD lookups and after
* use resets it to IDMAP_NONE to prevent xdr from
* mis-interpreting the contents of req->id2.
* req->id2..[uid or gid or sid] =
* NOT USED
*/
/*
* This function does the following:
* 1. Lookup well-known SIDs table.
* 2. Lookup cache.
* 3. Check if the client does not want new mapping to be allocated
* in which case this pass is the final pass.
* 4. Set AD/NLDAP lookup flags if it determines that the next stage needs
* to do AD/NLDAP lookup.
*/
idmap_retcode
pid2sid_first_pass(lookup_state_t *state, sqlite *cache,
idmap_mapping *req, idmap_id_res *res, int is_user,
int getname)
{
idmap_retcode retcode;
bool_t gen_localsid_on_err = FALSE;
/* Initialize result */
res->id.idtype = req->id2.idtype;
res->direction = IDMAP_DIRECTION_UNDEF;
if (req->id2.idmap_id_u.sid.prefix != NULL) {
/* sanitize sidprefix */
free(req->id2.idmap_id_u.sid.prefix);
req->id2.idmap_id_u.sid.prefix = NULL;
}
/* Lookup well-known SIDs table */
retcode = lookup_wksids_pid2sid(req, res, is_user);
if (retcode != IDMAP_ERR_NOTFOUND)
goto out;
/* Lookup cache */
retcode = lookup_cache_pid2sid(cache, req, res, is_user, getname);
if (retcode != IDMAP_ERR_NOTFOUND)
goto out;
/* Ephemeral ids cannot be allocated during pid2sid */
if (IS_EPHEMERAL(req->id1.idmap_id_u.uid)) {
retcode = IDMAP_ERR_NOMAPPING;
goto out;
}
if (DO_NOT_ALLOC_NEW_ID_MAPPING(req) || AVOID_NAMESERVICE(req)) {
gen_localsid_on_err = TRUE;
retcode = IDMAP_ERR_NOMAPPING;
goto out;
}
/* Set flags for the next stage */
if (AD_MODE(req->id1.idtype, state)) {
/*
* If AD-based name mapping is enabled then the next stage
* will need to lookup AD using unixname to get the
* corresponding winname.
*/
if (req->id1name == NULL) {
/* Get unixname if only pid is given. */
retcode = ns_lookup_bypid(req->id1.idmap_id_u.uid,
is_user, &req->id1name);
if (retcode != IDMAP_SUCCESS)
goto out;
}
req->direction |= _IDMAP_F_LOOKUP_AD;
state->ad_nqueries++;
} else if (NLDAP_OR_MIXED_MODE(req->id1.idtype, state)) {
/*
* If native LDAP or mixed mode is enabled for name mapping
* then the next stage will need to lookup native LDAP using
* unixname/pid to get the corresponding winname.
*/
req->direction |= _IDMAP_F_LOOKUP_NLDAP;
state->nldap_nqueries++;
}
/*
* Failed to find non-expired entry in cache. Set the flag to
* indicate that we are not done yet.
*/
state->pid2sid_done = FALSE;
req->direction |= _IDMAP_F_NOTDONE;
retcode = IDMAP_SUCCESS;
out:
res->retcode = idmap_stat4prot(retcode);
if (ARE_WE_DONE(req->direction) && res->retcode != IDMAP_SUCCESS)
if (gen_localsid_on_err == TRUE)
(void) generate_localsid(req, res, is_user);
return (retcode);
}
idmap_retcode
pid2sid_second_pass(lookup_state_t *state, sqlite *cache, sqlite *db,
idmap_mapping *req, idmap_id_res *res, int is_user)
{
bool_t gen_localsid_on_err = TRUE;
idmap_retcode retcode = IDMAP_SUCCESS;
/* Check if second pass is needed */
if (ARE_WE_DONE(req->direction))
return (res->retcode);
/* Get status from previous pass */
retcode = res->retcode;
if (retcode != IDMAP_SUCCESS)
goto out;
/*
* If directory-based name mapping is enabled then the winname
* may already have been retrieved from the AD object (AD-mode)
* or from native LDAP object (nldap-mode or mixed-mode) -- done.
