Exemplo n.º 1
0
 def test_run_with_squashed(self):
     """
     Tests running a squashed migration from zero (should ignore what it replaces)
     """
     executor = MigrationExecutor(connection)
     # Check our leaf node is the squashed one
     leaves = [key for key in executor.loader.graph.leaf_nodes() if key[0] == "migrations"]
     self.assertEqual(leaves, [("migrations", "0001_squashed_0002")])
     # Check the plan
     plan = executor.migration_plan([("migrations", "0001_squashed_0002")])
     self.assertEqual(plan, [(executor.loader.graph.nodes["migrations", "0001_squashed_0002"], False)])
     # Were the tables there before?
     self.assertTableNotExists("migrations_author")
     self.assertTableNotExists("migrations_book")
     # Alright, let's try running it
     executor.migrate([("migrations", "0001_squashed_0002")])
     # Are the tables there now?
     self.assertTableExists("migrations_author")
     self.assertTableExists("migrations_book")
     # Rebuild the graph to reflect the new DB state
     executor.loader.build_graph()
     # Alright, let's undo what we did. Should also just use squashed.
     plan = executor.migration_plan([("migrations", None)])
     self.assertEqual(plan, [(executor.loader.graph.nodes["migrations", "0001_squashed_0002"], True)])
     executor.migrate([("migrations", None)])
     # Are the tables gone?
     self.assertTableNotExists("migrations_author")
     self.assertTableNotExists("migrations_book")
Exemplo n.º 2
0
 def handle(self, addrport, **kwargs):
     # In auto-reload mode, migrations will be re-made and the server will be reloaded (fixtures are not reloaded)
     for app in apps.get_app_configs():
         if app.name in settings.SCAPL_INSTALLED_APPS:
             call_command('makemigrations', app.label, interactive=False)
     call_command('migrate')
     try:
         executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
         executor.migration_plan(executor.loader.graph.leaf_nodes())
     except Exception as e:
         logger.error("Something failed with migrations execution")
         for l in str(e).split():
             logger.error(l)
         return
     if os.environ.get('RUN_MAIN') != 'true' and kwargs.get('fixtures'):
         dir = settings.SMUGGLER_FIXTURE_DIR
         for fn in sorted([f for f in os.listdir(dir) if f.endswith('.json')]):
             fixture = os.path.join(dir, fn)
             print("{}, ".format(fixture)),
             try:
                 call_command('loaddata', fixture, ignorenonexistent=True)
             except Exception as e:
                 print("No fixture loaded")
                 if isinstance(e, TypeError):
                     logger.warning("   +---> Please refer to 'BUGFIX' in the 'data' folder for this kind of error")
                 else:
                     with open(fixture) as f:
                         if f.read().strip(" \n[]") == "":
                             logger.warning("   +---> This fixture is emtpy")
     call_command('runserver', addrport)
Exemplo n.º 3
0
    def test_empty_plan(self):
        """
        Tests that re-planning a full migration of a fully-migrated set doesn't
        perform spurious unmigrations and remigrations.

        There was previously a bug where the executor just always performed the
        backwards plan for applied migrations - which even for the most recent
        migration in an app, might include other, dependent apps, and these
        were being unmigrated.
        """
        # Make the initial plan, check it
        # We use 'sessions' here as the second app as it's always present
        # in INSTALLED_APPS, so we can happily assign it test migrations.
        executor = MigrationExecutor(connection)
        plan = executor.migration_plan([("migrations", "0002_second"), ("sessions", "0001_initial")])
        self.assertEqual(
            plan,
            [
                (executor.loader.graph.nodes["migrations", "0001_initial"], False),
                (executor.loader.graph.nodes["migrations", "0002_second"], False),
                (executor.loader.graph.nodes["sessions", "0001_initial"], False),
            ],
        )
        # Fake-apply all migrations
        executor.migrate([("migrations", "0002_second"), ("sessions", "0001_initial")], fake=True)
        # Rebuild the graph to reflect the new DB state
        executor.loader.build_graph()
        # Now plan a second time and make sure it's empty
        plan = executor.migration_plan([("migrations", "0002_second"), ("sessions", "0001_initial")])
        self.assertEqual(plan, [])
        # Erase all the fake records
        executor.recorder.flush()
Exemplo n.º 4
0
    def test_soft_apply(self):
        """
        Tests detection of initial migrations already having been applied.
        """
        state = {"faked": None}

        def fake_storer(phase, migration=None, fake=None):
            state["faked"] = fake
        executor = MigrationExecutor(connection, progress_callback=fake_storer)
        # Were the tables there before?
        self.assertTableNotExists("migrations_author")
        self.assertTableNotExists("migrations_tribble")
        # Run it normally
        self.assertEqual(
            executor.migration_plan([("migrations", "0001_initial")]),
            [
                (executor.loader.graph.nodes["migrations", "0001_initial"], False),
            ],
        )
        executor.migrate([("migrations", "0001_initial")])
        # Are the tables there now?
        self.assertTableExists("migrations_author")
        self.assertTableExists("migrations_tribble")
        # We shouldn't have faked that one
        self.assertEqual(state["faked"], False)
        # Rebuild the graph to reflect the new DB state
        executor.loader.build_graph()
        # Fake-reverse that
        executor.migrate([("migrations", None)], fake=True)
        # Are the tables still there?
        self.assertTableExists("migrations_author")
        self.assertTableExists("migrations_tribble")
        # Make sure that was faked
        self.assertEqual(state["faked"], True)
        # Finally, migrate forwards; this should fake-apply our initial migration
        executor.loader.build_graph()
        self.assertEqual(
            executor.migration_plan([("migrations", "0001_initial")]),
            [
                (executor.loader.graph.nodes["migrations", "0001_initial"], False),
            ],
        )
        # Applying the migration should raise a database level error
        # because we haven't given the --fake-initial option
        with self.assertRaises(DatabaseError):
            executor.migrate([("migrations", "0001_initial")])
        # Reset the faked state
        state = {"faked": None}
        # Allow faking of initial CreateModel operations
        executor.migrate([("migrations", "0001_initial")], fake_initial=True)
        self.assertEqual(state["faked"], True)
        # And migrate back to clean up the database
        executor.loader.build_graph()
        executor.migrate([("migrations", None)])
        self.assertTableNotExists("migrations_author")
        self.assertTableNotExists("migrations_tribble")
Exemplo n.º 5
0
    def test_mixed_plan_not_supported(self):
        """
        Although the MigrationExecutor interfaces allows for mixed migration
        plans (combined forwards and backwards migrations) this is not
        supported.
        """
        # Prepare for mixed plan
        executor = MigrationExecutor(connection)
        plan = executor.migration_plan([("migrations", "0002_second")])
        self.assertEqual(
            plan,
            [
                (executor.loader.graph.nodes["migrations", "0001_initial"], False),
                (executor.loader.graph.nodes["migrations", "0002_second"], False),
            ],
        )
        executor.migrate(None, plan)
        # Rebuild the graph to reflect the new DB state
        executor.loader.build_graph()
        self.assertIn(('migrations', '0001_initial'), executor.loader.applied_migrations)
        self.assertIn(('migrations', '0002_second'), executor.loader.applied_migrations)
        self.assertNotIn(('migrations2', '0001_initial'), executor.loader.applied_migrations)

        # Generate mixed plan
        plan = executor.migration_plan([
            ("migrations", None),
            ("migrations2", "0001_initial"),
        ])
        msg = (
            'Migration plans with both forwards and backwards migrations are '
            'not supported. Please split your migration process into separate '
            'plans of only forwards OR backwards migrations.'
        )
        with self.assertRaisesMessage(InvalidMigrationPlan, msg) as cm:
            executor.migrate(None, plan)
        self.assertEqual(
            cm.exception.args[1],
            [
                (executor.loader.graph.nodes["migrations", "0002_second"], True),
                (executor.loader.graph.nodes["migrations", "0001_initial"], True),
                (executor.loader.graph.nodes["migrations2", "0001_initial"], False),
            ],
        )
        # Rebuild the graph to reflect the new DB state
        executor.loader.build_graph()
        executor.migrate([
            ("migrations", None),
            ("migrations2", None),
        ])
        # Are the tables gone?
        self.assertTableNotExists("migrations_author")
        self.assertTableNotExists("migrations_book")
        self.assertTableNotExists("migrations2_otherauthor")
Exemplo n.º 6
0
    def test_empty_plan(self):
        """
        Re-planning a full migration of a fully-migrated set doesn't
        perform spurious unmigrations and remigrations.

        There was previously a bug where the executor just always performed the
        backwards plan for applied migrations - which even for the most recent
        migration in an app, might include other, dependent apps, and these
        were being unmigrated.
        """
        # Make the initial plan, check it
        executor = MigrationExecutor(connection)
        plan = executor.migration_plan([
            ("migrations", "0002_second"),
            ("migrations2", "0001_initial"),
        ])
        self.assertEqual(
            plan,
            [
                (executor.loader.graph.nodes["migrations", "0001_initial"], False),
                (executor.loader.graph.nodes["migrations", "0002_second"], False),
                (executor.loader.graph.nodes["migrations2", "0001_initial"], False),
            ],
        )
        # Fake-apply all migrations
        executor.migrate([
            ("migrations", "0002_second"),
            ("migrations2", "0001_initial")
        ], fake=True)
        # Rebuild the graph to reflect the new DB state
        executor.loader.build_graph()
        # Now plan a second time and make sure it's empty
        plan = executor.migration_plan([
            ("migrations", "0002_second"),
            ("migrations2", "0001_initial"),
        ])
        self.assertEqual(plan, [])
        # The resulting state should include applied migrations.
        state = executor.migrate([
            ("migrations", "0002_second"),
            ("migrations2", "0001_initial"),
        ])
        self.assertIn(('migrations', 'book'), state.models)
        self.assertIn(('migrations', 'author'), state.models)
        self.assertIn(('migrations2', 'otherauthor'), state.models)
        # Erase all the fake records
        executor.recorder.record_unapplied("migrations2", "0001_initial")
        executor.recorder.record_unapplied("migrations", "0002_second")
        executor.recorder.record_unapplied("migrations", "0001_initial")
Exemplo n.º 7
0
    def check_migrations(self):
        """
        Checks to see if the set of migrations on disk matches the
        migrations in the database. Prints a warning if they don't match.
        """
        try:
            executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
        except ImproperlyConfigured:
            # No databases are configured (or the dummy one)
            return
        except MigrationSchemaMissing:
            self.stdout.write(
                self.style.NOTICE(
                    "\nNot checking migrations as it is not possible to access/create the django_migrations table."
                )
            )
            return

        plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
        if plan:
            self.stdout.write(
                self.style.NOTICE(
                    "\nYou have unapplied migrations; your app may not work properly until they are applied."
                )
            )
            self.stdout.write(self.style.NOTICE("Run 'python manage.py migrate' to apply them.\n"))
Exemplo n.º 8
0
    def test_backwards_deps(self):
        """
        #23474 - Migrating backwards shouldn't cause the wrong migrations to be
        unapplied.

