/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 2007, 2010, Oracle and/or its affiliates. All rights reserved. */ /* * Service routines */ #include "idmapd.h" #include "idmap_priv.h" #include "nldaputils.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define _VALIDATE_LIST_CB_DATA(col, val, siz)\ retcode = validate_list_cb_data(cb_data, argc, argv, col,\ (uchar_t **)val, siz);\ if (retcode == IDMAP_NEXT) {\ result->retcode = IDMAP_NEXT;\ return (0);\ } else if (retcode < 0) {\ result->retcode = retcode;\ return (1);\ } #define PROCESS_LIST_SVC_SQL(rcode, db, dbname, sql, limit, flag, cb, res, len)\ rcode = process_list_svc_sql(db, dbname, sql, limit, flag, cb, res);\ if (rcode == IDMAP_ERR_BUSY)\ res->retcode = IDMAP_ERR_BUSY;\ else if (rcode == IDMAP_SUCCESS && len == 0)\ res->retcode = IDMAP_ERR_NOTFOUND; #define STRDUP_OR_FAIL(to, from) \ if ((from) == NULL) \ to = NULL; \ else { \ if ((to = strdup(from)) == NULL) \ return (1); \ } #define STRDUP_CHECK(to, from) \ if ((from) != NULL) { \ to = strdup(from); \ if (to == NULL) { \ result->retcode = IDMAP_ERR_MEMORY; \ goto out; \ } \ } /* ARGSUSED */ bool_t idmap_null_1_svc(void *result, struct svc_req *rqstp) { return (TRUE); } /* * RPC layer allocates empty strings to replace NULL char *. * This utility function frees these empty strings. */ static void sanitize_mapping_request(idmap_mapping *req) { if (EMPTY_STRING(req->id1name)) { free(req->id1name); req->id1name = NULL; } if (EMPTY_STRING(req->id1domain)) { free(req->id1domain); req->id1domain = NULL; } if (EMPTY_STRING(req->id2name)) { free(req->id2name); req->id2name = NULL; } if (EMPTY_STRING(req->id2domain)) { free(req->id2domain); req->id2domain = NULL; } req->direction = _IDMAP_F_DONE; } static int validate_mapped_id_by_name_req(idmap_mapping *req) { int e; if (IS_ID_UID(req->id1) || IS_ID_GID(req->id1)) return (IDMAP_SUCCESS); if (IS_ID_SID(req->id1)) { if (!EMPTY_STRING(req->id1name) && u8_validate(req->id1name, strlen(req->id1name), NULL, U8_VALIDATE_ENTIRE, &e) < 0) return (IDMAP_ERR_BAD_UTF8); if (!EMPTY_STRING(req->id1domain) && u8_validate(req->id1domain, strlen(req->id1domain), NULL, U8_VALIDATE_ENTIRE, &e) < 0) return (IDMAP_ERR_BAD_UTF8); } return (IDMAP_SUCCESS); } static int validate_rule(idmap_namerule *rule) { int e; if (!EMPTY_STRING(rule->winname) && u8_validate(rule->winname, strlen(rule->winname), NULL, U8_VALIDATE_ENTIRE, &e) < 0) return (IDMAP_ERR_BAD_UTF8); if (!EMPTY_STRING(rule->windomain) && u8_validate(rule->windomain, strlen(rule->windomain), NULL, U8_VALIDATE_ENTIRE, &e) < 0) return (IDMAP_ERR_BAD_UTF8); return (IDMAP_SUCCESS); } static bool_t validate_rules(idmap_update_batch *batch) { idmap_update_op *up; int i; for (i = 0; i < batch->idmap_update_batch_len; i++) { up = &(batch->idmap_update_batch_val[i]); if (validate_rule(&(up->idmap_update_op_u.rule)) != IDMAP_SUCCESS) return (IDMAP_ERR_BAD_UTF8); } return (IDMAP_SUCCESS); } /* ARGSUSED */ bool_t idmap_get_mapped_ids_1_svc(idmap_mapping_batch batch, idmap_ids_res *result, struct svc_req *rqstp) { sqlite *cache = NULL, *db = NULL; lookup_state_t state; idmap_retcode retcode; uint_t i; idmap_mapping *req; idmap_id_res *res; boolean_t any_tracing; /* Init */ (void) memset(result, 0, sizeof (*result)); (void) memset(&state, 0, sizeof (state)); /* Return success if nothing was requested */ if (batch.idmap_mapping_batch_len < 1) goto out; /* Get cache handle */ result->retcode = get_cache_handle(&cache); if (result->retcode != IDMAP_SUCCESS) goto out; state.cache = cache; /* Get db handle */ result->retcode = get_db_handle(&db); if (result->retcode != IDMAP_SUCCESS) goto out; state.db = db; /* Allocate result array */ result->ids.ids_val = calloc(batch.idmap_mapping_batch_len, sizeof (idmap_id_res)); if (result->ids.ids_val == NULL) { idmapdlog(LOG_ERR, "Out of memory"); result->retcode = IDMAP_ERR_MEMORY; goto out; } result->ids.ids_len = batch.idmap_mapping_batch_len; /* Allocate hash table to check for duplicate sids */ state.sid_history = calloc(batch.idmap_mapping_batch_len, sizeof (*state.sid_history)); if (state.sid_history == NULL) { idmapdlog(LOG_ERR, "Out of memory"); result->retcode = IDMAP_ERR_MEMORY; goto out; } state.sid_history_size = batch.idmap_mapping_batch_len; for (i = 0; i < state.sid_history_size; i++) { state.sid_history[i].key = state.sid_history_size; state.sid_history[i].next = state.sid_history_size; } state.batch = &batch; state.result = result; /* Get directory-based name mapping info */ result->retcode = load_cfg_in_state(&state); if (result->retcode != IDMAP_SUCCESS) goto out; /* Init our 'done' flags */ state.sid2pid_done = state.pid2sid_done = TRUE; any_tracing = B_FALSE; /* First stage */ for (i = 0; i < batch.idmap_mapping_batch_len; i++) { req = &batch.idmap_mapping_batch_val[i]; res = &result->ids.ids_val[i]; if (TRACING(req)) any_tracing = B_TRUE; state.curpos = i; (void) sanitize_mapping_request(req); TRACE(req, res, "Start mapping"); if (IS_ID_SID(req->id1)) { retcode = sid2pid_first_pass( &state, req, res); } else if (IS_ID_UID(req->id1)) { retcode = pid2sid_first_pass( &state, req, res, 1); } else if (IS_ID_GID(req->id1)) { retcode = pid2sid_first_pass( &state, req, res, 0); } else { res->retcode = IDMAP_ERR_IDTYPE; continue; } if (IDMAP_FATAL_ERROR(retcode)) { result->retcode = retcode; goto out; } } /* Check if we are done */ if (state.sid2pid_done == TRUE && state.pid2sid_done == TRUE) goto out; /* * native LDAP lookups: * pid2sid: * - nldap or mixed mode. Lookup nldap by pid or unixname to get * winname. * sid2pid: * - nldap mode. Got winname and sid (either given or found in * name_cache). Lookup nldap by winname to get pid and * unixname. */ if (state.nldap_nqueries) { retcode = nldap_lookup_batch(&state, &batch, result); if (IDMAP_FATAL_ERROR(retcode)) { TRACE(req, res, "Native LDAP lookup error=%d", retcode); result->retcode = retcode; goto out; } if (any_tracing) { for (i = 0; i < batch.idmap_mapping_batch_len; i++) { res = &result->ids.ids_val[i]; req = &batch.idmap_mapping_batch_val[i]; if (IDMAP_ERROR(res->retcode)) { TRACE(req, res, "Native LDAP lookup error=%d", res->retcode); } else { TRACE(req, res, "Native LDAP lookup"); } } } } /* * AD lookups: * pid2sid: * - nldap or mixed mode. Got winname from nldap lookup. * winname2sid could not be resolved locally. Lookup AD * by winname to get sid. * - ad mode. Got unixname. Lookup AD by unixname to get * winname and sid. * sid2pid: * - ad or mixed mode. Lookup AD by sid or winname to get * winname, sid and unixname. * - any mode. Got either sid or winname but not both. Lookup * AD by sid or winname to get winname, sid. */ if (state.ad_nqueries) { retcode = ad_lookup_batch(&state, &batch, result); if (IDMAP_FATAL_ERROR(retcode)) { TRACE(req, res, "AD lookup error=%d", retcode); result->retcode = retcode; goto out; } for (i = 0; i < batch.idmap_mapping_batch_len; i++) { res = &result->ids.ids_val[i]; req = &batch.idmap_mapping_batch_val[i]; if (res->retcode == IDMAP_ERR_DOMAIN_NOTFOUND && req->id1.idmap_id_u.sid.prefix != NULL && req->id1name != NULL) { /* * If AD lookup failed Domain Not Found but * we have a winname and SID, it means that * - LSA succeeded * - it's a request a cross-forest trust * and * - we were looking for directory-based * mapping information. * In that case, we're OK, just go on. * * If this seems more convoluted than it * should be, it is - really, we probably * shouldn't even be attempting AD lookups * in this situation, but that's a more * intricate cleanup that will have to wait * for later. */ res->retcode = IDMAP_SUCCESS; TRACE(req, res, "AD lookup - domain not found (ignored)"); continue; } if (res->retcode == IDMAP_SUCCESS) TRACE(req, res, "Found