/* Copyright (c) 2009, 2010, 2011, 2012, 2013 Nicira, Inc. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include "ovsdb.h" #include "column.h" #include "json.h" #include "ovsdb-error.h" #include "ovsdb-parser.h" #include "ovsdb-types.h" #include "simap.h" #include "table.h" #include "transaction.h" struct ovsdb_schema * ovsdb_schema_create(const char *name, const char *version, const char *cksum) { struct ovsdb_schema *schema; schema = xzalloc(sizeof *schema); schema->name = xstrdup(name); schema->version = xstrdup(version); schema->cksum = xstrdup(cksum); shash_init(&schema->tables); return schema; } struct ovsdb_schema * ovsdb_schema_clone(const struct ovsdb_schema *old) { struct ovsdb_schema *new; struct shash_node *node; new = ovsdb_schema_create(old->name, old->version, old->cksum); SHASH_FOR_EACH (node, &old->tables) { const struct ovsdb_table_schema *ts = node->data; shash_add(&new->tables, node->name, ovsdb_table_schema_clone(ts)); } return new; } void ovsdb_schema_destroy(struct ovsdb_schema *schema) { struct shash_node *node; if (!schema) { return; } SHASH_FOR_EACH (node, &schema->tables) { ovsdb_table_schema_destroy(node->data); } shash_destroy(&schema->tables); free(schema->name); free(schema->version); free(schema->cksum); free(schema); } struct ovsdb_error * ovsdb_schema_from_file(const char *file_name, struct ovsdb_schema **schemap) { struct ovsdb_schema *schema; struct ovsdb_error *error; struct json *json; *schemap = NULL; json = json_from_file(file_name); if (json->type == JSON_STRING) { error = ovsdb_error("failed to read schema", "\"%s\" could not be read as JSON (%s)", file_name, json_string(json)); json_destroy(json); return error; } error = ovsdb_schema_from_json(json, &schema); json_destroy(json); if (error) { return ovsdb_wrap_error(error, "failed to parse \"%s\" as ovsdb schema", file_name); } *schemap = schema; return NULL; } static struct ovsdb_error * OVS_WARN_UNUSED_RESULT ovsdb_schema_check_ref_table(struct ovsdb_column *column, const struct shash *tables, const struct ovsdb_base_type *base, const char *base_name) { struct ovsdb_table_schema *refTable; if (base->type != OVSDB_TYPE_UUID || !base->u.uuid.refTableName) { return NULL; } refTable = shash_find_data(tables, base->u.uuid.refTableName); if (!refTable) { return ovsdb_syntax_error(NULL, NULL, "column %s %s refers to undefined table %s", column->name, base_name, base->u.uuid.refTableName); } if (ovsdb_base_type_is_strong_ref(base) && !refTable->is_root) { /* We cannot allow a strong reference to a non-root table to be * ephemeral: if it is the only reference to a row, then replaying the * database log from disk will cause the referenced row to be deleted, * even though it did exist in memory. If there are references to that * row later in the log (to modify it, to delete it, or just to point * to it), then this will yield a transaction error. */ column->persistent = true; } return NULL; } static bool is_valid_version(const char *s) { int n = -1; ignore(ovs_scan(s, "%*[0-9].%*[0-9].%*[0-9]%n", &n)); return n != -1 && s[n] == '\0'; } /* Returns the number of tables in 'schema''s root set. */ static size_t root_set_size(const struct ovsdb_schema *schema) { struct shash_node *node; size_t n_root = 0; SHASH_FOR_EACH (node, &schema->tables) { struct ovsdb_table_schema *table = node->data; n_root += table->is_root; } return n_root; } struct ovsdb_error * ovsdb_schema_from_json(struct json *json, struct ovsdb_schema **schemap) { struct ovsdb_schema *schema; const struct json *name, *tables, *version_json, *cksum; struct ovsdb_error *error; struct shash_node *node; struct ovsdb_parser parser; const char *version; *schemap = NULL; ovsdb_parser_init(&parser, json, "database schema"); name = ovsdb_parser_member(&parser, "name", OP_ID); version_json = ovsdb_parser_member(&parser, "version", OP_STRING | OP_OPTIONAL); cksum = ovsdb_parser_member(&parser, "cksum", OP_STRING | OP_OPTIONAL); tables = ovsdb_parser_member(&parser, "tables", OP_OBJECT); error = ovsdb_parser_finish(&parser); if (error) { return error; } if (version_json) { version = json_string(version_json); if (!is_valid_version(version)) { return ovsdb_syntax_error(json, NULL, "schema version \"%s\" not " "in format x.y.z", version); } } else { /* Backward compatibility with old databases. */ version = ""; } schema = ovsdb_schema_create(json_string(name), version, cksum ? json_string(cksum) : ""); SHASH_FOR_EACH (node, json_object(tables)) { struct ovsdb_table_schema *table; if (node->name[0] == '_') { error = ovsdb_syntax_error(json, NULL, "names beginning with " "\"_\" are reserved"); } else if (!ovsdb_parser_is_id(node->name)) { error = ovsdb_syntax_error(json, NULL, "name must be a valid id"); } else { error = ovsdb_table_schema_from_json(node->data, node->name, &table); } if (error) { ovsdb_schema_destroy(schema); return error; } shash_add(&schema->tables, table->name, table); } /* "isRoot" was not part of the original schema definition. Before it was * added, there was no support for garbage collection. So, for backward * compatibility, if the root set is empty then assume that every table is * in the