        Migration dependencies (x -> y === y depends on x):
        m.0001 -+-> m.0002
                +-> m2.0001

        1) Migrate m2 to 0001, causing { m.0001, m2.0002 } to be applied.
        2) Migrate m to 0001. m.0001 has already been applied, so this should
           be a noop.
        """
        executor = MigrationExecutor(connection)
        executor.migrate([("migrations2", "0001_initial")])
        try:
            self.assertTableExists("migrations2_example")
            # Rebuild the graph to reflect the new DB state
            executor.loader.build_graph()
            self.assertEqual(
                executor.migration_plan([("migrations", "0001_initial")]),
                [],
            )
            executor.migrate([("migrations", "0001_initial")])
            self.assertTableExists("migrations2_example")
        finally:
            # And migrate back to clean up the database
            executor.loader.build_graph()
            executor.migrate([("migrations", None)])
            self.assertTableNotExists("migrations_author")
            self.assertTableNotExists("migrations_tribble")
Exemplo n.º 9
0
    def check_migrations(self):
        """
        Checks to see if the set of migrations on disk matches the
        migrations in the database. Prints a warning if they don't match.
        """
        try:
            executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
        except ImproperlyConfigured:
            # No databases are configured (or the dummy one)
            return
        except MigrationSchemaMissing:
            self.stdout.write(
                self.style.NOTICE(
                    "\nNot checking migrations as it is not possible to access/create the django_migrations table."
                )
            )
            return

        plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
        if plan:
            apps_waiting_migration = sorted(set(migration.app_label for migration, backwards in plan))
            self.stdout.write(
                self.style.NOTICE(
                    "\nYou have %(unpplied_migration_count)s unapplied migration(s). "
                    "Your project may not work properly until you apply the "
                    "migrations for app(s): %(apps_waiting_migration)s."
                    % {
                        "unpplied_migration_count": len(plan),
                        "apps_waiting_migration": ", ".join(apps_waiting_migration),
                    }
                )
            )
            self.stdout.write(self.style.NOTICE("Run 'python manage.py migrate' to apply them.\n"))
Exemplo n.º 10
0
    def check_migrations(self):
        """
        Print a warning if the set of migrations on disk don't match the
        migrations in the database.
        """
        from django.db.migrations.executor import MigrationExecutor
        try:
            executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
        except ImproperlyConfigured:
            # No databases are configured (or the dummy one)
            return

        plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
        if plan:
            apps_waiting_migration = sorted({migration.app_label for migration, backwards in plan})
            self.stdout.write(
                self.style.NOTICE(
                    "\nYou have %(unpplied_migration_count)s unapplied migration(s). "
                    "Your project may not work properly until you apply the "
                    "migrations for app(s): %(apps_waiting_migration)s." % {
                        "unpplied_migration_count": len(plan),
                        "apps_waiting_migration": ", ".join(apps_waiting_migration),
                    }
                )
            )
            self.stdout.write(self.style.NOTICE("Run 'python manage.py migrate' to apply them.\n"))
Exemplo n.º 11
0
 def test_run(self):
     """
     Tests running a simple set of migrations.
     """
     executor = MigrationExecutor(connection)
     executor.recorder.flush()
     # Let's look at the plan first and make sure it's up to scratch
     plan = executor.migration_plan([("migrations", "0002_second")])
     self.assertEqual(
         plan,
         [
             (executor.loader.graph.nodes["migrations", "0001_initial"], False),
             (executor.loader.graph.nodes["migrations", "0002_second"], False),
         ],
     )
     # Were the tables there before?
     self.assertNotIn("migrations_author", connection.introspection.get_table_list(connection.cursor()))
     self.assertNotIn("migrations_book", connection.introspection.get_table_list(connection.cursor()))
     # Alright, let's try running it
     executor.migrate([("migrations", "0002_second")])
     # Are the tables there now?
     self.assertIn("migrations_author", connection.introspection.get_table_list(connection.cursor()))
     self.assertIn("migrations_book", connection.introspection.get_table_list(connection.cursor()))
     # Alright, let's undo what we did
     executor.migrate([("migrations", None)])
     # Are the tables gone?
     self.assertNotIn("migrations_author", connection.introspection.get_table_list(connection.cursor()))
     self.assertNotIn("migrations_book", connection.introspection.get_table_list(connection.cursor()))
Exemplo n.º 12
0
    def test_minimize_rollbacks(self):
        """
        Minimize unnecessary rollbacks in connected apps.

        When you say "./manage.py migrate appA 0001", rather than migrating to
        just after appA-0001 in the linearized migration plan (which could roll
        back migrations in other apps that depend on appA 0001, but don't need
        to be rolled back since we're not rolling back appA 0001), we migrate
        to just before appA-0002.
        """
        a1_impl = FakeMigration('a1')
        a1 = ('a', '1')
        a2_impl = FakeMigration('a2')
        a2 = ('a', '2')
        b1_impl = FakeMigration('b1')
        b1 = ('b', '1')
        graph = MigrationGraph()
        graph.add_node(a1, a1_impl)
        graph.add_node(a2, a2_impl)
        graph.add_node(b1, b1_impl)
        graph.add_dependency(None, b1, a1)
        graph.add_dependency(None, a2, a1)

        executor = MigrationExecutor(None)
        executor.loader = FakeLoader(graph, {a1, b1, a2})

        plan = executor.migration_plan({a1})

        self.assertEqual(plan, [(a2_impl, True)])
Exemplo n.º 13
0
Arquivo: run.py Projeto: devunt/ika
def main():
    if len(sys.argv) == 1:
        print("Usage: ./run.py run")
        return

    if sys.argv[1] in ('makemigrations', 'runserver',):
        execute_from_command_line(sys.argv)
    elif sys.argv[1] == 'run':
        from django.db.migrations.executor import MigrationExecutor

        connection = connections[DEFAULT_DB_ALIAS]
        connection.prepare_database()
        executor = MigrationExecutor(connection)
        plan = executor.migration_plan(executor.loader.graph.leaf_nodes())

        if len(plan) > 0:
            print('Synchronizing database schemas...')
            call_command('migrate')
            print()
            print('Starting application...')

        loop = asyncio.get_event_loop()

        ika = Server()
        ika.register_services()

        try:
            loop.run_until_complete(ika.connect())
        except KeyboardInterrupt:
            ika.disconnect('Manually interrupted by console access')
        except:
            ika.disconnect('Exception has occured in the main loop')
            logger.exception('Exception has occured in the main loop')
        finally:
            loop.close()
Exemplo n.º 14
0
    def test_backwards_nothing_to_do(self):
        """
        If the current state satisfies the given target, do nothing.

        a: 1 <--- 2
        b:    \- 1
        c:     \- 1

        If a1 is applied already and a2 is not, and we're asked to migrate to
        a1, don't apply or unapply b1 or c1, regardless of their current state.
        """
        a1_impl = FakeMigration('a1')
        a1 = ('a', '1')
        a2_impl = FakeMigration('a2')
        a2 = ('a', '2')
        b1_impl = FakeMigration('b1')
        b1 = ('b', '1')
        c1_impl = FakeMigration('c1')
        c1 = ('c', '1')
        graph = MigrationGraph()
        graph.add_node(a1, a1_impl)
        graph.add_node(a2, a2_impl)
        graph.add_node(b1, b1_impl)
        graph.add_node(c1, c1_impl)
        graph.add_dependency(None, a2, a1)
        graph.add_dependency(None, b1, a1)
        graph.add_dependency(None, c1, a1)

        executor = MigrationExecutor(None)
        executor.loader = FakeLoader(graph, {a1, b1})

        plan = executor.migration_plan({a1})

        self.assertEqual(plan, [])
Exemplo n.º 15
0
def get_database_info(database=DEFAULT_DB_ALIAS):
    connection = connections[database]
    connection.prepare_database()
    executor = MigrationExecutor(connection)
    targets = executor.loader.graph.leaf_nodes()
    is_synchronized = False if executor.migration_plan(targets) else True
    return {
        'is_database_synchronized': is_synchronized,
        'postgres_version': str(parse_pg_version(connection.pg_version)),
    }
Exemplo n.º 16
0
 def check_migrations(self):
     """
     Checks to see if the set of migrations on disk matches the
     migrations in the database. Prints a warning if they don't match.
     """
     executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
     plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
     if plan and self.show_startup_messages:
         self.stdout.write(self.style.NOTICE("\nYou have unapplied migrations; your app may not work properly until they are applied."))
         self.stdout.write(self.style.NOTICE("Run 'python manage.py migrate' to apply them.\n"))
Exemplo n.º 17
0
 def handle(self, addrport, **kwargs):
     if kwargs.get('reload') or os.environ.get('RUN_MAIN') != 'true':
         call_command('remove-expirables')
         for db_file in [x['NAME'] for x in settings.DATABASES.values()]:
             try:
                 os.remove(db_file)
                 logger.info("Removed {}".format(db_file))
             except OSError:  # if the DB was already removed, simply pass
                 pass
         for app in apps.get_app_configs():
             if app.name in settings.SCAPL_INSTALLED_APPS:
                 try:
                     shutil.rmtree(os.path.join('./apps', app.label, 'migrations'))
                     logger.info("Removed migrations of app '{}'".format(app.label))
                 except OSError:
                     pass
     # In auto-reload mode, migrations will be re-made and the server will be reloaded (fixtures are not reloaded)
     for app in apps.get_app_configs():
         if app.name in settings.SCAPL_INSTALLED_APPS:
             call_command('makemigrations', app.label)
     call_command('migrate')
     try:
         executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
         executor.migration_plan(executor.loader.graph.leaf_nodes())
     except:
         return
     if kwargs.get('reload') or os.environ.get('RUN_MAIN') != 'true':
         dir = settings.SMUGGLER_FIXTURE_DIR
         for fn in sorted([f for f in os.listdir(dir) if f.endswith('.json')]):
             fixture = os.path.join(dir, fn)
             print("{}, ".format(fixture)),
             try:
                 call_command('loaddata', fixture, ignorenonexistent=True)
             except Exception as e:
                 print("No fixture loaded")
                 if isinstance(e, TypeError):
                     logger.warning("   +---> Please refer to 'BUGFIX' in the 'data' folder for this kind of error")
                 else:
                     with open(fixture) as f:
                         if f.read().strip(" \n[]") == "":
                             logger.warning("   +---> This fixture is emtpy")
     call_command('runserver', addrport)
Exemplo n.º 18
0
 def handle(self, *args, **options):
     connection = connections[DEFAULT_DB_ALIAS]
     connection.prepare_database()
     executor = MigrationExecutor(connection)
     targets = executor.loader.graph.leaf_nodes()
     unapplied_migrations = executor.migration_plan(targets)
     if unapplied_migrations:
         self.stdout.write('The following migrations are unapplied:', self.style.ERROR)
         for migration in unapplied_migrations:
             self.stdout.write('  {}.{}'.format(migration[0].app_label, migration[0].name), self.style.MIGRATE_LABEL)
         sys.exit(1)
     self.stdout.write('All migrations have been applied. Have a nice day!', self.style.SUCCESS)
Exemplo n.º 19
0
    def test_minimize_rollbacks_branchy(self):
        r"""
        Minimize rollbacks when target has multiple in-app children.

        a: 1 <---- 3 <--\
              \ \- 2 <--- 4
               \       \
        b:      \- 1 <--- 2
        """
        a1_impl = FakeMigration('a1')
        a1 = ('a', '1')
        a2_impl = FakeMigration('a2')
        a2 = ('a', '2')
        a3_impl = FakeMigration('a3')
        a3 = ('a', '3')
        a4_impl = FakeMigration('a4')
        a4 = ('a', '4')
        b1_impl = FakeMigration('b1')
        b1 = ('b', '1')
        b2_impl = FakeMigration('b2')
        b2 = ('b', '2')
        graph = MigrationGraph()
        graph.add_node(a1, a1_impl)
        graph.add_node(a2, a2_impl)
        graph.add_node(a3, a3_impl)
        graph.add_node(a4, a4_impl)
        graph.add_node(b1, b1_impl)
        graph.add_node(b2, b2_impl)
        graph.add_dependency(None, a2, a1)
        graph.add_dependency(None, a3, a1)
        graph.add_dependency(None, a4, a2)
        graph.add_dependency(None, a4, a3)
        graph.add_dependency(None, b2, b1)
        graph.add_dependency(None, b1, a1)
        graph.add_dependency(None, b2, a2)

        executor = MigrationExecutor(None)
        executor.loader = FakeLoader(graph, {
            a1: a1_impl,
            b1: b1_impl,
            a2: a2_impl,
            b2: b2_impl,
            a3: a3_impl,
            a4: a4_impl,
        })

        plan = executor.migration_plan({a1})

        should_be_rolled_back = [b2_impl, a4_impl, a2_impl, a3_impl]
        exp = [(m, True) for m in should_be_rolled_back]
        self.assertEqual(plan, exp)
Exemplo n.º 20
0
 def test_run(self):
     """
     Tests running a simple set of migrations.
     """
     executor = MigrationExecutor(connection)
     executor.recorder.flush()
     # Let's look at the plan first and make sure it's up to scratch
     plan = executor.migration_plan([("migrations", "0002_second")])
     self.assertEqual(
         plan,
         [
             (executor.loader.graph.nodes["migrations", "0001_initial"], False),
             (executor.loader.graph.nodes["migrations", "0002_second"], False),
         ],
     )
     # Were the tables there before?
     self.assertTableNotExists("migrations_author")
     self.assertTableNotExists("migrations_book")
     # Alright, let's try running it
     executor.migrate([("migrations", "0002_second")])
     # Are the tables there now?
     self.assertTableExists("migrations_author")
     self.assertTableExists("migrations_book")
     # Rebuild the graph to reflect the new DB state
     executor.loader.build_graph()
     # Alright, let's undo what we did
     plan = executor.migration_plan([("migrations", None)])
     self.assertEqual(
         plan,
         [
             (executor.loader.graph.nodes["migrations", "0002_second"], True),
             (executor.loader.graph.nodes["migrations", "0001_initial"], True),
         ],
     )
     executor.migrate([("migrations", None)])
     # Are the tables gone?
     self.assertTableNotExists("migrations_author")
     self.assertTableNotExists("migrations_book")
Exemplo n.º 21
0
    def test_minimize_rollbacks_branchy(self):
        """
        Minimize rollbacks when target has multiple in-app children.

