mirror of https://github.com/python/cpython
706 lines
28 KiB
ReStructuredText
706 lines
28 KiB
ReStructuredText
:mod:`logging.config` --- Logging configuration
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===============================================
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.. module:: logging.config
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:synopsis: Configuration of the logging module.
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.. moduleauthor:: Vinay Sajip <vinay_sajip@red-dove.com>
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.. sectionauthor:: Vinay Sajip <vinay_sajip@red-dove.com>
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.. sidebar:: Important
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This page contains only reference information. For tutorials,
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please see
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* :ref:`Basic Tutorial <logging-basic-tutorial>`
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* :ref:`Advanced Tutorial <logging-advanced-tutorial>`
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* :ref:`Logging Cookbook <logging-cookbook>`
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This section describes the API for configuring the logging module.
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.. _logging-config-api:
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Configuration functions
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^^^^^^^^^^^^^^^^^^^^^^^
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The following functions configure the logging module. They are located in the
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:mod:`logging.config` module. Their use is optional --- you can configure the
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logging module using these functions or by making calls to the main API (defined
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in :mod:`logging` itself) and defining handlers which are declared either in
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:mod:`logging` or :mod:`logging.handlers`.
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.. function:: dictConfig(config)
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Takes the logging configuration from a dictionary. The contents of
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this dictionary are described in :ref:`logging-config-dictschema`
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below.
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If an error is encountered during configuration, this function will
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raise a :exc:`ValueError`, :exc:`TypeError`, :exc:`AttributeError`
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or :exc:`ImportError` with a suitably descriptive message. The
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following is a (possibly incomplete) list of conditions which will
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raise an error:
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* A ``level`` which is not a string or which is a string not
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corresponding to an actual logging level.
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* A ``propagate`` value which is not a boolean.
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* An id which does not have a corresponding destination.
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* A non-existent handler id found during an incremental call.
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* An invalid logger name.
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* Inability to resolve to an internal or external object.
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Parsing is performed by the :class:`DictConfigurator` class, whose
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constructor is passed the dictionary used for configuration, and
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has a :meth:`configure` method. The :mod:`logging.config` module
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has a callable attribute :attr:`dictConfigClass`
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which is initially set to :class:`DictConfigurator`.
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You can replace the value of :attr:`dictConfigClass` with a
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suitable implementation of your own.
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:func:`dictConfig` calls :attr:`dictConfigClass` passing
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the specified dictionary, and then calls the :meth:`configure` method on
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the returned object to put the configuration into effect::
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def dictConfig(config):
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dictConfigClass(config).configure()
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For example, a subclass of :class:`DictConfigurator` could call
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``DictConfigurator.__init__()`` in its own :meth:`__init__()`, then
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set up custom prefixes which would be usable in the subsequent
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:meth:`configure` call. :attr:`dictConfigClass` would be bound to
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this new subclass, and then :func:`dictConfig` could be called exactly as
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in the default, uncustomized state.
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.. versionadded:: 3.2
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.. function:: fileConfig(fname, defaults=None, disable_existing_loggers=True)
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Reads the logging configuration from a :mod:`configparser`\-format file
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named *fname*. This function can be called several times from an
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application, allowing an end user to select from various pre-canned
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configurations (if the developer provides a mechanism to present the choices
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and load the chosen configuration).
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:param defaults: Defaults to be passed to the ConfigParser can be specified
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in this argument.
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:param disable_existing_loggers: If specified as ``False``, loggers which
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exist when this call is made are left
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alone. The default is ``True`` because this
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enables old behaviour in a backward-
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compatible way. This behaviour is to
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disable any existing loggers unless they or
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their ancestors are explicitly named in the
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logging configuration.
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.. function:: listen(port=DEFAULT_LOGGING_CONFIG_PORT)
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Starts up a socket server on the specified port, and listens for new
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configurations. If no port is specified, the module's default
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:const:`DEFAULT_LOGGING_CONFIG_PORT` is used. Logging configurations will be
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sent as a file suitable for processing by :func:`fileConfig`. Returns a
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:class:`Thread` instance on which you can call :meth:`start` to start the
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server, and which you can :meth:`join` when appropriate. To stop the server,
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call :func:`stopListening`.
