python3-structlog 16.1.0-1 / usr / lib / python3 / dist-packages / structlog / stdlib.py

# This file is dual licensed under the terms of the Apache License, Version
# 2.0, and the MIT License.  See the LICENSE file in the root of this
# repository for complete details.

"""
Processors and helpers specific to the :mod:`logging` module from the `Python
standard library <https://docs.python.org/>`_.

See also :doc:`structlog's standard library support <standard-library>`.
"""

from __future__ import absolute_import, division, print_function

import logging

from structlog._base import BoundLoggerBase
from structlog._frames import _find_first_app_frame_and_name, _format_stack
from structlog.exceptions import DropEvent

from six import PY3


class _FixedFindCallerLogger(logging.Logger):
    """
    Change the behavior of findCaller to cope with structlog's extra frames.
    """
    def findCaller(self, stack_info=False):
        """
        Finds the first caller frame outside of structlog so that the caller
        info is populated for wrapping stdlib.
        This logger gets set as the default one when using LoggerFactory.
        """
        f, name = _find_first_app_frame_and_name(['logging'])
        if PY3:
            if stack_info:
                sinfo = _format_stack(f)
            else:
                sinfo = None
            return f.f_code.co_filename, f.f_lineno, f.f_code.co_name, sinfo
        else:
            return f.f_code.co_filename, f.f_lineno, f.f_code.co_name


class BoundLogger(BoundLoggerBase):
    """
    Python Standard Library version of :class:`structlog.BoundLogger`.
    Works exactly like the generic one except that it takes advantage of
    knowing the logging methods in advance.

    Use it like::

        structlog.configure(
            wrapper_class=structlog.stdlib.BoundLogger,
        )

    """
    def debug(self, event=None, *args, **kw):
        """
        Process event and call :meth:`logging.Logger.debug` with the result.
        """
        return self._proxy_to_logger('debug', event, *args, **kw)

    def info(self, event=None, *args, **kw):
        """
        Process event and call :meth:`logging.Logger.info` with the result.
        """
        return self._proxy_to_logger('info', event, *args, **kw)

    def warning(self, event=None, *args, **kw):
        """
        Process event and call :meth:`logging.Logger.warning` with the result.
        """
        return self._proxy_to_logger('warning', event, *args, **kw)

    warn = warning

    def error(self, event=None, *args, **kw):
        """
        Process event and call :meth:`logging.Logger.error` with the result.
        """
        return self._proxy_to_logger('error', event, *args, **kw)

    def critical(self, event=None, *args, **kw):
        """
        Process event and call :meth:`logging.Logger.critical` with the result.
        """
        return self._proxy_to_logger('critical', event, *args, **kw)

    def exception(self, event=None, *args, **kw):
        """
        Process event and call :meth:`logging.Logger.error` with the result,
        after setting ``exc_info`` to `True`.
        """
        kw['exc_info'] = True
        return self.error(event, *args, **kw)

    def log(self, level, event, *args, **kw):
        """
        Process event and call the appropriate logging method depending on
        `level`.
        """
        return self._proxy_to_logger(_LEVEL_TO_NAME[level], event, *args, **kw)

    fatal = critical

    def _proxy_to_logger(self, method_name, event, *event_args,
                         **event_kw):
        """
        Propagate a method call to the wrapped logger.

        This is the same as the superclass implementation, except that
        it also preserves positional arguments in the `event_dict` so
        that the stdblib's support for format strings can be used.
        """
        if event_args:
            event_kw['positional_args'] = event_args
        return super(BoundLogger, self)._proxy_to_logger(method_name,
                                                         event=event,
                                                         **event_kw)

    #
    # Pass-through methods to mimick the stdlib's logger interface.
    #

    def setLevel(self, level):
        """
        Calls :meth:`logging.Logger.setLevel` with unmodified arguments.
        """
        self._logger.setLevel(level)

    def findCaller(self, stack_info=False):
        """
        Calls :meth:`logging.Logger.findCaller` with unmodified arguments.
        """
        return self._logger.findCaller(stack_info=stack_info)

    def makeRecord(self, name, level, fn, lno, msg, args,
                   exc_info, func=None, extra=None):
        """
        Calls :meth:`logging.Logger.makeRecord` with unmodified arguments.
        """
        return self._logger.makeRecord(name, level, fn, lno, msg, args,
                                       exc_info, func=func, extra=extra)

    def handle(self, record):
        """
        Calls :meth:`logging.Logger.handle` with unmodified arguments.
        """
        self._logger.handle(record)

    def addHandler(self, hdlr):
        """
        Calls :meth:`logging.Logger.addHandler` with unmodified arguments.
        """
        self._logger.addHandler(hdlr)

    def removeHandler(self, hdlr):
        """
        Calls :meth:`logging.Logger.removeHandler` with unmodified arguments.
        """
        self._logger.removeHandler(hdlr)

    def hasHandlers(self):
        """
        Calls :meth:`logging.Logger.hasHandlers` with unmodified arguments.

