/* * idmap_autorid: static map between Active Directory/NT RIDs * and RFC 2307 accounts * * based on the idmap_rid module, but this module defines the ranges * for the domains by automatically allocating a range for each domain * * Copyright (C) Christian Ambach, 2010-2012 * * 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 . * */ /* * This module allocates ranges for domains to be used in a * algorithmic mode like idmap_rid. Multiple ranges are supported * for a single domain: If a rid exceeds the range size, a matching * range is allocated to hold the rid's id. * * Here are the formulas applied: * * * For a sid of the form domain_sid-rid, we have * * rid = reduced_rid + domain_range_index * range_size * * with * reduced_rid := rid % range_size * domain_range_index := rid / range_size * * And reduced_rid fits into a range. * * In the database, we associate a range_number to * the pair domain_sid,domain_range_index. * * Now the unix id for the given sid calculates as: * * id = reduced_rid + range_low_id * * with * * range_low_id = low_id + range_number * range_size * * * The inverse calculation goes like this: * * Given a unix id, let * * normalized_id := id - low_id * reduced_rid := normalized_id % range_size * range_number = normalized_id / range_size * * Then we have * * id = reduced_rid + low_id + range_number * range_size * * From the database, get the domain_sid,domain_range_index pair * belonging to the range_number (if there is already one). * * Then the rid for the unix id calculates as: * * rid = reduced_rid + domain_range_index * range_size */ #include "idmap_autorid_tdb.h" #include "winbindd.h" #include "idmap.h" #include "idmap_rw.h" #include "../libcli/security/dom_sid.h" #include "libsmb/samlogon_cache.h" #include "passdb/machine_sid.h" #include "lib/util/string_wrappers.h" #undef DBGC_CLASS #define DBGC_CLASS DBGC_IDMAP #define IDMAP_AUTORID_ALLOC_RESERVED 500 /* handle to the tdb storing domain <-> range assignments */ static struct db_context *autorid_db; static bool ignore_builtin = false; static NTSTATUS idmap_autorid_get_alloc_range(struct idmap_domain *dom, struct autorid_range_config *range) { NTSTATUS status; ZERO_STRUCT(*range); fstrcpy(range->domsid, ALLOC_RANGE); status = idmap_autorid_get_domainrange(autorid_db, range, dom->read_only); return status; } static NTSTATUS idmap_autorid_allocate_id(struct idmap_domain *dom, struct unixid *xid) { NTSTATUS ret; struct autorid_range_config range; if (dom->read_only) { DEBUG(3, ("Backend is read-only, refusing " "new allocation request\n")); return NT_STATUS_UNSUCCESSFUL; } /* fetch the range for the allocation pool */ ret = idmap_autorid_get_alloc_range(dom, &range); if (!NT_STATUS_IS_OK(ret)) { DEBUG(3, ("Could not determine range for allocation pool, " "check previous messages for reason\n")); return ret; } ret = idmap_tdb_common_get_new_id(dom, xid); if (!NT_STATUS_IS_OK(ret)) { DEBUG(1, ("Fatal error while allocating new ID!\n")); return ret; } xid->id = xid->id + range.low_id; DEBUG(10, ("Returned new %s %d from allocation range\n", (xid->type==ID_TYPE_UID)?"uid":"gid", xid->id)); return ret; } /* * map a xid to SID using the idmap_tdb like pool */ static NTSTATUS idmap_autorid_id_to_sid_alloc(struct idmap_domain *dom, struct id_map *map) { NTSTATUS ret; /* look out for the mapping */ ret = idmap_tdb_common_unixid_to_sid(dom, map); if (NT_STATUS_IS_OK(ret)) { map->status = ID_MAPPED; return ret; } map->status = ID_UNKNOWN; DEBUG(10, ("no ID->SID mapping for %d could be found\n", map->xid.id)); return ret; } static NTSTATUS