in AD"); else if (res->retcode == IDMAP_ERR_NOTFOUND) TRACE(req, res, "Not found in AD"); else TRACE(req, res, "AD lookup error"); } } /* * native LDAP lookups: * sid2pid: * - nldap mode. Got winname and sid from AD lookup. Lookup nldap * by winname to get pid and unixname. */ if (state.nldap_nqueries) { retcode = nldap_lookup_batch(&state, &batch, result); if (IDMAP_FATAL_ERROR(retcode)) { TRACE(req, res, "Native LDAP lookup error=%d", retcode); result->retcode = retcode; goto out; } if (any_tracing) { for (i = 0; i < batch.idmap_mapping_batch_len; i++) { res = &result->ids.ids_val[i]; req = &batch.idmap_mapping_batch_val[i]; TRACE(req, res, "Native LDAP lookup"); } } } /* Reset 'done' flags */ state.sid2pid_done = state.pid2sid_done = TRUE; /* Second stage */ for (i = 0; i < batch.idmap_mapping_batch_len; i++) { req = &batch.idmap_mapping_batch_val[i]; res = &result->ids.ids_val[i]; state.curpos = i; if (IS_ID_SID(req->id1)) { retcode = sid2pid_second_pass( &state, req, res); } else if (IS_ID_UID(req->id1)) { retcode = pid2sid_second_pass( &state, req, res, 1); } else if (IS_ID_GID(req->id1)) { retcode = pid2sid_second_pass( &state, req, res, 0); } else { /* First stage has already set the error */ continue; } if (IDMAP_FATAL_ERROR(retcode)) { result->retcode = retcode; goto out; } } /* Check if we are done */ if (state.sid2pid_done == TRUE && state.pid2sid_done == TRUE) goto out; /* Reset our 'done' flags */ state.sid2pid_done = state.pid2sid_done = TRUE; /* Update cache in a single transaction */ if (sql_exec_no_cb(cache, IDMAP_CACHENAME, "BEGIN TRANSACTION;") != IDMAP_SUCCESS) goto out; for (i = 0; i < batch.idmap_mapping_batch_len; i++) { req = &batch.idmap_mapping_batch_val[i]; res = &result->ids.ids_val[i]; state.curpos = i; if (IS_ID_SID(req->id1)) { (void) update_cache_sid2pid( &state, req, res); } else if ((IS_ID_UID(req->id1)) || (IS_ID_GID(req->id1))) { (void) update_cache_pid2sid( &state, req, res); } } /* Commit if we have at least one successful update */ if (state.sid2pid_done == FALSE || state.pid2sid_done == FALSE) (void) sql_exec_no_cb(cache, IDMAP_CACHENAME, "COMMIT TRANSACTION;"); else (void) sql_exec_no_cb(cache, IDMAP_CACHENAME, "END TRANSACTION;"); out: cleanup_lookup_state(&state); if (IDMAP_ERROR(result->retcode)) { if (any_tracing) { for (i = 0; i < batch.idmap_mapping_batch_len; i++) { req = &batch.idmap_mapping_batch_val[i]; res = &result->ids.ids_val[i]; TRACE(req, res, "Failure code %d", result->retcode); } } xdr_free(xdr_idmap_ids_res, (caddr_t)result); result->ids.ids_len = 0; result->ids.ids_val = NULL; } else { if (any_tracing) { for (i = 0; i < batch.idmap_mapping_batch_len; i++) { req = &batch.idmap_mapping_batch_val[i]; res = &result->ids.ids_val[i]; TRACE(req, res, "Done"); } } } result->retcode = idmap_stat4prot(result->retcode); for (i = 0; i < result->ids.ids_len; i++) { req = &batch.idmap_mapping_batch_val[i]; res = &result->ids.ids_val[i]; if (!(req->flag & IDMAP_REQ_FLG_MAPPING_INFO) && res->retcode == IDMAP_SUCCESS) idmap_how_clear(&res->info.how); } return (TRUE); } /* ARGSUSED */ static int list_mappings_cb(void *parg, int argc, char **argv, char **colnames) { list_cb_data_t *cb_data; char *str; idmap_mappings_res *result; idmap_retcode retcode; int w2u, u2w; char *end; static int validated_column_names = 0; idmap_how *how; cb_data = (list_cb_data_t *)parg; if (!validated_column_names) { assert(strcmp(colnames[0], "rowid") == 0); assert(strcmp(colnames[1], "sidprefix") == 0); assert(strcmp(colnames[2], "rid") == 0); assert(strcmp(colnames[3], "pid") == 0); assert(strcmp(colnames[4], "w2u") == 0); assert(strcmp(colnames[5], "u2w") == 0); assert(strcmp(colnames[6], "windomain") == 0); assert(strcmp(colnames[7], "canon_winname") == 0); assert(strcmp(colnames[8], "unixname") == 0); assert(strcmp(colnames[9], "is_user") == 