/*------------------------------------------------------------------------------* * Architecture & Implementation of DBMS * *------------------------------------------------------------------------------* * Copyright 2022 Databases and Information Systems Group TU Dortmund * * Visit us at * * http://dbis.cs.tu-dortmund.de/cms/en/home/ * * * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR * * OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * * OTHER DEALINGS IN THE SOFTWARE. * * * * Authors: * * Maximilian Berens * * Roland Kühn * * Jan Mühlig * *------------------------------------------------------------------------------* */ #pragma once #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include
#include
#include #include namespace beedb { class Database { public: Database(Config &config, const std::string &file_name); ~Database(); /** * Boots the database management system. * During the boot, all persisted tables, their schemas and indices * will be loaded to memory. * All indices will be filled with data from disk. */ void boot(); /** * @return Instance of the TableDiskManager. */ [[nodiscard]] table::TableDiskManager &table_disk_manager() { return _table_disk_manager; } /** * @return Instance of the BufferManager. */ [[nodiscard]] buffer::Manager &buffer_manager() { return _buffer_manager; } /** * @return Instance of the transaction manager. */ [[nodiscard]] concurrency::TransactionManager &transaction_manager() { return _transaction_manager; } /** * @return Immutable instance of the config. */ [[nodiscard]] const Config &config() const { return _config; } /** * @return Mutable instance of the config. */ [[nodiscard]] Config &config() { return _config; } [[nodiscard]] statistic::SystemStatistics &system_statistics() { return _statistics; } /** * Checks whether a table exists. * * @param name Name of the table. * @return True, if the table exists. */ [[nodiscard]] bool table_exists(const std::string &name) { std::shared_lock _{_tables_latch}; return _tables.find(name) != _tables.end(); } /** * Returns a pointer to the requested table. * * @param name Name of the requested table. * @return Pointer to the table. */ [[nodiscard]] table::Table *table(const std::string &name) { std::shared_lock _{_tables_latch}; if (table_exists(name)) { return _tables[name]; } return nullptr; } table::Table *operator[](const std::string &table_name) { std::shared_lock _{_tables_latch}; return table(table_name); } /** * Creates a table with a given schema. * The table will be persisted and available after creation. * * @param schema Schema for the table. */ void create_table(concurrency::Transaction *transaction, const table::Schema &schema); /** * Creates an index for a specific column. * The index will be persisted, filled, and available after creation. * * @param column Column to be indexed. * @param type Type of the index. * @param name Name of the index. * @param is_unique True, when the index is a unique index. */ void create_index(concurrency::Transaction *transaction, const table::Column &column, index::Type type, const std::string &name, bool is_unique); private: enum SystemPageIds : storage::Page::id_t { Metadata = 0, Tables = 1, Columns = 2, Indices = 3, Statistics = 4, }; Config &_config; storage::Manager _storage_manager; buffer::Manager _buffer_manager; table::TableDiskManager _table_disk_manager; concurrency::TransactionManager _transaction_manager; std::unordered_map _tables; std::shared_mutex _tables_latch; std::atomic_uint32_t _next_table_id = 1; std::atomic_uint32_t _next_column_id = 1; std::atomic_uint32_t _next_index_id = 1; statistic::SystemStatistics _statistics; /** * Initializes the database. When the database is empty, * we will create a new database schema containing all meta tables. * * @param create_schema True, when a database schema should be created. */ void initialize_database(bool create_schema); /** * Persists the table statistics. * * @param table Table * @param cardinality Cardinality */ void persist_table_statistics(table::Table *table, std::uint64_t cardinality); }; } // namespace beedb