idmap_autorid_id_to_sid(struct autorid_global_config *cfg, struct idmap_domain *dom, struct id_map *map) { uint32_t range_number; uint32_t domain_range_index; uint32_t normalized_id; uint32_t reduced_rid; uint32_t rid; TDB_DATA data = tdb_null; char *keystr; struct dom_sid domsid; NTSTATUS status; bool ok; const char *q = NULL; /* can this be one of our ids? */ if (map->xid.id < cfg->minvalue) { DEBUG(10, ("id %d is lower than minimum value, " "ignoring mapping request\n", map->xid.id)); map->status = ID_UNKNOWN; return NT_STATUS_OK; } if (map->xid.id > (cfg->minvalue + cfg->rangesize * cfg->maxranges)) { DEBUG(10, ("id %d is outside of maximum id value, " "ignoring mapping request\n", map->xid.id)); map->status = ID_UNKNOWN; return NT_STATUS_OK; } /* determine the range of this uid */ normalized_id = map->xid.id - cfg->minvalue; range_number = normalized_id / cfg->rangesize; keystr = talloc_asprintf(talloc_tos(), "%u", range_number); if (!keystr) { return NT_STATUS_NO_MEMORY; } status = dbwrap_fetch_bystring(autorid_db, talloc_tos(), keystr, &data); TALLOC_FREE(keystr); if (!NT_STATUS_IS_OK(status)) { DEBUG(4, ("id %d belongs to range %d which does not have " "domain mapping, ignoring mapping request\n", map->xid.id, range_number)); TALLOC_FREE(data.dptr); map->status = ID_UNKNOWN; return NT_STATUS_OK; } if ((data.dsize == 0) || (data.dptr[data.dsize-1] != '\0')) { DBG_WARNING("Invalid range %"PRIu32"\n", range_number); TALLOC_FREE(data.dptr); map->status = ID_UNKNOWN; return NT_STATUS_OK; } if (strncmp((const char *)data.dptr, ALLOC_RANGE, strlen(ALLOC_RANGE)) == 0) { /* * this is from the alloc range, check if there is a mapping */ DEBUG(5, ("id %d belongs to allocation range, " "checking for mapping\n", map->xid.id)); TALLOC_FREE(data.dptr); return idmap_autorid_id_to_sid_alloc(dom, map); } ok = dom_sid_parse_endp((const char *)data.dptr, &domsid, &q); if (!ok) { TALLOC_FREE(data.dptr); map->status = ID_UNKNOWN; return NT_STATUS_OK; } /* * Allow for sid#range_index, just sid is range index 0 */ switch (*q) { case '\0': domain_range_index = 0; break; case '#': if (sscanf(q+1, "%"SCNu32, &domain_range_index) == 1) { break; } /* If we end up here, something weird is in the record. */ FALL_THROUGH; default: DBG_DEBUG("SID/domain range: %s\n", (const char *)data.dptr); TALLOC_FREE(data.dptr); map->status = ID_UNKNOWN; return NT_STATUS_OK; } TALLOC_FREE(data.dptr); reduced_rid = normalized_id % cfg->rangesize; rid = reduced_rid + domain_range_index * cfg->rangesize; sid_compose(map->sid, &domsid, rid); /* We **really** should have some way of validating the SID exists and is the correct type here. But that is a deficiency in the idmap_rid design. */ map->status = ID_MAPPED; map->xid.type = ID_TYPE_BOTH; return NT_STATUS_OK; } /********************************** Single sid to id lookup function. **********************************/ static NTSTATUS idmap_autorid_sid_to_id_rid( uint32_t rangesize, uint32_t low_id, struct id_map *map) { uint32_t rid; uint32_t reduced_rid; sid_peek_rid(map->sid, &rid); reduced_rid = rid % rangesize; map->xid.id = reduced_rid + low_id; map->xid.type = ID_TYPE_BOTH; map->status = ID_MAPPED; return NT_STATUS_OK; } /********************************** lookup a set of unix ids. **********************************/ static NTSTATUS idmap_autorid_unixids_to_sids(struct idmap_domain *dom, struct id_map **ids) { struct idmap_tdb_common_context *commoncfg; struct autorid_global_config *globalcfg; NTSTATUS ret; int i; int num_tomap = 0; int num_mapped = 0; /* initialize the status to avoid surprise */ for (i = 