// Copyright 2023 Memgraph Ltd. // // Use of this software is governed by the Business Source License // included in the file licenses/BSL.txt; by using this file, you agree to be bound by the terms of the Business Source // License, and you may not use this file except in compliance with the Business Source License. // // As of the Change Date specified in that file, in accordance with // the Business Source License, use of this software will be governed // by the Apache License, Version 2.0, included in the file // licenses/APL.txt. #include #include #include #include #include "dbms/database_handler.hpp" #include "dbms/global.hpp" #include "license/license.hpp" #include "query_plan_common.hpp" #include "replication/state.hpp" #include "storage/v2/view.hpp" std::filesystem::path storage_directory{std::filesystem::temp_directory_path() / "MG_test_unit_dbms_database"}; memgraph::replication::ReplicationState generic_repl_state{std::nullopt}; memgraph::storage::Config default_conf(std::string name = "") { return {.durability = {.storage_directory = storage_directory / name, .snapshot_wal_mode = memgraph::storage::Config::Durability::SnapshotWalMode::PERIODIC_SNAPSHOT_WITH_WAL}, .disk = {.main_storage_directory = storage_directory / name / "disk"}}; } class DBMS_Database : public ::testing::Test { protected: void SetUp() override { Clear(); } void TearDown() override { Clear(); } private: void Clear() { if (std::filesystem::exists(storage_directory)) { std::filesystem::remove_all(storage_directory); } } }; #ifdef MG_ENTERPRISE TEST_F(DBMS_Database, New) { memgraph::dbms::DatabaseHandler db_handler; { ASSERT_FALSE(db_handler.GetConfig("db1")); } { // With custom config memgraph::storage::Config db_config{ .durability = {.storage_directory = storage_directory / "db2", .snapshot_wal_mode = memgraph::storage::Config::Durability::SnapshotWalMode::PERIODIC_SNAPSHOT_WITH_WAL}, .disk = {.main_storage_directory = storage_directory / "disk"}}; auto db2 = db_handler.New("db2", db_config, generic_repl_state); ASSERT_TRUE(db2.HasValue() && db2.GetValue()); ASSERT_TRUE(std::filesystem::exists(storage_directory / "db2")); } { // With default config auto db3 = db_handler.New("db3", default_conf("db3"), generic_repl_state); ASSERT_TRUE(db3.HasValue() && db3.GetValue()); ASSERT_TRUE(std::filesystem::exists(storage_directory / "db3")); auto db4 = db_handler.New("db4", default_conf("four"), generic_repl_state); ASSERT_TRUE(db4.HasValue() && db4.GetValue()); ASSERT_TRUE(std::filesystem::exists(storage_directory / "four")); auto db5 = db_handler.New("db5", default_conf("db3"), generic_repl_state); ASSERT_TRUE(db5.HasError() && db5.GetError() == memgraph::dbms::NewError::EXISTS); } auto all = db_handler.All(); std::sort(all.begin(), all.end()); ASSERT_EQ(all.size(), 3); ASSERT_EQ(all[0], "db2"); ASSERT_EQ(all[1], "db3"); ASSERT_EQ(all[2], "db4"); } TEST_F(DBMS_Database, Get) { memgraph::dbms::DatabaseHandler db_handler; auto db1 = db_handler.New("db1", default_conf("db1"), generic_repl_state); auto db2 = db_handler.New("db2", default_conf("db2"), generic_repl_state); auto db3 = db_handler.New("db3", default_conf("db3"), generic_repl_state); ASSERT_TRUE(db1.HasValue()); ASSERT_TRUE(db2.HasValue()); ASSERT_TRUE(db3.HasValue()); auto get_db1 = db_handler.Get("db1"); auto get_db2 = db_handler.Get("db2"); auto get_db3 = db_handler.Get("db3"); ASSERT_TRUE(get_db1 && *get_db1 == db1.GetValue()); ASSERT_TRUE(get_db2 && *get_db2 == db2.GetValue()); ASSERT_TRUE(get_db3 && *get_db3 == db3.GetValue()); ASSERT_FALSE(db_handler.Get("db123")); ASSERT_FALSE(db_handler.Get("db2 ")); ASSERT_FALSE(db_handler.Get(" db3")); } TEST_F(DBMS_Database, Delete) { memgraph::dbms::DatabaseHandler