/* Samba Unix/Linux SMB client library Distributed SMB/CIFS Server Management Utility Copyright (C) 2001 Steve French (sfrench@us.ibm.com) Copyright (C) 2001 Jim McDonough (jmcd@us.ibm.com) Copyright (C) 2001 Andrew Tridgell (tridge@samba.org) Copyright (C) 2001 Andrew Bartlett (abartlet@samba.org) Originally written by Steve and Jim. Largely rewritten by tridge in November 2001. Reworked again by abartlet in December 2001 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /*****************************************************/ /* */ /* Distributed SMB/CIFS Server Management Utility */ /* */ /* The intent was to make the syntax similar */ /* to the NET utility (first developed in DOS */ /* with additional interesting & useful functions */ /* added in later SMB server network operating */ /* systems). */ /* */ /*****************************************************/ #include "includes.h" #include "utils/net.h" /***********************************************************************/ /* Beginning of internationalization section. Translatable constants */ /* should be kept in this area and referenced in the rest of the code. */ /* */ /* No functions, outside of Samba or LSB (Linux Standards Base) should */ /* be used (if possible). */ /***********************************************************************/ #define YES_STRING "Yes" #define NO_STRING "No" /************************************************************************************/ /* end of internationalization section */ /************************************************************************************/ /* Yes, these buggers are globals.... */ const char *opt_requester_name = NULL; const char *opt_host = NULL; const char *opt_password = NULL; const char *opt_user_name = NULL; BOOL opt_user_specified = False; const char *opt_workgroup = NULL; int opt_long_list_entries = 0; int opt_reboot = 0; int opt_force = 0; int opt_stdin = 0; int opt_port = 0; int opt_verbose = 0; int opt_maxusers = -1; const char *opt_comment = ""; const char *opt_container = NULL; int opt_flags = -1; int opt_timeout = 0; const char *opt_target_workgroup = NULL; int opt_machine_pass = 0; BOOL opt_localgroup = False; BOOL opt_domaingroup = False; static BOOL do_talloc_report=False; const char *opt_newntname = ""; int opt_rid = 0; int opt_acls = 0; int opt_attrs = 0; int opt_timestamps = 0; const char *opt_exclude = NULL; const char *opt_destination = NULL; BOOL opt_testmode = False; BOOL opt_have_ip = False; struct in_addr opt_dest_ip; extern struct in_addr loopback_ip; extern BOOL AllowDebugChange; uint32 get_sec_channel_type(const char *param) { if (!(param && *param)) { return get_default_sec_channel(); } else { if (strequal(param, "PDC")) { return SEC_CHAN_BDC; } else if (strequal(param, "BDC")) { return SEC_CHAN_BDC; } else if (strequal(param, "MEMBER")) { return SEC_CHAN_WKSTA; #if 0 } else if (strequal(param, "DOMAIN")) { return SEC_CHAN_DOMAIN; #endif } else { return get_default_sec_channel(); } } } /* run a function from a function table. If not found then call the specified usage function */ int net_run_function(int argc, const char **argv, struct functable *table, int (*usage_fn)(int argc, const char **argv)) { int i; if (argc < 1) { d_printf("\nUsage: \n"); return usage_fn(argc, argv); } for (i=0; table[i].funcname; i++) { if (StrCaseCmp(argv[0], table[i].funcname) == 0) return table[i].fn(argc-1, argv+1); } d_fprintf(stderr, "No command: %s\n", argv[0]); return usage_fn(argc, argv); } /* * run a function from a function table. */ int net_run_function2(int argc, const char **argv, const char *whoami, struct functable2 *table) { int i; if (argc != 0) { for (i=0; table[i].funcname; i++) { if (StrCaseCmp(argv[0], table[i].funcname) == 0) return table[i].fn(argc-1, argv+1); } } for (i=0; table[i].funcname != NULL; i++) { d_printf("%s %-15s %s\n", whoami, table[i].funcname, table[i].helptext); } return -1; } /**************************************************************************** connect to \\server\service ****************************************************************************/ NTSTATUS connect_to_service(struct cli_state **c, struct in_addr *server_ip, const char *server_name, const char *service_name, const char *service_type) { NTSTATUS nt_status; opt_password = net_prompt_pass(opt_user_name); if (!opt_password) { return NT_STATUS_NO_MEMORY; } nt_status = cli_full_connection(c, NULL, server_name, server_ip, opt_port, service_name, service_type, opt_user_name, opt_workgroup, opt_password, 0, Undefined, NULL); if (NT_STATUS_IS_OK(nt_status)) { return nt_status; } else { d_fprintf(stderr, "Could not connect to server %s\n", server_name); /* Display a nicer message depending on the result */ if (NT_STATUS_V(nt_status) == NT_STATUS_V(NT_STATUS_LOGON_FAILURE)) d_fprintf(stderr, "The username or password was not correct.\n"); if (NT_STATUS_V(nt_status) == NT_STATUS_V(NT_STATUS_ACCOUNT_LOCKED_OUT)) d_fprintf(stderr, "The account was locked out.\n"); if (NT_STATUS_V(nt_status) == NT_STATUS_V(NT_STATUS_ACCOUNT_DISABLED)) d_fprintf(stderr, "The account was disabled.\n"); return nt_status; } } /**************************************************************************** connect to \\server\ipc$ ****************************************************************************/ NTSTATUS connect_to_ipc(struct cli_state **c, struct in_addr *server_ip, const char *server_name) { return connect_to_service(c, server_ip, server_name, "IPC$", "IPC"); } /**************************************************************************** connect to \\server\ipc$ anonymously ****************************************************************************/ NTSTATUS connect_to_ipc_anonymous(struct cli_state **c, struct in_addr *server_ip, const char *server_name) { NTSTATUS nt_status; nt_status = cli_full_connection(c, opt_requester_name, server_name, server_ip, opt_port, "IPC$", "IPC", "", "", "", 0, Undefined, NULL); if (NT_STATUS_IS_OK(nt_status)) { return nt_status; } else { DEBUG(1,("Cannot connect to server (anonymously). Error was %s\n", nt_errstr(nt_status))); return nt_status; } } /**************************************************************************** Return malloced user@realm for krb5 login. ****************************************************************************/ static char *get_user_and_realm(const char *username) { char *user_and_realm = NULL; if (!username) { return NULL; } if (strchr_m(username, '@')) { user_and_realm = SMB_STRDUP(username); } else { if (asprintf(&user_and_realm, "%s@%s", username, lp_realm()) == -1) { user_and_realm = NULL; } } return user_and_realm; } /**************************************************************************** connect to \\server\ipc$ using KRB5 ****************************************************************************/ NTSTATUS connect_to_ipc_krb5(struct cli_state **c, struct in_addr *server_ip, const char *server_name) { NTSTATUS nt_status; char *user_and_realm = NULL; opt_password = net_prompt_pass(opt_user_name); if (!opt_password) { return NT_STATUS_NO_MEMORY; } user_and_realm = get_user_and_realm(opt_user_name); if (!user_and_realm) { return NT_STATUS_NO_MEMORY; } nt_status = cli_full_connection(c, NULL, server_name, server_ip, opt_port, "IPC$", "IPC", user_and_realm, opt_workgroup, opt_password, CLI_FULL_CONNECTION_USE_KERBEROS, Undefined, NULL); SAFE_FREE(user_and_realm); if (NT_STATUS_IS_OK(nt_status)) { return nt_status; } else { DEBUG(1,("Cannot connect to server using kerberos. Error was %s\n", nt_errstr(nt_status))); return nt_status; } } /** * Connect a server and open a given pipe * * @param cli_dst A cli_state * @param pipe The pipe to open * @param got_pipe boolean that stores if we got a pipe * * @return Normal NTSTATUS