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samba-mirror/source3/utils/net_rpc.c

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/*
Samba Unix/Linux SMB client library
Distributed SMB/CIFS Server Management Utility
Copyright (C) 2001 Andrew Bartlett (abartlet@samba.org)
Copyright (C) 2002 Jim McDonough (jmcd@us.ibm.com)
Copyright (C) 2004 Guenther Deschner (gd@samba.org)
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 "includes.h"
#include "utils/net.h"
/**
* @file net_rpc.c
*
* @brief RPC based subcommands for the 'net' utility.
*
* This file should contain much of the functionality that used to
* be found in rpcclient, execpt that the commands should change
* less often, and the fucntionality should be sane (the user is not
* expected to know a rid/sid before they conduct an operation etc.)
*
* @todo Perhaps eventually these should be split out into a number
* of files, as this could get quite big.
**/
/* A function of this type is passed to the 'run_rpc_command' wrapper */
typedef NTSTATUS (*rpc_command_fn)(const DOM_SID *, const char *,
struct cli_state *, TALLOC_CTX *, int, const char **);
/**
* Many of the RPC functions need the domain sid. This function gets
* it at the start of every run
*
* @param cli A cli_state already connected to the remote machine
*
* @return The Domain SID of the remote machine.
**/
static DOM_SID *net_get_remote_domain_sid(struct cli_state *cli, TALLOC_CTX *mem_ctx, char **domain_name)
{
DOM_SID *domain_sid;
POLICY_HND pol;
NTSTATUS result = NT_STATUS_OK;
uint32 info_class = 5;
if (!cli_nt_session_open (cli, PI_LSARPC)) {
fprintf(stderr, "could not initialise lsa pipe\n");
goto error;
}
result = cli_lsa_open_policy(cli, mem_ctx, False,
SEC_RIGHTS_MAXIMUM_ALLOWED,
&pol);
if (!NT_STATUS_IS_OK(result)) {
goto error;
}
result = cli_lsa_query_info_policy(cli, mem_ctx, &pol, info_class,
domain_name, &domain_sid);
if (!NT_STATUS_IS_OK(result)) {
error:
fprintf(stderr, "could not obtain sid for domain %s\n", cli->domain);
if (!NT_STATUS_IS_OK(result)) {
fprintf(stderr, "error: %s\n", nt_errstr(result));
}
exit(1);
}
cli_lsa_close(cli, mem_ctx, &pol);
cli_nt_session_close(cli);
return domain_sid;
}
/**
* Run a single RPC command, from start to finish.
*
* @param pipe_name the pipe to connect to (usually a PIPE_ constant)
* @param conn_flag a NET_FLAG_ combination. Passed to
* net_make_ipc_connection.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
* @return A shell status integer (0 for success)
*/
static int run_rpc_command(struct cli_state *cli_arg, const int pipe_idx, int conn_flags,
rpc_command_fn fn,
int argc, const char **argv)
{
struct cli_state *cli = NULL;
TALLOC_CTX *mem_ctx;
NTSTATUS nt_status;
DOM_SID *domain_sid;
char *domain_name;
/* make use of cli_state handed over as an argument, if possible */
if (!cli_arg)
cli = net_make_ipc_connection(conn_flags);
else
cli = cli_arg;
if (!cli) {
return -1;
}
/* Create mem_ctx */
if (!(mem_ctx = talloc_init("run_rpc_command"))) {
DEBUG(0, ("talloc_init() failed\n"));
cli_shutdown(cli);
return -1;
}
domain_sid = net_get_remote_domain_sid(cli, mem_ctx, &domain_name);
if (!(conn_flags & NET_FLAGS_NO_PIPE)) {
if (!cli_nt_session_open(cli, pipe_idx)) {
DEBUG(0, ("Could not initialise pipe\n"));
}
}
nt_status = fn(domain_sid, domain_name, cli, mem_ctx, argc, argv);
if (!NT_STATUS_IS_OK(nt_status)) {
DEBUG(1, ("rpc command function failed! (%s)\n", nt_errstr(nt_status)));
} else {
DEBUG(5, ("rpc command function succedded\n"));
}
if (!(conn_flags & NET_FLAGS_NO_PIPE)) {
if (cli->nt_pipe_fnum)
cli_nt_session_close(cli);
}
/* close the connection only if it was opened here */
if (!cli_arg)
cli_shutdown(cli);
talloc_destroy(mem_ctx);
return (!NT_STATUS_IS_OK(nt_status));
}
/****************************************************************************/
/**
* Force a change of the trust acccount password.
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid aquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on compleation of the function.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_changetrustpw_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv) {
return trust_pw_find_change_and_store_it(cli, mem_ctx, opt_target_workgroup);
}
/**
* Force a change of the trust acccount password.
*
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
int net_rpc_changetrustpw(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_NETLOGON, NET_FLAGS_ANONYMOUS | NET_FLAGS_PDC,
rpc_changetrustpw_internals,
argc, argv);
}
/****************************************************************************/
/**
* Join a domain, the old way.
*
* This uses 'machinename' as the inital password, and changes it.
*
* The password should be created with 'server manager' or equiv first.
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid aquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on compleation of the function.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_oldjoin_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv) {
fstring trust_passwd;
unsigned char orig_trust_passwd_hash[16];
NTSTATUS result;
uint32 sec_channel_type;
/*
check what type of join - if the user want's to join as
a BDC, the server must agree that we are a BDC.
*/
if (argc >= 0) {
sec_channel_type = get_sec_channel_type(argv[0]);
} else {
sec_channel_type = get_sec_channel_type(NULL);
}
fstrcpy(trust_passwd, global_myname());
strlower_m(trust_passwd);
/*
* Machine names can be 15 characters, but the max length on
* a password is 14. --jerry
*/
trust_passwd[14] = '\0';
E_md4hash(trust_passwd, orig_trust_passwd_hash);
result = trust_pw_change_and_store_it(cli, mem_ctx, opt_target_workgroup,
orig_trust_passwd_hash,
sec_channel_type);
if (NT_STATUS_IS_OK(result))
printf("Joined domain %s.\n",opt_target_workgroup);
if (!secrets_store_domain_sid(opt_target_workgroup, domain_sid)) {
DEBUG(0, ("error storing domain sid for %s\n", opt_target_workgroup));
result = NT_STATUS_UNSUCCESSFUL;
}
return result;
}
/**
* Join a domain, the old way.
*
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int net_rpc_perform_oldjoin(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_NETLOGON,
NET_FLAGS_ANONYMOUS | NET_FLAGS_PDC,
rpc_oldjoin_internals,
argc, argv);
}
/**
* Join a domain, the old way. This function exists to allow
* the message to be displayed when oldjoin was explicitly
* requested, but not when it was implied by "net rpc join"
*
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int net_rpc_oldjoin(int argc, const char **argv)
{
int rc = net_rpc_perform_oldjoin(argc, argv);
if (rc) {
d_printf("Failed to join domain\n");
}
return rc;
}
/**
* Basic usage function for 'net rpc join'
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
**/
static int rpc_join_usage(int argc, const char **argv)
{
d_printf("net rpc join -U <username>[%%password] <type>[options]\n"\
"\t to join a domain with admin username & password\n"\
"\t\t password will be prompted if needed and none is specified\n"\
"\t <type> can be (default MEMBER)\n"\
"\t\t BDC - Join as a BDC\n"\
"\t\t PDC - Join as a PDC\n"\
"\t\t MEMBER - Join as a MEMBER server\n");
net_common_flags_usage(argc, argv);
return -1;
}
/**
* 'net rpc join' entrypoint.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* Main 'net_rpc_join()' (where the admain username/password is used) is
* in net_rpc_join.c
* Try to just change the password, but if that doesn't work, use/prompt
* for a username/password.
**/
int net_rpc_join(int argc, const char **argv)
{
if ((net_rpc_perform_oldjoin(argc, argv) == 0))
return 0;
return net_rpc_join_newstyle(argc, argv);
}
/**
* display info about a rpc domain
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passed through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_info_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
POLICY_HND connect_pol, domain_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
SAM_UNK_CTR ctr;
fstring sid_str;
sid_to_string(sid_str, domain_sid);
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
ZERO_STRUCT(ctr);
result = cli_samr_query_dom_info(cli, mem_ctx, &domain_pol,
2, &ctr);
if (NT_STATUS_IS_OK(result)) {
TALLOC_CTX *ctx = talloc_init("rpc_info_internals");
d_printf("Domain Name: %s\n", unistr2_tdup(ctx, &ctr.info.inf2.uni_domain));
d_printf("Domain SID: %s\n", sid_str);
d_printf("Sequence number: %u\n", ctr.info.inf2.seq_num);
d_printf("Num users: %u\n", ctr.info.inf2.num_domain_usrs);
d_printf("Num domain groups: %u\n", ctr.info.inf2.num_domain_grps);
d_printf("Num local groups: %u\n", ctr.info.inf2.num_local_grps);
talloc_destroy(ctx);
}
done:
return result;
}
/**
* 'net rpc info' entrypoint.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_info(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, NET_FLAGS_ANONYMOUS | NET_FLAGS_PDC,
rpc_info_internals,
argc, argv);
}
/**
* Fetch domain SID into the local secrets.tdb
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_getsid_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
fstring sid_str;
sid_to_string(sid_str, domain_sid);
d_printf("Storing SID %s for Domain %s in secrets.tdb\n",
sid_str, domain_name);
if (!secrets_store_domain_sid(domain_name, domain_sid)) {
DEBUG(0,("Can't store domain SID\n"));
return NT_STATUS_UNSUCCESSFUL;
}
return NT_STATUS_OK;
}
/**
* 'net rpc getsid' entrypoint.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_getsid(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, NET_FLAGS_ANONYMOUS | NET_FLAGS_PDC,
rpc_getsid_internals,
argc, argv);
}
/****************************************************************************/
/**
* Basic usage function for 'net rpc user'
* @param argc Standard main() style argc.
* @param argv Standard main() style argv. Initial components are already
* stripped.
**/
static int rpc_user_usage(int argc, const char **argv)
{
return net_help_user(argc, argv);
}
/**
* Add a new user to a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_user_add_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv) {
POLICY_HND connect_pol, domain_pol, user_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
const char *acct_name;
uint16 acb_info;
uint32 unknown, user_rid;
if (argc != 1) {
d_printf("User must be specified\n");
rpc_user_usage(argc, argv);
return NT_STATUS_OK;
}
acct_name = argv[0];
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Create domain user */
acb_info = ACB_NORMAL;
unknown = 0xe005000b; /* No idea what this is - a permission mask? */
result = cli_samr_create_dom_user(cli, mem_ctx, &domain_pol,
acct_name, acb_info, unknown,
&user_pol, &user_rid);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
done:
if (!NT_STATUS_IS_OK(result)) {
d_printf("Failed to add user %s - %s\n", acct_name,
nt_errstr(result));
} else {
d_printf("Added user %s\n", acct_name);
}
return result;
}
/**
* Add a new user to a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_user_add(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0, rpc_user_add_internals,
argc, argv);
}
/**
* Delete a user from a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_user_del_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
POLICY_HND connect_pol, domain_pol, user_pol;
if (argc < 1) {
d_printf("User must be specified\n");
rpc_user_usage(argc, argv);
return NT_STATUS_OK;
}
/* Get sam policy and domain handles */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get handle on user */
{
uint32 *user_rids, num_rids, *name_types;
uint32 flags = 0x000003e8; /* Unknown */
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol,
flags, 1, &argv[0],
&num_rids, &user_rids,
&name_types);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
result = cli_samr_open_user(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
user_rids[0], &user_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
}
/* Delete user */
result = cli_samr_delete_dom_user(cli, mem_ctx, &user_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Display results */
done:
return result;
}
/**
* Delete a user from a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_user_delete(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0, rpc_user_del_internals,
argc, argv);
}
/**
* Set a password for a user on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_user_password_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
POLICY_HND connect_pol, domain_pol, user_pol;
SAM_USERINFO_CTR ctr;
SAM_USER_INFO_24 p24;
uchar pwbuf[516];
const char *user;
const char *new_password;
char *prompt = NULL;
if (argc < 1) {
d_printf("User must be specified\n");
rpc_user_usage(argc, argv);
return NT_STATUS_OK;
}
user = argv[0];
if (argv[1]) {
new_password = argv[1];
} else {
asprintf(&prompt, "Enter new password for %s:", user);
new_password = getpass(prompt);
SAFE_FREE(prompt);
}
/* Get sam policy and domain handles */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get handle on user */
{
uint32 *user_rids, num_rids, *name_types;
uint32 flags = 0x000003e8; /* Unknown */
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol,
flags, 1, &user,
&num_rids, &user_rids,
&name_types);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
result = cli_samr_open_user(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
user_rids[0], &user_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
}
/* Set password on account */
ZERO_STRUCT(ctr);
ZERO_STRUCT(p24);
encode_pw_buffer(pwbuf, new_password, STR_UNICODE);
init_sam_user_info24(&p24, (char *)pwbuf,24);
ctr.switch_value = 24;
ctr.info.id24 = &p24;
result = cli_samr_set_userinfo(cli, mem_ctx, &user_pol, 24,
&cli->user_session_key, &ctr);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Display results */
done:
return result;
}
/**
* Set a user's password on a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_user_password(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0, rpc_user_password_internals,
argc, argv);
}
/**
* List user's groups on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_user_info_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
POLICY_HND connect_pol, domain_pol, user_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
uint32 *rids, num_rids, *name_types, num_names;
uint32 flags = 0x000003e8; /* Unknown */
int i;
char **names;
DOM_GID *user_gids;
if (argc < 1) {
d_printf("User must be specified\n");
rpc_user_usage(argc, argv);
return NT_STATUS_OK;
}
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
/* Get handle on user */
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol,
flags, 1, &argv[0],
&num_rids, &rids, &name_types);
if (!NT_STATUS_IS_OK(result)) goto done;
result = cli_samr_open_user(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
rids[0], &user_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
result = cli_samr_query_usergroups(cli, mem_ctx, &user_pol,
&num_rids, &user_gids);
/* Look up rids */
rids = TALLOC_ARRAY(mem_ctx, uint32, num_rids);
for (i = 0; i < num_rids; i++)
rids[i] = user_gids[i].g_rid;
result = cli_samr_lookup_rids(cli, mem_ctx, &domain_pol,
flags, num_rids, rids,
&num_names, &names, &name_types);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Display results */
for (i = 0; i < num_names; i++)
printf("%s\n", names[i]);
done:
return result;
}
/**
* List a user's groups from a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_user_info(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0, rpc_user_info_internals,
argc, argv);
}
/**
* List users on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_user_list_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
POLICY_HND connect_pol, domain_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
uint32 start_idx=0, num_entries, i, loop_count = 0;
SAM_DISPINFO_CTR ctr;
SAM_DISPINFO_1 info1;
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Query domain users */
ZERO_STRUCT(ctr);
ZERO_STRUCT(info1);
ctr.sam.info1 = &info1;
if (opt_long_list_entries)
d_printf("\nUser name Comment"\
"\n-----------------------------\n");
do {
fstring user, desc;
uint32 max_entries, max_size;
get_query_dispinfo_params(
loop_count, &max_entries, &max_size);
result = cli_samr_query_dispinfo(cli, mem_ctx, &domain_pol,
&start_idx, 1, &num_entries,
max_entries, max_size, &ctr);
loop_count++;
for (i = 0; i < num_entries; i++) {
unistr2_to_ascii(user, &(&ctr.sam.info1->str[i])->uni_acct_name, sizeof(user)-1);
if (opt_long_list_entries)
unistr2_to_ascii(desc, &(&ctr.sam.info1->str[i])->uni_acct_desc, sizeof(desc)-1);
if (opt_long_list_entries)
printf("%-21.21s %s\n", user, desc);
else
printf("%s\n", user);
}
} while (NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES));
done:
return result;
}
/**
* 'net rpc user' entrypoint.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_user(int argc, const char **argv)
{
struct functable func[] = {
{"add", rpc_user_add},
{"info", rpc_user_info},
{"delete", rpc_user_delete},
{"password", rpc_user_password},
{NULL, NULL}
};
if (argc == 0) {
if (opt_long_list_entries) {
} else {
}
return run_rpc_command(NULL,PI_SAMR, 0,
rpc_user_list_internals,
argc, argv);
}
return net_run_function(argc, argv, func, rpc_user_usage);
}
/****************************************************************************/
/**
* Basic usage function for 'net rpc group'
* @param argc Standard main() style argc.
