shell bypass 403
UnknownSec Shell
:
/
opt
/
cloudlinux
/
venv
/
lib64
/
python3.11
/
site-packages
/
sqlalchemy
/
dialects
/
oracle
/ [
drwxr-xr-x
]
upload
mass deface
mass delete
console
info server
name :
cx_oracle.py
# Copyright (C) 2005-2021 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php r""" .. dialect:: oracle+cx_oracle :name: cx-Oracle :dbapi: cx_oracle :connectstring: oracle+cx_oracle://user:pass@host:port/dbname[?key=value&key=value...] :url: https://oracle.github.io/python-cx_Oracle/ DSN vs. Hostname connections ----------------------------- The dialect will connect to a DSN if no database name portion is presented, such as:: engine = create_engine("oracle+cx_oracle://scott:tiger@oracle1120/?encoding=UTF-8&nencoding=UTF-8") Above, ``oracle1120`` is passed to cx_Oracle as an Oracle datasource name. Alternatively, if a database name is present, the ``cx_Oracle.makedsn()`` function is used to create an ad-hoc "datasource" name assuming host and port:: engine = create_engine("oracle+cx_oracle://scott:tiger@hostname:1521/dbname?encoding=UTF-8&nencoding=UTF-8") Above, the DSN would be created as follows:: >>> import cx_Oracle >>> cx_Oracle.makedsn("hostname", 1521, sid="dbname") '(DESCRIPTION=(ADDRESS=(PROTOCOL=TCP)(HOST=hostname)(PORT=1521))(CONNECT_DATA=(SID=dbname)))' The ``service_name`` parameter, also consumed by ``cx_Oracle.makedsn()``, may be specified in the URL query string, e.g. ``?service_name=my_service``. Passing cx_Oracle connect arguments ----------------------------------- Additional connection arguments can usually be passed via the URL query string; particular symbols like ``cx_Oracle.SYSDBA`` are intercepted and converted to the correct symbol:: e = create_engine( "oracle+cx_oracle://user:pass@dsn?encoding=UTF-8&nencoding=UTF-8&mode=SYSDBA&events=true") .. versionchanged:: 1.3 the cx_oracle dialect now accepts all argument names within the URL string itself, to be passed to the cx_Oracle DBAPI. As was the case earlier but not correctly documented, the :paramref:`_sa.create_engine.connect_args` parameter also accepts all cx_Oracle DBAPI connect arguments. To pass arguments directly to ``.connect()`` wihtout using the query string, use the :paramref:`_sa.create_engine.connect_args` dictionary. Any cx_Oracle parameter value and/or constant may be passed, such as:: import cx_Oracle e = create_engine( "oracle+cx_oracle://user:pass@dsn", connect_args={ "encoding": "UTF-8", "nencoding": "UTF-8", "mode": cx_Oracle.SYSDBA, "events": True } ) Options consumed by the SQLAlchemy cx_Oracle dialect outside of the driver -------------------------------------------------------------------------- There are also options that are consumed by the SQLAlchemy cx_oracle dialect itself. These options are always passed directly to :func:`_sa.create_engine` , such as:: e = create_engine( "oracle+cx_oracle://user:pass@dsn", coerce_to_unicode=False) The parameters accepted by the cx_oracle dialect are as follows: * ``arraysize`` - set the cx_oracle.arraysize value on cursors, defaulted to 50. This setting is significant with cx_Oracle as the contents of LOB objects are only readable within a "live" row (e.g. within a batch of 50 rows). * ``auto_convert_lobs`` - defaults to True; See :ref:`cx_oracle_lob`. * ``coerce_to_unicode`` - see :ref:`cx_oracle_unicode` for detail. * ``coerce_to_decimal`` - see :ref:`cx_oracle_numeric` for detail. * ``encoding_errors`` - see :ref:`cx_oracle_unicode_encoding_errors` for detail. .. _cx_oracle_unicode: Unicode ------- As is the case for all DBAPIs under Python 3, all strings are inherently Unicode strings. Under Python 2, cx_Oracle also supports Python Unicode objects directly. In all cases however, the driver requires an explicit encoding configuration. Ensuring the Correct Client Encoding ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The long accepted standard for establishing client encoding for nearly all Oracle related software is via the `NLS_LANG <https://www.oracle.com/database/technologies/faq-nls-lang.html>`_ environment variable. cx_Oracle like most other Oracle drivers will use this environment variable as the source of its encoding configuration. The format of this variable is idiosyncratic; a typical value would be ``AMERICAN_AMERICA.AL32UTF8``. The cx_Oracle driver also supports a programmatic alternative which is to pass the ``encoding`` and ``nencoding`` parameters directly to its ``.connect()`` function. These can be present in the URL as follows:: engine = create_engine("oracle+cx_oracle://scott:tiger@oracle1120/?encoding=UTF-8&nencoding=UTF-8") For the meaning of the ``encoding`` and ``nencoding`` parameters, please consult `Characters Sets and National Language Support (NLS) <https://cx-oracle.readthedocs.io/en/latest/user_guide/globalization.html#globalization>`_. .. seealso:: `Characters Sets and National Language Support (NLS) <https://cx-oracle.readthedocs.io/en/latest/user_guide/globalization.html#globalization>`_ - in the cx_Oracle documentation. Unicode-specific Column datatypes ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The Core expression language handles unicode data by use of the :class:`.Unicode` and :class:`.UnicodeText` datatypes. These types correspond to the VARCHAR2 and CLOB Oracle datatypes by default. When using these datatypes with Unicode data, it is expected that the Oracle database is configured with a Unicode-aware character set, as well as that the ``NLS_LANG`` environment variable is set appropriately, so that the VARCHAR2 and CLOB datatypes can accommodate the data. In the case that the Oracle database is not configured with a Unicode character set, the two options are to use the :class:`_types.NCHAR` and :class:`_oracle.NCLOB` datatypes explicitly, or to pass the flag ``use_nchar_for_unicode=True`` to :func:`_sa.create_engine`, which will cause the SQLAlchemy dialect to use NCHAR/NCLOB for the :class:`.Unicode` / :class:`.UnicodeText` datatypes instead of VARCHAR/CLOB. .. versionchanged:: 1.3 The :class:`.Unicode` and :class:`.UnicodeText` datatypes now correspond to the ``VARCHAR2`` and ``CLOB`` Oracle datatypes unless the ``use_nchar_for_unicode=True`` is passed to the dialect when :func:`_sa.create_engine` is called. Unicode Coercion of result rows under Python 2 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ When result sets are fetched that include strings, under Python 3 the cx_Oracle DBAPI returns all strings as Python Unicode objects, since Python 3 only has a Unicode string type. This occurs for data fetched from datatypes such as VARCHAR2, CHAR, CLOB, NCHAR, NCLOB, etc. In order to provide cross- compatibility under Python 2, the SQLAlchemy cx_Oracle dialect will add Unicode-conversion to string data under Python 2 as well. Historically, this made use of converters that were supplied by cx_Oracle but were found to be non-performant; SQLAlchemy's own converters are used for the string to Unicode conversion under Python 2. To disable the Python 2 Unicode conversion for VARCHAR2, CHAR, and CLOB, the flag ``coerce_to_unicode=False`` can be passed to :func:`_sa.create_engine`. .. versionchanged:: 1.3 Unicode conversion is applied to all string values by default under python 2. The ``coerce_to_unicode`` now defaults to True and can be set to False to disable the Unicode coercion of strings that are delivered as VARCHAR2/CHAR/CLOB data. .. _cx_oracle_unicode_encoding_errors: Encoding Errors ^^^^^^^^^^^^^^^ For the unusual case that data in the Oracle database is present with a broken encoding, the dialect accepts a parameter ``encoding_errors`` which will be passed to Unicode decoding functions in order to affect how decoding errors are handled. The value is ultimately consumed by the Python `decode <https://docs.python.org/3/library/stdtypes.html#bytes.decode>`_ function, and is passed both via cx_Oracle's ``encodingErrors`` parameter consumed by ``Cursor.var()``, as well as SQLAlchemy's own decoding function, as the cx_Oracle dialect makes use of both under different circumstances. .. versionadded:: 1.3.11 .. _cx_oracle_setinputsizes: Fine grained control over cx_Oracle data binding performance with setinputsizes ------------------------------------------------------------------------------- The cx_Oracle DBAPI has a deep and fundamental reliance upon the usage of the DBAPI ``setinputsizes()`` call. The purpose of this call is to establish the datatypes that are bound to a SQL statement for Python values being passed as parameters. While virtually no other DBAPI assigns any use to the ``setinputsizes()`` call, the cx_Oracle DBAPI relies upon it heavily in its interactions with the Oracle client interface, and in some scenarios it is not possible for SQLAlchemy to know exactly how data should be bound, as some settings can cause profoundly different performance characteristics, while altering the type coercion behavior at the same time. Users of the cx_Oracle dialect are **strongly encouraged** to read through cx_Oracle's list of built-in datatype symbols at http://cx-oracle.readthedocs.io/en/latest/module.html#database-types. Note that in some cases, significant performance degradation can occur when using these types vs. not, in particular when specifying ``cx_Oracle.CLOB``. On the SQLAlchemy side, the :meth:`.DialectEvents.do_setinputsizes` event can be used both for runtime visibility (e.g. logging) of the setinputsizes step as well as to fully control how ``setinputsizes()`` is used on a per-statement basis. .. versionadded:: 1.2.9 