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|
/*
Unix SMB/CIFS implementation.
Samba utility functions
Copyright (C) Andrew Tridgell 2004
Copyright (C) Volker Lendecke 2004
Copyright (C) Andrew Bartlett <abartlet@samba.org> 2006
Copyright (C) Jelmer Vernooij <jelmer@samba.org> 2007
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "includes.h"
#include "events/events.h"
#include "ldb.h"
#include "ldb_errors.h"
#include "../lib/util/util_ldb.h"
#include "../lib/crypto/crypto.h"
#include "dsdb/samdb/samdb.h"
#include "libcli/security/security.h"
#include "librpc/gen_ndr/ndr_security.h"
#include "librpc/gen_ndr/ndr_misc.h"
#include "../libds/common/flags.h"
#include "dsdb/common/proto.h"
#include "libcli/ldap/ldap_ndr.h"
#include "param/param.h"
#include "libcli/auth/libcli_auth.h"
#include "librpc/gen_ndr/ndr_drsblobs.h"
#include "system/locale.h"
/*
search the sam for the specified attributes in a specific domain, filter on
objectSid being in domain_sid.
*/
int samdb_search_domain(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *basedn,
struct ldb_message ***res,
const char * const *attrs,
const struct dom_sid *domain_sid,
const char *format, ...) _PRINTF_ATTRIBUTE(7,8)
{
va_list ap;
int i, count;
va_start(ap, format);
count = gendb_search_v(sam_ldb, mem_ctx, basedn,
res, attrs, format, ap);
va_end(ap);
i=0;
while (i<count) {
struct dom_sid *entry_sid;
entry_sid = samdb_result_dom_sid(mem_ctx, (*res)[i], "objectSid");
if ((entry_sid == NULL) ||
(!dom_sid_in_domain(domain_sid, entry_sid))) {
/* Delete that entry from the result set */
(*res)[i] = (*res)[count-1];
count -= 1;
talloc_free(entry_sid);
continue;
}
talloc_free(entry_sid);
i += 1;
}
return count;
}
/*
search the sam for a single string attribute in exactly 1 record
*/
const char *samdb_search_string_v(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *basedn,
const char *attr_name,
const char *format, va_list ap) _PRINTF_ATTRIBUTE(5,0)
{
int count;
const char *attrs[2] = { NULL, NULL };
struct ldb_message **res = NULL;
attrs[0] = attr_name;
count = gendb_search_v(sam_ldb, mem_ctx, basedn, &res, attrs, format, ap);
if (count > 1) {
DEBUG(1,("samdb: search for %s %s not single valued (count=%d)\n",
attr_name, format, count));
}
if (count != 1) {
talloc_free(res);
return NULL;
}
return samdb_result_string(res[0], attr_name, NULL);
}
/*
search the sam for a single string attribute in exactly 1 record
*/
const char *samdb_search_string(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *basedn,
const char *attr_name,
const char *format, ...) _PRINTF_ATTRIBUTE(5,6)
{
va_list ap;
const char *str;
va_start(ap, format);
str = samdb_search_string_v(sam_ldb, mem_ctx, basedn, attr_name, format, ap);
va_end(ap);
return str;
}
struct ldb_dn *samdb_search_dn(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *basedn,
const char *format, ...) _PRINTF_ATTRIBUTE(4,5)
{
va_list ap;
struct ldb_dn *ret;
struct ldb_message **res = NULL;
int count;
va_start(ap, format);
count = gendb_search_v(sam_ldb, mem_ctx, basedn, &res, NULL, format, ap);
va_end(ap);
if (count != 1) return NULL;
ret = talloc_steal(mem_ctx, res[0]->dn);
talloc_free(res);
return ret;
}
/*
search the sam for a dom_sid attribute in exactly 1 record
*/
struct dom_sid *samdb_search_dom_sid(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *basedn,
const char *attr_name,
const char *format, ...) _PRINTF_ATTRIBUTE(5,6)
{
va_list ap;
int count;
struct ldb_message **res;
const char *attrs[2] = { NULL, NULL };
struct dom_sid *sid;
attrs[0] = attr_name;
va_start(ap, format);
count = gendb_search_v(sam_ldb, mem_ctx, basedn, &res, attrs, format, ap);
va_end(ap);
if (count > 1) {
DEBUG(1,("samdb: search for %s %s not single valued (count=%d)\n",
attr_name, format, count));
}
if (count != 1) {
talloc_free(res);
return NULL;
}
sid = samdb_result_dom_sid(mem_ctx, res[0], attr_name);
talloc_free(res);
return sid;
}
/*
return the count of the number of records in the sam matching the query
*/
int samdb_search_count(struct ldb_context *sam_ldb,
struct ldb_dn *basedn,
const char *format, ...) _PRINTF_ATTRIBUTE(3,4)
{
va_list ap;
struct ldb_message **res;
const char *attrs[] = { NULL };
int ret;
TALLOC_CTX *tmp_ctx = talloc_new(sam_ldb);
va_start(ap, format);
ret = gendb_search_v(sam_ldb, tmp_ctx, basedn, &res, attrs, format, ap);
va_end(ap);
talloc_free(tmp_ctx);
return ret;
}
/*
search the sam for a single integer attribute in exactly 1 record
*/
uint_t samdb_search_uint(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
uint_t default_value,
struct ldb_dn *basedn,
const char *attr_name,
const char *format, ...) _PRINTF_ATTRIBUTE(6,7)
{
va_list ap;
int count;
struct ldb_message **res;
const char *attrs[2] = { NULL, NULL };
attrs[0] = attr_name;
va_start(ap, format);
count = gendb_search_v(sam_ldb, mem_ctx, basedn, &res, attrs, format, ap);
va_end(ap);
if (count != 1) {
return default_value;
}
return samdb_result_uint(res[0], attr_name, default_value);
}
/*
search the sam for a single signed 64 bit integer attribute in exactly 1 record
*/
int64_t samdb_search_int64(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
int64_t default_value,
struct ldb_dn *basedn,
const char *attr_name,
const char *format, ...) _PRINTF_ATTRIBUTE(6,7)
{
va_list ap;
int count;
struct ldb_message **res;
const char *attrs[2] = { NULL, NULL };
attrs[0] = attr_name;
va_start(ap, format);
count = gendb_search_v(sam_ldb, mem_ctx, basedn, &res, attrs, format, ap);
va_end(ap);
if (count != 1) {
return default_value;
}
return samdb_result_int64(res[0], attr_name, default_value);
}
/*
search the sam for multipe records each giving a single string attribute
return the number of matches, or -1 on error
*/
int samdb_search_string_multiple(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *basedn,
const char ***strs,
const char *attr_name,
const char *format, ...) _PRINTF_ATTRIBUTE(6,7)
{
va_list ap;
int count, i;
const char *attrs[2] = { NULL, NULL };
struct ldb_message **res = NULL;
attrs[0] = attr_name;
va_start(ap, format);
count = gendb_search_v(sam_ldb, mem_ctx, basedn, &res, attrs, format, ap);
va_end(ap);
if (count <= 0) {
return count;
}
/* make sure its single valued */
for (i=0;i<count;i++) {
if (res[i]->num_elements != 1) {
DEBUG(1,("samdb: search for %s %s not single valued\n",
attr_name, format));
talloc_free(res);
return -1;
}
}
*strs = talloc_array(mem_ctx, const char *, count+1);
if (! *strs) {
talloc_free(res);
return -1;
}
for (i=0;i<count;i++) {
(*strs)[i] = samdb_result_string(res[i], attr_name, NULL);
}
(*strs)[count] = NULL;
return count;
}
/*
pull a uint from a result set.
*/
uint_t samdb_result_uint(const struct ldb_message *msg, const char *attr, uint_t default_value)
{
return ldb_msg_find_attr_as_uint(msg, attr, default_value);
}
/*
pull a (signed) int64 from a result set.
*/
int64_t samdb_result_int64(const struct ldb_message *msg, const char *attr, int64_t default_value)
{
return ldb_msg_find_attr_as_int64(msg, attr, default_value);
}
/*
pull a string from a result set.
*/
const char *samdb_result_string(const struct ldb_message *msg, const char *attr,
const char *default_value)
{
return ldb_msg_find_attr_as_string(msg, attr, default_value);
}
struct ldb_dn *samdb_result_dn(struct ldb_context *ldb, TALLOC_CTX *mem_ctx, const struct ldb_message *msg,
const char *attr, struct ldb_dn *default_value)
{
struct ldb_dn *ret_dn = ldb_msg_find_attr_as_dn(ldb, mem_ctx, msg, attr);
if (!ret_dn) {
return default_value;
}
return ret_dn;
}
/*
pull a rid from a objectSid in a result set.
*/
uint32_t samdb_result_rid_from_sid(TALLOC_CTX *mem_ctx, const struct ldb_message *msg,
const char *attr, uint32_t default_value)
{
struct dom_sid *sid;
uint32_t rid;
sid = samdb_result_dom_sid(mem_ctx, msg, attr);
if (sid == NULL) {
return default_value;
}
rid = sid->sub_auths[sid->num_auths-1];
talloc_free(sid);
return rid;
}
/*
pull a dom_sid structure from a objectSid in a result set.
*/
struct dom_sid *samdb_result_dom_sid(TALLOC_CTX *mem_ctx, const struct ldb_message *msg,
const char *attr)
{
const struct ldb_val *v;
struct dom_sid *sid;
enum ndr_err_code ndr_err;
v = ldb_msg_find_ldb_val(msg, attr);
if (v == NULL) {
return NULL;
}
sid = talloc(mem_ctx, struct dom_sid);
if (sid == NULL) {
return NULL;
}
ndr_err = ndr_pull_struct_blob(v, sid, NULL, sid,
(ndr_pull_flags_fn_t)ndr_pull_dom_sid);
if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) {
talloc_free(sid);
return NULL;
}
return sid;
}
/*
pull a guid structure from a objectGUID in a result set.
