import os import re from io import StringIO from unittest import mock, skipUnless from django.core.management import call_command from django.db import connection from django.db.backends.base.introspection import TableInfo from django.test import TestCase, TransactionTestCase, skipUnlessDBFeature from .models import PeopleMoreData, test_collation def inspectdb_tables_only(table_name): """ Limit introspection to tables created for models of this app. Some databases such as Oracle are extremely slow at introspection. """ return table_name.startswith("inspectdb_") def inspectdb_views_only(table_name): return table_name.startswith("inspectdb_") and table_name.endswith( ("_materialized", "_view") ) def special_table_only(table_name): return table_name.startswith("inspectdb_special") class InspectDBTestCase(TestCase): unique_re = re.compile(r".*unique_together = \((.+),\).*") def test_stealth_table_name_filter_option(self): out = StringIO() call_command("inspectdb", table_name_filter=inspectdb_tables_only, stdout=out) error_message = ( "inspectdb has examined a table that should have been filtered out." ) # contrib.contenttypes is one of the apps always installed when running # the Django test suite, check that one of its tables hasn't been # inspected self.assertNotIn( "class DjangoContentType(models.Model):", out.getvalue(), msg=error_message ) def test_table_option(self): """ inspectdb can inspect a subset of tables by passing the table names as arguments. """ out = StringIO() call_command("inspectdb", "inspectdb_people", stdout=out) output = out.getvalue() self.assertIn("class InspectdbPeople(models.Model):", output) self.assertNotIn("InspectdbPeopledata", output) def make_field_type_asserter(self): """ Call inspectdb and return a function to validate a field type in its output. """ out = StringIO() call_command("inspectdb", "inspectdb_columntypes", stdout=out) output = out.getvalue() def assertFieldType(name, definition): out_def = re.search(r"^\s*%s = (models.*)$" % name, output, re.MULTILINE)[1] self.assertEqual(definition, out_def) return assertFieldType def test_field_types(self): """Test introspection of various Django field types""" assertFieldType = self.make_field_type_asserter() introspected_field_types = connection.features.introspected_field_types char_field_type = introspected_field_types["CharField"] # Inspecting Oracle DB doesn't produce correct results (#19884): # - it reports fields as blank=True when they aren't. if ( not connection.features.interprets_empty_strings_as_nulls and char_field_type == "CharField" ): assertFieldType("char_field", "models.CharField(max_length=10)") assertFieldType( "null_char_field", "models.CharField(max_length=10, blank=True, null=True)", ) assertFieldType("email_field", "models.CharField(max_length=254)") assertFieldType("file_field", "models.CharField(max_length=100)") assertFieldType("file_path_field", "models.CharField(max_length=100)") assertFieldType("slug_field", "models.CharField(max_length=50)") assertFieldType("text_field", "models.TextField()") assertFieldType("url_field", "models.CharField(max_length=200)") if char_field_type == "TextField": assertFieldType("char_field", "models.TextField()") assertFieldType( "null_char_field", "models.TextField(blank=True, null=True)" ) assertFieldType("email_field", "models.TextField()") assertFieldType("file_field", "models.TextField()") assertFieldType("file_path_field", "models.TextField()") assertFieldType("slug_field", "models.TextField()") assertFieldType("text_field", "models.TextField()") assertFieldType("url_field", "models.TextField()") assertFieldType("date_field", "models.DateField()") assertFieldType("date_time_field", "models.DateTimeField()") if introspected_field_types["GenericIPAddressField"] == "GenericIPAddressField": assertFieldType("gen_ip_address_field", "models.GenericIPAddressField()") elif not connection.features.interprets_empty_strings_as_nulls: assertFieldType("gen_ip_address_field", "models.CharField(max_length=39)") assertFieldType( "time_field", "models.