Added :meth:`.DialectEvents.setinputsizes` Example 1 - logging all setinputsizes calls ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The following example illustrates how to log the intermediary values from a SQLAlchemy perspective before they are converted to the raw ``setinputsizes()`` parameter dictionary. The keys of the dictionary are :class:`.BindParameter` objects which have a ``.key`` and a ``.type`` attribute:: from sqlalchemy import create_engine, event engine = create_engine("oracle+cx_oracle://scott:tiger@host/xe") @event.listens_for(engine, "do_setinputsizes") def _log_setinputsizes(inputsizes, cursor, statement, parameters, context): for bindparam, dbapitype in inputsizes.items(): log.info( "Bound parameter name: %s SQLAlchemy type: %r " "DBAPI object: %s", bindparam.key, bindparam.type, dbapitype) Example 2 - remove all bindings to CLOB ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The ``CLOB`` datatype in cx_Oracle incurs a significant performance overhead, however is set by default for the ``Text`` type within the SQLAlchemy 1.2 series. This setting can be modified as follows:: from sqlalchemy import create_engine, event from cx_Oracle import CLOB engine = create_engine("oracle+cx_oracle://scott:tiger@host/xe") @event.listens_for(engine, "do_setinputsizes") def _remove_clob(inputsizes, cursor, statement, parameters, context): for bindparam, dbapitype in list(inputsizes.items()): if dbapitype is CLOB: del inputsizes[bindparam] .. _cx_oracle_returning: RETURNING Support ----------------- The cx_Oracle dialect implements RETURNING using OUT parameters. The dialect supports RETURNING fully, however cx_Oracle 6 is recommended for complete support. .. _cx_oracle_lob: LOB Objects ----------- cx_oracle returns oracle LOBs using the cx_oracle.LOB object. SQLAlchemy converts these to strings so that the interface of the Binary type is consistent with that of other backends, which takes place within a cx_Oracle outputtypehandler. cx_Oracle prior to version 6 would require that LOB objects be read before a new batch of rows would be read, as determined by the ``cursor.arraysize``. As of the 6 series, this limitation has been lifted. Nevertheless, because SQLAlchemy pre-reads these LOBs up front, this issue is avoided in any case. To disable the auto "read()" feature of the dialect, the flag ``auto_convert_lobs=False`` may be passed to :func:`_sa.create_engine`. Under the cx_Oracle 5 series, having this flag turned off means there is the chance of reading from a stale LOB object if not read as it is fetched. With cx_Oracle 6, this issue is resolved. .. versionchanged:: 1.2 the LOB handling system has been greatly simplified internally to make use of outputtypehandlers, and no longer makes use of alternate "buffered" result set objects. Two Phase Transactions Not Supported ------------------------------------- Two phase transactions are **not supported** under cx_Oracle due to poor driver support. As of cx_Oracle 6.0b1, the interface for two phase transactions has been changed to be more of a direct pass-through to the underlying OCI layer with less automation. The additional logic to support this system is not implemented in SQLAlchemy. .. _cx_oracle_numeric: Precision Numerics ------------------ SQLAlchemy's numeric types can handle receiving and returning values as Python ``Decimal`` objects or float objects. When a :class:`.Numeric` object, or a subclass such as :class:`.Float`, :class:`_oracle.DOUBLE_PRECISION` etc. is in use, the :paramref:`.Numeric.asdecimal` flag determines if values should be coerced to ``Decimal`` upon return, or returned as float objects. To make matters more complicated under Oracle, Oracle's ``NUMBER`` type can also represent integer values if the "scale" is zero, so the Oracle-specific :class:`_oracle.NUMBER` type takes this into account as well. The cx_Oracle dialect makes extensive use of connection- and cursor-level "outputtypehandler" callables in order to coerce numeric values as requested. These callables are specific to the specific flavor of :class:`.Numeric` in use, as well as if no SQLAlchemy typing objects are present. There are observed scenarios where Oracle may sends incomplete or ambiguous information about the numeric types being returned, such as a query where the numeric types are buried under multiple levels of subquery. The type handlers do their best to make the right decision in all cases, deferring to the underlying cx_Oracle DBAPI for all those cases where the driver can make the best decision. When no typing objects are present, as when executing plain SQL strings, a default "outputtypehandler" is present which will generally return numeric values which specify precision and scale as Python ``Decimal`` objects. To