Logging¶
A quick logging primer¶
Django uses Python’s builtin logging
module to perform system logging.
The usage of this module is discussed in detail in Python’s own documentation.
However, if you’ve never used Python’s logging framework (or even if you have),
here’s a quick primer.
The cast of players¶
A Python logging configuration consists of four parts:
Loggers¶
A logger is the entry point into the logging system. Each logger is a named bucket to which messages can be written for processing.
A logger is configured to have a log level. This log level describes the severity of the messages that the logger will handle. Python defines the following log levels:
DEBUG
: Low level system information for debugging purposesINFO
: General system informationWARNING
: Information describing a minor problem that has occurred.ERROR
: Information describing a major problem that has occurred.CRITICAL
: Information describing a critical problem that has occurred.
Each message that is written to the logger is a Log Record. Each log record also has a log level indicating the severity of that specific message. A log record can also contain useful metadata that describes the event that is being logged. This can include details such as a stack trace or an error code.
When a message is given to the logger, the log level of the message is compared to the log level of the logger. If the log level of the message meets or exceeds the log level of the logger itself, the message will undergo further processing. If it doesn’t, the message will be ignored.
Once a logger has determined that a message needs to be processed, it is passed to a Handler.
Handlers¶
The handler is the engine that determines what happens to each message in a logger. It describes a particular logging behavior, such as writing a message to the screen, to a file, or to a network socket.
Like loggers, handlers also have a log level. If the log level of a log record doesn’t meet or exceed the level of the handler, the handler will ignore the message.
A logger can have multiple handlers, and each handler can have a
different log level. In this way, it is possible to provide different
forms of notification depending on the importance of a message. For
example, you could install one handler that forwards ERROR
and
CRITICAL
messages to a paging service, while a second handler
logs all messages (including ERROR
and CRITICAL
messages) to a
file for later analysis.
Filters¶
A filter is used to provide additional control over which log records are passed from logger to handler.
By default, any log message that meets log level requirements will be
handled. However, by installing a filter, you can place additional
criteria on the logging process. For example, you could install a
filter that only allows ERROR
messages from a particular source to
be emitted.
Filters can also be used to modify the logging record prior to being
emitted. For example, you could write a filter that downgrades
ERROR
log records to WARNING
records if a particular set of
criteria are met.
Filters can be installed on loggers or on handlers; multiple filters can be used in a chain to perform multiple filtering actions.
Formatters¶
Ultimately, a log record needs to be rendered as text. Formatters describe the exact format of that text. A formatter usually consists of a Python formatting string containing LogRecord attributes; however, you can also write custom formatters to implement specific formatting behavior.
Using logging¶
Once you have configured your loggers, handlers, filters and formatters, you need to place logging calls into your code. Using the logging framework is very simple. Here’s an example:
# import the logging library
import logging
# Get an instance of a logger
logger = logging.getLogger(__name__)
def my_view(request, arg1, arg):
...
if bad_mojo:
# Log an error message
logger.error('Something went wrong!')
And that’s it! Every time the bad_mojo
condition is activated, an
error log record will be written.
Naming loggers¶
The call to logging.getLogger()
obtains (creating, if
necessary) an instance of a logger. The logger instance is identified
by a name. This name is used to identify the logger for configuration
purposes.
By convention, the logger name is usually __name__
, the name of
the Python module that contains the logger. This allows you to filter
and handle logging calls on a per-module basis. However, if you have
some other way of organizing your logging messages, you can provide
any dot-separated name to identify your logger:
# Get an instance of a specific named logger
logger = logging.getLogger('project.interesting.stuff')
The dotted paths of logger names define a hierarchy. The
project.interesting
logger is considered to be a parent of the
project.interesting.stuff
logger; the project
logger
is a parent of the project.interesting
logger.
Why is the hierarchy important? Well, because loggers can be set to
propagate their logging calls to their parents. In this way, you can
define a single set of handlers at the root of a logger tree, and
capture all logging calls in the subtree of loggers. A logging handler
defined in the project
namespace will catch all logging messages
issued on the project.interesting
and
project.interesting.stuff
loggers.
This propagation can be controlled on a per-logger basis. If you don’t want a particular logger to propagate to its parents, you can turn off this behavior.
Making logging calls¶
The logger instance contains an entry method for each of the default log levels:
logger.debug()
logger.info()
logger.warning()
logger.error()
logger.critical()
There are two other logging calls available:
logger.log()
: Manually emits a logging message with a specific log level.logger.exception()
: Creates anERROR
level logging message wrapping the current exception stack frame.
