from __future__ import unicode_literals import datetime import re import uuid from django.conf import settings from django.db.backends.base.operations import BaseDatabaseOperations from django.db.backends.utils import truncate_name from django.utils import six, timezone from django.utils.encoding import force_bytes, force_text from .base import Database from .utils import InsertIdVar, Oracle_datetime, convert_unicode class DatabaseOperations(BaseDatabaseOperations): compiler_module = "django.db.backends.oracle.compiler" # Oracle uses NUMBER(11) and NUMBER(19) for integer fields. integer_field_ranges = { 'SmallIntegerField': (-99999999999, 99999999999), 'IntegerField': (-99999999999, 99999999999), 'BigIntegerField': (-9999999999999999999, 9999999999999999999), 'PositiveSmallIntegerField': (0, 99999999999), 'PositiveIntegerField': (0, 99999999999), } # TODO: colorize this SQL code with style.SQL_KEYWORD(), etc. _sequence_reset_sql = """ DECLARE table_value integer; seq_value integer; BEGIN SELECT NVL(MAX(%(column)s), 0) INTO table_value FROM %(table)s; SELECT NVL(last_number - cache_size, 0) INTO seq_value FROM user_sequences WHERE sequence_name = '%(sequence)s'; WHILE table_value > seq_value LOOP SELECT "%(sequence)s".nextval INTO seq_value FROM dual; END LOOP; END; /""" def autoinc_sql(self, table, column): # To simulate auto-incrementing primary keys in Oracle, we have to # create a sequence and a trigger. args = { 'sq_name': self._get_sequence_name(table), 'tr_name': self._get_trigger_name(table), 'tbl_name': self.quote_name(table), 'col_name': self.quote_name(column), } sequence_sql = """ DECLARE i INTEGER; BEGIN SELECT COUNT(1) INTO i FROM USER_SEQUENCES WHERE SEQUENCE_NAME = '%(sq_name)s'; IF i = 0 THEN EXECUTE IMMEDIATE 'CREATE SEQUENCE "%(sq_name)s"'; END IF; END; /""" % args trigger_sql = """ CREATE OR REPLACE TRIGGER "%(tr_name)s" BEFORE INSERT ON %(tbl_name)s FOR EACH ROW WHEN (new.%(col_name)s IS NULL) BEGIN SELECT "%(sq_name)s".nextval INTO :new.%(col_name)s FROM dual; END; /""" % args return sequence_sql, trigger_sql def cache_key_culling_sql(self): return """ SELECT cache_key FROM (SELECT cache_key, rank() OVER (ORDER BY cache_key) AS rank FROM %s) WHERE rank = %%s + 1 """ def date_extract_sql(self, lookup_type, field_name): if lookup_type == 'week_day': # TO_CHAR(field, 'D') returns an integer from 1-7, where 1=Sunday. return "TO_CHAR(%s, 'D')" % field_name else: # http://docs.oracle.com/cd/B19306_01/server.102/b14200/functions050.htm return "EXTRACT(%s FROM %s)" % (lookup_type.upper(), field_name) def date_interval_sql(self, timedelta): """ Implements the interval functionality for expressions format for Oracle: INTERVAL '3 00:03:20.000000' DAY(1) TO SECOND(6) """ minutes, seconds = divmod(timedelta.seconds, 60) hours, minutes = divmod(minutes, 60) days = str(timedelta.days) day_precision = len(days) fmt = "INTERVAL '%s %02d:%02d:%02d.%06d' DAY(%d) TO SECOND(6)" return fmt % (days, hours, minutes, seconds, timedelta.microseconds, day_precision), [] def date_trunc_sql(self, lookup_type, field_name): # http://docs.oracle.com/cd/B19306_01/server.102/b14200/functions230.htm#i1002084 if lookup_type in ('year', 'month'): return "TRUNC(%s, '%s')" % (field_name, lookup_type.upper()) else: return "TRUNC(%s)" % field_name # Oracle crashes with "ORA-03113: end-of-file on communication channel" # if the time zone name is passed in parameter. Use interpolation instead. # https://groups.google.com/forum/#!msg/django-developers/zwQju7hbG78/9l934yelwfsJ # This regexp matches all time zone names from the zoneinfo database. _tzname_re = re.compile(r'^[\w/:+-]+$') def _convert_field_to_tz(self, field_name, tzname): if not settings.USE_TZ: return field_name if not self._tzname_re.match(tzname): raise ValueError("Invalid time zone name: %s" % tzname) # Convert from UTC to local time, returning TIMESTAMP WITH TIME ZONE # and cast it back to TIMESTAMP to strip the TIME ZONE details. return "CAST((FROM_TZ(%s, '0:00') AT TIME ZONE '%s') AS TIMESTAMP)" % (field_name, tzname) def datetime_cast_date_sql(self, field_name, tzname): field_name = self._convert_field_to_tz(field_name, tzname) sql = 'TRUNC(%s)' % field_name return sql, [] def datetime_cast_time_sql(self, field_name, tzname): # Since `TimeField` values are stored as TIMESTAMP where only the date # part is ignored, convert the field to the specified timezone. field_name = self._convert_field_to_tz(field_name, tzname) return field_name, [] def datetime_extract_sql(self, lookup_type, field_name, tzname): field_name = self._convert_field_to_tz(field_name, tzname) sql = self.date_extract_sql(lookup_type, field_name) return sql, [] def datetime_trunc_sql(self, lookup_type, field_name, tzname): field_name = self._convert_field_to_tz(field_name, tzname) # http://docs.oracle.com/cd/B19306_01/server.102/b14200/functions230.htm#i1002084 if lookup_type in ('year', 'month'): sql = "TRUNC(%s, '%s')" % (field_name, lookup_type.upper()) elif lookup_type == 'day': sql = "TRUNC(%s)" % field_name elif lookup_type == 'hour': sql = "TRUNC(%s, 'HH24')" % field_name elif lookup_type == 'minute': sql = "TRUNC(%s, 'MI')" % field_name else: sql = "CAST(%s AS DATE)" % field_name # Cast to DATE removes sub-second precision. return sql, [] def time_trunc_sql(self, lookup_type, field_name): # The implementation is similar to `datetime_trunc_sql` as both # `DateTimeField` and `TimeField` are stored as TIMESTAMP where # the date part of the later is ignored. if lookup_type == 'hour': sql = "TRUNC(%s, 'HH24')" % field_name elif lookup_type == 'minute': sql = "TRUNC(%s, 'MI')" % field_name elif lookup_type == 'second': sql = "CAST(%s AS DATE)" % field_name # Cast to DATE removes sub-second precision. return sql def get_db_converters(self, expression): converters = super(DatabaseOperations, self).get_db_converters(expression) internal_type = expression.output_field.get_internal_type() if internal_type == 'TextField': converters.append(self.convert_textfield_value) elif internal_type == 'BinaryField': converters.append(self.convert_binaryfield_value) elif internal_type in ['BooleanField', 'NullBooleanField']: converters.append(self.convert_booleanfield_value) elif internal_type == 'DateTimeField': converters.append(self.convert_datetimefield_value) elif internal_type == 'DateField': converters.append(self.convert_datefield_value) elif internal_type == 'TimeField': converters.append(self.convert_timefield_value) elif internal_type == 'UUIDField': converters.append(self.convert_uuidfield_value) converters.append(self.convert_empty_values) return converters def convert_textfield_value(self, value, expression, connection, context): if isinstance(value, Database.LOB): value = force_text(value.read()) return value def convert_binaryfield_value(self, value, expression, connection, context): if isinstance(value, Database.LOB): value = force_bytes(value.read()) return value def convert_booleanfield_value(self, value, expression, connection, context): if value in (0, 1): value = bool(value) return value # cx_Oracle always returns datetime.datetime objects for # DATE and TIMESTAMP columns, but Django wants to see a # python datetime.date, .time, or .datetime. def convert_datetimefield_value(self, value, expression, connection, context): if value is not None: if settings.USE_TZ: value = timezone.make_aware(value, self.connection.timezone) return value def convert_datefield_value(self, value, expression, connection, context): if isinstance(value, Database.Timestamp): value = value.date() return value def convert_timefield_value(self, value, expression, connection, context): if isinstance(value, Database.Timestamp): value = value.time() return value def convert_uuidfield_value(self, value, expression, connection, context): if value is not None: value = uuid.UUID(value) return value def convert_empty_values(self, value, expression, connection, context): # Oracle