* @param argv Standard main() style argv. Initial components are already
* stripped.
**/
static int rpc_group_usage(int argc, const char **argv)
{
return net_help_group(argc, argv);
}
/**
* Delete group on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_group_delete_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
POLICY_HND connect_pol, domain_pol, group_pol, user_pol;
BOOL group_is_primary = False;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
uint32 *group_rids, num_rids, *name_types, num_members,
*group_attrs, group_rid;
uint32 flags = 0x000003e8; /* Unknown */
/* char **names; */
int i;
/* DOM_GID *user_gids; */
SAM_USERINFO_CTR *user_ctr;
fstring temp;
if (argc < 1) {
d_printf("specify group\n");
rpc_group_usage(argc,argv);
return NT_STATUS_OK; /* ok? */
}
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Request samr_connect failed\n");
goto done;
}
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Request open_domain failed\n");
goto done;
}
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol,
flags, 1, &argv[0],
&num_rids, &group_rids,
&name_types);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Lookup of '%s' failed\n",argv[0]);
goto done;
}
switch (name_types[0])
{
case SID_NAME_DOM_GRP:
result = cli_samr_open_group(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
group_rids[0], &group_pol);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Request open_group failed");
goto done;
}
group_rid = group_rids[0];
result = cli_samr_query_groupmem(cli, mem_ctx, &group_pol,
&num_members, &group_rids,
&group_attrs);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Unable to query group members of %s",argv[0]);
goto done;
}
if (opt_verbose) {
d_printf("Domain Group %s (rid: %d) has %d members\n",
argv[0],group_rid,num_members);
}
/* Check if group is anyone's primary group */
for (i = 0; i < num_members; i++)
{
result = cli_samr_open_user(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
group_rids[i], &user_pol);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Unable to open group member %d\n",group_rids[i]);
goto done;
}
ZERO_STRUCT(user_ctr);
result = cli_samr_query_userinfo(cli, mem_ctx, &user_pol,
21, &user_ctr);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Unable to lookup userinfo for group member %d\n",group_rids[i]);
goto done;
}
if (user_ctr->info.id21->group_rid == group_rid) {
unistr2_to_ascii(temp, &(user_ctr->info.id21)->uni_user_name,
sizeof(temp)-1);
if (opt_verbose)
d_printf("Group is primary group of %s\n",temp);
group_is_primary = True;
}
cli_samr_close(cli, mem_ctx, &user_pol);
}
if (group_is_primary) {
d_printf("Unable to delete group because some of it's "
"members have it as primary group\n");
result = NT_STATUS_MEMBERS_PRIMARY_GROUP;
goto done;
}
/* remove all group members */
for (i = 0; i < num_members; i++)
{
if (opt_verbose)
d_printf("Remove group member %d...",group_rids[i]);
result = cli_samr_del_groupmem(cli, mem_ctx, &group_pol, group_rids[i]);
if (NT_STATUS_IS_OK(result)) {
if (opt_verbose)
d_printf("ok\n");
} else {
if (opt_verbose)
d_printf("failed\n");
goto done;
}
}
result = cli_samr_delete_dom_group(cli, mem_ctx, &group_pol);
break;
/* removing a local group is easier... */
case SID_NAME_ALIAS:
result = cli_samr_open_alias(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
group_rids[0], &group_pol);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Request open_alias failed\n");
goto done;
}
result = cli_samr_delete_dom_alias(cli, mem_ctx, &group_pol);
break;
default:
d_printf("%s is of type %s. This command is only for deleting local or global groups\n",
argv[0],sid_type_lookup(name_types[0]));
result = NT_STATUS_UNSUCCESSFUL;
goto done;
}
if (NT_STATUS_IS_OK(result)) {
if (opt_verbose)
d_printf("Deleted %s '%s'\n",sid_type_lookup(name_types[0]),argv[0]);
} else {
d_printf("Deleting of %s failed: %s\n",argv[0],
get_friendly_nt_error_msg(result));
}
done:
return result;
}
static int rpc_group_delete(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0, rpc_group_delete_internals,
argc,argv);
}
static NTSTATUS
rpc_group_add_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
POLICY_HND connect_pol, domain_pol, group_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
GROUP_INFO_CTR group_info;
if (argc != 1) {
d_printf("Group name must be specified\n");
rpc_group_usage(argc, argv);
return NT_STATUS_OK;
}
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
/* Create the group */
result = cli_samr_create_dom_group(cli, mem_ctx, &domain_pol,
argv[0], MAXIMUM_ALLOWED_ACCESS,
&group_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
if (strlen(opt_comment) == 0) goto done;
/* We've got a comment to set */
group_info.switch_value1 = 4;
init_samr_group_info4(&group_info.group.info4, opt_comment);
result = cli_samr_set_groupinfo(cli, mem_ctx, &group_pol, &group_info);
if (!NT_STATUS_IS_OK(result)) goto done;
done:
if (NT_STATUS_IS_OK(result))
DEBUG(5, ("add group succeeded\n"));
else
d_printf("add group failed: %s\n", nt_errstr(result));
return result;
}
static NTSTATUS
rpc_alias_add_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
POLICY_HND connect_pol, domain_pol, alias_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
ALIAS_INFO_CTR alias_info;
if (argc != 1) {
d_printf("Group name must be specified\n");
rpc_group_usage(argc, argv);
return NT_STATUS_OK;
}
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
/* Create the group */
result = cli_samr_create_dom_alias(cli, mem_ctx, &domain_pol,
argv[0], &alias_pol);
if (!NT_STATUS_IS_OK(result)) goto done;
if (strlen(opt_comment) == 0) goto done;
/* We've got a comment to set */
alias_info.switch_value1 = 3;
alias_info.switch_value2 = 3;
init_samr_alias_info3(&alias_info.alias.info3, opt_comment);
result = cli_samr_set_aliasinfo(cli, mem_ctx, &alias_pol, &alias_info);
if (!NT_STATUS_IS_OK(result)) goto done;
done:
if (NT_STATUS_IS_OK(result))
DEBUG(5, ("add group succeeded\n"));
else
d_printf("add group failed: %s\n", nt_errstr(result));
return result;
}
static int rpc_group_add(int argc, const char **argv)
{
if (opt_localgroup)
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_alias_add_internals,
argc, argv);
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_group_add_internals,
argc, argv);
}
static NTSTATUS
get_sid_from_name(struct cli_state *cli, TALLOC_CTX *mem_ctx, const char *name,
DOM_SID *sid, enum SID_NAME_USE *type)
{
int current_pipe = cli->pipe_idx;
DOM_SID *sids = NULL;
uint32 *types = NULL;
POLICY_HND lsa_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
if (current_pipe != PI_LSARPC) {
if (current_pipe != -1)
cli_nt_session_close(cli);
if (!cli_nt_session_open(cli, PI_LSARPC))
goto done;
}
result = cli_lsa_open_policy(cli, mem_ctx, False,
SEC_RIGHTS_MAXIMUM_ALLOWED, &lsa_pol);
if (!NT_STATUS_IS_OK(result))
goto done;
result = cli_lsa_lookup_names(cli, mem_ctx, &lsa_pol, 1,
&name, &sids, &types);
if (NT_STATUS_IS_OK(result)) {
sid_copy(sid, &sids[0]);
*type = types[0];
}
cli_lsa_close(cli, mem_ctx, &lsa_pol);
done:
if (current_pipe != PI_LSARPC) {
cli_nt_session_close(cli);
if (current_pipe != -1)
cli_nt_session_open(cli, current_pipe);
}
if (!NT_STATUS_IS_OK(result) && (StrnCaseCmp(name, "S-", 2) == 0)) {
/* Try as S-1-5-whatever */
DOM_SID tmp_sid;
if (string_to_sid(&tmp_sid, name)) {
sid_copy(sid, &tmp_sid);
*type = SID_NAME_UNKNOWN;
result = NT_STATUS_OK;
}
}
return result;
}
static NTSTATUS
rpc_add_groupmem(struct cli_state *cli, TALLOC_CTX *mem_ctx,
const DOM_SID *group_sid, const char *member)
{
POLICY_HND connect_pol, domain_pol;
NTSTATUS result;
uint32 group_rid;
POLICY_HND group_pol;
uint32 num_rids;
uint32 *rids = NULL;
uint32 *rid_types = NULL;
DOM_SID sid;
sid_copy(&sid, group_sid);
if (!sid_split_rid(&sid, &group_rid))
return NT_STATUS_UNSUCCESSFUL;
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result))
return result;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
&sid, &domain_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol, 1000,
1, &member,
&num_rids, &rids, &rid_types);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not lookup up group member %s\n", member);
goto done;
}
result = cli_samr_open_group(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
group_rid, &group_pol);
if (!NT_STATUS_IS_OK(result))
goto done;
result = cli_samr_add_groupmem(cli, mem_ctx, &group_pol, rids[0]);
done:
cli_samr_close(cli, mem_ctx, &connect_pol);
return result;
}
static NTSTATUS
rpc_add_aliasmem(struct cli_state *cli, TALLOC_CTX *mem_ctx,
const DOM_SID *alias_sid, const char *member)
{
POLICY_HND connect_pol, domain_pol;
NTSTATUS result;
uint32 alias_rid;
POLICY_HND alias_pol;
DOM_SID member_sid;
enum SID_NAME_USE member_type;
DOM_SID sid;
sid_copy(&sid, alias_sid);
if (!sid_split_rid(&sid, &alias_rid))
return NT_STATUS_UNSUCCESSFUL;
result = get_sid_from_name(cli, mem_ctx, member,
&member_sid, &member_type);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not lookup up group member %s\n", member);
return result;
}
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
&sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
result = cli_samr_open_alias(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
alias_rid, &alias_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_add_aliasmem(cli, mem_ctx, &alias_pol, &member_sid);
if (!NT_STATUS_IS_OK(result))
return result;
done:
cli_samr_close(cli, mem_ctx, &connect_pol);
return result;
}
static NTSTATUS
rpc_group_addmem_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
DOM_SID group_sid;
enum SID_NAME_USE group_type;
if (argc != 2) {
d_printf("Usage: 'net rpc group addmem <group> <member>\n");
return NT_STATUS_UNSUCCESSFUL;
}
if (!NT_STATUS_IS_OK(get_sid_from_name(cli, mem_ctx, argv[0],
&group_sid, &group_type))) {
d_printf("Could not lookup group name %s\n", argv[0]);
return NT_STATUS_UNSUCCESSFUL;
}
if (group_type == SID_NAME_DOM_GRP) {
NTSTATUS result = rpc_add_groupmem(cli, mem_ctx,
&group_sid, argv[1]);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not add %s to %s: %s\n",
argv[1], argv[0], nt_errstr(result));
}
return result;
}
if (group_type == SID_NAME_ALIAS) {
NTSTATUS result = rpc_add_aliasmem(cli, mem_ctx,
&group_sid, argv[1]);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not add %s to %s: %s\n",
argv[1], argv[0], nt_errstr(result));
}
return result;
}
d_printf("Can only add members to global or local groups which "
"%s is not\n", argv[0]);
return NT_STATUS_UNSUCCESSFUL;
}
static int rpc_group_addmem(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_group_addmem_internals,
argc, argv);
}
static NTSTATUS
rpc_del_groupmem(struct cli_state *cli, TALLOC_CTX *mem_ctx,
const DOM_SID *group_sid, const char *member)
{
POLICY_HND connect_pol, domain_pol;
NTSTATUS result;
uint32 group_rid;
POLICY_HND group_pol;
uint32 num_rids;
uint32 *rids = NULL;
uint32 *rid_types = NULL;
DOM_SID sid;
sid_copy(&sid, group_sid);
if (!sid_split_rid(&sid, &group_rid))
return NT_STATUS_UNSUCCESSFUL;
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result))
return result;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
&sid, &domain_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol, 1000,
1, &member,
&num_rids, &rids, &rid_types);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not lookup up group member %s\n", member);
goto done;
}
result = cli_samr_open_group(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
group_rid, &group_pol);
if (!NT_STATUS_IS_OK(result))
goto done;
result = cli_samr_del_groupmem(cli, mem_ctx, &group_pol, rids[0]);
done:
cli_samr_close(cli, mem_ctx, &connect_pol);
return result;
}
static NTSTATUS
rpc_del_aliasmem(struct cli_state *cli, TALLOC_CTX *mem_ctx,
const DOM_SID *alias_sid, const char *member)
{
POLICY_HND connect_pol, domain_pol;
NTSTATUS result;
uint32 alias_rid;
POLICY_HND alias_pol;
DOM_SID member_sid;
enum SID_NAME_USE member_type;
DOM_SID sid;
sid_copy(&sid, alias_sid);
if (!sid_split_rid(&sid, &alias_rid))
return NT_STATUS_UNSUCCESSFUL;
result = get_sid_from_name(cli, mem_ctx, member,
&member_sid, &member_type);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not lookup up group member %s\n", member);
return result;
}
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
&sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
result = cli_samr_open_alias(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
alias_rid, &alias_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_del_aliasmem(cli, mem_ctx, &alias_pol, &member_sid);
if (!NT_STATUS_IS_OK(result))
return result;
done:
cli_samr_close(cli, mem_ctx, &connect_pol);
return result;
}
static NTSTATUS
rpc_group_delmem_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
DOM_SID group_sid;
enum SID_NAME_USE group_type;
if (argc != 2) {
d_printf("Usage: 'net rpc group delmem <group> <member>\n");