0); assert(strcmp(colnames[10], "is_wuser") == 0); assert(strcmp(colnames[11], "map_type") == 0); assert(strcmp(colnames[12], "map_dn") == 0); assert(strcmp(colnames[13], "map_attr") == 0); assert(strcmp(colnames[14], "map_value") == 0); assert(strcmp(colnames[15], "map_windomain") == 0); assert(strcmp(colnames[16], "map_winname") == 0); assert(strcmp(colnames[17], "map_unixname") == 0); assert(strcmp(colnames[18], "map_is_nt4") == 0); validated_column_names = 1; } result = (idmap_mappings_res *)cb_data->result; _VALIDATE_LIST_CB_DATA(19, &result->mappings.mappings_val, sizeof (idmap_mapping)); result->mappings.mappings_len++; if ((str = strdup(argv[1])) == NULL) return (1); result->mappings.mappings_val[cb_data->next].id1.idmap_id_u.sid.prefix = str; result->mappings.mappings_val[cb_data->next].id1.idmap_id_u.sid.rid = strtoul(argv[2], &end, 10); result->mappings.mappings_val[cb_data->next].id1.idtype = strtol(argv[10], &end, 10) ? IDMAP_USID : IDMAP_GSID; result->mappings.mappings_val[cb_data->next].id2.idmap_id_u.uid = strtoul(argv[3], &end, 10); result->mappings.mappings_val[cb_data->next].id2.idtype = strtol(argv[9], &end, 10) ? IDMAP_UID : IDMAP_GID; w2u = argv[4] ? strtol(argv[4], &end, 10) : 0; u2w = argv[5] ? strtol(argv[5], &end, 10) : 0; if (w2u > 0 && u2w == 0) result->mappings.mappings_val[cb_data->next].direction = IDMAP_DIRECTION_W2U; else if (w2u == 0 && u2w > 0) result->mappings.mappings_val[cb_data->next].direction = IDMAP_DIRECTION_U2W; else result->mappings.mappings_val[cb_data->next].direction = IDMAP_DIRECTION_BI; STRDUP_OR_FAIL(result->mappings.mappings_val[cb_data->next].id1domain, argv[6]); STRDUP_OR_FAIL(result->mappings.mappings_val[cb_data->next].id1name, argv[7]); STRDUP_OR_FAIL(result->mappings.mappings_val[cb_data->next].id2name, argv[8]); if (cb_data->flag & IDMAP_REQ_FLG_MAPPING_INFO) { how = &result->mappings.mappings_val[cb_data->next].info.how; how->map_type = strtoul(argv[11], &end, 10); switch (how->map_type) { case IDMAP_MAP_TYPE_DS_AD: how->idmap_how_u.ad.dn = strdup(argv[12]); how->idmap_how_u.ad.attr = strdup(argv[13]); how->idmap_how_u.ad.value = strdup(argv[14]); break; case IDMAP_MAP_TYPE_DS_NLDAP: how->idmap_how_u.nldap.dn = strdup(argv[12]); how->idmap_how_u.nldap.attr = strdup(argv[13]); how->idmap_how_u.nldap.value = strdup(argv[14]); break; case IDMAP_MAP_TYPE_RULE_BASED: how->idmap_how_u.rule.windomain = strdup(argv[15]); how->idmap_how_u.rule.winname = strdup(argv[16]); how->idmap_how_u.rule.unixname = strdup(argv[17]); how->idmap_how_u.rule.is_nt4 = strtoul(argv[18], &end, 10); how->idmap_how_u.rule.is_user = strtol(argv[9], &end, 10); how->idmap_how_u.rule.is_wuser = strtol(argv[10], &end, 10); break; case IDMAP_MAP_TYPE_EPHEMERAL: break; case IDMAP_MAP_TYPE_LOCAL_SID: break; case IDMAP_MAP_TYPE_IDMU: how->idmap_how_u.idmu.dn = strdup(argv[12]); how->idmap_how_u.idmu.attr = strdup(argv[13]); how->idmap_how_u.idmu.value = strdup(argv[14]); break; default: /* Unknown mapping type */ assert(FALSE); } } result->lastrowid = strtoll(argv[0], &end, 10); cb_data->next++; result->retcode = IDMAP_SUCCESS; return (0); } /* ARGSUSED */ bool_t idmap_list_mappings_1_svc(int64_t lastrowid, uint64_t limit, int32_t flag, idmap_mappings_res *result, struct svc_req *rqstp) { sqlite *cache = NULL; char lbuf[30], rbuf[30]; uint64_t maxlimit; idmap_retcode retcode; char *sql = NULL; time_t curtime; (void) memset(result, 0, sizeof (*result)); /* Current time */ errno = 0; if ((curtime = time(NULL)) == (time_t)-1) { idmapdlog(LOG_ERR, "Failed to get current time (%s)", strerror(errno)); retcode = IDMAP_ERR_INTERNAL; goto out; } RDLOCK_CONFIG(); maxlimit = _idmapdstate.cfg->pgcfg.list_size_limit; UNLOCK_CONFIG(); /* Get cache handle */ result->retcode = get_cache_handle(&cache); if (result->retcode != IDMAP_SUCCESS) goto out; result->retcode = IDMAP_ERR_INTERNAL; /* Create