/** * Generate fields automatically from already existing fields, * and check the target mask is satisfied. */ int ListMgr_GenerateFields( attr_set_t * p_set, int target_mask ) { int save_mask = p_set->attr_mask; /* are there generated fields that are not set for the target */ if ( target_mask & ~p_set->attr_mask & gen_attr_set ) { /* try to generate missing fields */ p_set->attr_mask |= (target_mask & ~p_set->attr_mask & gen_attr_set); generate_fields( p_set ); /* still missing? */ if ( target_mask & ~p_set->attr_mask ) { DisplayLog( LVL_VERB, LISTMGR_TAG, "Field still missing (can't be generated): %#X", target_mask & ~p_set->attr_mask ); /* never leave the function with less info than when entering! */ p_set->attr_mask |= save_mask; return DB_ATTR_MISSING; } } /* never leave the function with less info than when entering! */ p_set->attr_mask |= save_mask; return DB_SUCCESS; }
/** * Retrieve entry attributes from its primary key */ int listmgr_get_by_pk( lmgr_t * p_mgr, PK_ARG_T pk, attr_set_t * p_info ) { int rc; char *first_table = NULL; GString *req, *from; /* attribute count is up to 1 per bit (8 per byte). * x2 for bullet proofing */ char *result_tab[2*8*sizeof(p_info->attr_mask)]; result_handle_t result; bool checkmain = true; int main_count = 0, annex_count = 0, name_count = 0; attr_mask_t gen = gen_fields(p_info->attr_mask); if (p_info == NULL) return 0; /* init entry info */ memset(&p_info->attr_values, 0, sizeof(entry_info_t)); req = g_string_new("SELECT "); from = g_string_new(" FROM "); /* retrieve source info for generated fields (only about std fields)*/ add_source_fields_for_gen(&p_info->attr_mask.std); /* don't get fields that are not in main, names, annex, stripe... * This allows the caller to set all bits 'on' to get everything. * Note: this also clear generated fields. They will be restored after. */ supported_bits_only(&p_info->attr_mask); /* get info from main table (if asked) */ main_count = attrmask2fieldlist(req, p_info->attr_mask, T_MAIN, "", "", 0); if (main_count < 0) { rc = -main_count; goto free_str; } else if (main_count > 0) { checkmain = false; first_table = MAIN_TABLE; g_string_append(from, MAIN_TABLE); } annex_count = attrmask2fieldlist(req, p_info->attr_mask, T_ANNEX, "", "", first_table != NULL ? AOF_LEADING_SEP : 0); if (annex_count < 0) { rc = -annex_count; goto free_str; } else if (annex_count > 0) { if (first_table != NULL) g_string_append_printf(from, " LEFT JOIN "ANNEX_TABLE" ON %s.id=" ANNEX_TABLE".id", first_table); else { first_table = ANNEX_TABLE; g_string_append(from, ANNEX_TABLE); } } name_count = attrmask2fieldlist(req, p_info->attr_mask, T_DNAMES, "", "", first_table != NULL ? AOF_LEADING_SEP : 0); if (name_count < 0) { rc = -name_count; goto free_str; } else if (name_count > 0) { if (first_table) /* it's OK to JOIN with NAMES table here even if there are multiple paths, * as we only take one result record. The important thing is to return * consistent values for parent_id, name and fullpath. */ g_string_append_printf(from, " LEFT JOIN "DNAMES_TABLE" ON %s.id=" DNAMES_TABLE".id", first_table); else { first_table = DNAMES_TABLE; g_string_append(from, DNAMES_TABLE); } } if (first_table != NULL) { int shift = 0; g_string_append_printf(req, "%s WHERE %s.id="DPK, from->str, first_table, pk); rc = db_exec_sql(&p_mgr->conn, req->str, &result); if (rc) goto free_str; rc = db_next_record(&p_mgr->conn, &result, result_tab, main_count + annex_count + name_count); /* END_OF_LIST means it does