import re import pkg_resources import yaml from django.apps import apps from django.apps.config import AppConfig from django.core.exceptions import ObjectDoesNotExist from django.db import connections, models from django.db.models import CharField, TextField from django.db.models.base import ModelBase from model_mommy import mommy from model_mommy.mommy import foreign_key_required, make from base.models import ProblemaMigracao from comissoes.models import Composicao, Participacao from materia.models import StatusTramitacao, Tramitacao from norma.models import NormaJuridica from parlamentares.models import Parlamentar from sessao.models import OrdemDia, SessaoPlenaria # BASE ###################################################################### # apps to be migrated, in app dependency order (very important) appconfs = [apps.get_app_config(n) for n in [ 'parlamentares', 'comissoes', 'materia', 'norma', 'sessao', 'lexml', 'protocoloadm', ]] unique_constraints = [] name_sets = [set(m.__name__ for m in ac.get_models()) for ac in appconfs] # apps do not overlap for s1 in name_sets: for s2 in name_sets: if s1 is not s2: assert not s1.intersection(s2) # apps include all legacy models legacy_app = apps.get_app_config('legacy') legacy_model_names = set(m.__name__ for m in legacy_app.get_models()) model_dict = {m.__name__: m for ac in appconfs for m in ac.get_models()} # RENAMES ################################################################### MODEL_RENAME_PATTERN = re.compile('(.+) \((.+)\)') def get_renames(): field_renames = {} model_renames = {} for app in appconfs: app_rename_data = yaml.load( pkg_resources.resource_string(app.module.__name__, 'legacy.yaml')) for model_name, renames in app_rename_data.items(): match = MODEL_RENAME_PATTERN.match(model_name) if match: model_name, old_name = match.groups() else: old_name = None model = getattr(app.models_module, model_name) if old_name: model_renames[model] = old_name field_renames[model] = renames # collect renames from parent classes for model, renames in field_renames.items(): if any(parent in field_renames for parent in model.__mro__[1:]): renames = {} for parent in reversed(model.__mro__): if parent in field_renames: renames.update(field_renames[parent]) field_renames[model] = renames # remove abstract classes field_renames = {m: r for m, r in field_renames.items() if not m._meta.abstract} return field_renames, model_renames # MIGRATION ################################################################# def info(msg): print('INFO: ' + msg) def warn(msg): print('CUIDADO! ' + msg) def get_fk_related(field, value, label=None): if value is None and field.null is False: value = 0 if value is not None: try: value = field.related_model.objects.get(id=value) except ObjectDoesNotExist: msg = 'FK [%s] não encontrada para valor %s ' \ '(em %s %s)' % ( field.name, value, field.model.__name__, label or '---') if value == 0: if not field.null: fields_dict = get_fields_dict(field.related_model) value = mommy.make(field.related_model, **fields_dict) descricao = 'stub criado para campos não nuláveis!' save_relation(value, msg, descricao, eh_stub=True) warn(msg + ' => ' + descricao) else: value = None else: value = make_stub(field.related_model, value) descricao = 'stub criado para entrada orfã!' warn(msg + ' => ' + descricao) save_relation(value, msg, descricao, eh_stub=True) else: assert value return value def get_field(model, fieldname): return model._meta.get_field(fieldname) def exec_sql(sql, db='default'): cursor = connections[db].cursor() cursor.execute(sql) return cursor def iter_sql_records(sql, db): class Record: pass cursor = exec_sql(sql, db) fieldnames = [name[0] for name in cursor.description] for row in cursor.fetchall(): record = Record() record.