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|
/*
* Unix SMB/CIFS implementation.
* MS-RPC client internal functions
* Copyright (C) Chris Nicholls 2005.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 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, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include "libmsrpc.h"
#include "libmsrpc_internal.h"
/*used to get a struct rpc_pipe_client* to be passed into rpccli* calls*/
struct rpc_pipe_client *cac_GetPipe(CacServerHandle *hnd, int pi_idx) {
SMBCSRV *srv = NULL;
struct rpc_pipe_client *pipe_hnd = NULL;
if(!hnd)
return NULL;
if(hnd->_internal.pipes[pi_idx] == False) {
hnd->status = NT_STATUS_INVALID_HANDLE;
return NULL;
}
srv = cac_GetServer(hnd);
if(!srv) {
hnd->status = NT_STATUS_INVALID_CONNECTION;
return NULL;
}
pipe_hnd = srv->cli.pipe_list;
while(pipe_hnd != NULL && pipe_hnd->pipe_idx != pi_idx)
pipe_hnd = pipe_hnd->next;
return pipe_hnd;
}
/*takes a string like HKEY_LOCAL_MACHINE\HARDWARE\ACPI and returns the reg_type code and then a pointer to the start of the path (HARDWARE)*/
int cac_ParseRegPath(char *path, uint32 *reg_type, char **key_name) {
if(!path)
return CAC_FAILURE;
if(strncmp(path, "HKLM", 4) == 0) {
*reg_type = HKEY_LOCAL_MACHINE;
*key_name = (path[4] == '\\') ? path + 5 : NULL;
}
else if(strncmp(path, "HKEY_LOCAL_MACHINE", 18) == 0) {
*reg_type = HKEY_LOCAL_MACHINE;
*key_name = (path[18] == '\\') ? path + 19 : NULL;
}
else if(strncmp(path, "HKCR", 4) == 0) {
*reg_type = HKEY_CLASSES_ROOT;
*key_name = (path[4] == '\\') ? path + 5 : NULL;
}
else if(strncmp(path, "HKEY_CLASSES_ROOT", 17) == 0) {
*reg_type = HKEY_CLASSES_ROOT;
*key_name = (path[17] == '\\') ? path + 18 : NULL;
}
else if(strncmp(path, "HKU", 3) == 0) {
*reg_type = HKEY_USERS;
*key_name = (path[3] == '\\') ? path + 4 : NULL;
}
else if(strncmp(path, "HKEY_USERS", 10) == 0) {
*reg_type = HKEY_USERS;
*key_name = (path[10] == '\\') ? path + 11 : NULL;
}
else if(strncmp(path, "HKPD", 4) == 0) {
*reg_type = HKEY_PERFORMANCE_DATA;
*key_name = (path[4] == '\\') ? path + 5 : NULL;
}
else if(strncmp(path, "HKEY_PERFORMANCE_DATA", 21) == 0) {
*reg_type = HKEY_PERFORMANCE_DATA;
*key_name = (path[21] == '\\') ? path + 22 : NULL;
}
else {
return CAC_FAILURE;
}
return CAC_SUCCESS;
}
RPC_DATA_BLOB *cac_MakeRpcDataBlob(TALLOC_CTX *mem_ctx, uint32 data_type, REG_VALUE_DATA data) {
RPC_DATA_BLOB *blob = NULL;
int i;
uint32 size = 0;
uint8 *multi = NULL;
uint32 multi_idx = 0;
blob = talloc(mem_ctx, RPC_DATA_BLOB);
if(!blob) {
errno = ENOMEM;
return NULL;
}
switch(data_type) {
case REG_SZ:
init_rpc_blob_str(blob, data.reg_sz, strlen(data.reg_sz ) + 1);
break;
case REG_EXPAND_SZ:
init_rpc_blob_str(blob, data.reg_expand_sz, strlen(data.reg_sz) + 1);
break;
case REG_BINARY:
init_rpc_blob_bytes(blob, data.reg_binary.data, data.reg_binary.data_length);
break;
case REG_DWORD:
init_rpc_blob_uint32(blob, data.reg_dword);
break;
case REG_DWORD_BE:
init_rpc_blob_uint32(blob, data.reg_dword_be);
break;
case REG_MULTI_SZ:
/*need to find the size*/
for(i = 0; i < data.reg_multi_sz.num_strings; i++) {
size += strlen(data.reg_multi_sz.strings[i]) + 1;
}
/**need a whole bunch of unicode strings in a row (seperated by null characters), with an extra null-character on the end*/
