X-Git-Url: https://git.openstreetmap.org./nominatim.git/blobdiff_plain/830e3be1e61b8bac9452b65bcaa0d9feca166e03..d4018f2e3b7a4b71fa67676bbc65d1d1adcfdd78:/nominatim/db/connection.py?ds=sidebyside diff --git a/nominatim/db/connection.py b/nominatim/db/connection.py index ac8d7c85..12fc22d4 100644 --- a/nominatim/db/connection.py +++ b/nominatim/db/connection.py @@ -1,6 +1,13 @@ +# SPDX-License-Identifier: GPL-2.0-only +# +# This file is part of Nominatim. (https://nominatim.org) +# +# Copyright (C) 2022 by the Nominatim developer community. +# For a full list of authors see the git log. """ Specialised connection and cursor functions. """ +from typing import Optional, Any, Callable, ContextManager, Dict, cast, overload, Tuple, Iterable import contextlib import logging import os @@ -8,24 +15,38 @@ import os import psycopg2 import psycopg2.extensions import psycopg2.extras +from psycopg2 import sql as pysql +from nominatim.typing import SysEnv, Query, T_cursor from nominatim.errors import UsageError LOG = logging.getLogger() -class _Cursor(psycopg2.extras.DictCursor): +class Cursor(psycopg2.extras.DictCursor): """ A cursor returning dict-like objects and providing specialised execution functions. """ - - def execute(self, query, args=None): # pylint: disable=W0221 + # pylint: disable=arguments-renamed,arguments-differ + def execute(self, query: Query, args: Any = None) -> None: """ Query execution that logs the SQL query when debugging is enabled. """ - LOG.debug(self.mogrify(query, args).decode('utf-8')) + if LOG.isEnabledFor(logging.DEBUG): + LOG.debug(self.mogrify(query, args).decode('utf-8')) super().execute(query, args) - def scalar(self, sql, args=None): + + def execute_values(self, sql: Query, argslist: Iterable[Tuple[Any, ...]], + template: Optional[Query] = None) -> None: + """ Wrapper for the psycopg2 convenience function to execute + SQL for a list of values. + """ + LOG.debug("SQL execute_values(%s, %s)", sql, argslist) + + psycopg2.extras.execute_values(self, sql, argslist, template=template) + + + def scalar(self, sql: Query, args: Any = None) -> Any: """ Execute query that returns a single value. The value is returned. If the query yields more than one row, a ValueError is raised. """ @@ -34,30 +55,71 @@ class _Cursor(psycopg2.extras.DictCursor): if self.rowcount != 1: raise RuntimeError("Query did not return a single row.") - return self.fetchone()[0] + result = self.fetchone() + assert result is not None + + return result[0] -class _Connection(psycopg2.extensions.connection): + def drop_table(self, name: str, if_exists: bool = True, cascade: bool = False) -> None: + """ Drop the table with the given name. + Set `if_exists` to False if a non-existent table should raise + an exception instead of just being ignored. If 'cascade' is set + to True then all dependent tables are deleted as well. + """ + sql = 'DROP TABLE ' + if if_exists: + sql += 'IF EXISTS ' + sql += '{}' + if cascade: + sql += ' CASCADE' + + self.execute(pysql.SQL(sql).format(pysql.Identifier(name))) + + +class Connection(psycopg2.extensions.connection): """ A connection that provides the specialised cursor by default and adds convenience functions for administrating the database. """ + @overload # type: ignore[override] + def cursor(self) -> Cursor: + ... + + @overload + def cursor(self, name: str) -> Cursor: + ... + + @overload + def cursor(self, cursor_factory: Callable[..., T_cursor]) -> T_cursor: + ... - def cursor(self, cursor_factory=_Cursor, **kwargs): + def cursor(self, cursor_factory = Cursor, **kwargs): # type: ignore """ Return a new cursor. By default the specialised cursor is returned. """ return super().cursor(cursor_factory=cursor_factory, **kwargs) - def table_exists(self, table): + def table_exists(self, table: str) -> bool: """ Check that a table with the given name exists in the database. """ with self.cursor() as cur: num = cur.scalar("""SELECT count(*) FROM pg_tables WHERE tablename = %s and schemaname = 'public'""", (table, )) - return num == 1 + return num == 1 if isinstance(num, int) else False - def index_exists(self, index, table=None): + def table_has_column(self, table: str, column: str) -> bool: + """ Check if the table 'table' exists and has a column