*/
struct GUID samdb_result_guid(const struct ldb_message *msg, const char *attr)
{
const struct ldb_val *v;
struct GUID guid;
NTSTATUS status;
v = ldb_msg_find_ldb_val(msg, attr);
if (!v) return GUID_zero();
status = GUID_from_ndr_blob(v, &guid);
if (!NT_STATUS_IS_OK(status)) {
return GUID_zero();
}
return guid;
}
/*
pull a sid prefix from a objectSid in a result set.
this is used to find the domain sid for a user
*/
struct dom_sid *samdb_result_sid_prefix(TALLOC_CTX *mem_ctx, const struct ldb_message *msg,
const char *attr)
{
struct dom_sid *sid = samdb_result_dom_sid(mem_ctx, msg, attr);
if (!sid || sid->num_auths < 1) return NULL;
sid->num_auths--;
return sid;
}
/*
pull a NTTIME in a result set.
*/
NTTIME samdb_result_nttime(struct ldb_message *msg, const char *attr, NTTIME default_value)
{
return ldb_msg_find_attr_as_uint64(msg, attr, default_value);
}
/*
* Windows stores 0 for lastLogoff.
* But when a MS DC return the lastLogoff (as Logoff Time)
* it returns 0x7FFFFFFFFFFFFFFF, not returning this value in this case
* cause windows 2008 and newer version to fail for SMB requests
*/
NTTIME samdb_result_last_logoff(struct ldb_message *msg)
{
NTTIME ret = ldb_msg_find_attr_as_uint64(msg, "lastLogoff",0);
if (ret == 0)
ret = 0x7FFFFFFFFFFFFFFFULL;
return ret;
}
/*
* Windows uses both 0 and 9223372036854775807 (0x7FFFFFFFFFFFFFFFULL) to
* indicate an account doesn't expire.
*
* When Windows initially creates an account, it sets
* accountExpires = 9223372036854775807 (0x7FFFFFFFFFFFFFFF). However,
* when changing from an account having a specific expiration date to
* that account never expiring, it sets accountExpires = 0.
*
* Consolidate that logic here to allow clearer logic for account expiry in
* the rest of the code.
*/
NTTIME samdb_result_account_expires(struct ldb_message *msg)
{
NTTIME ret = ldb_msg_find_attr_as_uint64(msg, "accountExpires",
0);
if (ret == 0)
ret = 0x7FFFFFFFFFFFFFFFULL;
return ret;
}
/*
pull a uint64_t from a result set.
*/
uint64_t samdb_result_uint64(struct ldb_message *msg, const char *attr, uint64_t default_value)
{
return ldb_msg_find_attr_as_uint64(msg, attr, default_value);
}
/*
construct the allow_password_change field from the PwdLastSet attribute and the
domain password settings
*/
NTTIME samdb_result_allow_password_change(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *domain_dn,
struct ldb_message *msg,
const char *attr)
{
uint64_t attr_time = samdb_result_uint64(msg, attr, 0);
int64_t minPwdAge;
if (attr_time == 0) {
return 0;
}
minPwdAge = samdb_search_int64(sam_ldb, mem_ctx, 0, domain_dn, "minPwdAge", NULL);
/* yes, this is a -= not a += as minPwdAge is stored as the negative
of the number of 100-nano-seconds */
attr_time -= minPwdAge;
return attr_time;
}
/*
construct the force_password_change field from the PwdLastSet
attribute, the userAccountControl and the domain password settings
*/
NTTIME samdb_result_force_password_change(struct ldb_context *sam_ldb,
TALLOC_CTX *mem_ctx,
struct ldb_dn *domain_dn,
struct ldb_message *msg)
{
uint64_t attr_time = samdb_result_uint64(msg, "pwdLastSet", 0);
uint32_t userAccountControl = samdb_result_uint64(msg, "userAccountControl", 0);
int64_t maxPwdAge;
/* Machine accounts don't expire, and there is a flag for 'no expiry' */
if (!(userAccountControl & UF_NORMAL_ACCOUNT)
|| (userAccountControl & UF_DONT_EXPIRE_PASSWD)) {
return 0x7FFFFFFFFFFFFFFFULL;
}
if (attr_time == 0) {
return 0;
}
maxPwdAge = samdb_search_int64(sam_ldb, mem_ctx, 0, domain_dn, "maxPwdAge", NULL);
if (maxPwdAge == 0) {
return 0x7FFFFFFFFFFFFFFFULL;
} else {
attr_time -= maxPwdAge;
}
return attr_time;
}
/*
pull a samr_Password structutre from a result set.
*/
struct samr_Password *samdb_result_hash(TALLOC_CTX *mem_ctx, const struct ldb_message *msg, const char *attr)
{
struct samr_Password *hash = NULL;
const struct ldb_val *val = ldb_msg_find_ldb_val(msg, attr);
if (val && (val->length >= sizeof(hash->hash))) {
hash = talloc(mem_ctx, struct samr_Password);
memcpy(hash->hash, val->data, MIN(val->length, sizeof(hash->hash)));
}
return hash;
}
/*
pull an array of samr_Password structutres from a result set.
*/
uint_t samdb_result_hashes(TALLOC_CTX *mem_ctx, const struct ldb_message *msg,
const char *attr, struct samr_Password **hashes)
{
uint_t count, i;
const struct ldb_val *val = ldb_msg_find_ldb_val(msg, attr);
*hashes = NULL;
if (!val) {
return 0;
}
count = val->length / 16;
if (count == 0) {
return 0;
}
*hashes = talloc_array(mem_ctx, struct samr_Password, count);
if (! *hashes) {
return 0;
}
for (i=0;i<count;i++) {
memcpy((*hashes)[i].hash, (i*16)+(char *)val->data, 16);
}
return count;
}
NTSTATUS samdb_result_passwords(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx, struct ldb_message *msg,
struct samr_Password **lm_pwd, struct samr_Password **nt_pwd)
{
struct samr_Password *lmPwdHash, *ntPwdHash;
if (nt_pwd) {
int num_nt;
num_nt = samdb_result_hashes(mem_ctx, msg, "unicodePwd", &ntPwdHash);
if (num_nt == 0) {
*nt_pwd = NULL;
} else if (num_nt > 1) {
return NT_STATUS_INTERNAL_DB_CORRUPTION;
} else {
*nt_pwd = &ntPwdHash[0];
}
}
if (lm_pwd) {
/* Ensure that if we have turned off LM
* authentication, that we never use the LM hash, even
* if we store it */
if (lp_lanman_auth(lp_ctx)) {
int num_lm;
num_lm = samdb_result_hashes(mem_ctx, msg, "dBCSPwd", &lmPwdHash);
if (num_lm == 0) {
*lm_pwd = NULL;
} else if (num_lm > 1) {
return NT_STATUS_INTERNAL_DB_CORRUPTION;
} else {
*lm_pwd = &lmPwdHash[0];
}
} else {
*lm_pwd = NULL;
}
}
return NT_STATUS_OK;
}
/*
pull a samr_LogonHours structutre from a result set.
*/
struct samr_LogonHours samdb_result_logon_hours(TALLOC_CTX *mem_ctx, struct ldb_message *msg, const char *attr)
{
struct samr_LogonHours hours;
const int units_per_week = 168;
const struct ldb_val *val = ldb_msg_find_ldb_val(msg, attr);
ZERO_STRUCT(hours);
hours.bits = talloc_array(mem_ctx, uint8_t, units_per_week);
if (!hours.bits) {
return hours;
}
hours.units_per_week = units_per_week;
memset(hours.bits, 0xFF, units_per_week);
if (val) {
memcpy(hours.bits, val->data, MIN(val->length, units_per_week));
}
return hours;
}
/*
pull a set of account_flags from a result set.