Configuring logging¶
Of course, it isn’t enough to just put logging calls into your code. You also need to configure the loggers, handlers, filters and formatters to ensure that logging output is output in a useful way.
Python’s logging library provides several techniques to configure logging, ranging from a programmatic interface to configuration files. By default, Django uses the dictConfig format.
In order to configure logging, you use LOGGING
to define a
dictionary of logging settings. These settings describes the loggers,
handlers, filters and formatters that you want in your logging setup,
and the log levels and other properties that you want those components
to have.
By default, the LOGGING
setting is merged with Django’s
default logging configuration using the
following scheme.
If the disable_existing_loggers
key in the LOGGING
dictConfig is
set to True
(which is the dictConfig
default if the key is missing)
then all loggers from the default configuration will be disabled. Disabled
loggers are not the same as removed; the logger will still exist, but will
silently discard anything logged to it, not even propagating entries to a
parent logger. Thus you should be very careful using
'disable_existing_loggers': True
; it’s probably not what you want. Instead,
you can set disable_existing_loggers
to False
and redefine some or all
of the default loggers; or you can set LOGGING_CONFIG
to None
and handle logging config yourself.
Logging is configured as part of the general Django setup()
function.
Therefore, you can be certain that loggers are always ready for use in your
project code.
Examples¶
The full documentation for dictConfig format is the best source of information about logging configuration dictionaries. However, to give you a taste of what is possible, here are several examples.
First, here’s a simple configuration which writes all logging from the django logger to a local file:
LOGGING = {
'version': 1,
'disable_existing_loggers': False,
'handlers': {
'file': {
'level': 'DEBUG',
'class': 'logging.FileHandler',
'filename': '/path/to/django/debug.log',
},
},
'loggers': {
'django': {
'handlers': ['file'],
'level': 'DEBUG',
'propagate': True,
},
},
}
If you use this example, be sure to change the 'filename'
path to a
location that’s writable by the user that’s running the Django application.
Second, here’s an example of how to make the logging system print Django’s logging to the console. It may be useful during local development.
By default, this config only sends messages of level INFO
or higher to the
console (same as Django’s default logging config, except that the default only
displays log records when DEBUG=True
). Django does not log many such
messages. With this config, however, you can also set the environment variable
DJANGO_LOG_LEVEL=DEBUG
to see all of Django’s debug logging which is very
verbose as it includes all database queries:
import os
LOGGING = {
'version': 1,
'disable_existing_loggers': False,
'handlers': {
'console': {
'class': 'logging.StreamHandler',
},
},
'loggers': {
'django': {
'handlers': ['console'],
'level': os.getenv('DJANGO_LOG_LEVEL', 'INFO'),
},
},
}
Finally, here’s an example of a fairly complex logging setup:
LOGGING = {
'version': 1,
'disable_existing_loggers': False,
'formatters': {
'verbose': {
'format': '{levelname} {asctime} {module} {process:d} {thread:d} {message}',
'style': '{',
},
'simple': {
'format': '{levelname} {message}',
'style': '{',
},
},
'filters': {
'special': {
'()': 'project.logging.SpecialFilter',
'foo': 'bar',
},
'require_debug_true': {
'()': 'django.utils.log.RequireDebugTrue',
},
},
'handlers': {
'console': {
'level': 'INFO',
'filters': ['require_debug_true'],
'class': 'logging.StreamHandler',
'formatter': 'simple'
},
'mail_admins': {
'level': 'ERROR',
'class': 'django.utils.log.AdminEmailHandler',
'filters': ['special']
}
},
'loggers': {
'django': {
'handlers': ['console'],
'propagate': True,
},
'django.request': {
'handlers': ['mail_admins'],
'level': 'ERROR',
'propagate': False,
},
'myproject.custom': {
'handlers': ['console', 'mail_admins'],
'level': 'INFO',
'filters': ['special']
}
}
}
This logging configuration does the following things:
Identifies the configuration as being in “dictConfig version 1” format. At present, this is the only dictConfig format version.
Defines two formatters:
simple
, that just outputs the log level name (e.g.,DEBUG
) and the log message.The
format
string is a normal Python formatting string describing the details that are to be output on each logging line. The full list of detail that can be output can be found in Formatter Objects.verbose
, that outputs the log level name, the log message, plus the time, process, thread and module that generate the log message.
Defines two filters:
project.logging.SpecialFilter
, using the aliasspecial
. If this filter required additional arguments, they can be provided as additional keys in the filter configuration dictionary. In this case, the argumentfoo
will be given a value ofbar
when instantiatingSpecialFilter
.django.utils.log.RequireDebugTrue
, which passes on records whenDEBUG
isTrue
.