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To send a configuration to the socket, read in the configuration file and
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send it to the socket as a string of bytes preceded by a four-byte length
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string packed in binary using ``struct.pack('>L', n)``.
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.. function:: stopListening()
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Stops the listening server which was created with a call to :func:`listen`.
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This is typically called before calling :meth:`join` on the return value from
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:func:`listen`.
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.. _logging-config-dictschema:
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Configuration dictionary schema
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Describing a logging configuration requires listing the various
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objects to create and the connections between them; for example, you
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may create a handler named 'console' and then say that the logger
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named 'startup' will send its messages to the 'console' handler.
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These objects aren't limited to those provided by the :mod:`logging`
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module because you might write your own formatter or handler class.
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The parameters to these classes may also need to include external
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objects such as ``sys.stderr``. The syntax for describing these
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objects and connections is defined in :ref:`logging-config-dict-connections`
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below.
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Dictionary Schema Details
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"""""""""""""""""""""""""
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The dictionary passed to :func:`dictConfig` must contain the following
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keys:
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* *version* - to be set to an integer value representing the schema
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version. The only valid value at present is 1, but having this key
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allows the schema to evolve while still preserving backwards
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compatibility.
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All other keys are optional, but if present they will be interpreted
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as described below. In all cases below where a 'configuring dict' is
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mentioned, it will be checked for the special ``'()'`` key to see if a
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custom instantiation is required. If so, the mechanism described in
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:ref:`logging-config-dict-userdef` below is used to create an instance;
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otherwise, the context is used to determine what to instantiate.
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* *formatters* - the corresponding value will be a dict in which each
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key is a formatter id and each value is a dict describing how to
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configure the corresponding Formatter instance.
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The configuring dict is searched for keys ``format`` and ``datefmt``
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(with defaults of ``None``) and these are used to construct a
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:class:`logging.Formatter` instance.
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* *filters* - the corresponding value will be a dict in which each key
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is a filter id and each value is a dict describing how to configure
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the corresponding Filter instance.
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The configuring dict is searched for the key ``name`` (defaulting to the
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empty string) and this is used to construct a :class:`logging.Filter`
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instance.
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* *handlers* - the corresponding value will be a dict in which each
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key is a handler id and each value is a dict describing how to
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configure the corresponding Handler instance.
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The configuring dict is searched for the following keys:
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* ``class`` (mandatory). This is the fully qualified name of the
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handler class.
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* ``level`` (optional). The level of the handler.
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* ``formatter`` (optional). The id of the formatter for this
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handler.
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* ``filters`` (optional). A list of ids of the filters for this
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handler.
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All *other* keys are passed through as keyword arguments to the
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handler's constructor. For example, given the snippet::
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handlers:
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console:
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class : logging.StreamHandler
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formatter: brief
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level : INFO
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filters: [allow_foo]
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stream : ext://sys.stdout
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file:
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class : logging.handlers.RotatingFileHandler
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formatter: precise
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filename: logconfig.log
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maxBytes: 1024
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backupCount: 3
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the handler with id ``console`` is instantiated as a
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:class:`logging.StreamHandler`, using ``sys.stdout`` as the underlying
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stream. The handler with id ``file`` is instantiated as a
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:class:`logging.handlers.RotatingFileHandler` with the keyword arguments
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``filename='logconfig.log', maxBytes=1024, backupCount=3``.
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* *loggers* - the corresponding value will be a dict in which each key
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is a logger name and each value is a dict describing how to
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configure the corresponding Logger instance.
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The configuring dict is searched for the following keys:
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* ``level`` (optional). The level of the logger.
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* ``propagate`` (optional). The propagation setting of the logger.
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* ``filters`` (optional). A list of ids of the filters for this
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logger.