return NT_STATUS_UNSUCCESSFUL;
}
if (!NT_STATUS_IS_OK(get_sid_from_name(cli, mem_ctx, argv[0],
&group_sid, &group_type))) {
d_printf("Could not lookup group name %s\n", argv[0]);
return NT_STATUS_UNSUCCESSFUL;
}
if (group_type == SID_NAME_DOM_GRP) {
NTSTATUS result = rpc_del_groupmem(cli, mem_ctx,
&group_sid, argv[1]);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not del %s from %s: %s\n",
argv[1], argv[0], nt_errstr(result));
}
return result;
}
if (group_type == SID_NAME_ALIAS) {
NTSTATUS result = rpc_del_aliasmem(cli, mem_ctx,
&group_sid, argv[1]);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Could not del %s from %s: %s\n",
argv[1], argv[0], nt_errstr(result));
}
return result;
}
d_printf("Can only delete members from global or local groups which "
"%s is not\n", argv[0]);
return NT_STATUS_UNSUCCESSFUL;
}
static int rpc_group_delmem(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_group_delmem_internals,
argc, argv);
}
/**
* List groups on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_group_list_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
POLICY_HND connect_pol, domain_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
uint32 start_idx=0, max_entries=250, num_entries, i, loop_count = 0;
struct acct_info *groups;
DOM_SID global_sid_Builtin;
BOOL global = False;
BOOL local = False;
BOOL builtin = False;
if (argc == 0) {
global = True;
local = True;
builtin = True;
}
for (i=0; i<argc; i++) {
if (strequal(argv[i], "global"))
global = True;
if (strequal(argv[i], "local"))
local = True;
if (strequal(argv[i], "builtin"))
builtin = True;
}
string_to_sid(&global_sid_Builtin, "S-1-5-32");
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Query domain groups */
if (opt_long_list_entries)
d_printf("\nGroup name Comment"\
"\n-----------------------------\n");
do {
SAM_DISPINFO_CTR ctr;
SAM_DISPINFO_3 info3;
uint32 max_size;
ZERO_STRUCT(ctr);
ZERO_STRUCT(info3);
ctr.sam.info3 = &info3;
if (!global) break;
get_query_dispinfo_params(
loop_count, &max_entries, &max_size);
result = cli_samr_query_dispinfo(cli, mem_ctx, &domain_pol,
&start_idx, 3, &num_entries,
max_entries, max_size, &ctr);
if (!NT_STATUS_IS_OK(result) &&
!NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES))
break;
for (i = 0; i < num_entries; i++) {
fstring group, desc;
unistr2_to_ascii(group, &(&ctr.sam.info3->str[i])->uni_grp_name, sizeof(group)-1);
unistr2_to_ascii(desc, &(&ctr.sam.info3->str[i])->uni_grp_desc, sizeof(desc)-1);
if (opt_long_list_entries)
printf("%-21.21s %-50.50s\n",
group, desc);
else
printf("%s\n", group);
}
} while (NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES));
/* query domain aliases */
start_idx = 0;
do {
if (!local) break;
/* The max_size field in cli_samr_enum_als_groups is more like
* an account_control field with indiviual bits what to
* retrieve. Set this to 0xffff as NT4 usrmgr.exe does to get
* everything. I'm too lazy (sorry) to get this through to
* rpc_parse/ etc. Volker */
result = cli_samr_enum_als_groups(cli, mem_ctx, &domain_pol,
&start_idx, 0xffff,
&groups, &num_entries);
if (!NT_STATUS_IS_OK(result) &&
!NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES))
break;
for (i = 0; i < num_entries; i++) {
char *description = NULL;
if (opt_long_list_entries) {
POLICY_HND alias_pol;
ALIAS_INFO_CTR ctr;
if ((NT_STATUS_IS_OK(cli_samr_open_alias(cli, mem_ctx,
&domain_pol,
0x8,
groups[i].rid,
&alias_pol))) &&
(NT_STATUS_IS_OK(cli_samr_query_alias_info(cli, mem_ctx,
&alias_pol, 3,
&ctr))) &&
(NT_STATUS_IS_OK(cli_samr_close(cli, mem_ctx,
&alias_pol)))) {
description = unistr2_tdup(mem_ctx,
&ctr.alias.info3.uni_acct_desc);
}
}
if (description != NULL) {
printf("%-21.21s %-50.50s\n",
groups[i].acct_name,
description);
} else {
printf("%s\n", groups[i].acct_name);
}
}
} while (NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES));
cli_samr_close(cli, mem_ctx, &domain_pol);
/* Get builtin policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
&global_sid_Builtin, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* query builtin aliases */
start_idx = 0;
do {
if (!builtin) break;
result = cli_samr_enum_als_groups(cli, mem_ctx, &domain_pol,
&start_idx, max_entries,
&groups, &num_entries);
if (!NT_STATUS_IS_OK(result) &&
!NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES))
break;
for (i = 0; i < num_entries; i++) {
char *description = NULL;
if (opt_long_list_entries) {
POLICY_HND alias_pol;
ALIAS_INFO_CTR ctr;
if ((NT_STATUS_IS_OK(cli_samr_open_alias(cli, mem_ctx,
&domain_pol,
0x8,
groups[i].rid,
&alias_pol))) &&
(NT_STATUS_IS_OK(cli_samr_query_alias_info(cli, mem_ctx,
&alias_pol, 3,
&ctr))) &&
(NT_STATUS_IS_OK(cli_samr_close(cli, mem_ctx,
&alias_pol)))) {
description = unistr2_tdup(mem_ctx,
&ctr.alias.info3.uni_acct_desc);
}
}
if (description != NULL) {
printf("%-21.21s %-50.50s\n",
groups[i].acct_name,
description);
} else {
printf("%s\n", groups[i].acct_name);
}
}
} while (NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES));
done:
return result;
}
static int rpc_group_list(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_group_list_internals,
argc, argv);
}
static NTSTATUS
rpc_list_group_members(struct cli_state *cli, TALLOC_CTX *mem_ctx,
const char *domain_name, const DOM_SID *domain_sid,
POLICY_HND *domain_pol, uint32 rid)
{
NTSTATUS result;
POLICY_HND group_pol;
uint32 num_members, *group_rids, *group_attrs;
uint32 num_names;
char **names;
uint32 *name_types;
int i;
fstring sid_str;
sid_to_string(sid_str, domain_sid);
result = cli_samr_open_group(cli, mem_ctx, domain_pol,
MAXIMUM_ALLOWED_ACCESS,
rid, &group_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_query_groupmem(cli, mem_ctx, &group_pol,
&num_members, &group_rids,
&group_attrs);
if (!NT_STATUS_IS_OK(result))
return result;
while (num_members > 0) {
int this_time = 512;
if (num_members < this_time)
this_time = num_members;
result = cli_samr_lookup_rids(cli, mem_ctx, domain_pol, 1000,
this_time, group_rids,
&num_names, &names, &name_types);
if (!NT_STATUS_IS_OK(result))
return result;
/* We only have users as members, but make the output
the same as the output of alias members */
for (i = 0; i < this_time; i++) {
if (opt_long_list_entries) {
printf("%s-%d %s\\%s %d\n", sid_str,
group_rids[i], domain_name, names[i],
SID_NAME_USER);
} else {
printf("%s\\%s\n", domain_name, names[i]);
}
}
num_members -= this_time;
group_rids += 512;
}
return NT_STATUS_OK;
}
static NTSTATUS
rpc_list_alias_members(struct cli_state *cli, TALLOC_CTX *mem_ctx,
POLICY_HND *domain_pol, uint32 rid)
{
NTSTATUS result;
POLICY_HND alias_pol, lsa_pol;
uint32 num_members;
DOM_SID *alias_sids;
char **domains;
char **names;
uint32 *types;
int i;
result = cli_samr_open_alias(cli, mem_ctx, domain_pol,
MAXIMUM_ALLOWED_ACCESS, rid, &alias_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_query_aliasmem(cli, mem_ctx, &alias_pol,
&num_members, &alias_sids);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Couldn't list alias members\n");
return result;
}
if (num_members == 0) {
return NT_STATUS_OK;
}
cli_nt_session_close(cli);
if (!cli_nt_session_open(cli, PI_LSARPC)) {
d_printf("Couldn't open LSA pipe\n");
return result;
}
result = cli_lsa_open_policy(cli, mem_ctx, True,
SEC_RIGHTS_MAXIMUM_ALLOWED, &lsa_pol);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Couldn't open LSA policy handle\n");
return result;
}
result = cli_lsa_lookup_sids(cli, mem_ctx, &lsa_pol, num_members,
alias_sids,
&domains, &names, &types);
if (!NT_STATUS_IS_OK(result) &&
!NT_STATUS_EQUAL(result, STATUS_SOME_UNMAPPED)) {
d_printf("Couldn't lookup SIDs\n");
return result;
}
for (i = 0; i < num_members; i++) {
fstring sid_str;
sid_to_string(sid_str, &alias_sids[i]);
if (opt_long_list_entries) {
printf("%s %s\\%s %d\n", sid_str,
domains[i] ? domains[i] : "*unknown*",
names[i] ? names[i] : "*unknown*", types[i]);
} else {
if (domains[i])
printf("%s\\%s\n", domains[i], names[i]);
else
printf("%s\n", sid_str);
}
}
return NT_STATUS_OK;
}
static NTSTATUS
rpc_group_members_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
NTSTATUS result;
POLICY_HND connect_pol, domain_pol;
uint32 num_rids, *rids, *rid_types;
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result))
return result;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol, 1000,
1, argv, &num_rids, &rids, &rid_types);
if (!NT_STATUS_IS_OK(result)) {
/* Ok, did not find it in the global sam, try with builtin */
DOM_SID sid_Builtin;
cli_samr_close(cli, mem_ctx, &domain_pol);
string_to_sid(&sid_Builtin, "S-1-5-32");
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
&sid_Builtin, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Couldn't find group %s\n", argv[0]);
return result;
}
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol, 1000,
1, argv, &num_rids,
&rids, &rid_types);
if (!NT_STATUS_IS_OK(result)) {
d_printf("Couldn't find group %s\n", argv[0]);
return result;
}
}
if (num_rids != 1) {
d_printf("Couldn't find group %s\n", argv[0]);
return result;
}
if (rid_types[0] == SID_NAME_DOM_GRP) {
return rpc_list_group_members(cli, mem_ctx, domain_name,
domain_sid, &domain_pol,
rids[0]);
}
if (rid_types[0] == SID_NAME_ALIAS) {
return rpc_list_alias_members(cli, mem_ctx, &domain_pol,
rids[0]);
}
return NT_STATUS_NO_SUCH_GROUP;
}
static int rpc_group_members(int argc, const char **argv)
{
if (argc != 1) {
return rpc_group_usage(argc, argv);
}
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_group_members_internals,
argc, argv);
}
static NTSTATUS
rpc_group_rename_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
NTSTATUS result;
POLICY_HND connect_pol, domain_pol, group_pol;
uint32 num_rids, *rids, *rid_types;
GROUP_INFO_CTR ctr;
if (argc != 2) {
d_printf("Usage: 'net rpc group rename group newname'\n");
return NT_STATUS_UNSUCCESSFUL;
}
/* Get sam policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result))
return result;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result))
return result;
result = cli_samr_lookup_names(cli, mem_ctx, &domain_pol, 1000,
1, argv, &num_rids, &rids, &rid_types);
if (num_rids != 1) {
d_printf("Couldn't find group %s\n", argv[0]);
return result;
}
if (rid_types[0] != SID_NAME_DOM_GRP) {
d_printf("Can only rename domain groups\n");
return NT_STATUS_UNSUCCESSFUL;
}
result = cli_samr_open_group(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
rids[0], &group_pol);
if (!NT_STATUS_IS_OK(result))
return result;
ZERO_STRUCT(ctr);
ctr.switch_value1 = 2;
init_samr_group_info2(&ctr.group.info2, argv[1]);
result = cli_samr_set_groupinfo(cli, mem_ctx, &group_pol, &ctr);
if (!NT_STATUS_IS_OK(result))
return result;
return NT_STATUS_NO_SUCH_GROUP;
}
static int rpc_group_rename(int argc, const char **argv)
{
if (argc != 2) {
return rpc_group_usage(argc, argv);
}
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_group_rename_internals,
argc, argv);
}
/**
* 'net rpc group' entrypoint.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_group(int argc, const char **argv)
{
struct functable func[] = {
{"add", rpc_group_add},
{"delete", rpc_group_delete},
{"addmem", rpc_group_addmem},
{"delmem", rpc_group_delmem},
{"list", rpc_group_list},
{"members", rpc_group_members},
{"rename", rpc_group_rename},
{NULL, NULL}
};
if (argc == 0) {
if (opt_long_list_entries) {
} else {
}
return run_rpc_command(NULL, PI_SAMR, 0,
rpc_group_list_internals,
argc, argv);
}
return net_run_function(argc, argv, func, rpc_group_usage);
}
/****************************************************************************/
static int rpc_share_usage(int argc, const char **argv)
{
return net_help_share(argc, argv);
}
/**
* Add a share on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_share_add_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,int argc, const char **argv)
{
WERROR result;
char *sharename=talloc_strdup(mem_ctx, argv[0]);
char *path;
uint32 type=0; /* only allow disk shares to be added */
uint32 num_users=0, perms=0;
char *password=NULL; /* don't allow a share password */
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
uint32 level = 2;
path = strchr(sharename, '=');
if (!path)
return NT_STATUS_UNSUCCESSFUL;
*path++ = '\0';
result = cli_srvsvc_net_share_add(cli, mem_ctx, sharename, type,
opt_comment, perms, opt_maxusers,
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
num_users, path, password,
level, NULL);
return W_ERROR_IS_OK(result) ? NT_STATUS_OK : NT_STATUS_UNSUCCESSFUL;
}
static int rpc_share_add(int argc, const char **argv)
{
if ((argc < 1) || !strchr(argv[0], '=')) {
DEBUG(1,("Sharename or path not specified on add\n"));
return rpc_share_usage(argc, argv);
}
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_share_add_internals,
argc, argv);
}
/**
* Delete a share on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_share_del_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,int argc, const char **argv)