multi = TALLOC_ZERO_ARRAY(mem_ctx, uint8, (size + 1)*2); /*size +1 for the extra null character*/
if(!multi) {
errno = ENOMEM;
break;
}
/*do it using rpcstr_push()*/
multi_idx = 0;
for(i = 0; i < data.reg_multi_sz.num_strings; i++) {
size_t len = strlen(data.reg_multi_sz.strings[i]) + 1;
rpcstr_push((multi + multi_idx), data.reg_multi_sz.strings[i], len * 2, STR_TERMINATE);
/* x2 becuase it is a uint8 buffer*/
multi_idx += len * 2;
}
/*now initialize the buffer as binary data*/
init_rpc_blob_bytes(blob, multi, (size + 1)*2);
break;
default:
TALLOC_FREE(blob);
blob = NULL;
return NULL;
}
if(!(blob->buffer)) {
TALLOC_FREE(blob);
return NULL;
}
return blob;
}
/*turns a string in a uint16 array to a char array*/
char *cac_unistr_to_str(TALLOC_CTX *mem_ctx, uint16 *src, int num_bytes) {
char *buf;
int i = 0;
uint32 str_len = 0;
/*don't allocate more space than we need*/
while( (str_len) < num_bytes/2 && src[str_len] != 0x0000)
str_len++;
/*need room for a '\0'*/
str_len++;
buf = talloc_array(mem_ctx, char, str_len);
if(!buf) {
return NULL;
}
for(i = 0; i < num_bytes/2; i++) {
buf[i] = ((char *)src)[2*i];
}
buf[str_len - 1] = '\0';
return buf;
}
REG_VALUE_DATA *cac_MakeRegValueData(TALLOC_CTX *mem_ctx, uint32 data_type, REGVAL_BUFFER buf) {
REG_VALUE_DATA *data;
uint32 i;
/*all of the following used for MULTI_SZ data*/
uint32 size = 0;
uint32 len = 0;
uint32 multi_idx = 0;
uint32 num_strings= 0;
char **strings = NULL;
data = talloc(mem_ctx, REG_VALUE_DATA);
if(!data) {
errno = ENOMEM;
return NULL;
}
switch (data_type) {
case REG_SZ:
data->reg_sz = cac_unistr_to_str(mem_ctx, buf.buffer, buf.buf_len);
if(!data->reg_sz) {
TALLOC_FREE(data);
errno = ENOMEM;
data = NULL;
}
break;
case REG_EXPAND_SZ:
data->reg_expand_sz = cac_unistr_to_str(mem_ctx, buf.buffer, buf.buf_len);
if(!data->reg_expand_sz) {
TALLOC_FREE(data);
errno = ENOMEM;
data = NULL;
}
break;
case REG_BINARY:
size = buf.buf_len;
data->reg_binary.data_length = size;
data->reg_binary.data = talloc_memdup(mem_ctx, buf.buffer, size);
if(!data->reg_binary.data) {
TALLOC_FREE(data);
errno = ENOMEM;
data = NULL;
}
break;
case REG_DWORD:
data->reg_dword = *((uint32 *)buf.buffer);
break;
case REG_DWORD_BE:
data->reg_dword_be = *((uint32 *)buf.buffer);
break;
case REG_MULTI_SZ:
size = buf.buf_len;
/*find out how many strings there are. size is # of bytes and we want to work uint16*/
for(i = 0; i < (size/2 - 1); i++) {
if(buf.buffer[i] == 0x0000)
num_strings++;
/*buffer is suppsed to be terminated with \0\0, but it might not be*/
if(buf.buffer[i] == 0x0000 && buf.buffer[i + 1] == 0x0000)
break;
}
strings = talloc_array(mem_ctx, char *, num_strings);
if(!strings) {
errno = ENOMEM;
TALLOC_FREE(data);
break;
}
if(num_strings == 0) /*then our work here is done*/
break;
for(i = 0; i < num_strings; i++) {
/*find out how many characters are in this string*/
len = 0;
/*make sure we don't go past the end of the buffer and keep looping until we have a uni \0*/
while( multi_idx + len < size/2 && buf.buffer[multi_idx + len] != 0x0000)
len++;
/*stay aware of the \0\0*/
len++;
strings[i] = TALLOC_ZERO_ARRAY(mem_ctx, char, len);
/*pull out the unicode string*/
rpcstr_pull(strings[i], (buf.buffer + multi_idx) , len, -1, STR_TERMINATE);
/*keep track of where we are in the bigger array*/
multi_idx += len;
}
data->reg_multi_sz.num_strings = num_strings;
