""" Oracle database backend for Django. Requires cx_Oracle: http://cx-oracle.sourceforge.net/ """ from __future__ import unicode_literals import datetime import decimal import os import platform import sys import warnings from django.conf import settings from django.core.exceptions import ImproperlyConfigured from django.db import utils from django.db.backends.base.base import BaseDatabaseWrapper from django.utils import six, timezone from django.utils.deprecation import RemovedInDjango20Warning from django.utils.encoding import force_bytes, force_text from django.utils.functional import cached_property def _setup_environment(environ): # Cygwin requires some special voodoo to set the environment variables # properly so that Oracle will see them. if platform.system().upper().startswith('CYGWIN'): try: import ctypes except ImportError as e: raise ImproperlyConfigured("Error loading ctypes: %s; " "the Oracle backend requires ctypes to " "operate correctly under Cygwin." % e) kernel32 = ctypes.CDLL('kernel32') for name, value in environ: kernel32.SetEnvironmentVariableA(name, value) else: os.environ.update(environ) _setup_environment([ # Oracle takes client-side character set encoding from the environment. ('NLS_LANG', '.AL32UTF8'), # This prevents unicode from getting mangled by getting encoded into the # potentially non-unicode database character set. ('ORA_NCHAR_LITERAL_REPLACE', 'TRUE'), ]) try: import cx_Oracle as Database except ImportError as e: raise ImproperlyConfigured("Error loading cx_Oracle module: %s" % e) # Some of these import cx_Oracle, so import them after checking if it's installed. from .client import DatabaseClient # NOQA isort:skip from .creation import DatabaseCreation # NOQA isort:skip from .features import DatabaseFeatures # NOQA isort:skip from .introspection import DatabaseIntrospection # NOQA isort:skip from .operations import DatabaseOperations # NOQA isort:skip from .schema import DatabaseSchemaEditor # NOQA isort:skip from .utils import Oracle_datetime # NOQA isort:skip class _UninitializedOperatorsDescriptor(object): def __get__(self, instance, cls=None): # If connection.operators is looked up before a connection has been # created, transparently initialize connection.operators to avert an # AttributeError. if instance is None: raise AttributeError("operators not available as class attribute") # Creating a cursor will initialize the operators. instance.cursor().close() return instance.__dict__['operators'] class DatabaseWrapper(BaseDatabaseWrapper): vendor = 'oracle' # This dictionary maps Field objects to their associated Oracle column # types, as strings. Column-type strings can contain format strings; they'll # be interpolated against the values of Field.__dict__ before being output. # If a column type is set to None, it won't be included in the output. # # Any format strings starting with "qn_" are quoted before being used in the # output (the "qn_" prefix is stripped before the lookup is performed. data_types = { 'AutoField': 'NUMBER(11)', 'BigAutoField': 'NUMBER(19)', 'BinaryField': 'BLOB', 'BooleanField': 'NUMBER(1)', 'CharField': 'NVARCHAR2(%(max_length)s)', 'CommaSeparatedIntegerField': 'VARCHAR2(%(max_length)s)', 'DateField': 'DATE', 'DateTimeField': 'TIMESTAMP', 'DecimalField': 'NUMBER(%(max_digits)s, %(decimal_places)s)', 'DurationField': 'INTERVAL DAY(9) TO SECOND(6)', 'FileField': 'NVARCHAR2(%(max_length)s)', 'FilePathField': 'NVARCHAR2(%(max_length)s)', 'FloatField': 'DOUBLE PRECISION', 'IntegerField': 'NUMBER(11)', 'BigIntegerField': 'NUMBER(19)', 'IPAddressField': 'VARCHAR2(15)', 'GenericIPAddressField': 'VARCHAR2(39)', 'NullBooleanField': 'NUMBER(1)', 'OneToOneField': 'NUMBER(11)', 'PositiveIntegerField': 'NUMBER(11)', 'PositiveSmallIntegerField': 'NUMBER(11)', 'SlugField': 'NVARCHAR2(%(max_length)s)', 'SmallIntegerField': 'NUMBER(11)', 'TextField': 'NCLOB', 'TimeField': 'TIMESTAMP', 'URLField': 