from django.db.backends.base.schema import BaseDatabaseSchemaEditor from django.db.models import NOT_PROVIDED class DatabaseSchemaEditor(BaseDatabaseSchemaEditor): sql_rename_table = "RENAME TABLE %(old_table)s TO %(new_table)s" sql_alter_column_null = "MODIFY %(column)s %(type)s NULL" sql_alter_column_not_null = "MODIFY %(column)s %(type)s NOT NULL" sql_alter_column_type = "MODIFY %(column)s %(type)s" sql_alter_column_collate = "MODIFY %(column)s %(type)s%(collation)s" sql_alter_column_no_default_null = "ALTER COLUMN %(column)s SET DEFAULT NULL" # No 'CASCADE' which works as a no-op in MySQL but is undocumented sql_delete_column = "ALTER TABLE %(table)s DROP COLUMN %(column)s" sql_delete_unique = "ALTER TABLE %(table)s DROP INDEX %(name)s" sql_create_column_inline_fk = ( ", ADD CONSTRAINT %(name)s FOREIGN KEY (%(column)s) " "REFERENCES %(to_table)s(%(to_column)s)" ) sql_delete_fk = "ALTER TABLE %(table)s DROP FOREIGN KEY %(name)s" sql_delete_index = "DROP INDEX %(name)s ON %(table)s" sql_rename_index = "ALTER TABLE %(table)s RENAME INDEX %(old_name)s TO %(new_name)s" sql_create_pk = ( "ALTER TABLE %(table)s ADD CONSTRAINT %(name)s PRIMARY KEY (%(columns)s)" ) sql_delete_pk = "ALTER TABLE %(table)s DROP PRIMARY KEY" sql_create_index = "CREATE INDEX %(name)s ON %(table)s (%(columns)s)%(extra)s" @property def sql_delete_check(self): if self.connection.mysql_is_mariadb: # The name of the column check constraint is the same as the field # name on MariaDB. Adding IF EXISTS clause prevents migrations # crash. Constraint is removed during a "MODIFY" column statement. return "ALTER TABLE %(table)s DROP CONSTRAINT IF EXISTS %(name)s" return "ALTER TABLE %(table)s DROP CHECK %(name)s" @property def sql_rename_column(self): # MariaDB >= 10.5.2 and MySQL >= 8.0.4 support an # "ALTER TABLE ... RENAME COLUMN" statement. if self.connection.mysql_is_mariadb: if self.connection.mysql_version >= (10, 5, 2): return super().sql_rename_column elif self.connection.mysql_version >= (8, 0, 4): return super().sql_rename_column return "ALTER TABLE %(table)s CHANGE %(old_column)s %(new_column)s %(type)s" def quote_value(self, value): self.connection.ensure_connection() if isinstance(value, str): value = value.replace("%", "%%") # MySQLdb escapes to string, PyMySQL to bytes. quoted = self.connection.connection.escape( value, self.connection.connection.encoders ) if isinstance(value, str) and isinstance(quoted, bytes): quoted = quoted.decode() return quoted def _is_limited_data_type(self, field): db_type = field.db_type(self.connection) return ( db_type is not None and db_type.lower() in self.connection._limited_data_types ) def skip_default(self, field): if not self._supports_limited_data_type_defaults: return self._is_limited_data_type(field) return False def skip_default_on_alter(self, field): if self._is_limited_data_type(field) and not self.connection.mysql_is_mariadb: # MySQL doesn't support defaults for BLOB and TEXT in the # ALTER COLUMN statement. return True return False @property def _supports_limited_data_type_defaults(self): # MariaDB and MySQL >= 8.0.13 support defaults for BLOB and TEXT. if self.connection.mysql_is_mariadb: return True return self.connection.mysql_version >= (8, 0, 13) def _column_default_sql(self, field): if ( not self.connection.mysql_is_mariadb and self._supports_limited_data_type_defaults and self._is_limited_data_type(field) ): # MySQL supports defaults for BLOB and TEXT columns only if the # default value is written as an expression i.e. in parentheses. return "(%s)" return super()._column_default_sql(field) def add_field(self, model, field): super().add_field(model, field) # Simulate the effect of a one-off default. # field.default may be unhashable, so a set isn't used for "in" check. if self.skip_default(field) and field.default not in (None, NOT_PROVIDED): effective_default = self.effective_default(field) self.execute( "UPDATE %(table)s SET %(column)s = %%s" % { "table": self.quote_name(model._meta.db_table), "column": self.quote_name(field.column), }, [effective_default], ) def _field_should_be_indexed(self, model, field): if not super()._field_should_be_indexed(model, field): return False storage = self.connection.introspection.get_storage_engine( self.connection.cursor(), model._meta.db_table ) # No need to create an index for ForeignKey fields except if # db_constraint=False because the index from that constraint won't be # created. if ( storage == "InnoDB" and field.get_internal_type() == "ForeignKey" and field.db_constraint ): return False return not self._is_limited_data_type(field) def _delete_composed_index(self, model, fields, *args): """ MySQL can remove an implicit FK index on a field when that field is covered by another index like a unique_together. "covered" here means that the more complex index starts like the simpler one. https://bugs.mysql.com/bug.php?id=37910 / Django ticket #24757 We check here before removing the [unique|index]_together if we have to recreate a FK index. """ first_field = model._meta.get_field(fields[0]) if first_field.get_internal_type() == "ForeignKey": constraint_names = self._constraint_names( model, [first_field.column], index=True ) if not constraint_names: self.execute( self._create_index_sql(model, fields=[first_field], suffix="") ) return super()._delete_composed_index(model, fields, *args) def _set_field_new_type_null_status(self, field, new_type): """ Keep the null property of the old field. If it has changed, it will be handled separately. """ if field.null: new_type += " NULL" else: new_type += " NOT NULL" return new_type def _alter_column_type_sql(self, model, old_field, new_field, new_type): new_type = self._set_field_new_type_null_status(old_field, new_type) return super()._alter_column_type_sql(model, old_field, new_field, new_type) def _rename_field_sql(self, table, old_field, new_field, new_type): new_type = self._set_field_new_type_null_status(old_field, new_type) return super()._rename_field_sql(table, old_field, new_field, new_type)