{
WERROR result;
result = cli_srvsvc_net_share_del(cli, mem_ctx, argv[0]);
return W_ERROR_IS_OK(result) ? NT_STATUS_OK : NT_STATUS_UNSUCCESSFUL;
}
/**
* Delete a share on a remote RPC server
*
* @param domain_sid The domain sid acquired from the remote server
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_share_delete(int argc, const char **argv)
{
if (argc < 1) {
DEBUG(1,("Sharename not specified on delete\n"));
return rpc_share_usage(argc, argv);
}
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_share_del_internals,
argc, argv);
}
/**
* Formatted print of share info
*
* @param info1 pointer to SRV_SHARE_INFO_1 to format
**/
static void display_share_info_1(SRV_SHARE_INFO_1 *info1)
{
fstring netname = "", remark = "";
rpcstr_pull_unistr2_fstring(netname, &info1->info_1_str.uni_netname);
rpcstr_pull_unistr2_fstring(remark, &info1->info_1_str.uni_remark);
if (opt_long_list_entries) {
d_printf("%-12s %-8.8s %-50s\n",
netname, share_type[info1->info_1.type], remark);
} else {
d_printf("%s\n", netname);
}
}
/**
* List shares on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_share_list_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
SRV_SHARE_INFO_CTR ctr;
WERROR result;
ENUM_HND hnd;
uint32 preferred_len = 0xffffffff, i;
init_enum_hnd(&hnd, 0);
result = cli_srvsvc_net_share_enum(
cli, mem_ctx, 1, &ctr, preferred_len, &hnd);
if (!W_ERROR_IS_OK(result))
goto done;
/* Display results */
if (opt_long_list_entries) {
d_printf(
"\nEnumerating shared resources (exports) on remote server:\n\n"\
"\nShare name Type Description\n"\
"---------- ---- -----------\n");
}
for (i = 0; i < ctr.num_entries; i++)
display_share_info_1(&ctr.share.info1[i]);
done:
return W_ERROR_IS_OK(result) ? NT_STATUS_OK : NT_STATUS_UNSUCCESSFUL;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
/**
* Migrate shares from a remote RPC server to the local RPC srever
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_share_migrate_shares_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
WERROR result;
NTSTATUS nt_status = NT_STATUS_UNSUCCESSFUL;
SRV_SHARE_INFO_CTR ctr_src;
ENUM_HND hnd;
uint32 type = 0; /* only allow disk shares to be added */
uint32 num_uses = 0, perms = 0, max_uses = 0;
char *password = NULL; /* don't allow a share password */
uint32 preferred_len = 0xffffffff, i;
BOOL got_dst_srvsvc_pipe = False;
struct cli_state *cli_dst = NULL;
uint32 level = 502; /* includes secdesc */
SEC_DESC *share_sd = NULL;
init_enum_hnd(&hnd, 0);
result = cli_srvsvc_net_share_enum(
cli, mem_ctx, level, &ctr_src, preferred_len, &hnd);
if (!W_ERROR_IS_OK(result))
goto done;
/* connect local PI_SRVSVC */
nt_status = connect_pipe(&cli_dst, PI_SRVSVC, &got_dst_srvsvc_pipe);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
if (!NT_STATUS_IS_OK(nt_status))
return nt_status;
for (i = 0; i < ctr_src.num_entries; i++) {
fstring netname = "", remark = "", path = "";
/* reset error-code */
nt_status = NT_STATUS_UNSUCCESSFUL;
rpcstr_pull_unistr2_fstring(
netname, &ctr_src.share.info502[i].info_502_str.uni_netname);
rpcstr_pull_unistr2_fstring(
remark, &ctr_src.share.info502[i].info_502_str.uni_remark);
rpcstr_pull_unistr2_fstring(
path, &ctr_src.share.info502[i].info_502_str.uni_path);
num_uses = ctr_src.share.info502[i].info_502.num_uses;
max_uses = ctr_src.share.info502[i].info_502.max_uses;
perms = ctr_src.share.info502[i].info_502.perms;
if (opt_acls)
share_sd = dup_sec_desc(
mem_ctx, ctr_src.share.info502[i].info_502_str.sd);
/* since we do not have NetShareGetInfo implemented in samba3 we
only can skip inside the enum-ctr_src */
if (argc == 1) {
char *one_share = talloc_strdup(mem_ctx, argv[0]);
if (!strequal(netname, one_share))
continue;
}
/* skip builtin shares */
/* FIXME: should print$ be added too ? */
if (strequal(netname,"IPC$") || strequal(netname,"ADMIN$") ||
strequal(netname,"global"))
continue;
/* only work with file-shares */
if (!cli_send_tconX(cli, netname, "A:", "", 0)) {
d_printf("skipping [%s]: not a file share.\n", netname);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
continue;
}
if (!cli_tdis(cli))
goto done;
/* finallly add the share on the dst server
please note that samba currently does not allow to
add a share without existing directory */
printf("migrating: [%s], path: %s, comment: %s, %s share-ACLs\n",
netname, path, remark, opt_acls ? "including" : "without" );
if (opt_verbose && opt_acls)
display_sec_desc(share_sd);
result = cli_srvsvc_net_share_add(cli_dst, mem_ctx, netname, type,
remark, perms, max_uses,
num_uses, path, password,
level, share_sd);
if (W_ERROR_V(result) == W_ERROR_V(WERR_ALREADY_EXISTS)) {
printf(" [%s] does already exist\n", netname);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
continue;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
if (!W_ERROR_IS_OK(result)) {
printf("cannot add share: %s\n", dos_errstr(result));
goto done;
}
}
nt_status = NT_STATUS_OK;
done:
if (got_dst_srvsvc_pipe) {
cli_nt_session_close(cli_dst);
cli_shutdown(cli_dst);
}
return nt_status;
}
/**
* Migrate shares from a rpc-server to another
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_share_migrate_shares(int argc, const char **argv)
{
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_share_migrate_shares_internals,
argc, argv);
}
typedef struct copy_clistate {
TALLOC_CTX *mem_ctx;
struct cli_state *cli_share_src;
struct cli_state *cli_share_dst;
const char *cwd;
} copy_clistate;
/**
* Copy a file/dir
*
* @param f file_info
* @param mask current search mask
* @param state arg-pointer
*
**/
static void copy_fn(file_info *f, const char *mask, void *state)
{
NTSTATUS nt_status = NT_STATUS_UNSUCCESSFUL;
struct copy_clistate *local_state = (struct copy_clistate *)state;
fstring filename, new_mask, dir;
if (strequal(f->name, ".") || strequal(f->name, ".."))
return;
DEBUG(3,("got mask: %s, name: %s\n", mask, f->name));
/* DIRECTORY */
if (f->mode & aDIR) {
DEBUG(3,("got dir: %s\n", f->name));
fstrcpy(dir, local_state->cwd);
fstrcat(dir, "\\");
fstrcat(dir, f->name);
/* create that directory */
nt_status = net_copy_file(local_state->mem_ctx,
local_state->cli_share_src,
local_state->cli_share_dst,
dir, dir,
opt_acls? True : False,
opt_attrs? True : False,
opt_timestamps? True : False,
False);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
if (!NT_STATUS_IS_OK(nt_status))
printf("could not copy dir %s: %s\n",
dir, nt_errstr(nt_status));
/* search below that directory */
fstrcpy(new_mask, dir);
fstrcat(new_mask, "\\*");
if (!sync_files(local_state->mem_ctx,
local_state->cli_share_src,
local_state->cli_share_dst,
new_mask, dir))
printf("could not sync files\n");
return;
}
/* FILE */
fstrcpy(filename, local_state->cwd);
fstrcat(filename, "\\");
fstrcat(filename, f->name);
DEBUG(3,("got file: %s\n", filename));
nt_status = net_copy_file(local_state->mem_ctx,
local_state->cli_share_src,
local_state->cli_share_dst,
filename, filename,
opt_acls? True : False,
opt_attrs? True : False,
opt_timestamps? True: False,
True);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
if (!NT_STATUS_IS_OK(nt_status))
printf("could not copy file %s: %s\n",
filename, nt_errstr(nt_status));
}
/**
* sync files, can be called recursivly to list files
* and then call copy_fn for each file
*
* @param mem_ctx TALLOC_CTX
* @param cli_share_src a connected share on the originating server
* @param cli_share_dst a connected share on the destination server
* @param mask the current search mask
* @param cwd the current path
*
* @return Boolean result
**/
BOOL sync_files(TALLOC_CTX *mem_ctx,
struct cli_state *cli_share_src,
struct cli_state *cli_share_dst,
pstring mask, fstring cwd)
{
uint16 attribute = aSYSTEM | aHIDDEN | aDIR;
struct copy_clistate clistate;
clistate.mem_ctx = mem_ctx;
clistate.cli_share_src = cli_share_src;
clistate.cli_share_dst = cli_share_dst;
clistate.cwd = cwd;
DEBUG(3,("calling cli_list with mask: %s\n", mask));
if (cli_list(cli_share_src, mask, attribute, copy_fn, &clistate) == -1) {
d_printf("listing %s failed with error: %s\n",
mask, cli_errstr(cli_share_src));
return False;
}
return True;
}
/**
* Sync all files inside a remote share to another share (over smb)
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_share_migrate_files_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
WERROR result;
NTSTATUS nt_status = NT_STATUS_UNSUCCESSFUL;
SRV_SHARE_INFO_CTR ctr_src;
ENUM_HND hnd;
uint32 preferred_len = 0xffffffff, i;
uint32 level = 2;
struct cli_state *cli_share_src = NULL;
struct cli_state *cli_share_dst = NULL;
BOOL got_src_share = False;
BOOL got_dst_share = False;
pstring mask;
char *dst = NULL;
dst = SMB_STRDUP(opt_destination?opt_destination:"127.0.0.1");
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
init_enum_hnd(&hnd, 0);
result = cli_srvsvc_net_share_enum(
cli, mem_ctx, level, &ctr_src, preferred_len, &hnd);
if (!W_ERROR_IS_OK(result))
goto done;
for (i = 0; i < ctr_src.num_entries; i++) {
fstring netname = "", remark = "", path = "";
rpcstr_pull_unistr2_fstring(
netname, &ctr_src.share.info2[i].info_2_str.uni_netname);
rpcstr_pull_unistr2_fstring(
remark, &ctr_src.share.info2[i].info_2_str.uni_remark);
rpcstr_pull_unistr2_fstring(
path, &ctr_src.share.info2[i].info_2_str.uni_path);
/* since we do not have NetShareGetInfo implemented in samba3 we
only can skip inside the enum-ctr_src */
if (argc == 1) {
char *one_share = talloc_strdup(mem_ctx, argv[0]);
if (!strequal(netname, one_share))
continue;
}
/* skip builtin and hidden shares
In particular, one might not want to mirror whole discs :) */
if (strequal(netname,"IPC$") || strequal(netname,"ADMIN$"))
continue;
if (strequal(netname, "print$") || netname[1] == '$') {
d_printf("skipping [%s]: builtin/hidden share\n", netname);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
continue;
}
if (opt_exclude && in_list(netname, (char *)opt_exclude, False)) {
printf("excluding [%s]\n", netname);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
continue;
}
/* only work with file-shares */
if (!cli_send_tconX(cli, netname, "A:", "", 0)) {
d_printf("skipping [%s]: not a file share.\n", netname);
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
continue;
}
if (!cli_tdis(cli))
return NT_STATUS_UNSUCCESSFUL;
printf("syncing [%s] files and directories %s ACLs, %s DOS Attributes %s\n",
netname,
opt_acls ? "including" : "without",
opt_attrs ? "including" : "without",
opt_timestamps ? "(preserving timestamps)" : "");
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
/* open share source */
nt_status = connect_to_service(&cli_share_src, &cli->dest_ip,
cli->desthost, netname, "A:");
if (!NT_STATUS_IS_OK(nt_status))
goto done;
got_src_share = True;
/* open share destination */
nt_status = connect_to_service(&cli_share_dst, NULL,
dst, netname, "A:");
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
if (!NT_STATUS_IS_OK(nt_status))
goto done;
got_dst_share = True;
/* now call the filesync */
pstrcpy(mask, "\\*");
if (!sync_files(mem_ctx, cli_share_src, cli_share_dst, mask, NULL)) {
d_printf("could not sync files for share: %s\n", netname);
nt_status = NT_STATUS_UNSUCCESSFUL;
goto done;
}
}
nt_status = NT_STATUS_OK;
done:
if (got_src_share)
cli_shutdown(cli_share_src);
if (got_dst_share)
cli_shutdown(cli_share_dst);
return nt_status;
}
static int rpc_share_migrate_files(int argc, const char **argv)
{
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_share_migrate_files_internals,
argc, argv);
}
/**
* Migrate shares (including share-definitions, share-acls and files with acls/attrs)
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
* from one server to another
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
*
**/
static int rpc_share_migrate_all(int argc, const char **argv)
{
int ret;
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
ret = run_rpc_command(NULL, PI_SRVSVC, 0, rpc_share_migrate_shares_internals, argc, argv);
if (ret)
return ret;
#if 0
ret = run_rpc_command(NULL, PI_SRVSVC, 0, rpc_share_migrate_shares_security_internals, argc, argv);
if (ret)
return ret;
#endif
return run_rpc_command(NULL, PI_SRVSVC, 0, rpc_share_migrate_files_internals, argc, argv);
}
/**
* 'net rpc share migrate' entrypoint.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
static int rpc_share_migrate(int argc, const char **argv)
{
struct functable func[] = {
{"all", rpc_share_migrate_all},
{"files", rpc_share_migrate_files},
{"help", rpc_share_usage},
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
/* {"security", rpc_share_migrate_security},*/
{"shares", rpc_share_migrate_shares},
{NULL, NULL}
};
return net_run_function(argc, argv, func, rpc_share_usage);
}
struct full_alias {
DOM_SID sid;
int num_members;
DOM_SID *members;
};
static int num_server_aliases;
static struct full_alias *server_aliases;
/*
* Add an alias to the static list.