*/
if (res->id.idmap_id_u.sid.prefix != NULL || req->id2name != NULL) {
if (AD_MODE(req->id1.idtype, state))
res->direction = IDMAP_DIRECTION_BI;
else if (NLDAP_MODE(req->id1.idtype, state))
res->direction = IDMAP_DIRECTION_BI;
else if (MIXED_MODE(req->id1.idtype, state))
res->direction = IDMAP_DIRECTION_W2U;
goto out;
}
if (req->id1name == NULL) {
/* Get unixname from name service */
retcode = ns_lookup_bypid(req->id1.idmap_id_u.uid, is_user,
&req->id1name);
if (retcode != IDMAP_SUCCESS)
goto out;
} else if (req->id1.idmap_id_u.uid == SENTINEL_PID) {
/* Get pid from name service */
retcode = ns_lookup_byname(req->id1name, NULL, &req->id1);
if (retcode != IDMAP_SUCCESS) {
gen_localsid_on_err = FALSE;
goto out;
}
}
/* Use unixname to evaluate local name-based mapping rules */
retcode = name_based_mapping_pid2sid(db, cache, req->id1name, is_user,
req, res);
if (retcode == IDMAP_ERR_NOTFOUND) {
retcode = generate_localsid(req, res, is_user);
gen_localsid_on_err = FALSE;
}
out:
res->retcode = idmap_stat4prot(retcode);
if (res->retcode != IDMAP_SUCCESS) {
req->direction = _IDMAP_F_DONE;
if (gen_localsid_on_err == TRUE)
(void) generate_localsid(req, res, is_user);
}
if (!ARE_WE_DONE(req->direction))
state->pid2sid_done = FALSE;
return (retcode);
}
static
idmap_retcode
ad_lookup_by_sid(lookup_state_t *state,
const char *sidprefix, idmap_rid_t rid, int eunixtype,
char **name, char **domain, int *type, char **unixname)
{
int retries = 0;
idmap_query_state_t *qs = NULL;
idmap_retcode rc, retcode;
retry:
retcode = idmap_lookup_batch_start(_idmapdstate.ad, 1, &qs);
if (retcode != IDMAP_SUCCESS) {
degrade_svc();
idmapdlog(LOG_ERR,
"Failed to create request for AD lookup by SID");
return (retcode);
}
restore_svc();
if (state != NULL)
idmap_lookup_batch_set_unixattr(qs, state->ad_unixuser_attr,
state->ad_unixgroup_attr);
retcode = idmap_sid2name_batch_add1(qs, sidprefix, &rid, eunixtype,
name, domain, type, unixname, &rc);
if (retcode != IDMAP_SUCCESS)
idmap_lookup_release_batch(&qs);
else
retcode = idmap_lookup_batch_end(&qs, NULL);
if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR && retries++ < 2)
goto retry;
else if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR)
degrade_svc();
if (retcode != IDMAP_SUCCESS) {
idmapdlog(LOG_NOTICE, "AD lookup by SID failed");
return (retcode);
}
return (rc);
}
static
int
copy_mapping_request(idmap_mapping *mapping, idmap_mapping *request)
{
(void) memset(mapping, 0, sizeof (*mapping));
mapping->flag = request->flag;
mapping->direction = _IDMAP_F_DONE;
mapping->id2.idtype = request->id2.idtype;
mapping->id1.idtype = request->id1.idtype;
if (IS_REQUEST_SID(*request, 1)) {
mapping->id1.idmap_id_u.sid.rid =
request->id1.idmap_id_u.sid.rid;
if (!EMPTY_STRING(request->id1.idmap_id_u.sid.prefix)) {
mapping->id1.idmap_id_u.sid.prefix =
strdup(request->id1.idmap_id_u.sid.prefix);
if (mapping->id1.idmap_id_u.sid.prefix == NULL)
goto errout;
}
} else {
mapping->id1.idmap_id_u.uid = request->id1.idmap_id_u.uid;
}
if (!EMPTY_STRING(request->id1domain)) {
mapping->id1domain = strdup(request->id1domain);