        a: 1 <---- 3 <--\
              \ \- 2 <--- 4
               \       \
        b:      \- 1 <--- 2
        """
        a1_impl = FakeMigration("a1")
        a1 = ("a", "1")
        a2_impl = FakeMigration("a2")
        a2 = ("a", "2")
        a3_impl = FakeMigration("a3")
        a3 = ("a", "3")
        a4_impl = FakeMigration("a4")
        a4 = ("a", "4")
        b1_impl = FakeMigration("b1")
        b1 = ("b", "1")
        b2_impl = FakeMigration("b2")
        b2 = ("b", "2")
        graph = MigrationGraph()
        graph.add_node(a1, a1_impl)
        graph.add_node(a2, a2_impl)
        graph.add_node(a3, a3_impl)
        graph.add_node(a4, a4_impl)
        graph.add_node(b1, b1_impl)
        graph.add_node(b2, b2_impl)
        graph.add_dependency(None, a2, a1)
        graph.add_dependency(None, a3, a1)
        graph.add_dependency(None, a4, a2)
        graph.add_dependency(None, a4, a3)
        graph.add_dependency(None, b2, b1)
        graph.add_dependency(None, b1, a1)
        graph.add_dependency(None, b2, a2)

        executor = MigrationExecutor(None)
        executor.loader = FakeLoader(graph, {a1, b1, a2, b2, a3, a4})

        plan = executor.migration_plan({a1})

        should_be_rolled_back = [b2_impl, a4_impl, a2_impl, a3_impl]
        exp = [(m, True) for m in should_be_rolled_back]
        self.assertEqual(plan, exp)
Exemplo n.º 22
0
def check_migrations(app_configs=None, **kwargs):
    """
    Checks to see if the set of migrations on disk matches the
    migrations in the database. Prints a warning if they don't match.
    """
    from django.db import connections, DEFAULT_DB_ALIAS
    from django.db.migrations.executor import MigrationExecutor

    errors = []
    plan = None
    if settings.DATABASES:
        executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
        plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
    if plan:
        errors.append(
            Warning(
                "You have unapplied migrations; "
                "your app may not work properly until they are applied.",
                hint="Run 'python manage.py migrate' to apply them.",
            )
        )
    return errors
Exemplo n.º 23
0
def is_database_synchronized(database):
    connection = connections[database]
    connection.connect()
    executor = MigrationExecutor(connection)
    targets = executor.loader.graph.leaf_nodes()
    return False if executor.migration_plan(targets) else True
    def handle(self, *args, **options):

        self.branch = options['branch']
        self.verbosity = options['verbosity']
        self.interactive = options['interactive']

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        db = options['database']
        connection = connections[db]

        # Hook for backends needing any database preparation
        connection.prepare_database()
        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection,
                                     self.migration_progress_callback)

        # Raise an error if any migrations are applied before their dependencies.
        executor.loader.check_consistent_history(connection)

        targets = []
        migrations = {}
        migration_paths = self.get_diff_migrations()

        # Group diff migrations by app_label
        for p in migration_paths:
            app_label = p.parts[0]
            if app_label not in migrations:
                # Validate app_label.
                try:
                    apps.get_app_config(app_label)
                except LookupError as err:
                    raise CommandError(str(err))
                migrations[app_label] = []
            migrations[app_label].append(p.stem)

        # Get last applied migration for each app
        for app_label, migration_names in migrations.items():
            mr = MigrationRecorder.Migration.objects.filter(app=app_label)

            # Skip if already unapplied
            if not mr.filter(name__in=migration_names).count():
                continue

            mr = mr.exclude(
                name__in=migration_names).order_by('applied').last()
            if mr:
                targets.append((app_label, mr.name))

        if not targets:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to unapply.")
            return

        plan = executor.migration_plan(targets)

        if options['plan']:
            self.stdout.write('Planned operations:', self.style.MIGRATE_LABEL)
            if not plan:
                self.stdout.write('  No planned migration operations.')
            for migration, backwards in plan:
                self.stdout.write(str(migration), self.style.MIGRATE_HEADING)
                for operation in migration.operations:
                    message, is_error = self.describe_operation(
                        operation, backwards)
                    style = self.style.WARNING if is_error else None
                    self.stdout.write('    ' + message, style)
            return

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Operations to perform:"))
            for app_label, migration_name in targets:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Target specific migration: ") +
                    "%s, from %s" % (app_label, migration_name))

        # noinspection PyProtectedMember
        pre_migrate_state = executor._create_project_state(
            with_applied_migrations=True)
        pre_migrate_apps = pre_migrate_state.apps
        emit_pre_migrate_signal(
            self.verbosity,
            self.interactive,
            connection.alias,
            apps=pre_migrate_apps,
            plan=plan,
        )

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Running migrations:"))

        if not plan:
            fake = False
            fake_initial = False
        else:
            fake = options['fake']
            fake_initial = options['fake_initial']

        post_migrate_state = executor.migrate(
            targets,
            plan=plan,
            state=pre_migrate_state.clone(),
            fake=fake,
            fake_initial=fake_initial,
        )
        # post_migrate signals have access to all models. Ensure that all models
        # are reloaded in case any are delayed.
        post_migrate_state.clear_delayed_apps_cache()
        post_migrate_apps = post_migrate_state.apps

        # Re-render models of real apps to include relationships now that
        # we've got a final state. This wouldn't be necessary if real apps
        # models were rendered with relationships in the first place.
        with post_migrate_apps.bulk_update():
            model_keys = []
            for model_state in post_migrate_apps.real_models:
                model_key = model_state.app_label, model_state.name_lower
                model_keys.append(model_key)
                post_migrate_apps.unregister_model(*model_key)
        post_migrate_apps.render_multiple([
            ModelState.from_model(apps.get_model(*model))
            for model in model_keys
        ])

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(
            self.verbosity,
            self.interactive,
            connection.alias,
            apps=post_migrate_apps,
            plan=plan,
        )
Exemplo n.º 25
0
def healthcheck(request):
    executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
    plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
    status = 503 if plan else 200
    return HttpResponse(status=status)
Exemplo n.º 26
0
    def handle(self, app_label, migration_name, *args, **options):
        self.verbosity = options.get('verbosity')
        interactive = options.get('interactive')
        record = options.get('record')

        connection = connections[DEFAULT_DB_ALIAS]
        connection.prepare_database()
        executor = MigrationExecutor(connection, None)

        # before anything else, see if there's conflicting apps and drop out hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join("%s in %s" % (", ".join(names), app)
                                 for app, names in conflicts.items())
            raise CommandError(
                "Conflicting migrations detected (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str)

        if app_label not in executor.loader.migrated_apps:
            raise CommandError(
                "App '%s' does not have migrations (you cannot selectively sync unmigrated apps)"
                % app_label)
        try:
            migration = executor.loader.get_migration_by_prefix(
                app_label, migration_name)
        except AmbiguityError:
            raise CommandError(
                "More than one migration matches '%s' in app '%s'. Please be more specific."
                % (migration_name, app_label))
        except KeyError:
            raise CommandError(
                "Cannot find a migration matching '%s' from app '%s'." %
                (migration_name, app_label))

        migration_module = import_module(migration.__module__)

        # check migration can be run offline
        apply_function = getattr(migration_module, APPLY_FUNCTION, None)
        if not apply_function or not callable(apply_function):
            raise CommandError(
                "Migration %s does not contain function named '%s'" %
                (migration, APPLY_FUNCTION))

        plan = executor.migration_plan([(app_label, migration.name)])
        if record and not plan:
            raise CommandError("Migration %s has already been applied" %
                               migration)

        emit_pre_migrate_signal(self.verbosity, interactive, connection.alias)

        self.stdout.write(self.style.MIGRATE_HEADING("Operations to perform:"))
        self.stdout.write("  Manually apply migration %s" % migration)
        if record:
            self.stdout.write("  Record migration %s as applied" % migration)
        self.stdout.write(self.style.MIGRATE_HEADING("Manual migration:"))

        self.apply_migration(migration, apply_function)

        if record:
            self.record_migration(migration, executor)

        # send the post_migrate signal, so individual apps can do whatever they need to do at this point.
        emit_post_migrate_signal(self.verbosity, interactive, connection.alias)
Exemplo n.º 27
0
    def handle(self, *args, **options):
        database = options['database']
        if not options['skip_checks']:
            self.check(databases=[database])

        self.verbosity = options['verbosity']
        self.interactive = options['interactive']

        # Import the 'management' module within each installed BLOG, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        connection = connections[database]

        # Hook for backends needing any database preparation
        connection.prepare_database()
        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection, self.migration_progress_callback)

        # Raise an error if any migrations are applied before their dependencies.
        executor.loader.check_consistent_history(connection)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join(
                "%s in %s" % (", ".join(names), app)
                for app, names in conflicts.items()
            )
            raise CommandError(
                "Conflicting migrations detected; multiple leaf nodes in the "
                "migration graph: (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str
            )

        # If they supplied command line arguments, work out what they mean.
        run_syncdb = options['run_syncdb']
        target_app_labels_only = True
        if options['app_label']:
            # Validate app_label.
            app_label = options['app_label']
            try:
                apps.get_app_config(app_label)
            except LookupError as err:
                raise CommandError(str(err))
            if run_syncdb:
                if app_label in executor.loader.migrated_apps:
                    raise CommandError("Can't use run_syncdb with BLOG '%s' as it has migrations." % app_label)
            elif app_label not in executor.loader.migrated_apps:
                raise CommandError("App '%s' does not have migrations." % app_label)

        if options['app_label'] and options['migration_name']:
            migration_name = options['migration_name']
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in BLOG '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label)
                    )
                except KeyError:
                    raise CommandError("Cannot find a migration matching '%s' from BLOG '%s'." % (
                        migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            targets = [key for key in executor.loader.graph.leaf_nodes() if key[0] == app_label]
        else:
            targets = executor.loader.graph.leaf_nodes()

        plan = executor.migration_plan(targets)
        exit_dry = plan and options['check_unapplied']

        if options['plan']:
            self.stdout.write('Planned operations:', self.style.MIGRATE_LABEL)
            if not plan:
                self.stdout.write('  No planned migration operations.')
            for migration, backwards in plan:
                self.stdout.write(str(migration), self.style.MIGRATE_HEADING)
                for operation in migration.operations:
                    message, is_error = self.describe_operation(operation, backwards)
                    style = self.style.WARNING if is_error else None
                    self.stdout.write('    ' + message, style)
            if exit_dry:
                sys.exit(1)
            return
        if exit_dry:
            sys.exit(1)

        # At this point, ignore run_syncdb if there aren't any apps to sync.
        run_syncdb = options['run_syncdb'] and executor.loader.unmigrated_apps
        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                if options['app_label']:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL("  Synchronize unmigrated BLOG: %s" % app_label)
                    )
                else:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ") +
                        (", ".join(sorted(executor.loader.unmigrated_apps)))
                    )
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(sorted({a for a, n in targets})) or "(none)")
                )
            else:
                if targets[0][1] is None:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL('  Unapply all migrations: ') +
                        str(targets[0][0])
                    )
                else:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Target specific migration: ") + "%s, from %s"
                        % (targets[0][1], targets[0][0])
                    )

        pre_migrate_state = executor._create_project_state(with_applied_migrations=True)
        pre_migrate_apps = pre_migrate_state.apps
        emit_pre_migrate_signal(
            self.verbosity, self.interactive, connection.alias, apps=pre_migrate_apps, plan=plan,
        )

        # Run the syncdb phase.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(self.style.MIGRATE_HEADING("Synchronizing apps without migrations:"))
            if options['app_label']:
                self.sync_apps(connection, [app_label])
            else:
                self.sync_apps(connection, executor.loader.unmigrated_apps)

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(self.style.NOTICE(
                        "  Your models in BLOG(s): %s have changes that are not "
                        "yet reflected in a migration, and so won't be "
                        "applied." % ", ".join(repr(app) for app in sorted(changes))
                    ))
                    self.stdout.write(self.style.NOTICE(
                        "  Run 'manage.py makemigrations' to make new "
                        "migrations, and then re-run 'manage.py migrate' to "
                        "apply them."
                    ))
            fake = False
            fake_initial = False
        else:
            fake = options['fake']
            fake_initial = options['fake_initial']
        post_migrate_state = executor.migrate(
            targets, plan=plan, state=pre_migrate_state.clone(), fake=fake,
            fake_initial=fake_initial,
        )
        # post_migrate signals have access to all models. Ensure that all models
        # are reloaded in case any are delayed.
        post_migrate_state.clear_delayed_apps_cache()
        post_migrate_apps = post_migrate_state.apps