'VARCHAR2(%(max_length)s)', 'UUIDField': 'VARCHAR2(32)', } data_type_check_constraints = { 'BooleanField': '%(qn_column)s IN (0,1)', 'NullBooleanField': '(%(qn_column)s IN (0,1)) OR (%(qn_column)s IS NULL)', 'PositiveIntegerField': '%(qn_column)s >= 0', 'PositiveSmallIntegerField': '%(qn_column)s >= 0', } operators = _UninitializedOperatorsDescriptor() _standard_operators = { 'exact': '= %s', 'iexact': '= UPPER(%s)', 'contains': "LIKE TRANSLATE(%s USING NCHAR_CS) ESCAPE TRANSLATE('\\' USING NCHAR_CS)", 'icontains': "LIKE UPPER(TRANSLATE(%s USING NCHAR_CS)) ESCAPE TRANSLATE('\\' USING NCHAR_CS)", 'gt': '> %s', 'gte': '>= %s', 'lt': '< %s', 'lte': '<= %s', 'startswith': "LIKE TRANSLATE(%s USING NCHAR_CS) ESCAPE TRANSLATE('\\' USING NCHAR_CS)", 'endswith': "LIKE TRANSLATE(%s USING NCHAR_CS) ESCAPE TRANSLATE('\\' USING NCHAR_CS)", 'istartswith': "LIKE UPPER(TRANSLATE(%s USING NCHAR_CS)) ESCAPE TRANSLATE('\\' USING NCHAR_CS)", 'iendswith': "LIKE UPPER(TRANSLATE(%s USING NCHAR_CS)) ESCAPE TRANSLATE('\\' USING NCHAR_CS)", } _likec_operators = _standard_operators.copy() _likec_operators.update({ 'contains': "LIKEC %s ESCAPE '\\'", 'icontains': "LIKEC UPPER(%s) ESCAPE '\\'", 'startswith': "LIKEC %s ESCAPE '\\'", 'endswith': "LIKEC %s ESCAPE '\\'", 'istartswith': "LIKEC UPPER(%s) ESCAPE '\\'", 'iendswith': "LIKEC UPPER(%s) ESCAPE '\\'", }) # The patterns below are used to generate SQL pattern lookup clauses when # the right-hand side of the lookup isn't a raw string (it might be an expression # or the result of a bilateral transformation). # In those cases, special characters for LIKE operators (e.g. \, *, _) should be # escaped on database side. # # Note: we use str.format() here for readability as '%' is used as a wildcard for # the LIKE operator. pattern_esc = r"REPLACE(REPLACE(REPLACE({}, '\', '\\'), '%%', '\%%'), '_', '\_')" _pattern_ops = { 'contains': "'%%' || {} || '%%'", 'icontains': "'%%' || UPPER({}) || '%%'", 'startswith': "{} || '%%'", 'istartswith': "UPPER({}) || '%%'", 'endswith': "'%%' || {}", 'iendswith': "'%%' || UPPER({})", } _standard_pattern_ops = {k: "LIKE TRANSLATE( " + v + " USING NCHAR_CS)" " ESCAPE TRANSLATE('\\' USING NCHAR_CS)" for k, v in _pattern_ops.items()} _likec_pattern_ops = {k: "LIKEC " + v + " ESCAPE '\\'" for k, v in _pattern_ops.items()} Database = Database SchemaEditorClass = DatabaseSchemaEditor # Classes instantiated in __init__(). client_class = DatabaseClient creation_class = DatabaseCreation features_class = DatabaseFeatures introspection_class = DatabaseIntrospection ops_class = DatabaseOperations def __init__(self, *args, **kwargs): super(DatabaseWrapper, self).__init__(*args, **kwargs) use_returning_into = self.settings_dict["OPTIONS"].get('use_returning_into', True) self.features.can_return_id_from_insert = use_returning_into def _connect_string(self): settings_dict = self.settings_dict if not settings_dict['HOST'].strip(): settings_dict['HOST'] = 'localhost' if settings_dict['PORT']: dsn = Database.makedsn(settings_dict['HOST'], int(settings_dict['PORT']), settings_dict['NAME']) else: dsn = settings_dict['NAME'] return "%s/%s@%s" % (settings_dict['USER'], settings_dict['PASSWORD'], dsn) def get_connection_params(self): conn_params = self.settings_dict['OPTIONS'].copy() if 'use_returning_into' in conn_params: del conn_params['use_returning_into'] return conn_params def get_new_connection(self, conn_params): return Database.connect(self._connect_string(), **conn_params) def init_connection_state(self): cursor = self.create_cursor() # Set the territory first. The territory overrides NLS_DATE_FORMAT # and NLS_TIMESTAMP_FORMAT to the territory default. When all of # these are set in single statement it isn't clear what is supposed # to happen. cursor.execute("ALTER SESSION SET NLS_TERRITORY = 'AMERICA'") # Set Oracle date to ANSI date format. This only needs to execute # once when we create a new connection. We also set the Territory # to 'AMERICA' which forces Sunday to evaluate to a '1' in # TO_CHAR(). cursor.execute( "ALTER SESSION SET NLS_DATE_FORMAT = 'YYYY-MM-DD HH24:MI:SS'" " NLS_TIMESTAMP_FORMAT = 'YYYY-MM-DD HH24:MI:SS.FF'" + (" TIME_ZONE = 'UTC'" if settings.USE_TZ else '') ) cursor.close() if 'operators' not in self.