LIMIT expression. */ if (limit == 0 || (maxlimit > 0 && maxlimit < limit)) limit = maxlimit; if (limit > 0) (void) snprintf(lbuf, sizeof (lbuf), "LIMIT %" PRIu64, limit + 1ULL); else lbuf[0] = '\0'; (void) snprintf(rbuf, sizeof (rbuf), "rowid > %" PRIu64, lastrowid); /* * Combine all the above into a giant SELECT statement that * will return the requested mappings */ sql = sqlite_mprintf("SELECT rowid, sidprefix, rid, pid, w2u, " "u2w, windomain, canon_winname, unixname, is_user, is_wuser, " "map_type, map_dn, map_attr, map_value, map_windomain, " "map_winname, map_unixname, map_is_nt4 " "FROM idmap_cache WHERE %s AND " "(pid >= 2147483648 OR (expiration = 0 OR " "expiration ISNULL OR expiration > %d)) " "%s;", rbuf, curtime, lbuf); if (sql == NULL) { result->retcode = IDMAP_ERR_MEMORY; idmapdlog(LOG_ERR, "Out of memory"); goto out; } /* Execute the SQL statement and update the return buffer */ PROCESS_LIST_SVC_SQL(retcode, cache, IDMAP_CACHENAME, sql, limit, flag, list_mappings_cb, result, result->mappings.mappings_len); out: if (sql) sqlite_freemem(sql); if (IDMAP_ERROR(result->retcode)) (void) xdr_free(xdr_idmap_mappings_res, (caddr_t)result); result->retcode = idmap_stat4prot(result->retcode); return (TRUE); } /* ARGSUSED */ static int list_namerules_cb(void *parg, int argc, char **argv, char **colnames) { list_cb_data_t *cb_data; idmap_namerules_res *result; idmap_retcode retcode; int w2u_order, u2w_order; char *end; static int validated_column_names = 0; if (!validated_column_names) { assert(strcmp(colnames[0], "rowid") == 0); assert(strcmp(colnames[1], "is_user") == 0); assert(strcmp(colnames[2], "is_wuser") == 0); assert(strcmp(colnames[3], "windomain") == 0); assert(strcmp(colnames[4], "winname_display") == 0); assert(strcmp(colnames[5], "is_nt4") == 0); assert(strcmp(colnames[6], "unixname") == 0); assert(strcmp(colnames[7], "w2u_order") == 0); assert(strcmp(colnames[8], "u2w_order") == 0); validated_column_names = 1; } cb_data = (list_cb_data_t *)parg; result = (idmap_namerules_res *)cb_data->result; _VALIDATE_LIST_CB_DATA(9, &result->rules.rules_val, sizeof (idmap_namerule)); result->rules.rules_len++; result->rules.rules_val[cb_data->next].is_user = strtol(argv[1], &end, 10); result->rules.rules_val[cb_data->next].is_wuser = strtol(argv[2], &end, 10); STRDUP_OR_FAIL(result->rules.rules_val[cb_data->next].windomain, argv[3]); STRDUP_OR_FAIL(result->rules.rules_val[cb_data->next].winname, argv[4]); result->rules.rules_val[cb_data->next].is_nt4 = strtol(argv[5], &end, 10); STRDUP_OR_FAIL(result->rules.rules_val[cb_data->next].unixname, argv[6]); w2u_order = argv[7] ? strtol(argv[7], &end, 10) : 0; u2w_order = argv[8] ? strtol(argv[8], &end, 10) : 0; if (w2u_order > 0 && u2w_order == 0) result->rules.rules_val[cb_data->next].direction = IDMAP_DIRECTION_W2U; else if (w2u_order == 0 && u2w_order > 0) result->rules.rules_val[cb_data->next].direction = IDMAP_DIRECTION_U2W; else result->rules.rules_val[cb_data->next].direction = IDMAP_DIRECTION_BI; result->lastrowid = strtoll(argv[0], &end, 10); cb_data->next++; result->retcode = IDMAP_SUCCESS; return (0); } /* ARGSUSED */ bool_t idmap_list_namerules_1_svc(idmap_namerule rule, uint64_t lastrowid, uint64_t limit, idmap_namerules_res *result, struct svc_req *rqstp) { sqlite *db = NULL; char lbuf[30], rbuf[30]; char *sql = NULL; char *expr = NULL; uint64_t maxlimit; idmap_retcode retcode; (void) memset(result, 0, sizeof (*result)); result->retcode = validate_rule(&rule); if (result->retcode != IDMAP_SUCCESS) goto out; RDLOCK_CONFIG(); maxlimit = _idmapdstate.cfg->pgcfg.list_size_limit; UNLOCK_CONFIG(); /* Get db handle */ result->retcode = get_db_handle(&db); if (result->retcode != IDMAP_SUCCESS) goto out; result->retcode = gen_sql_expr_from_rule(&rule, &expr); if (result->retcode != IDMAP_SUCCESS) goto out; /* Create LIMIT