from __future__ import unicode_literals import sys import time import unittest from django.conf import settings from django.db import transaction, connection, router from django.db.utils import ConnectionHandler, DEFAULT_DB_ALIAS, DatabaseError from django.test import (TransactionTestCase, skipIfDBFeature, skipUnlessDBFeature) from multiple_database.tests import TestRouter from .models import Person # Some tests require threading, which might not be available. So create a # skip-test decorator for those test functions. try: import threading except ImportError: threading = None requires_threading = unittest.skipUnless(threading, 'requires threading') class SelectForUpdateTests(TransactionTestCase): available_apps = ['select_for_update'] def setUp(self): transaction.enter_transaction_management() self.person = Person.objects.create(name='Reinhardt') # We have to commit here so that code in run_select_for_update can # see this data. transaction.commit() # We need another database connection to test that one connection # issuing a SELECT ... FOR UPDATE will block. new_connections = ConnectionHandler(settings.DATABASES) self.new_connection = new_connections[DEFAULT_DB_ALIAS] self.new_connection.enter_transaction_management() # We need to set settings.DEBUG to True so we can capture # the output SQL to examine. self._old_debug = settings.DEBUG settings.DEBUG = True def tearDown(self): try: # We don't really care if this fails - some of the tests will set # this in the course of their run. transaction.abort() self.new_connection.abort() except transaction.TransactionManagementError: pass self.new_connection.close() settings.DEBUG = self._old_debug try: self.end_blocking_transaction() except (DatabaseError, AttributeError): pass def start_blocking_transaction(self): # Start a blocking transaction. At some point, # end_blocking_transaction() should be called. self.cursor = self.new_connection.cursor() sql = 'SELECT * FROM %(db_table)s %(for_update)s;' % { 'db_table': Person._meta.db_table, 'for_update': self.new_connection.ops.for_update_sql(), } self.cursor.execute(sql, ()) self.cursor.fetchone() def end_blocking_transaction(self): # Roll back the blocking transaction. self.new_connection.rollback() def has_for_update_sql(self, tested_connection, nowait=False): # Examine the SQL that was executed to determine whether it # contains the 'SELECT..FOR UPDATE' stanza. for_update_sql = tested_connection.ops.for_update_sql(nowait) sql = tested_connection.queries[-1]['sql'] return bool(sql.find(for_update_sql) > -1) @skipUnlessDBFeature('has_select_for_update') def test_for_update_sql_generated(self): """ Test that the backend's FOR UPDATE variant appears in generated SQL when select_for_update is invoked. """ list(Person.objects.all().select_for_update()) self.assertTrue(self.has_for_update_sql(connection)) @skipUnlessDBFeature('has_select_for_update_nowait') def test_for_update_sql_generated_nowait(self): """ Test that the backend's FOR UPDATE NOWAIT variant appears in generated SQL when select_for_update is invoked. """ list(Person.objects.all().select_for_update(nowait=True)) self.assertTrue(self.has_for_update_sql(connection, nowait=True)) @requires_threading @skipUnlessDBFeature('has_select_for_update_nowait') def test_nowait_raises_error_on_block(self): """ If nowait is specified, we expect an error to be raised rather than blocking. """ self.start_blocking_transaction() status = [] thread = threading.Thread( target=self.run_select_for_update, args=(status,), kwargs={'nowait': True}, ) thread.start() time.sleep(1) thread.join() self.end_blocking_transaction() self.assertIsInstance(status[-1], DatabaseError) @skipIfDBFeature('has_select_for_update_nowait') @skipUnlessDBFeature('has_select_for_update') def test_unsupported_nowait_raises_error(self): """ If a SELECT...FOR UPDATE NOWAIT is run on a database backend that supports FOR UPDATE but not NOWAIT, then we should find that a DatabaseError is raised. """ self.assertRaises( DatabaseError, list, Person.objects.all().select_for_update(nowait=True) ) def run_select_for_update(self, status, nowait=False): """ Utility method that runs a SELECT FOR UPDATE against all Person instances. After the select_for_update, it attempts to update the name of the only record, save, and commit. This function expects to run in a separate thread. """ status.append('started') try: # We need to enter transaction management again, as this is done on # per-thread basis transaction.enter_transaction_management() people = list( Person.objects.all().select_for_update(nowait=nowait) ) people[0].name = 'Fred' people[0].save() transaction.commit() except DatabaseError as e: status.append(e) finally: # This method is run in a separate thread. It uses its own # database connection. Close it without waiting for the GC. transaction.abort() connection.close() @requires_threading @skipUnlessDBFeature('has_select_for_update') @skipUnlessDBFeature('supports_transactions') def test_block(self): """ Check that a thread running a select_for_update that accesses rows being touched by a similar operation on another connection blocks correctly. """ # First, let's start the transaction in our thread. self.start_blocking_transaction() # Now, try it again using the ORM's select_for_update # facility. Do this in a separate thread. status = [] thread = threading.Thread( target=self.run_select_for_update, args=(status,) ) # The thread should immediately block, but we'll sleep # for a bit to make sure. thread.start() sanity_count = 0 while len(status) != 1 and sanity_count < 10: sanity_count += 1 time.sleep(1) if sanity_count >= 10: raise ValueError('Thread did not run and block') # Check the person hasn't been updated. Since this isn't # using FOR UPDATE, it won't block. p = Person.objects.get(pk=self.person.pk) self.assertEqual('Reinhardt', p.name) # When we end our blocking transaction, our thread should # be able to continue. self.end_blocking_transaction() thread.join(5.0) # Check the thread has finished. Assuming it has, we should # find that it has updated the person's name. self.assertFalse(thread.isAlive()) # We must commit the transaction to ensure that MySQL gets a fresh read, # since by default it runs in REPEATABLE READ mode transaction.commit() p = Person.objects.get(pk=self.person.pk) self.assertEqual('Fred', p.name) @requires_threading @skipUnlessDBFeature('has_select_for_update') def test_raw_lock_not_available(self): """ Check that running a raw query which can't obtain a FOR UPDATE lock raises the correct exception """ self.start_blocking_transaction() def raw(status): try: list( Person.objects.raw( 'SELECT * FROM %s %s' % ( Person._meta.db_table, connection.ops.for_update_sql(nowait=True) ) ) ) except DatabaseError as e: status.append(e) finally: # This method is run in a separate thread. It uses its own # database connection. Close it without waiting for the GC. connection.close() status = [] thread = threading.Thread(target=raw, kwargs={'status': status}) thread.start() time.sleep(1) thread.join() self.end_blocking_transaction() self.assertIsInstance(status[-1], DatabaseError) @skipUnlessDBFeature('has_select_for_update') def test_transaction_dirty_managed(self): """ Check that a select_for_update sets the transaction to be dirty when executed under txn management. Setting the txn dirty means that it will be either committed or rolled back by Django, which will release any locks held by the SELECT FOR UPDATE. """ people = list(Person.objects.select_for_update()) self.assertTrue(transaction.is_dirty()) @skipUnlessDBFeature('has_select_for_update') def test_select_for_update_on_multidb(self): old_routers = router.routers try: router.routers = [TestRouter()] query = Person.objects.select_for_update() self.assertEqual(router.db_for_write(Person), query.db) finally: router.routers = old_routers