disable this coercion to decimal for performance reasons, pass the flag ``coerce_to_decimal=False`` to :func:`_sa.create_engine`:: engine = create_engine("oracle+cx_oracle://dsn", coerce_to_decimal=False) The ``coerce_to_decimal`` flag only impacts the results of plain string SQL staements that are not otherwise associated with a :class:`.Numeric` SQLAlchemy type (or a subclass of such). .. versionchanged:: 1.2 The numeric handling system for cx_Oracle has been reworked to take advantage of newer cx_Oracle features as well as better integration of outputtypehandlers. """ # noqa from __future__ import absolute_import import collections import decimal import random import re from . import base as oracle from .base import OracleCompiler from .base import OracleDialect from .base import OracleExecutionContext from ... import exc from ... import processors from ... import types as sqltypes from ... import util from ...engine import result as _result from ...util import compat class _OracleInteger(sqltypes.Integer): def get_dbapi_type(self, dbapi): # see https://github.com/oracle/python-cx_Oracle/issues/ # 208#issuecomment-409715955 return int def _cx_oracle_var(self, dialect, cursor): cx_Oracle = dialect.dbapi return cursor.var( cx_Oracle.STRING, 255, arraysize=cursor.arraysize, outconverter=int ) def _cx_oracle_outputtypehandler(self, dialect): def handler(cursor, name, default_type, size, precision, scale): return self._cx_oracle_var(dialect, cursor) return handler class _OracleNumeric(sqltypes.Numeric): is_number = False def bind_processor(self, dialect): if self.scale == 0: return None elif self.asdecimal: processor = processors.to_decimal_processor_factory( decimal.Decimal, self._effective_decimal_return_scale ) def process(value): if isinstance(value, (int, float)): return processor(value) elif value is not None and value.is_infinite(): return float(value) else: return value return process else: return processors.to_float def result_processor(self, dialect, coltype): return None def _cx_oracle_outputtypehandler(self, dialect): cx_Oracle = dialect.dbapi is_cx_oracle_6 = dialect._is_cx_oracle_6 def handler(cursor, name, default_type, size, precision, scale): outconverter = None if precision: if self.asdecimal: if default_type == cx_Oracle.NATIVE_FLOAT: # receiving float and doing Decimal after the fact # allows for float("inf") to be handled type_ = default_type outconverter = decimal.Decimal elif is_cx_oracle_6: type_ = decimal.Decimal else: type_ = cx_Oracle.STRING outconverter = dialect._to_decimal else: if self.is_number and scale == 0: # integer. cx_Oracle is observed to handle the widest # variety of ints when no directives are passed, # from 5.2 to 7.0. See [ticket:4457] return None else: type_ = cx_Oracle.NATIVE_FLOAT else: if self.asdecimal: if default_type == cx_Oracle.NATIVE_FLOAT: type_ = default_type outconverter = decimal.Decimal elif is_cx_oracle_6: type_ = decimal.Decimal else: type_ = cx_Oracle.STRING outconverter = dialect._to_decimal else: if self.is_number and scale == 0: # integer. cx_Oracle is observed to handle the widest # variety of ints when no directives are passed, # from 5.2 to 7.0. See [ticket:4457] return None else: type_ = cx_Oracle.NATIVE_FLOAT return cursor.var( type_, 255, arraysize=cursor.arraysize, outconverter=outconverter, ) return handler class _OracleBinaryFloat(_OracleNumeric): def get_dbapi_type(self, dbapi): return dbapi.NATIVE_FLOAT class _OracleBINARY_FLOAT(_OracleBinaryFloat, oracle.BINARY_FLOAT): pass class _OracleBINARY_DOUBLE(_OracleBinaryFloat, oracle.BINARY_DOUBLE): pass class _OracleNUMBER(_OracleNumeric): is_number = True class _OracleDate(sqltypes.Date): def bind_processor(self, dialect): return None def result_processor(self, dialect, coltype): def process(value): if value is not None: return value.date() else: return value return process # TODO: the names used across CHAR / VARCHAR / NCHAR / NVARCHAR # here are inconsistent and not very good class _OracleChar(sqltypes.CHAR): def get_dbapi_type(self, dbapi): return dbapi.FIXED_CHAR class _OracleNChar(sqltypes.NCHAR): def get_dbapi_type(self, dbapi): return dbapi.FIXED_NCHAR class _OracleUnicodeStringNCHAR(oracle.NVARCHAR2): def get_dbapi_type(self, dbapi): return dbapi.NCHAR class _OracleUnicodeStringCHAR(sqltypes.Unicode): def get_dbapi_type(self, dbapi): return dbapi.LONG_STRING class _OracleUnicodeTextNCLOB(oracle.NCLOB): def get_dbapi_type(self, dbapi): return dbapi.NCLOB class _OracleUnicodeTextCLOB(sqltypes.UnicodeText): def get_dbapi_type(self, dbapi): return dbapi.CLOB class _OracleText(sqltypes.Text): def get_dbapi_type(self, dbapi): return dbapi.CLOB class _OracleLong(oracle.LONG): def get_dbapi_type(self, dbapi): return dbapi.LONG_STRING class _OracleString(sqltypes.String): pass class _OracleEnum(sqltypes.Enum): def bind_processor(self, dialect): enum_proc = sqltypes.Enum.bind_processor(self, dialect) def process(value): raw_str = enum_proc(value) return raw_str return process class _OracleBinary(sqltypes.LargeBinary): def get_dbapi_type(self, dbapi): return dbapi.BLOB def bind_processor(self, dialect): return None def result_processor(self, dialect, coltype): if not dialect.auto_convert_lobs: return None else: return super(_OracleBinary, self).result_processor( dialect, coltype ) class _OracleInterval(oracle.INTERVAL): def get_dbapi_type(self, dbapi): return dbapi.INTERVAL class _OracleRaw(oracle.RAW): pass class _OracleRowid(oracle.ROWID): def get_dbapi_type(self, dbapi): return dbapi.ROWID class OracleCompiler_cx_oracle(OracleCompiler): _oracle_cx_sql_compiler = True def bindparam_string(self, name, **kw): quote = getattr(name, "quote", None) if ( quote is True or quote is not False and self.preparer._bindparam_requires_quotes(name) ): if kw.get("expanding", False): raise exc.CompileError( "Can't use expanding feature with parameter name " "%r on Oracle; it requires quoting which is not supported " "in this context." % name ) quoted_name = '"%s"' % name self._quoted_bind_names[name] = quoted_name return OracleCompiler.bindparam_string(self, quoted_name, **kw) else: return OracleCompiler.bindparam_string(self, name, **kw) class OracleExecutionContext_cx_oracle(OracleExecutionContext): out_parameters = None def _setup_quoted_bind_names(self): quoted_bind_names = self.compiled._quoted_bind_names if quoted_bind_names: for param in self.parameters: for fromname, toname in quoted_bind_names.items(): param[toname] = param[fromname] del param[fromname] def _handle_out_parameters(self): # if a single execute, check for outparams if len(self.compiled_parameters) == 1: quoted_bind_names = self.compiled._quoted_bind_names for bindparam in self.compiled.binds.values(): if bindparam.isoutparam: name = self.compiled.bind_names[bindparam] type_impl = bindparam.type.dialect_impl(self.dialect) if hasattr(type_impl, "_cx_oracle_var"): self.out_parameters[name] = type_impl._cx_oracle_var( self.dialect, self.cursor ) else: dbtype = type_impl.get_dbapi_type(self.dialect.dbapi) cx_Oracle = self.dialect.dbapi if dbtype is None: raise exc.InvalidRequestError( "Cannot create out parameter for " "parameter " "%r - its type %r is not supported by" " cx_oracle" % (bindparam.key, bindparam.type) ) if compat.py2k and dbtype in ( cx_Oracle.CLOB, cx_Oracle.NCLOB, ): outconverter = ( processors.to_unicode_processor_factory( self.dialect.encoding, errors=self.dialect.encoding_errors, ) ) self.out_parameters[name] = self.cursor.var( dbtype, outconverter=lambda value: outconverter( value.read() ), ) elif dbtype in ( cx_Oracle.BLOB, cx_Oracle.CLOB, cx_Oracle.NCLOB, ): self.out_parameters[name] = self.cursor.var( dbtype, outconverter=lambda value: value.read() ) elif compat.py2k and isinstance( type_impl, sqltypes.Unicode ): outconverter = ( processors.to_unicode_processor_factory( self.dialect.encoding, errors=self.dialect.encoding_errors, ) ) self.out_parameters[name] = self.cursor.var( dbtype, outconverter=outconverter ) else: self.out_parameters[name] = self.cursor.var(dbtype) self.parameters[0][ quoted_bind_names.get(name, name) ] = self.out_parameters[name] def _generate_cursor_outputtype_handler(self): output_handlers = {} for (keyname, name, objects, type_) in self.compiled._result_columns: handler = type_._cached_custom_processor( self.dialect, "cx_oracle_outputtypehandler", self._get_cx_oracle_type_handler, ) if handler: denormalized_name = self.dialect.denormalize_name(keyname) output_handlers[denormalized_name] = handler if output_handlers: default_handler = self._dbapi_connection.outputtypehandler def output_type_handler( cursor, name, default_type, size, precision, scale ): if name in output_handlers: return output_handlers[name]( cursor, name, default_type, size, precision, scale ) else: return default_handler( cursor, name, default_type, size, precision, scale ) self.cursor.outputtypehandler = output_type_handler def _get_cx_oracle_type_handler(self, impl): if hasattr(impl, "_cx_oracle_outputtypehandler"): return impl._cx_oracle_outputtypehandler(self.dialect) else: return None def pre_exec(self): if not getattr(self.compiled, "_oracle_cx_sql_compiler", False): return self.out_parameters = {} if self.compiled._quoted_bind_names: self._setup_quoted_bind_names() self.set_input_sizes( self.compiled._quoted_bind_names, include_types=self.dialect._include_setinputsizes, ) self._handle_out_parameters() self._generate_cursor_outputtype_handler() def create_cursor(self): c = self._dbapi_connection.cursor() if self.dialect.arraysize: c.arraysize = self.dialect.arraysize