expression. */ if (limit == 0 || (maxlimit > 0 && maxlimit < limit)) limit = maxlimit; if (limit > 0) (void) snprintf(lbuf, sizeof (lbuf), "LIMIT %" PRIu64, limit + 1ULL); else lbuf[0] = '\0'; (void) snprintf(rbuf, sizeof (rbuf), "rowid > %" PRIu64, lastrowid); /* * Combine all the above into a giant SELECT statement that * will return the requested rules */ sql = sqlite_mprintf("SELECT rowid, is_user, is_wuser, windomain, " "winname_display, is_nt4, unixname, w2u_order, u2w_order " "FROM namerules WHERE " " %s %s %s;", rbuf, expr, lbuf); if (sql == NULL) { result->retcode = IDMAP_ERR_MEMORY; idmapdlog(LOG_ERR, "Out of memory"); goto out; } /* Execute the SQL statement and update the return buffer */ PROCESS_LIST_SVC_SQL(retcode, db, IDMAP_DBNAME, sql, limit, 0, list_namerules_cb, result, result->rules.rules_len); out: if (expr) sqlite_freemem(expr); if (sql) sqlite_freemem(sql); if (IDMAP_ERROR(result->retcode)) (void) xdr_free(xdr_idmap_namerules_res, (caddr_t)result); result->retcode = idmap_stat4prot(result->retcode); return (TRUE); } #define IDMAP_RULES_AUTH "solaris.admin.idmap.rules" static int verify_rules_auth(struct svc_req *rqstp) { ucred_t *uc = NULL; uid_t uid; char buf[1024]; struct passwd pwd; if (svc_getcallerucred(rqstp->rq_xprt, &uc) != 0) { idmapdlog(LOG_ERR, "svc_getcallerucred failed during " "authorization (%s)", strerror(errno)); return (-1); } uid = ucred_geteuid(uc); if (uid == (uid_t)-1) { idmapdlog(LOG_ERR, "ucred_geteuid failed during " "authorization (%s)", strerror(errno)); ucred_free(uc); return (-1); } if (getpwuid_r(uid, &pwd, buf, sizeof (buf)) == NULL) { idmapdlog(LOG_ERR, "getpwuid_r(%u) failed during " "authorization (%s)", uid, strerror(errno)); ucred_free(uc); return (-1); } if (chkauthattr(IDMAP_RULES_AUTH, pwd.pw_name) != 1) { idmapdlog(LOG_INFO, "%s is not authorized (%s)", pwd.pw_name, IDMAP_RULES_AUTH); ucred_free(uc); return (-1); } ucred_free(uc); return (1); } /* * Meaning of the return values is the following: For retcode == * IDMAP_SUCCESS, everything went OK and error_index is * undefined. Otherwise, error_index >=0 shows the failed batch * element. errro_index == -1 indicates failure at the beginning, * error_index == -2 at the end. */ /* ARGSUSED */ bool_t idmap_update_1_svc(idmap_update_batch batch, idmap_update_res *res, struct svc_req *rqstp) { sqlite *db = NULL; idmap_update_op *up; int i; int trans = FALSE; res->error_index = -1; (void) memset(&res->error_rule, 0, sizeof (res->error_rule)); (void) memset(&res->conflict_rule, 0, sizeof (res->conflict_rule)); if (verify_rules_auth(rqstp) < 0) { res->retcode = IDMAP_ERR_PERMISSION_DENIED; goto out; } if (batch.idmap_update_batch_len == 0 || batch.idmap_update_batch_val == NULL) { res->retcode = IDMAP_SUCCESS; goto out; } res->retcode = validate_rules(&batch); if (res->retcode != IDMAP_SUCCESS) goto out; /* Get db handle */ res->retcode = get_db_handle(&db); if (res->retcode != IDMAP_SUCCESS) goto out; res->retcode = sql_exec_no_cb(db, IDMAP_DBNAME, "BEGIN TRANSACTION;"); if (res->retcode != IDMAP_SUCCESS) goto out; trans = TRUE; for (i = 0; i < batch.idmap_update_batch_len; i++) { up = &batch.idmap_update_batch_val[i]; switch (up->opnum) { case OP_NONE: res->retcode = IDMAP_SUCCESS; break; case OP_ADD_NAMERULE: res->retcode = add_namerule(db, &up->idmap_update_op_u.rule); break; case OP_RM_NAMERULE: res->retcode = rm_namerule(db, &up->idmap_update_op_u.rule); break; case OP_FLUSH_NAMERULES: res->retcode = flush_namerules(db); break; default: res->retcode = IDMAP_ERR_NOTSUPPORTED; break; }; if (res->retcode != IDMAP_SUCCESS) { res->error_index = i; if (up->opnum == OP_ADD_NAMERULE || up->opnum == OP_RM_NAMERULE) { idmap_stat r2 = idmap_namerule_cpy(&res->error_rule, &up->idmap_update_op_u.rule); if (r2 != IDMAP_SUCCESS) res->retcode = r2; } goto out; } } out: if (trans) { if (res->retcode == IDMAP_SUCCESS) { res->retcode = sql_exec_no_cb(db, IDMAP_DBNAME, "COMMIT TRANSACTION;"); if (res->retcode == IDMAP_SUCCESS) { /* * We've updated the rules. Expire the cache * so that existing mappings will be * reconsidered. */ res->retcode = idmap_cache_flush(IDMAP_FLUSH_EXPIRE); } else { res->error_index = -2; } } else (void) sql_exec_no_cb(db, IDMAP_DBNAME, "ROLLBACK TRANSACTION;"); } res->retcode = idmap_stat4prot(res->retcode); return (TRUE); } static int copy_string(char **to, char *from) { if (EMPTY_STRING(from)) { *to = NULL; } else { *to = strdup(from); if (*to == NULL) { idmapdlog(LOG_ERR, "Out of memory"); return (IDMAP_ERR_MEMORY); } } return (IDMAP_SUCCESS); } static int copy_id(idmap_id *to, idmap_id *from) { (void) memset(to, 0, sizeof (*to)); to->idtype = from->idtype; if (IS_ID_SID(*from)) { idmap_retcode retcode; to->idmap_id_u.sid.rid = from->idmap_id_u.sid.rid; retcode = copy_string(&to->idmap_id_u.sid.prefix, from->idmap_id_u.sid.prefix); return (retcode); } else { to->idmap_id_u.uid = from->idmap_id_u.uid; return (IDMAP_SUCCESS); } } static int copy_mapping(idmap_mapping *mapping, idmap_mapping *request) { idmap_retcode retcode; (void) memset(mapping, 0, sizeof (*mapping)); mapping->flag = request->flag; mapping->direction = _IDMAP_F_DONE; retcode = copy_id(&mapping->id1, &request->id1); if (retcode != IDMAP_SUCCESS) goto errout; retcode = copy_string(&mapping->id1domain, request->id1domain); if (retcode != IDMAP_SUCCESS) goto errout; retcode = copy_string(&mapping->id1name, request->id1name); if (retcode != IDMAP_SUCCESS) goto errout; retcode = copy_id(&mapping->id2, &request->id2); if (retcode != IDMAP_SUCCESS) goto errout; retcode = copy_string(&mapping->id2domain, request->id2domain); if (retcode != IDMAP_SUCCESS) goto errout; retcode = copy_string(&mapping->id2name, request->id2name); if (retcode != IDMAP_SUCCESS) goto errout; return (IDMAP_SUCCESS); errout: if (IS_ID_SID(mapping->id1)) free(mapping->id1.idmap_id_u.sid.prefix); free(mapping->id1domain); free(mapping->id1name); if (IS_ID_SID(mapping->id2)) free(mapping->id2.idmap_id_u.sid.prefix); free(mapping->id2domain); free(mapping->id2name); (void) memset(mapping, 0, sizeof (*mapping)); return (retcode); } /* ARGSUSED */ bool_t idmap_get_mapped_id_by_name_1_svc(idmap_mapping request, idmap_mappings_res *result, struct svc_req *rqstp) { idmap_mapping_batch batch_request; idmap_ids_res batch_result; idmap_mapping *map; /* Clear out things we might want to xdr_free on error */ (void) memset(&batch_result, 0, sizeof (batch_result)); (void) memset(result, 0, sizeof (*result)); result->retcode = validate_mapped_id_by_name_req(&request); if (result->retcode != IDMAP_SUCCESS) goto out; /* * Copy the request. We need to modify it, and * what we have is a shallow copy. Freeing pointers from * our copy will lead to problems, since the RPC framework * has its own copy of those pointers. Besides, we need * a copy to return. */ map = calloc(1, sizeof (idmap_mapping)); if (map == NULL) { idmapdlog(LOG_ERR, "Out of memory"); result->retcode = IDMAP_ERR_MEMORY; goto out; } /* * Set up to return the filled-in mapping structure. * Note that we xdr_free result on error, and that'll take * care of freeing the mapping structure. */ result->mappings.mappings_val = map; result->mappings.mappings_len = 1; result->retcode = copy_mapping(map, &request); if (result->retcode != IDMAP_SUCCESS) goto out; /* Set up for the request to the batch API */ batch_request.idmap_mapping_batch_val = map; batch_request.idmap_mapping_batch_len = 1; /* Do the real work. */ (void) idmap_get_mapped_ids_1_svc(batch_request, &batch_result, rqstp); /* Copy what we need out of the batch response */ if (batch_result.retcode != IDMAP_SUCCESS) { result->retcode = batch_result.retcode; goto out; } result->retcode = copy_id(&map->id2, &batch_result.ids.ids_val[0].id); if (result->retcode != IDMAP_SUCCESS) goto out; map->direction = batch_result.ids.ids_val[0].direction; result->retcode = batch_result.ids.ids_val[0].retcode; idmap_info_mov(&map->info, &batch_result.ids.ids_val[0].info); out: if (IDMAP_FATAL_ERROR(result->retcode)) { xdr_free(xdr_idmap_mappings_res, (caddr_t)result); result->mappings.mappings_len = 0; result->mappings.mappings_val = NULL; } result->retcode = idmap_stat4prot(result->retcode); xdr_free(xdr_idmap_ids_res, (char *)&batch_result); return (TRUE); } /* ARGSUSED */ bool_t idmap_get_prop_1_svc(idmap_prop_type request, idmap_prop_res *result, struct svc_req *rqstp) { idmap_pg_config_t *pgcfg; /* Init */ (void) memset(result, 0, sizeof (*result)); result->retcode = IDMAP_SUCCESS; result->value.prop = request; RDLOCK_CONFIG(); /* Just shortcuts: */ pgcfg = &_idmapdstate.cfg->pgcfg; switch (request) { case PROP_LIST_SIZE_LIMIT: result->value.idmap_prop_val_u.intval = pgcfg->list_size_limit; result->auto_discovered = FALSE; break; case PROP_DEFAULT_DOMAIN: result->auto_discovered = FALSE; STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->default_domain); break; case PROP_DOMAIN_NAME: STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->domain_name); result->auto_discovered = pgcfg->domain_name_auto_disc; break; case PROP_MACHINE_SID: result->auto_discovered = FALSE; STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->machine_sid); break; case PROP_DOMAIN_CONTROLLER: if (pgcfg->domain_controller != NULL) { (void) memcpy(&result->value.idmap_prop_val_u.dsval, pgcfg->domain_controller, sizeof (idmap_ad_disc_ds_t)); } result->auto_discovered = pgcfg->domain_controller_auto_disc; break; case PROP_FOREST_NAME: STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->forest_name); result->auto_discovered = pgcfg->forest_name_auto_disc; break; case PROP_SITE_NAME: STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->site_name); result->auto_discovered = pgcfg->site_name_auto_disc; break; case PROP_GLOBAL_CATALOG: if (pgcfg->global_catalog != NULL) { (void) memcpy(&result->value.idmap_prop_val_u.dsval, pgcfg->global_catalog, sizeof (idmap_ad_disc_ds_t)); } result->auto_discovered = pgcfg->global_catalog_auto_disc; break; case PROP_AD_UNIXUSER_ATTR: STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->ad_unixuser_attr); result->auto_discovered = FALSE; break; case PROP_AD_UNIXGROUP_ATTR: STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->ad_unixgroup_attr); result->auto_discovered = FALSE; break; case PROP_NLDAP_WINNAME_ATTR: STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, pgcfg->nldap_winname_attr); result->auto_discovered = FALSE; break; case PROP_DIRECTORY_BASED_MAPPING: STRDUP_CHECK(result->value.idmap_prop_val_u.utf8val, enum_lookup(pgcfg->directory_based_mapping, directory_mapping_map)); result->auto_discovered = FALSE; break; default: result->retcode = IDMAP_ERR_PROP_UNKNOWN; break; } out: UNLOCK_CONFIG(); if (IDMAP_FATAL_ERROR(result->retcode)) { xdr_free(xdr_idmap_prop_res, (caddr_t)result); result->value.prop = PROP_UNKNOWN; } result->retcode = idmap_stat4prot(result->retcode); return (TRUE); } int idmap_flush_1_svc( idmap_flush_op op, idmap_retcode *result, struct svc_req *rqstp) { NOTE(ARGUNUSED(rqstp)) if (verify_rules_auth(rqstp) < 0) { *result = IDMAP_ERR_PERMISSION_DENIED; return (TRUE); } *result = idmap_cache_flush(op); return (TRUE); } /* ARGSUSED */ int idmap_prog_1_freeresult(SVCXPRT *transp, xdrproc_t xdr_result, caddr_t result) { (void) xdr_free(xdr_result, result); return (TRUE); } /* * This function is called by rpc_svc.c when it encounters an error. */ NOTE(PRINTFLIKE(1)) void idmap_rpc_msgout(const char *fmt, ...) { va_list va; char buf[1000]; va_start(va, fmt); (void) vsnprintf(buf, sizeof (buf), fmt, va); va_end(va); idmapdlog(LOG_ERR, "idmap RPC: %s", buf); }