data->reg_multi_sz.strings = strings;
break;
default:
TALLOC_FREE(data);
data = NULL;
}
return data;
}
SAM_USERINFO_CTR *cac_MakeUserInfoCtr(TALLOC_CTX *mem_ctx, CacUserInfo *info) {
SAM_USERINFO_CTR *ctr = NULL;
/*the flags we are 'setting'- include/passdb.h*/
uint32 flags = ACCT_USERNAME | ACCT_FULL_NAME | ACCT_PRIMARY_GID | ACCT_ADMIN_DESC | ACCT_DESCRIPTION |
ACCT_HOME_DIR | ACCT_HOME_DRIVE | ACCT_LOGON_SCRIPT | ACCT_PROFILE | ACCT_WORKSTATIONS |
ACCT_FLAGS;
NTTIME logon_time;
NTTIME logoff_time;
NTTIME kickoff_time;
NTTIME pass_last_set_time;
NTTIME pass_can_change_time;
NTTIME pass_must_change_time;
UNISTR2 user_name;
UNISTR2 full_name;
UNISTR2 home_dir;
UNISTR2 dir_drive;
UNISTR2 log_scr;
UNISTR2 prof_path;
UNISTR2 desc;
UNISTR2 wkstas;
UNISTR2 mung_dial;
UNISTR2 unk;
ctr = talloc(mem_ctx, SAM_USERINFO_CTR);
if(!ctr)
return NULL;
ZERO_STRUCTP(ctr->info.id23);
ctr->info.id21 = talloc(mem_ctx, SAM_USER_INFO_21);
if(!ctr->info.id21)
return NULL;
ctr->switch_value = 21;
ZERO_STRUCTP(ctr->info.id21);
unix_to_nt_time(&logon_time, info->logon_time);
unix_to_nt_time(&logoff_time, info->logoff_time);
unix_to_nt_time(&kickoff_time, info->kickoff_time);
unix_to_nt_time(&pass_last_set_time, info->pass_last_set_time);
unix_to_nt_time(&pass_can_change_time, info->pass_can_change_time);
unix_to_nt_time(&pass_must_change_time, info->pass_must_change_time);
/*initialize the strings*/
init_unistr2(&user_name, info->username, STR_TERMINATE);
init_unistr2(&full_name, info->full_name, STR_TERMINATE);
init_unistr2(&home_dir, info->home_dir, STR_TERMINATE);
init_unistr2(&dir_drive, info->home_drive, STR_TERMINATE);
init_unistr2(&log_scr, info->logon_script, STR_TERMINATE);
init_unistr2(&prof_path, info->profile_path, STR_TERMINATE);
init_unistr2(&desc, info->description, STR_TERMINATE);
init_unistr2(&wkstas, info->workstations, STR_TERMINATE);
init_unistr2(&unk, "\0", STR_TERMINATE);
init_unistr2(&mung_dial, info->dial, STR_TERMINATE);
/*manually set passmustchange*/
ctr->info.id21->passmustchange = (info->pass_must_change) ? 0x01 : 0x00;
init_sam_user_info21W(ctr->info.id21,
&logon_time,
&logoff_time,
&kickoff_time,
&pass_last_set_time,
&pass_can_change_time,
&pass_must_change_time,
&user_name,
&full_name,
&home_dir,
&dir_drive,
&log_scr,
&prof_path,
&desc,
&wkstas,
&unk,
&mung_dial,
info->lm_password,
info->nt_password,
info->rid,
info->group_rid,
info->acb_mask,
flags,
168, /*logon divs*/
info->logon_hours,
info->bad_passwd_count,
info->logon_count);
return ctr;
}
char *talloc_unistr2_to_ascii(TALLOC_CTX *mem_ctx, UNISTR2 str) {
char *buf = NULL;
if(!mem_ctx)
return NULL;
buf = talloc_array(mem_ctx, char, (str.uni_str_len + 1));
if(!buf)
return NULL;
unistr2_to_ascii(buf, &str, str.uni_str_len + 1);
return buf;
}
CacUserInfo *cac_MakeUserInfo(TALLOC_CTX *mem_ctx, SAM_USERINFO_CTR *ctr) {
CacUserInfo *info = NULL;
SAM_USER_INFO_21 *id21 = NULL;
if(!ctr || ctr->switch_value != 21)
return NULL;
info = talloc(mem_ctx, CacUserInfo);
if(!info)
return NULL;
id21 = ctr->info.id21;
ZERO_STRUCTP(info);
info->logon_time = nt_time_to_unix(&id21->logon_time);
info->logoff_time = nt_time_to_unix(&id21->logoff_time);
info->kickoff_time = nt_time_to_unix(&id21->kickoff_time);
info->pass_last_set_time = nt_time_to_unix(&id21->pass_last_set_time);