        Exists only in Python 3.
        """
        return self._logger.hasHandlers()

    def callHandlers(self, record):
        """
        Calls :meth:`logging.Logger.callHandlers` with unmodified arguments.
        """
        self._logger.callHandlers(record)

    def getEffectiveLevel(self):
        """
        Calls :meth:`logging.Logger.getEffectiveLevel` with unmodified
        arguments.
        """
        return self._logger.getEffectiveLevel()

    def isEnabledFor(self, level):
        """
        Calls :meth:`logging.Logger.isEnabledFor` with unmodified arguments.
        """
        return self._logger.isEnabledFor(level)

    def getChild(self, suffix):
        """
        Calls :meth:`logging.Logger.getChild` with unmodified arguments.
        """
        return self._logger.getChild(suffix)


class LoggerFactory(object):
    """
    Build a standard library logger when an *instance* is called.

    Sets a custom logger using :func:`logging.setLoggerClass` so variables in
    log format are expanded properly.

    >>> from structlog import configure
    >>> from structlog.stdlib import LoggerFactory
    >>> configure(logger_factory=LoggerFactory())

    :param ignore_frame_names: When guessing the name of a logger, skip frames
        whose names *start* with one of these.  For example, in pyramid
        applications you'll want to set it to
        ``['venusian', 'pyramid.config']``.
    :type ignore_frame_names: `list` of `str`
    """
    def __init__(self, ignore_frame_names=None):
        self._ignore = ignore_frame_names
        logging.setLoggerClass(_FixedFindCallerLogger)

    def __call__(self, *args):
        """
        Deduce the caller's module name and create a stdlib logger.

        If an optional argument is passed, it will be used as the logger name
        instead of guesswork.  This optional argument would be passed from the
        :func:`structlog.get_logger` call.  For example
        ``structlog.get_logger('foo')`` would cause this method to be called
        with ``'foo'`` as its first positional argument.

        :rtype: logging.Logger

        .. versionchanged:: 0.4.0
            Added support for optional positional arguments.  Using the first
            one for naming the constructed logger.
        """
        if args:
            return logging.getLogger(args[0])

        # We skip all frames that originate from within structlog or one of the
        # configured names.
        _, name = _find_first_app_frame_and_name(self._ignore)
        return logging.getLogger(name)


class PositionalArgumentsFormatter(object):
    """
    Apply stdlib-like string formatting to the `event` key.

    If the `positional_args` key in the event dict is set, it must
    contain a tuple that is used for formatting (using the `%s` string
    formatting operator) of the value from the `event` key. This works
    in the same way as the stdlib handles arguments to the various log
    methods: if the tuple contains only a single `dict` argument it is
    used for keyword placeholders in the `event` string, otherwise it
    will be used for positional placeholders.

    `positional_args` is populated by `structlog.stdlib.BoundLogger` or
    can be set manually.

    The `remove_positional_args` flag can be set to `False` to keep the
    `positional_args` key in the event dict; by default it will be
    removed from the event dict after formatting a message.
    """
    def __init__(self, remove_positional_args=True):
        self.remove_positional_args = remove_positional_args

    def __call__(self, _, __, event_dict):
        args = event_dict.get('positional_args')

        # Mimick the formatting behaviour of the stdlib's logging
        # module, which accepts both positional arguments and a single
        # dict argument. The "single dict" check is the same one as the
        # stdlib's logging module performs in LogRecord.__init__().
        if args:
            if len(args) == 1 and isinstance(args[0], dict) and args[0]:
                args = args[0]
            event_dict['event'] = event_dict['event'] % args
            if self.remove_positional_args:
                del event_dict['positional_args']
        return event_dict

# Adapted from the stdlib

CRITICAL = 50
FATAL = CRITICAL
ERROR = 40
WARNING = 30
WARN = WARNING
INFO = 20
DEBUG = 10
NOTSET = 0

_NAME_TO_LEVEL = {
    'critical': CRITICAL,
    'exception': ERROR,
    'error': ERROR,
    'warn': WARNING,
    'warning': WARNING,
    'info': INFO,
    'debug': DEBUG,
    'notset': NOTSET,
}

_LEVEL_TO_NAME = dict(
    (v, k) for k, v in _NAME_TO_LEVEL.items()
    if k not in ("warn", "notset")
)


def filter_by_level(logger, name, event_dict):
    """
    Check whether logging is configured to accept messages from this log level.

    Should be the first processor if stdlib's filtering by level is used so
    possibly expensive processors like exception formatters are avoided in the
    first place.

    >>> import logging
    >>> from structlog.stdlib import filter_by_level
    >>> logging.basicConfig(level=logging.WARN)
    >>> logger = logging.getLogger()
    >>> filter_by_level(logger, 'warn', {})
    {}
    >>> filter_by_level(logger, 'debug', {})
    Traceback (most recent call last):
    ...
    DropEvent
    """
    if logger.isEnabledFor(_NAME_TO_LEVEL[name]):
        return event_dict
    else:
        raise DropEvent


def add_log_level(logger, method_name, event_dict):
    """
    Add the log level to the event dict.
    """
    if method_name == 'warn':
        # The stdlib has an alias
        method_name = 'warning'

    event_dict['level'] = method_name
    return event_dict


def add_logger_name(logger, method_name, event_dict):
    """
    Add the logger name to the event dict.
    """
    event_dict['logger'] = logger.name
    return event_dict