db_handler; auto db1 = db_handler.New("db1", default_conf("db1"), generic_repl_state); auto db2 = db_handler.New("db2", default_conf("db2"), generic_repl_state); auto db3 = db_handler.New("db3", default_conf("db3"), generic_repl_state); ASSERT_TRUE(db1.HasValue()); ASSERT_TRUE(db2.HasValue()); ASSERT_TRUE(db3.HasValue()); { // Release accessor to storage db1.GetValue().reset(); // Delete from handler ASSERT_TRUE(db_handler.Delete("db1")); ASSERT_FALSE(db_handler.Get("db1")); auto all = db_handler.All(); std::sort(all.begin(), all.end()); ASSERT_EQ(all.size(), 2); ASSERT_EQ(all[0], "db2"); ASSERT_EQ(all[1], "db3"); } { ASSERT_THROW(db_handler.Delete("db0"), memgraph::utils::BasicException); ASSERT_THROW(db_handler.Delete("db1"), memgraph::utils::BasicException); auto all = db_handler.All(); std::sort(all.begin(), all.end()); ASSERT_EQ(all.size(), 2); ASSERT_EQ(all[0], "db2"); ASSERT_EQ(all[1], "db3"); } } TEST_F(DBMS_Database, DeleteAndRecover) { memgraph::license::global_license_checker.EnableTesting(); memgraph::dbms::DatabaseHandler db_handler; { auto db1 = db_handler.New("db1", default_conf("db1"), generic_repl_state); auto db2 = db_handler.New("db2", default_conf("db2"), generic_repl_state); memgraph::storage::Config conf_w_snap{ .durability = {.storage_directory = storage_directory / "db3", .snapshot_wal_mode = memgraph::storage::Config::Durability::SnapshotWalMode::PERIODIC_SNAPSHOT_WITH_WAL, .snapshot_on_exit = true}, .disk = {.main_storage_directory = storage_directory / "db3" / "disk"}}; auto db3 = db_handler.New("db3", conf_w_snap, generic_repl_state); ASSERT_TRUE(db1.HasValue()); ASSERT_TRUE(db2.HasValue()); ASSERT_TRUE(db3.HasValue()); // Add data to graphs { auto storage_dba = db1.GetValue()->Access(); memgraph::query::DbAccessor dba{storage_dba.get()}; memgraph::query::VertexAccessor v1{dba.InsertVertex()}; memgraph::query::VertexAccessor v2{dba.InsertVertex()}; ASSERT_TRUE(v1.AddLabel(dba.NameToLabel("l11")).HasValue()); ASSERT_TRUE(v2.AddLabel(dba.NameToLabel("l12")).HasValue()); ASSERT_FALSE(dba.Commit().HasError()); } { auto storage_dba = db3.GetValue()->Access(); memgraph::query::DbAccessor dba{storage_dba.get()}; memgraph::query::VertexAccessor v1{dba.InsertVertex()}; memgraph::query::VertexAccessor v2{dba.InsertVertex()}; memgraph::query::VertexAccessor v3{dba.InsertVertex()}; ASSERT_TRUE(v1.AddLabel(dba.NameToLabel("l31")).HasValue()); ASSERT_TRUE(v2.AddLabel(dba.NameToLabel("l32")).HasValue()); ASSERT_TRUE(v3.AddLabel(dba.NameToLabel("l33")).HasValue()); ASSERT_FALSE(dba.Commit().HasError()); } } // Delete from handler ASSERT_TRUE(db_handler.Delete("db1")); ASSERT_TRUE(db_handler.Delete("db2")); ASSERT_TRUE(db_handler.Delete("db3")); { // Recover graphs (only db3) auto db1 = db_handler.New("db1", default_conf("db1"), generic_repl_state); auto db2 = db_handler.New("db2", default_conf("db2"), generic_repl_state); memgraph::storage::Config conf_w_rec{ .durability = {.storage_directory = storage_directory / "db3", .recover_on_startup = true, .snapshot_wal_mode = memgraph::storage::Config::Durability::SnapshotWalMode::PERIODIC_SNAPSHOT_WITH_WAL}, .disk = {.main_storage_directory = storage_directory / "db3" / "disk"}}; auto db3 = db_handler.New("db3", conf_w_rec, generic_repl_state); // Check content { // Empty auto storage_dba = db1.GetValue()->Access(); memgraph::query::DbAccessor dba{storage_dba.get()}; ASSERT_EQ(dba.VerticesCount(), 0); } { // Empty auto storage_dba = db2.GetValue()->Access(); memgraph::query::DbAccessor dba{storage_dba.get()}; ASSERT_EQ(dba.VerticesCount(), 0); } { // Full auto storage_dba = db3.GetValue()->Access(); memgraph::query::DbAccessor dba{storage_dba.get()}; ASSERT_EQ(dba.VerticesCount(), 3); } } } #endif