not exist */ if (rc == DB_END_OF_LIST) { clean_std_table_bits(&p_info->attr_mask); /* not found, but did not check MAIN yet */ if (checkmain) goto next_table; rc = DB_NOT_EXISTS; } if (rc) goto free_res; /* set info from result */ if (main_count) { rc = result2attrset(T_MAIN, result_tab + shift, main_count, p_info); shift += main_count; if (rc) goto free_res; } if (annex_count) { rc = result2attrset(T_ANNEX, result_tab + shift, annex_count, p_info); shift += annex_count; if (rc) goto free_res; } if (name_count) { rc = result2attrset(T_DNAMES, result_tab + shift, name_count, p_info); shift += name_count; if (rc) goto free_res; } next_table: db_result_free(&p_mgr->conn, &result); } /* remove stripe info if it is not a file */ if (stripe_fields(p_info->attr_mask) && ATTR_MASK_TEST(p_info, type) && strcmp(ATTR(p_info, type), STR_TYPE_FILE) != 0) { p_info->attr_mask = attr_mask_and_not(&p_info->attr_mask, &stripe_attr_set); } /* get stripe info if asked */ #ifdef _LUSTRE if (stripe_fields(p_info->attr_mask)) { rc = get_stripe_info(p_mgr, pk, &ATTR(p_info, stripe_info), ATTR_MASK_TEST(p_info, stripe_items)? &ATTR(p_info, stripe_items) : NULL); if (rc == DB_ATTR_MISSING || rc == DB_NOT_EXISTS) { /* stripe info is in std mask */ p_info->attr_mask.std &= ~ATTR_MASK_stripe_info; if (ATTR_MASK_TEST(p_info, stripe_items)) p_info->attr_mask.std &= ~ATTR_MASK_stripe_items; } else if (rc) goto free_str; else checkmain = false; /* entry exists */ } #else /* POSIX: always clean stripe bits */ p_info->attr_mask = attr_mask_and_not(&p_info->attr_mask, &stripe_attr_set); #endif /* special field dircount */ if (dirattr_fields(p_info->attr_mask)) { if (listmgr_get_dirattrs(p_mgr, pk, p_info)) { DisplayLog(LVL_MAJOR, LISTMGR_TAG, "listmgr_get_dirattrs failed for "DPK, pk); p_info->attr_mask = attr_mask_and_not(&p_info->attr_mask, &dir_attr_set); } } if (checkmain) { /* verify it exists in main table */ g_string_printf(req, "SELECT id FROM " MAIN_TABLE " WHERE id="DPK, pk); /* execute the request */ rc = db_exec_sql(&p_mgr->conn, req->str, &result); if (rc) goto free_str; rc = db_next_record(&p_mgr->conn, &result, result_tab, 1); db_result_free(&p_mgr->conn, &result); if (rc) { rc = DB_NOT_EXISTS; goto free_str; } } /* restore generated fields in attr mask */ p_info->attr_mask = attr_mask_or(&p_info->attr_mask, &gen); /* generate them */ generate_fields(p_info); /* update operation stats */ p_mgr->nbop[OPIDX_GET]++; rc = DB_SUCCESS; goto free_str; free_res: db_result_free(&p_mgr->conn, &result); free_str: g_string_free(req, TRUE); g_string_free(from, TRUE); return rc; } /* listmgr_get_by_pk */
/** * Retrieve entry attributes from its primary key */ int listmgr_get_by_pk( lmgr_t * p_mgr, PK_ARG_T pk, attr_set_t * p_info ) { int rc; char fieldlist[4096] = ""; char *first_table = NULL; char from[1024] = ""; char query[4096] = ""; /* we assume there is not more than 128 fields */ char *result_tab[128]; result_handle_t result; int checkmain = 1; int main_count = 0, annex_count = 0, name_count = 0; if (p_info == NULL) return 0; /* init entry info */ memset( &p_info->attr_values, 0, sizeof( entry_info_t ) ); fieldlist[0] = '\0'; /* retrieve source info for generated fields */ add_source_fields_for_gen( &p_info->attr_mask ); /* get info from main table (if asked) */ main_count = attrmask2fieldlist(fieldlist, p_info->attr_mask, T_MAIN, FALSE, FALSE, "", ""); if (main_count < 0) return -main_count; else if (main_count > 0) { checkmain = 0; first_table = MAIN_TABLE; sprintf(from, MAIN_TABLE); } annex_count = attrmask2fieldlist(fieldlist + strlen(fieldlist), p_info->attr_mask, T_ANNEX, first_table != NULL, FALSE, "", ""); if (annex_count < 0) return -annex_count; else if (annex_count > 0) { if (first_table) sprintf(from + strlen(from), " LEFT JOIN "ANNEX_TABLE" ON %s.id=" ANNEX_TABLE".id", first_table); else { first_table = ANNEX_TABLE; sprintf(from, ANNEX_TABLE); } } name_count = attrmask2fieldlist(fieldlist + strlen(fieldlist), p_info->attr_mask, T_DNAMES, first_table != NULL, FALSE, "", ""); if (name_count < 0) return -name_count; else if (name_count > 0) { if (first_table) /* it's OK to JOIN with NAMES table here even if there are multiple paths, * as we only take one result record. The important thing is to return * consistent values for parent_id, name and fullpath. */ sprintf(from + strlen(from), " LEFT JOIN "DNAMES_TABLE" ON %s.id=" DNAMES_TABLE".id", first_table); else { first_table = DNAMES_TABLE; sprintf(from, DNAMES_TABLE); } } if (first_table != NULL) { int shift = 0; sprintf(query, "SELECT %s FROM %s WHERE %s.id="DPK, fieldlist, from, first_table, pk); rc = db_exec_sql(&p_mgr->conn, query, &result); if (rc) return rc; rc = db_next_record(&p_mgr->conn, &result, result_tab, main_count + annex_count + name_count); /* END_OF_LIST means it does not exist */ if (rc == DB_END_OF_LIST) rc = DB_NOT_EXISTS; if (rc) goto free_res; /* set info from result */ if (main_count) { rc = result2attrset(T_MAIN, result_tab + shift, main_count, p_info); shift += main_count; if (rc) goto free_res; } if (annex_count) { rc = result2attrset(T_ANNEX, result_tab + shift, annex_count, p_info); shift += annex_count; if (rc) goto free_res; } if (name_count) { rc = result2attrset(T_DNAMES, result_tab + shift, name_count, p_info); shift += name_count; if (rc) goto free_res; } db_result_free(&p_mgr->conn, &result); } /* remove stripe info if it is not a file */ if (stripe_fields(p_info->attr_mask) && ATTR_MASK_TEST(p_info, type) && strcmp(ATTR(p_info, type), STR_TYPE_FILE) != 0) { p_info->attr_mask &= ~stripe_attr_set; } /* get stripe info if asked */ #ifdef _LUSTRE if (stripe_fields( p_info->attr_mask )) { rc = get_stripe_info( p_mgr, pk, &ATTR( p_info, stripe_info ), ATTR_MASK_TEST( p_info, stripe_items ) ? &ATTR( p_info, stripe_items ) : NULL ); if ( rc == DB_ATTR_MISSING || rc == DB_NOT_EXISTS ) { p_info->attr_mask &= ~ATTR_MASK_stripe_info; if ( ATTR_MASK_TEST( p_info, stripe_items ) ) p_info->attr_mask &= ~ATTR_MASK_stripe_items; } else if ( rc ) return rc; else checkmain = 0; /* entry exists */ } #else /* always clean them */ p_info->attr_mask &= ~(ATTR_MASK_stripe_info | ATTR_MASK_stripe_items); #endif /* special field dircount */ if (dirattr_fields( p_info->attr_mask )) { if (listmgr_get_dirattrs(p_mgr, pk, p_info)) { DisplayLog( LVL_MAJOR, LISTMGR_TAG, "listmgr_get_dirattrs failed for "DPK, pk ); p_info->attr_mask &= ~dir_attr_set; } } if (checkmain) { /* verify it exists in main table */ sprintf( query, "SELECT id FROM " MAIN_TABLE " WHERE id="DPK, pk ); /* execute the request */ rc = db_exec_sql( &p_mgr->conn, query, &result ); if ( rc ) return rc; rc = db_next_record( &p_mgr->conn, &result, result_tab, 1 ); db_result_free( &p_mgr->conn, &result ); if (rc) return DB_NOT_EXISTS; } /* compute generated fields if asked */ generate_fields( p_info ); p_mgr->nbop[OPIDX_GET]++; return DB_SUCCESS; free_res: db_result_free( &p_mgr->conn, &result ); return rc; } /* listmgr_get_by_pk */
