# SPDX-License-Identifier: GPL-2.0-only # # This file is part of Nominatim. # Copyright (C) 2021 by the Nominatim developer community. # For a full list of authors see the git log. """ Database helper functions for the indexer. """ import logging import select import time import psycopg2 from psycopg2.extras import wait_select # psycopg2 emits different exceptions pre and post 2.8. Detect if the new error # module is available and adapt the error handling accordingly. try: import psycopg2.errors # pylint: disable=no-name-in-module,import-error __has_psycopg2_errors__ = True except ImportError: __has_psycopg2_errors__ = False LOG = logging.getLogger() class DeadlockHandler: """ Context manager that catches deadlock exceptions and calls the given handler function. All other exceptions are passed on normally. """ def __init__(self, handler, ignore_sql_errors=False): self.handler = handler self.ignore_sql_errors = ignore_sql_errors def __enter__(self): return self def __exit__(self, exc_type, exc_value, traceback): if __has_psycopg2_errors__: if exc_type == psycopg2.errors.DeadlockDetected: # pylint: disable=E1101 self.handler() return True elif exc_type == psycopg2.extensions.TransactionRollbackError \ and exc_value.pgcode == '40P01': self.handler() return True if self.ignore_sql_errors and isinstance(exc_value, psycopg2.Error): LOG.info("SQL error ignored: %s", exc_value) return True return False class DBConnection: """ A single non-blocking database connection. """ def __init__(self, dsn, cursor_factory=None, ignore_sql_errors=False): self.current_query = None self.current_params = None self.dsn = dsn self.ignore_sql_errors = ignore_sql_errors self.conn = None self.cursor = None self.connect(cursor_factory=cursor_factory) def close(self): """ Close all open connections. Does not wait for pending requests. """ if self.conn is not None: self.cursor.close() self.conn.close() self.conn = None def connect(self, cursor_factory=None): """ (Re)connect to the database. Creates an asynchronous connection with JIT and parallel processing disabled. If a connection was already open, it is closed and a new connection established. The caller must ensure that no query is pending before reconnecting. """ self.close() # Use a dict to hand in the parameters because async is a reserved # word in Python3. self.conn = psycopg2.connect(**{'dsn': self.dsn, 'async': True}) self.wait() self.cursor = self.conn.cursor(cursor_factory=cursor_factory) # Disable JIT and parallel workers as they are known to cause problems. # Update pg_settings instead of using SET because it does not yield # errors on older versions of Postgres where the settings are not # implemented. self.perform( """ UPDATE pg_settings SET setting = -1 WHERE name = 'jit_above_cost'; UPDATE pg_settings SET setting = 0 WHERE name = 'max_parallel_workers_per_gather';""") self.wait() def _deadlock_handler(self): LOG.info("Deadlock detected (params = %s), retry.", str(self.current_params)) self.cursor.execute(self.current_query, self.current_params) def wait(self): """ Block until any pending operation is done. """ while True: with DeadlockHandler(self._deadlock_handler, self.ignore_sql_errors): wait_select(self.conn) self.current_query = None return def perform(self, sql, args=None): """ Send SQL query to the server. Returns immediately without blocking. """ self.current_query = sql self.current_params = args self.cursor.execute(sql, args) def fileno(self): """ File descriptor to wait for. (Makes this class select()able.) """ return self.conn.fileno() def is_done(self): """ Check if the connection is available for a new query. Also checks if the previous query has run into a deadlock. If so, then the previous query is repeated. """ if self.current_query is None: return True with DeadlockHandler(self._deadlock_handler, self.ignore_sql_errors): if self.conn.poll() == psycopg2.extensions.POLL_OK: self.current_query = None return True return False class WorkerPool: """ A pool of asynchronous database connections. The pool may be used as a context manager. """ REOPEN_CONNECTIONS_AFTER = 100000 def __init__(self, dsn, pool_size, ignore_sql_errors=False): self.threads = [DBConnection(dsn, ignore_sql_errors=ignore_sql_errors) for _ in range(pool_size)] self.free_workers = self._yield_free_worker() self.wait_time = 0 def finish_all(self): """ Wait for all connection to finish. """ for thread in self.threads: while not thread.is_done(): thread.wait() self.free_workers = self._yield_free_worker() def close(self): """ Close all connections and clear the pool. """ for thread in self.threads: thread.close() self.threads = [] self.free_workers = None def next_free_worker(self): """ Get the next free connection. """ return next(self.free_workers) def _yield_free_worker(self): ready = self.threads command_stat = 0 while True: for thread in ready: if thread.is_done(): command_stat += 1 yield thread if command_stat > self.REOPEN_CONNECTIONS_AFTER: self._reconnect_threads() ready = self.threads command_stat = 0 else: tstart = time.time() _, ready, _ = select.select([], self.threads, []) self.wait_time += time.time() - tstart def _reconnect_threads(self): for thread in self.threads: while not thread.is_done(): thread.wait() thread.connect() def __enter__(self): return self def __exit__(self, exc_type, exc_value, traceback): self.finish_all() self.close()