root set. */ if (root_set_size(schema) == 0) { SHASH_FOR_EACH (node, &schema->tables) { struct ovsdb_table_schema *table = node->data; table->is_root = true; } } /* Validate that all refTables refer to the names of tables that exist. * * Also force certain columns to be persistent, as explained in * ovsdb_schema_check_ref_table(). This requires 'is_root' to be known, so * this must follow the loop updating 'is_root' above. */ SHASH_FOR_EACH (node, &schema->tables) { struct ovsdb_table_schema *table = node->data; struct shash_node *node2; SHASH_FOR_EACH (node2, &table->columns) { struct ovsdb_column *column = node2->data; error = ovsdb_schema_check_ref_table(column, &schema->tables, &column->type.key, "key"); if (!error) { error = ovsdb_schema_check_ref_table(column, &schema->tables, &column->type.value, "value"); } if (error) { ovsdb_schema_destroy(schema); return error; } } } *schemap = schema; return NULL; } struct json * ovsdb_schema_to_json(const struct ovsdb_schema *schema) { struct json *json, *tables; struct shash_node *node; bool default_is_root; json = json_object_create(); json_object_put_string(json, "name", schema->name); if (schema->version[0]) { json_object_put_string(json, "version", schema->version); } if (schema->cksum[0]) { json_object_put_string(json, "cksum", schema->cksum); } /* "isRoot" was not part of the original schema definition. Before it was * added, there was no support for garbage collection. So, for backward * compatibility, if every table is in the root set then do not output * "isRoot" in table schemas. */ default_is_root = root_set_size(schema) == shash_count(&schema->tables); tables = json_object_create(); SHASH_FOR_EACH (node, &schema->tables) { struct ovsdb_table_schema *table = node->data; json_object_put(tables, table->name, ovsdb_table_schema_to_json(table, default_is_root)); } json_object_put(json, "tables", tables); return json; } /* Returns true if 'a' and 'b' specify equivalent schemas, false if they * differ. */ bool ovsdb_schema_equal(const struct ovsdb_schema *a, const struct ovsdb_schema *b) { /* This implementation is simple, stupid, and slow, but I doubt that it * will ever require much maintenance. */ struct json *ja = ovsdb_schema_to_json(a); struct json *jb = ovsdb_schema_to_json(b); bool equals = json_equal(ja, jb); json_destroy(ja); json_destroy(jb); return equals; } static void ovsdb_set_ref_table(const struct shash *tables, struct ovsdb_base_type *base) { if (base->type == OVSDB_TYPE_UUID && base->u.uuid.refTableName) { struct ovsdb_table *table; table = shash_find_data(tables, base->u.uuid.refTableName); base->u.uuid.refTable = table; } } struct ovsdb * ovsdb_create(struct ovsdb_schema *schema) { struct shash_node *node; struct ovsdb *db; db = xmalloc(sizeof *db); db->schema = schema; ovs_list_init(&db->replicas); ovs_list_init(&db->triggers); db->run_triggers = false; shash_init(&db->tables); SHASH_FOR_EACH (node, &schema->tables) { struct ovsdb_table_schema *ts = node->data; shash_add(&db->tables, node->name, ovsdb_table_create(ts)); } /* Set all the refTables. */ SHASH_FOR_EACH (node, &schema->tables) { struct ovsdb_table_schema *table = node->data; struct shash_node *node2; SHASH_FOR_EACH (node2, &table->columns) { struct ovsdb_column *column = node2->data; ovsdb_set_ref_table(&db->tables, &column->type.key); ovsdb_set_ref_table(&db->tables, &column->type.value); } } return db; } void ovsdb_destroy(struct ovsdb *db) { if (db) { struct shash_node *node; /* Remove all the replicas. */ while (!ovs_list_is_empty(&db->replicas)) { struct ovsdb_replica *r = CONTAINER_OF(ovs_list_pop_back(&db->replicas), struct ovsdb_replica, node); ovsdb_remove_replica(db, r); } /* Delete all the tables. This also deletes their schemas. */ SHASH_FOR_EACH (node, &db->tables) { struct ovsdb_table *table = node->data; ovsdb_table_destroy(table); } shash_destroy(&db->tables); /* The schemas, but not the table that points to them, were deleted in * the previous step, so we need to clear out the table. We can't * destroy the table, because ovsdb_schema_destroy() will do that. */ shash_clear(&db->schema->tables); ovsdb_schema_destroy(db->schema); free(db); } } /* Adds some memory usage statistics for 'db' into 'usage', for use with * memory_report(). */ void ovsdb_get_memory_usage(const struct ovsdb *db, struct simap *usage) { const struct shash_node *node; unsigned int cells = 0; SHASH_FOR_EACH (node, &db->tables) { const struct ovsdb_table *table = node->data; unsigned int n_columns = shash_count(&table->schema->columns); unsigned int n_rows = hmap_count(&table->rows); cells += n_rows * n_columns; } simap_increase(usage, "cells", cells); } struct ovsdb_table * ovsdb_get_table(const struct ovsdb *db, const char *name) { return shash_find_data(&db->tables, name); } void ovsdb_replica_init(struct ovsdb_replica *r, const struct ovsdb_replica_class *class) { r->class = class; } void ovsdb_add_replica(struct ovsdb *db, struct ovsdb_replica *r) { ovs_list_push_back(&db->replicas, &r->node); } void ovsdb_remove_replica(struct ovsdb *db OVS_UNUSED, struct ovsdb_replica *r) { ovs_list_remove(&r->node); (r->class->destroy)(r); }