This requires that the attributes:
pwdLastSet
userAccountControl
be included in 'msg'
*/
uint32_t samdb_result_acct_flags(struct ldb_context *sam_ctx, TALLOC_CTX *mem_ctx,
struct ldb_message *msg, struct ldb_dn *domain_dn)
{
uint32_t userAccountControl = ldb_msg_find_attr_as_uint(msg, "userAccountControl", 0);
uint32_t acct_flags = ds_uf2acb(userAccountControl);
NTTIME must_change_time;
NTTIME now;
must_change_time = samdb_result_force_password_change(sam_ctx, mem_ctx,
domain_dn, msg);
/* Test account expire time */
unix_to_nt_time(&now, time(NULL));
/* check for expired password */
if (must_change_time < now) {
acct_flags |= ACB_PW_EXPIRED;
}
return acct_flags;
}
struct lsa_BinaryString samdb_result_parameters(TALLOC_CTX *mem_ctx,
struct ldb_message *msg,
const char *attr)
{
struct lsa_BinaryString s;
const struct ldb_val *val = ldb_msg_find_ldb_val(msg, attr);
ZERO_STRUCT(s);
if (!val) {
return s;
}
s.array = talloc_array(mem_ctx, uint16_t, val->length/2);
if (!s.array) {
return s;
}
s.length = s.size = val->length/2;
memcpy(s.array, val->data, val->length);
return s;
}
/* Find an attribute, with a particular value */
/* The current callers of this function expect a very specific
* behaviour: In particular, objectClass subclass equivilance is not
* wanted. This means that we should not lookup the schema for the
* comparison function */
struct ldb_message_element *samdb_find_attribute(struct ldb_context *ldb,
const struct ldb_message *msg,
const char *name, const char *value)
{
int i;
struct ldb_message_element *el = ldb_msg_find_element(msg, name);
if (!el) {
return NULL;
}
for (i=0;i<el->num_values;i++) {
if (ldb_attr_cmp(value, (char *)el->values[i].data) == 0) {
return el;
}
}
return NULL;
}
int samdb_find_or_add_value(struct ldb_context *ldb, struct ldb_message *msg, const char *name, const char *set_value)
{
if (samdb_find_attribute(ldb, msg, name, set_value) == NULL) {
return samdb_msg_add_string(ldb, msg, msg, name, set_value);
}
return LDB_SUCCESS;
}
int samdb_find_or_add_attribute(struct ldb_context *ldb, struct ldb_message *msg, const char *name, const char *set_value)
{
struct ldb_message_element *el;
el = ldb_msg_find_element(msg, name);
if (el) {
return LDB_SUCCESS;
}
return samdb_msg_add_string(ldb, msg, msg, name, set_value);
}
/*
add a string element to a message
*/
int samdb_msg_add_string(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, const char *str)
{
char *s = talloc_strdup(mem_ctx, str);
char *a = talloc_strdup(mem_ctx, attr_name);
if (s == NULL || a == NULL) {
return LDB_ERR_OPERATIONS_ERROR;
}
return ldb_msg_add_string(msg, a, s);
}
/*
add a dom_sid element to a message
*/
int samdb_msg_add_dom_sid(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, struct dom_sid *sid)
{
struct ldb_val v;
enum ndr_err_code ndr_err;
ndr_err = ndr_push_struct_blob(&v, mem_ctx,
lp_iconv_convenience(ldb_get_opaque(sam_ldb, "loadparm")),
sid,
(ndr_push_flags_fn_t)ndr_push_dom_sid);
if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) {
return -1;
}
return ldb_msg_add_value(msg, attr_name, &v, NULL);
}
/*
add a delete element operation to a message
*/
int samdb_msg_add_delete(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name)
{
/* we use an empty replace rather than a delete, as it allows for
samdb_replace() to be used everywhere */
return ldb_msg_add_empty(msg, attr_name, LDB_FLAG_MOD_REPLACE, NULL);
}
/*
add a add attribute value to a message
*/
int samdb_msg_add_addval(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, const char *value)
{
struct ldb_message_element *el;
char *a, *v;
int ret;
a = talloc_strdup(mem_ctx, attr_name);
if (a == NULL)
return -1;
v = talloc_strdup(mem_ctx, value);
if (v == NULL)
return -1;
ret = ldb_msg_add_string(msg, a, v);
if (ret != 0)
return ret;
el = ldb_msg_find_element(msg, a);
if (el == NULL)
return -1;
el->flags = LDB_FLAG_MOD_ADD;
return 0;
}
/*
add a delete attribute value to a message
*/
int samdb_msg_add_delval(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, const char *value)
{
struct ldb_message_element *el;
char *a, *v;
int ret;
a = talloc_strdup(mem_ctx, attr_name);
if (a == NULL)
return -1;
v = talloc_strdup(mem_ctx, value);
if (v == NULL)
return -1;
ret = ldb_msg_add_string(msg, a, v);
if (ret != 0)
return ret;
el = ldb_msg_find_element(msg, a);
if (el == NULL)
return -1;
el->flags = LDB_FLAG_MOD_DELETE;
return 0;
}
/*
add a int element to a message
*/
int samdb_msg_add_int(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, int v)
{
const char *s = talloc_asprintf(mem_ctx, "%d", v);
return samdb_msg_add_string(sam_ldb, mem_ctx, msg, attr_name, s);
}
/*
add a uint_t element to a message
*/
int samdb_msg_add_uint(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, uint_t v)
{
const char *s = talloc_asprintf(mem_ctx, "%u", v);
return samdb_msg_add_string(sam_ldb, mem_ctx, msg, attr_name, s);
}
/*
add a (signed) int64_t element to a message
*/
int samdb_msg_add_int64(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, int64_t v)
{
const char *s = talloc_asprintf(mem_ctx, "%lld", (long long)v);
return samdb_msg_add_string(sam_ldb, mem_ctx, msg, attr_name, s);
}
/*
add a uint64_t element to a message
*/
int samdb_msg_add_uint64(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, uint64_t v)
{
const char *s = talloc_asprintf(mem_ctx, "%llu", (unsigned long long)v);
return samdb_msg_add_string(sam_ldb, mem_ctx, msg, attr_name, s);
}
/*
add a samr_Password element to a message
*/
int samdb_msg_add_hash(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, struct samr_Password *hash)
{
struct ldb_val val;
val.data = talloc_memdup(mem_ctx, hash->hash, 16);
if (!val.data) {
return -1;
}
val.length = 16;
return ldb_msg_add_value(msg, attr_name, &val, NULL);
}
/*
add a samr_Password array to a message
*/
int samdb_msg_add_hashes(TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, struct samr_Password *hashes, uint_t count)
{
struct ldb_val val;
int i;
val.data = talloc_array_size(mem_ctx, 16, count);
val.length = count*16;
if (!val.data) {
return -1;
}
for (i=0;i<count;i++) {
memcpy(i*16 + (char *)val.data, hashes[i].hash, 16);
}
return ldb_msg_add_value(msg, attr_name, &val, NULL);
}
/*
add a acct_flags element to a message
*/
int samdb_msg_add_acct_flags(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, uint32_t v)
{
return samdb_msg_add_uint(sam_ldb, mem_ctx, msg, attr_name, ds_acb2uf(v));
}
/*
add a logon_hours element to a message
*/
int samdb_msg_add_logon_hours(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, struct samr_LogonHours *hours)
{
struct ldb_val val;
val.length = hours->units_per_week / 8;
val.data = hours->bits;
return ldb_msg_add_value(msg, attr_name, &val, NULL);
}
/*
add a parameters element to a message
*/
int samdb_msg_add_parameters(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, struct lsa_BinaryString *parameters)
{
struct ldb_val val;
val.length = parameters->length * 2;
val.data = (uint8_t *)parameters->array;
return ldb_msg_add_value(msg, attr_name, &val, NULL);
}
/*
add a general value element to a message
*/
int samdb_msg_add_value(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, const struct ldb_val *val)
{
return ldb_msg_add_value(msg, attr_name, val, NULL);
}
/*
sets a general value element to a message
*/
int samdb_msg_set_value(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, const struct ldb_val *val)
{
struct ldb_message_element *el;
el = ldb_msg_find_element(msg, attr_name);
if (el) {
el->num_values = 0;
}
return ldb_msg_add_value(msg, attr_name, val, NULL);
}
/*
set a string element in a message
*/
int samdb_msg_set_string(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg,
const char *attr_name, const char *str)
{
struct ldb_message_element *el;
el = ldb_msg_find_element(msg, attr_name);
if (el) {
el->num_values = 0;
}
return samdb_msg_add_string(sam_ldb, mem_ctx, msg, attr_name, str);
}
/*
replace elements in a record
*/
int samdb_replace(struct ldb_context *sam_ldb, TALLOC_CTX *mem_ctx, struct ldb_message *msg)
{
int i;
/* mark all the message elements as LDB_FLAG_MOD_REPLACE */
for (i=0;i<msg->num_elements;i++) {
msg->elements[i].flags = LDB_FLAG_MOD_REPLACE;
}
/* modify the samdb record */
return ldb_modify(sam_ldb, msg);
}
/*
return a default security descriptor
*/
struct security_descriptor *samdb_default_security_descriptor(TALLOC_CTX *mem_ctx)
{
struct security_descriptor *sd;
sd = security_descriptor_initialise(mem_ctx);
return sd;
}
struct ldb_dn *samdb_base_dn(struct ldb_context *sam_ctx)
{
return ldb_get_default_basedn(sam_ctx);
}
struct ldb_dn *samdb_config_dn(struct ldb_context *sam_ctx)
{
return ldb_get_config_basedn(sam_ctx);
}
struct ldb_dn *samdb_schema_dn(struct ldb_context *sam_ctx)
{
return ldb_get_schema_basedn(sam_ctx);
}
struct ldb_dn *samdb_aggregate_schema_dn(struct ldb_context *sam_ctx, TALLOC_CTX *mem_ctx)
{
struct ldb_dn *schema_dn = ldb_get_schema_basedn(sam_ctx);
struct ldb_dn *aggregate_dn;
if (!schema_dn) {
return NULL;
}
aggregate_dn = ldb_dn_copy(mem_ctx, schema_dn);
if (!aggregate_dn) {
return NULL;
}
if (!ldb_dn_add_child_fmt(aggregate_dn, "CN=Aggregate")) {
return NULL;
}
return aggregate_dn;
}
struct ldb_dn *samdb_root_dn(struct ldb_context *sam_ctx)
{
return ldb_get_root_basedn(sam_ctx);
}
struct ldb_dn *samdb_partitions_dn(struct ldb_context *sam_ctx, TALLOC_CTX *mem_ctx)
{
struct ldb_dn *new_dn;
new_dn = ldb_dn_copy(mem_ctx, samdb_config_dn(sam_ctx));
if ( ! ldb_dn_add_child_fmt(new_dn, "CN=Partitions")) {
talloc_free(new_dn);
return NULL;
}
return new_dn;
}
struct ldb_dn *samdb_sites_dn(struct ldb_context *sam_ctx, TALLOC_CTX *mem_ctx)
{
struct ldb_dn *new_dn;
new_dn = ldb_dn_copy(mem_ctx, samdb_config_dn(sam_ctx));
if ( ! ldb_dn_add_child_fmt(new_dn, "CN=Sites")) {
talloc_free(new_dn);
return NULL;
}
return new_dn;
}
/*
work out the domain sid for the current open ldb
*/
const struct dom_sid *samdb_domain_sid(struct ldb_context *ldb)