0; ids[i]; i++) { ids[i]->status = ID_UNKNOWN; num_tomap++; } commoncfg = talloc_get_type_abort(dom->private_data, struct idmap_tdb_common_context); globalcfg = talloc_get_type(commoncfg->private_data, struct autorid_global_config); for (i = 0; ids[i]; i++) { ret = idmap_autorid_id_to_sid(globalcfg, dom, ids[i]); if ((!NT_STATUS_IS_OK(ret)) && (!NT_STATUS_EQUAL(ret, NT_STATUS_NONE_MAPPED))) { /* some fatal error occurred, log it */ DBG_NOTICE("Unexpected error resolving an ID " "(%d): %s\n", ids[i]->xid.id, nt_errstr(ret)); goto failure; } if (NT_STATUS_IS_OK(ret) && ids[i]->status == ID_MAPPED) { num_mapped++; } } if (num_tomap == num_mapped) { return NT_STATUS_OK; } if (num_mapped == 0) { return NT_STATUS_NONE_MAPPED; } return STATUS_SOME_UNMAPPED; failure: return ret; } static bool idmap_autorid_sid_is_special(struct dom_sid *sid) { bool match; match = sid_check_is_in_wellknown_domain(sid); if (match) { return true; } return false; } static NTSTATUS idmap_autorid_sid_to_id_special(struct idmap_domain *dom, struct id_map *map) { struct idmap_tdb_common_context *common = talloc_get_type_abort(dom->private_data, struct idmap_tdb_common_context); uint32_t count; struct autorid_range_config range; NTSTATUS status; uint32_t free_id; status = idmap_autorid_get_alloc_range(dom, &range); if (!NT_STATUS_IS_OK(status)) { return status; } /* Take the next free ID, counting from the top */ free_id = 0; for (count = 0; count < IDMAP_AUTORID_ALLOC_RESERVED; count++) { struct id_map test_map; struct dom_sid sid; test_map.sid = &sid; test_map.xid.type = map->xid.type; test_map.xid.id = range.high_id - count; test_map.status = ID_UNKNOWN; status = idmap_tdb_common_unixid_to_sid(dom, &test_map); if (NT_STATUS_EQUAL(NT_STATUS_NONE_MAPPED, status)) { free_id = test_map.xid.id; break; } if (!NT_STATUS_IS_OK(status)) { /* error - get out */ return status; } /* mapping exists - try next ID */ } if (free_id == 0) { return NT_STATUS_NONE_MAPPED; } map->status = ID_MAPPED; map->xid.id = free_id; status = common->rw_ops->set_mapping(dom, map); if (!NT_STATUS_IS_OK(status)) { DEBUG(2, ("Error storing new mapping: %s\n", nt_errstr(status))); return status; } return NT_STATUS_OK; } struct idmap_autorid_sid_to_id_alloc_ctx { struct idmap_domain *dom; struct id_map *map; }; static NTSTATUS idmap_autorid_sid_to_id_alloc_action( struct db_context *db, void *private_data) { struct idmap_autorid_sid_to_id_alloc_ctx *ctx; ctx = (struct idmap_autorid_sid_to_id_alloc_ctx *)private_data; if (idmap_autorid_sid_is_special(ctx->map->sid)) { struct dom_sid_buf buf; NTSTATUS ret; ret = idmap_autorid_sid_to_id_special(ctx->dom, ctx->map); if (NT_STATUS_IS_OK(ret)) { return NT_STATUS_OK; } if (!NT_STATUS_EQUAL(NT_STATUS_NONE_MAPPED, ret)) { return ret; } DEBUG(10, ("Special sid %s not mapped. falling back to " "regular allocation\n", dom_sid_str_buf(ctx->map->sid, &buf))); } return idmap_tdb_common_new_mapping(ctx->dom, ctx->map); } /* * map a SID to xid using the idmap_tdb like pool */ static NTSTATUS idmap_autorid_sid_to_id_alloc( struct idmap_tdb_common_context *ctx, struct idmap_domain *dom, struct id_map *map) { NTSTATUS ret; struct idmap_autorid_sid_to_id_alloc_ctx alloc_ctx; struct dom_sid_buf buf; map->status = ID_UNKNOWN; /* see if we already have a mapping */ ret = idmap_tdb_common_sid_to_unixid(dom, map); if (NT_STATUS_IS_OK(ret)) { map->status = ID_MAPPED; return ret; } /* bad things happened */ if (!NT_STATUS_EQUAL(ret, NT_STATUS_NONE_MAPPED)) { DEBUG(1, ("Looking up SID->ID mapping for %s failed: %s\n", dom_sid_str_buf(map->sid, &buf), nt_errstr(ret))); return