from __future__ import unicode_literals from django.apps.registry import apps as global_apps from django.db import migrations, router from .exceptions import InvalidMigrationPlan from .loader import MigrationLoader from .recorder import MigrationRecorder from .state import ProjectState class MigrationExecutor(object): """ End-to-end migration execution - loads migrations, and runs them up or down to a specified set of targets. """ def __init__(self, connection, progress_callback=None): self.connection = connection self.loader = MigrationLoader(self.connection) self.recorder = MigrationRecorder(self.connection) self.progress_callback = progress_callback def migration_plan(self, targets, clean_start=False): """ Given a set of targets, returns a list of (Migration instance, backwards?). """ plan = [] if clean_start: applied = set() else: applied = set(self.loader.applied_migrations) for target in targets: # If the target is (app_label, None), that means unmigrate everything if target[1] is None: for root in self.loader.graph.root_nodes(): if root[0] == target[0]: for migration in self.loader.graph.backwards_plan(root): if migration in applied: plan.append((self.loader.graph.nodes[migration], True)) applied.remove(migration) # If the migration is already applied, do backwards mode, # otherwise do forwards mode. elif target in applied: # Don't migrate backwards all the way to the target node (that # may roll back dependencies in other apps that don't need to # be rolled back); instead roll back through target's immediate # child(ren) in the same app, and no further. next_in_app = sorted( n for n in self.loader.graph.node_map[target].children if n[0] == target[0] ) for node in next_in_app: for migration in self.loader.graph.backwards_plan(node): if migration in applied: plan.append((self.loader.graph.nodes[migration], True)) applied.remove(migration) else: for migration in self.loader.graph.forwards_plan(target): if migration not in applied: plan.append((self.loader.graph.nodes[migration], False)) applied.add(migration) return plan def _create_project_state(self): return ProjectState(real_apps=list(self.loader.unmigrated_apps)) def migrate(self, targets, plan=None, fake=False, fake_initial=False): """ Migrates the database up to the given targets. Django first needs to create all project states before a migration is (un)applied and in a second step run all the database operations. """ if plan is None: plan = self.migration_plan(targets) # Create the forwards plan Django would follow on an empty database full_plan = self.migration_plan(self.loader.graph.leaf_nodes(), clean_start=True) all_forwards = all(not backwards for mig, backwards in plan) all_backwards = all(backwards for mig, backwards in plan) if not plan: # The resulting state should include applied migrations. state = self._create_project_state() applied_migrations = { self.loader.graph.nodes[key] for key in self.loader.applied_migrations if key in self.loader.graph.nodes } for migration, _ in full_plan: if migration in applied_migrations: migration.mutate_state(state, preserve=False) elif all_forwards == all_backwards: # This should only happen if there's a mixed plan raise InvalidMigrationPlan( "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.", plan ) elif all_forwards: state = self._migrate_all_forwards(plan, full_plan, fake=fake, fake_initial=fake_initial) else: # No need to check for `elif all_backwards` here, as that condition # would always evaluate to true. state = self._migrate_all_backwards(plan, full_plan, fake=fake) self.check_replacements() return state def _migrate_all_forwards(self, plan, full_plan, fake, fake_initial): """ Take a list of 2-tuples of the form (migration instance, False) and apply them in the order they occur in the full_plan. """ migrations_to_run = {m[0] for m in plan} state = self._create_project_state() applied_migrations = { self.loader.graph.nodes[key] for key in self.loader.applied_migrations if key in self.loader.graph.nodes } for migration, _ in full_plan: if not migrations_to_run and not applied_migrations: # We remove every migration that we applied from these sets so # that we can bail out once the last migration has been applied # and don't always run until the very end of the migration # process. break if migration in migrations_to_run: if 'apps' not in state.__dict__: if self.progress_callback: self.progress_callback("render_start") state.apps # Render all -- performance critical if self.progress_callback: self.progress_callback("render_success") state = self.apply_migration(state, migration, fake=fake, fake_initial=fake_initial) migrations_to_run.remove(migration) elif migration in applied_migrations: # Only mutate the state if the migration is actually applied # to make sure the resulting state doesn't include changes # from unrelated migrations. migration.mutate_state(state, preserve=False) applied_migrations.remove(migration) return state def _migrate_all_backwards(self, plan, full_plan, fake): """ Take a list of 2-tuples of the form (migration instance, True) and unapply them in reverse order they occur in the full_plan. Since unapplying a migration requires the project state prior to that migration, Django will compute the migration states before each of them in a first run over the plan and then unapply them in a second run over the plan. """ migrations_to_run = {m[0] for m in plan} # Holds all migration states prior to the migrations being unapplied states = {} state = self._create_project_state() applied_migrations = { self.loader.graph.nodes[key] for key in self.loader.applied_migrations if key in self.loader.graph.nodes } if self.progress_callback: self.progress_callback("render_start") for migration, _ in full_plan: if not migrations_to_run: # We remove every migration that we applied from this set so # that we can bail out once the last migration has been applied # and don't always run until the very end of the migration # process. break if migration in migrations_to_run: if 'apps' not in state.