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* ``handlers`` (optional). A list of ids of the handlers for this
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logger.
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The specified loggers will be configured according to the level,
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propagation, filters and handlers specified.
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* *root* - this will be the configuration for the root logger.
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Processing of the configuration will be as for any logger, except
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that the ``propagate`` setting will not be applicable.
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* *incremental* - whether the configuration is to be interpreted as
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incremental to the existing configuration. This value defaults to
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``False``, which means that the specified configuration replaces the
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existing configuration with the same semantics as used by the
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existing :func:`fileConfig` API.
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If the specified value is ``True``, the configuration is processed
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as described in the section on :ref:`logging-config-dict-incremental`.
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* *disable_existing_loggers* - whether any existing loggers are to be
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disabled. This setting mirrors the parameter of the same name in
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:func:`fileConfig`. If absent, this parameter defaults to ``True``.
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This value is ignored if *incremental* is ``True``.
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.. _logging-config-dict-incremental:
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Incremental Configuration
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"""""""""""""""""""""""""
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It is difficult to provide complete flexibility for incremental
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configuration. For example, because objects such as filters
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and formatters are anonymous, once a configuration is set up, it is
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not possible to refer to such anonymous objects when augmenting a
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configuration.
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Furthermore, there is not a compelling case for arbitrarily altering
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the object graph of loggers, handlers, filters, formatters at
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run-time, once a configuration is set up; the verbosity of loggers and
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handlers can be controlled just by setting levels (and, in the case of
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loggers, propagation flags). Changing the object graph arbitrarily in
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a safe way is problematic in a multi-threaded environment; while not
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impossible, the benefits are not worth the complexity it adds to the
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implementation.
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Thus, when the ``incremental`` key of a configuration dict is present
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and is ``True``, the system will completely ignore any ``formatters`` and
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``filters`` entries, and process only the ``level``
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settings in the ``handlers`` entries, and the ``level`` and
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``propagate`` settings in the ``loggers`` and ``root`` entries.
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Using a value in the configuration dict lets configurations to be sent
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over the wire as pickled dicts to a socket listener. Thus, the logging
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verbosity of a long-running application can be altered over time with
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no need to stop and restart the application.
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.. _logging-config-dict-connections:
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Object connections
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""""""""""""""""""
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The schema describes a set of logging objects - loggers,
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handlers, formatters, filters - which are connected to each other in
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an object graph. Thus, the schema needs to represent connections
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between the objects. For example, say that, once configured, a
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particular logger has attached to it a particular handler. For the
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purposes of this discussion, we can say that the logger represents the
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source, and the handler the destination, of a connection between the
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two. Of course in the configured objects this is represented by the
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logger holding a reference to the handler. In the configuration dict,
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this is done by giving each destination object an id which identifies
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it unambiguously, and then using the id in the source object's
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configuration to indicate that a connection exists between the source
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and the destination object with that id.
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So, for example, consider the following YAML snippet::
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formatters:
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brief:
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# configuration for formatter with id 'brief' goes here
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precise:
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# configuration for formatter with id 'precise' goes here
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handlers:
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h1: #This is an id
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# configuration of handler with id 'h1' goes here
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formatter: brief
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h2: #This is another id
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# configuration of handler with id 'h2' goes here
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formatter: precise
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loggers:
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foo.bar.baz:
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# other configuration for logger 'foo.bar.baz'
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handlers: [h1, h2]
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(Note: YAML used here because it's a little more readable than the
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equivalent Python source form for the dictionary.)
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The ids for loggers are the logger names which would be used
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programmatically to obtain a reference to those loggers, e.g.
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``foo.bar.baz``. The ids for Formatters and Filters can be any string
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value (such as ``brief``, ``precise`` above) and they are transient,
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in that they are only meaningful for processing the configuration
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dictionary and used to determine connections between objects, and are
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not persisted anywhere when the configuration call is complete.