Defines two handlers:
console
, aStreamHandler
, which prints anyINFO
(or higher) message tosys.stderr
. This handler uses thesimple
output format.mail_admins
, anAdminEmailHandler
, which emails anyERROR
(or higher) message to the siteADMINS
. This handler uses thespecial
filter.
Configures three loggers:
django
, which passes all messages to theconsole
handler.django.request
, which passes allERROR
messages to themail_admins
handler. In addition, this logger is marked to not propagate messages. This means that log messages written todjango.request
will not be handled by thedjango
logger.myproject.custom
, which passes all messages atINFO
or higher that also pass thespecial
filter to two handlers – theconsole
, andmail_admins
. This means that allINFO
level messages (or higher) will be printed to the console;ERROR
andCRITICAL
messages will also be output via email.
Custom logging configuration¶
If you don’t want to use Python’s dictConfig format to configure your logger, you can specify your own configuration scheme.
The LOGGING_CONFIG
setting defines the callable that will
be used to configure Django’s loggers. By default, it points at
Python’s logging.config.dictConfig()
function. However, if you want to
use a different configuration process, you can use any other callable
that takes a single argument. The contents of LOGGING
will
be provided as the value of that argument when logging is configured.
Disabling logging configuration¶
If you don’t want to configure logging at all (or you want to manually
configure logging using your own approach), you can set
LOGGING_CONFIG
to None
. This will disable the
configuration process for Django’s default logging. Here’s an example that disables Django’s
logging configuration and then manually configures logging:
LOGGING_CONFIG = None
import logging.config
logging.config.dictConfig(...)
Setting LOGGING_CONFIG
to None
only means that the automatic
configuration process is disabled, not logging itself. If you disable the
configuration process, Django will still make logging calls, falling back to
whatever default logging behavior is defined.
Django’s logging extensions¶
Django provides a number of utilities to handle the unique requirements of logging in Web server environment.
Loggers¶
Django provides several built-in loggers.
django
¶
The catch-all logger for messages in the django
hierarchy. No messages are
posted using this name but instead using one of the loggers below.
django.request
¶
Log messages related to the handling of requests. 5XX responses are
raised as ERROR
messages; 4XX responses are raised as WARNING
messages. Requests that are logged to the django.security
logger aren’t
logged to django.request
.
Messages to this logger have the following extra context:
status_code
: The HTTP response code associated with the request.request
: The request object that generated the logging message.
django.server
¶
Log messages related to the handling of requests received by the server invoked
by the runserver
command. HTTP 5XX responses are logged as ERROR
messages, 4XX responses are logged as WARNING
messages, and everything else
is logged as INFO
.
Messages to this logger have the following extra context:
status_code
: The HTTP response code associated with the request.request
: The request object that generated the logging message.
django.template
¶
Log messages related to the rendering of templates.
- Missing context variables are logged as
DEBUG
messages.
django.db.backends
¶
Messages relating to the interaction of code with the database. For example,
every application-level SQL statement executed by a request is logged at the
DEBUG
level to this logger.
Messages to this logger have the following extra context:
duration
: The time taken to execute the SQL statement.sql
: The SQL statement that was executed.params
: The parameters that were used in the SQL call.
For performance reasons, SQL logging is only enabled when
settings.DEBUG
is set to True
, regardless of the logging
level or handlers that are installed.
This logging does not include framework-level initialization (e.g.
SET TIMEZONE
) or transaction management queries (e.g. BEGIN
,
COMMIT
, and ROLLBACK
). Turn on query logging in your database if you
wish to view all database queries.
django.security.*
¶
The security loggers will receive messages on any occurrence of
SuspiciousOperation
and other security-related
errors. There is a sub-logger for each subtype of security error, including all
SuspiciousOperation
s. The level of the log event depends on where the
exception is handled. Most occurrences are logged as a warning, while
any SuspiciousOperation
that reaches the WSGI handler will be logged as an
error. For example, when an HTTP Host
header is included in a request from
a client that does not match ALLOWED_HOSTS
, Django will return a 400
response, and an error message will be logged to the
django.security.DisallowedHost
logger.
These log events will reach the django
logger by default, which mails error
events to admins when DEBUG=False
. Requests resulting in a 400 response due
to a SuspiciousOperation
will not be logged to the django.request
logger, but only to the django.security
logger.
To silence a particular type of SuspiciousOperation
, you can override that
specific logger following this example:
'handlers': {
'null': {
'class': 'logging.NullHandler',
},
},
'loggers': {
'django.security.DisallowedHost': {
'handlers': ['null'],
'propagate': False,
},
},
Other django.security
loggers not based on SuspiciousOperation
are:
django.security.csrf
: For CSRF failures.
django.db.backends.schema
¶
Logs the SQL queries that are executed during schema changes to the database by
the migrations framework. Note that it won’t log the
queries executed by RunPython
.