*/
static void push_alias(TALLOC_CTX *mem_ctx, struct full_alias *alias)
{
if (server_aliases == NULL)
server_aliases = SMB_MALLOC_ARRAY(struct full_alias, 100);
server_aliases[num_server_aliases] = *alias;
num_server_aliases += 1;
}
/*
* For a specific domain on the server, fetch all the aliases
* and their members. Add all of them to the server_aliases.
*/
static NTSTATUS
rpc_fetch_domain_aliases(struct cli_state *cli, TALLOC_CTX *mem_ctx,
POLICY_HND *connect_pol,
const DOM_SID *domain_sid)
{
uint32 start_idx, max_entries, num_entries, i;
struct acct_info *groups;
NTSTATUS result;
POLICY_HND domain_pol;
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result))
return result;
start_idx = 0;
max_entries = 250;
do {
result = cli_samr_enum_als_groups(cli, mem_ctx, &domain_pol,
&start_idx, max_entries,
&groups, &num_entries);
for (i = 0; i < num_entries; i++) {
POLICY_HND alias_pol;
struct full_alias alias;
DOM_SID *members;
int j;
result = cli_samr_open_alias(cli, mem_ctx, &domain_pol,
MAXIMUM_ALLOWED_ACCESS,
groups[i].rid,
&alias_pol);
if (!NT_STATUS_IS_OK(result))
goto done;
result = cli_samr_query_aliasmem(cli, mem_ctx,
&alias_pol,
&alias.num_members,
&members);
if (!NT_STATUS_IS_OK(result))
goto done;
result = cli_samr_close(cli, mem_ctx, &alias_pol);
if (!NT_STATUS_IS_OK(result))
goto done;
alias.members = NULL;
if (alias.num_members > 0) {
alias.members = SMB_MALLOC_ARRAY(DOM_SID, alias.num_members);
for (j = 0; j < alias.num_members; j++)
sid_copy(&alias.members[j],
&members[j]);
}
sid_copy(&alias.sid, domain_sid);
sid_append_rid(&alias.sid, groups[i].rid);
push_alias(mem_ctx, &alias);
}
} while (NT_STATUS_EQUAL(result, STATUS_MORE_ENTRIES));
result = NT_STATUS_OK;
done:
cli_samr_close(cli, mem_ctx, &domain_pol);
return result;
}
/*
* Dump server_aliases as names for debugging purposes.
*/
static NTSTATUS
rpc_aliaslist_dump(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
int i;
NTSTATUS result;
POLICY_HND lsa_pol;
result = cli_lsa_open_policy(cli, mem_ctx, True,
SEC_RIGHTS_MAXIMUM_ALLOWED,
&lsa_pol);
if (!NT_STATUS_IS_OK(result))
return result;
for (i=0; i<num_server_aliases; i++) {
char **names;
char **domains;
uint32 *types;
int j;
struct full_alias *alias = &server_aliases[i];
result = cli_lsa_lookup_sids(cli, mem_ctx, &lsa_pol, 1,
&alias->sid,
&domains, &names, &types);
if (!NT_STATUS_IS_OK(result))
continue;
DEBUG(1, ("%s\\%s %d: ", domains[0], names[0], types[0]));
if (alias->num_members == 0) {
DEBUG(1, ("\n"));
continue;
}
result = cli_lsa_lookup_sids(cli, mem_ctx, &lsa_pol,
alias->num_members,
alias->members,
&domains, &names, &types);
if (!NT_STATUS_IS_OK(result) &&
!NT_STATUS_EQUAL(result, STATUS_SOME_UNMAPPED))
continue;
for (j=0; j<alias->num_members; j++)
DEBUG(1, ("%s\\%s (%d); ",
domains[j] ? domains[j] : "*unknown*",
names[j] ? names[j] : "*unknown*",types[j]));
DEBUG(1, ("\n"));
}
cli_lsa_close(cli, mem_ctx, &lsa_pol);
return NT_STATUS_OK;
}
/*
* Fetch a list of all server aliases and their members into
* server_aliases.
*/
static NTSTATUS
rpc_aliaslist_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
NTSTATUS result;
POLICY_HND connect_pol;
DOM_SID global_sid_Builtin;
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result))
goto done;
string_to_sid(&global_sid_Builtin, "S-1-5-32");
result = rpc_fetch_domain_aliases(cli, mem_ctx, &connect_pol,
&global_sid_Builtin);
if (!NT_STATUS_IS_OK(result))
goto done;
result = rpc_fetch_domain_aliases(cli, mem_ctx, &connect_pol,
domain_sid);
cli_samr_close(cli, mem_ctx, &connect_pol);
done:
return result;
}
static void init_user_token(NT_USER_TOKEN *token, DOM_SID *user_sid)
{
DOM_SID global_sid_World;
DOM_SID global_sid_Network;
DOM_SID global_sid_Authenticated_Users;
string_to_sid(&global_sid_World, "S-1-1-0");
string_to_sid(&global_sid_Network, "S-1-5-2");
string_to_sid(&global_sid_Authenticated_Users, "S-1-5-11");
token->num_sids = 4;
token->user_sids = SMB_MALLOC_ARRAY(DOM_SID, 4);
token->user_sids[0] = *user_sid;
sid_copy(&token->user_sids[1], &global_sid_World);
sid_copy(&token->user_sids[2], &global_sid_Network);
sid_copy(&token->user_sids[3], &global_sid_Authenticated_Users);
}
static void free_user_token(NT_USER_TOKEN *token)
{
SAFE_FREE(token->user_sids);
}
static BOOL is_sid_in_token(NT_USER_TOKEN *token, DOM_SID *sid)
{
int i;
for (i=0; i<token->num_sids; i++) {
if (sid_compare(sid, &token->user_sids[i]) == 0)
return True;
}
return False;
}
static void add_sid_to_token(NT_USER_TOKEN *token, DOM_SID *sid)
{
if (is_sid_in_token(token, sid))
return;
token->user_sids = SMB_REALLOC_ARRAY(token->user_sids, DOM_SID, token->num_sids+1);
sid_copy(&token->user_sids[token->num_sids], sid);
token->num_sids += 1;
}
struct user_token {
fstring name;
NT_USER_TOKEN token;
};
static void dump_user_token(struct user_token *token)
{
int i;
d_printf("%s\n", token->name);
for (i=0; i<token->token.num_sids; i++) {
d_printf(" %s\n", sid_string_static(&token->token.user_sids[i]));
}
}
static BOOL is_alias_member(DOM_SID *sid, struct full_alias *alias)
{
int i;
for (i=0; i<alias->num_members; i++) {
if (sid_compare(sid, &alias->members[i]) == 0)
return True;
}
return False;
}
static void collect_sid_memberships(NT_USER_TOKEN *token, DOM_SID sid)
{
int i;
for (i=0; i<num_server_aliases; i++) {
if (is_alias_member(&sid, &server_aliases[i]))
add_sid_to_token(token, &server_aliases[i].sid);
}
}
/*
* We got a user token with all the SIDs we can know about without asking the
* server directly. These are the user and domain group sids. All of these can
* be members of aliases. So scan the list of aliases for each of the SIDs and
* add them to the token.
*/
static void collect_alias_memberships(NT_USER_TOKEN *token)
{
int num_global_sids = token->num_sids;
int i;
for (i=0; i<num_global_sids; i++) {
collect_sid_memberships(token, token->user_sids[i]);
}
}
static BOOL get_user_sids(const char *domain, const char *user,
NT_USER_TOKEN *token)
{
struct winbindd_request request;
struct winbindd_response response;
fstring full_name;
NSS_STATUS result;
DOM_SID user_sid;
int i;
fstr_sprintf(full_name, "%s%c%s",
domain, *lp_winbind_separator(), user);
/* First let's find out the user sid */
ZERO_STRUCT(request);
ZERO_STRUCT(response);
fstrcpy(request.data.name.dom_name, domain);
fstrcpy(request.data.name.name, user);
result = winbindd_request(WINBINDD_LOOKUPNAME, &request, &response);
if (result != NSS_STATUS_SUCCESS) {
DEBUG(1, ("winbind could not find %s\n", full_name));
return False;
}
if (response.data.sid.type != SID_NAME_USER) {
DEBUG(1, ("%s is not a user\n", full_name));
return False;
}
string_to_sid(&user_sid, response.data.sid.sid);
init_user_token(token, &user_sid);
/* And now the groups winbind knows about */
ZERO_STRUCT(response);
fstrcpy(request.data.username, full_name);
result = winbindd_request(WINBINDD_GETGROUPS, &request, &response);
if (result != NSS_STATUS_SUCCESS) {
DEBUG(1, ("winbind could not get groups of %s\n", full_name));
return False;
}
for (i = 0; i < response.data.num_entries; i++) {
gid_t gid = ((gid_t *)response.extra_data)[i];
DOM_SID sid;
struct winbindd_request sidrequest;
struct winbindd_response sidresponse;
ZERO_STRUCT(sidrequest);
ZERO_STRUCT(sidresponse);
sidrequest.data.gid = gid;
result = winbindd_request(WINBINDD_GID_TO_SID,
&sidrequest, &sidresponse);
if (result != NSS_STATUS_SUCCESS) {
DEBUG(1, ("winbind could not find SID of gid %d\n",
gid));
return False;
}
DEBUG(3, (" %s\n", sidresponse.data.sid.sid));
string_to_sid(&sid, sidresponse.data.sid.sid);
add_sid_to_token(token, &sid);
}
SAFE_FREE(response.extra_data);
return True;
}
/**
* Get a list of all user tokens we want to look at
**/
static BOOL get_user_tokens(int *num_tokens, struct user_token **user_tokens)
{
struct winbindd_request request;
struct winbindd_response response;
const char *extra_data;
fstring name;
int i;
struct user_token *result;
/* Send request to winbind daemon */
ZERO_STRUCT(request);
ZERO_STRUCT(response);
if (winbindd_request(WINBINDD_LIST_USERS, &request, &response) !=
NSS_STATUS_SUCCESS)
return False;
/* Look through extra data */
if (!response.extra_data)
return False;
extra_data = (const char *)response.extra_data;
*num_tokens = 0;
while(next_token(&extra_data, name, ",", sizeof(fstring))) {
*num_tokens += 1;
}
result = SMB_MALLOC_ARRAY(struct user_token, *num_tokens);
if (result == NULL) {
DEBUG(1, ("Could not malloc sid array\n"));
return False;
}
extra_data = (const char *)response.extra_data;
i=0;
while(next_token(&extra_data, name, ",", sizeof(fstring))) {
fstring domain, user;
char *p;
fstrcpy(result[i].name, name);
p = strchr(name, *lp_winbind_separator());
DEBUG(3, ("%s\n", name));
if (p == NULL)
continue;
*p++ = '\0';
fstrcpy(domain, name);
strupper_m(domain);
fstrcpy(user, p);
get_user_sids(domain, user, &(result[i].token));
i+=1;
}
SAFE_FREE(response.extra_data);
*user_tokens = result;
return True;
}
static BOOL get_user_tokens_from_file(FILE *f,
int *num_tokens,
struct user_token **tokens)
{
struct user_token *token = NULL;
while (!feof(f)) {
fstring line;
if (fgets(line, sizeof(line)-1, f) == NULL) {
return True;
}
if (line[strlen(line)-1] == '\n')
line[strlen(line)-1] = '\0';
if (line[0] == ' ') {
/* We have a SID */
DOM_SID sid;
string_to_sid(&sid, &line[1]);
if (token == NULL) {
DEBUG(0, ("File does not begin with username"));
return False;
}
add_sid_to_token(&token->token, &sid);
continue;
}
/* And a new user... */
*num_tokens += 1;
*tokens = SMB_REALLOC_ARRAY(*tokens, struct user_token, *num_tokens);
if (*tokens == NULL) {
DEBUG(0, ("Could not realloc tokens\n"));
return False;
}
token = &((*tokens)[*num_tokens-1]);
fstrcpy(token->name, line);
token->token.num_sids = 0;
token->token.user_sids = NULL;
continue;
}
return False;
}
/*
* Show the list of all users that have access to a share
*/
static void show_userlist(struct cli_state *cli,
TALLOC_CTX *mem_ctx, const char *netname,
int num_tokens, struct user_token *tokens)
{
int fnum;
SEC_DESC *share_sd = NULL;
SEC_DESC *root_sd = NULL;
int i;
SRV_SHARE_INFO info;
WERROR result;
uint16 cnum;
result = cli_srvsvc_net_share_get_info(cli, mem_ctx, netname,
502, &info);
if (!W_ERROR_IS_OK(result)) {
DEBUG(1, ("Coult not query secdesc for share %s\n",
netname));
return;
}
share_sd = info.share.info502.info_502_str.sd;
if (share_sd == NULL) {
DEBUG(1, ("Got no secdesc for share %s\n",
netname));
}
cnum = cli->cnum;
if (!cli_send_tconX(cli, netname, "A:", "", 0)) {
return;
}
fnum = cli_nt_create(cli, "\\", READ_CONTROL_ACCESS);
if (fnum != -1) {
root_sd = cli_query_secdesc(cli, fnum, mem_ctx);
}
for (i=0; i<num_tokens; i++) {
uint32 acc_granted;
NTSTATUS status;
if (share_sd != NULL) {
if (!se_access_check(share_sd, &tokens[i].token,
1, &acc_granted, &status)) {
DEBUG(1, ("Could not check share_sd for "
"user %s\n",
tokens[i].name));
continue;
}
if (!NT_STATUS_IS_OK(status))
continue;
}
if (root_sd == NULL) {
d_printf(" %s\n", tokens[i].name);
continue;
}
if (!se_access_check(root_sd, &tokens[i].token,
1, &acc_granted, &status)) {
DEBUG(1, ("Could not check root_sd for user %s\n",
tokens[i].name));
continue;
}
if (!NT_STATUS_IS_OK(status))
continue;
d_printf(" %s\n", tokens[i].name);
}
if (fnum != -1)
cli_close(cli, fnum);
cli_tdis(cli);
cli->cnum = cnum;
return;
}
struct share_list {
int num_shares;
char **shares;
};
static void collect_share(const char *name, uint32 m,
const char *comment, void *state)
{
struct share_list *share_list = (struct share_list *)state;