%s()" % introspected_field_types["TimeField"] ) if connection.features.has_native_uuid_field: assertFieldType("uuid_field", "models.UUIDField()") elif not connection.features.interprets_empty_strings_as_nulls: assertFieldType("uuid_field", "models.CharField(max_length=32)") @skipUnlessDBFeature("can_introspect_json_field", "supports_json_field") def test_json_field(self): out = StringIO() call_command("inspectdb", "inspectdb_jsonfieldcolumntype", stdout=out) output = out.getvalue() if not connection.features.interprets_empty_strings_as_nulls: self.assertIn("json_field = models.JSONField()", output) self.assertIn( "null_json_field = models.JSONField(blank=True, null=True)", output ) @skipUnlessDBFeature("supports_collation_on_charfield") @skipUnless(test_collation, "Language collations are not supported.") def test_char_field_db_collation(self): out = StringIO() call_command("inspectdb", "inspectdb_charfielddbcollation", stdout=out) output = out.getvalue() if not connection.features.interprets_empty_strings_as_nulls: self.assertIn( "char_field = models.CharField(max_length=10, " "db_collation='%s')" % test_collation, output, ) else: self.assertIn( "char_field = models.CharField(max_length=10, " "db_collation='%s', blank=True, null=True)" % test_collation, output, ) @skipUnlessDBFeature("supports_collation_on_textfield") @skipUnless(test_collation, "Language collations are not supported.") def test_text_field_db_collation(self): out = StringIO() call_command("inspectdb", "inspectdb_textfielddbcollation", stdout=out) output = out.getvalue() if not connection.features.interprets_empty_strings_as_nulls: self.assertIn( "text_field = models.TextField(db_collation='%s')" % test_collation, output, ) else: self.assertIn( "text_field = models.TextField(db_collation='%s, blank=True, " "null=True)" % test_collation, output, ) def test_number_field_types(self): """Test introspection of various Django field types""" assertFieldType = self.make_field_type_asserter() introspected_field_types = connection.features.introspected_field_types auto_field_type = connection.features.introspected_field_types["AutoField"] if auto_field_type != "AutoField": assertFieldType( "id", "models.%s(primary_key=True) # AutoField?" % auto_field_type ) assertFieldType( "big_int_field", "models.%s()" % introspected_field_types["BigIntegerField"] ) bool_field_type = introspected_field_types["BooleanField"] assertFieldType("bool_field", "models.{}()".format(bool_field_type)) assertFieldType( "null_bool_field", "models.{}(blank=True, null=True)".format(bool_field_type), ) if connection.vendor != "sqlite": assertFieldType( "decimal_field", "models.DecimalField(max_digits=6, decimal_places=1)" ) else: # Guessed arguments on SQLite, see #5014 assertFieldType( "decimal_field", "models.DecimalField(max_digits=10, decimal_places=5) " "# max_digits and decimal_places have been guessed, " "as this database handles decimal fields as float", ) assertFieldType("float_field", "models.FloatField()") assertFieldType( "int_field", "models.%s()" % introspected_field_types["IntegerField"] ) assertFieldType( "pos_int_field", "models.%s()" % introspected_field_types["PositiveIntegerField"], ) assertFieldType( "pos_big_int_field", "models.%s()" % introspected_field_types["PositiveBigIntegerField"], ) assertFieldType( "pos_small_int_field", "models.%s()" % introspected_field_types["PositiveSmallIntegerField"], ) assertFieldType( "small_int_field", "models.