stores empty strings as null. We need to undo this in # order to adhere to the Django convention of using the empty # string instead of null, but only if the field accepts the # empty string. field = expression.output_field if value is None and field.empty_strings_allowed: value = '' if field.get_internal_type() == 'BinaryField': value = b'' return value def deferrable_sql(self): return " DEFERRABLE INITIALLY DEFERRED" def fetch_returned_insert_id(self, cursor): return int(cursor._insert_id_var.getvalue()) def field_cast_sql(self, db_type, internal_type): if db_type and db_type.endswith('LOB'): return "DBMS_LOB.SUBSTR(%s)" else: return "%s" def last_executed_query(self, cursor, sql, params): # https://cx-oracle.readthedocs.io/en/latest/cursor.html#Cursor.statement # The DB API definition does not define this attribute. statement = cursor.statement if statement and six.PY2 and not isinstance(statement, unicode): # NOQA: unicode undefined on PY3 statement = statement.decode('utf-8') # Unlike Psycopg's `query` and MySQLdb`'s `_last_executed`, CxOracle's # `statement` doesn't contain the query parameters. refs #20010. return super(DatabaseOperations, self).last_executed_query(cursor, statement, params) def last_insert_id(self, cursor, table_name, pk_name): sq_name = self._get_sequence_name(table_name) cursor.execute('SELECT "%s".currval FROM dual' % sq_name) return cursor.fetchone()[0] def lookup_cast(self, lookup_type, internal_type=None): if lookup_type in ('iexact', 'icontains', 'istartswith', 'iendswith'): return "UPPER(%s)" return "%s" def max_in_list_size(self): return 1000 def max_name_length(self): return 30 def pk_default_value(self): return "NULL" def prep_for_iexact_query(self, x): return x def process_clob(self, value): if value is None: return '' return force_text(value.read()) def quote_name(self, name): # SQL92 requires delimited (quoted) names to be case-sensitive. When # not quoted, Oracle has case-insensitive behavior for identifiers, but # always defaults to uppercase. # We simplify things by making Oracle identifiers always uppercase. if not name.startswith('"') and not name.endswith('"'): name = '"%s"' % truncate_name(name.upper(), self.max_name_length()) # Oracle puts the query text into a (query % args) construct, so % signs # in names need to be escaped. The '%%' will be collapsed back to '%' at # that stage so we aren't really making the name longer here. name = name.replace('%', '%%') return name.upper() def random_function_sql(self): return "DBMS_RANDOM.RANDOM" def regex_lookup(self, lookup_type): if lookup_type == 'regex': match_option = "'c'" else: match_option = "'i'" return 'REGEXP_LIKE(%%s, %%s, %s)' % match_option def return_insert_id(self): return "RETURNING %s INTO %%s", (InsertIdVar(),) def savepoint_create_sql(self, sid): return convert_unicode("SAVEPOINT " + self.quote_name(sid)) def savepoint_rollback_sql(self, sid): return convert_unicode("ROLLBACK TO SAVEPOINT " + self.quote_name(sid)) def sql_flush(self, style, tables, sequences, allow_cascade=False): # Return a list of 'TRUNCATE x;', 'TRUNCATE y;', # 'TRUNCATE z;'... style SQL statements if tables: # Oracle does support TRUNCATE, but it seems to get us into # FK referential trouble, whereas DELETE FROM table works. sql = ['%s %s %s;' % ( style.SQL_KEYWORD('DELETE'), style.SQL_KEYWORD('FROM'), style.SQL_FIELD(self.quote_name(table)) ) for table in tables] # Since we've just deleted all the rows, running our sequence # ALTER code will reset the sequence to 0. sql.extend(self.sequence_reset_by_name_sql(style, sequences)) return sql else: return [] def sequence_reset_by_name_sql(self, style, sequences): sql = [] for sequence_info in sequences: sequence_name = self._get_sequence_name(sequence_info['table']) table_name = self.quote_name(sequence_info['table']) column_name = self.quote_name(sequence_info['column'] or 'id') query = self._sequence_reset_sql % { 'sequence': sequence_name, 