{
TALLOC_CTX *tmp_ctx;
const struct dom_sid *domain_sid;
const char *attrs[] = {
"objectSid",
NULL
};
struct ldb_result *res;
int ret;
/* see if we have a cached copy */
domain_sid = (struct dom_sid *)ldb_get_opaque(ldb, "cache.domain_sid");
if (domain_sid) {
return domain_sid;
}
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
ret = ldb_search(ldb, tmp_ctx, &res, ldb_get_default_basedn(ldb), LDB_SCOPE_BASE, attrs, "objectSid=*");
if (ret != LDB_SUCCESS) {
goto failed;
}
if (res->count != 1) {
goto failed;
}
domain_sid = samdb_result_dom_sid(tmp_ctx, res->msgs[0], "objectSid");
if (domain_sid == NULL) {
goto failed;
}
/* cache the domain_sid in the ldb */
if (ldb_set_opaque(ldb, "cache.domain_sid", discard_const_p(struct dom_sid, domain_sid)) != LDB_SUCCESS) {
goto failed;
}
talloc_steal(ldb, domain_sid);
talloc_free(tmp_ctx);
return domain_sid;
failed:
DEBUG(1,("Failed to find domain_sid for open ldb\n"));
talloc_free(tmp_ctx);
return NULL;
}
bool samdb_set_domain_sid(struct ldb_context *ldb, const struct dom_sid *dom_sid_in)
{
TALLOC_CTX *tmp_ctx;
struct dom_sid *dom_sid_new;
struct dom_sid *dom_sid_old;
/* see if we have a cached copy */
dom_sid_old = talloc_get_type(ldb_get_opaque(ldb,
"cache.domain_sid"), struct dom_sid);
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
dom_sid_new = dom_sid_dup(tmp_ctx, dom_sid_in);
if (!dom_sid_new) {
goto failed;
}
/* cache the domain_sid in the ldb */
if (ldb_set_opaque(ldb, "cache.domain_sid", dom_sid_new) != LDB_SUCCESS) {
goto failed;
}
talloc_steal(ldb, dom_sid_new);
talloc_free(tmp_ctx);
talloc_free(dom_sid_old);
return true;
failed:
DEBUG(1,("Failed to set our own cached domain SID in the ldb!\n"));
talloc_free(tmp_ctx);
return false;
}
/* Obtain the short name of the flexible single master operator
* (FSMO), such as the PDC Emulator */
const char *samdb_result_fsmo_name(struct ldb_context *ldb, TALLOC_CTX *mem_ctx, const struct ldb_message *msg,
const char *attr)
{
/* Format is cn=NTDS Settings,cn=<NETBIOS name of FSMO>,.... */
struct ldb_dn *fsmo_dn = ldb_msg_find_attr_as_dn(ldb, mem_ctx, msg, attr);
const struct ldb_val *val = ldb_dn_get_component_val(fsmo_dn, 1);
const char *name = ldb_dn_get_component_name(fsmo_dn, 1);
if (!name || (ldb_attr_cmp(name, "cn") != 0)) {
/* Ensure this matches the format. This gives us a
* bit more confidence that a 'cn' value will be a
* ascii string */
return NULL;
}
if (val) {
return (char *)val->data;
}
return NULL;
}
/*
work out the ntds settings dn for the current open ldb
*/
struct ldb_dn *samdb_ntds_settings_dn(struct ldb_context *ldb)
{
TALLOC_CTX *tmp_ctx;
const char *root_attrs[] = { "dsServiceName", NULL };
int ret;
struct ldb_result *root_res;
struct ldb_dn *settings_dn;
/* see if we have a cached copy */
settings_dn = (struct ldb_dn *)ldb_get_opaque(ldb, "cache.settings_dn");
if (settings_dn) {
return settings_dn;
}
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
ret = ldb_search(ldb, tmp_ctx, &root_res, ldb_dn_new(tmp_ctx, ldb, ""), LDB_SCOPE_BASE, root_attrs, NULL);
if (ret) {
DEBUG(1,("Searching for dsServiceName in rootDSE failed: %s\n",
ldb_errstring(ldb)));
goto failed;
}
if (root_res->count != 1) {
goto failed;
}
settings_dn = ldb_msg_find_attr_as_dn(ldb, tmp_ctx, root_res->msgs[0], "dsServiceName");
/* cache the domain_sid in the ldb */
if (ldb_set_opaque(ldb, "cache.settings_dn", settings_dn) != LDB_SUCCESS) {
goto failed;
}
talloc_steal(ldb, settings_dn);
talloc_free(tmp_ctx);
return settings_dn;
failed:
DEBUG(1,("Failed to find our own NTDS Settings DN in the ldb!\n"));
talloc_free(tmp_ctx);
return NULL;
}
/*
work out the ntds settings invocationId for the current open ldb
*/
const struct GUID *samdb_ntds_invocation_id(struct ldb_context *ldb)
{
TALLOC_CTX *tmp_ctx;
const char *attrs[] = { "invocationId", NULL };
int ret;
struct ldb_result *res;
struct GUID *invocation_id;
/* see if we have a cached copy */
invocation_id = (struct GUID *)ldb_get_opaque(ldb, "cache.invocation_id");
if (invocation_id) {
return invocation_id;
}
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
ret = ldb_search(ldb, tmp_ctx, &res, samdb_ntds_settings_dn(ldb), LDB_SCOPE_BASE, attrs, NULL);
if (ret) {
goto failed;
}
if (res->count != 1) {
goto failed;
}
invocation_id = talloc(tmp_ctx, struct GUID);
if (!invocation_id) {
goto failed;
}
*invocation_id = samdb_result_guid(res->msgs[0], "invocationId");
/* cache the domain_sid in the ldb */
if (ldb_set_opaque(ldb, "cache.invocation_id", invocation_id) != LDB_SUCCESS) {
goto failed;
}
talloc_steal(ldb, invocation_id);
talloc_free(tmp_ctx);
return invocation_id;
failed:
DEBUG(1,("Failed to find our own NTDS Settings invocationId in the ldb!\n"));
talloc_free(tmp_ctx);
return NULL;
}
bool samdb_set_ntds_invocation_id(struct ldb_context *ldb, const struct GUID *invocation_id_in)
{
TALLOC_CTX *tmp_ctx;
struct GUID *invocation_id_new;
struct GUID *invocation_id_old;
/* see if we have a cached copy */
invocation_id_old = (struct GUID *)ldb_get_opaque(ldb,
"cache.invocation_id");
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
invocation_id_new = talloc(tmp_ctx, struct GUID);
if (!invocation_id_new) {
goto failed;
}
*invocation_id_new = *invocation_id_in;
/* cache the domain_sid in the ldb */
if (ldb_set_opaque(ldb, "cache.invocation_id", invocation_id_new) != LDB_SUCCESS) {
goto failed;
}
talloc_steal(ldb, invocation_id_new);
talloc_free(tmp_ctx);
talloc_free(invocation_id_old);
return true;
failed:
DEBUG(1,("Failed to set our own cached invocationId in the ldb!\n"));
talloc_free(tmp_ctx);
return false;
}
/*
work out the ntds settings objectGUID for the current open ldb
*/
const struct GUID *samdb_ntds_objectGUID(struct ldb_context *ldb)
{
TALLOC_CTX *tmp_ctx;
const char *attrs[] = { "objectGUID", NULL };
int ret;
struct ldb_result *res;
struct GUID *ntds_guid;
/* see if we have a cached copy */
ntds_guid = (struct GUID *)ldb_get_opaque(ldb, "cache.ntds_guid");
if (ntds_guid) {
return ntds_guid;
}
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
ret = ldb_search(ldb, tmp_ctx, &res, samdb_ntds_settings_dn(ldb), LDB_SCOPE_BASE, attrs, NULL);
if (ret) {
goto failed;
}
if (res->count != 1) {
goto failed;
}
ntds_guid = talloc(tmp_ctx, struct GUID);
if (!ntds_guid) {
goto failed;
}
*ntds_guid = samdb_result_guid(res->msgs[0], "objectGUID");
/* cache the domain_sid in the ldb */
if (ldb_set_opaque(ldb, "cache.ntds_guid", ntds_guid) != LDB_SUCCESS) {
goto failed;
}
talloc_steal(ldb, ntds_guid);
talloc_free(tmp_ctx);
return ntds_guid;
failed:
DEBUG(1,("Failed to find our own NTDS Settings objectGUID in the ldb!\n"));
talloc_free(tmp_ctx);
return NULL;
}
bool samdb_set_ntds_objectGUID(struct ldb_context *ldb, const struct GUID *ntds_guid_in)
{
TALLOC_CTX *tmp_ctx;
struct GUID *ntds_guid_new;
struct GUID *ntds_guid_old;
/* see if we have a cached copy */
ntds_guid_old = (struct GUID *)ldb_get_opaque(ldb, "cache.ntds_guid");
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
ntds_guid_new = talloc(tmp_ctx, struct GUID);
if (!ntds_guid_new) {
goto failed;
}
*ntds_guid_new = *ntds_guid_in;
/* cache the domain_sid in the ldb */
if (ldb_set_opaque(ldb, "cache.ntds_guid", ntds_guid_new) != LDB_SUCCESS) {
goto failed;
}
talloc_steal(ldb, ntds_guid_new);
talloc_free(tmp_ctx);
talloc_free(ntds_guid_old);
return true;
failed:
DEBUG(1,("Failed to set our own cached invocationId in the ldb!\n"));
talloc_free(tmp_ctx);
return false;
}
/*
work out the server dn for the current open ldb
*/
struct ldb_dn *samdb_server_dn(struct ldb_context *ldb, TALLOC_CTX *mem_ctx)
{
return ldb_dn_get_parent(mem_ctx, samdb_ntds_settings_dn(ldb));
}
/*
work out the server dn for the current open ldb
*/
struct ldb_dn *samdb_server_site_dn(struct ldb_context *ldb, TALLOC_CTX *mem_ctx)
{
struct ldb_dn *server_dn;
struct ldb_dn *server_site_dn;
server_dn = samdb_server_dn(ldb, mem_ctx);
if (!server_dn) return NULL;
server_site_dn = ldb_dn_get_parent(mem_ctx, server_dn);
talloc_free(server_dn);
return server_site_dn;
}
const char *samdb_server_site_name(struct ldb_context *ldb, TALLOC_CTX *mem_ctx)
{
const struct ldb_val *val = ldb_dn_get_rdn_val(samdb_server_site_dn(ldb, mem_ctx));
if (val != NULL)
return (const char *) val->data;
else
return NULL;
}
/*
work out if we are the PDC for the domain of the current open ldb
*/
bool samdb_is_pdc(struct ldb_context *ldb)
{
const char *dom_attrs[] = { "fSMORoleOwner", NULL };
int ret;
struct ldb_result *dom_res;
TALLOC_CTX *tmp_ctx;
bool is_pdc;
struct ldb_dn *pdc;
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
DEBUG(1, ("talloc_new failed in samdb_is_pdc"));
return false;
}
ret = ldb_search(ldb, tmp_ctx, &dom_res, ldb_get_default_basedn(ldb), LDB_SCOPE_BASE, dom_attrs, NULL);
if (ret) {
DEBUG(1,("Searching for fSMORoleOwner in %s failed: %s\n",
ldb_dn_get_linearized(ldb_get_default_basedn(ldb)),
ldb_errstring(ldb)));
goto failed;
}
if (dom_res->count != 1) {
goto failed;
}
pdc = ldb_msg_find_attr_as_dn(ldb, tmp_ctx, dom_res->msgs[0], "fSMORoleOwner");
if (ldb_dn_compare(samdb_ntds_settings_dn(ldb), pdc) == 0) {
is_pdc = true;
} else {
is_pdc = false;
}
talloc_free(tmp_ctx);
return is_pdc;
failed:
DEBUG(1,("Failed to find if we are the PDC for this ldb\n"));
talloc_free(tmp_ctx);
return false;
}
/*
work out if we are a Global Catalog server for the domain of the current open ldb
*/
bool samdb_is_gc(struct ldb_context *ldb)
{
const char *attrs[] = { "options", NULL };
int ret, options;
struct ldb_result *res;
TALLOC_CTX *tmp_ctx;
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
DEBUG(1, ("talloc_new failed in samdb_is_pdc"));
return false;
}
/* Query cn=ntds settings,.... */
ret = ldb_search(ldb, tmp_ctx, &res, samdb_ntds_settings_dn(ldb), LDB_SCOPE_BASE, attrs, NULL);
if (ret) {
talloc_free(tmp_ctx);
return false;
}
if (res->count != 1) {
talloc_free(tmp_ctx);
return false;
}
options = ldb_msg_find_attr_as_int(res->msgs[0], "options", 0);