        # Re-render models of real apps to include relationships now that
        # we've got a final state. This wouldn't be necessary if real apps
        # models were rendered with relationships in the first place.
        with post_migrate_apps.bulk_update():
            model_keys = []
            for model_state in post_migrate_apps.real_models:
                model_key = model_state.app_label, model_state.name_lower
                model_keys.append(model_key)
                post_migrate_apps.unregister_model(*model_key)
        post_migrate_apps.render_multiple([
            ModelState.from_model(apps.get_model(*model)) for model in model_keys
        ])

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(
            self.verbosity, self.interactive, connection.alias, apps=post_migrate_apps, plan=plan,
        )
Exemplo n.º 28
0
    def handle(self, *args, **options):
        # self 是「命令处理对象」
        print('【django.core.management.commands.migrate.Command.handle】args:',
              args)
        #print('【django.core.management.commands.migrate.Command.handle】options:' )
        #for k, v in options.items():
        #    print(f'\t{k:<22}{v}')
        database = options['database']  # 默认值是 'default'
        if not options['skip_checks']:
            # 此方法定义在父类 django.core.management.base.BaseCommand 中
            self.check(databases=[database])

        self.verbosity = options['verbosity']
        self.interactive = options['interactive']

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # connections 是 django.db.utils.ConnectionHandler 类的实例,叫做「数据库连接处理对象」
        # 此处调用其 __getitem__ 方法,返回的是「数据库包装对象」
        # 以 MySQL 为例,其所属类定义在 django.db.backends.mysql.base 模块中
        # 所以下面的 connection 是 django.db.backends.mysql.base.DatabaseWrapper 类的实例
        connection = connections[database]
        print(
            '【django.core.management.commands.migrate.Command.handle】connection:',
            connection)

        # 此方法定义在实例的父类中,是空函数
        connection.prepare_database()

        # 下面这十几行代码用于处理数据版本控制相关的事情

        # 此 MigrationExecutor 类定义在 django.db.migrations.executor 模块中,其实例是「数据库版本迁移执行器」
        # 实例化时提供两个参数,它们分别会被赋值给实例的同名属性:
        # connection 是「数据库包装对象」,这是位置参数
        # process_callback 是可选参数,这里提供的是定义在当前类中的方法
        executor = MigrationExecutor(connection,
                                     self.migration_progress_callback)

        # executor 是「数据库版本迁移执行器」
        # executor.loader 是 django.db.migrations.loader.MigrationLoader 类的实例
        # 该实例的 connection 属性值就是 self
        executor.loader.check_consistent_history(connection)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join("%s in %s" % (", ".join(names), app)
                                 for app, names in conflicts.items())
            raise CommandError(
                "Conflicting migrations detected; multiple leaf nodes in the "
                "migration graph: (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str)
        # If they supplied command line arguments, work out what they mean.
        run_syncdb = options['run_syncdb']
        target_app_labels_only = True
        if options['app_label']:
            # Validate app_label.
            app_label = options['app_label']
            try:
                apps.get_app_config(app_label)
            except LookupError as err:
                raise CommandError(str(err))
            if run_syncdb:
                if app_label in executor.loader.migrated_apps:
                    raise CommandError(
                        "Can't use run_syncdb with app '%s' as it has migrations."
                        % app_label)
            elif app_label not in executor.loader.migrated_apps:
                raise CommandError("App '%s' does not have migrations." %
                                   app_label)

        if options['app_label'] and options['migration_name']:
            migration_name = options['migration_name']
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(
                        app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label))
                except KeyError:
                    raise CommandError(
                        "Cannot find a migration matching '%s' from app '%s'."
                        % (migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            targets = [
                key for key in executor.loader.graph.leaf_nodes()
                if key[0] == app_label
            ]
        else:
            # executor 是 django.db.migrations.executor.MigrationExecutor 类的实例
            # 叫做「数据库版本迁移执行器」
            # executor.loader 是 django.db.migrations.loader.MigrationLoader 类的实例
            # 此实例的 graph 属性值是 django.db.migrations.graph.MigrationGraph 类的实例
            # 调用其 leaf_nodes 获得各个应用中最新版本的迁移文件名
            # targets 是列表,里面是二元元组,类似这样:
            # [('admin', '0003_logentry_add_action_flag_choices'), ...]
            targets = executor.loader.graph.leaf_nodes()
            #print('【django.core.management.commands.migrate.Command.handle】targets:')
            #for i in targets:
            #    print('\t', i)

        # executor 是 django.db.migrations.executor.MigrationExecutor 类的实例
        # 叫做「数据库版本迁移执行器」
        plan = executor.migration_plan(targets)
        exit_dry = plan and options['check_unapplied']

        if options['plan']:
            self.stdout.write('Planned operations:', self.style.MIGRATE_LABEL)
            if not plan:
                self.stdout.write('  No planned migration operations.')
            for migration, backwards in plan:
                self.stdout.write(str(migration), self.style.MIGRATE_HEADING)
                for operation in migration.operations:
                    message, is_error = self.describe_operation(
                        operation, backwards)
                    style = self.style.WARNING if is_error else None
                    self.stdout.write('    ' + message, style)
            if exit_dry:
                sys.exit(1)
            return
        if exit_dry:
            sys.exit(1)

        # At this point, ignore run_syncdb if there aren't any apps to sync.
        run_syncdb = options['run_syncdb'] and executor.loader.unmigrated_apps
        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                if options['app_label']:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Synchronize unmigrated app: %s" % app_label))
                else:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Synchronize unmigrated apps: ") +
                        (", ".join(sorted(executor.loader.unmigrated_apps))))
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(sorted({a
                                       for a, n in targets})) or "(none)"))
            else:
                if targets[0][1] is None:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL('  Unapply all migrations: ')
                        + str(targets[0][0]))
                else:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Target specific migration: ") + "%s, from %s" %
                        (targets[0][1], targets[0][0]))

        pre_migrate_state = executor._create_project_state(
            with_applied_migrations=True)
        pre_migrate_apps = pre_migrate_state.apps
        emit_pre_migrate_signal(
            self.verbosity,
            self.interactive,
            connection.alias,
            apps=pre_migrate_apps,
            plan=plan,
        )

        # Run the syncdb phase.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(
                    self.style.MIGRATE_HEADING(
                        "Synchronizing apps without migrations:"))
            if options['app_label']:
                self.sync_apps(connection, [app_label])
            else:
                self.sync_apps(connection, executor.loader.unmigrated_apps)

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Your models have changes that are not yet reflected "
                            "in a migration, and so won't be applied."))
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Run 'manage.py makemigrations' to make new "
                            "migrations, and then re-run 'manage.py migrate' to "
                            "apply them."))
            fake = False
            fake_initial = False
        else:
            fake = options['fake']
            fake_initial = options['fake_initial']
        # executor 是 django.db.migrations.executor.MigrationExecutor 类的实例,叫做「数据库版本迁移执行器」
        # 参数:
        # targets 列表,里面是类似 ('auth', '0012_alter_user_first_name_max_length') 这样的元组
        # plan 列表,里面是类似 (<Migration auth.0001_initial>, False) 这样的元组
        post_migrate_state = executor.migrate(
            targets,
            plan=plan,
            state=pre_migrate_state.clone(),
            fake=fake,
            fake_initial=fake_initial,
        )
        # post_migrate signals have access to all models. Ensure that all models
        # are reloaded in case any are delayed.
        post_migrate_state.clear_delayed_apps_cache()
        post_migrate_apps = post_migrate_state.apps

        # Re-render models of real apps to include relationships now that
        # we've got a final state. This wouldn't be necessary if real apps
        # models were rendered with relationships in the first place.
        with post_migrate_apps.bulk_update():
            model_keys = []
            for model_state in post_migrate_apps.real_models:
                model_key = model_state.app_label, model_state.name_lower
                model_keys.append(model_key)
                post_migrate_apps.unregister_model(*model_key)
        post_migrate_apps.render_multiple([
            ModelState.from_model(apps.get_model(*model))
            for model in model_keys
        ])

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(
            self.verbosity,
            self.interactive,
            connection.alias,
            apps=post_migrate_apps,
            plan=plan,
        )
Exemplo n.º 29
0
class Migrator(object):
    """
    Class to manage your migrations and app state.

    It is designed to be used inside the tests to ensure that migrations
    are working as intended: both data and schema migrations.

    This class can be but probably should not be used directly.
    Because we have utility test framework
    integrations for ``unitest`` and ``pytest``.

    Use them for better experience.
    """
    def __init__(
        self,
        database: Optional[str] = None,
    ) -> None:
        """That's where we initialize all required internals."""
        if database is None:
            database = DEFAULT_DB_ALIAS

        self._database: str = database
        self._executor = MigrationExecutor(connections[self._database])

    def apply_initial_migration(self, targets: MigrationSpec) -> ProjectState:
        """Reverse back to the original migration."""
        targets = normalize(targets)

        style = no_style()
        # start from clean database state
        sql.drop_models_tables(self._database, style)
        sql.flush_django_migrations_table(self._database, style)

        # prepare as broad plan as possible based on full plan
        self._executor.loader.build_graph()  # reload
        full_plan = self._executor.migration_plan(
            self._executor.loader.graph.leaf_nodes(),
            clean_start=True,
        )
        plan = truncate_plan(targets, full_plan)

        # apply all migrations from generated plan on clean database
        # (only forward, so any unexpected migration won't be applied)
        # to restore database state before tested migration
        return self._migrate(targets, plan=plan)

    def apply_tested_migration(self, targets: MigrationSpec) -> ProjectState:
        """Apply the next migration."""
        self._executor.loader.build_graph()  # reload
        return self._migrate(normalize(targets))

    def reset(self) -> None:
        """Reset the state to the most recent one."""
        call_command('migrate', verbosity=0, database=self._database)

    def _migrate(
        self,
        migration_targets: MigrationSpec,
        plan: Optional[MigrationPlan] = None,
    ) -> ProjectState:
        with _mute_migrate_signals():
            return self._executor.migrate(migration_targets, plan=plan)
Exemplo n.º 30
0
def is_database_synchronized(database=DEFAULT_DB_ALIAS):
    connection = connections[database]
    connection.prepare_database()
    executor = MigrationExecutor(connection)
    targets = executor.loader.graph.leaf_nodes()
    return False if executor.migration_plan(targets) else True
Exemplo n.º 31
0
 def process_request(self, request):
     executor = MigrationExecutor(connection)
     plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
     if bool(plan) and \
             getattr(resolve(request.path), 'url_name', '') != 'migrations_notran':
         return redirect(reverse("ui:migrations_notran"))
Exemplo n.º 32
0
    def handle(self, *args, **options):

        self.verbosity = int(options.get('verbosity'))
        self.interactive = options.get('interactive')
        self.show_traceback = options.get('traceback')
        self.load_initial_data = options.get('load_initial_data')
        self.test_database = options.get('test_database', False)

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_name in settings.INSTALLED_APPS:
            if module_has_submodule(import_module(app_name), "management"):
                import_module('.management', app_name)

        # Get the database we're operating from
        db = options.get('database')
        connection = connections[db]

        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection, self.migration_progress_callback)

        # If they supplied command line arguments, work out what they mean.
        run_syncdb = False
        target_app_labels_only = True
        if len(args) > 2:
            raise CommandError("Too many command-line arguments (expecting 'appname' or 'appname migrationname')")
        elif len(args) == 2:
            app_label, migration_name = args
            if app_label not in executor.loader.migrated_apps:
                raise CommandError("App '%s' does not have migrations (you cannot selectively sync unmigrated apps)" % app_label)
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(app_label, migration_name)
                except AmbiguityError:
                    raise CommandError("More than one migration matches '%s' in app '%s'. Please be more specific." % (app_label, migration_name))
                except KeyError:
                    raise CommandError("Cannot find a migration matching '%s' from app '%s'. Is it in INSTALLED_APPS?" % (app_label, migration_name))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif len(args) == 1:
            app_label = args[0]
            if app_label not in executor.loader.migrated_apps:
                raise CommandError("App '%s' does not have migrations (you cannot selectively sync unmigrated apps)" % app_label)
            targets = [key for key in executor.loader.graph.leaf_nodes() if key[0] == app_label]
        else:
            targets = executor.loader.graph.leaf_nodes()
            run_syncdb = True

        plan = executor.migration_plan(targets)