if (m != STYPE_DISKTREE)
return;
share_list->num_shares += 1;
share_list->shares = SMB_REALLOC_ARRAY(share_list->shares, char *, share_list->num_shares);
share_list->shares[share_list->num_shares-1] = SMB_STRDUP(name);
}
static void rpc_share_userlist_usage(void)
{
return;
}
/**
* List shares on a remote RPC server, including the security descriptors
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_share_allowedusers_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
int ret;
BOOL r;
ENUM_HND hnd;
uint32 i;
FILE *f;
struct user_token *tokens = NULL;
int num_tokens = 0;
struct share_list share_list;
if (argc > 1) {
rpc_share_userlist_usage();
return NT_STATUS_UNSUCCESSFUL;
}
if (argc == 0) {
f = stdin;
} else {
f = fopen(argv[0], "r");
}
if (f == NULL) {
DEBUG(0, ("Could not open userlist: %s\n", strerror(errno)));
return NT_STATUS_UNSUCCESSFUL;
}
r = get_user_tokens_from_file(f, &num_tokens, &tokens);
if (f != stdin)
fclose(f);
if (!r) {
DEBUG(0, ("Could not read users from file\n"));
return NT_STATUS_UNSUCCESSFUL;
}
for (i=0; i<num_tokens; i++)
collect_alias_memberships(&tokens[i].token);
init_enum_hnd(&hnd, 0);
share_list.num_shares = 0;
share_list.shares = NULL;
ret = cli_RNetShareEnum(cli, collect_share, &share_list);
if (ret == -1) {
DEBUG(0, ("Error returning browse list: %s\n",
cli_errstr(cli)));
goto done;
}
for (i = 0; i < share_list.num_shares; i++) {
char *netname = share_list.shares[i];
if (netname[strlen(netname)-1] == '$')
continue;
d_printf("%s\n", netname);
show_userlist(cli, mem_ctx, netname,
num_tokens, tokens);
}
done:
for (i=0; i<num_tokens; i++) {
free_user_token(&tokens[i].token);
}
SAFE_FREE(tokens);
SAFE_FREE(share_list.shares);
return NT_STATUS_OK;
}
static int
rpc_share_allowedusers(int argc, const char **argv)
{
int result;
result = run_rpc_command(NULL, PI_SAMR, 0,
rpc_aliaslist_internals,
argc, argv);
if (result != 0)
return result;
result = run_rpc_command(NULL, PI_LSARPC, 0,
rpc_aliaslist_dump,
argc, argv);
if (result != 0)
return result;
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_share_allowedusers_internals,
argc, argv);
}
int net_usersidlist(int argc, const char **argv)
{
int num_tokens = 0;
struct user_token *tokens = NULL;
int i;
if (argc != 0) {
net_usersidlist_usage(argc, argv);
return 0;
}
if (!get_user_tokens(&num_tokens, &tokens)) {
DEBUG(0, ("Could not get the user/sid list\n"));
return 0;
}
for (i=0; i<num_tokens; i++) {
dump_user_token(&tokens[i]);
free_user_token(&tokens[i].token);
}
SAFE_FREE(tokens);
return 1;
}
int net_usersidlist_usage(int argc, const char **argv)
{
d_printf("net usersidlist\n"
"\tprints out a list of all users the running winbind knows\n"
"\tabout, together with all their SIDs. This is used as\n"
"\tinput to the 'net rpc share allowedusers' command.\n\n");
net_common_flags_usage(argc, argv);
return -1;
}
/**
* 'net rpc share' entrypoint.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_share(int argc, const char **argv)
{
struct functable func[] = {
{"add", rpc_share_add},
{"delete", rpc_share_delete},
{"allowedusers", rpc_share_allowedusers},
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
{"migrate", rpc_share_migrate},
{NULL, NULL}
};
if (argc == 0)
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_share_list_internals,
argc, argv);
return net_run_function(argc, argv, func, rpc_share_usage);
}
/****************************************************************************/
static int rpc_file_usage(int argc, const char **argv)
{
return net_help_file(argc, argv);
}
/**
* Close a file on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_file_close_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
WERROR result;
result = cli_srvsvc_net_file_close(cli, mem_ctx, atoi(argv[0]));
return W_ERROR_IS_OK(result) ? NT_STATUS_OK : NT_STATUS_UNSUCCESSFUL;
}
/**
* Close a file on a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_file_close(int argc, const char **argv)
{
if (argc < 1) {
DEBUG(1, ("No fileid given on close\n"));
return(rpc_file_usage(argc, argv));
}
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_file_close_internals,
argc, argv);
}
/**
* Formatted print of open file info
*
* @param info3 FILE_INFO_3 contents
* @param str3 strings for FILE_INFO_3
**/
static void display_file_info_3(FILE_INFO_3 *info3, FILE_INFO_3_STR *str3)
{
fstring user = "", path = "";
rpcstr_pull_unistr2_fstring(user, &str3->uni_user_name);
rpcstr_pull_unistr2_fstring(path, &str3->uni_path_name);
d_printf("%-7.1d %-20.20s 0x%-4.2x %-6.1d %s\n",
info3->id, user, info3->perms, info3->num_locks, path);
}
/**
* List open files on a remote RPC server
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid acquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS
rpc_file_list_internals(const DOM_SID *domain_sid, const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx, int argc, const char **argv)
{
SRV_FILE_INFO_CTR ctr;
WERROR result;
ENUM_HND hnd;
uint32 preferred_len = 0xffffffff, i;
const char *username=NULL;
init_enum_hnd(&hnd, 0);
/* if argc > 0, must be user command */
if (argc > 0)
username = smb_xstrdup(argv[0]);
result = cli_srvsvc_net_file_enum(
cli, mem_ctx, 3, username, &ctr, preferred_len, &hnd);
if (!W_ERROR_IS_OK(result))
goto done;
/* Display results */
d_printf(
"\nEnumerating open files on remote server:\n\n"\
"\nFileId Opened by Perms Locks Path"\
"\n------ --------- ----- ----- ---- \n");
for (i = 0; i < ctr.num_entries; i++)
display_file_info_3(&ctr.file.info3[i].info_3,
&ctr.file.info3[i].info_3_str);
done:
return W_ERROR_IS_OK(result) ? NT_STATUS_OK : NT_STATUS_UNSUCCESSFUL;
}
/**
* List files for a user on a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_file_user(int argc, const char **argv)
{
if (argc < 1) {
DEBUG(1, ("No username given\n"));
return(rpc_file_usage(argc, argv));
}
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_file_list_internals,
argc, argv);
}
/**
* 'net rpc file' entrypoint.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_file(int argc, const char **argv)
{
struct functable func[] = {
{"close", rpc_file_close},
{"user", rpc_file_user},
#if 0
{"info", rpc_file_info},
#endif
{NULL, NULL}
};
if (argc == 0)
return run_rpc_command(NULL, PI_SRVSVC, 0,
rpc_file_list_internals,
argc, argv);
return net_run_function(argc, argv, func, rpc_file_usage);
}
/****************************************************************************/
/**
* ABORT the shutdown of a remote RPC Server over, initshutdown pipe
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passed through.
*
* @param domain_sid The domain sid aquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on compleation of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_shutdown_abort_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
result = cli_shutdown_abort(cli, mem_ctx);
if (NT_STATUS_IS_OK(result)) {
d_printf("\nShutdown successfully aborted\n");
DEBUG(5,("cmd_shutdown_abort: query succeeded\n"));
} else
DEBUG(5,("cmd_shutdown_abort: query failed\n"));
return result;
}
/**
* ABORT the shutdown of a remote RPC Server, over winreg pipe
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passed through.
*
* @param domain_sid The domain sid aquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on compleation of the function.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_reg_shutdown_abort_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
result = cli_reg_abort_shutdown(cli, mem_ctx);
if (NT_STATUS_IS_OK(result)) {
d_printf("\nShutdown successfully aborted\n");
DEBUG(5,("cmd_reg_abort_shutdown: query succeeded\n"));
} else
DEBUG(5,("cmd_reg_abort_shutdown: query failed\n"));
return result;
}
/**
* ABORT the Shut down of a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_shutdown_abort(int argc, const char **argv)
{
int rc = run_rpc_command(NULL, PI_SHUTDOWN, 0,
rpc_shutdown_abort_internals,
argc, argv);
if (rc == 0)
return rc;
DEBUG(1, ("initshutdown pipe didn't work, trying winreg pipe\n"));
return run_rpc_command(NULL, PI_WINREG, 0,
rpc_reg_shutdown_abort_internals,
argc, argv);
}
/**
* Shut down a remote RPC Server via initshutdown pipe
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid aquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on compleation of the function.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_init_shutdown_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
const char *msg = "This machine will be shutdown shortly";
uint32 timeout = 20;
if (opt_comment) {
msg = opt_comment;
}
if (opt_timeout) {
timeout = opt_timeout;
}
/* create an entry */
result = cli_shutdown_init(cli, mem_ctx, msg, timeout, opt_reboot,
opt_force);
if (NT_STATUS_IS_OK(result)) {
d_printf("\nShutdown of remote machine succeeded\n");
DEBUG(5,("Shutdown of remote machine succeeded\n"));
} else
DEBUG(0,("Shutdown of remote machine failed!\n"));
return result;
}
/**
* Shut down a remote RPC Server via winreg pipe
*
* All parameters are provided by the run_rpc_command function, except for
* argc, argv which are passes through.
*
* @param domain_sid The domain sid aquired from the remote server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on compleation of the function.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return Normal NTSTATUS return.
**/
static NTSTATUS rpc_reg_shutdown_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli,
TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
const char *msg = "This machine will be shutdown shortly";
uint32 timeout = 20;
#if 0
poptContext pc;
int rc;
struct poptOption long_options[] = {
{"message", 'm', POPT_ARG_STRING, &msg},
{"timeout", 't', POPT_ARG_INT, &timeout},
{"reboot", 'r', POPT_ARG_NONE, &reboot},
{"force", 'f', POPT_ARG_NONE, &force},
{ 0, 0, 0, 0}
};
pc = poptGetContext(NULL, argc, (const char **) argv, long_options,
POPT_CONTEXT_KEEP_FIRST);
rc = poptGetNextOpt(pc);
if (rc < -1) {
/* an error occurred during option processing */
DEBUG(0, ("%s: %s\n",
poptBadOption(pc, POPT_BADOPTION_NOALIAS),
poptStrerror(rc)));
return NT_STATUS_INVALID_PARAMETER;
}
#endif
if (opt_comment) {
msg = opt_comment;
}
if (opt_timeout) {
timeout = opt_timeout;
}
/* create an entry */
result = cli_reg_shutdown(cli, mem_ctx, msg, timeout, opt_reboot, opt_force);
if (NT_STATUS_IS_OK(result)) {
d_printf("\nShutdown of remote machine succeeded\n");
DEBUG(5,("Shutdown of remote machine succeeded\n"));
}
else
DEBUG(0,("Shutdown of remote machine failed!\n"));
return result;
}
/**
* Shut down a remote RPC server
*
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_shutdown(int argc, const char **argv)
{
int rc = run_rpc_command(NULL, PI_SHUTDOWN, 0,
rpc_init_shutdown_internals,
argc, argv);
if (rc == 0)
return rc;
DEBUG(1, ("initshutdown pipe didn't work, trying winreg pipe\n"));
return run_rpc_command(NULL, PI_WINREG, 0, rpc_reg_shutdown_internals,
argc, argv);
}
/***************************************************************************
NT Domain trusts code (i.e. 'net rpc trustdom' functionality)
***************************************************************************/
/**
* Add interdomain trust account to the RPC server.
* All parameters (except for argc and argv) are passed by run_rpc_command
* function.
*
* @param domain_sid The domain sid acquired from the server
* @param cli A cli_state connected to the server.
* @param mem_ctx Talloc context, destoyed on completion of the function.