ret; } if (dom->read_only) { DEBUG(3, ("Not allocating new mapping for %s, because backend " "is read-only\n", dom_sid_str_buf(map->sid, &buf))); map->status = ID_UNMAPPED; return NT_STATUS_NONE_MAPPED; } DEBUG(10, ("Creating new mapping in pool for %s\n", dom_sid_str_buf(map->sid, &buf))); alloc_ctx.dom = dom; alloc_ctx.map = map; ret = dbwrap_trans_do(ctx->db, idmap_autorid_sid_to_id_alloc_action, &alloc_ctx); if (!NT_STATUS_IS_OK(ret)) { DEBUG(1, ("Failed to create a new mapping in alloc range: %s\n", nt_errstr(ret))); return NT_STATUS_INTERNAL_DB_CORRUPTION; } map->status = ID_MAPPED; return NT_STATUS_OK; } static bool idmap_autorid_domsid_is_for_alloc(struct dom_sid *sid) { bool match; match = sid_check_is_wellknown_domain(sid, NULL); if (match) { return true; } return false; } static NTSTATUS idmap_autorid_sid_to_id(struct idmap_tdb_common_context *common, struct idmap_domain *dom, struct id_map *map) { struct autorid_global_config *global = talloc_get_type_abort(common->private_data, struct autorid_global_config); struct autorid_range_config range; uint32_t rid; struct dom_sid domainsid; struct dom_sid_buf buf; NTSTATUS ret; ZERO_STRUCT(range); map->status = ID_UNKNOWN; DEBUG(10, ("Trying to map %s\n", dom_sid_str_buf(map->sid, &buf))); sid_copy(&domainsid, map->sid); if (!sid_split_rid(&domainsid, &rid)) { DEBUG(4, ("Could not determine domain SID from %s, " "ignoring mapping request\n", dom_sid_str_buf(map->sid, &buf))); map->status = ID_UNMAPPED; return NT_STATUS_NONE_MAPPED; } if (idmap_autorid_domsid_is_for_alloc(&domainsid)) { DEBUG(10, ("SID %s is for ALLOC range.\n", dom_sid_str_buf(map->sid, &buf))); return idmap_autorid_sid_to_id_alloc(common, dom, map); } if (dom_sid_equal(&domainsid, &global_sid_Builtin) && ignore_builtin) { DEBUG(10, ("Ignoring request for BUILTIN domain\n")); map->status = ID_UNMAPPED; return NT_STATUS_NONE_MAPPED; } sid_to_fstring(range.domsid, &domainsid); range.domain_range_index = rid / (global->rangesize); ret = idmap_autorid_getrange(autorid_db, range.domsid, range.domain_range_index, &range.rangenum, &range.low_id); if (NT_STATUS_IS_OK(ret)) { return idmap_autorid_sid_to_id_rid( global->rangesize, range.low_id, map); } if (dom->read_only) { DBG_DEBUG("read-only is enabled, did not allocate " "new range for domain %s\n", range.domsid); map->status = ID_UNMAPPED; return NT_STATUS_NONE_MAPPED; } /* * Check if we should allocate a domain range. We need to * protect against unknown domains to not fill our ranges * needlessly. */ if (sid_check_is_builtin(&domainsid) || sid_check_is_our_sam(&domainsid)) { goto allocate; } { struct winbindd_domain *domain; /* * Deterministic check for domain members: We can be * sure that the domain we are member of is worth to * add a mapping for. */ domain = find_our_domain(); if ((domain != NULL) && dom_sid_equal(&domain->sid, &domainsid)) { goto allocate; } } /* * If we have already allocated range index 0, this domain is * worth allocating for in higher ranges. */ if (range.domain_range_index != 0) { uint32_t zero_rangenum, zero_low_id; ret = idmap_autorid_getrange(autorid_db, range.domsid, 0, &zero_rangenum, &zero_low_id); if (NT_STATUS_IS_OK(ret)) { goto allocate; } } /* * If the caller already did a lookup sid and made sure the * domain sid is valid, we can allocate a new range. * * Currently the winbindd parent already does a lookup sids * first, but hopefully changes in future. If the * caller knows the domain sid, ID_TYPE_BOTH should be * passed instead of ID_TYPE_NOT_SPECIFIED. */ if (map->xid.type != ID_TYPE_NOT_SPECIFIED) { goto