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f81900ee35
Added indexes, fixed cross-references. Also a few pip-related cleanups I noticed along the way.
281 lines
13 KiB
ReStructuredText
281 lines
13 KiB
ReStructuredText
.. -*- coding: utf-8-with-signature -*-
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=============
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Tahoe Logging
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=============
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1. `Overview`_
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2. `Realtime Logging`_
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3. `Incidents`_
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4. `Working with flogfiles`_
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5. `Gatherers`_
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1. `Incident Gatherer`_
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2. `Log Gatherer`_
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6. `Adding log messages`_
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7. `Log Messages During Unit Tests`_
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Overview
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========
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Tahoe uses the Foolscap logging mechanism (known as the "flog" subsystem) to
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record information about what is happening inside the Tahoe node. This is
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primarily for use by programmers and grid operators who want to find out what
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went wrong.
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The Foolscap logging system is documented at
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`<https://github.com/warner/foolscap/blob/latest-release/doc/logging.rst>`__.
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The Foolscap distribution includes a utility named "``flogtool``" that is
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used to get access to many Foolscap logging features. ``flogtool`` should get
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installed into the same virtualenv as the ``tahoe`` command.
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Realtime Logging
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================
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When you are working on Tahoe code, and want to see what the node is doing,
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the easiest tool to use is "``flogtool tail``". This connects to the Tahoe
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node and subscribes to hear about all log events. These events are then
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displayed to stdout, and optionally saved to a file.
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"``flogtool tail``" connects to the "logport", for which the FURL is stored
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in ``BASEDIR/private/logport.furl`` . The following command will connect to
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this port and start emitting log information::
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flogtool tail BASEDIR/private/logport.furl
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The ``--save-to FILENAME`` option will save all received events to a file,
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where then can be examined later with "``flogtool dump``" or "``flogtool
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web-viewer``". The ``--catch-up`` option will ask the node to dump all stored
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events before subscribing to new ones (without ``--catch-up``, you will only
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hear about events that occur after the tool has connected and subscribed).
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Incidents
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=========
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Foolscap keeps a short list of recent events in memory. When something goes
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wrong, it writes all the history it has (and everything that gets logged in
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the next few seconds) into a file called an "incident". These files go into
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``BASEDIR/logs/incidents/`` , in a file named
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"``incident-TIMESTAMP-UNIQUE.flog.bz2``". The default definition of
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"something goes wrong" is the generation of a log event at the ``log.WEIRD``
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level or higher, but other criteria could be implemented.
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The typical "incident report" we've seen in a large Tahoe grid is about 40kB
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compressed, representing about 1800 recent events.
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These "flogfiles" have a similar format to the files saved by "``flogtool
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tail --save-to``". They are simply lists of log events, with a small header
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to indicate which event triggered the incident.
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The "``flogtool dump FLOGFILE``" command will take one of these ``.flog.bz2``
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files and print their contents to stdout, one line per event. The raw event
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dictionaries can be dumped by using "``flogtool dump --verbose FLOGFILE``".
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The "``flogtool web-viewer``" command can be used to examine the flogfile in
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a web browser. It runs a small HTTP server and emits the URL on stdout. This
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view provides more structure than the output of "``flogtool dump``": the
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parent/child relationships of log events is displayed in a nested format.
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"``flogtool web-viewer``" is still fairly immature.
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Working with flogfiles
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======================
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The "``flogtool filter``" command can be used to take a large flogfile
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(perhaps one created by the log-gatherer, see below) and copy a subset of
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events into a second file. This smaller flogfile may be easier to work with
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than the original. The arguments to "``flogtool filter``" specify filtering
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criteria: a predicate that each event must match to be copied into the target
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file. ``--before`` and ``--after`` are used to exclude events outside a given
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window of time. ``--above`` will retain events above a certain severity
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level. ``--from`` retains events send by a specific tubid.
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``--strip-facility`` removes events that were emitted with a given facility
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(like ``foolscap.negotiation`` or ``tahoe.upload``).