__dict__.update(zip(fieldnames, row)) yield record def delete_constraints(model): # pega nome da unique constraint dado o nome da tabela table = model._meta.db_table cursor = exec_sql("SELECT conname FROM pg_constraint WHERE conrelid = " "(SELECT oid FROM pg_class WHERE relname LIKE " "'%s') and contype = 'u';" % (table)) result = cursor.fetchone() # se existir um resultado, unique constraint será deletado if result: warn('Excluindo unique constraint de nome %s' % result) args = model._meta.unique_together[0] args_list = list(args) unique_constraints.append([table, result[0], args_list, model]) exec_sql("ALTER TABLE %s DROP CONSTRAINT %s;" % (table, result[0])) def recreate_constraints(): if unique_constraints: for constraint in unique_constraints: table, name, args, model = constraint for i in range(len(args)): if isinstance(model._meta.get_field(args[i]), models.ForeignKey): args[i] = args[i] + '_id' args_string = '' args_string += "(" + ', '.join(map(str, args)) + ")" exec_sql("ALTER TABLE %s ADD CONSTRAINT %s UNIQUE %s;" % (table, name, args_string)) unique_constraints.clear() def stub_desnecessario(obj): lista_fields = [ f for f in obj._meta.get_fields() if (f.one_to_many or f.one_to_one) and f.auto_created ] desnecessario = not any( rr.related_model.objects.filter(**{rr.field.name: obj}).exists() for rr in lista_fields) return desnecessario def save_with_id(new, id): sequence_name = '%s_id_seq' % type(new)._meta.db_table cursor = exec_sql('SELECT last_value from %s;' % sequence_name) (last_value,) = cursor.fetchone() if last_value == 1 or id != last_value + 1: # we explicitly set the next id if last_value == 1 # because last_value == 1 for a table containing either 0 or 1 records # (we would have trouble for id == 2 and a missing id == 1) exec_sql('ALTER SEQUENCE %s RESTART WITH %s;' % (sequence_name, id)) new.save() assert new.id == id, 'New id is different from provided!' def save_relation(obj, problema='', descricao='', eh_stub=False): link = ProblemaMigracao(content_object=obj, problema=problema, descricao=descricao, eh_stub=eh_stub) link.save() def make_stub(model, id): fields_dict = get_fields_dict(model) new = mommy.prepare(model, **fields_dict) save_with_id(new, id) return new def get_fields_dict(model): all_fields = model._meta.get_fields() fields_dict = {} fields_dict = {f.name: '????????????'[:f.max_length] for f in all_fields if isinstance(f, (CharField, TextField)) and not f.choices and not f.blank} return fields_dict class DataMigrator: def __init__(self): self.field_renames, self.model_renames = get_renames() self.data_mudada = {} self.choice_valida = {} def populate_renamed_fields(self, new, old): renames = self.field_renames[type(new)] for field in new._meta.fields: old_field_name = renames.get(field.name) field_type = field.get_internal_type() msg = ("O valor do campo %s (%s) da model %s era inválido" % (field.name, field_type, field.model.__name__)) if old_field_name: old_value = getattr(old, old_field_name) if isinstance(field, models.ForeignKey): old_type = type(old) # not necessarily a model if hasattr(old_type, '_meta') and \ old_type._meta.pk.name != 'id': label = old.pk else: label = '-- SEM PK --' value = get_fk_related(field, old_value, label) else: value = getattr(old, old_field_name) if field_type == 'DateField' and \ not field.null and value is None: descricao = 'A data 0001-01-01 foi colocada no lugar' warn(msg + ' => ' + descricao) value = '0001-01-01' self.data_mudada['obj'] = new self.data_mudada['descricao'] = descricao self.data_mudada['problema'] = msg if field_type in ('CharField', 'TextField') and field.blank \ and value is None: value = '' setattr(new, field.name, value) def migrate(self, obj=appconfs): # warning: model/app migration order is of utmost importance self.to_delete = [] ProblemaMigracao.objects.all().delete() info('Começando migração: %s...' % obj) self._do_migrate(obj) # exclude logically deleted in legacy base info('Deletando models com ind_excluido...') for obj in self.to_delete: obj.delete() info('Deletando stubs desnecessários...') while self.delete_stubs(): pass info('Recriando unique constraints...') recreate_constraints() def _do_migrate(self, obj): if isinstance(obj, AppConfig): models_to_migrate = (model for model in obj.models.values() if model in self.field_renames) self._do_migrate(models_to_migrate) elif isinstance(obj, ModelBase): self.migrate_model(obj) elif hasattr(obj, '__iter__'): for item in obj: self._do_migrate(item) else: raise TypeError( 'Parameter must be a Model, AppConfig or a sequence of them') def migrate_model(self, model): print('Migrando %s...' % model.__name__) legacy_model_name = self.model_renames.get(model, model.