return c def get_result_proxy(self): if self.out_parameters and self.compiled.returning: returning_params = [ self.dialect._returningval(self.out_parameters["ret_%d" % i]) for i in range(len(self.out_parameters)) ] return ReturningResultProxy(self, returning_params) result = _result.ResultProxy(self) if self.out_parameters: if ( self.compiled_parameters is not None and len(self.compiled_parameters) == 1 ): result.out_parameters = out_parameters = {} for bind, name in self.compiled.bind_names.items(): if name in self.out_parameters: type_ = bind.type impl_type = type_.dialect_impl(self.dialect) dbapi_type = impl_type.get_dbapi_type( self.dialect.dbapi ) result_processor = impl_type.result_processor( self.dialect, dbapi_type ) if result_processor is not None: out_parameters[name] = result_processor( self.dialect._paramval( self.out_parameters[name] ) ) else: out_parameters[name] = self.dialect._paramval( self.out_parameters[name] ) else: result.out_parameters = dict( (k, self._dialect._paramval(v)) for k, v in self.out_parameters.items() ) return result class ReturningResultProxy(_result.FullyBufferedResultProxy): """Result proxy which stuffs the _returning clause + outparams into the fetch.""" def __init__(self, context, returning_params): self._returning_params = returning_params super(ReturningResultProxy, self).__init__(context) def _cursor_description(self): returning = self.context.compiled.returning return [ (getattr(col, "name", col.anon_label), None) for col in returning ] def _buffer_rows(self): return collections.deque([tuple(self._returning_params)]) class OracleDialect_cx_oracle(OracleDialect): execution_ctx_cls = OracleExecutionContext_cx_oracle statement_compiler = OracleCompiler_cx_oracle supports_sane_rowcount = True supports_sane_multi_rowcount = True supports_unicode_statements = True supports_unicode_binds = True driver = "cx_oracle" colspecs = { sqltypes.Numeric: _OracleNumeric, sqltypes.Float: _OracleNumeric, oracle.BINARY_FLOAT: _OracleBINARY_FLOAT, oracle.BINARY_DOUBLE: _OracleBINARY_DOUBLE, sqltypes.Integer: _OracleInteger, oracle.NUMBER: _OracleNUMBER, sqltypes.Date: _OracleDate, sqltypes.LargeBinary: _OracleBinary, sqltypes.Boolean: oracle._OracleBoolean, sqltypes.Interval: _OracleInterval, oracle.INTERVAL: _OracleInterval, sqltypes.Text: _OracleText, sqltypes.String: _OracleString, sqltypes.UnicodeText: _OracleUnicodeTextCLOB, sqltypes.CHAR: _OracleChar, sqltypes.NCHAR: _OracleNChar, sqltypes.Enum: _OracleEnum, oracle.LONG: _OracleLong, oracle.RAW: _OracleRaw, sqltypes.Unicode: _OracleUnicodeStringCHAR, sqltypes.NVARCHAR: _OracleUnicodeStringNCHAR, oracle.NCLOB: _OracleUnicodeTextNCLOB, oracle.ROWID: _OracleRowid, } execute_sequence_format = list _cx_oracle_threaded = None @util.deprecated_params( threaded=( "1.3", "The 'threaded' parameter to the cx_oracle dialect " "is deprecated as a dialect-level argument, and will be removed " "in a future release. As of version 1.3, it defaults to False " "rather than True. The 'threaded' option can be passed to " "cx_Oracle directly in the URL query string passed to " ":func:`_sa.create_engine`.", ) ) def __init__( self, auto_convert_lobs=True, coerce_to_unicode=True, coerce_to_decimal=True, arraysize=50, encoding_errors=None, threaded=None, **kwargs ): OracleDialect.__init__(self, **kwargs) self.arraysize = arraysize self.encoding_errors = encoding_errors if threaded is not None: self._cx_oracle_threaded = threaded self.auto_convert_lobs = auto_convert_lobs self.coerce_to_unicode = coerce_to_unicode self.coerce_to_decimal = coerce_to_decimal if self._use_nchar_for_unicode: self.colspecs = self.colspecs.copy() self.colspecs[sqltypes.Unicode] = _OracleUnicodeStringNCHAR self.colspecs[sqltypes.UnicodeText] = _OracleUnicodeTextNCLOB cx_Oracle = self.dbapi if cx_Oracle is None: self._include_setinputsizes = {} self.cx_oracle_ver = (0, 0, 0) else: self.cx_oracle_ver = self._parse_cx_oracle_ver(cx_Oracle.version) if self.cx_oracle_ver < (5, 2) and self.cx_oracle_ver > (0, 0, 0): raise exc.InvalidRequestError( "cx_Oracle version 5.2 and above are supported" ) self._include_setinputsizes = { cx_Oracle.DATETIME, cx_Oracle.NCLOB, cx_Oracle.CLOB, cx_Oracle.LOB, cx_Oracle.NCHAR, cx_Oracle.FIXED_NCHAR, cx_Oracle.BLOB, cx_Oracle.FIXED_CHAR, cx_Oracle.TIMESTAMP, _OracleInteger, _OracleBINARY_FLOAT, _OracleBINARY_DOUBLE, } self._paramval = lambda value: value.getvalue() # https://github.com/oracle/python-cx_Oracle/issues/176#issuecomment-386821291 # https://github.com/oracle/python-cx_Oracle/issues/224 self._values_are_lists = self.cx_oracle_ver >= (6, 3) if self._values_are_lists: cx_Oracle.