__dict__: # Ticket #14149: Check whether our LIKE implementation will # work for this connection or we need to fall back on LIKEC. # This check is performed only once per DatabaseWrapper # instance per thread, since subsequent connections will use # the same settings. cursor = self.create_cursor() try: cursor.execute("SELECT 1 FROM DUAL WHERE DUMMY %s" % self._standard_operators['contains'], ['X']) except Database.DatabaseError: self.operators = self._likec_operators self.pattern_ops = self._likec_pattern_ops else: self.operators = self._standard_operators self.pattern_ops = self._standard_pattern_ops cursor.close() self.connection.stmtcachesize = 20 # Ensure all changes are preserved even when AUTOCOMMIT is False. if not self.get_autocommit(): self.commit() def create_cursor(self, name=None): return FormatStylePlaceholderCursor(self.connection) def _commit(self): if self.connection is not None: try: return self.connection.commit() except Database.DatabaseError as e: # cx_Oracle raises a cx_Oracle.DatabaseError exception # with the following attributes and values: # code = 2091 # message = 'ORA-02091: transaction rolled back # 'ORA-02291: integrity constraint (TEST_DJANGOTEST.SYS # _C00102056) violated - parent key not found' # We convert that particular case to our IntegrityError exception x = e.args[0] if hasattr(x, 'code') and hasattr(x, 'message') \ and x.code == 2091 and 'ORA-02291' in x.message: six.reraise(utils.IntegrityError, utils.IntegrityError(*tuple(e.args)), sys.exc_info()[2]) raise # Oracle doesn't support releasing savepoints. But we fake them when query # logging is enabled to keep query counts consistent with other backends. def _savepoint_commit(self, sid): if self.queries_logged: self.queries_log.append({ 'sql': '-- RELEASE SAVEPOINT %s (faked)' % self.ops.quote_name(sid), 'time': '0.000', }) def _set_autocommit(self, autocommit): with self.wrap_database_errors: self.connection.autocommit = autocommit def check_constraints(self, table_names=None): """ To check constraints, we set constraints to immediate. Then, when, we're done we must ensure they are returned to deferred. """ self.cursor().execute('SET CONSTRAINTS ALL IMMEDIATE') self.cursor().execute('SET CONSTRAINTS ALL DEFERRED') def is_usable(self): try: self.connection.ping() except Database.Error: return False else: return True @cached_property def oracle_full_version(self): with self.temporary_connection(): return self.connection.version @cached_property def oracle_version(self): try: return int(self.oracle_full_version.split('.')[0]) except ValueError: return None class OracleParam(object): """ Wrapper object for formatting parameters for Oracle. If the string representation of the value is large enough (greater than 4000 characters) the input size needs to be set as CLOB. Alternatively, if the parameter has an `input_size` attribute, then the value of the `input_size` attribute will be used instead. Otherwise, no input size will be set for the parameter when executing the query. """ def __init__(self, param, cursor, strings_only=False): # With raw SQL queries, datetimes can reach this function # without being converted by DateTimeField.get_db_prep_value. if settings.USE_TZ and (isinstance(param, datetime.datetime) and not isinstance(param, Oracle_datetime)): if timezone.is_aware(param): warnings.warn( "The Oracle database adapter received an aware datetime (%s), " "probably from cursor.execute(). Update your code to pass a " "naive datetime in the database connection's time zone (UTC by " "default).", RemovedInDjango20Warning) param = param.astimezone(timezone.utc).replace(tzinfo=None) param = Oracle_datetime.from_datetime(param) string_size = 0 # Oracle doesn't recognize True and False correctly in Python 3. # The conversion done below works both in 2 and 3. if param is True: param = 1 elif param is False: param = 0 if hasattr(param, 'bind_parameter'): self.force_bytes = param.bind_parameter(cursor) elif isinstance(param, (Database.Binary, datetime.timedelta)): self.force_bytes = param else: # To transmit to the database, we need Unicode if supported # To get size right, we must consider bytes. self.force_bytes = force_text(param, cursor.charset, strings_only) if isinstance(self.force_bytes, six.string_types): # We could optimize by only converting up to 4000 bytes here string_size = len(force_bytes(param, cursor.charset, strings_only)) if hasattr(param, 'input_size'): # If parameter has `input_size` attribute, use that. self.input_size = param.input_size elif string_size > 4000: # Mark any string param greater than 4000 characters as a CLOB. self.input_size = Database.CLOB else: self.input_size = None class VariableWrapper(object): """ An adapter class for cursor variables that prevents the wrapped object from being converted into a string when used to instantiate an OracleParam. This can be used generally for any other object that should be passed into Cursor.execute as-is. """ def __init__(self, var): self.var = var def bind_parameter(self, cursor): return self.var def __getattr__(self, key): return getattr(self.var, key) def __setattr__(self, key, value): if key == 'var': self.__dict__[key] = value else: setattr(self.var, key, value) class FormatStylePlaceholderCursor(object): """ Django uses "format" (e.g. '%s') style placeholders, but Oracle uses ":var" style. This fixes it -- but note that if you want to use a literal "%s" in a query, you'll need to use "%%s". We also do automatic conversion between Unicode on the Python side and UTF-8 -- for talking to Oracle -- in here. """ charset = 'utf-8' def __init__(self, connection): self.cursor = connection.cursor() # Necessary to retrieve decimal values without rounding error. self.cursor.numbersAsStrings = True # Default arraysize of 1 is highly sub-optimal. self.cursor.arraysize = 100 def _format_params(self, params): try: return {k: OracleParam(v, self, True) for k, v in params.items()} except AttributeError: return tuple(OracleParam(p, self, True) for p in params) def _guess_input_sizes(self, params_list): # Try dict handling; if that fails, treat as sequence if hasattr(params_list[0], 'keys'): sizes = {} for params in params_list: for k, value in params.items(): if value.input_size: sizes[k] = value.input_size self.setinputsizes(**sizes) else: # It's not a list of dicts; it's a list of sequences sizes = [None] * len(params_list[0]) for params in params_list: for i, value in enumerate(params): if value.input_size: sizes[i] = value.input_size self.setinputsizes(*sizes) def _param_generator(self, params): # Try dict handling; if that fails, treat as sequence if hasattr(params, 'items'): return {k: v.force_bytes for k, v in params.items()} else: return [p.force_bytes for p in params] def _fix_for_params(self, query, params, unify_by_values=False): # cx_Oracle wants no trailing ';' for SQL statements. For PL/SQL, it # it does want a trailing ';' but not a trailing '/'. However, these # characters must be included in the original query in case the query # is being passed to SQL*Plus. if query.endswith(';') or query.endswith('/'): query = query[:-1] if params is None: params = [] query = query elif hasattr(params, 'keys'): # Handle params as dict args = {k: ":%s" % k for k in params.keys()} query = query % args elif unify_by_values and len(params) > 0: # Handle params as a dict with unified query parameters by their # values. It can be used only in single query execute() because # executemany() shares the formatted query with each of the params # list. e.g. for input