// Copyright 2015-2017 Parity Technologies (UK) Ltd. // This file is part of Parity. // Parity 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. // Parity 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 Parity. If not, see . //! Tests for migrations. //! A random temp directory is created. A database is created within it, and migrations //! are performed in temp sub-directories. use std::collections::BTreeMap; use std::sync::Arc; use std::path::{Path, PathBuf}; use {Batch, Config, Error, SimpleMigration, Migration, Manager, ChangeColumns}; use kvdb_rocksdb::Database; use devtools::RandomTempPath; fn db_path(path: &Path) -> PathBuf { let mut p = path.to_owned(); p.push("db"); p } // initialize a database at the given directory with the given values. fn make_db(path: &Path, pairs: BTreeMap, Vec>) { let db = Database::open_default(path.to_str().unwrap()).expect("failed to open temp database"); { let mut transaction = db.transaction(); for (k, v) in pairs { transaction.put(None, &k, &v); } db.write(transaction).expect("failed to write db transaction"); } } // helper for verifying a migrated database. fn verify_migration(path: &Path, pairs: BTreeMap, Vec>) { let db = Database::open_default(path.to_str().unwrap()).unwrap(); for (k, v) in pairs { let x = db.get(None, &k).unwrap().unwrap(); assert_eq!(&x[..], &v[..]); } } struct Migration0; impl SimpleMigration for Migration0 { fn columns(&self) -> Option { None } fn version(&self) -> u32 { 1 } fn simple_migrate(&mut self, mut key: Vec, mut value: Vec) -> Option<(Vec, Vec)> { key.push(0x11); value.push(0x22); Some((key, value)) } } struct Migration1; impl SimpleMigration for Migration1 { fn columns(&self) -> Option { None } fn version(&self) -> u32 { 2 } fn simple_migrate(&mut self, key: Vec, _value: Vec) -> Option<(Vec, Vec)> { Some((key, vec![])) } } struct AddsColumn; impl Migration for AddsColumn { fn pre_columns(&self) -> Option { None } fn columns(&self) -> Option { Some(1) } fn version(&self) -> u32 { 1 } fn migrate(&mut self, source: Arc, config: &Config, dest: &mut Database, col: Option) -> Result<(), Error> { let mut batch = Batch::new(config, col); for (key, value) in source.iter(col).into_iter().flat_map(|inner| inner) { batch.insert(key.into_vec(), value.into_vec(), dest)?; } if col == Some(1) { batch.insert(vec![1, 2, 3], vec![4, 5, 6], dest)?; } batch.commit(dest) } } #[test] fn one_simple_migration() { let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let mut manager = Manager::new(Config::default()); make_db(&db_path, map![vec![] => vec![], vec![1] => vec![1]]); let expected = map![vec![0x11] => vec![0x22], vec![1, 0x11] => vec![1, 0x22]]; manager.add_migration(Migration0).unwrap(); let end_path = manager.execute(&db_path, 0).unwrap(); verify_migration(&end_path, expected); } #[test] #[should_panic] fn no_migration_needed() { let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let mut manager = Manager::new(Config::default()); make_db(&db_path, map![vec![] => vec![], vec![1] => vec![1]]); manager.add_migration(Migration0).unwrap(); manager.execute(&db_path, 1).unwrap(); } #[test] #[should_panic] fn wrong_adding_order() { let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let mut manager = Manager::new(Config::default()); make_db(&db_path, map![vec![] => vec![], vec![1] => vec![1]]); manager.add_migration(Migration1).unwrap(); manager.add_migration(Migration0).unwrap(); } #[test] fn multiple_migrations() { let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let mut manager = Manager::new(Config::default()); make_db(&db_path, map![vec![] => vec![], vec![1] => vec![1]]); let expected = map![vec![0x11] => vec![], vec![1, 0x11] => vec![]]; manager.add_migration(Migration0).unwrap(); manager.add_migration(Migration1).unwrap(); let end_path = manager.execute(&db_path, 0).unwrap(); verify_migration(&end_path, expected); } #[test] fn second_migration() { let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let mut manager = Manager::new(Config::default()); make_db(&db_path, map![vec![] => vec![], vec![1] => vec![1]]); let expected = map![vec![] => vec![], vec![1] => vec![]]; manager.add_migration(Migration0).unwrap(); manager.add_migration(Migration1).unwrap(); let end_path = manager.execute(&db_path, 1).unwrap(); verify_migration(&end_path, expected); } #[test] fn first_and_noop_migration() { let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let mut manager = Manager::new(Config::default()); make_db(&db_path, map![vec![] => vec![], vec![1] => vec![1]]); let expected = map![vec![0x11] => vec![0x22], vec![1, 0x11] => vec![1, 0x22]]; manager.add_migration(Migration0).unwrap(); let end_path = manager.execute(&db_path, 0).unwrap(); verify_migration(&end_path, expected); } #[test] fn noop_and_second_migration() { let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let mut manager = Manager::new(Config::default()); make_db(&db_path, map![vec![] => vec![], vec![1] => vec![1]]); let expected = map![vec![] => vec![], vec![1] => vec![]]; manager.add_migration(Migration1).unwrap(); let end_path = manager.execute(&db_path, 0).unwrap(); verify_migration(&end_path, expected); } #[test] fn is_migration_needed() { let mut manager = Manager::new(Config::default()); manager.add_migration(Migration0).unwrap(); manager.add_migration(Migration1).unwrap(); assert!(manager.is_needed(0)); assert!(manager.is_needed(1)); assert!(!manager.is_needed(2)); } #[test] fn pre_columns() { let mut manager = Manager::new(Config::default()); manager.add_migration(AddsColumn).unwrap(); let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); // this shouldn't fail to open the database even though it's one column // short of the one before it. manager.execute(&db_path, 0).unwrap(); } #[test] fn change_columns() { use kvdb_rocksdb::DatabaseConfig; let mut manager = Manager::new(Config::default()); manager.add_migration(ChangeColumns { pre_columns: None, post_columns: Some(4), version: 1, }).unwrap(); let dir = RandomTempPath::create_dir(); let db_path = db_path(dir.as_path()); let new_path = manager.execute(&db_path, 0).unwrap(); assert_eq!(db_path, new_path, "Changing columns is an in-place migration."); let config = DatabaseConfig::with_columns(Some(4)); let db = Database::open(&config, new_path.to_str().unwrap()).unwrap(); assert_eq!(db.num_columns(), 4); }