__future__.dml_ret_array_val = True def _returningval(value): try: return value.values[0][0] except IndexError: return None self._returningval = _returningval else: self._returningval = self._paramval self._is_cx_oracle_6 = self.cx_oracle_ver >= (6,) @property def _cursor_var_unicode_kwargs(self): if self.encoding_errors: if self.cx_oracle_ver >= (6, 4): return {"encodingErrors": self.encoding_errors} else: util.warn( "cx_oracle version %r does not support encodingErrors" % (self.cx_oracle_ver,) ) return {} def _parse_cx_oracle_ver(self, version): m = re.match(r"(\d+)\.(\d+)(?:\.(\d+))?", version) if m: return tuple(int(x) for x in m.group(1, 2, 3) if x is not None) else: return (0, 0, 0) @classmethod def dbapi(cls): import cx_Oracle return cx_Oracle def initialize(self, connection): super(OracleDialect_cx_oracle, self).initialize(connection) if self._is_oracle_8: self.supports_unicode_binds = False self._detect_decimal_char(connection) def get_isolation_level(self, connection): # sources: # general idea of transaction id, have to start one, etc. # https://stackoverflow.com/questions/10711204/how-to-check-isoloation-level # how to decode xid cols from v$transaction to match # https://asktom.oracle.com/pls/apex/f?p=100:11:0::::P11_QUESTION_ID:9532779900346079444 # Oracle tuple comparison without using IN: # https://www.sql-workbench.eu/comparison/tuple_comparison.html with connection.cursor() as cursor: # this is the only way to ensure a transaction is started without # actually running DML. There's no way to see the configured # isolation level without getting it from v$transaction which # means transaction has to be started. outval = cursor.var(str) cursor.execute( """ begin :trans_id := dbms_transaction.local_transaction_id( TRUE ); end; """, {"trans_id": outval}, ) trans_id = outval.getvalue() xidusn, xidslot, xidsqn = trans_id.split(".", 2) cursor.execute( "SELECT CASE BITAND(t.flag, POWER(2, 28)) " "WHEN 0 THEN 'READ COMMITTED' " "ELSE 'SERIALIZABLE' END AS isolation_level " "FROM v$transaction t WHERE " "(t.xidusn, t.xidslot, t.xidsqn) = " "((:xidusn, :xidslot, :xidsqn))", {"xidusn": xidusn, "xidslot": xidslot, "xidsqn": xidsqn}, ) row = cursor.fetchone() if row is None: raise exc.InvalidRequestError( "could not retrieve isolation level" ) result = row[0] return result def set_isolation_level(self, connection, level): if hasattr(connection, "connection"): dbapi_connection = connection.connection else: dbapi_connection = connection if level == "AUTOCOMMIT": dbapi_connection.autocommit = True else: dbapi_connection.autocommit = False connection.rollback() with connection.cursor() as cursor: cursor.execute("ALTER SESSION SET ISOLATION_LEVEL=%s" % level) def _detect_decimal_char(self, connection): # we have the option to change this setting upon connect, # or just look at what it is upon connect and convert. # to minimize the chance of interference with changes to # NLS_TERRITORY or formatting behavior of the DB, we opt # to just look at it self._decimal_char = connection.scalar( "select value from nls_session_parameters " "where parameter = 'NLS_NUMERIC_CHARACTERS'" )[0] if self._decimal_char != ".": _detect_decimal = self._detect_decimal _to_decimal = self._to_decimal self._detect_decimal = lambda value: _detect_decimal( value.replace(self._decimal_char, ".") ) self._to_decimal = lambda value: _to_decimal( value.replace(self._decimal_char, ".") ) def _detect_decimal(self, value): if "." in value: return self._to_decimal(value) else: return int(value) _to_decimal = decimal.Decimal def _generate_connection_outputtype_handler(self): """establish the default outputtypehandler established at the connection level. """ dialect = self cx_Oracle = dialect.dbapi number_handler = _OracleNUMBER( asdecimal=True )._cx_oracle_outputtypehandler(dialect) float_handler = _OracleNUMBER( asdecimal=False )._cx_oracle_outputtypehandler(dialect) def output_type_handler( cursor, name, default_type, size, precision, scale ): if ( default_type == cx_Oracle.NUMBER and default_type is not cx_Oracle.NATIVE_FLOAT ): if not dialect.coerce_to_decimal: return None elif precision == 0 and scale in (0, -127): # ambiguous type, this occurs when selecting # numbers from deep subqueries return cursor.var( cx_Oracle.STRING, 255, outconverter=dialect._detect_decimal, arraysize=cursor.arraysize, ) elif precision and scale > 0: return number_handler( cursor, name, default_type, size, precision, scale ) else: return float_handler( cursor, name, default_type, size, precision, scale ) # allow all strings to come back natively as Unicode elif ( dialect.coerce_to_unicode and default_type in ( cx_Oracle.STRING, cx_Oracle.FIXED_CHAR, ) and default_type is not cx_Oracle.CLOB and default_type is not cx_Oracle.NCLOB ): if compat.py2k: outconverter = processors.to_unicode_processor_factory( dialect.encoding, errors=dialect.encoding_errors ) return