talloc_free(tmp_ctx);
/* if options attribute has the 0x00000001 flag set, then enable the global catlog */
if (options & 0x000000001) {
return true;
}
return false;
}
/* Find a domain object in the parents of a particular DN. */
int samdb_search_for_parent_domain(struct ldb_context *ldb, TALLOC_CTX *mem_ctx, struct ldb_dn *dn,
struct ldb_dn **parent_dn, const char **errstring)
{
TALLOC_CTX *local_ctx;
struct ldb_dn *sdn = dn;
struct ldb_result *res = NULL;
int ret = 0;
const char *attrs[] = { NULL };
local_ctx = talloc_new(mem_ctx);
if (local_ctx == NULL) return LDB_ERR_OPERATIONS_ERROR;
while ((sdn = ldb_dn_get_parent(local_ctx, sdn))) {
ret = ldb_search(ldb, local_ctx, &res, sdn, LDB_SCOPE_BASE, attrs,
"(|(objectClass=domain)(objectClass=builtinDomain))");
if (ret == LDB_SUCCESS) {
if (res->count == 1) {
break;
}
} else {
break;
}
}
if (ret != LDB_SUCCESS) {
*errstring = talloc_asprintf(mem_ctx, "Error searching for parent domain of %s, failed searching for %s: %s",
ldb_dn_get_linearized(dn),
ldb_dn_get_linearized(sdn),
ldb_errstring(ldb));
talloc_free(local_ctx);
return ret;
}
if (res->count != 1) {
*errstring = talloc_asprintf(mem_ctx, "Invalid dn (%s), not child of a domain object",
ldb_dn_get_linearized(dn));
DEBUG(0,(__location__ ": %s\n", *errstring));
talloc_free(local_ctx);
return LDB_ERR_CONSTRAINT_VIOLATION;
}
*parent_dn = talloc_steal(mem_ctx, res->msgs[0]->dn);
talloc_free(local_ctx);
return ret;
}
/*
* Performs checks on a user password (plaintext UNIX format - attribute
* "password"). The remaining parameters have to be extracted from the domain
* object in the AD.
*
* Result codes from "enum samr_ValidationStatus" (consider "samr.idl")
*/
enum samr_ValidationStatus samdb_check_password(const DATA_BLOB *password,
const uint32_t pwdProperties,
const uint32_t minPwdLength)
{
/* checks if the "minPwdLength" property is satisfied */
if (minPwdLength > password->length)
return SAMR_VALIDATION_STATUS_PWD_TOO_SHORT;
/* checks the password complexity */
if (((pwdProperties & DOMAIN_PASSWORD_COMPLEX) != 0)
&& (password->data != NULL)
&& (!check_password_quality((const char *) password->data)))
return SAMR_VALIDATION_STATUS_NOT_COMPLEX_ENOUGH;
return SAMR_VALIDATION_STATUS_SUCCESS;
}
/*
* Sets the user password using plaintext UTF16 (attribute "new_password") or
* LM (attribute "lmNewHash") or NT (attribute "ntNewHash") hash. Also pass
* as parameter if it's a user change or not ("userChange"). The "rejectReason"
* gives some more informations if the changed failed.
*
* The caller should have a LDB transaction wrapping this.
*
* Results: NT_STATUS_OK, NT_STATUS_INTERNAL_DB_CORRUPTION,
* NT_STATUS_INVALID_PARAMETER, NT_STATUS_UNSUCCESSFUL,
* NT_STATUS_PASSWORD_RESTRICTION
*/
NTSTATUS samdb_set_password(struct ldb_context *ctx, TALLOC_CTX *mem_ctx,
struct ldb_dn *user_dn, struct ldb_dn *domain_dn,
struct ldb_message *mod,
const DATA_BLOB *new_password,
struct samr_Password *param_lmNewHash,
struct samr_Password *param_ntNewHash,
bool user_change,
enum samPwdChangeReason *reject_reason,
struct samr_DomInfo1 **_dominfo)
{
const char * const user_attrs[] = { "userAccountControl",
"lmPwdHistory",
"ntPwdHistory",
"dBCSPwd", "unicodePwd",
"objectSid",
"pwdLastSet", NULL };
const char * const domain_attrs[] = { "minPwdLength", "pwdProperties",
"pwdHistoryLength",
"maxPwdAge", "minPwdAge", NULL };
NTTIME pwdLastSet;
uint32_t minPwdLength, pwdProperties, pwdHistoryLength;
int64_t maxPwdAge, minPwdAge;
uint32_t userAccountControl;
struct samr_Password *sambaLMPwdHistory, *sambaNTPwdHistory,
*lmPwdHash, *ntPwdHash, *lmNewHash, *ntNewHash;
struct samr_Password local_lmNewHash, local_ntNewHash;
int sambaLMPwdHistory_len, sambaNTPwdHistory_len;
struct dom_sid *domain_sid;
struct ldb_message **res;
bool restrictions;
int count;
time_t now = time(NULL);
NTTIME now_nt;
int i;
/* we need to know the time to compute password age */
unix_to_nt_time(&now_nt, now);
/* pull all the user parameters */
count = gendb_search_dn(ctx, mem_ctx, user_dn, &res, user_attrs);
if (count != 1) {
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
userAccountControl = samdb_result_uint(res[0], "userAccountControl", 0);
sambaLMPwdHistory_len = samdb_result_hashes(mem_ctx, res[0],
"lmPwdHistory", &sambaLMPwdHistory);
sambaNTPwdHistory_len = samdb_result_hashes(mem_ctx, res[0],
"ntPwdHistory", &sambaNTPwdHistory);
lmPwdHash = samdb_result_hash(mem_ctx, res[0], "dBCSPwd");
ntPwdHash = samdb_result_hash(mem_ctx, res[0], "unicodePwd");
pwdLastSet = samdb_result_uint64(res[0], "pwdLastSet", 0);
/* Copy parameters */
lmNewHash = param_lmNewHash;
ntNewHash = param_ntNewHash;
/* Only non-trust accounts have restrictions (possibly this
* test is the wrong way around, but I like to be restrictive
* if possible */
restrictions = !(userAccountControl & (UF_INTERDOMAIN_TRUST_ACCOUNT
|UF_WORKSTATION_TRUST_ACCOUNT
|UF_SERVER_TRUST_ACCOUNT));
if (domain_dn != NULL) {
/* pull the domain parameters */
count = gendb_search_dn(ctx, mem_ctx, domain_dn, &res,
domain_attrs);
if (count != 1) {
DEBUG(2, ("samdb_set_password: Domain DN %s is invalid, for user %s\n",
ldb_dn_get_linearized(domain_dn),
ldb_dn_get_linearized(user_dn)));
return NT_STATUS_NO_SUCH_DOMAIN;
}
} else {
/* work out the domain sid, and pull the domain from there */
domain_sid = samdb_result_sid_prefix(mem_ctx, res[0],
"objectSid");
if (domain_sid == NULL) {
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
count = gendb_search(ctx, mem_ctx, NULL, &res, domain_attrs,
"(objectSid=%s)",
ldap_encode_ndr_dom_sid(mem_ctx, domain_sid));
if (count != 1) {
DEBUG(2, ("samdb_set_password: Could not find domain to match SID: %s, for user %s\n",
dom_sid_string(mem_ctx, domain_sid),
ldb_dn_get_linearized(user_dn)));
return NT_STATUS_NO_SUCH_DOMAIN;
}
}
minPwdLength = samdb_result_uint(res[0], "minPwdLength", 0);
pwdProperties = samdb_result_uint(res[0], "pwdProperties", 0);
pwdHistoryLength = samdb_result_uint(res[0], "pwdHistoryLength", 0);
maxPwdAge = samdb_result_int64(res[0], "maxPwdAge", 0);
minPwdAge = samdb_result_int64(res[0], "minPwdAge", 0);
if ((userAccountControl & UF_PASSWD_NOTREQD) != 0) {
/* see [MS-ADTS] 2.2.15 */
minPwdLength = 0;
}
if (_dominfo != NULL) {
struct samr_DomInfo1 *dominfo;
/* on failure we need to fill in the reject reasons */
dominfo = talloc(mem_ctx, struct samr_DomInfo1);
if (dominfo == NULL) {
return NT_STATUS_NO_MEMORY;
}
dominfo->min_password_length = minPwdLength;
dominfo->password_properties = pwdProperties;
dominfo->password_history_length = pwdHistoryLength;
dominfo->max_password_age = maxPwdAge;
dominfo->min_password_age = minPwdAge;
*_dominfo = dominfo;
}
if ((restrictions != 0) && (new_password != 0)) {
char *new_pass;
/* checks if the "minPwdLength" property is satisfied */
if ((restrictions != 0)
&& (minPwdLength > utf16_len_n(
new_password->data, new_password->length)/2)) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_PASSWORD_TOO_SHORT;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
/* Create the NT hash */
mdfour(local_ntNewHash.hash, new_password->data,
new_password->length);
ntNewHash = &local_ntNewHash;
/* Only check complexity if we can convert it at all. Assuming unconvertable passwords are 'strong' */
if (convert_string_talloc_convenience(mem_ctx,
lp_iconv_convenience(ldb_get_opaque(ctx, "loadparm")),
CH_UTF16, CH_UNIX,
new_password->data, new_password->length,
(void **)&new_pass, NULL, false)) {
/* checks the password complexity */
if ((restrictions != 0)
&& ((pwdProperties
& DOMAIN_PASSWORD_COMPLEX) != 0)
&& (!check_password_quality(new_pass))) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_NOT_COMPLEX;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
/* compute the new lm hashes (for checking history - case insenitivly!) */
if (E_deshash(new_pass, local_lmNewHash.hash)) {
lmNewHash = &local_lmNewHash;
}
}
}
if ((restrictions != 0) && user_change) {
/* are all password changes disallowed? */
if ((pwdProperties & DOMAIN_REFUSE_PASSWORD_CHANGE) != 0) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_NO_ERROR;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
/* can this user change the password? */
if ((userAccountControl & UF_PASSWD_CANT_CHANGE) != 0) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_NO_ERROR;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
/* Password minimum age: yes, this is a minus. The ages are in negative 100nsec units! */
if (pwdLastSet - minPwdAge > now_nt) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_NO_ERROR;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
/* check the immediately past password */
if (pwdHistoryLength > 0) {
if (lmNewHash && lmPwdHash && memcmp(lmNewHash->hash,
lmPwdHash->hash, 16) == 0) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_PWD_IN_HISTORY;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
if (ntNewHash && ntPwdHash && memcmp(ntNewHash->hash,
ntPwdHash->hash, 16) == 0) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_PWD_IN_HISTORY;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
}
/* check the password history */
sambaLMPwdHistory_len = MIN(sambaLMPwdHistory_len,
pwdHistoryLength);
sambaNTPwdHistory_len = MIN(sambaNTPwdHistory_len,
pwdHistoryLength);
for (i=0; lmNewHash && i<sambaLMPwdHistory_len;i++) {
if (memcmp(lmNewHash->hash, sambaLMPwdHistory[i].hash,
16) == 0) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_PWD_IN_HISTORY;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
}
for (i=0; ntNewHash && i<sambaNTPwdHistory_len;i++) {
if (memcmp(ntNewHash->hash, sambaNTPwdHistory[i].hash,
16) == 0) {
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_PWD_IN_HISTORY;
}
return NT_STATUS_PASSWORD_RESTRICTION;
}
}
}
#define CHECK_RET(x) do { if (x != 0) return NT_STATUS_NO_MEMORY; } while(0)
/* the password is acceptable. Start forming the new fields */
if (new_password != NULL) {
/* if we know the cleartext UTF16 password, then set it.