if (mapping->id1domain == NULL)
goto errout;
}
if (!EMPTY_STRING(request->id1name)) {
mapping->id1name = strdup(request->id1name);
if (mapping->id1name == NULL)
goto errout;
}
/* We don't need the rest of the request i.e request->id2 */
return (0);
errout:
if (mapping->id1.idmap_id_u.sid.prefix != NULL)
free(mapping->id1.idmap_id_u.sid.prefix);
if (mapping->id1domain != NULL)
free(mapping->id1domain);
if (mapping->id1name != NULL)
free(mapping->id1name);
(void) memset(mapping, 0, sizeof (*mapping));
return (-1);
}
idmap_retcode
get_w2u_mapping(sqlite *cache, sqlite *db, idmap_mapping *request,
idmap_mapping *mapping)
{
idmap_id_res idres;
lookup_state_t state;
char *cp;
idmap_retcode retcode;
const char *winname, *windomain;
(void) memset(&idres, 0, sizeof (idres));
(void) memset(&state, 0, sizeof (state));
/* Get directory-based name mapping info */
retcode = get_ds_namemap_type(&state);
if (retcode != IDMAP_SUCCESS)
goto out;
/*
* Copy data from "request" to "mapping". Note that
* empty strings are not copied from "request" to
* "mapping" and therefore the coresponding strings in
* "mapping" will be NULL. This eliminates having to
* check for empty strings henceforth.
*/
if (copy_mapping_request(mapping, request) < 0) {
retcode = IDMAP_ERR_MEMORY;
goto out;
}
winname = mapping->id1name;
windomain = mapping->id1domain;
if (winname == NULL && windomain != NULL) {
retcode = IDMAP_ERR_ARG;
goto out;
}
/* Need atleast winname or sid to proceed */
if (winname == NULL && mapping->id1.idmap_id_u.sid.prefix == NULL) {
retcode = IDMAP_ERR_ARG;
goto out;
}
/*
* If domainname is not given but we have a fully qualified
* winname then extract the domainname from the winname,
* otherwise use the default_domain from the config
*/
if (winname != NULL && windomain == NULL) {
retcode = IDMAP_SUCCESS;
if ((cp = strchr(winname, '@')) != NULL) {
*cp = '\0';
mapping->id1domain = strdup(cp + 1);
if (mapping->id1domain == NULL)
retcode = IDMAP_ERR_MEMORY;
} else if (lookup_wksids_name2sid(winname, NULL, NULL, NULL,
NULL) != IDMAP_SUCCESS) {
/* well-known SIDs don't need domain */
RDLOCK_CONFIG();
if (_idmapdstate.cfg->pgcfg.default_domain != NULL) {
mapping->id1domain =
strdup(_idmapdstate.cfg->
pgcfg.default_domain);
if (mapping->id1domain == NULL)
retcode = IDMAP_ERR_MEMORY;
} else {
retcode = IDMAP_ERR_DOMAIN_NOTFOUND;
}
UNLOCK_CONFIG();
}
if (retcode != IDMAP_SUCCESS)
goto out;
}
/*
* First pass looks up the well-known SIDs table and cache
* and handles localSIDs
*/
state.sid2pid_done = TRUE;
retcode = sid2pid_first_pass(&state, cache, mapping, &idres);
if (IDMAP_ERROR(retcode) || state.sid2pid_done == TRUE)
goto out;
/* AD lookup by winname or by sid */
if (state.ad_nqueries > 0) {
retcode = ad_lookup(&state, mapping, &idres, 1, 1, 0);
if (IDMAP_ERROR(retcode))
goto out;
}
/*
* If nldap-based name mapping is enabled then lookup native LDAP
* directory service by winname to get pid and unixname. Ignore
* non-fatal errors in which case we simply fallback to evaluating
* local name-based mapping rules.
