// Copyright 2011 The Kyua Authors. // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the distribution. // * Neither the name of Google Inc. nor the names of its contributors // may be used to endorse or promote products derived from this software // without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include "store/migrate.hpp" #include #include "store/dbtypes.hpp" #include "store/exceptions.hpp" #include "store/layout.hpp" #include "store/metadata.hpp" #include "store/read_backend.hpp" #include "store/write_backend.hpp" #include "utils/datetime.hpp" #include "utils/env.hpp" #include "utils/format/macros.hpp" #include "utils/fs/exceptions.hpp" #include "utils/fs/operations.hpp" #include "utils/fs/path.hpp" #include "utils/logging/macros.hpp" #include "utils/optional.ipp" #include "utils/sanity.hpp" #include "utils/stream.hpp" #include "utils/sqlite/database.hpp" #include "utils/sqlite/exceptions.hpp" #include "utils/sqlite/statement.ipp" #include "utils/text/operations.hpp" namespace datetime = utils::datetime; namespace fs = utils::fs; namespace sqlite = utils::sqlite; namespace text = utils::text; using utils::none; using utils::optional; namespace { /// Schema version at which we switched to results files. const int first_chunked_schema_version = 3; /// Queries the schema version of the given database. /// /// \param file The database from which to query the schema version. /// /// \return The schema version number. static int get_schema_version(const fs::path& file) { sqlite::database db = store::detail::open_and_setup( file, sqlite::open_readonly); return store::metadata::fetch_latest(db).schema_version(); } /// Performs a single migration step. /// /// Both action_id and old_database are little hacks to support the migration /// from the historical database to chunked files. We'd use a more generic /// "replacements" map, but it's not worth it. /// /// \param file Database on which to apply the migration step. /// \param version_from Current schema version in the database. /// \param version_to Schema version to migrate to. /// \param action_id If not none, replace ACTION_ID in the migration file with /// this value. /// \param old_database If not none, replace OLD_DATABASE in the migration /// file with this value. /// /// \throw error If there is a problem applying the migration. static void migrate_schema_step(const fs::path& file, const int version_from, const int version_to, const optional< int64_t > action_id = none, const optional< fs::path > old_database = none) { LI(F("Migrating schema of %s from version %s to %s") % file % version_from % version_to); PRE(version_to == version_from + 1); sqlite::database db = store::detail::open_and_setup( file, sqlite::open_readwrite); const fs::path migration = store::detail::migration_file(version_from, version_to); std::string migration_string; try { migration_string = utils::read_file(migration); } catch (const std::runtime_error& unused_e) { throw store::error(F("Cannot read migration file '%s'") % migration); } if (action_id) { migration_string = text::replace_all(migration_string, "@ACTION_ID@", F("%s") % action_id.get()); } if (old_database) { migration_string = text::replace_all(migration_string, "@OLD_DATABASE@", old_database.get().str()); } try { db.exec(migration_string); } catch (const sqlite::error& e) { throw store::error(F("Schema migration failed: %s") % e.what()); } } /// Given a historical database, chunks it up into results files. /// /// The given database is DELETED on success given that it will have been /// split up into various different files. /// /// \param old_file Path to the old database. static void chunk_database(const fs::path& old_file) { PRE(get_schema_version(old_file) == first_chunked_schema_version - 1); LI(F("Need to split %s into per-action files") % old_file); sqlite::database old_db = store::detail::open_and_setup( old_file, sqlite::open_readonly); sqlite::statement actions_stmt = old_db.create_statement( "SELECT action_id, cwd FROM actions NATURAL JOIN contexts"); sqlite::statement start_time_stmt = old_db.create_statement( "SELECT test_results.start_time AS start_time " "FROM test_programs " " JOIN test_cases " " ON test_programs.test_program_id == test_cases.test_program_id" " JOIN test_results " " ON test_cases.test_case_id == test_results.test_case_id " "WHERE test_programs.action_id == :action_id " "ORDER BY start_time LIMIT 1"); while (actions_stmt.step()) { const int64_t action_id = actions_stmt.safe_column_int64("action_id"); const fs::path cwd(actions_stmt.safe_column_text("cwd")); LI(F("Extracting action %s") % action_id); start_time_stmt.reset(); start_time_stmt.bind(":action_id", action_id); if (!start_time_stmt.step()) { LI(F("Skipping empty action %s") % action_id); continue; } const datetime::timestamp start_time = store::column_timestamp( start_time_stmt, "start_time"); start_time_stmt.step_without_results(); const fs::path new_file = store::layout::new_db_for_migration( cwd, start_time); if (fs::exists(new_file)) { LI(F("Skipping action because %s already exists") % new_file); continue; } LI(F("Creating %s for previous action %s") % new_file % action_id); try { fs::mkdir_p(new_file.branch_path(), 0755); sqlite::database db = store::detail::open_and_setup( new_file, sqlite::open_readwrite | sqlite::open_create); store::detail::initialize(db); db.close(); migrate_schema_step(new_file, first_chunked_schema_version - 1, first_chunked_schema_version, utils::make_optional(action_id), utils::make_optional(old_file)); } catch (...) { // TODO(jmmv): Handle this better. fs::unlink(new_file); } } fs::unlink(old_file); } } // anonymous namespace /// Calculates the path to a schema migration file. /// /// \param version_from The version from which the database is being upgraded. /// \param version_to The version to which the database is being upgraded. /// /// \return The path to the installed migrate_vX_vY.sql file. fs::path store::detail::migration_file(const int version_from, const int version_to) { return fs::path(utils::getenv_with_default("KYUA_STOREDIR", KYUA_STOREDIR)) / (F("migrate_v%s_v%s.sql") % version_from % version_to); } /// Backs up a database for schema migration purposes. /// /// \todo We should probably use the SQLite backup API instead of doing a raw /// file copy. We issue our backup call with the database already open, but /// because it is quiescent, it's OK to do so. /// /// \param source Location of the database to be backed up. /// \param old_version Version of the database's CURRENT schema, used to /// determine the name of the backup file. /// /// \throw error If there is a problem during the backup. void store::detail::backup_database(const fs::path& source, const int old_version) { const fs::path target(F("%s.v%s.backup") % source.str() % old_version); LI(F("Backing up database %s to %s") % source % target); try { fs::copy(source, target); } catch (const fs::error& e) { throw store::error(e.what()); } } /// Migrates the schema of a database to the current version. /// /// The algorithm implemented here performs a migration step for every /// intermediate version between the schema version in the database to the /// version implemented in this file. This should permit upgrades from /// arbitrary old databases. /// /// \param file The database whose schema to upgrade. /// /// \throw error If there is a problem with the migration. void store::migrate_schema(const utils::fs::path& file) { const int version_from = get_schema_version(file); const int version_to = detail::current_schema_version; if (version_from == version_to) { throw error(F("Database already at schema version %s; migration not " "needed") % version_from); } else if (version_from > version_to) { throw error(F("Database at schema version %s, which is newer than the " "supported version %s") % version_from % version_to); } detail::backup_database(file, version_from); int i; for (i = version_from; i < first_chunked_schema_version - 1; ++i) { migrate_schema_step(file, i, i + 1); } chunk_database(file); INV(version_to == first_chunked_schema_version); }