Messages to this logger have params
and sql
in their extra context (but
unlike django.db.backends
, not duration). The values have the same meaning
as explained in django.db.backends.
Handlers¶
Django provides one log handler in addition to those provided by the Python logging module.
-
class
AdminEmailHandler
(include_html=False, email_backend=None)[source]¶ This handler sends an email to the site
ADMINS
for each log message it receives.If the log record contains a
request
attribute, the full details of the request will be included in the email. The email subject will include the phrase « internal IP » if the client’s IP address is in theINTERNAL_IPS
setting; if not, it will include « EXTERNAL IP ».If the log record contains stack trace information, that stack trace will be included in the email.
The
include_html
argument ofAdminEmailHandler
is used to control whether the traceback email includes an HTML attachment containing the full content of the debug Web page that would have been produced ifDEBUG
wereTrue
. To set this value in your configuration, include it in the handler definition fordjango.utils.log.AdminEmailHandler
, like this:'handlers': { 'mail_admins': { 'level': 'ERROR', 'class': 'django.utils.log.AdminEmailHandler', 'include_html': True, } },
Note that this HTML version of the email contains a full traceback, with names and values of local variables at each level of the stack, plus the values of your Django settings. This information is potentially very sensitive, and you may not want to send it over email. Consider using something such as Sentry to get the best of both worlds – the rich information of full tracebacks plus the security of not sending the information over email. You may also explicitly designate certain sensitive information to be filtered out of error reports – learn more on Filtering error reports.
By setting the
email_backend
argument ofAdminEmailHandler
, the email backend that is being used by the handler can be overridden, like this:'handlers': { 'mail_admins': { 'level': 'ERROR', 'class': 'django.utils.log.AdminEmailHandler', 'email_backend': 'django.core.mail.backends.filebased.EmailBackend', } },
By default, an instance of the email backend specified in
EMAIL_BACKEND
will be used.-
send_mail
(subject, message, *args, **kwargs)[source]¶ Sends emails to admin users. To customize this behavior, you can subclass the
AdminEmailHandler
class and override this method.
-
Filters¶
Django provides some log filters in addition to those provided by the Python logging module.
-
class
CallbackFilter
(callback)[source]¶ This filter accepts a callback function (which should accept a single argument, the record to be logged), and calls it for each record that passes through the filter. Handling of that record will not proceed if the callback returns False.
For instance, to filter out
UnreadablePostError
(raised when a user cancels an upload) from the admin emails, you would create a filter function:from django.http import UnreadablePostError def skip_unreadable_post(record): if record.exc_info: exc_type, exc_value = record.exc_info[:2] if isinstance(exc_value, UnreadablePostError): return False return True
and then add it to your logging config:
'filters': { 'skip_unreadable_posts': { '()': 'django.utils.log.CallbackFilter', 'callback': skip_unreadable_post, } }, 'handlers': { 'mail_admins': { 'level': 'ERROR', 'filters': ['skip_unreadable_posts'], 'class': 'django.utils.log.AdminEmailHandler' } },
-
class
RequireDebugFalse
[source]¶ This filter will only pass on records when settings.DEBUG is False.
This filter is used as follows in the default
LOGGING
configuration to ensure that theAdminEmailHandler
only sends error emails to admins whenDEBUG
isFalse
:'filters': { 'require_debug_false': { '()': 'django.utils.log.RequireDebugFalse', } }, 'handlers': { 'mail_admins': { 'level': 'ERROR', 'filters': ['require_debug_false'], 'class': 'django.utils.log.AdminEmailHandler' } },
-
class
RequireDebugTrue
[source]¶ This filter is similar to
RequireDebugFalse
, except that records are passed only whenDEBUG
isTrue
.
Django’s default logging configuration¶
By default, Django configures the following logging:
When DEBUG
is True
:
- The
django
logger sends messages in thedjango
hierarchy (exceptdjango.server
) at theINFO
level or higher to the console.
When DEBUG
is False
:
- The
django
logger sends messages in thedjango
hierarchy (exceptdjango.server
) withERROR
orCRITICAL
level toAdminEmailHandler
.
Independent of the value of DEBUG
:
- The django.server logger sends messages at the
INFO
level or higher to the console.
All loggers except django.server propagate logging to their
parents, up to the root django
logger. The console
and mail_admins
handlers are attached to the root logger to provide the behavior described
above.
See also Configuring logging to learn how you can complement or replace this default logging configuration defined in django/utils/log.py.