with name 'column'. + """ + with self.cursor() as cur: + has_column = cur.scalar("""SELECT count(*) FROM information_schema.columns + WHERE table_name = %s + and column_name = %s""", + (table, column)) + return has_column > 0 if isinstance(has_column, int) else False + + + def index_exists(self, index: str, table: Optional[str] = None) -> bool: """ Check that an index with the given name exists in the database. If table is not None then the index must relate to the given table. @@ -70,34 +132,35 @@ class _Connection(psycopg2.extensions.connection): if table is not None: row = cur.fetchone() + if row is None or not isinstance(row[0], str): + return False return row[0] == table return True - def drop_table(self, name, if_exists=True): + def drop_table(self, name: str, if_exists: bool = True, cascade: bool = False) -> None: """ Drop the table with the given name. - Set `if_exists` to False if a non-existant table should raise + Set `if_exists` to False if a non-existent table should raise an exception instead of just being ignored. """ with self.cursor() as cur: - cur.execute("""DROP TABLE {} "{}" - """.format('IF EXISTS' if if_exists else '', name)) + cur.drop_table(name, if_exists, cascade) self.commit() - def server_version_tuple(self): + def server_version_tuple(self) -> Tuple[int, int]: """ Return the server version as a tuple of (major, minor). Converts correctly for pre-10 and post-10 PostgreSQL versions. """ version = self.server_version if version < 100000: - return (int(version / 10000), (version % 10000) / 100) + return (int(version / 10000), int((version % 10000) / 100)) return (int(version / 10000), version % 10000) - def postgis_version_tuple(self): + def postgis_version_tuple(self) -> Tuple[int, int]: """ Return the postgis version installed in the database as a tuple of (major, minor). Assumes that the PostGIS extension has been installed already. @@ -105,22 +168,49 @@ class _Connection(psycopg2.extensions.connection): with self.cursor() as cur: version = cur.scalar('SELECT postgis_lib_version()') - return tuple((int(x) for x in version.split('.')[:2])) + version_parts = version.split('.') + if len(version_parts) < 2: + raise UsageError(f"Error fetching Postgis version. Bad format: {version}") + return (int(version_parts[0]), int(version_parts[1])) + + def hstore_version_tuple(self) -> Tuple[int, int]: + """ Return the hstore version installed in the database as a + tuple of (major, minor). Assumes that the hstore extension + has been installed already. + """ + with self.cursor() as cur: + version = cur.scalar( + 'SELECT extversion FROM pg_extension WHERE extname = %s', + ('hstore') + ) + + version_parts = version.split('.') + if len(version_parts) < 2: + raise UsageError(f"Error fetching hstore version. Bad format: {version}") + + return (int(version_parts[0]), int(version_parts[1])) + + +class ConnectionContext(ContextManager[Connection]): + """ Context manager of the connection that also provides direct access + to the underlying connection. + """ + connection: Connection -def connect(dsn): +def connect(dsn: str) -> ConnectionContext: """ Open a connection to the database using the specialised connection factory. The returned object may be used in conjunction with 'with'. When used outside a context manager, use the `connection` attribute to get the connection. """ try: - conn = psycopg2.connect(dsn, connection_factory=_Connection) - ctxmgr = contextlib.closing(conn) + conn = psycopg2.connect(dsn, connection_factory=Connection) + ctxmgr = cast(ConnectionContext, contextlib.closing(conn)) ctxmgr.connection = conn return ctxmgr except psycopg2.OperationalError as err: - raise UsageError("Cannot connect to database: {}".format(err)) from err + raise UsageError(f"Cannot connect to database: {err}") from err # Translation from PG connection string parameters to PG environment variables. @@ -155,7 +245,8 @@ _PG_CONNECTION_STRINGS = { } -def get_pg_env(dsn, base_env=None): +def get_pg_env(dsn: str, + base_env: Optional[SysEnv] = None) -> Dict[str, str]: """ Return a copy of `base_env` with the environment variables for PostgresSQL set up from the given database connection string. If `base_env` is None, then the OS environment is used as a base