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                self.stdout.write(self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ") + (", ".join(executor.loader.unmigrated_apps) or "(none)"))
            if target_app_labels_only:
                self.stdout.write(self.style.MIGRATE_LABEL("  Apply all migrations: ") + (", ".join(set(a for a, n in targets)) or "(none)"))
            else:
                if targets[0][1] is None:
                    self.stdout.write(self.style.MIGRATE_LABEL("  Unapply all migrations: ") + "%s" % (targets[0][0], ))
                else:
                    self.stdout.write(self.style.MIGRATE_LABEL("  Target specific migration: ") + "%s, from %s" % (targets[0][1], targets[0][0]))

        # Run the syncdb phase.
        # If you ever manage to get rid of this, I owe you many, many drinks.
        # Note that pre_migrate is called from inside here, as it needs
        # the list of models about to be installed.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(self.style.MIGRATE_HEADING("Synchronizing apps without migrations:"))
            created_models = self.sync_apps(connection, executor.loader.unmigrated_apps)
        else:
            created_models = []

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations needed.")
        else:
            executor.migrate(targets, plan, fake=options.get("fake", False))

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(created_models, self.verbosity, self.interactive, connection.alias)
Exemplo n.º 33
0
 def process_request(self, request):
     executor = MigrationExecutor(connection)
     plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
     if bool(plan) and 'migrations_notran' not in request.path:
         return redirect(reverse("ui:migrations_notran"))
Exemplo n.º 34
0
    def handle(self, *args, **options):

        self.verbosity = options['verbosity']
        self.interactive = options['interactive']

        # @@ TODO あとで。
        # managementを読んで何をしているのか。
        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        logger.debug('options {}'.format(options))
        # @@ 普通は`default`が入っている
        db = options['database']
        # @@ 対応するDBへのコネクションラッパを取得する
        # ConnectionHandler().__getitem__(db)
        # django.db.backends.sqlite3.base.DatabaseWrapper が戻る
        connection = connections[db]
        logger.debug('connection {}'.format(connection))

        # @@ sqlite3では未実装なのでpass
        # 実際のところgisだけっぽい
        # postgisのbaseより。
        #     def prepare_database(self):
        #         super().prepare_database()
        #         # Check that postgis extension is installed.
        #         with self.cursor() as cursor:
        #             cursor.execute("CREATE EXTENSION IF NOT EXISTS postgis")
        connection.prepare_database()

        # Work out which apps have migrations and which do not
        # @@ executorの取得
        # migration_progress_callbackは進捗をstdoutにいい感じにだすための処理
        # DBから状態を取り出し、適用をするクラス
        executor = MigrationExecutor(connection, self.migration_progress_callback)

        # Raise an error if any migrations are applied before their dependencies.
        # @@
        # executor.loaderはMigrationLoader
        # 適用済マイグレーションのツリーの一貫性チェック
        # 適用されているマイグレーションのparentがgraph.nodesにあるかを見ている
        # どこかで辿りきれなくなっているのはまずいので。どこかで流れが変わっている可能性がある
        executor.loader.check_consistent_history(connection)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        # @@ マイグレーションファイルのコンフリクトチェック
        # 同じAppで複数のリーフが存在していないかを見ている
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join(
                "%s in %s" % (", ".join(names), app)
                for app, names in conflicts.items()
            )
            raise CommandError(
                "Conflicting migrations detected; multiple leaf nodes in the "
                "migration graph: (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str
            )

        # If they supplied command line arguments, work out what they mean.
        # @@ app_labelやmigration_nameの対応
        # 該当する部分だけをdisk_migrationから取り出す
        # 未指定なら全部の末端ノードを取り出す
        target_app_labels_only = True
        if options['app_label'] and options['migration_name']:
            app_label, migration_name = options['app_label'], options['migration_name']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations." % app_label
                )
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    # @@
                    # migration_nameは前方一致で単一になればなんでもいい
                    migration = executor.loader.get_migration_by_prefix(app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label)
                    )
                except KeyError:
                    raise CommandError("Cannot find a migration matching '%s' from app '%s'." % (
                        migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            app_label = options['app_label']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations." % app_label
                )
            targets = [key for key in executor.loader.graph.leaf_nodes() if key[0] == app_label]
        else:
            targets = executor.loader.graph.leaf_nodes()

        logger.debug('migration target {}'.format(targets))
        # @@
        # 実際に適用すべきマイグレーションを決定する
        plan = executor.migration_plan(targets)
        logger.debug('plan {}'.format(plan))
        # @@
        # https://docs.djangoproject.com/en/2.0/ref/django-admin/#django-admin-migrate
        # --run-syncdb¶
        # Allows creating tables for apps without migrations. While this isn’t recommended,
        # the migrations framework is sometimes too slow on large projects with hundreds of models.
        # これのためにあるらしい
        run_syncdb = options['run_syncdb'] and executor.loader.unmigrated_apps
        logger.debug('executor.loader.unmigrated_apps {}'.format(executor.loader.unmigrated_apps))

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ") +
                    (", ".join(sorted(executor.loader.unmigrated_apps)))
                )
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(sorted({a for a, n in targets})) or "(none)")
                )
            else:
                if targets[0][1] is None:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Unapply all migrations: ") + "%s" % (targets[0][0],)
                    )
                else:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Target specific migration: ") + "%s, from %s"
                        % (targets[0][1], targets[0][0])
                    )

        # @@ マイグレーション前のProjectStateを構成する
        # 恐らく適用済の範囲だけっぽい
        pre_migrate_state = executor._create_project_state(with_applied_migrations=True)
        pre_migrate_apps = pre_migrate_state.apps
        # @@ シグナルを投げる
        # 最終的にinject_rename_contenttypes_operationsが呼ばれる
        emit_pre_migrate_signal(
            self.verbosity, self.interactive, connection.alias, apps=pre_migrate_apps, plan=plan,
        )

        # Run the syncdb phase.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(self.style.MIGRATE_HEADING("Synchronizing apps without migrations:"))
            self.sync_apps(connection, executor.loader.unmigrated_apps)

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Running migrations:"))
        # @@ 適用するものがなければメッセージ出すだけ
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                # @@ これは優しさ
                # もしmakemigrationsされてない変更があれば警告する
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(self.style.NOTICE(
                        "  Your models have changes that are not yet reflected "
                        "in a migration, and so won't be applied."
                    ))
                    self.stdout.write(self.style.NOTICE(
                        "  Run 'manage.py makemigrations' to make new "
                        "migrations, and then re-run 'manage.py migrate' to "
                        "apply them."
                    ))
            fake = False
            fake_initial = False
        else:
            fake = options['fake']
            fake_initial = options['fake_initial']
        # @@ migrateを実行する
        post_migrate_state = executor.migrate(
            targets, plan=plan, state=pre_migrate_state.clone(), fake=fake,
            fake_initial=fake_initial,
        )
        # post_migrate signals have access to all models. Ensure that all models
        # are reloaded in case any are delayed.
        post_migrate_state.clear_delayed_apps_cache()
        post_migrate_apps = post_migrate_state.apps

        # Re-render models of real apps to include relationships now that
        # we've got a final state. This wouldn't be necessary if real apps
        # models were rendered with relationships in the first place.
        with post_migrate_apps.bulk_update():
            model_keys = []
            for model_state in post_migrate_apps.real_models:
                model_key = model_state.app_label, model_state.name_lower
                model_keys.append(model_key)
                post_migrate_apps.unregister_model(*model_key)
        post_migrate_apps.render_multiple([
            ModelState.from_model(apps.get_model(*model)) for model in model_keys
        ])

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(
            self.verbosity, self.interactive, connection.alias, apps=post_migrate_apps, plan=plan,
        )
Exemplo n.º 35
0
    def handle(self, *args, **options):

        self.verbosity = options.get('verbosity')
        self.interactive = options.get('interactive')
        self.show_traceback = options.get('traceback')
        self.load_initial_data = options.get('load_initial_data')

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        db = options.get('database')
        connection = connections[db]

        # If they asked for a migration listing, quit main execution flow and show it
        if options.get("list", False):
            warnings.warn(
                "The 'migrate --list' command is deprecated. Use 'showmigrations' instead.",
                RemovedInDjango20Warning,
                stacklevel=2)
            self.stdout.ending = None  # Remove when #21429 is fixed
            return call_command(
                'showmigrations',
                '--list',
                app_labels=[options['app_label']]
                if options['app_label'] else None,
                database=db,
                no_color=options.get('no_color'),
                settings=options.get('settings'),
                stdout=self.stdout,
                traceback=self.show_traceback,
                verbosity=self.verbosity,
            )

        # Hook for backends needing any database preparation
        connection.prepare_database()
        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection,
                                     self.migration_progress_callback)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join("%s in %s" % (", ".join(names), app)
                                 for app, names in conflicts.items())
            raise CommandError(
                "Conflicting migrations detected (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str)

        # If they supplied command line arguments, work out what they mean.
        run_syncdb = False
        target_app_labels_only = True
        if options['app_label'] and options['migration_name']:
            app_label, migration_name = options['app_label'], options[
                'migration_name']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively "
                    "sync unmigrated apps)" % app_label)
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(
                        app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label))
                except KeyError:
                    raise CommandError(
                        "Cannot find a migration matching '%s' from app '%s'."
                        % (migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            app_label = options['app_label']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively "
                    "sync unmigrated apps)" % app_label)
            targets = [
                key for key in executor.loader.graph.leaf_nodes()
                if key[0] == app_label
            ]
        else:
            targets = executor.loader.graph.leaf_nodes()
            run_syncdb = True

        plan = executor.migration_plan(targets)

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb and executor.loader.unmigrated_apps:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ")
                    + (", ".join(executor.loader.unmigrated_apps)))
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(set(a for a, n in targets)) or "(none)"))
            else:
                if targets[0][1] is None:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL("  Unapply all migrations: ")
                        + "%s" % (targets[0][0], ))
                else:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Target specific migration: ") + "%s, from %s" %
                        (targets[0][1], targets[0][0]))

        # Run the syncdb phase.
        # If you ever manage to get rid of this, I owe you many, many drinks.
        # Note that pre_migrate is called from inside here, as it needs
        # the list of models about to be installed.
        if run_syncdb and executor.loader.unmigrated_apps:
            if self.verbosity >= 1:
                self.stdout.write(
                    self.style.MIGRATE_HEADING(
                        "Synchronizing apps without migrations:"))
            created_models = self.sync_apps(connection,
                                            executor.loader.unmigrated_apps)
        else:
            created_models = []
            emit_pre_migrate_signal([], self.verbosity, self.interactive,
                                    connection.alias)

        # The test runner requires us to flush after a syncdb but before migrations,
        # so do that here.
        if options.get("test_flush", False):
            call_command(
                'flush',
                verbosity=max(self.verbosity - 1, 0),
                interactive=False,
                database=db,
                reset_sequences=False,
                inhibit_post_migrate=True,
            )

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Your models have changes that are not yet reflected "
                            "in a migration, and so won't be applied."))
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Run 'manage.py makemigrations' to make new "
                            "migrations, and then re-run 'manage.py migrate' to "
                            "apply them."))
        else:
            fake = options.get("fake")
            fake_initial = options.get("fake_initial")
            executor.migrate(targets,
                             plan,
                             fake=fake,
                             fake_initial=fake_initial)

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(created_models, self.verbosity,
                                 self.interactive, connection.alias)
Exemplo n.º 36
0
    def get_context_data(self, **kwargs):
        # Check if domain is configured
        site = Site.objects.get(pk=settings.SITE_ID)
        doc_url = (
            "https://kiwitcms.readthedocs.io/en/latest/installing_docker.html"
            "#configuration-of-kiwi-tcms-domain"
        )
        if site.domain == "127.0.0.1:8000":
            messages.add_message(
                self.request,
                messages.ERROR,
                mark_safe(  # nosec:B308:B703
                    _(
                        "Base URL is not configured! "
                        'See <a href="%(doc_url)s">documentation</a> and '
                        '<a href="%(admin_url)s">change it</a>'
                    )
                    % {
                        "doc_url": doc_url,
                        "admin_url": reverse("admin:sites_site_change", args=[site.pk]),
                    }
                ),
            )

        # Check for missing migrations
        doc_url = (
            "https://kiwitcms.readthedocs.io/en/latest/"
            "installing_docker.html#initial-configuration-of-running-container"
        )
        executor = MigrationExecutor(connections[DEFAULT_DB_ALIAS])
        plan = executor.migration_plan(executor.loader.graph.leaf_nodes())
        if plan:
            messages.add_message(
                self.request,
                messages.ERROR,
                mark_safe(  # nosec:B308:B703
                    _(
                        "You have %(unapplied_migration_count)s unapplied migration(s). "
                        'See <a href="%(doc_url)s">documentation</a>'
                    )
                    % {
                        "unapplied_migration_count": len(plan),
                        "doc_url": doc_url,
                    }
                ),
            )