return. **/ NTSTATUS connect_dst_pipe(struct cli_state **cli_dst, struct rpc_pipe_client **pp_pipe_hnd, int pipe_num) { NTSTATUS nt_status; char *server_name = SMB_STRDUP("127.0.0.1"); struct cli_state *cli_tmp = NULL; struct rpc_pipe_client *pipe_hnd = NULL; if (server_name == NULL) { return NT_STATUS_NO_MEMORY; } if (opt_destination) { SAFE_FREE(server_name); if ((server_name = SMB_STRDUP(opt_destination)) == NULL) { return NT_STATUS_NO_MEMORY; } } /* make a connection to a named pipe */ nt_status = connect_to_ipc(&cli_tmp, NULL, server_name); if (!NT_STATUS_IS_OK(nt_status)) { SAFE_FREE(server_name); return nt_status; } pipe_hnd = cli_rpc_pipe_open_noauth(cli_tmp, pipe_num, &nt_status); if (!pipe_hnd) { DEBUG(0, ("couldn't not initialize pipe\n")); cli_shutdown(cli_tmp); SAFE_FREE(server_name); return nt_status; } *cli_dst = cli_tmp; *pp_pipe_hnd = pipe_hnd; SAFE_FREE(server_name); return nt_status; } /**************************************************************************** Use the local machine account (upn) and password for this session. ****************************************************************************/ int net_use_upn_machine_account(void) { char *user_name = NULL; if (!secrets_init()) { d_fprintf(stderr, "ERROR: Unable to open secrets database\n"); exit(1); } opt_password = secrets_fetch_machine_password(opt_target_workgroup, NULL, NULL); if (asprintf(&user_name, "%s$@%s", global_myname(), lp_realm()) == -1) { return -1; } opt_user_name = user_name; return 0; } /**************************************************************************** Use the machine account name and password for this session. ****************************************************************************/ int net_use_machine_account(void) { char *user_name = NULL; if (!secrets_init()) { d_fprintf(stderr, "ERROR: Unable to open secrets database\n"); exit(1); } opt_password = secrets_fetch_machine_password(opt_target_workgroup, NULL, NULL); if (asprintf(&user_name, "%s$", global_myname()) == -1) { return -1; } opt_user_name = user_name; return 0; } BOOL net_find_server(const char *domain, unsigned flags, struct in_addr *server_ip, char **server_name) { const char *d = domain ? domain : opt_target_workgroup; if (opt_host) { *server_name = SMB_STRDUP(opt_host); } if (opt_have_ip) { *server_ip = opt_dest_ip; if (!*server_name) { *server_name = SMB_STRDUP(inet_ntoa(opt_dest_ip)); } } else if (*server_name) { /* resolve the IP address */ if (!resolve_name(*server_name, server_ip, 0x20)) { DEBUG(1,("Unable to resolve server name\n")); return False; } } else if (flags & NET_FLAGS_PDC) { struct in_addr pdc_ip; if (get_pdc_ip(d, &pdc_ip)) { fstring dc_name; if (is_zero_ip(pdc_ip)) return False; if ( !name_status_find(d, 0x1b, 0x20, pdc_ip, dc_name) ) return False; *server_name = SMB_STRDUP(dc_name); *server_ip = pdc_ip; } } else if (flags & NET_FLAGS_DMB) { struct in_addr msbrow_ip; /* if (!resolve_name(MSBROWSE, &msbrow_ip, 1)) */ if (!resolve_name(d, &msbrow_ip, 0x1B)) { DEBUG(1,("Unable to resolve domain browser via name lookup\n")); return False; } else { *server_ip = msbrow_ip; } *server_name = SMB_STRDUP(inet_ntoa(opt_dest_ip)); } else if (flags & NET_FLAGS_MASTER) { struct in_addr brow_ips; if (!resolve_name(d, &brow_ips, 0x1D)) { /* go looking for workgroups */ DEBUG(1,("Unable to resolve master browser via name lookup\n")); return False; } else { *server_ip = brow_ips; } *server_name = SMB_STRDUP(inet_ntoa(opt_dest_ip)); } else if (!(flags & NET_FLAGS_LOCALHOST_DEFAULT_INSANE)) { *server_ip = loopback_ip; *server_name = SMB_STRDUP("127.0.0.1"); } if (!server_name || !