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The above snippet indicates that logger named ``foo.bar.baz`` should
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have two handlers attached to it, which are described by the handler
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ids ``h1`` and ``h2``. The formatter for ``h1`` is that described by id
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``brief``, and the formatter for ``h2`` is that described by id
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``precise``.
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.. _logging-config-dict-userdef:
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User-defined objects
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""""""""""""""""""""
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The schema supports user-defined objects for handlers, filters and
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formatters. (Loggers do not need to have different types for
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different instances, so there is no support in this configuration
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schema for user-defined logger classes.)
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Objects to be configured are described by dictionaries
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which detail their configuration. In some places, the logging system
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will be able to infer from the context how an object is to be
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instantiated, but when a user-defined object is to be instantiated,
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the system will not know how to do this. In order to provide complete
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flexibility for user-defined object instantiation, the user needs
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to provide a 'factory' - a callable which is called with a
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configuration dictionary and which returns the instantiated object.
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This is signalled by an absolute import path to the factory being
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made available under the special key ``'()'``. Here's a concrete
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example::
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formatters:
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brief:
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format: '%(message)s'
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default:
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format: '%(asctime)s %(levelname)-8s %(name)-15s %(message)s'
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datefmt: '%Y-%m-%d %H:%M:%S'
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custom:
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(): my.package.customFormatterFactory
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bar: baz
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spam: 99.9
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answer: 42
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The above YAML snippet defines three formatters. The first, with id
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``brief``, is a standard :class:`logging.Formatter` instance with the
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specified format string. The second, with id ``default``, has a
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longer format and also defines the time format explicitly, and will
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result in a :class:`logging.Formatter` initialized with those two format
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strings. Shown in Python source form, the ``brief`` and ``default``
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formatters have configuration sub-dictionaries::
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{
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'format' : '%(message)s'
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}
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and::
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{
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'format' : '%(asctime)s %(levelname)-8s %(name)-15s %(message)s',
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'datefmt' : '%Y-%m-%d %H:%M:%S'
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}
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respectively, and as these dictionaries do not contain the special key
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``'()'``, the instantiation is inferred from the context: as a result,
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standard :class:`logging.Formatter` instances are created. The
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configuration sub-dictionary for the third formatter, with id
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``custom``, is::
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{
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'()' : 'my.package.customFormatterFactory',
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'bar' : 'baz',
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'spam' : 99.9,
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'answer' : 42
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}
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and this contains the special key ``'()'``, which means that
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user-defined instantiation is wanted. In this case, the specified
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factory callable will be used. If it is an actual callable it will be
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used directly - otherwise, if you specify a string (as in the example)
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the actual callable will be located using normal import mechanisms.
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The callable will be called with the **remaining** items in the
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configuration sub-dictionary as keyword arguments. In the above
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example, the formatter with id ``custom`` will be assumed to be
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returned by the call::
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my.package.customFormatterFactory(bar='baz', spam=99.9, answer=42)
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The key ``'()'`` has been used as the special key because it is not a
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valid keyword parameter name, and so will not clash with the names of
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the keyword arguments used in the call. The ``'()'`` also serves as a
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mnemonic that the corresponding value is a callable.
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.. _logging-config-dict-externalobj:
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Access to external objects
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""""""""""""""""""""""""""
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There are times where a configuration needs to refer to objects
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external to the configuration, for example ``sys.stderr``. If the
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configuration dict is constructed using Python code, this is
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straightforward, but a problem arises when the configuration is
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provided via a text file (e.g. JSON, YAML). In a text file, there is
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no standard way to distinguish ``sys.stderr`` from the literal string
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``'sys.stderr'``. To facilitate this distinction, the configuration
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system looks for certain special prefixes in string values and
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treat them specially. For example, if the literal string
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``'ext://sys.stderr'`` is provided as a value in the configuration,
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then the ``ext://`` will be stripped off and the remainder of the
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value processed using normal import mechanisms.