        # Check for SSL usage
        doc_url = (
            "https://kiwitcms.readthedocs.io/en/latest/"
            "installing_docker.html#ssl-configuration"
        )
        if not self.request.is_secure():
            messages.add_message(
                self.request,
                messages.WARNING,
                mark_safe(  # nosec:B308:B703
                    _(
                        "You are not using a secure connection. "
                        'See <a href="%(doc_url)s">documentation</a> and enable SSL.'
                    )
                    % {
                        "doc_url": doc_url,
                    }
                ),
            )

        # List all recent TestPlans and TestRuns
        test_plans = (
            TestPlan.objects.filter(author=self.request.user)
            .order_by("-pk")
            .select_related("product", "type")
            .annotate(num_runs=Count("run", distinct=True))
        )
        test_plans_disable_count = test_plans.filter(is_active=False).count()

        test_runs = (
            TestRun.objects.filter(
                Q(manager=self.request.user)
                | Q(default_tester=self.request.user)
                | Q(executions__assignee=self.request.user),
                stop_date__isnull=True,
            )
            .order_by("-pk")
            .distinct()
        )

        return {
            "test_plans_count": test_plans.count(),
            "test_plans_disable_count": test_plans_disable_count,
            "last_15_test_plans": test_plans.filter(is_active=True)[:15],
            "last_15_test_runs": test_runs[:15],
            "test_runs_count": test_runs.count(),
        }
Exemplo n.º 37
0
### for initial setup
from django.db.migrations.executor import MigrationExecutor
from django.db import connections, DEFAULT_DB_ALIAS
from django.core.management import call_command

connection = connections[DEFAULT_DB_ALIAS]
connection.prepare_database()
executor = MigrationExecutor(connection)
targets = executor.loader.graph.leaf_nodes()

if executor.migration_plan(targets):
    executor.migrate(targets)
    call_command('loaddata', 'setup')
###

from django.conf.urls import include, url
from . import views

urlpatterns = [
    url(r'^$', views.index, name='index'),
    url(r'^index/$', views.index, name='index'),
    url(r'^docs/$', views.docs, name='docs'),
    url(r'^key/$', views.KeyList, name='KeyList'),
    url(r'^key/detail/$', views.KeyDetail, name='KeyDetail'),
    url(r'^key/delete/$', views.KeyDelete, name='KeyDelete'),
    url(r'^key/save/$', views.KeySave, name='KeySave'),
    #url(r'^key/task_state/$', views.task_state, name='task_state'),
    url(r'^group/$', views.GroupList, name='GroupList'),
    url(r'^group/detail/$', views.GroupDetail, name='GroupDetail'),
    url(r'^group/delete/$', views.GroupDelete, name='GroupDelete'),
    url(r'^group/save/$', views.GroupSave, name='GroupSave'),
Exemplo n.º 38
0
    def handle(self, *args, **options):

        self.verbosity = options['verbosity']
        self.interactive = options['interactive']

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        db = options['database']
        connection = connections[db]

        # Hook for backends needing any database preparation
        connection.prepare_database()
        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection,
                                     self.migration_progress_callback)

        # Raise an error if any migrations are applied before their dependencies.
        executor.loader.check_consistent_history(connection)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join("%s in %s" % (", ".join(names), app)
                                 for app, names in conflicts.items())
            raise CommandError(
                "Conflicting migrations detected; multiple leaf nodes in the "
                "migration graph: (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str)

        # If they supplied command line arguments, work out what they mean.
        target_app_labels_only = True
        if options['app_label'] and options['migration_name']:
            app_label, migration_name = options['app_label'], options[
                'migration_name']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError("App '%s' does not have migrations." %
                                   app_label)
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(
                        app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label))
                except KeyError:
                    raise CommandError(
                        "Cannot find a migration matching '%s' from app '%s'."
                        % (migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            app_label = options['app_label']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError("App '%s' does not have migrations." %
                                   app_label)
            targets = [
                key for key in executor.loader.graph.leaf_nodes()
                if key[0] == app_label
            ]
        else:
            targets = executor.loader.graph.leaf_nodes()

        plan = executor.migration_plan(targets)
        run_syncdb = options['run_syncdb'] and executor.loader.unmigrated_apps

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ")
                    + (", ".join(sorted(executor.loader.unmigrated_apps))))
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(sorted(set(a
                                          for a, n in targets))) or "(none)"))
            else:
                if targets[0][1] is None:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL("  Unapply all migrations: ")
                        + "%s" % (targets[0][0], ))
                else:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Target specific migration: ") + "%s, from %s" %
                        (targets[0][1], targets[0][0]))

        emit_pre_migrate_signal(self.verbosity, self.interactive,
                                connection.alias)

        # Run the syncdb phase.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(
                    self.style.MIGRATE_HEADING(
                        "Synchronizing apps without migrations:"))
            self.sync_apps(connection, executor.loader.unmigrated_apps)

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            executor.check_replacements()
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Your models have changes that are not yet reflected "
                            "in a migration, and so won't be applied."))
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Run 'manage.py makemigrations' to make new "
                            "migrations, and then re-run 'manage.py migrate' to "
                            "apply them."))
        else:
            fake = options['fake']
            fake_initial = options['fake_initial']
            executor.migrate(targets,
                             plan,
                             fake=fake,
                             fake_initial=fake_initial)

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(self.verbosity, self.interactive,
                                 connection.alias)
Exemplo n.º 39
0
def get_pending_migrations():
    connection = connections[DEFAULT_DB_ALIAS]
    connection.prepare_database()
    executor = MigrationExecutor(connection)
    targets = executor.loader.graph.leaf_nodes()
    return executor.migration_plan(targets)
Exemplo n.º 40
0
def is_database_synchronized(database):
    connection = connections[database]
    connection.prepare_database()
    executor = MigrationExecutor(connection)
    targets = executor.loader.graph.leaf_nodes()
    return not executor.migration_plan(targets)
Exemplo n.º 41
0
def get_pending_migrations():
    connection = connections[DEFAULT_DB_ALIAS]
    connection.prepare_database()
    executor = MigrationExecutor(connection)
    targets = executor.loader.graph.leaf_nodes()
    return executor.migration_plan(targets)
Exemplo n.º 42
0
    def handle(self, *arg, **options):
        # it's necessary to delay this import in case
        # database migrations are still running
        from awx.main.models.ha import Instance

        executor = MigrationExecutor(connection)
        migrating = bool(
            executor.migration_plan(executor.loader.graph.leaf_nodes()))
        registered = False

        if not migrating:
            try:
                Instance.objects.me()
                registered = True
            except RuntimeError:
                pass

        if migrating or not registered:
            # In containerized deployments, migrations happen in the task container,
            # and the services running there don't start until migrations are
            # finished.
            # *This* service runs in the web container, and it's possible that it can
            # start _before_ migrations are finished, thus causing issues with the ORM
            # queries it makes (specifically, conf.settings queries).
            # This block is meant to serve as a sort of bail-out for the situation
            # where migrations aren't yet finished (similar to the migration
            # detection middleware that the uwsgi processes have) or when instance
            # registration isn't done yet
            logger.error(
                'AWX is currently installing/upgrading.  Trying again in 5s...'
            )
            time.sleep(5)
            return

        if options.get('status'):
            try:
                stats_all = BroadcastWebsocketStatsManager.get_stats_sync()
            except redis.exceptions.ConnectionError as e:
                print(
                    f"Unable to get Broadcast Websocket Status. Failed to connect to redis {e}"
                )
                return

            data = {}
            for family in stats_all:
                if family.type == 'gauge' and len(family.samples) > 1:
                    for sample in family.samples:
                        if sample.value >= 1:
                            data[family.name] = sample.labels[family.name]
                            break
                else:
                    data[family.name] = family.samples[0].value

            me = Instance.objects.me()
            hostnames = [
                i.hostname
                for i in Instance.objects.exclude(hostname=me.hostname)
            ]

            host_stats = Command.get_connection_status(me, hostnames, data)
            lines = Command._format_lines(host_stats)

            print(
                f'Broadcast websocket connection status from "{me.hostname}" to:'
            )
            print('\n'.join(lines))

            host_stats = Command.get_connection_stats(me, hostnames, data)
            lines = Command._format_lines(host_stats)

            print(
                f'\nBroadcast websocket connection stats from "{me.hostname}" to:'
            )
            print('\n'.join(lines))

            return

        try:
            broadcast_websocket_mgr = BroadcastWebsocketManager()
            task = broadcast_websocket_mgr.start()

            loop = asyncio.get_event_loop()
            loop.run_until_complete(task)
        except KeyboardInterrupt:
            logger.debug('Terminating Websocket Broadcaster')
Exemplo n.º 43
0
    def handle(self, *args, **options):

        self.verbosity = options.get('verbosity')
        self.interactive = options.get('interactive')

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        db = options.get('database')
        connection = connections[db]

        # If they asked for a migration listing, quit main execution flow and show it
        if options.get("list", False):
            warnings.warn(
                "The 'migrate --list' command is deprecated. Use 'showmigrations' instead.",
                RemovedInDjango110Warning, stacklevel=2)
            self.stdout.ending = None  # Remove when #21429 is fixed
            return call_command(
                'showmigrations',
                '--list',
                app_labels=[options['app_label']] if options['app_label'] else None,
                database=db,
                no_color=options.get('no_color'),
                settings=options.get('settings'),
                stdout=self.stdout,
                traceback=options.get('traceback'),
                verbosity=self.verbosity,
            )

        # Hook for backends needing any database preparation
        connection.prepare_database()
        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection, self.migration_progress_callback)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join(
                "%s in %s" % (", ".join(names), app)
                for app, names in conflicts.items()
            )
            raise CommandError(
                "Conflicting migrations detected; multiple leaf nodes in the "
                "migration graph: (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str
            )

        # If they supplied command line arguments, work out what they mean.
        target_app_labels_only = True
        if options['app_label'] and options['migration_name']:
            app_label, migration_name = options['app_label'], options['migration_name']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations." % app_label
                )
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label)
                    )
                except KeyError:
                    raise CommandError("Cannot find a migration matching '%s' from app '%s'." % (
                        migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            app_label = options['app_label']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations." % app_label
                )
            targets = [key for key in executor.loader.graph.leaf_nodes() if key[0] == app_label]
        else:
            targets = executor.loader.graph.leaf_nodes()

        plan = executor.migration_plan(targets)
        run_syncdb = options.get('run_syncdb') and executor.loader.unmigrated_apps

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ") +
                    (", ".join(executor.loader.unmigrated_apps))
                )
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(set(a for a, n in targets)) or "(none)")
                )
            else:
                if targets[0][1] is None:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Unapply all migrations: ") + "%s" % (targets[0][0], )
                    )
                else:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Target specific migration: ") + "%s, from %s"
                        % (targets[0][1], targets[0][0])
                    )

        emit_pre_migrate_signal(self.verbosity, self.interactive, connection.alias)

        # Run the syncdb phase.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(self.style.MIGRATE_HEADING("Synchronizing apps without migrations:"))
            self.sync_apps(connection, executor.loader.unmigrated_apps)

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            executor.check_replacements()
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(self.style.NOTICE(
                        "  Your models have changes that are not yet reflected "
                        "in a migration, and so won't be applied."
                    ))
                    self.stdout.write(self.style.NOTICE(
                        "  Run 'manage.py makemigrations' to make new "
                        "migrations, and then re-run 'manage.py migrate' to "
                        "apply them."
                    ))
        else:
            fake = options.get("fake")
            fake_initial = options.get("fake_initial")
            executor.migrate(targets, plan, fake=fake, fake_initial=fake_initial)

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(self.verbosity, self.interactive, connection.alias)
Exemplo n.º 44
0
# -*- coding: utf-8 -*-
Exemplo n.º 45
0
def is_database_synchronized(database):
    connection = connections[database]
    connection.connect()
    executor = MigrationExecutor(connection)
    targets = executor.loader.graph.leaf_nodes()
    return False if executor.migration_plan(targets) else True
Exemplo n.º 46
0
    def handle(self, *args, **options):

        self.verbosity = options['verbosity']
        self.interactive = options['interactive']

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        db = options['database']
        connection = connections[db]

        # Hook for backends needing any database preparation
        connection.prepare_database()
        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection, self.migration_progress_callback)