info->pass_can_change_time = nt_time_to_unix(&id21->pass_can_change_time);
info->pass_must_change_time = nt_time_to_unix(&id21->pass_must_change_time);
info->username = talloc_unistr2_to_ascii(mem_ctx, id21->uni_user_name);
if(!info->username)
return NULL;
info->full_name = talloc_unistr2_to_ascii(mem_ctx, id21->uni_full_name);
if(!info->full_name)
return NULL;
info->home_dir = talloc_unistr2_to_ascii(mem_ctx, id21->uni_home_dir);
if(!info->home_dir)
return NULL;
info->home_drive = talloc_unistr2_to_ascii(mem_ctx, id21->uni_dir_drive);
if(!info->home_drive)
return NULL;
info->logon_script = talloc_unistr2_to_ascii(mem_ctx, id21->uni_logon_script);
if(!info->logon_script)
return NULL;
info->profile_path = talloc_unistr2_to_ascii(mem_ctx, id21->uni_profile_path);
if(!info->profile_path)
return NULL;
info->description = talloc_unistr2_to_ascii(mem_ctx, id21->uni_acct_desc);
if(!info->description)
return NULL;
info->workstations = talloc_unistr2_to_ascii(mem_ctx, id21->uni_workstations);
if(!info->workstations)
return NULL;
info->dial = talloc_unistr2_to_ascii(mem_ctx, id21->uni_munged_dial);
if(!info->dial)
return NULL;
info->rid = id21->user_rid;
info->group_rid = id21->group_rid;
info->acb_mask = id21->acb_info;
info->bad_passwd_count = id21->bad_password_count;
info->logon_count = id21->logon_count;
memcpy(info->nt_password, id21->nt_pwd, 8);
memcpy(info->lm_password, id21->lm_pwd, 8);
info->logon_hours = talloc_memdup(mem_ctx, &(id21->logon_hrs), sizeof(LOGON_HRS));
if(!info->logon_hours)
return NULL;
info->pass_must_change = (id21->passmustchange) ? True : False;
return info;
}
CacGroupInfo *cac_MakeGroupInfo(TALLOC_CTX *mem_ctx, GROUP_INFO_CTR *ctr) {
CacGroupInfo *info = NULL;
if(!mem_ctx || !ctr || ctr->switch_value1 != 1)
return NULL;
info = talloc(mem_ctx, CacGroupInfo);
if(!info)
return NULL;
info->name = talloc_unistr2_to_ascii(mem_ctx, ctr->group.info1.uni_acct_name);
if(!info->name)
return NULL;
info->description = talloc_unistr2_to_ascii(mem_ctx, ctr->group.info1.uni_acct_desc);
if(!info->description)
return NULL;
info->num_members = ctr->group.info1.num_members;
return info;
}
GROUP_INFO_CTR *cac_MakeGroupInfoCtr(TALLOC_CTX *mem_ctx, CacGroupInfo *info) {
GROUP_INFO_CTR *ctr = NULL;
if(!mem_ctx || !info)
return NULL;
ctr = talloc(mem_ctx, GROUP_INFO_CTR);
if(!ctr)
return NULL;
ctr->switch_value1 = 1;
init_samr_group_info1(&(ctr->group.info1), info->name, info->description, info->num_members);
return ctr;
}
CacAliasInfo *cac_MakeAliasInfo(TALLOC_CTX *mem_ctx, ALIAS_INFO_CTR ctr) {
CacGroupInfo *info = NULL;
if(!mem_ctx || ctr.level != 1)
return NULL;
info = talloc(mem_ctx, CacAliasInfo);
if(!info)
return NULL;
info->name = talloc_unistr2_to_ascii(mem_ctx, *(ctr.alias.info1.name.string));
if(!info->name)
return NULL;
info->description = talloc_unistr2_to_ascii(mem_ctx, *(ctr.alias.info1.description.string));
if(!info->name)
return NULL;
info->num_members = ctr.alias.info1.num_member;
return info;
}
ALIAS_INFO_CTR *cac_MakeAliasInfoCtr(TALLOC_CTX *mem_ctx, CacAliasInfo *info) {
ALIAS_INFO_CTR *ctr = NULL;
if(!mem_ctx || !info)
return NULL;
ctr = talloc(mem_ctx, ALIAS_INFO_CTR);
if(!ctr)
return NULL;
ctr->level = 1;
init_samr_alias_info1(&(ctr->alias.info1), info->name, info->num_members, info->description);