* @param argc Standard main() style argc
* @param argc Standard main() style argv. Initial components are already
* stripped
*
* @return normal NTSTATUS return code
*/
static NTSTATUS rpc_trustdom_add_internals(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv) {
POLICY_HND connect_pol, domain_pol, user_pol;
NTSTATUS result = NT_STATUS_UNSUCCESSFUL;
char *acct_name;
uint16 acb_info;
uint32 unknown, user_rid;
if (argc != 2) {
d_printf("Usage: net rpc trustdom add <domain_name> <pw>\n");
return NT_STATUS_INVALID_PARAMETER;
}
/*
* Make valid trusting domain account (ie. uppercased and with '$' appended)
*/
if (asprintf(&acct_name, "%s$", argv[0]) < 0) {
return NT_STATUS_NO_MEMORY;
}
strupper_m(acct_name);
/* Get samr policy handle */
result = cli_samr_connect(cli, mem_ctx, MAXIMUM_ALLOWED_ACCESS,
&connect_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Get domain policy handle */
result = cli_samr_open_domain(cli, mem_ctx, &connect_pol,
MAXIMUM_ALLOWED_ACCESS,
domain_sid, &domain_pol);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
/* Create trusting domain's account */
acb_info = ACB_DOMTRUST;
unknown = 0xe00500b0; /* No idea what this is - a permission mask?
mimir: yes, most probably it is */
result = cli_samr_create_dom_user(cli, mem_ctx, &domain_pol,
acct_name, acb_info, unknown,
&user_pol, &user_rid);
if (!NT_STATUS_IS_OK(result)) {
goto done;
}
{
SAM_USERINFO_CTR ctr;
SAM_USER_INFO_24 p24;
uchar pwbuf[516];
encode_pw_buffer((char *)pwbuf, argv[1], STR_UNICODE);
ZERO_STRUCT(ctr);
ZERO_STRUCT(p24);
init_sam_user_info24(&p24, (char *)pwbuf, 24);
ctr.switch_value = 24;
ctr.info.id24 = &p24;
result = cli_samr_set_userinfo(cli, mem_ctx, &user_pol, 24,
&cli->user_session_key, &ctr);
if (!NT_STATUS_IS_OK(result)) {
DEBUG(0,("Could not set trust account password: %s\n",
nt_errstr(result)));
goto done;
}
}
done:
SAFE_FREE(acct_name);
return result;
}
/**
* Create interdomain trust account for a remote domain.
*
* @param argc standard argc
* @param argv standard argv without initial components
*
* @return Integer status (0 means success)
**/
static int rpc_trustdom_add(int argc, const char **argv)
{
if (argc > 0) {
return run_rpc_command(NULL, PI_SAMR, 0, rpc_trustdom_add_internals,
argc, argv);
} else {
d_printf("Usage: net rpc trustdom add <domain>\n");
return -1;
}
}
/**
* Delete interdomain trust account for a remote domain.
*
* @param argc standard argc
* @param argv standard argv without initial components
*
* @return Integer status (0 means success)
**/
static int rpc_trustdom_del(int argc, const char **argv)
{
d_printf("Sorry, not yet implemented.\n");
d_printf("Use 'smbpasswd -x -i' instead.\n");
return -1;
}
/**
* Establish trust relationship to a trusting domain.
* Interdomain account must already be created on remote PDC.
*
* @param argc standard argc
* @param argv standard argv without initial components
*
* @return Integer status (0 means success)
**/
static int rpc_trustdom_establish(int argc, const char **argv)
{
struct cli_state *cli;
struct in_addr server_ip;
POLICY_HND connect_hnd;
TALLOC_CTX *mem_ctx;
NTSTATUS nt_status;
DOM_SID *domain_sid;
WKS_INFO_100 wks_info;
char* domain_name;
char* domain_name_pol;
char* acct_name;
fstring pdc_name;
/*
* Connect to \\server\ipc$ as 'our domain' account with password
*/
if (argc != 1) {
d_printf("Usage: net rpc trustdom establish <domain_name>\n");
return -1;
}
domain_name = smb_xstrdup(argv[0]);
strupper_m(domain_name);
/* account name used at first is our domain's name with '$' */
asprintf(&acct_name, "%s$", lp_workgroup());
strupper_m(acct_name);
/*
* opt_workgroup will be used by connection functions further,
* hence it should be set to remote domain name instead of ours
*/
if (opt_workgroup) {
opt_workgroup = smb_xstrdup(domain_name);
};
opt_user_name = acct_name;
/* find the domain controller */
if (!net_find_pdc(&server_ip, pdc_name, domain_name)) {
DEBUG(0, ("Couldn't find domain controller for domain %s\n", domain_name));
return -1;
}
/* connect to ipc$ as username/password */
nt_status = connect_to_ipc(&cli, &server_ip, pdc_name);
if (!NT_STATUS_EQUAL(nt_status, NT_STATUS_NOLOGON_INTERDOMAIN_TRUST_ACCOUNT)) {
/* Is it trusting domain account for sure ? */
DEBUG(0, ("Couldn't verify trusting domain account. Error was %s\n",
nt_errstr(nt_status)));
return -1;
}
/*
* Connect to \\server\ipc$ again (this time anonymously)
*/
nt_status = connect_to_ipc_anonymous(&cli, &server_ip, (char*)pdc_name);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("Couldn't connect to domain %s controller. Error was %s.\n",
domain_name, nt_errstr(nt_status)));
}
/*
* Use NetServerEnum2 to make sure we're talking to a proper server
*/
if (!cli_get_pdc_name(cli, domain_name, (char*)pdc_name)) {
DEBUG(0, ("NetServerEnum2 error: Couldn't find primary domain controller\
for domain %s\n", domain_name));
}
/*
* Call WksQueryInfo to check remote server's capabilities
* note: It is now used only to get unicode domain name
*/
if (!cli_nt_session_open(cli, PI_WKSSVC)) {
DEBUG(0, ("Couldn't not initialise wkssvc pipe\n"));
return -1;
}
if (!(mem_ctx = talloc_init("establishing trust relationship to domain %s",
domain_name))) {
DEBUG(0, ("talloc_init() failed\n"));
cli_shutdown(cli);
return -1;
}
nt_status = cli_wks_query_info(cli, mem_ctx, &wks_info);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("WksQueryInfo call failed.\n"));
return -1;
}
if (cli->nt_pipe_fnum)
cli_nt_session_close(cli);
/*
* Call LsaOpenPolicy and LsaQueryInfo
*/
if (!(mem_ctx = talloc_init("rpc_trustdom_establish"))) {
DEBUG(0, ("talloc_init() failed\n"));
cli_shutdown(cli);
return -1;
}
if (!cli_nt_session_open(cli, PI_LSARPC)) {
DEBUG(0, ("Could not initialise lsa pipe\n"));
cli_shutdown(cli);
return -1;
}
nt_status = cli_lsa_open_policy2(cli, mem_ctx, True, SEC_RIGHTS_QUERY_VALUE,
&connect_hnd);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("Couldn't open policy handle. Error was %s\n",
nt_errstr(nt_status)));
return -1;
}
/* Querying info level 5 */
nt_status = cli_lsa_query_info_policy(cli, mem_ctx, &connect_hnd,
5 /* info level */, &domain_name_pol,
&domain_sid);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("LSA Query Info failed. Returned error was %s\n",
nt_errstr(nt_status)));
return -1;
}
/* There should be actually query info level 3 (following nt serv behaviour),
but I still don't know if it's _really_ necessary */
/*
* Store the password in secrets db
*/
if (!secrets_store_trusted_domain_password(domain_name, wks_info.uni_lan_grp.buffer,
wks_info.uni_lan_grp.uni_str_len, opt_password,
*domain_sid)) {
DEBUG(0, ("Storing password for trusted domain failed.\n"));
return -1;
}
/*
* Close the pipes and clean up
*/
nt_status = cli_lsa_close(cli, mem_ctx, &connect_hnd);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("Couldn't close LSA pipe. Error was %s\n",
nt_errstr(nt_status)));
return -1;
}
if (cli->nt_pipe_fnum)
cli_nt_session_close(cli);
talloc_destroy(mem_ctx);
d_printf("Trust to domain %s established\n", domain_name);
return 0;
}
/**
* Revoke trust relationship to the remote domain
*
* @param argc standard argc
* @param argv standard argv without initial components
*
* @return Integer status (0 means success)
**/
static int rpc_trustdom_revoke(int argc, const char **argv)
{
char* domain_name;
if (argc < 1) return -1;
/* generate upper cased domain name */
domain_name = smb_xstrdup(argv[0]);
strupper_m(domain_name);
/* delete password of the trust */
if (!trusted_domain_password_delete(domain_name)) {
DEBUG(0, ("Failed to revoke relationship to the trusted domain %s\n",
domain_name));
return -1;
};
return 0;
}
/**
* Usage for 'net rpc trustdom' command
*
* @param argc standard argc
* @param argv standard argv without inital components
*
* @return Integer status returned to shell
**/
static int rpc_trustdom_usage(int argc, const char **argv)
{
d_printf(" net rpc trustdom add \t\t add trusting domain's account\n");
d_printf(" net rpc trustdom del \t\t delete trusting domain's account\n");
d_printf(" net rpc trustdom establish \t establish relationship to trusted domain\n");
d_printf(" net rpc trustdom revoke \t abandon relationship to trusted domain\n");
d_printf(" net rpc trustdom list \t show current interdomain trust relationships\n");
return -1;
}
static NTSTATUS rpc_query_domain_sid(const DOM_SID *domain_sid,
const char *domain_name,
struct cli_state *cli, TALLOC_CTX *mem_ctx,
int argc, const char **argv)
{
fstring str_sid;
sid_to_string(str_sid, domain_sid);
d_printf("%s\n", str_sid);
return NT_STATUS_OK;
}
static int rpc_trustdom_list(int argc, const char **argv)
{
/* common variables */
TALLOC_CTX* mem_ctx;
struct cli_state *cli, *remote_cli;
NTSTATUS nt_status;
const char *domain_name = NULL;
DOM_SID *queried_dom_sid;
fstring ascii_sid, padding;
int ascii_dom_name_len;
POLICY_HND connect_hnd;
/* trusted domains listing variables */
unsigned int num_domains, enum_ctx = 0;
int i, pad_len, col_len = 20;
DOM_SID *domain_sids;
char **trusted_dom_names;
fstring pdc_name;
char *dummy;
/* trusting domains listing variables */
POLICY_HND domain_hnd;
char **trusting_dom_names;
uint32 *trusting_dom_rids;
/*
* Listing trusted domains (stored in secrets.tdb, if local)
*/
mem_ctx = talloc_init("trust relationships listing");
/*
* set domain and pdc name to local samba server (default)
* or to remote one given in command line
*/
if (StrCaseCmp(opt_workgroup, lp_workgroup())) {
domain_name = opt_workgroup;
opt_target_workgroup = opt_workgroup;
} else {
fstrcpy(pdc_name, global_myname());
domain_name = talloc_strdup(mem_ctx, lp_workgroup());
opt_target_workgroup = domain_name;
};
/* open \PIPE\lsarpc and open policy handle */
if (!(cli = net_make_ipc_connection(NET_FLAGS_PDC))) {
DEBUG(0, ("Couldn't connect to domain controller\n"));
return -1;
};
if (!cli_nt_session_open(cli, PI_LSARPC)) {
DEBUG(0, ("Could not initialise lsa pipe\n"));
return -1;
};
nt_status = cli_lsa_open_policy2(cli, mem_ctx, False, SEC_RIGHTS_QUERY_VALUE,
&connect_hnd);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("Couldn't open policy handle. Error was %s\n",
nt_errstr(nt_status)));
return -1;
};
/* query info level 5 to obtain sid of a domain being queried */
nt_status = cli_lsa_query_info_policy(
cli, mem_ctx, &connect_hnd, 5 /* info level */,
&dummy, &queried_dom_sid);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("LSA Query Info failed. Returned error was %s\n",
nt_errstr(nt_status)));
return -1;
}
/*
* Keep calling LsaEnumTrustdom over opened pipe until
* the end of enumeration is reached
*/
d_printf("Trusted domains list:\n\n");
do {
nt_status = cli_lsa_enum_trust_dom(cli, mem_ctx, &connect_hnd, &enum_ctx,
&num_domains,
&trusted_dom_names, &domain_sids);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("Couldn't enumerate trusted domains. Error was %s\n",
nt_errstr(nt_status)));
return -1;
};
for (i = 0; i < num_domains; i++) {
/* convert sid into ascii string */
sid_to_string(ascii_sid, &(domain_sids[i]));
/* calculate padding space for d_printf to look nicer */
pad_len = col_len - strlen(trusted_dom_names[i]);
padding[pad_len] = 0;
do padding[--pad_len] = ' '; while (pad_len);
d_printf("%s%s%s\n", trusted_dom_names[i], padding, ascii_sid);
};
/*
* in case of no trusted domains say something rather
* than just display blank line
*/
if (!num_domains) d_printf("none\n");
} while (NT_STATUS_EQUAL(nt_status, STATUS_MORE_ENTRIES));
/* close this connection before doing next one */
nt_status = cli_lsa_close(cli, mem_ctx, &connect_hnd);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("Couldn't properly close lsa policy handle. Error was %s\n",
nt_errstr(nt_status)));
return -1;
};
cli_nt_session_close(cli);
/*
* Listing trusting domains (stored in passdb backend, if local)
*/
d_printf("\nTrusting domains list:\n\n");
/*
* Open \PIPE\samr and get needed policy handles
*/
if (!cli_nt_session_open(cli, PI_SAMR)) {
DEBUG(0, ("Could not initialise samr pipe\n"));
return -1;
};
/* SamrConnect */
nt_status = cli_samr_connect(cli, mem_ctx, SA_RIGHT_SAM_OPEN_DOMAIN,
&connect_hnd);
if (!NT_STATUS_IS_OK(nt_status)) {
DEBUG(0, ("Couldn't open SAMR policy handle. Error was %s\n",
nt_errstr(nt_status)));
return -1;
};
/* SamrOpenDomain - we have to open domain policy handle in order to be
able to enumerate accounts*/
nt_status = cli_samr_open_domain(cli, mem_ctx, &connect_hnd,
SA_RIGHT_DOMAIN_ENUM_ACCOUNTS,
queried_dom_sid, &domain_hnd);
if (!NT_STATUS_IS_OK(nt_status)) {
DEBUG(0, ("Couldn't open domain object. Error was %s\n",
nt_errstr(nt_status)));
return -1;
};
/*
* perform actual enumeration
*/
enum_ctx = 0; /* reset enumeration context from last enumeration */
do {
nt_status = cli_samr_enum_dom_users(cli, mem_ctx, &domain_hnd,
&enum_ctx, ACB_DOMTRUST, 0xffff,
&trusting_dom_names, &trusting_dom_rids,
&num_domains);
if (NT_STATUS_IS_ERR(nt_status)) {
DEBUG(0, ("Couldn't enumerate accounts. Error was: %s\n",
nt_errstr(nt_status)));
return -1;
};
for (i = 0; i < num_domains; i++) {
/*
* get each single domain's sid (do we _really_ need this ?):
* 1) connect to domain's pdc
* 2) query the pdc for domain's sid
*/
/* get rid of '$' tail */
ascii_dom_name_len = strlen(trusting_dom_names[i]);
if (ascii_dom_name_len && ascii_dom_name_len < FSTRING_LEN)
trusting_dom_names[i][ascii_dom_name_len - 1] = '\0';
/* calculate padding space for d_printf to look nicer */
pad_len = col_len - strlen(trusting_dom_names[i]);
padding[pad_len] = 0;
do padding[--pad_len] = ' '; while (pad_len);
/* set opt_* variables to remote domain */
strupper_m(trusting_dom_names[i]);
opt_workgroup = talloc_strdup(mem_ctx, trusting_dom_names[i]);