__name__) legacy_model = legacy_app.get_model(legacy_model_name) legacy_pk_name = legacy_model._meta.pk.name # Clear all model entries # They may have been created in a previous migration attempt model.objects.all().delete() delete_constraints(model) # setup migration strategy for tables with or without a pk if legacy_pk_name == 'id': # There is no pk in the legacy table def save(new, old): new.save() old_records = iter_sql_records( 'select * from ' + legacy_model._meta.db_table, 'legacy') else: def save(new, old): save_with_id(new, getattr(old, legacy_pk_name)) old_records = legacy_model.objects.all().order_by(legacy_pk_name) adjust = MIGRATION_ADJUSTMENTS.get(model) # convert old records to new ones for old in old_records: new = model() self.populate_renamed_fields(new, old) if adjust: adjust(new, old) save(new, old) if self.data_mudada: save_relation(**self.data_mudada) self.data_mudada.clear() if getattr(old, 'ind_excluido', False): self.to_delete.append(new) def delete_stubs(self): excluidos = 0 for obj in ProblemaMigracao.objects.all(): if obj.content_object and obj.eh_stub: original = obj.content_type.get_all_objects_for_this_type( id=obj.object_id) if stub_desnecessario(original[0]): qtd_exclusoes, *_ = original.delete() assert qtd_exclusoes == 1 qtd_exclusoes, *_ = obj.delete() assert qtd_exclusoes == 1 excluidos = excluidos + 1 elif not obj.content_object and not obj.eh_stub: qtd_exclusoes, *_ = obj.delete() assert qtd_exclusoes == 1 excluidos = excluidos + 1 return excluidos def migrate(obj=appconfs): dm = DataMigrator() dm.migrate(obj) # MIGRATION_ADJUSTMENTS ##################################################### def adjust_participacao(new_participacao, old): composicao = Composicao() composicao.comissao, composicao.periodo = [ get_fk_related(Composicao._meta.get_field(name), value) for name, value in (('comissao', old.cod_comissao), ('periodo', old.cod_periodo_comp))] # check if there is already an "equal" one in the db already_created = Composicao.objects.filter( comissao=composicao.comissao, periodo=composicao.periodo) if already_created: assert len(already_created) == 1 # we must never have made 2 copies [composicao] = already_created else: composicao.save() new_participacao.composicao = composicao def adjust_parlamentar(new_parlamentar, old): if old.ind_unid_deliberativa: value = new_parlamentar.unidade_deliberativa # Field is defined as not null in legacy db, # but data includes null values # => transform None to False if value is None: warn('nulo convertido para falso') new_parlamentar.unidade_deliberativa = False def adjust_normajuridica(new, old): # O 'S' vem de 'Selecionar'. Na versão antiga do SAPL, quando uma opção do # combobox era selecionada, o sistema pegava a primeira letra da seleção, # sendo F para Federal, E para Estadual, M para Municipal e o S para # Selecionar, que era a primeira opção quando nada era selecionado. if old.tip_esfera_federacao == 'S': new.esfera_federacao = '' def adjust_ordemdia(new, old): # Prestar atenção if not old.tip_votacao: new.tipo_votacao = 1 def adjust_statustramitacao(new, old): if old.ind_fim_tramitacao: new.indicador = 'F' elif old.ind_retorno_tramitacao: new.indicador = 'R' else: new.indicador = '' def adjust_tramitacao(new, old): if old.sgl_turno == 'Ú': new.turno = 'U' def adjust_sessaoplenaria(new, old): assert not old.tip_expediente MIGRATION_ADJUSTMENTS = { NormaJuridica: adjust_normajuridica, OrdemDia: adjust_ordemdia, Participacao: adjust_participacao, Parlamentar: adjust_parlamentar, SessaoPlenaria: adjust_sessaoplenaria, StatusTramitacao: adjust_statustramitacao, Tramitacao: adjust_tramitacao, } # CHECKS #################################################################### def get_ind_excluido(obj): legacy_model = legacy_app.get_model(type(obj).__name__) return getattr(legacy_model.objects.get( **{legacy_model._meta.pk.name: obj.id}), 'ind_excluido', False) def check_app_no_ind_excluido(app): for model in app.models.values(): assert not any(get_ind_excluido(obj) for obj in model.objects.all()) print('OK!') # MOMMY MAKE WITH LOG ###################################################### def make_with_log(model, _quantity=None, make_m2m=False, **attrs): fields_dict = get_fields_dict(model) stub = make(model, _quantity, make_m2m, **fields_dict) problema = 'Um stub foi necessário durante a criação de um outro stub' descricao = 'Essa entrada é necessária para um dos stubs criados' ' anteriormente' warn(problema) save_relation(stub, problema, descricao, eh_stub=True) return stub make_with_log.required = foreign_key_required