* Modules in ldb will set all the appropriate
* hashes */
CHECK_RET(ldb_msg_add_value(mod, "clearTextPassword", new_password, NULL));
} else {
/* We don't have the cleartext, so delete the old one
* and set what we have of the hashes */
CHECK_RET(samdb_msg_add_delete(ctx, mem_ctx, mod, "clearTextPassword"));
if (lmNewHash) {
CHECK_RET(samdb_msg_add_hash(ctx, mem_ctx, mod, "dBCSPwd", lmNewHash));
} else {
CHECK_RET(samdb_msg_add_delete(ctx, mem_ctx, mod, "dBCSPwd"));
}
if (ntNewHash) {
CHECK_RET(samdb_msg_add_hash(ctx, mem_ctx, mod, "unicodePwd", ntNewHash));
} else {
CHECK_RET(samdb_msg_add_delete(ctx, mem_ctx, mod, "unicodePwd"));
}
}
if (reject_reason) {
*reject_reason = SAM_PWD_CHANGE_NO_ERROR;
}
return NT_STATUS_OK;
}
/*
* Sets the user password using plaintext UTF16 (attribute "new_password") or
* LM (attribute "lmNewHash") or NT (attribute "ntNewHash") hash. Also pass
* as parameter if it's a user change or not ("userChange"). The "rejectReason"
* gives some more informations if the changed failed.
*
* This wrapper function for "samdb_set_password" takes a SID as input rather
* than a user DN.
*
* This call encapsulates a new LDB transaction for changing the password;
* therefore the user hasn't to start a new one.
*
* Results: NT_STATUS_OK, NT_STATUS_INTERNAL_DB_CORRUPTION,
* NT_STATUS_INVALID_PARAMETER, NT_STATUS_UNSUCCESSFUL,
* NT_STATUS_PASSWORD_RESTRICTION
*/
NTSTATUS samdb_set_password_sid(struct ldb_context *ldb, TALLOC_CTX *mem_ctx,
const struct dom_sid *user_sid,
const DATA_BLOB *new_password,
struct samr_Password *lmNewHash,
struct samr_Password *ntNewHash,
bool user_change,
enum samPwdChangeReason *reject_reason,
struct samr_DomInfo1 **_dominfo)
{
NTSTATUS nt_status;
struct ldb_dn *user_dn;
struct ldb_message *msg;
int ret;
ret = ldb_transaction_start(ldb);
if (ret != LDB_SUCCESS) {
DEBUG(1, ("Failed to start transaction: %s\n", ldb_errstring(ldb)));
return NT_STATUS_TRANSACTION_ABORTED;
}
user_dn = samdb_search_dn(ldb, mem_ctx, NULL,
"(&(objectSid=%s)(objectClass=user))",
ldap_encode_ndr_dom_sid(mem_ctx, user_sid));
if (!user_dn) {
ldb_transaction_cancel(ldb);
DEBUG(3, ("samdb_set_password_sid: SID %s not found in samdb, returning NO_SUCH_USER\n",
dom_sid_string(mem_ctx, user_sid)));
return NT_STATUS_NO_SUCH_USER;
}
msg = ldb_msg_new(mem_ctx);
if (msg == NULL) {
ldb_transaction_cancel(ldb);
talloc_free(user_dn);
return NT_STATUS_NO_MEMORY;
}
msg->dn = ldb_dn_copy(msg, user_dn);
if (!msg->dn) {
ldb_transaction_cancel(ldb);
talloc_free(user_dn);
talloc_free(msg);
return NT_STATUS_NO_MEMORY;
}
nt_status = samdb_set_password(ldb, mem_ctx,
user_dn, NULL,
msg, new_password,
lmNewHash, ntNewHash,
user_change,
reject_reason, _dominfo);
if (!NT_STATUS_IS_OK(nt_status)) {
ldb_transaction_cancel(ldb);
talloc_free(user_dn);
talloc_free(msg);
return nt_status;
}
/* modify the samdb record */
ret = samdb_replace(ldb, mem_ctx, msg);
if (ret != LDB_SUCCESS) {
ldb_transaction_cancel(ldb);
talloc_free(user_dn);
talloc_free(msg);
return NT_STATUS_ACCESS_DENIED;
}
talloc_free(msg);
ret = ldb_transaction_commit(ldb);
if (ret != LDB_SUCCESS) {
DEBUG(0,("Failed to commit transaction to change password on %s: %s\n",
ldb_dn_get_linearized(user_dn),
ldb_errstring(ldb)));
talloc_free(user_dn);
return NT_STATUS_TRANSACTION_ABORTED;
}
talloc_free(user_dn);
return NT_STATUS_OK;
}
NTSTATUS samdb_create_foreign_security_principal(struct ldb_context *sam_ctx, TALLOC_CTX *mem_ctx,
struct dom_sid *sid, struct ldb_dn **ret_dn)
{
struct ldb_message *msg;
struct ldb_dn *basedn;
const char *sidstr;
int ret;
sidstr = dom_sid_string(mem_ctx, sid);
NT_STATUS_HAVE_NO_MEMORY(sidstr);
/* We might have to create a ForeignSecurityPrincipal, even if this user
* is in our own domain */
msg = ldb_msg_new(mem_ctx);
if (msg == NULL) {
return NT_STATUS_NO_MEMORY;
}
/* TODO: Hmmm. This feels wrong. How do I find the base dn to
* put the ForeignSecurityPrincipals? d_state->domain_dn does
* not work, this is wrong for the Builtin domain, there's no
* cn=For...,cn=Builtin,dc={BASEDN}. -- vl
*/
basedn = samdb_search_dn(sam_ctx, mem_ctx, NULL,
"(&(objectClass=container)(cn=ForeignSecurityPrincipals))");
if (basedn == NULL) {
DEBUG(0, ("Failed to find DN for "
"ForeignSecurityPrincipal container\n"));
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
/* add core elements to the ldb_message for the alias */
msg->dn = ldb_dn_copy(mem_ctx, basedn);
if ( ! ldb_dn_add_child_fmt(msg->dn, "CN=%s", sidstr))
return NT_STATUS_NO_MEMORY;
samdb_msg_add_string(sam_ctx, mem_ctx, msg,
"objectClass",
"foreignSecurityPrincipal");
/* create the alias */
ret = ldb_add(sam_ctx, msg);
if (ret != 0) {
DEBUG(0,("Failed to create foreignSecurityPrincipal "
"record %s: %s\n",
ldb_dn_get_linearized(msg->dn),
ldb_errstring(sam_ctx)));
return NT_STATUS_INTERNAL_DB_CORRUPTION;
}
*ret_dn = msg->dn;
return NT_STATUS_OK;
}
/*
Find the DN of a domain, assuming it to be a dotted.dns name
*/
struct ldb_dn *samdb_dns_domain_to_dn(struct ldb_context *ldb, TALLOC_CTX *mem_ctx, const char *dns_domain)
{
int i;
TALLOC_CTX *tmp_ctx = talloc_new(mem_ctx);
const char *binary_encoded;
const char **split_realm;
struct ldb_dn *dn;
if (!tmp_ctx) {
return NULL;
}
split_realm = (const char **)str_list_make(tmp_ctx, dns_domain, ".");
if (!split_realm) {
talloc_free(tmp_ctx);
return NULL;
}
dn = ldb_dn_new(mem_ctx, ldb, NULL);
for (i=0; split_realm[i]; i++) {
binary_encoded = ldb_binary_encode_string(tmp_ctx, split_realm[i]);
if (!ldb_dn_add_base_fmt(dn, "dc=%s", binary_encoded)) {
DEBUG(2, ("Failed to add dc=%s element to DN %s\n",
binary_encoded, ldb_dn_get_linearized(dn)));
talloc_free(tmp_ctx);
return NULL;
}
}
if (!ldb_dn_validate(dn)) {
DEBUG(2, ("Failed to validated DN %s\n",
ldb_dn_get_linearized(dn)));
return NULL;
}
return dn;
}
/*
Find the DN of a domain, be it the netbios or DNS name
*/
struct ldb_dn *samdb_domain_to_dn(struct ldb_context *ldb, TALLOC_CTX *mem_ctx,
const char *domain_name)
{
const char * const domain_ref_attrs[] = {
"ncName", NULL
};
const char * const domain_ref2_attrs[] = {
NULL
};
struct ldb_result *res_domain_ref;
char *escaped_domain = ldb_binary_encode_string(mem_ctx, domain_name);
/* find the domain's DN */
int ret_domain = ldb_search(ldb, mem_ctx,
&res_domain_ref,
samdb_partitions_dn(ldb, mem_ctx),
LDB_SCOPE_ONELEVEL,
domain_ref_attrs,
"(&(nETBIOSName=%s)(objectclass=crossRef))",
escaped_domain);
if (ret_domain != 0) {
return NULL;
}
if (res_domain_ref->count == 0) {
ret_domain = ldb_search(ldb, mem_ctx,
&res_domain_ref,
samdb_dns_domain_to_dn(ldb, mem_ctx, domain_name),