/** * Get the list of children of a given parent (or list of parents). * \param parent_list [in] list of parents to get the child of * \param parent_count [in] number of ids in parent list * \param attr_mask [in] required attributes for children * \param child_id_list [out] ptr to array of child ids * \param child_attr_list [out] ptr to array of child attrs * \param child_count [out] number of returned children */ int ListMgr_GetChild( lmgr_t * p_mgr, const lmgr_filter_t * p_filter, const wagon_t * parent_list, unsigned int parent_count, int attr_mask, wagon_t ** child_id_list, attr_set_t ** child_attr_list, unsigned int * child_count) { result_handle_t result; char *curr; int filter_main = 0; int filter_annex = 0; int main_attrs = 0; int dnames_attrs = 0; int annex_attrs = 0; char query[4096]; char fieldlist_main[1024] = ""; char fieldlist_dnames[1024] = ""; char fieldlist_annex[1024] = ""; char filter_str_main[1024] = ""; char filter_str_annex[1024] = ""; char tmp[2048]; char *path = NULL; int path_len; char * pc; int rc, i; /* TODO: querying children from several parent cannot work, since * we need to get the paths of the children. Or we could do a * lookup into parent_list to find the right one. In the meantime, * try not to mess up the code. */ if (parent_count != 1) RBH_BUG("cannot get children for several parent simultaneously"); /* always request for name to build fullpath in wagon */ attr_mask |= ATTR_MASK_name; /* request is always on the MAIN table (which contains [parent_id, id] relationship */ /* /!\ possible cases: * - simplest: the fields of the filter and the attributes to be retrieved are in the MAIN table * - harder: the fields of the filter and attributes are in a different table */ /* 1) location of filters */ if ( p_filter ) { char dummy_str[1024]; unsigned int dummy_uint; if (dir_filter(p_mgr, dummy_str, p_filter, &dummy_uint) != FILTERDIR_NONE) { DisplayLog( LVL_MAJOR, LISTMGR_TAG, "Directory filter not supported in %s()", __func__ ); return DB_NOT_SUPPORTED; } else if (func_filter(p_mgr, dummy_str, p_filter, T_MAIN, FALSE, FALSE)) { DisplayLog( LVL_MAJOR, LISTMGR_TAG, "Function filter not supported in %s()", __func__ ); return DB_NOT_SUPPORTED; } /* There is always a filter on T_DNAMES, which is the parent condition. * Look for optional filters: */ filter_main = filter2str( p_mgr, filter_str_main, p_filter, T_MAIN, FALSE, TRUE ); if ( annex_table ) filter_annex = filter2str( p_mgr, filter_str_annex, p_filter, T_ANNEX, FALSE, TRUE ); else filter_annex = 0; /* @TODO to be implemented */ #if 0 filter_stripe_info = filter2str( p_mgr, filter_str_stripe_info, p_filter, T_STRIPE_INFO, ( filter_main > 0 ) || ( filter_annex > 0 ), TRUE ); filter_stripe_items = filter2str( p_mgr, filter_str_stripe_items, p_filter, T_STRIPE_ITEMS, ( filter_main > 0 ) || ( filter_annex > 0 ) || ( filter_stripe_info > 0 ), TRUE ); #endif } /* 2) location of requested attributes */ if (attr_mask) { /* retrieve source info for generated fields */ add_source_fields_for_gen( &attr_mask ); main_attrs = attrmask2fieldlist( fieldlist_main, attr_mask, T_MAIN, /* leading comma */ TRUE, /* for update */ FALSE, /* prefix */ MAIN_TABLE".", /* postfix */ "" ); dnames_attrs += attrmask2fieldlist( fieldlist_dnames, attr_mask, T_DNAMES, /* leading comma */ TRUE, /* for update */ FALSE, /* prefix */ DNAMES_TABLE".", /* postfix */ "" ); if ( annex_table ) annex_attrs = attrmask2fieldlist( fieldlist_annex, attr_mask, T_ANNEX, /* leading comma */ TRUE, /* for update */ FALSE, /* prefix */ ANNEX_TABLE".", /* postfix */ "" ); else annex_attrs = 0; } else { /* no returned attrs */ if (child_attr_list) *child_attr_list = NULL; } pc = parent_cond(p_mgr, tmp, sizeof(tmp), parent_list, parent_count, DNAMES_TABLE"."); if (!pc) return DB_BUFFER_TOO_SMALL; curr = query; /* SELECT clause */ /* id + dname fields */ curr += sprintf(curr, "SELECT "DNAMES_TABLE".id%s", fieldlist_dnames); /* main attrs */ if (main_attrs) curr += sprintf(curr, "%s", fieldlist_main); /* annex attrs */ if (annex_attrs) curr += sprintf(curr, "%s", fieldlist_annex); /* FROM clause */ curr += sprintf(curr, " FROM "DNAMES_TABLE); if (main_attrs || filter_main) curr += sprintf(curr, " LEFT JOIN "MAIN_TABLE " ON "DNAMES_TABLE".id="MAIN_TABLE".id"); if (annex_attrs || filter_annex) curr += sprintf(curr, " LEFT JOIN "ANNEX_TABLE " ON "DNAMES_TABLE".id="ANNEX_TABLE".id"); /* WHERE clause */ curr += sprintf(curr, " WHERE %s", pc); if (filter_main) curr += sprintf(curr, " AND %s", filter_str_main); if (filter_annex) curr += sprintf(curr, " AND %s", filter_str_annex); retry: rc = db_exec_sql(&p_mgr->conn, query, &result); if (lmgr_delayed_retry(p_mgr, rc)) goto retry; else if (rc) return rc; /* copy result to output structures */ *child_count = db_result_nb_records(&p_mgr->conn, &result); /* allocate entry_id array */ *child_id_list = MemCalloc(*child_count, sizeof(wagon_t)); if (*child_id_list == NULL) return DB_NO_MEMORY; if (child_attr_list) { *child_attr_list = MemCalloc(*child_count, sizeof(attr_set_t)); if (*child_attr_list == NULL) { rc = DB_NO_MEMORY; goto array_free; } } /* Allocate a string long enough to contain the parent path and a * child name. */ path_len = strlen(parent_list[0].fullname) + RBH_NAME_MAX + 2; path = malloc(path_len); if (!path) { DisplayLog( LVL_MAJOR, LISTMGR_TAG, "Can't alloc enough memory (%d bytes)", path_len ); rc = DB_NO_MEMORY; goto array_free; } for (i = 0; i < *child_count; i++) { char *res[128]; /* 128 fields per row is large enough */ rc = db_next_record(&p_mgr->conn, &result, res, 128); if ( rc ) goto array_free; /* copy id to array */ pk2entry_id(p_mgr, res[0], &((*child_id_list)[i].id)); /* copy attributes to array */ if (child_attr_list) { (*child_attr_list)[i].attr_mask = attr_mask; /* first id, then dnames attrs, then main attrs, then annex attrs */ if (dnames_attrs) { /* shift of 1 for id */ rc = result2attrset( T_DNAMES, res + 1, dnames_attrs, &((*child_attr_list)[i]) ); if ( rc ) goto array_free; } if (main_attrs) { /* first id, then main attrs, then annex attrs */ /* shift of 1 for id */ rc = result2attrset( T_MAIN, res + dnames_attrs + 1, main_attrs, &((*child_attr_list)[i]) ); if ( rc ) goto array_free; } if (annex_attrs) { /* shift of main_attrs count */ rc = result2attrset( T_ANNEX, res + dnames_attrs + main_attrs + 1, annex_attrs, &((*child_attr_list)[i]) ); if ( rc ) goto array_free; } #ifdef _LUSTRE if (stripe_fields(attr_mask)) { if (get_stripe_info( p_mgr, res[0], &ATTR(&(*child_attr_list)[i], stripe_info), &ATTR(&(*child_attr_list)[i], stripe_items) )) { ATTR_MASK_UNSET(&(*child_attr_list)[i], stripe_info); ATTR_MASK_UNSET(&(*child_attr_list)[i], stripe_items); } } #endif generate_fields(&((*child_attr_list)[i])); /* Note: path is properly sized already to not overflow. */ sprintf(path, "%s/%s", parent_list[0].fullname, (*child_attr_list)[i].attr_values.name); (*child_id_list)[i].fullname = strdup(path); } } if (path) free(path); db_result_free( &p_mgr->conn, &result ); return 0; array_free: if (path) free(path); if (child_attr_list && *child_attr_list) { MemFree(*child_attr_list); *child_attr_list = NULL; } MemFree(*child_id_list); *child_id_list = NULL; return rc; }