*server_name) { DEBUG(1,("no server to connect to\n")); return False; } return True; } BOOL net_find_pdc(struct in_addr *server_ip, fstring server_name, const char *domain_name) { if (get_pdc_ip(domain_name, server_ip)) { if (is_zero_ip(*server_ip)) return False; if (!name_status_find(domain_name, 0x1b, 0x20, *server_ip, server_name)) return False; return True; } else return False; } struct cli_state *net_make_ipc_connection( unsigned flags ) { return net_make_ipc_connection_ex( NULL, NULL, NULL, flags ); } struct cli_state *net_make_ipc_connection_ex( const char *domain, const char *server, struct in_addr *ip, unsigned flags) { char *server_name = NULL; struct in_addr server_ip; struct cli_state *cli = NULL; NTSTATUS nt_status; if ( !server || !ip ) { if (!net_find_server(domain, flags, &server_ip, &server_name)) { d_fprintf(stderr, "Unable to find a suitable server\n"); return NULL; } } else { server_name = SMB_STRDUP( server ); server_ip = *ip; } if (flags & NET_FLAGS_ANONYMOUS) { nt_status = connect_to_ipc_anonymous(&cli, &server_ip, server_name); } else { nt_status = connect_to_ipc(&cli, &server_ip, server_name); } /* store the server in the affinity cache if it was a PDC */ if ( (flags & NET_FLAGS_PDC) && NT_STATUS_IS_OK(nt_status) ) saf_store( cli->server_domain, cli->desthost ); SAFE_FREE(server_name); if (NT_STATUS_IS_OK(nt_status)) { return cli; } else { d_fprintf(stderr, "Connection failed: %s\n", nt_errstr(nt_status)); return NULL; } } static int net_user(int argc, const char **argv) { if (net_ads_check() == 0) return net_ads_user(argc, argv); /* if server is not specified, default to PDC? */ if (net_rpc_check(NET_FLAGS_PDC)) return net_rpc_user(argc, argv); return net_rap_user(argc, argv); } static int net_group(int argc, const char **argv) { if (net_ads_check() == 0) return net_ads_group(argc, argv); if (argc == 0 && net_rpc_check(NET_FLAGS_PDC)) return net_rpc_group(argc, argv); return net_rap_group(argc, argv); } static int net_join(int argc, const char **argv) { if (net_ads_check_our_domain() == 0) { if (net_ads_join(argc, argv) == 0) return 0; else d_fprintf(stderr, "ADS join did not work, falling back to RPC...\n"); } return net_rpc_join(argc, argv); } static int net_changetrustpw(int argc, const char **argv) { if (net_ads_check_our_domain() == 0) return net_ads_changetrustpw(argc, argv); return net_rpc_changetrustpw(argc, argv); } static void set_line_buffering(FILE *f) { setvbuf(f, NULL, _IOLBF, 0); } static int net_changesecretpw(int argc, const char **argv) { char *trust_pw; uint32 sec_channel_type = SEC_CHAN_WKSTA; if(opt_force) { if (opt_stdin) { set_line_buffering(stdin); set_line_buffering(stdout); set_line_buffering(stderr); } trust_pw = get_pass("Enter machine password: ", opt_stdin); if (!secrets_store_machine_password(trust_pw, lp_workgroup(), sec_channel_type)) { d_fprintf(stderr, "Unable to write the machine account password in the secrets database"); return 1; } else { d_printf("Modified trust account password in secrets database\n"); } } else { d_printf("Machine account password change requires the -f flag.\n"); d_printf("Do NOT use this function unless you know what it does!\n"); d_printf("This function will change the ADS Domain member machine account password in the secrets.tdb file!\n"); } return 0; } static int net_share(int argc, const char **argv) { if (net_rpc_check(0)) return net_rpc_share(argc, argv); return net_rap_share(argc, argv); } static int net_file(int argc, const char **argv) { if (net_rpc_check(0)) return net_rpc_file(argc, argv); return net_rap_file(argc, argv); } /* Retrieve our local SID or the SID for the specified name */ static int net_getlocalsid(int argc, const char **argv) { DOM_SID sid; const char *name; fstring sid_str; if (argc >= 1) { name = argv[0]; } else { name = global_myname(); } if(!initialize_password_db(False, NULL)) { DEBUG(0, ("WARNING: Could not open passdb - local sid may not reflect passdb\n" "backend knowlege (such as the sid stored in LDAP)\n")); } /* first check to see if we can even access secrets, so we don't panic when we can't. */ if (!secrets_init()) { d_fprintf(stderr, "Unable