*/
if (mapping->id1name != NULL && NLDAP_MODE(idres.id.idtype, (&state))) {
retcode = nldap_lookup(mapping, &idres, 1, 1);
if (IDMAP_FATAL_ERROR(retcode))
goto out;
idres.retcode = IDMAP_SUCCESS;
}
/* Next pass performs name-based mapping and ephemeral mapping. */
state.sid2pid_done = TRUE;
retcode = sid2pid_second_pass(&state, cache, db, mapping, &idres);
if (IDMAP_ERROR(retcode) || state.sid2pid_done == TRUE)
goto out;
/* Update cache */
(void) update_cache_sid2pid(&state, cache, mapping, &idres);
out:
/*
* Note that "mapping" is returned to the client. Therefore
* copy whatever we have in "idres" to mapping->id2 and
* free idres.
*/
mapping->direction = idres.direction;
mapping->id2 = idres.id;
(void) memset(&idres, 0, sizeof (idres));
if (retcode != IDMAP_SUCCESS)
mapping->id2.idmap_id_u.uid = UID_NOBODY;
xdr_free(xdr_idmap_id_res, (caddr_t)&idres);
cleanup_lookup_state(&state);
return (retcode);
}
idmap_retcode
get_u2w_mapping(sqlite *cache, sqlite *db, idmap_mapping *request,
idmap_mapping *mapping, int is_user)
{
idmap_id_res idres;
lookup_state_t state;
idmap_retcode retcode;
char *canonname;
int is_wuser;
/*
* In order to re-use the pid2sid code, we convert
* our input data into structs that are expected by
* pid2sid_first_pass.
*/
(void) memset(&idres, 0, sizeof (idres));
(void) memset(&state, 0, sizeof (state));
/* Get directory-based name mapping info */
retcode = get_ds_namemap_type(&state);
if (retcode != IDMAP_SUCCESS)
goto out;
/*
* Copy data from "request" to "mapping". Note that
* empty strings are not copied from "request" to
* "mapping" and therefore the coresponding strings in
* "mapping" will be NULL. This eliminates having to
* check for empty strings henceforth.
*/
if (copy_mapping_request(mapping, request) < 0) {
retcode = IDMAP_ERR_MEMORY;
goto out;
}
/*
* For unix to windows mapping request, we need atleast a
* unixname or uid/gid to proceed
*/
if (mapping->id1name == NULL &&
mapping->id1.idmap_id_u.uid == SENTINEL_PID) {
retcode = IDMAP_ERR_ARG;
goto out;
}
/* First pass looks up cache and well-known SIDs */
state.pid2sid_done = TRUE;
retcode = pid2sid_first_pass(&state, cache, mapping, &idres,
is_user, 1);
if (IDMAP_ERROR(retcode) || state.pid2sid_done == TRUE)
goto out;
if (state.nldap_nqueries > 0) {
/*
* This means directory-based name mapping (nldap or mixed
* mode) is enabled. Lookup native LDAP directory service
* by unixname or pid to get the winname. Ignore non-fatal
* errors in which case we simply fallback to local name
* based mapping rules.
*/
retcode = nldap_lookup(mapping, &idres, 0, 0);
if (IDMAP_FATAL_ERROR(retcode))
goto out;
idres.retcode = IDMAP_SUCCESS;
/*
* If we've winname then get SID. We use lookup_name2sid()
* instead of ad_lookup() in order to first resolve name2sid
* using well-known SIDs table and name_cache before trying
* AD.
*/
if (mapping->id2name != NULL) {
canonname = NULL;
is_wuser = -1;
retcode = lookup_name2sid(cache, mapping->id2name,
mapping->id2domain, &is_wuser, &canonname,
&idres.id.idmap_id_u.sid.prefix,
&idres.id.idmap_id_u.sid.rid, mapping);
if (canonname != NULL) {
free(mapping->id2name);
mapping->id2name = canonname;
}
if (retcode == IDMAP_SUCCESS)
idres.id.idtype = is_wuser ? IDMAP_USID :
IDMAP_GSID;
idres.retcode = retcode;
}
} else if (state.ad_nqueries > 0) {
/*
* This means AD-based name mapping is enabled.