allocate; } /* * Check of last resort: A domain is valid if a user from that * domain has recently logged in. The samlogon_cache these * days also stores the domain sid. * * We used to check the list of trusted domains we received * from "our" dc, but this is not reliable enough. */ if (netsamlogon_cache_have(&domainsid)) { goto allocate; } /* * Nobody knows this domain, so refuse to allocate a fresh * range. */ DBG_NOTICE("Allocating range for domain %s required type_hint\n", range.domsid); map->status = ID_REQUIRE_TYPE; return NT_STATUS_SOME_NOT_MAPPED; allocate: ret = idmap_autorid_acquire_range(autorid_db, &range); if (!NT_STATUS_IS_OK(ret)) { DBG_NOTICE("Could not determine range for domain: %s, " "check previous messages for reason\n", nt_errstr(ret)); return ret; } return idmap_autorid_sid_to_id_rid(global->rangesize, range.low_id, map); } /********************************** lookup a set of sids. **********************************/ static NTSTATUS idmap_autorid_sids_to_unixids(struct idmap_domain *dom, struct id_map **ids) { struct idmap_tdb_common_context *commoncfg; NTSTATUS ret; size_t i; size_t num_tomap = 0; size_t num_mapped = 0; size_t num_required = 0; /* initialize the status to avoid surprise */ for (i = 0; ids[i]; i++) { ids[i]->status = ID_UNKNOWN; num_tomap++; } commoncfg = talloc_get_type_abort(dom->private_data, struct idmap_tdb_common_context); for (i = 0; ids[i]; i++) { ret = idmap_autorid_sid_to_id(commoncfg, dom, ids[i]); if (NT_STATUS_EQUAL(ret, NT_STATUS_SOME_NOT_MAPPED) && ids[i]->status == ID_REQUIRE_TYPE) { num_required++; continue; } if ((!NT_STATUS_IS_OK(ret)) && (!NT_STATUS_EQUAL(ret, NT_STATUS_NONE_MAPPED))) { struct dom_sid_buf buf; /* some fatal error occurred, log it */ DEBUG(3, ("Unexpected error resolving a SID (%s)\n", dom_sid_str_buf(ids[i]->sid, &buf))); return ret; } if (NT_STATUS_IS_OK(ret) && ids[i]->status == ID_MAPPED) { num_mapped++; } } if (num_tomap == num_mapped) { return NT_STATUS_OK; } else if (num_required > 0) { return STATUS_SOME_UNMAPPED; } else if (num_mapped == 0) { return NT_STATUS_NONE_MAPPED; } return STATUS_SOME_UNMAPPED; } static NTSTATUS idmap_autorid_preallocate_wellknown(struct idmap_domain *dom) { const char *groups[] = { "S-1-1-0", "S-1-2-0", "S-1-2-1", "S-1-3-0", "S-1-3-1", "S-1-3-2", "S-1-3-3", "S-1-3-4", "S-1-5-1", "S-1-5-2", "S-1-5-3", "S-1-5-4", "S-1-5-6", "S-1-5-7", "S-1-5-8", "S-1-5-9", "S-1-5-10", "S-1-5-11", "S-1-5-12", "S-1-5-13", "S-1-5-14", "S-1-5-15", "S-1-5-17", "S-1-5-18", "S-1-5-19", "S-1-5-20" }; struct id_map **maps; int i, num; NTSTATUS status; if (dom->read_only) { return NT_STATUS_OK; } num = ARRAY_SIZE(groups); maps = talloc_array(talloc_tos(), struct id_map*, num+1); if (!maps) { return NT_STATUS_NO_MEMORY; } for (i = 0; i < num; i++) { maps[i] = talloc(maps, struct id_map); if (maps[i] == NULL) { talloc_free(maps); return NT_STATUS_NO_MEMORY; } maps[i]->xid.type = ID_TYPE_GID; maps[i]->sid = dom_sid_parse_talloc(maps, groups[i]); } maps[num] = NULL; status = idmap_autorid_sids_to_unixids(dom, maps); DEBUG(10,("Preallocation run finished with status %s\n", nt_errstr(status))); talloc_free(maps); return NT_STATUS_IS_OK(status)?NT_STATUS_OK:NT_STATUS_UNSUCCESSFUL; } static NTSTATUS idmap_autorid_initialize_action(struct db_context *db, void *private_data) { struct idmap_domain *dom; struct idmap_tdb_common_context *common; struct autorid_global_config *config; NTSTATUS status; dom = (struct idmap_domain *)private_data; common = (struct idmap_tdb_common_context *)dom->private_data; config = (struct autorid_global_config *)common->private_data; status = idmap_autorid_init_hwms(db); if (!NT_STATUS_IS_OK(status)) { return status; } status = idmap_autorid_saveconfig(db, config); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Failed to store configuration data!