to open secrets.tdb. Can't fetch domain SID for name: %s\n", name); return 1; } /* Generate one, if it doesn't exist */ get_global_sam_sid(); if (!secrets_fetch_domain_sid(name, &sid)) { DEBUG(0, ("Can't fetch domain SID for name: %s\n", name)); return 1; } sid_to_string(sid_str, &sid); d_printf("SID for domain %s is: %s\n", name, sid_str); return 0; } static int net_setlocalsid(int argc, const char **argv) { DOM_SID sid; if ( (argc != 1) || (strncmp(argv[0], "S-1-5-21-", strlen("S-1-5-21-")) != 0) || (!string_to_sid(&sid, argv[0])) || (sid.num_auths != 4)) { d_printf("usage: net setlocalsid S-1-5-21-x-y-z\n"); return 1; } if (!secrets_store_domain_sid(global_myname(), &sid)) { DEBUG(0,("Can't store domain SID as a pdc/bdc.\n")); return 1; } return 0; } static int net_setdomainsid(int argc, const char **argv) { DOM_SID sid; if ( (argc != 1) || (strncmp(argv[0], "S-1-5-21-", strlen("S-1-5-21-")) != 0) || (!string_to_sid(&sid, argv[0])) || (sid.num_auths != 4)) { d_printf("usage: net setdomainsid S-1-5-21-x-y-z\n"); return 1; } if (!secrets_store_domain_sid(lp_workgroup(), &sid)) { DEBUG(0,("Can't store domain SID.\n")); return 1; } return 0; } static int net_getdomainsid(int argc, const char **argv) { DOM_SID domain_sid; fstring sid_str; if(!initialize_password_db(False, NULL)) { DEBUG(0, ("WARNING: Could not open passdb - domain sid may not reflect passdb\n" "backend knowlege (such as the sid stored in LDAP)\n")); } /* Generate one, if it doesn't exist */ get_global_sam_sid(); if (!secrets_fetch_domain_sid(global_myname(), &domain_sid)) { d_fprintf(stderr, "Could not fetch local SID\n"); return 1; } sid_to_string(sid_str, &domain_sid); d_printf("SID for domain %s is: %s\n", global_myname(), sid_str); if (!secrets_fetch_domain_sid(opt_workgroup, &domain_sid)) { d_fprintf(stderr, "Could not fetch domain SID\n"); return 1; } sid_to_string(sid_str, &domain_sid); d_printf("SID for domain %s is: %s\n", opt_workgroup, sid_str); return 0; } #ifdef WITH_FAKE_KASERVER int net_help_afs(int argc, const char **argv) { d_printf(" net afs key filename\n" "\tImports a OpenAFS KeyFile into our secrets.tdb\n\n"); d_printf(" net afs impersonate \n" "\tCreates a token for user@cell\n\n"); return -1; } static int net_afs_key(int argc, const char **argv) { int fd; struct afs_keyfile keyfile; if (argc != 2) { d_printf("usage: 'net afs key cell'\n"); return -1; } if (!secrets_init()) { d_fprintf(stderr, "Could not open secrets.tdb\n"); return -1; } if ((fd = open(argv[0], O_RDONLY, 0)) < 0) { d_fprintf(stderr, "Could not open %s\n", argv[0]); return -1; } if (read(fd, &keyfile, sizeof(keyfile)) != sizeof(keyfile)) { d_fprintf(stderr, "Could not read keyfile\n"); return -1; } if (!secrets_store_afs_keyfile(argv[1], &keyfile)) { d_fprintf(stderr, "Could not write keyfile to secrets.tdb\n"); return -1; } return 0; } static int net_afs_impersonate(int argc, const char **argv) { char *token; if (argc != 2) { fprintf(stderr, "Usage: net afs impersonate \n"); exit(1); } token = afs_createtoken_str(argv[0], argv[1]); if (token == NULL) { fprintf(stderr, "Could not create token\n"); exit(1); } if (!afs_settoken_str(token)) { fprintf(stderr, "Could not set token into kernel\n"); exit(1); } printf("Success: %s@%s\n", argv[0], argv[1]); return 0; } static int net_afs(int argc, const char **argv) { struct functable func[] = { {"key", net_afs_key}, {"impersonate", net_afs_impersonate}, {"help", net_help_afs}, {NULL, NULL} }; return net_run_function(argc, argv, func, net_help_afs); } #endif /* WITH_FAKE_KASERVER */ static BOOL search_maxrid(struct pdb_search *search, const char *type, uint32 *max_rid) { struct samr_displayentry *entries; uint32 i, num_entries; if (search == NULL) { d_fprintf(stderr, "get_maxrid: Could not search %s\n", type); return False; } num_entries = pdb_search_entries(search, 0, 0xffffffff, &entries); for (i=0; i