cursor.var( cx_Oracle.STRING, size, cursor.arraysize, outconverter=outconverter, ) else: return cursor.var( util.text_type, size, cursor.arraysize, **dialect._cursor_var_unicode_kwargs ) elif dialect.auto_convert_lobs and default_type in ( cx_Oracle.CLOB, cx_Oracle.NCLOB, ): if compat.py2k: outconverter = processors.to_unicode_processor_factory( dialect.encoding, errors=dialect.encoding_errors ) return cursor.var( cx_Oracle.LONG_STRING, size, cursor.arraysize, outconverter=outconverter, ) else: return cursor.var( cx_Oracle.LONG_STRING, size, cursor.arraysize, **dialect._cursor_var_unicode_kwargs ) elif dialect.auto_convert_lobs and default_type in ( cx_Oracle.BLOB, ): return cursor.var( cx_Oracle.LONG_BINARY, size, cursor.arraysize, ) return output_type_handler def on_connect(self): output_type_handler = self._generate_connection_outputtype_handler() def on_connect(conn): conn.outputtypehandler = output_type_handler return on_connect def create_connect_args(self, url): opts = dict(url.query) # deprecated in 1.3 for opt in ("use_ansi", "auto_convert_lobs"): if opt in opts: util.warn_deprecated( "cx_oracle dialect option %r should only be passed to " "create_engine directly, not within the URL string" % opt ) util.coerce_kw_type(opts, opt, bool) setattr(self, opt, opts.pop(opt)) database = url.database service_name = opts.pop("service_name", None) if database or service_name: # if we have a database, then we have a remote host port = url.port if port: port = int(port) else: port = 1521 if database and service_name: raise exc.InvalidRequestError( '"service_name" option shouldn\'t ' 'be used with a "database" part of the url' ) if database: makedsn_kwargs = {"sid": database} if service_name: makedsn_kwargs = {"service_name": service_name} dsn = self.dbapi.makedsn(url.host, port, **makedsn_kwargs) else: # we have a local tnsname dsn = url.host if dsn is not None: opts["dsn"] = dsn if url.password is not None: opts["password"] = url.password if url.username is not None: opts["user"] = url.username if self._cx_oracle_threaded is not None: opts.setdefault("threaded", self._cx_oracle_threaded) def convert_cx_oracle_constant(value): if isinstance(value, util.string_types): try: int_val = int(value) except ValueError: value = value.upper() return getattr(self.dbapi, value) else: return int_val else: return value util.coerce_kw_type(opts, "mode", convert_cx_oracle_constant) util.coerce_kw_type(opts, "threaded", bool) util.coerce_kw_type(opts, "events", bool) util.coerce_kw_type(opts, "purity", convert_cx_oracle_constant) return ([], opts) def _get_server_version_info(self, connection): return tuple(int(x) for x in connection.connection.version.split(".")) def is_disconnect(self, e, connection, cursor): (error,) = e.args if isinstance( e, (self.dbapi.InterfaceError, self.dbapi.DatabaseError) ) and "not connected" in str(e): return True if hasattr(error, "code"): # ORA-00028: your session has been killed # ORA-03114: not connected to ORACLE # ORA-03113: end-of-file on communication channel # ORA-03135: connection lost contact # ORA-01033: ORACLE initialization or shutdown in progress # ORA-02396: exceeded maximum idle time, please connect again # TODO: Others ? return error.code in (28, 3114, 3113, 3135, 1033, 2396) else: return False @util.deprecated( "1.2", "The create_xid() method of the cx_Oracle dialect is deprecated and " "will be removed in a future release. " "Two-phase transaction support is no longer functional " "in SQLAlchemy's cx_Oracle dialect as of cx_Oracle 6.0b1, which no " "longer supports the API that SQLAlchemy relied upon.", ) def create_xid(self): """create a two-phase transaction ID. this id will be passed to do_begin_twophase(), do_rollback_twophase(), do_commit_twophase(). its format is unspecified. """ id_ = random.randint(0, 2 ** 128) return (0x1234, "%032x" % id_, "%032x" % 9) def do_executemany(self, cursor, statement, parameters, context=None): if isinstance(parameters, tuple): parameters = list(parameters) cursor.executemany(statement, parameters) def do_begin_twophase(self, connection, xid): connection.connection.begin(*xid) def do_prepare_twophase(self, connection, xid): result = connection.connection.prepare() connection.info["cx_oracle_prepared"] = result def do_rollback_twophase( self, connection, xid, is_prepared=True, recover=False ): self.do_rollback(connection.connection) def do_commit_twophase( self, connection, xid, is_prepared=True, recover=False ): if not is_prepared: self.do_commit(connection.connection) else: oci_prepared = connection.info["cx_oracle_prepared"] if oci_prepared: self.do_commit(connection.connection) def do_recover_twophase(self, connection): connection.info.pop("cx_oracle_prepared", None) dialect = OracleDialect_cx_oracle
© 2024 UnknownSec