        # Raise an error if any migrations are applied before their dependencies.
        executor.loader.check_consistent_history(connection)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join(
                "%s in %s" % (", ".join(names), app)
                for app, names in conflicts.items()
            )
            raise CommandError(
                "Conflicting migrations detected; multiple leaf nodes in the "
                "migration graph: (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str
            )

        # If they supplied command line arguments, work out what they mean.
        target_app_labels_only = True
        if options['app_label']:
            # Validate app_label.
            app_label = options['app_label']
            try:
                apps.get_app_config(app_label)
            except LookupError as err:
                raise CommandError(str(err))
            if app_label not in executor.loader.migrated_apps:
                raise CommandError("App '%s' does not have migrations." % app_label)

        if options['app_label'] and options['migration_name']:
            migration_name = options['migration_name']
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label)
                    )
                except KeyError:
                    raise CommandError("Cannot find a migration matching '%s' from app '%s'." % (
                        migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            targets = [key for key in executor.loader.graph.leaf_nodes() if key[0] == app_label]
        else:
            targets = executor.loader.graph.leaf_nodes()

        plan = executor.migration_plan(targets)

        if options['plan']:
            self.stdout.write('Planned operations:', self.style.MIGRATE_LABEL)
            if not plan:
                self.stdout.write('  No planned migration operations.')
            for migration, backwards in plan:
                self.stdout.write(str(migration), self.style.MIGRATE_HEADING)
                for operation in migration.operations:
                    message, is_error = self.describe_operation(operation, backwards)
                    style = self.style.WARNING if is_error else None
                    self.stdout.write('    ' + message, style)
            return

        run_syncdb = options['run_syncdb'] and executor.loader.unmigrated_apps
        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ") +
                    (", ".join(sorted(executor.loader.unmigrated_apps)))
                )
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(sorted({a for a, n in targets})) or "(none)")
                )
            else:
                if targets[0][1] is None:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Unapply all migrations: ") + "%s" % (targets[0][0],)
                    )
                else:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Target specific migration: ") + "%s, from %s"
                        % (targets[0][1], targets[0][0])
                    )

        pre_migrate_state = executor._create_project_state(with_applied_migrations=True)
        pre_migrate_apps = pre_migrate_state.apps
        emit_pre_migrate_signal(
            self.verbosity, self.interactive, connection.alias, apps=pre_migrate_apps, plan=plan,
        )

        # Run the syncdb phase.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(self.style.MIGRATE_HEADING("Synchronizing apps without migrations:"))
            self.sync_apps(connection, executor.loader.unmigrated_apps)

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(self.style.NOTICE(
                        "  Your models have changes that are not yet reflected "
                        "in a migration, and so won't be applied."
                    ))
                    self.stdout.write(self.style.NOTICE(
                        "  Run 'manage.py makemigrations' to make new "
                        "migrations, and then re-run 'manage.py migrate' to "
                        "apply them."
                    ))
            fake = False
            fake_initial = False
        else:
            fake = options['fake']
            fake_initial = options['fake_initial']
        post_migrate_state = executor.migrate(
            targets, plan=plan, state=pre_migrate_state.clone(), fake=fake,
            fake_initial=fake_initial,
        )
        # post_migrate signals have access to all models. Ensure that all models
        # are reloaded in case any are delayed.
        post_migrate_state.clear_delayed_apps_cache()
        post_migrate_apps = post_migrate_state.apps

        # Re-render models of real apps to include relationships now that
        # we've got a final state. This wouldn't be necessary if real apps
        # models were rendered with relationships in the first place.
        with post_migrate_apps.bulk_update():
            model_keys = []
            for model_state in post_migrate_apps.real_models:
                model_key = model_state.app_label, model_state.name_lower
                model_keys.append(model_key)
                post_migrate_apps.unregister_model(*model_key)
        post_migrate_apps.render_multiple([
            ModelState.from_model(apps.get_model(*model)) for model in model_keys
        ])

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(
            self.verbosity, self.interactive, connection.alias, apps=post_migrate_apps, plan=plan,
        )
    def handle(self, *args, **options):
        db = options['database']
        connection = connections[db]

        executor = MigrationExecutor(connection)

        # Get a list of all migrations that would be applied, in
        # order, starting from zero.
        default_targets = executor.loader.graph.leaf_nodes()
        default_plan = executor.migration_plan(default_targets,
                                               clean_start=True)

        applied = executor.loader.applied_migrations
        desired = []

        if options['verbosity'] >= 2:
            sys.stderr.write('Default migration plan:\n')
            self._print_migration_plan(default_plan, applied)
            sys.stderr.write('\n')

        for migration, _ in default_plan:
            app = migration.app_label
            name = migration.name
            if options['current']:
                # If --current is set, only list migrations that have
                # already been applied.
                if (app, name) in applied:
                    desired.append((app, name))
            elif options['early']:
                # If --early is set, only list migrations that have
                # already been applied OR that are considered "early"
                # migrations.
                if ((app, name) in applied
                        or not is_late_migration(migration)):
                    desired.append((app, name))
            else:
                # If neither --current nor --early is set, list all
                # migrations.
                desired.append((app, name))

        # Check if there are any migrations applied that we don't know
        # about.
        ghosts = applied - set(desired)
        if ghosts:
            mlist = ', '.join('{}.{}'.format(app, name)
                              for app, name in sorted(ghosts))
            raise CommandError("Some migrations that have already been "
                               "applied ({}) are not present in the "
                               "source tree.".format(mlist))

        # Determine the last desired migration for each individual
        # app, in the order that they would have been applied by
        # default.  (This should ensure that the migrations *can* be
        # applied by calling 'manage.py migrate APP NAME' separately
        # for each app, in the given order, without going backwards.)
        targets = collections.OrderedDict()
        for (app, name) in desired:
            targets[app] = name
            targets.move_to_end(app)

        # Now make a plan for applying only the target migrations,
        # starting from the current state.
        current_plan = executor.migration_plan(list(targets.items()))

        if options['verbosity'] >= 2:
            sys.stderr.write('Chosen migration plan:\n')
            self._print_migration_plan(current_plan, applied)
            sys.stderr.write('\n')

        # Check that the new plan contains only "desired" migrations.
        selected = set(applied)
        for migration, _ in current_plan:
            app = migration.app_label
            name = migration.name
            selected.add((app, name))
            if options['early'] and is_late_migration(migration):
                # This can happen if the current migration is 0100,
                # 0101 is a late migration that depends on 0100, and
                # 0102 is an early migration that depends on 0101.
                #
                # That's not allowed - it means that 0101 depends on
                # application changes being installed first, but the
                # application changes depend on 0102 being applied
                # first.
                #
                # Instead, such a change must be deployed in stages:
                # the application code that 0101 depends on must be
                # installed first; then 0101 and 0102 can be applied;
                # and then the new application code that depends on
                # 0102 can be installed.
                raise CommandError("Applying early migrations would "
                                   "require first applying {}.{}, which "
                                   "is a late migration".format(app, name))
            elif (app, name) not in desired:
                # This shouldn't be possible.
                raise CommandError("Wait a minute, what is {}.{}?  That "
                                   "wasn't in the list!".format(app, name))

        # Check that all of the "desired" migrations have already been
        # applied or will be applied by the new plan.
        missing = set(desired) - selected
        if missing:
            # This can happen if there are multiple independent early
            # migrations for the same app, and the merge migration is
            # a late migration.  That's not allowed since there isn't
            # a unique target to specify.
            mlist = ', '.join('{}.{}'.format(app, name)
                              for app, name in sorted(missing))
            raise CommandError("Applying chosen migrations would "
                               "skip some desired migrations ({}). "
                               "Missing merge?".format(mlist))

        # Print target migrations in the order that they should be
        # applied.
        for (app, name) in targets.items():
            sys.stdout.write('{} {}\n'.format(app, name))
Exemplo n.º 48
0
    def handle(self, *args, **options):

        self.verbosity = int(options.get('verbosity'))
        self.interactive = options.get('interactive')
        self.show_traceback = options.get('traceback')
        self.load_initial_data = options.get('load_initial_data')
        self.test_database = options.get('test_database', False)

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        db = options.get('database')
        connection = connections[db]

        # If they asked for a migration listing, quit main execution flow and show it
        if options.get("list", False):
            return self.show_migration_list(connection, args)

        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection,
                                     self.migration_progress_callback)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join("%s in %s" % (", ".join(names), app)
                                 for app, names in conflicts.items())
            raise CommandError(
                "Conflicting migrations detected (%s).\nTo fix them run 'python manage.py makemigrations --merge'"
                % name_str)

        # If they supplied command line arguments, work out what they mean.
        run_syncdb = False
        target_app_labels_only = True
        if len(args) > 2:
            raise CommandError(
                "Too many command-line arguments (expecting 'app_label' or 'app_label migrationname')"
            )
        elif len(args) == 2:
            app_label, migration_name = args
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively sync unmigrated apps)"
                    % app_label)
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(
                        app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. Please be more specific."
                        % (app_label, migration_name))
                except KeyError:
                    raise CommandError(
                        "Cannot find a migration matching '%s' from app '%s'."
                        % (app_label, migration_name))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif len(args) == 1:
            app_label = args[0]
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively sync unmigrated apps)"
                    % app_label)
            targets = [
                key for key in executor.loader.graph.leaf_nodes()
                if key[0] == app_label
            ]
        else:
            targets = executor.loader.graph.leaf_nodes()
            run_syncdb = True

        plan = executor.migration_plan(targets)

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ")
                    + (", ".join(executor.loader.unmigrated_apps) or "(none)"))
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(set(a for a, n in targets)) or "(none)"))
            else:
                if targets[0][1] is None:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL("  Unapply all migrations: ")
                        + "%s" % (targets[0][0], ))
                else:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Target specific migration: ") + "%s, from %s" %
                        (targets[0][1], targets[0][0]))

        # Run the syncdb phase.
        # If you ever manage to get rid of this, I owe you many, many drinks.
        # Note that pre_migrate is called from inside here, as it needs
        # the list of models about to be installed.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(
                    self.style.MIGRATE_HEADING(
                        "Synchronizing apps without migrations:"))
            created_models = self.sync_apps(connection,
                                            executor.loader.unmigrated_apps)
        else:
            created_models = []

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations needed.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Your models have changes that are not yet reflected in a migration, and so won't be applied."
                        ))
                    self.stdout.write(
                        self.style.NOTICE(
                            "  Run 'manage.py makemigrations' to make new migrations, and then re-run 'manage.py migrate' to apply them."
                        ))
        else:
            executor.migrate(targets, plan, fake=options.get("fake", False))

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(created_models, self.verbosity,
                                 self.interactive, connection.alias)
Exemplo n.º 49
0
    def handle(self, *args, **options):
        self.verbosity = options['verbosity']
        self.interactive = options['interactive']

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        db_routers = [
            import_string(router)()
            for router in conf.settings.DATABASE_ROUTERS
        ]
        for connection in connections.all():
            # Hook for backends needing any database preparation
            connection.prepare_database()
            # Work out which apps have migrations and which do not
            executor = MigrationExecutor(connection,
                                         self.migration_progress_callback)

            # Raise an error if any migrations are applied before their dependencies.
            executor.loader.check_consistent_history(connection)

            # Before anything else, see if there's conflicting apps and drop out
            # hard if there are any
            conflicts = executor.loader.detect_conflicts()
            if conflicts:
                name_str = "; ".join("%s in %s" % (", ".join(names), app)
                                     for app, names in conflicts.items())
                raise CommandError(
                    "Conflicting migrations detected; multiple leaf nodes in the "
                    "migration graph: (%s).\nTo fix them run "
                    "'python manage.py makemigrations --merge'" % name_str)

            # If they supplied command line arguments, work out what they mean.
            targets, target_app_labels_only = self._get_targets(
                connection, executor, db_routers, options)

            plan = executor.migration_plan(targets)
            run_syncdb = options[
                'run_syncdb'] and executor.loader.unmigrated_apps

            # Print some useful info
            if self.verbosity >= 1:
                self.stdout.write(
                    self.style.MIGRATE_HEADING("Operations to perform:"))
                if run_syncdb:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Synchronize unmigrated apps: ") +
                        (", ".join(sorted(executor.loader.unmigrated_apps))))
                if target_app_labels_only:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                        (", ".join(sorted({a
                                           for a, n in targets})) or "(none)"))
                else:
                    if targets[0][1] is None:
                        self.stdout.write(
                            self.style.MIGRATE_LABEL(
                                "  Unapply all migrations: ") + "%s" %
                            (targets[0][0], ))
                    else:
                        self.stdout.write(
                            self.style.MIGRATE_LABEL(
                                "  Target specific migration: ") +
                            "%s, from %s" % (targets[0][1], targets[0][0]))

            pre_migrate_state = executor._create_project_state(
                with_applied_migrations=True)
            pre_migrate_apps = pre_migrate_state.apps
            emit_pre_migrate_signal(
                self.verbosity,
                self.interactive,
                connection.alias,
                apps=pre_migrate_apps,
                plan=plan,
            )