LDB_SCOPE_BASE,
domain_ref2_attrs,
"(objectclass=domain)");
if (ret_domain != 0) {
return NULL;
}
if (res_domain_ref->count == 1) {
return res_domain_ref->msgs[0]->dn;
}
return NULL;
}
if (res_domain_ref->count > 1) {
DEBUG(0,("Found %d records matching domain [%s]\n",
ret_domain, domain_name));
return NULL;
}
return samdb_result_dn(ldb, mem_ctx, res_domain_ref->msgs[0], "nCName", NULL);
}
/*
use a GUID to find a DN
*/
int dsdb_find_dn_by_guid(struct ldb_context *ldb,
TALLOC_CTX *mem_ctx,
const char *guid_str, struct ldb_dn **dn)
{
int ret;
struct ldb_result *res;
const char *attrs[] = { NULL };
struct ldb_request *search_req;
char *expression;
struct ldb_search_options_control *options;
expression = talloc_asprintf(mem_ctx, "objectGUID=%s", guid_str);
if (!expression) {
DEBUG(0, (__location__ ": out of memory\n"));
return LDB_ERR_OPERATIONS_ERROR;
}
res = talloc_zero(mem_ctx, struct ldb_result);
if (!res) {
DEBUG(0, (__location__ ": out of memory\n"));
return LDB_ERR_OPERATIONS_ERROR;
}
ret = ldb_build_search_req(&search_req, ldb, mem_ctx,
ldb_get_default_basedn(ldb),
LDB_SCOPE_SUBTREE,
expression, attrs,
NULL,
res, ldb_search_default_callback,
NULL);
if (ret != LDB_SUCCESS) {
return ret;
}
/* we need to cope with cross-partition links, so search for
the GUID over all partitions */
options = talloc(search_req, struct ldb_search_options_control);
if (options == NULL) {
DEBUG(0, (__location__ ": out of memory\n"));
return LDB_ERR_OPERATIONS_ERROR;
}
options->search_options = LDB_SEARCH_OPTION_PHANTOM_ROOT;
ret = ldb_request_add_control(search_req, LDB_CONTROL_EXTENDED_DN_OID, true, NULL);
if (ret != LDB_SUCCESS) {
return ret;
}
ret = ldb_request_add_control(search_req,
LDB_CONTROL_SEARCH_OPTIONS_OID,
true, options);
if (ret != LDB_SUCCESS) {
return ret;
}
ret = ldb_request(ldb, search_req);
if (ret != LDB_SUCCESS) {
return ret;
}
ret = ldb_wait(search_req->handle, LDB_WAIT_ALL);
if (ret != LDB_SUCCESS) {
return ret;
}
/* this really should be exactly 1, but there is a bug in the
partitions module that can return two here with the
search_options control set */
if (res->count < 1) {
return LDB_ERR_NO_SUCH_OBJECT;
}
*dn = res->msgs[0]->dn;
return LDB_SUCCESS;
}
/*
search for attrs on one DN, allowing for deleted objects
*/
int dsdb_search_dn_with_deleted(struct ldb_context *ldb,
TALLOC_CTX *mem_ctx,
struct ldb_result **_res,
struct ldb_dn *basedn,
const char * const *attrs)
{
int ret;
struct ldb_request *req;
TALLOC_CTX *tmp_ctx;
struct ldb_result *res;
tmp_ctx = talloc_new(mem_ctx);
res = talloc_zero(tmp_ctx, struct ldb_result);
if (!res) {
return LDB_ERR_OPERATIONS_ERROR;
}
ret = ldb_build_search_req(&req, ldb, tmp_ctx,
basedn,
LDB_SCOPE_BASE,
NULL,
attrs,
NULL,
res,
ldb_search_default_callback,
NULL);
if (ret != LDB_SUCCESS) {
talloc_free(tmp_ctx);
return ret;
}
ret = ldb_request_add_control(req, LDB_CONTROL_SHOW_DELETED_OID, true, NULL);
if (ret != LDB_SUCCESS) {
return ret;
}
ret = ldb_request(ldb, req);
if (ret == LDB_SUCCESS) {
ret = ldb_wait(req->handle, LDB_WAIT_ALL);
}
talloc_free(req);
*_res = talloc_steal(mem_ctx, res);
return ret;
}
/*
use a DN to find a GUID
*/
int dsdb_find_guid_by_dn(struct ldb_context *ldb,
struct ldb_dn *dn, struct GUID *guid)
{
int ret;
struct ldb_result *res;
const char *attrs[] = { "objectGUID", NULL };
TALLOC_CTX *tmp_ctx = talloc_new(ldb);
ret = dsdb_search_dn_with_deleted(ldb, tmp_ctx, &res, dn, attrs);
if (ret != LDB_SUCCESS) {
talloc_free(tmp_ctx);
return ret;
}
if (res->count < 1) {
talloc_free(tmp_ctx);
return LDB_ERR_NO_SUCH_OBJECT;
}
*guid = samdb_result_guid(res->msgs[0], "objectGUID");
talloc_free(tmp_ctx);
return LDB_SUCCESS;
}
/*
adds the given GUID to the given ldb_message. This value is added
for the given attr_name (may be either "objectGUID" or "parentGUID").
*/
int dsdb_msg_add_guid(struct ldb_message *msg,
struct GUID *guid,
const char *attr_name)
{
int ret;
struct ldb_val v;
NTSTATUS status;
TALLOC_CTX *tmp_ctx = talloc_init("dsdb_msg_add_guid");
status = GUID_to_ndr_blob(guid, tmp_ctx, &v);
if (!NT_STATUS_IS_OK(status)) {
ret = LDB_ERR_OPERATIONS_ERROR;
goto done;
}
ret = ldb_msg_add_steal_value(msg, attr_name, &v);
if (ret != LDB_SUCCESS) {
DEBUG(4,(__location__ ": Failed to add %s to the message\n",
attr_name));
goto done;
}
ret = LDB_SUCCESS;
done:
talloc_free(tmp_ctx);
return ret;
}
/*
use a DN to find a SID
*/
int dsdb_find_sid_by_dn(struct ldb_context *ldb,
struct ldb_dn *dn, struct dom_sid *sid)
{
int ret;
struct ldb_result *res;
const char *attrs[] = { "objectSID", NULL };
TALLOC_CTX *tmp_ctx = talloc_new(ldb);
struct dom_sid *s;
ZERO_STRUCTP(sid);
ret = dsdb_search_dn_with_deleted(ldb, tmp_ctx, &res, dn, attrs);
if (ret != LDB_SUCCESS) {
talloc_free(tmp_ctx);
return ret;
}
if (res->count < 1) {
talloc_free(tmp_ctx);
return LDB_ERR_NO_SUCH_OBJECT;
}
s = samdb_result_dom_sid(tmp_ctx, res->msgs[0], "objectSID");
if (s == NULL) {
talloc_free(tmp_ctx);
return LDB_ERR_NO_SUCH_OBJECT;
}
*sid = *s;
talloc_free(tmp_ctx);
return LDB_SUCCESS;
}
/*
load a repsFromTo blob list for a given partition GUID
attr must be "repsFrom" or "repsTo"
*/
WERROR dsdb_loadreps(struct ldb_context *sam_ctx, TALLOC_CTX *mem_ctx, struct ldb_dn *dn,
const char *attr, struct repsFromToBlob **r, uint32_t *count)
{
const char *attrs[] = { attr, NULL };
struct ldb_result *res = NULL;
TALLOC_CTX *tmp_ctx = talloc_new(mem_ctx);
int i;
struct ldb_message_element *el;
*r = NULL;
*count = 0;
if (ldb_search(sam_ctx, tmp_ctx, &res, dn, LDB_SCOPE_BASE, attrs, NULL) != LDB_SUCCESS ||
res->count < 1) {
DEBUG(0,("dsdb_loadreps: failed to read partition object\n"));
talloc_free(tmp_ctx);
return WERR_DS_DRA_INTERNAL_ERROR;
}
el = ldb_msg_find_element(res->msgs[0], attr);
if (el == NULL) {
/* it's OK to be empty */
talloc_free(tmp_ctx);
return WERR_OK;
}
*count = el->num_values;
*r = talloc_array(mem_ctx, struct repsFromToBlob, *count);
if (*r == NULL) {
talloc_free(tmp_ctx);
return WERR_DS_DRA_INTERNAL_ERROR;
}
for (i=0; i<(*count); i++) {
enum ndr_err_code ndr_err;
ndr_err = ndr_pull_struct_blob(&el->values[i],
mem_ctx, lp_iconv_convenience(ldb_get_opaque(sam_ctx, "loadparm")),
&(*r)[i],
(ndr_pull_flags_fn_t)ndr_pull_repsFromToBlob);
if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) {
talloc_free(tmp_ctx);
return WERR_DS_DRA_INTERNAL_ERROR;
}
}
talloc_free(tmp_ctx);
return WERR_OK;
}
/*
save the repsFromTo blob list for a given partition GUID
attr must be "repsFrom" or "repsTo"
*/
WERROR dsdb_savereps(struct ldb_context *sam_ctx, TALLOC_CTX *mem_ctx, struct ldb_dn *dn,
