import pkgutil import sys from importlib import import_module, reload from django.apps import apps from django.conf import settings from django.db.migrations.graph import MigrationGraph from django.db.migrations.recorder import MigrationRecorder from .exceptions import ( AmbiguityError, BadMigrationError, InconsistentMigrationHistory, NodeNotFoundError, ) MIGRATIONS_MODULE_NAME = 'migrations' class MigrationLoader: """ Load migration files from disk and their status from the database. Migration files are expected to live in the "migrations" directory of an app. Their names are entirely unimportant from a code perspective, but will probably follow the 1234_name.py convention. On initialization, this class will scan those directories, and open and read the Python files, looking for a class called Migration, which should inherit from django.db.migrations.Migration. See django.db.migrations.migration for what that looks like. Some migrations will be marked as "replacing" another set of migrations. These are loaded into a separate set of migrations away from the main ones. If all the migrations they replace are either unapplied or missing from disk, then they are injected into the main set, replacing the named migrations. Any dependency pointers to the replaced migrations are re-pointed to the new migration. This does mean that this class MUST also talk to the database as well as to disk, but this is probably fine. We're already not just operating in memory. """ def __init__( self, connection, load=True, ignore_no_migrations=False, replace_migrations=True, ): self.connection = connection self.disk_migrations = None self.applied_migrations = None self.ignore_no_migrations = ignore_no_migrations self.replace_migrations = replace_migrations if load: self.build_graph() @classmethod def migrations_module(cls, app_label): """ Return the path to the migrations module for the specified app_label and a boolean indicating if the module is specified in settings.MIGRATION_MODULE. """ if app_label in settings.MIGRATION_MODULES: return settings.MIGRATION_MODULES[app_label], True else: app_package_name = apps.get_app_config(app_label).name return '%s.%s' % (app_package_name, MIGRATIONS_MODULE_NAME), False def load_disk(self): """Load the migrations from all INSTALLED_APPS from disk.""" self.disk_migrations = {} self.unmigrated_apps = set() self.migrated_apps = set() for app_config in apps.get_app_configs(): # Get the migrations module directory module_name, explicit = self.migrations_module(app_config.label) if module_name is None: self.unmigrated_apps.add(app_config.label) continue was_loaded = module_name in sys.modules try: module = import_module(module_name) except ModuleNotFoundError as e: if ( (explicit and self.ignore_no_migrations) or (not explicit and MIGRATIONS_MODULE_NAME in e.name.split('.')) ): self.unmigrated_apps.add(app_config.label) continue raise else: # Module is not a package (e.g. migrations.py). if not hasattr(module, '__path__'): self.unmigrated_apps.add(app_config.label) continue # Force a reload if it's already loaded (tests need this) if was_loaded: reload(module) migration_names = { name for _, name, is_pkg in pkgutil.iter_modules(module.__path__) if not is_pkg and name[0] not in '_~' } if migration_names or self.ignore_no_migrations: self.migrated_apps.add(app_config.label) else: self.unmigrated_apps.add(app_config.label) # Load migrations for migration_name in migration_names: migration_path = '%s.%s' % (module_name, migration_name) try: migration_module = import_module(migration_path) except ImportError as e: if 'bad magic number' in str(e): raise ImportError( "Couldn't import %r as it appears to be a stale " ".pyc file." % migration_path ) from e else: raise if not hasattr(migration_module, "Migration"): raise BadMigrationError( "Migration %s in app %s has no Migration class" % (migration_name, app_config.label) ) self.disk_migrations[app_config.label, migration_name] = migration_module.Migration( migration_name, app_config.label, ) def get_migration(self, app_label, name_prefix): """Return the named migration or raise NodeNotFoundError.""" return self.graph.nodes[app_label, name_prefix] def get_migration_by_prefix(self, app_label, name_prefix): """ Return the migration(s) which match the given app label and name_prefix. """ # Do the search results = [] for migration_app_label, migration_name in self.disk_migrations: if migration_app_label == app_label and migration_name.startswith(name_prefix): results.append((migration_app_label, migration_name)) if len(results) > 1: raise AmbiguityError( "There is more than one migration for '%s' with the prefix '%s'" % (app_label, name_prefix) ) elif not results: raise KeyError("There no migrations for '%s' with the prefix '%s'" % (app_label, name_prefix)) else: return self.disk_migrations[results[0]] def check_key(self, key, current_app): if (key[1] != "__first__" and key[1] != "__latest__") or key in self.graph: return key # Special-case __first__, which means "the first migration" for # migrated apps, and is ignored for unmigrated apps. It allows # makemigrations to declare dependencies on apps before they even have # migrations. if key[0] == current_app: # Ignore __first__ references to the same app (#22325) return if key[0] in self.unmigrated_apps: # This app isn't migrated, but something depends on it. # The models will get auto-added into the state, though # so we're fine. return if key[0] in self.migrated_apps: try: if key[1] == "__first__": return self.graph.root_nodes(key[0])[0] else: # "__latest__" return self.graph.leaf_nodes(key[0])[0] except IndexError: if self.ignore_no_migrations: return None else: raise ValueError("Dependency on app with no migrations: %s" % key[0]) raise ValueError("Dependency on unknown app: %s" % key[0]) def add_internal_dependencies(self, key, migration): """ Internal dependencies need to be added first to ensure `__first__` dependencies find the correct root node. """ for parent in migration.dependencies: # Ignore __first__ references to the same app. if parent[0] == key[0] and parent[1] != '__first__': self.graph.add_dependency(migration, key, parent, skip_validation=True) def add_external_dependencies(self, key, migration): for parent in migration.dependencies: # Skip internal dependencies if key[0] == parent[0]: continue parent = self.check_key(parent, key[0]) if parent is not None: self.graph.add_dependency(migration, key, parent, skip_validation=True) for child in migration.run_before: child = self.check_key(child, key[0]) if child is not None: self.graph.add_dependency(migration, child, key, skip_validation=True) def build_graph(self): """ Build a migration dependency graph using both the disk and database. You'll need to rebuild the graph if you apply migrations. This isn't usually a problem as generally migration stuff runs in a one-shot process. """ # Load disk data self.load_disk() # Load database data if self.connection is None: self.applied_migrations = {} else: recorder = MigrationRecorder(self.connection) self.applied_migrations = recorder.applied_migrations() # To start, populate the migration graph with nodes for ALL migrations # and their dependencies. Also make note of replacing migrations at this step. self.graph = MigrationGraph() self.replacements = {} for key, migration in self.disk_migrations.items(): self.graph.add_node(key, migration) # Replacing migrations. if migration.replaces: self.replacements[key] = migration for key, migration in self.disk_migrations.items(): # Internal (same app) dependencies. self.add_internal_dependencies(key, migration) # Add external dependencies now that the internal ones have been resolved. for key, migration in self.disk_migrations.items(): self.add_external_dependencies(key, migration) # Carry out replacements where possible and if enabled. if self.replace_migrations: for key, migration in self.replacements.items(): # Get applied status of each of this migration's replacement # targets. applied_statuses = [(target in self.applied_migrations) for target in migration.replaces] # The replacing migration is only marked as applied if all of # its replacement targets are. if all(applied_statuses): self.applied_migrations[key] = migration else: self.applied_migrations.pop(key, None) # A replacing migration can be used if either all or none of # its replacement targets have been applied. if all(applied_statuses) or (not any(applied_statuses)): self.graph.remove_replaced_nodes(key, migration.replaces) else: # This replacing migration cannot be used because it is # partially applied. Remove it from the graph and remap # dependencies to it (#25945). self.graph.remove_replacement_node(key, migration.replaces) # Ensure the graph is consistent. try: self.graph.validate_consistency() except NodeNotFoundError as exc: # Check if the missing node could have been replaced by any squash # migration but wasn't because the squash migration was partially # applied before. In that case raise a more understandable exception # (#23556). # Get reverse replacements. reverse_replacements = {} for key, migration in self.replacements.items(): for replaced in migration.replaces: reverse_replacements.setdefault(replaced, set()).add(key) # Try to reraise exception with more detail. if exc.node in reverse_replacements: candidates = reverse_replacements.get(exc.node, set()) is_replaced = any(candidate in self.graph.nodes for candidate in candidates) if not is_replaced: tries = ', '.join('%s.%s' % c for c in candidates) raise NodeNotFoundError( "Migration {0} depends on nonexistent node ('{1}', '{2}'). " "Django tried to replace migration {1}.{2} with any of [{3}] " "but wasn't able to because some of the replaced migrations " "are already applied.".format( exc.origin, exc.node[0], exc.node[1], tries ), exc.node ) from exc raise self.graph.ensure_not_cyclic() def check_consistent_history(self, connection): """ Raise InconsistentMigrationHistory if any applied migrations have unapplied dependencies. """ recorder = MigrationRecorder(connection) applied = recorder.applied_migrations() for migration in applied: # If the migration is unknown, skip it. if migration not in self.graph.nodes: continue for parent in self.graph.node_map[migration].parents: if parent not in applied: # Skip unapplied squashed migrations that have all of their # `replaces` applied. if parent in self.replacements: if all(m in applied for m in self.replacements[parent].replaces): continue raise InconsistentMigrationHistory( "Migration {}.{} is applied before its dependency " "{}.{} on database '{}'.".format( migration[0], migration[1], parent[0], parent[1], connection.alias, ) ) def detect_conflicts(self): """ Look through the loaded graph and detect any conflicts - apps with more than one leaf migration. Return a dict of the app labels that conflict with the migration names that conflict. """ seen_apps = {} conflicting_apps = set() for app_label, migration_name in self.graph.leaf_nodes(): if app_label in seen_apps: conflicting_apps.add(app_label) seen_apps.setdefault(app_label, set()).add(migration_name) return {app_label: sorted(seen_apps[app_label]) for app_label in conflicting_apps} def project_state(self, nodes=None, at_end=True): """ Return a ProjectState object representing the most recent state that the loaded migrations represent. See graph.make_state() for the meaning of "nodes" and "at_end". """ return self.graph.make_state(nodes=nodes, at_end=at_end, real_apps=list(self.unmigrated_apps)) def collect_sql(self, plan): """ Take a migration plan and return 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.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