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Gatherers
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=========
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In a deployed Tahoe grid, it is useful to get log information automatically
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transferred to a central log-gatherer host. This offloads the (admittedly
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modest) storage requirements to a different host and provides access to
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logfiles from multiple nodes (web-API, storage, or helper) in a single place.
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There are two kinds of gatherers: "log gatherer" and "stats gatherer". Each
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produces a FURL which needs to be placed in the ``NODEDIR/tahoe.cfg`` file of
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each node that is to publish to the gatherer, under the keys
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"log_gatherer.furl" and "stats_gatherer.furl" respectively. When the Tahoe
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node starts, it will connect to the configured gatherers and offer its
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logport: the gatherer will then use the logport to subscribe to hear about
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events.
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The gatherer will write to files in its working directory, which can then be
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examined with tools like "``flogtool dump``" as described above.
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Incident Gatherer
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-----------------
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The "incident gatherer" only collects Incidents: records of the log events
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that occurred just before and slightly after some high-level "trigger event"
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was recorded. Each incident is classified into a "category": a short string
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that summarizes what sort of problem took place. These classification
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functions are written after examining a new/unknown incident. The idea is to
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recognize when the same problem is happening multiple times.
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A collection of classification functions that are useful for Tahoe nodes are
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provided in ``misc/incident-gatherer/support_classifiers.py`` . There is
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roughly one category for each ``log.WEIRD``-or-higher level event in the
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Tahoe source code.
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The incident gatherer is created with the "``flogtool
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create-incident-gatherer WORKDIR``" command, and started with "``tahoe
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start``". The generated "``gatherer.tac``" file should be modified to add
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classifier functions.
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The incident gatherer writes incident names (which are simply the relative
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pathname of the ``incident-\*.flog.bz2`` file) into ``classified/CATEGORY``.
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For example, the ``classified/mutable-retrieve-uncoordinated-write-error``
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file contains a list of all incidents which were triggered by an
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uncoordinated write that was detected during mutable file retrieval (caused
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when somebody changed the contents of the mutable file in between the node's
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mapupdate step and the retrieve step). The ``classified/unknown`` file
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contains a list of all incidents that did not match any of the classification
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functions.
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At startup, the incident gatherer will automatically reclassify any incident
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report which is not mentioned in any of the ``classified/\*`` files. So the
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usual workflow is to examine the incidents in ``classified/unknown``, add a
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new classification function, delete ``classified/unknown``, then bound the
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gatherer with "``tahoe restart WORKDIR``". The incidents which can be
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classified with the new functions will be added to their own
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``classified/FOO`` lists, and the remaining ones will be put in
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``classified/unknown``, where the process can be repeated until all events
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are classifiable.
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The incident gatherer is still fairly immature: future versions will have a
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web interface and an RSS feed, so operations personnel can track problems in
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the storage grid.
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In our experience, each incident takes about two seconds to transfer from the
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node that generated it to the gatherer. The gatherer will automatically catch
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up to any incidents which occurred while it is offline.
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Log Gatherer
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------------
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The "Log Gatherer" subscribes to hear about every single event published by
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the connected nodes, regardless of severity. This server writes these log
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events into a large flogfile that is rotated (closed, compressed, and
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replaced with a new one) on a periodic basis. Each flogfile is named
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according to the range of time it represents, with names like
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"``from-2008-08-26-132256--to-2008-08-26-162256.flog.bz2``". The flogfiles
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contain events from many different sources, making it easier to correlate
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things that happened on multiple machines (such as comparing a client node
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making a request with the storage servers that respond to that request).
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Create the Log Gatherer with the "``flogtool create-gatherer WORKDIR``"
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command, and start it with "``tahoe start``". Then copy the contents of the
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``log_gatherer.furl`` file it creates into the ``BASEDIR/tahoe.cfg`` file
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(under the key ``log_gatherer.furl`` of the section ``[node]``) of all nodes
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that should be sending it log events. (See :doc:`configuration`)
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The "``flogtool filter``" command, described above, is useful to cut down the
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potentially large flogfiles into a more focussed form.
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Busy nodes, particularly web-API nodes which are performing recursive
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deep-size/deep-stats/deep-check operations, can produce a lot of log events.