%s()" % introspected_field_types["SmallIntegerField"], ) @skipUnlessDBFeature("can_introspect_foreign_keys") def test_attribute_name_not_python_keyword(self): out = StringIO() call_command("inspectdb", table_name_filter=inspectdb_tables_only, stdout=out) output = out.getvalue() error_message = ( "inspectdb generated an attribute name which is a Python keyword" ) # Recursive foreign keys should be set to 'self' self.assertIn("parent = models.ForeignKey('self', models.DO_NOTHING)", output) self.assertNotIn( "from = models.ForeignKey(InspectdbPeople, models.DO_NOTHING)", output, msg=error_message, ) # As InspectdbPeople model is defined after InspectdbMessage, it should # be quoted. self.assertIn( "from_field = models.ForeignKey('InspectdbPeople', models.DO_NOTHING, " "db_column='from_id')", output, ) self.assertIn( "people_pk = models.OneToOneField(InspectdbPeople, models.DO_NOTHING, " "primary_key=True)", output, ) self.assertIn( "people_unique = models.OneToOneField(InspectdbPeople, models.DO_NOTHING)", output, ) @skipUnlessDBFeature("can_introspect_foreign_keys") def test_foreign_key_to_field(self): out = StringIO() call_command("inspectdb", "inspectdb_foreignkeytofield", stdout=out) self.assertIn( "to_field_fk = models.ForeignKey('InspectdbPeoplemoredata', " "models.DO_NOTHING, to_field='people_unique_id')", out.getvalue(), ) def test_digits_column_name_introspection(self): """Introspection of column names consist/start with digits (#16536/#17676)""" char_field_type = connection.features.introspected_field_types["CharField"] out = StringIO() call_command("inspectdb", "inspectdb_digitsincolumnname", stdout=out) output = out.getvalue() error_message = "inspectdb generated a model field name which is a number" self.assertNotIn( " 123 = models.%s" % char_field_type, output, msg=error_message ) self.assertIn("number_123 = models.%s" % char_field_type, output) error_message = ( "inspectdb generated a model field name which starts with a digit" ) self.assertNotIn( " 4extra = models.%s" % char_field_type, output, msg=error_message ) self.assertIn("number_4extra = models.%s" % char_field_type, output) self.assertNotIn( " 45extra = models.%s" % char_field_type, output, msg=error_message ) self.assertIn("number_45extra = models.%s" % char_field_type, output) def test_special_column_name_introspection(self): """ Introspection of column names containing special characters, unsuitable for Python identifiers """ out = StringIO() call_command("inspectdb", table_name_filter=special_table_only, stdout=out) output = out.getvalue() base_name = connection.introspection.identifier_converter("Field") integer_field_type = connection.features.introspected_field_types[ "IntegerField" ] self.assertIn("field = models.%s()" % integer_field_type, output) self.assertIn( "field_field = models.%s(db_column='%s_')" % (integer_field_type, base_name), output, ) self.assertIn( "field_field_0 = models.%s(db_column='%s__')" % (integer_field_type, base_name), output, ) self.assertIn( "field_field_1 = models.%s(db_column='__field')" % integer_field_type, output, ) self.assertIn( "prc_x = models.{}(db_column='prc(%) x')".format(integer_field_type), output ) self.assertIn("tamaƱo = models.%s()" % integer_field_type, output) def test_table_name_introspection(self): """ Introspection of table names containing special characters, unsuitable for Python identifiers """ out = StringIO() call_command("inspectdb", table_name_filter=special_table_only, stdout=out) output = out.getvalue() self.assertIn("class InspectdbSpecialTableName(models.Model):", output) @skipUnlessDBFeature("supports_expression_indexes") def test_table_with_func_unique_constraint(self): out = StringIO() call_command("inspectdb", "inspectdb_funcuniqueconstraint", stdout=out) output = out.getvalue() self.assertIn("class InspectdbFuncuniqueconstraint(models.Model):", output) def test_managed_models(self): """ By default the command generates models with `Meta.managed = False`. """ out = StringIO() call_command("inspectdb", "inspectdb_columntypes", stdout=out) output = out.getvalue() self.longMessage = False self.assertIn( " managed = False", output, msg="inspectdb should generate unmanaged models.", ) def test_unique_together_meta(self): out = StringIO() call_command("inspectdb", "inspectdb_uniquetogether", stdout=out) output = out.getvalue() self.assertIn(" unique_together = (('", output) unique_together_match = self.unique_re.findall(output) # There should be one unique_together tuple. self.assertEqual(len(unique_together_match), 