* Lookup AD by unixname to get winname and sid.
* Ignore non-fatal errors in which case we simply fallback
* to local name based mapping rules.
*/
retcode = ad_lookup(&state, mapping, &idres, 0, 0, 1);
if (IDMAP_FATAL_ERROR(retcode))
goto out;
idres.retcode = IDMAP_SUCCESS;
}
/*
* Next pass processes the result of the preceding passes/lookups.
* It returns if there's nothing more to be done otherwise it
* evaluates local name-based mapping rules
*/
state.pid2sid_done = TRUE;
retcode = pid2sid_second_pass(&state, cache, db, mapping, &idres,
is_user);
if (IDMAP_ERROR(retcode) || state.pid2sid_done == TRUE)
goto out;
/* Update cache */
(void) update_cache_pid2sid(&state, cache, mapping, &idres);
out:
/*
* Note that "mapping" is returned to the client. Therefore
* copy whatever we have in "idres" to mapping->id2 and
* free idres.
*/
mapping->direction = idres.direction;
mapping->id2 = idres.id;
(void) memset(&idres, 0, sizeof (idres));
xdr_free(xdr_idmap_id_res, (caddr_t)&idres);
cleanup_lookup_state(&state);
return (retcode);
}
static
idmap_retcode
ad_lookup_by_unixname(lookup_state_t *state,
const char *unixname, int is_user, int is_wuser,
char **sidprefix, idmap_rid_t *rid, char **winname,
char **domain, int *type)
{
/* Lookup AD by unixname */
int retries = 0;
idmap_query_state_t *qs = NULL;
idmap_retcode rc, retcode;
retry:
retcode = idmap_lookup_batch_start(_idmapdstate.ad, 1, &qs);
if (retcode != IDMAP_SUCCESS) {
degrade_svc();
idmapdlog(LOG_ERR,
"Failed to create request for AD lookup by unixname");
return (IDMAP_ERR_INTERNAL);
}
restore_svc();
if (state != NULL)
idmap_lookup_batch_set_unixattr(qs, state->ad_unixuser_attr,
state->ad_unixgroup_attr);
retcode = idmap_unixname2sid_batch_add1(qs, unixname, is_user,
is_wuser, sidprefix, rid, winname, domain, type, &rc);
if (retcode != IDMAP_SUCCESS)
idmap_lookup_release_batch(&qs);
else
retcode = idmap_lookup_batch_end(&qs, NULL);
if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR && retries++ < 2)
goto retry;
else if (retcode == IDMAP_ERR_RETRIABLE_NET_ERR)
degrade_svc();
if (retcode != IDMAP_SUCCESS) {
idmapdlog(LOG_NOTICE, "AD lookup by unixname failed");
return (retcode);
}
return (rc);
}
/*
* This function is called whenever a non-batched AD lookup needs to be
* done (e.g. get_w2u_mapping() and get_u2w_mapping()). It's already
* determined by the caller before calling this function that AD lookup is
* needed and has already searched the well-known SIDs table and name_cache.
*/
static
idmap_retcode
ad_lookup(lookup_state_t *state, idmap_mapping *req, idmap_id_res *res,
int w2u, int getunixattr, int byunixattr)
{
idmap_retcode retcode;
int type, eunixtype, is_user, is_wuser;
char *canonname = NULL;
if (w2u) {
/*
* win2unix lookup requests (get_w2u_mapping()) calls this
* function to lookup by sid OR winname and to retrieve
* SID, winname, sidtype (user or group) and unixnames
* from AD.
