/* * Copyright (c) 2021, Jan de Visser * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include namespace SQL { Database::Database(String name) : m_heap(Heap::construct(move(name))) , m_serializer(m_heap) { } ErrorOr Database::open() { TRY(m_heap->open()); m_schemas = BTree::construct(m_serializer, SchemaDef::index_def()->to_tuple_descriptor(), m_heap->schemas_root()); m_schemas->on_new_root = [&]() { m_heap->set_schemas_root(m_schemas->root()); }; m_tables = BTree::construct(m_serializer, TableDef::index_def()->to_tuple_descriptor(), m_heap->tables_root()); m_tables->on_new_root = [&]() { m_heap->set_tables_root(m_tables->root()); }; m_table_columns = BTree::construct(m_serializer, ColumnDef::index_def()->to_tuple_descriptor(), m_heap->table_columns_root()); m_table_columns->on_new_root = [&]() { m_heap->set_table_columns_root(m_table_columns->root()); }; m_open = true; auto default_schema = TRY(get_schema("default")); if (!default_schema) { default_schema = SchemaDef::construct("default"); TRY(add_schema(*default_schema)); } return {}; } Database::~Database() { // This crashes if the database can't commit. It's recommended to commit // before the Database goes out of scope so the application can handle // errors. // Maybe we should enforce that by having a VERIFY here that there are no // pending writes. But that's a new API on Heap so let's not do that right // now. if (is_open()) MUST(commit()); } ErrorOr Database::commit() { VERIFY(is_open()); TRY(m_heap->flush()); return {}; } ErrorOr Database::add_schema(SchemaDef const& schema) { VERIFY(is_open()); if (!m_schemas->insert(schema.key())) { warnln("Duplicate schema name {}"sv, schema.name()); return Error::from_string_literal("Duplicate schema name"sv); } return {}; } Key Database::get_schema_key(String const& schema_name) { auto key = SchemaDef::make_key(); key["schema_name"] = schema_name; return key; } ErrorOr> Database::get_schema(String const& schema) { VERIFY(is_open()); auto schema_name = schema; if (schema.is_null() || schema.is_empty()) schema_name = "default"; Key key = get_schema_key(schema_name); auto schema_def_opt = m_schema_cache.get(key.hash()); if (schema_def_opt.has_value()) { return RefPtr(schema_def_opt.value()); } auto schema_iterator = m_schemas->find(key); if (schema_iterator.is_end() || (*schema_iterator != key)) { return RefPtr(nullptr); } auto ret = SchemaDef::construct(*schema_iterator); m_schema_cache.set(key.hash(), ret); return RefPtr(ret); } ErrorOr Database::add_table(TableDef& table) { VERIFY(is_open()); if (!m_tables->insert(table.key())) { warnln("Duplicate table name '{}'.'{}'"sv, table.parent()->name(), table.name()); return Error::from_string_literal("Duplicate table name"sv); } for (auto& column : table.columns()) { VERIFY(m_table_columns->insert(column.key())); } return {}; } Key Database::get_table_key(String const& schema_name, String const& table_name) { auto key = TableDef::make_key(get_schema_key(schema_name)); key["table_name"] = table_name; return key; } ErrorOr> Database::get_table(String const& schema, String const& name) { VERIFY(is_open()); auto schema_name = schema; if (schema.is_null() || schema.is_empty()) schema_name = "default"; Key key = get_table_key(schema_name, name); auto table_def_opt = m_table_cache.get(key.hash()); if (table_def_opt.has_value()) return RefPtr(table_def_opt.value()); auto table_iterator = m_tables->find(key); if (table_iterator.is_end() || (*table_iterator != key)) { return RefPtr(nullptr); } auto schema_def = TRY(get_schema(schema)); if (!schema_def) { warnln("Schema '{}' does not exist"sv, schema); return Error::from_string_literal("Schema does not exist"sv); } auto ret = TableDef::construct(schema_def, name); ret->set_pointer((*table_iterator).pointer()); m_table_cache.set(key.hash(), ret); auto hash = ret->hash(); auto column_key = ColumnDef::make_key(ret); for (auto column_iterator = m_table_columns->find(column_key); !column_iterator.is_end() && ((*column_iterator)["table_hash"].to_u32().value() == hash); column_iterator++) { ret->append_column(*column_iterator); } return RefPtr(ret); } ErrorOr> Database::select_all(TableDef const& table) { VERIFY(m_table_cache.get(table.key().hash()).has_value()); Vector ret; for (auto pointer = table.pointer(); pointer; pointer = ret.last().next_pointer()) { ret.append(m_serializer.deserialize_block(pointer, table, pointer)); } return ret; } ErrorOr> Database::match(TableDef const& table, Key const& key) { VERIFY(m_table_cache.get(table.key().hash()).has_value()); Vector ret; // TODO Match key against indexes defined on table. If found, // use the index instead of scanning the table. for (auto pointer = table.pointer(); pointer;) { auto row = m_serializer.deserialize_block(pointer, table, pointer); if (row.match(key)) ret.append(row); pointer = ret.last().next_pointer(); } return ret; } ErrorOr Database::insert(Row& row) { VERIFY(m_table_cache.get(row.table()->key().hash()).has_value()); // TODO Check constraints row.set_pointer(m_heap->new_record_pointer()); row.next_pointer(row.table()->pointer()); TRY(update(row)); // TODO update indexes defined on table. auto table_key = row.table()->key(); table_key.set_pointer(row.pointer()); VERIFY(m_tables->update_key_pointer(table_key)); row.table()->set_pointer(row.pointer()); return {}; } ErrorOr Database::update(Row& tuple) { VERIFY(m_table_cache.get(tuple.table()->key().hash()).has_value()); // TODO Check constraints m_serializer.reset(); m_serializer.serialize_and_write(tuple, tuple.pointer()); // TODO update indexes defined on table. return {}; } }