1) fields = unique_together_match[0] # Fields with db_column = field name. self.assertIn("('field1', 'field2')", fields) # Fields from columns whose names are Python keywords. self.assertIn("('field1', 'field2')", fields) # Fields whose names normalize to the same Python field name and hence # are given an integer suffix. self.assertIn("('non_unique_column', 'non_unique_column_0')", fields) @skipUnless(connection.vendor == "postgresql", "PostgreSQL specific SQL") def test_unsupported_unique_together(self): """Unsupported index types (COALESCE here) are skipped.""" with connection.cursor() as c: c.execute( "CREATE UNIQUE INDEX Findex ON %s " "(id, people_unique_id, COALESCE(message_id, -1))" % PeopleMoreData._meta.db_table ) try: out = StringIO() call_command( "inspectdb", table_name_filter=lambda tn: tn.startswith( PeopleMoreData._meta.db_table ), stdout=out, ) output = out.getvalue() self.assertIn("# A unique constraint could not be introspected.", output) self.assertEqual( self.unique_re.findall(output), ["('id', 'people_unique')"] ) finally: with connection.cursor() as c: c.execute("DROP INDEX Findex") @skipUnless( connection.vendor == "sqlite", "Only patched sqlite's DatabaseIntrospection.data_types_reverse for this test", ) def test_custom_fields(self): """ Introspection of columns with a custom field (#21090) """ out = StringIO() with mock.patch( "django.db.connection.introspection.data_types_reverse." "base_data_types_reverse", { "text": "myfields.TextField", "bigint": "BigIntegerField", }, ): call_command("inspectdb", "inspectdb_columntypes", stdout=out) output = out.getvalue() self.assertIn("text_field = myfields.TextField()", output) self.assertIn("big_int_field = models.BigIntegerField()", output) def test_introspection_errors(self): """ Introspection errors should not crash the command, and the error should be visible in the output. """ out = StringIO() with mock.patch( "django.db.connection.introspection.get_table_list", return_value=[TableInfo(name="nonexistent", type="t")], ): call_command("inspectdb", stdout=out) output = out.getvalue() self.assertIn("# Unable to inspect table 'nonexistent'", output) # The error message depends on the backend self.assertIn("# The error was:", output) def test_same_relations(self): out = StringIO() call_command("inspectdb", "inspectdb_message", stdout=out) self.assertIn( "author = models.ForeignKey('InspectdbPeople', models.DO_NOTHING, " "related_name='inspectdbmessage_author_set')", out.getvalue(), ) class InspectDBTransactionalTests(TransactionTestCase): available_apps = ["inspectdb"] def test_include_views(self): """inspectdb --include-views creates models for database views.""" with connection.cursor() as cursor: cursor.execute( "CREATE VIEW inspectdb_people_view AS " "SELECT id, name FROM inspectdb_people" ) out = StringIO() view_model = "class InspectdbPeopleView(models.Model):" view_managed = "managed = False # Created from a view." try: call_command( "inspectdb", table_name_filter=inspectdb_views_only, stdout=out, ) no_views_output = out.getvalue() self.assertNotIn(view_model, no_views_output) self.assertNotIn(view_managed, no_views_output) call_command( "inspectdb", table_name_filter=inspectdb_views_only, include_views=True, stdout=out, ) with_views_output = out.getvalue() self.assertIn(view_model, with_views_output) self.assertIn(view_managed, with_views_output) finally: with connection.cursor() as cursor: cursor.execute("DROP VIEW inspectdb_people_view") @skipUnlessDBFeature("can_introspect_materialized_views") def test_include_materialized_views(self): """inspectdb --include-views creates models for materialized views.""" with connection.cursor() as cursor: cursor.execute( "CREATE MATERIALIZED VIEW inspectdb_people_materialized AS " "SELECT id, name FROM inspectdb_people" ) out = StringIO() view_model = "class InspectdbPeopleMaterialized(models.Model):" view_managed = "managed = False # Created from a view." try: call_command( "inspectdb", table_name_filter=inspectdb_views_only, stdout=out, ) no_views_output = out.getvalue() self.assertNotIn(view_model, no_views_output) self.assertNotIn(view_managed, no_views_output) call_command( "inspectdb", table_name_filter=inspectdb_views_only, include_views=True, stdout=out, ) with_views_output = out.getvalue() self.assertIn(view_model, with_views_output) self.assertIn(view_managed, with_views_output) finally: with connection.cursor() as cursor: cursor.execute("DROP MATERIALIZED VIEW inspectdb_people_materialized") @skipUnless(connection.vendor == "postgresql", "PostgreSQL specific SQL") def test_include_partitions(self): """inspectdb --include-partitions creates models for partitions.""" with connection.cursor() as cursor: cursor.execute( """\ CREATE TABLE inspectdb_partition_parent (name text not null) PARTITION BY LIST (left(upper(name), 1)) """ ) cursor.execute( """\ CREATE TABLE inspectdb_partition_child PARTITION OF inspectdb_partition_parent FOR VALUES IN ('A', 'B', 'C') """ ) out = StringIO() partition_model_parent = "class InspectdbPartitionParent(models.Model):" partition_model_child = "class InspectdbPartitionChild(models.Model):" partition_managed = "managed = False # Created from a partition." try: call_command( "inspectdb", table_name_filter=inspectdb_tables_only, stdout=out ) no_partitions_output = out.getvalue() self.assertIn(partition_model_parent, no_partitions_output) self.assertNotIn(partition_model_child, no_partitions_output) self.assertNotIn(partition_managed, no_partitions_output) call_command( "inspectdb", table_name_filter=inspectdb_tables_only, include_partitions=True, stdout=out, ) with_partitions_output = out.getvalue() self.assertIn(partition_model_parent, with_partitions_output) self.assertIn(partition_model_child, with_partitions_output) self.assertIn(partition_managed, with_partitions_output) finally: with connection.cursor() as cursor: cursor.execute("DROP TABLE IF EXISTS inspectdb_partition_child") cursor.execute("DROP TABLE IF EXISTS inspectdb_partition_parent") @skipUnless(connection.vendor == "postgresql", "PostgreSQL specific SQL") def test_foreign_data_wrapper(self): with connection.cursor() as cursor: cursor.execute("CREATE EXTENSION IF NOT EXISTS file_fdw") cursor.execute( "CREATE SERVER inspectdb_server FOREIGN DATA WRAPPER file_fdw" ) cursor.execute( """\ CREATE FOREIGN TABLE inspectdb_iris_foreign_table ( petal_length real, petal_width real, sepal_length real, sepal_width real ) SERVER inspectdb_server OPTIONS ( filename %s ) """, [os.devnull], ) out = StringIO() foreign_table_model = "class InspectdbIrisForeignTable(models.Model):" foreign_table_managed = "managed = False" try: call_command( "inspectdb", table_name_filter=inspectdb_tables_only, stdout=out, ) output = out.getvalue() self.assertIn(foreign_table_model, output) self.assertIn(foreign_table_managed, output) finally: with connection.cursor() as cursor: cursor.execute( "DROP FOREIGN TABLE IF EXISTS inspectdb_iris_foreign_table" ) cursor.execute("DROP SERVER IF EXISTS inspectdb_server") cursor.execute("DROP EXTENSION IF EXISTS file_fdw") @skipUnlessDBFeature("create_test_table_with_composite_primary_key") def test_composite_primary_key(self): table_name = "test_table_composite_pk" with connection.cursor() as cursor: cursor.execute( connection.features.create_test_table_with_composite_primary_key ) out = StringIO() if connection.vendor == "sqlite": field_type = connection.features.introspected_field_types["AutoField"] else: field_type = connection.features.introspected_field_types["IntegerField"] try: call_command("inspectdb", table_name, stdout=out) output = out.getvalue() self.assertIn( f"column_1 = models.{field_type}(primary_key=True) # The composite " f"primary key (column_1, column_2) found, that is not supported. The " f"first column is selected.", output, ) self.assertIn( "column_2 = models.%s()" % connection.features.introspected_field_types["IntegerField"], output, ) finally: with connection.cursor() as cursor: cursor.execute("DROP TABLE %s" % table_name)