opt_target_workgroup = opt_workgroup;
d_printf("%s%s", trusting_dom_names[i], padding);
/* connect to remote domain controller */
remote_cli = net_make_ipc_connection(NET_FLAGS_PDC | NET_FLAGS_ANONYMOUS);
if (remote_cli) {
/* query for domain's sid */
if (run_rpc_command(remote_cli, PI_LSARPC, 0, rpc_query_domain_sid, argc, argv))
d_printf("couldn't get domain's sid\n");
cli_shutdown(remote_cli);
} else {
d_printf("domain controller is not responding\n");
};
};
if (!num_domains) d_printf("none\n");
} while (NT_STATUS_EQUAL(nt_status, STATUS_MORE_ENTRIES));
/* close opened samr and domain policy handles */
nt_status = cli_samr_close(cli, mem_ctx, &domain_hnd);
if (!NT_STATUS_IS_OK(nt_status)) {
DEBUG(0, ("Couldn't properly close domain policy handle for domain %s\n", domain_name));
};
nt_status = cli_samr_close(cli, mem_ctx, &connect_hnd);
if (!NT_STATUS_IS_OK(nt_status)) {
DEBUG(0, ("Couldn't properly close samr policy handle for domain %s\n", domain_name));
};
/* close samr pipe and connection to IPC$ */
cli_nt_session_close(cli);
cli_shutdown(cli);
talloc_destroy(mem_ctx);
return 0;
}
/**
* Entrypoint for 'net rpc trustdom' code
*
* @param argc standard argc
* @param argv standard argv without initial components
*
* @return Integer status (0 means success)
*/
static int rpc_trustdom(int argc, const char **argv)
{
struct functable func[] = {
{"add", rpc_trustdom_add},
{"del", rpc_trustdom_del},
{"establish", rpc_trustdom_establish},
{"revoke", rpc_trustdom_revoke},
{"help", rpc_trustdom_usage},
{"list", rpc_trustdom_list},
{NULL, NULL}
};
if (argc == 0) {
rpc_trustdom_usage(argc, argv);
return -1;
}
return (net_run_function(argc, argv, func, rpc_user_usage));
}
/**
* Check if a server will take rpc commands
* @param flags Type of server to connect to (PDC, DMB, localhost)
* if the host is not explicitly specified
* @return BOOL (true means rpc supported)
*/
BOOL net_rpc_check(unsigned flags)
{
struct cli_state cli;
BOOL ret = False;
struct in_addr server_ip;
char *server_name = NULL;
/* flags (i.e. server type) may depend on command */
if (!net_find_server(flags, &server_ip, &server_name))
return False;
ZERO_STRUCT(cli);
if (cli_initialise(&cli) == False)
return False;
if (!cli_connect(&cli, server_name, &server_ip))
goto done;
if (!attempt_netbios_session_request(&cli, global_myname(),
server_name, &server_ip))
goto done;
if (!cli_negprot(&cli))
goto done;
if (cli.protocol < PROTOCOL_NT1)
goto done;
ret = True;
done:
cli_shutdown(&cli);
return ret;
}
/* dump sam database via samsync rpc calls */
static int rpc_samdump(int argc, const char **argv) {
return run_rpc_command(NULL, PI_NETLOGON, NET_FLAGS_ANONYMOUS, rpc_samdump_internals,
argc, argv);
}
/* syncronise sam database via samsync rpc calls */
static int rpc_vampire(int argc, const char **argv) {
return run_rpc_command(NULL, PI_NETLOGON, NET_FLAGS_ANONYMOUS, rpc_vampire_internals,
argc, argv);
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
/**
* Migrate everything from a print-server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
*
* The order is important !
* To successfully add drivers the print-queues have to exist !
* Applying ACLs should be the last step, because you're easily locked out
*
**/
static int rpc_printer_migrate_all(int argc, const char **argv)
{
int ret;
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
ret = run_rpc_command(NULL, PI_SPOOLSS, 0, rpc_printer_migrate_printers_internals, argc, argv);
if (ret)
return ret;
ret = run_rpc_command(NULL, PI_SPOOLSS, 0, rpc_printer_migrate_drivers_internals, argc, argv);
if (ret)
return ret;
ret = run_rpc_command(NULL, PI_SPOOLSS, 0, rpc_printer_migrate_forms_internals, argc, argv);
if (ret)
return ret;
ret = run_rpc_command(NULL, PI_SPOOLSS, 0, rpc_printer_migrate_settings_internals, argc, argv);
if (ret)
return ret;
return run_rpc_command(NULL, PI_SPOOLSS, 0, rpc_printer_migrate_security_internals, argc, argv);
}
/**
* Migrate print-drivers from a print-server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_migrate_drivers(int argc, const char **argv)
{
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_migrate_drivers_internals,
argc, argv);
}
/**
* Migrate print-forms from a print-server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_migrate_forms(int argc, const char **argv)
{
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_migrate_forms_internals,
argc, argv);
}
/**
* Migrate printers from a print-server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_migrate_printers(int argc, const char **argv)
{
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_migrate_printers_internals,
argc, argv);
}
/**
* Migrate printer-ACLs from a print-server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_migrate_security(int argc, const char **argv)
{
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_migrate_security_internals,
argc, argv);
}
/**
* Migrate printer-settings from a print-server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_migrate_settings(int argc, const char **argv)
{
if (!opt_host) {
printf("no server to migrate\n");
return -1;
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_migrate_settings_internals,
argc, argv);
}
/**
* 'net rpc printer' entrypoint.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int rpc_printer_migrate(int argc, const char **argv)
{
/* ouch: when addriver and setdriver are called from within
rpc_printer_migrate_drivers_internals, the printer-queue already
*has* to exist */
struct functable func[] = {
{"all", rpc_printer_migrate_all},
{"drivers", rpc_printer_migrate_drivers},
{"forms", rpc_printer_migrate_forms},
{"help", rpc_printer_usage},
{"printers", rpc_printer_migrate_printers},
{"security", rpc_printer_migrate_security},
{"settings", rpc_printer_migrate_settings},
{NULL, NULL}
};
return net_run_function(argc, argv, func, rpc_printer_usage);
}
/**
* List printers on a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_list(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_list_internals,
argc, argv);
}
/**
* List printer-drivers on a remote RPC server
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_driver_list(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_driver_list_internals,
argc, argv);
}
/**
* Publish printer in ADS via MSRPC
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_publish_publish(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_publish_publish_internals,
argc, argv);
}
/**
* Update printer in ADS via MSRPC
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_publish_update(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_publish_update_internals,
argc, argv);
}
/**
* UnPublish printer in ADS via MSRPC
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_publish_unpublish(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_publish_unpublish_internals,
argc, argv);
}
/**
* List published printers via MSRPC
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_publish_list(int argc, const char **argv)
{
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_publish_list_internals,
argc, argv);
}
/**
* Publish printer in ADS
*
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
*
* @return A shell status integer (0 for success)
**/
static int rpc_printer_publish(int argc, const char **argv)
{
struct functable func[] = {
{"publish", rpc_printer_publish_publish},
{"update", rpc_printer_publish_update},
{"unpublish", rpc_printer_publish_unpublish},
{"list", rpc_printer_publish_list},
{"help", rpc_printer_usage},
{NULL, NULL}
};
if (argc == 0)
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_publish_list_internals,
argc, argv);
return net_run_function(argc, argv, func, rpc_printer_usage);
}
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
/**
* Display rpc printer help page.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int rpc_printer_usage(int argc, const char **argv)
{
return net_help_printer(argc, argv);
}
/**
* 'net rpc printer' entrypoint.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_printer(int argc, const char **argv)
{
struct functable func[] = {
{"list", rpc_printer_list},
{"migrate", rpc_printer_migrate},
{"driver", rpc_printer_driver_list},
{"publish", rpc_printer_publish},
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
{NULL, NULL}
};
if (argc == 0)
return run_rpc_command(NULL, PI_SPOOLSS, 0,
rpc_printer_list_internals,
argc, argv);
return net_run_function(argc, argv, func, rpc_printer_usage);
}
/****************************************************************************/
/**
* Basic usage function for 'net rpc'
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_usage(int argc, const char **argv)
{
d_printf(" net rpc info \t\t\tshow basic info about a domain \n");
d_printf(" net rpc join \t\t\tto join a domain \n");
d_printf(" net rpc oldjoin \t\t\tto join a domain created in server manager\n\n\n");
d_printf(" net rpc testjoin \t\ttests that a join is valid\n");
d_printf(" net rpc user \t\t\tto add, delete and list users\n");
d_printf(" net rpc password <username> [<password>] -Uadmin_username%%admin_pass\n");
d_printf(" net rpc group \t\tto list groups\n");
d_printf(" net rpc share \t\tto add, delete, list and migrate shares\n");
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
d_printf(" net rpc printer \t\tto list and migrate printers\n");
d_printf(" net rpc file \t\t\tto list open files\n");
d_printf(" net rpc changetrustpw \tto change the trust account password\n");
d_printf(" net rpc getsid \t\tfetch the domain sid into the local secrets.tdb\n");
d_printf(" net rpc vampire \t\tsyncronise an NT PDC's users and groups into the local passdb\n");
d_printf(" net rpc samdump \t\tdiplay an NT PDC's users, groups and other data\n");
d_printf(" net rpc trustdom \t\tto create trusting domain's account\n"
"\t\t\t\t\tor establish trust\n");
d_printf(" net rpc abortshutdown \tto abort the shutdown of a remote server\n");
d_printf(" net rpc shutdown \t\tto shutdown a remote server\n");
d_printf("\n");
d_printf("'net rpc shutdown' also accepts the following miscellaneous options:\n"); /* misc options */
d_printf("\t-r or --reboot\trequest remote server reboot on shutdown\n");
d_printf("\t-f or --force\trequest the remote server force its shutdown\n");
d_printf("\t-t or --timeout=<timeout>\tnumber of seconds before shutdown\n");
d_printf("\t-c or --comment=<message>\ttext message to display on impending shutdown\n");
return -1;
}
/**
* Help function for 'net rpc'. Calls command specific help if requested
* or displays usage of net rpc
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc_help(int argc, const char **argv)
{
struct functable func[] = {
{"join", rpc_join_usage},
{"user", rpc_user_usage},
{"group", rpc_group_usage},
{"share", rpc_share_usage},
/*{"changetrustpw", rpc_changetrustpw_usage}, */
{"trustdom", rpc_trustdom_usage},
/*{"abortshutdown", rpc_shutdown_abort_usage},*/
/*{"shutdown", rpc_shutdown_usage}, */
{NULL, NULL}
};
if (argc == 0) {
net_rpc_usage(argc, argv);
return -1;
}
return (net_run_function(argc, argv, func, rpc_user_usage));
}
/**
* 'net rpc' entrypoint.
* @param argc Standard main() style argc
* @param argv Standard main() style argv. Initial components are already
* stripped
**/
int net_rpc(int argc, const char **argv)
{
struct functable func[] = {
{"info", net_rpc_info},
{"join", net_rpc_join},
{"oldjoin", net_rpc_oldjoin},
{"testjoin", net_rpc_testjoin},
{"user", net_rpc_user},
{"password", rpc_user_password},
{"group", net_rpc_group},
{"share", net_rpc_share},
{"file", net_rpc_file},
r1692: first commit :) * add IA64 to the architecture table of printer-drivers * add new "net"-subcommands: net rpc printer migrate {drivers|printers|forms|security|settings|all} [printer] net rpc share migrate {shares|files|all} [share] this is the first part of the migration suite. this will will (once feature-complete) allow to do 1:1 server-cloning in the best possible way by making heavy use of samba's rpc_client-functions. all migration-steps are implemented as rpc/smb-client-calls; net communicates via rpc/smb with two servers at the same time (a remote, source server and a destination server that currently defaults to the local smbd). this allows e. g. printer-driver migration including driverfiles, recursive mirroring of file-shares including file-acls, etc. almost any migration step can be called with a migrate-subcommand to provide more flexibility during a migration process (at the cost of quite some redundancy :) ). "net rpc printer migrate settings" is still in a bad condition (many open questions that hopefully can be adressed soon). "net rpc share migrate security" as an isolated call to just migrate share-ACLs will be added later. Before playing with it, make sure to use a test-server. Migration is a serious business and this tool-set can perfectly overwrite your existing file/print-shares. * along with the migration functions had to make I the following changes: - implement setprinter level 3 client-side - implement net_add_share level 502 client-side - allow security descriptor to be set in setprinterdata level 2 serverside guenther (This used to be commit 8f1716a29b7e85baf738bc14df7dabf03762f723)
2004-08-10 18:27:17 +04:00
{"printer", net_rpc_printer},
{"changetrustpw", net_rpc_changetrustpw},
{"trustdom", rpc_trustdom},
{"abortshutdown", rpc_shutdown_abort},
{"shutdown", rpc_shutdown},
{"samdump", rpc_samdump},
{"vampire", rpc_vampire},
{"getsid", net_rpc_getsid},
{"help", net_rpc_help},
{NULL, NULL}
};
return net_run_function(argc, argv, func, net_rpc_usage);
}