return ctr;
}
CacDomainInfo *cac_MakeDomainInfo(TALLOC_CTX *mem_ctx, SAM_UNK_INFO_1 *info1, SAM_UNK_INFO_2 *info2, SAM_UNK_INFO_12 *info12) {
CacDomainInfo *info = NULL;
if(!mem_ctx || !info1 || !info2 || !info12)
return NULL;
info = talloc(mem_ctx, CacDomainInfo);
if(!info)
return NULL;
info->min_pass_length = info1->min_length_password;
info->pass_history = info1->password_history;
cac_InitCacTime(&(info->expire), info1->expire);
cac_InitCacTime(&(info->min_pass_age), info1->min_passwordage);
info->server_role = info2->server_role;
info->num_users = info2->num_domain_usrs;
info->num_domain_groups = info2->num_domain_grps;
info->num_local_groups = info2->num_local_grps;
/*if these have been ZERO'd out we need to know. uni_str_len will be 0*/
if(info2->uni_comment.uni_str_len == 0) {
info->comment = talloc_strdup(mem_ctx, "\0");
}
else {
info->comment = talloc_unistr2_to_ascii(mem_ctx, info2->uni_comment);
}
if(info2->uni_domain.uni_str_len == 0) {
info->domain_name = talloc_strdup(mem_ctx, "\0");
}
else {
info->domain_name = talloc_unistr2_to_ascii(mem_ctx, info2->uni_domain);
}
if(info2->uni_server.uni_str_len == 0) {
info->server_name = talloc_strdup(mem_ctx, "\0");
}
else {
info->server_name = talloc_unistr2_to_ascii(mem_ctx, info2->uni_server);
}
cac_InitCacTime(&(info->lockout_duration), info12->duration);
cac_InitCacTime(&(info->lockout_reset), info12->reset_count);
info->num_bad_attempts = info12->bad_attempt_lockout;
return info;
}
char *cac_unistr_ascii(TALLOC_CTX *mem_ctx, UNISTR src) {
char *buf;
uint32 len;
if(!mem_ctx || !src.buffer)
return NULL;
len = unistrlen(src.buffer) + 1;
buf = TALLOC_ZERO_ARRAY(mem_ctx, char, len);
if(!buf)
return NULL;
rpcstr_pull(buf, src.buffer, len, -1, STR_TERMINATE);
return buf;
}
CacService *cac_MakeServiceArray(TALLOC_CTX *mem_ctx, ENUM_SERVICES_STATUS *svc, uint32 num_services) {
int i;
CacService *services = NULL;
if(!mem_ctx || !svc)
return NULL;
services = TALLOC_ZERO_ARRAY(mem_ctx, CacService, num_services);
if(!services)
return NULL;
for(i = 0; i < num_services; i++) {
services[i].service_name = cac_unistr_ascii(mem_ctx, svc[i].servicename);
services[i].display_name = cac_unistr_ascii(mem_ctx, svc[i].displayname);
if(!services[i].service_name || !services[i].display_name)
return NULL;
services[i].status = svc[i].status;
}
return services;
}
int cac_InitCacServiceConfig(TALLOC_CTX *mem_ctx, SERVICE_CONFIG *src, CacServiceConfig *dest) {
if(!src || !dest)
return CAC_FAILURE;
dest->exe_path = talloc_unistr2_to_ascii(mem_ctx, *src->executablepath);
if(!dest->exe_path)
return CAC_FAILURE;
dest->load_order_group = talloc_unistr2_to_ascii(mem_ctx, *src->loadordergroup);
if(!dest->load_order_group)
return CAC_FAILURE;
dest->dependencies = talloc_unistr2_to_ascii(mem_ctx, *src->dependencies);
if(!dest->dependencies)
return CAC_FAILURE;
dest->start_name = talloc_unistr2_to_ascii(mem_ctx, *src->startname);
if(!dest->start_name)
return CAC_FAILURE;
dest->display_name = talloc_unistr2_to_ascii(mem_ctx, *src->displayname);
if(!dest->display_name)
return CAC_FAILURE;
dest->type = src->service_type;
dest->start_type = src->start_type;
dest->error_control = src->error_control;
dest->tag_id = src->tag_id;
return CAC_SUCCESS;
}
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