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To avoid overwhelming the node (and using an unbounded amount of memory for
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the outbound TCP queue), publishing nodes will start dropping log events when
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the outbound queue grows too large. When this occurs, there will be gaps
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(non-sequential event numbers) in the log-gatherer's flogfiles.
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Adding log messages
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===================
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When adding new code, the Tahoe developer should add a reasonable number of
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new log events. For details, please see the Foolscap logging documentation,
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but a few notes are worth stating here:
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* use a facility prefix of "``tahoe.``", like "``tahoe.mutable.publish``"
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* assign each severe (``log.WEIRD`` or higher) event a unique message
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identifier, as the ``umid=`` argument to the ``log.msg()`` call. The
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``misc/coding_tools/make_umid`` script may be useful for this purpose.
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This will make it easier to write a classification function for these
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messages.
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* use the ``parent=`` argument whenever the event is causally/temporally
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clustered with its parent. For example, a download process that involves
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three sequential hash fetches could announce the send and receipt of those
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hash-fetch messages with a ``parent=`` argument that ties them to the
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overall download process. However, each new web-API download request should
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be unparented.
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* use the ``format=`` argument in preference to the ``message=`` argument.
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E.g. use ``log.msg(format="got %(n)d shares, need %(k)d", n=n, k=k)``
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instead of ``log.msg("got %d shares, need %d" % (n,k))``. This will allow
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later tools to analyze the event without needing to scrape/reconstruct the
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structured data out of the formatted string.
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* Pass extra information as extra keyword arguments, even if they aren't
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included in the ``format=`` string. This information will be displayed in
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the "``flogtool dump --verbose``" output, as well as being available to
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other tools. The ``umid=`` argument should be passed this way.
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* use ``log.err`` for the catch-all ``addErrback`` that gets attached to the
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end of any given Deferred chain. When used in conjunction with
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``LOGTOTWISTED=1``, ``log.err()`` will tell Twisted about the error-nature
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of the log message, causing Trial to flunk the test (with an "ERROR"
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indication that prints a copy of the Failure, including a traceback).
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Don't use ``log.err`` for events that are ``BAD`` but handled (like hash
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failures: since these are often deliberately provoked by test code, they
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should not cause test failures): use ``log.msg(level=BAD)`` for those
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instead.
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Log Messages During Unit Tests
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==============================
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If a test is failing and you aren't sure why, start by enabling
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``FLOGTOTWISTED=1`` like this::
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make test FLOGTOTWISTED=1
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With ``FLOGTOTWISTED=1``, sufficiently-important log events will be written
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into ``_trial_temp/test.log``, which may give you more ideas about why the
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test is failing.
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By default, ``_trial_temp/test.log`` will not receive messages below the
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``level=OPERATIONAL`` threshold. You can change the threshold via the ``FLOGLEVEL``
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variable, e.g.::
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make test FLOGLEVEL=10 FLOGTOTWISTED=1
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(The level numbers are listed in src/allmydata/util/log.py.)
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To look at the detailed foolscap logging messages, run the tests like this::
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make test FLOGFILE=flog.out.bz2 FLOGLEVEL=1 FLOGTOTWISTED=1
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The first environment variable will cause foolscap log events to be written
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to ``./flog.out.bz2`` (instead of merely being recorded in the circular
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buffers for the use of remote subscribers or incident reports). The second
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will cause all log events to be written out, not just the higher-severity
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ones. The third will cause twisted log events (like the markers that indicate
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when each unit test is starting and stopping) to be copied into the flogfile,
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making it easier to correlate log events with unit tests.
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Enabling this form of logging appears to roughly double the runtime of the
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unit tests. The ``flog.out.bz2`` file is approximately 2MB.
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You can then use "``flogtool dump``" or "``flogtool web-viewer``" on the
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resulting ``flog.out`` file.
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("``flogtool tail``" and the log-gatherer are not useful during unit tests,
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since there is no single Tub to which all the log messages are published).
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It is possible for setting these environment variables to cause spurious test
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failures in tests with race condition bugs. All known instances of this have
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been fixed as of Tahoe-LAFS v1.7.1.
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