'table': table_name, 'column': column_name, } sql.append(query) return sql def sequence_reset_sql(self, style, model_list): from django.db import models output = [] query = self._sequence_reset_sql for model in model_list: for f in model._meta.local_fields: if isinstance(f, models.AutoField): table_name = self.quote_name(model._meta.db_table) sequence_name = self._get_sequence_name(model._meta.db_table) column_name = self.quote_name(f.column) output.append(query % {'sequence': sequence_name, 'table': table_name, 'column': column_name}) # Only one AutoField is allowed per model, so don't # continue to loop break for f in model._meta.many_to_many: if not f.remote_field.through: table_name = self.quote_name(f.m2m_db_table()) sequence_name = self._get_sequence_name(f.m2m_db_table()) column_name = self.quote_name('id') output.append(query % {'sequence': sequence_name, 'table': table_name, 'column': column_name}) return output def start_transaction_sql(self): return '' def tablespace_sql(self, tablespace, inline=False): if inline: return "USING INDEX TABLESPACE %s" % self.quote_name(tablespace) else: return "TABLESPACE %s" % self.quote_name(tablespace) def adapt_datefield_value(self, value): """ Transform a date value to an object compatible with what is expected by the backend driver for date columns. The default implementation transforms the date to text, but that is not necessary for Oracle. """ return value def adapt_datetimefield_value(self, value): """ Transform a datetime value to an object compatible with what is expected by the backend driver for datetime columns. If naive datetime is passed assumes that is in UTC. Normally Django models.DateTimeField makes sure that if USE_TZ is True passed datetime is timezone aware. """ if value is None: return None # Expression values are adapted by the database. if hasattr(value, 'resolve_expression'): return value # cx_Oracle doesn't support tz-aware datetimes if timezone.is_aware(value): if settings.USE_TZ: value = timezone.make_naive(value, self.connection.timezone) else: raise ValueError("Oracle backend does not support timezone-aware datetimes when USE_TZ is False.") return Oracle_datetime.from_datetime(value) def adapt_timefield_value(self, value): if value is None: return None # Expression values are adapted by the database. if hasattr(value, 'resolve_expression'): return value if isinstance(value, six.string_types): return datetime.datetime.strptime(value, '%H:%M:%S') # Oracle doesn't support tz-aware times if timezone.is_aware(value): raise ValueError("Oracle backend does not support timezone-aware times.") return Oracle_datetime(1900, 1, 1, value.hour, value.minute, value.second, value.microsecond) def combine_expression(self, connector, sub_expressions): "Oracle requires special cases for %% and & operators in query expressions" if connector == '%%': return 'MOD(%s)' % ','.join(sub_expressions) elif connector == '&': return 'BITAND(%s)' % ','.join(sub_expressions) elif connector == '|': raise NotImplementedError("Bit-wise or is not supported in Oracle.") elif connector == '^': return 'POWER(%s)' % ','.join(sub_expressions) return super(DatabaseOperations, self).combine_expression(connector, sub_expressions) def _get_sequence_name(self, table): name_length = self.max_name_length() - 3 return '%s_SQ' % truncate_name(table, name_length).upper() def _get_trigger_name(self, table): name_length = self.max_name_length() - 3 return '%s_TR' % truncate_name(table, name_length).upper() def bulk_insert_sql(self, fields, placeholder_rows): return " UNION ALL ".join( "SELECT %s FROM DUAL" % ", ".join(row) for row in placeholder_rows ) def subtract_temporals(self, internal_type, lhs, rhs): if internal_type == 'DateField': lhs_sql, lhs_params = lhs rhs_sql, rhs_params = rhs return "NUMTODSINTERVAL(%s - %s, 'DAY')" % (lhs_sql, rhs_sql), lhs_params + rhs_params return super(DatabaseOperations, self).subtract_temporals(internal_type, lhs, rhs)