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The handling of such prefixes is done in a way analogous to protocol
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handling: there is a generic mechanism to look for prefixes which
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match the regular expression ``^(?P<prefix>[a-z]+)://(?P<suffix>.*)$``
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whereby, if the ``prefix`` is recognised, the ``suffix`` is processed
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in a prefix-dependent manner and the result of the processing replaces
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the string value. If the prefix is not recognised, then the string
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value will be left as-is.
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.. _logging-config-dict-internalobj:
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Access to internal objects
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""""""""""""""""""""""""""
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As well as external objects, there is sometimes also a need to refer
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to objects in the configuration. This will be done implicitly by the
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configuration system for things that it knows about. For example, the
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string value ``'DEBUG'`` for a ``level`` in a logger or handler will
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automatically be converted to the value ``logging.DEBUG``, and the
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``handlers``, ``filters`` and ``formatter`` entries will take an
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object id and resolve to the appropriate destination object.
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However, a more generic mechanism is needed for user-defined
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objects which are not known to the :mod:`logging` module. For
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example, consider :class:`logging.handlers.MemoryHandler`, which takes
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a ``target`` argument which is another handler to delegate to. Since
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the system already knows about this class, then in the configuration,
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the given ``target`` just needs to be the object id of the relevant
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target handler, and the system will resolve to the handler from the
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id. If, however, a user defines a ``my.package.MyHandler`` which has
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an ``alternate`` handler, the configuration system would not know that
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the ``alternate`` referred to a handler. To cater for this, a generic
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resolution system allows the user to specify::
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handlers:
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file:
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# configuration of file handler goes here
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custom:
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(): my.package.MyHandler
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alternate: cfg://handlers.file
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The literal string ``'cfg://handlers.file'`` will be resolved in an
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analogous way to strings with the ``ext://`` prefix, but looking
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in the configuration itself rather than the import namespace. The
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mechanism allows access by dot or by index, in a similar way to
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that provided by ``str.format``. Thus, given the following snippet::
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handlers:
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email:
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class: logging.handlers.SMTPHandler
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mailhost: localhost
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fromaddr: my_app@domain.tld
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toaddrs:
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- support_team@domain.tld
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- dev_team@domain.tld
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subject: Houston, we have a problem.
|
|
|
|
in the configuration, the string ``'cfg://handlers'`` would resolve to
|
|
the dict with key ``handlers``, the string ``'cfg://handlers.email``
|
|
would resolve to the dict with key ``email`` in the ``handlers`` dict,
|
|
and so on. The string ``'cfg://handlers.email.toaddrs[1]`` would
|
|
resolve to ``'dev_team.domain.tld'`` and the string
|
|
``'cfg://handlers.email.toaddrs[0]'`` would resolve to the value
|
|
``'support_team@domain.tld'``. The ``subject`` value could be accessed
|
|
using either ``'cfg://handlers.email.subject'`` or, equivalently,
|
|
``'cfg://handlers.email[subject]'``. The latter form only needs to be
|
|
used if the key contains spaces or non-alphanumeric characters. If an
|
|
index value consists only of decimal digits, access will be attempted
|
|
using the corresponding integer value, falling back to the string
|
|
value if needed.
|
|
|
|
Given a string ``cfg://handlers.myhandler.mykey.123``, this will
|
|
resolve to ``config_dict['handlers']['myhandler']['mykey']['123']``.
|
|
If the string is specified as ``cfg://handlers.myhandler.mykey[123]``,
|
|
the system will attempt to retrieve the value from
|
|
``config_dict['handlers']['myhandler']['mykey'][123]``, and fall back
|
|
to ``config_dict['handlers']['myhandler']['mykey']['123']`` if that
|
|
fails.