            # Run the syncdb phase.
            if run_syncdb:
                self._syncdb_phase(connection, executor)

            # Migrate!
            self._migrate(plan, connection, executor, pre_migrate_state,
                          targets, options)
Exemplo n.º 50
0
    def handle(self, *args, **options):

        self.verbosity = int(options.get('verbosity'))
        self.interactive = options.get('interactive')
        self.show_traceback = options.get('traceback')
        self.load_initial_data = options.get('load_initial_data')
        self.test_database = options.get('test_database', False)

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_name in settings.INSTALLED_APPS:
            if module_has_submodule(import_module(app_name), "management"):
                import_module('.management', app_name)

        # Get the database we're operating from
        db = options.get('database')
        connection = connections[db]

        # If they asked for a migration listing, quit main execution flow and show it
        if options.get("list", False):
            return self.show_migration_list(connection, args)

        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection,
                                     self.migration_progress_callback)

        # If they supplied command line arguments, work out what they mean.
        run_syncdb = False
        target_app_labels_only = True
        if len(args) > 2:
            raise CommandError(
                "Too many command-line arguments (expecting 'appname' or 'appname migrationname')"
            )
        elif len(args) == 2:
            app_label, migration_name = args
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively sync unmigrated apps)"
                    % app_label)
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(
                        app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. Please be more specific."
                        % (app_label, migration_name))
                except KeyError:
                    raise CommandError(
                        "Cannot find a migration matching '%s' from app '%s'. Is it in INSTALLED_APPS?"
                        % (app_label, migration_name))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif len(args) == 1:
            app_label = args[0]
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively sync unmigrated apps)"
                    % app_label)
            targets = [
                key for key in executor.loader.graph.leaf_nodes()
                if key[0] == app_label
            ]
        else:
            targets = executor.loader.graph.leaf_nodes()
            run_syncdb = True

        plan = executor.migration_plan(targets)

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ")
                    + (", ".join(executor.loader.unmigrated_apps) or "(none)"))
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(set(a for a, n in targets)) or "(none)"))
            else:
                if targets[0][1] is None:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL("  Unapply all migrations: ")
                        + "%s" % (targets[0][0], ))
                else:
                    self.stdout.write(
                        self.style.MIGRATE_LABEL(
                            "  Target specific migration: ") + "%s, from %s" %
                        (targets[0][1], targets[0][0]))

        # Run the syncdb phase.
        # If you ever manage to get rid of this, I owe you many, many drinks.
        # Note that pre_migrate is called from inside here, as it needs
        # the list of models about to be installed.
        if run_syncdb:
            if self.verbosity >= 1:
                self.stdout.write(
                    self.style.MIGRATE_HEADING(
                        "Synchronizing apps without migrations:"))
            created_models = self.sync_apps(connection,
                                            executor.loader.unmigrated_apps)
        else:
            created_models = []

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(
                self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations needed.")
        else:
            executor.migrate(targets, plan, fake=options.get("fake", False))

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(created_models, self.verbosity,
                                 self.interactive, connection.alias)
Exemplo n.º 51
0
    def handle(self, *args, **options):

        self.verbosity = options.get('verbosity')
        self.interactive = options.get('interactive')
        self.show_traceback = options.get('traceback')
        self.load_initial_data = options.get('load_initial_data')

        # Import the 'management' module within each installed app, to register
        # dispatcher events.
        for app_config in apps.get_app_configs():
            if module_has_submodule(app_config.module, "management"):
                import_module('.management', app_config.name)

        # Get the database we're operating from
        db = options.get('database')
        connection = connections[db]

        # If they asked for a migration listing, quit main execution flow and show it
        if options.get("list", False):
            return self.show_migration_list(connection, [options['app_label']] if options['app_label'] else None)

        # Work out which apps have migrations and which do not
        executor = MigrationExecutor(connection, self.migration_progress_callback)

        # Before anything else, see if there's conflicting apps and drop out
        # hard if there are any
        conflicts = executor.loader.detect_conflicts()
        if conflicts:
            name_str = "; ".join(
                "%s in %s" % (", ".join(names), app)
                for app, names in conflicts.items()
            )
            raise CommandError(
                "Conflicting migrations detected (%s).\nTo fix them run "
                "'python manage.py makemigrations --merge'" % name_str
            )

        # If they supplied command line arguments, work out what they mean.
        run_syncdb = False
        target_app_labels_only = True
        if options['app_label'] and options['migration_name']:
            app_label, migration_name = options['app_label'], options['migration_name']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively "
                    "sync unmigrated apps)" % app_label
                )
            if migration_name == "zero":
                targets = [(app_label, None)]
            else:
                try:
                    migration = executor.loader.get_migration_by_prefix(app_label, migration_name)
                except AmbiguityError:
                    raise CommandError(
                        "More than one migration matches '%s' in app '%s'. "
                        "Please be more specific." %
                        (migration_name, app_label)
                    )
                except KeyError:
                    raise CommandError("Cannot find a migration matching '%s' from app '%s'." % (
                        migration_name, app_label))
                targets = [(app_label, migration.name)]
            target_app_labels_only = False
        elif options['app_label']:
            app_label = options['app_label']
            if app_label not in executor.loader.migrated_apps:
                raise CommandError(
                    "App '%s' does not have migrations (you cannot selectively "
                    "sync unmigrated apps)" % app_label
                )
            targets = [key for key in executor.loader.graph.leaf_nodes() if key[0] == app_label]
        else:
            targets = executor.loader.graph.leaf_nodes()
            run_syncdb = True

        plan = executor.migration_plan(targets)

        # Print some useful info
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Operations to perform:"))
            if run_syncdb and executor.loader.unmigrated_apps:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Synchronize unmigrated apps: ") +
                    (", ".join(executor.loader.unmigrated_apps))
                )
            if target_app_labels_only:
                self.stdout.write(
                    self.style.MIGRATE_LABEL("  Apply all migrations: ") +
                    (", ".join(set(a for a, n in targets)) or "(none)")
                )
            else:
                if targets[0][1] is None:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Unapply all migrations: ") + "%s" % (targets[0][0], )
                    )
                else:
                    self.stdout.write(self.style.MIGRATE_LABEL(
                        "  Target specific migration: ") + "%s, from %s"
                        % (targets[0][1], targets[0][0])
                    )

        # Run the syncdb phase.
        # If you ever manage to get rid of this, I owe you many, many drinks.
        # Note that pre_migrate is called from inside here, as it needs
        # the list of models about to be installed.
        if run_syncdb and executor.loader.unmigrated_apps:
            if self.verbosity >= 1:
                self.stdout.write(self.style.MIGRATE_HEADING("Synchronizing apps without migrations:"))
            created_models = self.sync_apps(connection, executor.loader.unmigrated_apps)
        else:
            created_models = []

        # The test runner requires us to flush after a syncdb but before migrations,
        # so do that here.
        if options.get("test_flush", False):
            call_command(
                'flush',
                verbosity=max(self.verbosity - 1, 0),
                interactive=False,
                database=db,
                reset_sequences=False,
                inhibit_post_migrate=True,
            )

        # Migrate!
        if self.verbosity >= 1:
            self.stdout.write(self.style.MIGRATE_HEADING("Running migrations:"))
        if not plan:
            if self.verbosity >= 1:
                self.stdout.write("  No migrations to apply.")
                # If there's changes that aren't in migrations yet, tell them how to fix it.
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(self.style.NOTICE(
                        "  Your models have changes that are not yet reflected "
                        "in a migration, and so won't be applied."
                    ))
                    self.stdout.write(self.style.NOTICE(
                        "  Run 'manage.py makemigrations' to make new "
                        "migrations, and then re-run 'manage.py migrate' to "
                        "apply them."
                    ))
        else:
            executor.migrate(targets, plan, fake=options.get("fake", False))

        # Send the post_migrate signal, so individual apps can do whatever they need
        # to do at this point.
        emit_post_migrate_signal(created_models, self.verbosity, self.interactive, connection.alias)
    def handle(self, *args, **options):
        self.verbosity = verbosity = options.get('verbosity')
        self.interactive = interactive = options.get('interactive')
        migrations_dir = options.get('input_dir')

        try:
            default_input_dir = os.path.join(
                settings.BASE_DIR, DEFAULT_PENDING_MIGRATIONS_DIRECTORY)
        except AttributeError:
            default_input_dir = None

        if migrations_dir is None:
            if not default_input_dir:
                raise CommandError(
                    "No input directory to read migrations from. Either set "
                    "BASE_DIR in your settings or provide a directory path "
                    "via the --input-dir option.")
            else:
                migrations_dir = default_input_dir
        elif not migrations_dir:
            raise CommandError(
                "Provide a real directory path via the --input-dir option.")

        if not (os.path.exists(migrations_dir) and os.listdir(migrations_dir)):
            raise CommandError("Input directory (%s) doesn't exist or is "
                               "empty." % migrations_dir)

        # Get the database we're operating from
        db = options.get('database')
        connection = connections[db]

        # Hook for backends needing any database preparation
        try:
            connection.prepare_database()
        except AttributeError:  # pragma: no cover
            pass

        executor = MigrationExecutor(connection,
                                     self.migration_progress_callback)

        # Replace the loader with a pending migration one
        executor.loader = PendingMigrationLoader(
            connection, pending_migrations_dir=migrations_dir)

        targets = executor.loader.graph.leaf_nodes()
        pending_migration_keys = executor.loader.pending_migrations.keys()

        if options.get('unapply'):
            targets = []

            # We only want to unapply the collected migrations
            for key, migration in executor.loader.pending_migrations.items():
                app_label, migration_name = key
                migration_found = False

                for dependency in migration.dependencies:
                    pending = dependency in pending_migration_keys

                    if dependency[0] == app_label and not pending:
                        result = executor.loader.check_key(dependency,
                                                           app_label)
                        dependency = result or dependency

                        targets.append(dependency)
                        migration_found = True

                if not migration_found:
                    targets.append((app_label, None))
        else:
            # Trim non-collected migrations
            for migration_key in list(targets):
                if migration_key not in pending_migration_keys:
                    targets.remove(migration_key)

        plan = executor.migration_plan(targets)

        MIGRATE_HEADING = self.style.MIGRATE_HEADING
        MIGRATE_LABEL = self.style.MIGRATE_LABEL

        # Print some useful info
        if verbosity > 0:
            self.stdout.write(MIGRATE_HEADING("Operations to perform:"))

            for target in targets:
                if target[1] is None:
                    self.stdout.write(MIGRATE_LABEL(
                        "  Unapply all migrations: ") + "%s" % (target[0],)
                    )
                else:
                    self.stdout.write(MIGRATE_LABEL(
                        "  Target specific migration: ") + "%s, from %s"
                        % (target[1], target[0])
                    )

        try:  # pragma: no cover
            emit_pre_migrate_signal([], verbosity, interactive,
                                    connection.alias)
        except TypeError:  # pragma: no cover
            emit_pre_migrate_signal(verbosity, interactive, connection.alias)

        # Migrate!
        if verbosity > 0:
            self.stdout.write(MIGRATE_HEADING("Running migrations:"))

        if not plan:
            if verbosity > 0:
                self.stdout.write("  No migrations to apply.")
                # If there's changes not in migrations, tell them how to fix it
                autodetector = MigrationAutodetector(
                    executor.loader.project_state(),
                    ProjectState.from_apps(apps),
                )
                changes = autodetector.changes(graph=executor.loader.graph)
                if changes:
                    self.stdout.write(self.style.NOTICE(
                        "  Your models have changes that are not yet reflected"
                        " in a migration, and so won't be applied."
                    ))
                    self.stdout.write(self.style.NOTICE(
                        "  Run 'manage.py makeprojectmigrations' to make new "
                        "migrations, and then run 'manage.py migrateproject' "
                        "to apply them."
                    ))
        else:
            executor.migrate(targets, plan, fake=options.get("fake", False))

        # A little database clean-up
        for app_label, migration_name in pending_migration_keys:
            executor.recorder.record_unapplied(app_label, migration_name)

        # Send the post_migrate signal, so individual apps can do whatever they
        # need to do at this point.
        try:  # pragma: no cover
            emit_post_migrate_signal([], verbosity, interactive,
                                     connection.alias)
        except TypeError:  # pragma: no cover
            emit_post_migrate_signal(verbosity, interactive, connection.alias)