const char *attr, struct repsFromToBlob *r, uint32_t count)
{
TALLOC_CTX *tmp_ctx = talloc_new(mem_ctx);
struct ldb_message *msg;
struct ldb_message_element *el;
int i;
msg = ldb_msg_new(tmp_ctx);
msg->dn = dn;
if (ldb_msg_add_empty(msg, attr, LDB_FLAG_MOD_REPLACE, &el) != LDB_SUCCESS) {
goto failed;
}
el->values = talloc_array(msg, struct ldb_val, count);
if (!el->values) {
goto failed;
}
for (i=0; i<count; i++) {
struct ldb_val v;
enum ndr_err_code ndr_err;
ndr_err = ndr_push_struct_blob(&v, tmp_ctx, lp_iconv_convenience(ldb_get_opaque(sam_ctx, "loadparm")),
&r[i],
(ndr_push_flags_fn_t)ndr_push_repsFromToBlob);
if (!NDR_ERR_CODE_IS_SUCCESS(ndr_err)) {
goto failed;
}
el->num_values++;
el->values[i] = v;
}
if (ldb_modify(sam_ctx, msg) != LDB_SUCCESS) {
DEBUG(0,("Failed to store %s - %s\n", attr, ldb_errstring(sam_ctx)));
goto failed;
}
talloc_free(tmp_ctx);
return WERR_OK;
failed:
talloc_free(tmp_ctx);
return WERR_DS_DRA_INTERNAL_ERROR;
}
/*
load the uSNHighest attribute from the @REPLCHANGED object for a
partition
*/
int dsdb_load_partition_usn(struct ldb_context *ldb, struct ldb_dn *dn, uint64_t *uSN)
{
struct ldb_request *req;
int ret;
TALLOC_CTX *tmp_ctx = talloc_new(ldb);
struct dsdb_control_current_partition *p_ctrl;
struct ldb_result *res;
res = talloc_zero(tmp_ctx, struct ldb_result);
if (!res) {
talloc_free(tmp_ctx);
return LDB_ERR_OPERATIONS_ERROR;
}
ret = ldb_build_search_req(&req, ldb, tmp_ctx,
ldb_dn_new(tmp_ctx, ldb, "@REPLCHANGED"),
LDB_SCOPE_BASE,
NULL, NULL,
NULL,
res, ldb_search_default_callback,
NULL);
if (ret != LDB_SUCCESS) {
talloc_free(tmp_ctx);
return ret;
}
p_ctrl = talloc(req, struct dsdb_control_current_partition);
if (p_ctrl == NULL) {
talloc_free(res);
return LDB_ERR_OPERATIONS_ERROR;
}
p_ctrl->version = DSDB_CONTROL_CURRENT_PARTITION_VERSION;
p_ctrl->dn = dn;
ret = ldb_request_add_control(req,
DSDB_CONTROL_CURRENT_PARTITION_OID,
false, p_ctrl);
if (ret != LDB_SUCCESS) {
talloc_free(tmp_ctx);
return ret;
}
/* Run the new request */
ret = ldb_request(ldb, req);
if (ret == LDB_SUCCESS) {
ret = ldb_wait(req->handle, LDB_WAIT_ALL);
}
if (ret == LDB_ERR_NO_SUCH_OBJECT) {
/* it hasn't been created yet, which means
an implicit value of zero */
*uSN = 0;
talloc_free(tmp_ctx);
return LDB_SUCCESS;
}
if (ret != LDB_SUCCESS) {
talloc_free(tmp_ctx);
return ret;
}
if (res->count < 1) {
*uSN = 0;
} else {
*uSN = ldb_msg_find_attr_as_uint64(res->msgs[0], "uSNHighest", 0);
}
talloc_free(tmp_ctx);
return LDB_SUCCESS;
}
/*
save the uSNHighest attribute in the @REPLCHANGED object for a
partition
*/
int dsdb_save_partition_usn(struct ldb_context *ldb, struct ldb_dn *dn, uint64_t uSN)
{
struct ldb_request *req;
struct ldb_message *msg;
struct dsdb_control_current_partition *p_ctrl;
int ret;
msg = ldb_msg_new(ldb);
if (msg == NULL) {
return LDB_ERR_OPERATIONS_ERROR;
}
msg->dn = ldb_dn_new(msg, ldb, "@REPLCHANGED");
if (msg->dn == NULL) {
talloc_free(msg);
return LDB_ERR_OPERATIONS_ERROR;
}
ret = ldb_msg_add_fmt(msg, "uSNHighest", "%llu", (unsigned long long)uSN);
if (ret != LDB_SUCCESS) {
talloc_free(msg);
return ret;
}
msg->elements[0].flags = LDB_FLAG_MOD_REPLACE;
p_ctrl = talloc(msg, struct dsdb_control_current_partition);
if (p_ctrl == NULL) {
talloc_free(msg);
return LDB_ERR_OPERATIONS_ERROR;
}
p_ctrl->version = DSDB_CONTROL_CURRENT_PARTITION_VERSION;
p_ctrl->dn = dn;
ret = ldb_build_mod_req(&req, ldb, msg,
msg,
NULL,
NULL, ldb_op_default_callback,
NULL);
again:
if (ret != LDB_SUCCESS) {
talloc_free(msg);
return ret;
}
ret = ldb_request_add_control(req,
DSDB_CONTROL_CURRENT_PARTITION_OID,
false, p_ctrl);
if (ret != LDB_SUCCESS) {
talloc_free(msg);
return ret;
}
/* Run the new request */
ret = ldb_request(ldb, req);
if (ret == LDB_SUCCESS) {
ret = ldb_wait(req->handle, LDB_WAIT_ALL);
}
if (ret == LDB_ERR_NO_SUCH_OBJECT) {
ret = ldb_build_add_req(&req, ldb, msg,
msg,
NULL,
NULL, ldb_op_default_callback,
NULL);
goto again;
}
talloc_free(msg);
return ret;
}
int drsuapi_DsReplicaCursor2_compare(const struct drsuapi_DsReplicaCursor2 *c1,
const struct drsuapi_DsReplicaCursor2 *c2)
{
return GUID_compare(&c1->source_dsa_invocation_id, &c2->source_dsa_invocation_id);
}
/*
see if we are a RODC
TODO: This should take a sam_ctx, and lookup the right object (with
a cache)
*/
bool samdb_rodc(struct loadparm_context *lp_ctx)
{
return lp_parm_bool(lp_ctx, NULL, "repl", "RODC", false);
}
/*
return NTDS options flags. See MS-ADTS 7.1.1.2.2.1.2.1.1
flags are DS_NTDS_OPTION_*
*/
int samdb_ntds_options(struct ldb_context *ldb, uint32_t *options)
{
TALLOC_CTX *tmp_ctx;
const char *attrs[] = { "options", NULL };
int ret;
struct ldb_result *res;
tmp_ctx = talloc_new(ldb);
if (tmp_ctx == NULL) {
goto failed;
}
ret = ldb_search(ldb, tmp_ctx, &res, samdb_ntds_settings_dn(ldb), LDB_SCOPE_BASE, attrs, NULL);
if (ret) {
goto failed;
}
if (res->count != 1) {
goto failed;
}
*options = samdb_result_uint(res->msgs[0], "options", 0);
talloc_free(tmp_ctx);
return LDB_SUCCESS;
failed:
DEBUG(1,("Failed to find our own NTDS Settings objectGUID in the ldb!\n"));
talloc_free(tmp_ctx);
return LDB_ERR_NO_SUCH_OBJECT;
}
/*
* Function which generates a "lDAPDisplayName" attribute from a "CN" one.
* Algorithm implemented according to MS-ADTS 3.1.1.2.3.4
*/
const char *samdb_cn_to_lDAPDisplayName(TALLOC_CTX *mem_ctx, const char *cn)
{
char **tokens, *ret;
size_t i;
tokens = str_list_make(mem_ctx, cn, " -_");
if (tokens == NULL)
return NULL;
/* "tolower()" and "toupper()" should also work properly on 0x00 */
tokens[0][0] = tolower(tokens[0][0]);
for (i = 1; i < str_list_length((const char **)tokens); i++)
tokens[i][0] = toupper(tokens[i][0]);
ret = talloc_strdup(mem_ctx, tokens[0]);
for (i = 1; i < str_list_length((const char **)tokens); i++)
ret = talloc_asprintf_append_buffer(ret, "%s", tokens[i]);
talloc_free(tokens);
return ret;
}
/*
return domain functional level
returns DS_DOMAIN_FUNCTION_*
*/
int dsdb_functional_level(struct ldb_context *ldb)
{
int *domainFunctionality =
talloc_get_type(ldb_get_opaque(ldb, "domainFunctionality"), int);
if (!domainFunctionality) {
DEBUG(0,(__location__ ": WARNING: domainFunctionality not setup\n"));
return DS_DOMAIN_FUNCTION_2000;
}
return *domainFunctionality;
}
/*
return a GUID from a extended DN structure
*/
NTSTATUS dsdb_get_extended_dn_guid(struct ldb_dn *dn, struct GUID *guid)
{
const struct ldb_val *v;
v = ldb_dn_get_extended_component(dn, "GUID");
if (v == NULL) {
return NT_STATUS_OBJECT_NAME_NOT_FOUND;
}
return GUID_from_ndr_blob(v, guid);
}
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