/** * Get the list of children of a given parent (or list of parents). * \param parent_list [in] list of parents to get the child of * \param parent_count [in] number of ids in parent list * \param attr_mask [in] required attributes for children * \param child_id_list [out] ptr to array of child ids * \param child_attr_list [out] ptr to array of child attrs * \param child_count [out] number of returned children */ int ListMgr_GetChild(lmgr_t *p_mgr, const lmgr_filter_t *p_filter, const wagon_t *parent_list, unsigned int parent_count, attr_mask_t attr_mask, wagon_t **child_id_list, attr_set_t **child_attr_list, unsigned int *child_count) { result_handle_t result; char *path = NULL; int path_len; int rc, i; GString *req = NULL; GString *fields = NULL; GString *from = NULL; GString *where = NULL; struct field_count field_cnt = {0}; struct field_count filter_cnt = {0}; table_enum query_tab = T_DNAMES; bool distinct = false; int retry_status; /* XXX: querying children from several parent cannot work, since * we need to get the paths of the children. Or we could do a * lookup into parent_list to find the right one. In the meantime, * try not to mess up the code. */ if (unlikely(parent_count != 1)) RBH_BUG("cannot get children for several parent simultaneously"); /* always request for name to build fullpath in wagon */ attr_mask_set_index(&attr_mask, ATTR_INDEX_name); fields = g_string_new(NULL); /* append fields for all tables */ if (!attr_mask_is_null(attr_mask)) { /* retrieve source info for generated fields */ add_source_fields_for_gen(&attr_mask.std); field_cnt.nb_names = attrmask2fieldlist(fields, attr_mask, T_DNAMES, DNAMES_TABLE".", "", AOF_LEADING_SEP); field_cnt.nb_main = attrmask2fieldlist(fields, attr_mask, T_MAIN, MAIN_TABLE".", "", AOF_LEADING_SEP); field_cnt.nb_annex = attrmask2fieldlist(fields, attr_mask, T_ANNEX, ANNEX_TABLE".", "", AOF_LEADING_SEP); } else { /* no returned attrs */ if (child_attr_list != NULL) *child_attr_list = NULL; } where = g_string_new(NULL); /* starts with condition on parent */ rc = append_parent_cond(p_mgr, where, parent_list, parent_count, DNAMES_TABLE"."); if (rc != DB_SUCCESS) goto free_str; /* check filters on other tables */ if (!no_filter(p_filter)) { if (unlikely(dir_filter(p_mgr, NULL, p_filter, NULL, NULL) != FILTERDIR_NONE)) { DisplayLog(LVL_MAJOR, LISTMGR_TAG, "Directory filter not supported in %s()", __func__); rc = DB_NOT_SUPPORTED; goto free_str; } else if (unlikely(func_filter(p_mgr, NULL, p_filter, T_MAIN, 0))) { DisplayLog(LVL_MAJOR, LISTMGR_TAG, "Function filter not supported in %s()", __func__); rc = DB_NOT_SUPPORTED; goto free_str; } /* There is always a filter on T_DNAMES, which is the parent condition. * Look for optional filters. */ filter_where(p_mgr, p_filter, &filter_cnt, where, AOF_LEADING_SEP | AOF_SKIP_NAME); /** @FIXME process other filters on NAMES */ } from = g_string_new(DNAMES_TABLE); /* add filter_count + field_count to build the FROM clause. * Preserve field count which is needed to interpret the result. */ filter_cnt.nb_main += field_cnt.nb_main; filter_cnt.nb_annex += field_cnt.nb_annex; filter_cnt.nb_names += field_cnt.nb_names; /* query tab is DNAMES, skip_name=true, is_first_tab=T_DNAMES */ filter_from(p_mgr, &filter_cnt, from, &query_tab, &distinct, AOF_LEADING_SEP | AOF_SKIP_NAME); /* request is always on the DNAMES table (which contains [parent_id, id] relationship */ if (distinct) req = g_string_new("SELECT DISTINCT("DNAMES_TABLE".id) as id"); else req = g_string_new("SELECT "DNAMES_TABLE".id as id"); /* build the whole request */ g_string_append_printf(req, "%s FROM %s WHERE %s", fields->str, from->str, where->str); retry: rc = db_exec_sql(&p_mgr->conn, req->str, &result); retry_status = lmgr_delayed_retry(p_mgr, rc); if (retry_status == 1) goto retry; else if (retry_status == 2) { rc = DB_RBH_SIG_SHUTDOWN; goto free_str; } else if (rc) goto free_str; /* copy result to output structures */ *child_count = db_result_nb_records(&p_mgr->conn, &result); /* allocate entry_id array */ *child_id_list = MemCalloc(*child_count, sizeof(wagon_t)); if (*child_id_list == NULL) { rc = DB_NO_MEMORY; goto free_str; } if (child_attr_list) { *child_attr_list = MemCalloc(*child_count, sizeof(attr_set_t)); if (*child_attr_list == NULL) { rc = DB_NO_MEMORY; goto array_free; } } /* Allocate a string long enough to contain the parent path and a * child name. */ path_len = strlen(parent_list[0].fullname) + RBH_NAME_MAX + 2; path = malloc(path_len); if (!path) { DisplayLog(LVL_MAJOR, LISTMGR_TAG, "Can't alloc enough memory (%d bytes)", path_len); rc = DB_NO_MEMORY; goto array_free; } for (i = 0; i < *child_count; i++) { char *res[128]; /* 128 fields per record is large enough */ rc = db_next_record(&p_mgr->conn, &result, res, sizeof(res)/sizeof(*res)); if (rc) goto array_free; /* copy id to array */ pk2entry_id(p_mgr, res[0], &((*child_id_list)[i].id)); /* copy attributes to array */ if (child_attr_list) { unsigned int shift = 1; /* first was NAMES.id */ (*child_attr_list)[i].attr_mask = attr_mask; /* first id, then dnames attrs, then main attrs, then annex attrs */ if (field_cnt.nb_names > 0) { /* shift of 1 for id */ rc = result2attrset(T_DNAMES, res + shift, field_cnt.nb_names, &((*child_attr_list)[i])); if (rc) goto array_free; shift += field_cnt.nb_names; } if (field_cnt.nb_main > 0) { /* first id, then main attrs, then annex attrs */ /* shift of 1 for id */ rc = result2attrset(T_MAIN, res + shift, field_cnt.nb_main, &((*child_attr_list)[i])); if (rc) goto array_free; shift += field_cnt.nb_main; } if (field_cnt.nb_annex > 0) { /* shift of main_attrs count */ rc = result2attrset(T_ANNEX, res + shift, field_cnt.nb_annex, &((*child_attr_list)[i])); if (rc) goto array_free; shift += field_cnt.nb_annex; } #ifdef _LUSTRE if (stripe_fields(attr_mask)) { if (get_stripe_info(p_mgr, res[0], &ATTR(&(*child_attr_list)[i], stripe_info), &ATTR(&(*child_attr_list)[i], stripe_items))) { ATTR_MASK_UNSET(&(*child_attr_list)[i], stripe_info); ATTR_MASK_UNSET(&(*child_attr_list)[i], stripe_items); } } #endif generate_fields(&((*child_attr_list)[i])); /* Note: path is properly sized already to not overflow. */ snprintf(path, path_len, "%s/%s", parent_list[0].fullname, (*child_attr_list)[i].attr_values.name); (*child_id_list)[i].fullname = strdup(path); } } if (path) free(path); db_result_free(&p_mgr->conn, &result); g_string_free(req, TRUE); g_string_free(fields, TRUE); g_string_free(from, TRUE); g_string_free(where, TRUE); return 0; array_free: if (path) free(path); if (child_attr_list && *child_attr_list) { MemFree(*child_attr_list); *child_attr_list = NULL; } MemFree(*child_id_list); *child_id_list = NULL; free_str: g_string_free(req, TRUE); g_string_free(fields, TRUE); g_string_free(from, TRUE); g_string_free(where, TRUE); return rc; }