params = [0.75, 2, 0.75, 'sth', 0.75] # params_dict = { # (2, ): ':arg2', # (0.75, ): ':arg1', # ('sth', ): ':arg0', # } # args = [':arg0', ':arg1', ':arg0', ':arg2', ':arg0'] # params = {':arg0': 0.75, ':arg1': 2, ':arg2': 'sth'} params = [(param, type(param)) for param in params] params_dict = {param: ':arg%d' % i for i, param in enumerate(set(params))} args = [params_dict[param] for param in params] params = {value: key[0] for key, value in params_dict.items()} query = query % tuple(args) else: # Handle params as sequence args = [(':arg%d' % i) for i in range(len(params))] query = query % tuple(args) return force_text(query, self.charset), self._format_params(params) def execute(self, query, params=None): query, params = self._fix_for_params(query, params, unify_by_values=True) self._guess_input_sizes([params]) return self.cursor.execute(query, self._param_generator(params)) def executemany(self, query, params=None): if not params: # No params given, nothing to do return None # uniform treatment for sequences and iterables params_iter = iter(params) query, firstparams = self._fix_for_params(query, next(params_iter)) # we build a list of formatted params; as we're going to traverse it # more than once, we can't make it lazy by using a generator formatted = [firstparams] + [self._format_params(p) for p in params_iter] self._guess_input_sizes(formatted) return self.cursor.executemany(query, [self._param_generator(p) for p in formatted]) def fetchone(self): row = self.cursor.fetchone() if row is None: return row return _rowfactory(row, self.cursor) def fetchmany(self, size=None): if size is None: size = self.arraysize return tuple(_rowfactory(r, self.cursor) for r in self.cursor.fetchmany(size)) def fetchall(self): return tuple(_rowfactory(r, self.cursor) for r in self.cursor.fetchall()) def close(self): try: self.cursor.close() except Database.InterfaceError: # already closed pass def var(self, *args): return VariableWrapper(self.cursor.var(*args)) def arrayvar(self, *args): return VariableWrapper(self.cursor.arrayvar(*args)) def __getattr__(self, attr): if attr in self.__dict__: return self.__dict__[attr] else: return getattr(self.cursor, attr) def __iter__(self): return CursorIterator(self.cursor) class CursorIterator(six.Iterator): """ Cursor iterator wrapper that invokes our custom row factory. """ def __init__(self, cursor): self.cursor = cursor self.iter = iter(cursor) def __iter__(self): return self def __next__(self): return _rowfactory(next(self.iter), self.cursor) def _rowfactory(row, cursor): # Cast numeric values as the appropriate Python type based upon the # cursor description, and convert strings to unicode. casted = [] for value, desc in zip(row, cursor.description): if value is not None and desc[1] is Database.NUMBER: precision, scale = desc[4:6] if scale == -127: if precision == 0: # NUMBER column: decimal-precision floating point # This will normally be an integer from a sequence, # but it could be a decimal value. if '.' in value: value = decimal.Decimal(value) else: value = int(value) else: # FLOAT column: binary-precision floating point. # This comes from FloatField columns. value = float(value) elif precision > 0: # NUMBER(p,s) column: decimal-precision fixed point. # This comes from IntField and DecimalField columns. if scale == 0: value = int(value) else: value = decimal.Decimal(value) elif '.' in value: # No type information. This normally comes from a # mathematical expression in the SELECT list. Guess int # or Decimal based on whether it has a decimal point. value = decimal.Decimal(value) else: value = int(value) elif desc[1] in (Database.STRING, Database.FIXED_CHAR, Database.LONG_STRING): value = to_unicode(value) casted.append(value) return tuple(casted) def to_unicode(s): """ Convert strings to Unicode objects (and return all other data types unchanged). """ if isinstance(s, six.string_types): return force_text(s) return s