|
|
|
|
|
|
.. _logging-import-resolution:
|
|
|
|
Import resolution and custom importers
|
|
""""""""""""""""""""""""""""""""""""""
|
|
|
|
Import resolution, by default, uses the builtin :func:`__import__` function
|
|
to do its importing. You may want to replace this with your own importing
|
|
mechanism: if so, you can replace the :attr:`importer` attribute of the
|
|
:class:`DictConfigurator` or its superclass, the
|
|
:class:`BaseConfigurator` class. However, you need to be
|
|
careful because of the way functions are accessed from classes via
|
|
descriptors. If you are using a Python callable to do your imports, and you
|
|
want to define it at class level rather than instance level, you need to wrap
|
|
it with :func:`staticmethod`. For example::
|
|
|
|
from importlib import import_module
|
|
from logging.config import BaseConfigurator
|
|
|
|
BaseConfigurator.importer = staticmethod(import_module)
|
|
|
|
You don't need to wrap with :func:`staticmethod` if you're setting the import
|
|
callable on a configurator *instance*.
|
|
|
|
|
|
.. _logging-config-fileformat:
|
|
|
|
Configuration file format
|
|
^^^^^^^^^^^^^^^^^^^^^^^^^
|
|
|
|
The configuration file format understood by :func:`fileConfig` is based on
|
|
:mod:`configparser` functionality. The file must contain sections called
|
|
``[loggers]``, ``[handlers]`` and ``[formatters]`` which identify by name the
|
|
entities of each type which are defined in the file. For each such entity, there
|
|
is a separate section which identifies how that entity is configured. Thus, for
|
|
a logger named ``log01`` in the ``[loggers]`` section, the relevant
|
|
configuration details are held in a section ``[logger_log01]``. Similarly, a
|
|
handler called ``hand01`` in the ``[handlers]`` section will have its
|
|
configuration held in a section called ``[handler_hand01]``, while a formatter
|
|
called ``form01`` in the ``[formatters]`` section will have its configuration
|
|
specified in a section called ``[formatter_form01]``. The root logger
|
|
configuration must be specified in a section called ``[logger_root]``.
|
|
|
|
Examples of these sections in the file are given below. ::
|
|
|
|
[loggers]
|
|
keys=root,log02,log03,log04,log05,log06,log07
|
|
|
|
[handlers]
|
|
keys=hand01,hand02,hand03,hand04,hand05,hand06,hand07,hand08,hand09
|
|
|
|
[formatters]
|
|
keys=form01,form02,form03,form04,form05,form06,form07,form08,form09
|
|
|
|
The root logger must specify a level and a list of handlers. An example of a
|
|
root logger section is given below. ::
|
|
|
|
[logger_root]
|
|
level=NOTSET
|
|
handlers=hand01
|
|
|
|
The ``level`` entry can be one of ``DEBUG, INFO, WARNING, ERROR, CRITICAL`` or
|
|
``NOTSET``. For the root logger only, ``NOTSET`` means that all messages will be
|
|
logged. Level values are :func:`eval`\ uated in the context of the ``logging``
|
|
package's namespace.
|
|
|
|
The ``handlers`` entry is a comma-separated list of handler names, which must
|
|
appear in the ``[handlers]`` section. These names must appear in the
|
|
``[handlers]`` section and have corresponding sections in the configuration
|
|
file.
|
|
|
|
For loggers other than the root logger, some additional information is required.
|
|
This is illustrated by the following example. ::
|
|
|
|
[logger_parser]
|
|
level=DEBUG
|
|
handlers=hand01
|
|
propagate=1
|
|
qualname=compiler.parser
|
|
|
|
The ``level`` and ``handlers`` entries are interpreted as for the root logger,
|
|
except that if a non-root logger's level is specified as ``NOTSET``, the system
|
|
consults loggers higher up the hierarchy to determine the effective level of the
|
|
logger. The ``propagate`` entry is set to 1 to indicate that messages must
|
|
propagate to handlers higher up the logger hierarchy from this logger, or 0 to
|
|
indicate that messages are **not** propagated to handlers up the hierarchy. The
|
|
``qualname`` entry is the hierarchical channel name of the logger, that is to
|
|
say the name used by the application to get the logger.
|
|
|
|
Sections which specify handler configuration are exemplified by the following.