__dict__: state.apps # Render all -- performance critical # The state before this migration states[migration] = state # The old state keeps as-is, we continue with the new state state = migration.mutate_state(state, preserve=True) migrations_to_run.remove(migration) elif migration in applied_migrations: # Only mutate the state if the migration is actually applied # to make sure the resulting state doesn't include changes # from unrelated migrations. migration.mutate_state(state, preserve=False) if self.progress_callback: self.progress_callback("render_success") for migration, _ in plan: self.unapply_migration(states[migration], migration, fake=fake) applied_migrations.remove(migration) # Generate the post migration state by starting from the state before # the last migration is unapplied and mutating it to include all the # remaining applied migrations. last_unapplied_migration = plan[-1][0] state = states[last_unapplied_migration] for index, (migration, _) in enumerate(full_plan): if migration == last_unapplied_migration: for migration, _ in full_plan[index:]: if migration in applied_migrations: migration.mutate_state(state, preserve=False) break return state def collect_sql(self, plan): """ Takes a migration plan and returns a list of collected SQL statements that represent the best-efforts version of that plan. """ statements = [] state = None for migration, backwards in plan: with self.connection.schema_editor(collect_sql=True, atomic=migration.atomic) as schema_editor: if state is None: state = self.loader.project_state((migration.app_label, migration.name), at_end=False) if not backwards: state = migration.apply(state, schema_editor, collect_sql=True) else: state = migration.unapply(state, schema_editor, collect_sql=True) statements.extend(schema_editor.collected_sql) return statements def apply_migration(self, state, migration, fake=False, fake_initial=False): """ Runs a migration forwards. """ if self.progress_callback: self.progress_callback("apply_start", migration, fake) if not fake: if fake_initial: # Test to see if this is an already-applied initial migration applied, state = self.detect_soft_applied(state, migration) if applied: fake = True if not fake: # Alright, do it normally with self.connection.schema_editor(atomic=migration.atomic) as schema_editor: state = migration.apply(state, schema_editor) # For replacement migrations, record individual statuses if migration.replaces: for app_label, name in migration.replaces: self.recorder.record_applied(app_label, name) else: self.recorder.record_applied(migration.app_label, migration.name) # Report progress if self.progress_callback: self.progress_callback("apply_success", migration, fake) return state def unapply_migration(self, state, migration, fake=False): """ Runs a migration backwards. """ if self.progress_callback: self.progress_callback("unapply_start", migration, fake) if not fake: with self.connection.schema_editor(atomic=migration.atomic) as schema_editor: state = migration.unapply(state, schema_editor) # For replacement migrations, record individual statuses if migration.replaces: for app_label, name in migration.replaces: self.recorder.record_unapplied(app_label, name) else: self.recorder.record_unapplied(migration.app_label, migration.name) # Report progress if self.progress_callback: self.progress_callback("unapply_success", migration, fake) return state def check_replacements(self): """ Mark replacement migrations applied if their replaced set all are. We do this unconditionally on every migrate, rather than just when migrations are applied or unapplied, so as to correctly handle the case when a new squash migration is pushed to a deployment that already had all its replaced migrations applied. In this case no new migration will be applied, but we still want to correctly maintain the applied state of the squash migration. """ applied = self.recorder.applied_migrations() for key, migration in self.loader.replacements.items(): all_applied = all(m in applied for m in migration.replaces) if all_applied and key not in applied: self.recorder.record_applied(*key) def detect_soft_applied(self, project_state, migration): """ Tests whether a migration has been implicitly applied - that the tables or columns it would create exist. This is intended only for use on initial migrations (as it only looks for CreateModel and AddField). """ def should_skip_detecting_model(migration, model): """ No need to detect tables for proxy models, unmanaged models, or models that can't be migrated on the current database. """ return ( model._meta.proxy or not model._meta.managed or not router.allow_migrate( self.connection.alias, migration.app_label, model_name=model._meta.model_name, ) ) if migration.initial is None: # Bail if the migration isn't the first one in its app if any(app == migration.app_label for app, name in migration.dependencies): return False, project_state elif migration.initial is False: # Bail if it's NOT an initial migration return False, project_state if project_state is None: after_state = self.loader.project_state((migration.app_label, migration.name), at_end=True) else: after_state = migration.mutate_state(project_state) apps = after_state.apps found_create_model_migration = False found_add_field_migration = False existing_table_names = self.connection.introspection.table_names(self.connection.cursor()) # Make sure all create model and add field operations are done for operation in migration.operations: if isinstance(operation, migrations.CreateModel): model = apps.get_model(migration.app_label, operation.name) if model._meta.swapped: # We have to fetch the model to test with from the # main app cache, as it's not a direct dependency. model = global_apps.get_model(model._meta.swapped) if should_skip_detecting_model(migration, model): continue if model._meta.db_table not in existing_table_names: return False, project_state found_create_model_migration = True elif isinstance(operation, migrations.AddField): model = apps.get_model(migration.app_label, operation.model_name) if model._meta.swapped: # We have to fetch the model to test with from the # main app cache, as it's not a direct dependency. model = global_apps.get_model(model._meta.swapped) if should_skip_detecting_model(migration, model): continue table = model._meta.db_table field = model._meta.get_field(operation.name) # Handle implicit many-to-many tables created by AddField. if field.many_to_many: if field.remote_field.through._meta.db_table not in existing_table_names: return False, project_state else: found_add_field_migration = True continue column_names = [ column.name for column in self.connection.introspection.get_table_description(self.connection.cursor(), table) ] if field.column not in column_names: return False, project_state found_add_field_migration = True # If we get this far and we found at least one CreateModel or AddField migration, # the migration is considered implicitly applied. return (found_create_model_migration or found_add_field_migration), after_state