\n")); return status; } status = idmap_autorid_preallocate_wellknown(dom); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Failed to preallocate wellknown sids: %s\n", nt_errstr(status))); return status; } return NT_STATUS_OK; } static NTSTATUS idmap_autorid_initialize(struct idmap_domain *dom) { struct idmap_tdb_common_context *commonconfig; struct autorid_global_config *config; NTSTATUS status; char *db_path; if (!strequal(dom->name, "*")) { DEBUG(0, ("idmap_autorid_initialize: Error: autorid configured " "for domain '%s'. But autorid can only be used for " "the default idmap configuration.\n", dom->name)); return NT_STATUS_INVALID_PARAMETER; } commonconfig = talloc_zero(dom, struct idmap_tdb_common_context); if (!commonconfig) { DEBUG(0, ("Out of memory!\n")); return NT_STATUS_NO_MEMORY; } dom->private_data = commonconfig; commonconfig->rw_ops = talloc_zero(commonconfig, struct idmap_rw_ops); if (commonconfig->rw_ops == NULL) { DEBUG(0, ("Out of memory!\n")); return NT_STATUS_NO_MEMORY; } config = talloc_zero(commonconfig, struct autorid_global_config); if (!config) { DEBUG(0, ("Out of memory!\n")); return NT_STATUS_NO_MEMORY; } commonconfig->private_data = config; config->minvalue = dom->low_id; config->rangesize = idmap_config_int("*", "rangesize", 100000); config->maxranges = (dom->high_id - dom->low_id + 1) / config->rangesize; if (config->maxranges < 2) { DBG_WARNING("Allowed idmap range is not a least double the " "size of the rangesize. Please increase idmap " "range.\n"); status = NT_STATUS_INVALID_PARAMETER; goto error; } /* check if the high-low limit is a multiple of the rangesize */ if ((dom->high_id - dom->low_id + 1) % config->rangesize != 0) { DEBUG(5, ("High uid-low uid difference of %d " "is not a multiple of the rangesize %d, " "limiting ranges to lower boundary number of %d\n", (dom->high_id - dom->low_id + 1), config->rangesize, config->maxranges)); } DEBUG(5, ("%d domain ranges with a size of %d are available\n", config->maxranges, config->rangesize)); ignore_builtin = idmap_config_bool("*", "ignore builtin", false); /* fill the TDB common configuration */ commonconfig->max_id = config->rangesize - 1 - IDMAP_AUTORID_ALLOC_RESERVED; commonconfig->hwmkey_uid = ALLOC_HWM_UID; commonconfig->hwmkey_gid = ALLOC_HWM_GID; commonconfig->rw_ops->get_new_id = idmap_autorid_allocate_id; commonconfig->rw_ops->set_mapping = idmap_tdb_common_set_mapping; db_path = state_path(talloc_tos(), "autorid.tdb"); if (db_path == NULL) { status = NT_STATUS_NO_MEMORY; goto error; } status = idmap_autorid_db_open(db_path, NULL, /* TALLOC_CTX */ &autorid_db); TALLOC_FREE(db_path); if (!NT_STATUS_IS_OK(status)) { goto error; } commonconfig->db = autorid_db; status = dbwrap_trans_do(autorid_db, idmap_autorid_initialize_action, dom); if (!NT_STATUS_IS_OK(status)) { DEBUG(1, ("Failed to init the idmap database: %s\n", nt_errstr(status))); goto error; } goto done; error: talloc_free(config); done: return status; } static const struct idmap_methods autorid_methods = { .init = idmap_autorid_initialize, .unixids_to_sids = idmap_autorid_unixids_to_sids, .sids_to_unixids = idmap_autorid_sids_to_unixids, .allocate_id = idmap_autorid_allocate_id }; static_decl_idmap; NTSTATUS idmap_autorid_init(TALLOC_CTX *ctx) { return smb_register_idmap(SMB_IDMAP_INTERFACE_VERSION, "autorid", &autorid_methods); }