|
|
::
|
|
|
|
[handler_hand01]
|
|
class=StreamHandler
|
|
level=NOTSET
|
|
formatter=form01
|
|
args=(sys.stdout,)
|
|
|
|
The ``class`` entry indicates the handler's class (as determined by :func:`eval`
|
|
in the ``logging`` package's namespace). The ``level`` is interpreted as for
|
|
loggers, and ``NOTSET`` is taken to mean 'log everything'.
|
|
|
|
The ``formatter`` entry indicates the key name of the formatter for this
|
|
handler. If blank, a default formatter (``logging._defaultFormatter``) is used.
|
|
If a name is specified, it must appear in the ``[formatters]`` section and have
|
|
a corresponding section in the configuration file.
|
|
|
|
The ``args`` entry, when :func:`eval`\ uated in the context of the ``logging``
|
|
package's namespace, is the list of arguments to the constructor for the handler
|
|
class. Refer to the constructors for the relevant handlers, or to the examples
|
|
below, to see how typical entries are constructed. ::
|
|
|
|
[handler_hand02]
|
|
class=FileHandler
|
|
level=DEBUG
|
|
formatter=form02
|
|
args=('python.log', 'w')
|
|
|
|
[handler_hand03]
|
|
class=handlers.SocketHandler
|
|
level=INFO
|
|
formatter=form03
|
|
args=('localhost', handlers.DEFAULT_TCP_LOGGING_PORT)
|
|
|
|
[handler_hand04]
|
|
class=handlers.DatagramHandler
|
|
level=WARN
|
|
formatter=form04
|
|
args=('localhost', handlers.DEFAULT_UDP_LOGGING_PORT)
|
|
|
|
[handler_hand05]
|
|
class=handlers.SysLogHandler
|
|
level=ERROR
|
|
formatter=form05
|
|
args=(('localhost', handlers.SYSLOG_UDP_PORT), handlers.SysLogHandler.LOG_USER)
|
|
|
|
[handler_hand06]
|
|
class=handlers.NTEventLogHandler
|
|
level=CRITICAL
|
|
formatter=form06
|
|
args=('Python Application', '', 'Application')
|
|
|
|
[handler_hand07]
|
|
class=handlers.SMTPHandler
|
|
level=WARN
|
|
formatter=form07
|
|
args=('localhost', 'from@abc', ['user1@abc', 'user2@xyz'], 'Logger Subject')
|
|
|
|
[handler_hand08]
|
|
class=handlers.MemoryHandler
|
|
level=NOTSET
|
|
formatter=form08
|
|
target=
|
|
args=(10, ERROR)
|
|
|
|
[handler_hand09]
|
|
class=handlers.HTTPHandler
|
|
level=NOTSET
|
|
formatter=form09
|
|
args=('localhost:9022', '/log', 'GET')
|
|
|
|
Sections which specify formatter configuration are typified by the following. ::
|
|
|
|
[formatter_form01]
|
|
format=F1 %(asctime)s %(levelname)s %(message)s
|
|
datefmt=
|
|
class=logging.Formatter
|
|
|
|
The ``format`` entry is the overall format string, and the ``datefmt`` entry is
|
|
the :func:`strftime`\ -compatible date/time format string. If empty, the
|
|
package substitutes ISO8601 format date/times, which is almost equivalent to
|
|
specifying the date format string ``'%Y-%m-%d %H:%M:%S'``. The ISO8601 format
|
|
also specifies milliseconds, which are appended to the result of using the above
|
|
format string, with a comma separator. An example time in ISO8601 format is
|
|
``2003-01-23 00:29:50,411``.
|
|
|
|
The ``class`` entry is optional. It indicates the name of the formatter's class
|
|
(as a dotted module and class name.) This option is useful for instantiating a
|
|
:class:`Formatter` subclass. Subclasses of :class:`Formatter` can present
|
|
exception tracebacks in an expanded or condensed format.
|
|
|
|
.. seealso::
|
|
|
|
Module :mod:`logging`
|
|
API reference for the logging module.
|
|
|
|
Module :mod:`logging.handlers`
|
|
Useful handlers included with the logging module.
|
|
|
|
|