*/
/* Set the expected unixtype */
if (res->id.idtype == IDMAP_UID)
eunixtype = _IDMAP_T_USER;
else if (res->id.idtype == IDMAP_GID)
eunixtype = _IDMAP_T_GROUP;
else
eunixtype = _IDMAP_T_UNDEF;
if (req->id1.idmap_id_u.sid.prefix != NULL) {
/* AD lookup by sid */
retcode = ad_lookup_by_sid(
state, req->id1.idmap_id_u.sid.prefix,
req->id1.idmap_id_u.sid.rid, eunixtype,
(req->id1name == NULL) ? &req->id1name : NULL,
(req->id1domain == NULL) ? &req->id1domain : NULL,
&type, (getunixattr && req->id2name == NULL)
? &req->id2name : NULL);
} else {
assert(req->id1name != NULL);
/* AD lookup by winname */
retcode = ad_lookup_by_winname(
state, req->id1name, req->id1domain, eunixtype,
&canonname, &req->id1.idmap_id_u.sid.prefix,
&req->id1.idmap_id_u.sid.rid, &type,
(getunixattr && req->id2name == NULL)
? &req->id2name : NULL);
if (canonname != NULL) {
free(req->id1name);
req->id1name = canonname;
}
}
if (retcode == IDMAP_SUCCESS) {
switch (type) {
case _IDMAP_T_USER:
if (res->id.idtype == IDMAP_POSIXID)
res->id.idtype = IDMAP_UID;
req->id1.idtype = IDMAP_USID;
break;
case _IDMAP_T_GROUP:
if (res->id.idtype == IDMAP_POSIXID)
res->id.idtype = IDMAP_GID;
req->id1.idtype = IDMAP_GSID;
break;
default:
return (IDMAP_ERR_SID);
}
}
return (retcode);
}
/*
* unix2win lookup requests (get_u2w_mapping()) calls this
* function to lookup AD by unixname and to retrieve
* SID, winname, and sidtype (user or group) from AD.
*/
/* Set the expected unixtype */
eunixtype = (req->id1.idtype == IDMAP_UID) ? _IDMAP_T_USER :
_IDMAP_T_GROUP;
if (byunixattr) {
/* AD lookup by unixname */
is_user = (IS_REQUEST_UID(*req)) ? 1 : 0;
if (res->id.idtype == IDMAP_USID)
is_wuser = 1;
else if (res->id.idtype == IDMAP_GSID)
is_wuser = 0;
else
is_wuser = is_user;
retcode = ad_lookup_by_unixname(
state, req->id1name, is_user, is_wuser,
(res->id.idmap_id_u.sid.prefix == NULL) ?
&res->id.idmap_id_u.sid.prefix : NULL,
(res->id.idmap_id_u.sid.prefix == NULL) ?
&res->id.idmap_id_u.sid.rid : NULL,
(req->id2name == NULL) ? &req->id2name : NULL,
(req->id2domain == NULL) ? &req->id2domain : NULL, NULL);
} else if (res->id.idmap_id_u.sid.prefix != NULL) {
/* AD lookup by sid */
retcode = ad_lookup_by_sid(
state, res->id.idmap_id_u.sid.prefix,
res->id.idmap_id_u.sid.rid, eunixtype,
(req->id2name == NULL) ? &req->id2name : NULL,
(req->id2domain == NULL) ? &req->id2domain : NULL,
NULL, (getunixattr && req->id1name == NULL)
? &req->id1name : NULL);
} else {
/* AD lookup by winname */
assert(req->id2name != NULL);
retcode = ad_lookup_by_winname(
state, req->id2name, req->id2domain, eunixtype,
&canonname, &res->id.idmap_id_u.sid.prefix,
&res->id.idmap_id_u.sid.rid, NULL,
(getunixattr && req->id1name == NULL)
? &req->id1name : NULL);
if (canonname != NULL) {
free(req->id2name);
req->id2name = canonname;
}
}
if (retcode == IDMAP_SUCCESS) {
switch (type) {
case _IDMAP_T_USER:
if (res->id.idtype == IDMAP_SID)
res->id.idtype = IDMAP_USID;
break;
case _IDMAP_T_GROUP:
if (res->id.idtype == IDMAP_SID)
res->id.idtype = IDMAP_GSID;
break;
default:
return (IDMAP_ERR_SID);
}
}
return (retcode);
}