Auditor Watchers

Overview

The duty of auditors is to guard Swift against corruption in the storage media. But because auditors crawl all objects, they can be used to program Swift to operate on every object. It is done through an API known as “watcher”.

Watchers do not have any private view into the cluster. An operator can write a standalone program that walks the directories and performs any desired inspection or maintenance. What watcher brings to the table is a framework to do the same job easily, under resource restrictions already in place for the auditor.

Operations performed by watchers are often site-specific, or else they would be incorporated into Swift already. However, the code in the tree provides a reference implementation for convenience. It is located in swift/obj/watchers/dark_data.py and implements so-called “Dark Data Watcher”.

Currently, only object auditor supports the watchers.

The API class

The implementation of a watcher is a Python class that may look like this:

class MyWatcher(object):

  def __init__(self, conf, logger, **kwargs):
      pass

  def start(self, audit_type, **kwargs):
      pass

  def see_object(self, object_metadata, policy_index, partition,
                 data_file_path, **kwargs):
      pass

  def end(self, **kwargs):
      pass

Arguments to watcher methods are passed as keyword arguments, and methods are expected to consume new, unknown arguments.

The method __init__() is used to save configuration and logger at the start of the plug-in.

The method start() is invoked when auditor starts a pass. It usually resets counters. The argument auditor_type is string of “ALL” or “ZBF”, according to the type of the auditor running the watcher. Watchers that talk to the network tend to hang off the ALL-type auditor, the lightweight ones are okay with the ZBF-type.

The method end() is the closing bracket for start(). It is typically used to log something, or dump some statistics.

The method see_object() is called when auditor completed an audit of an object. This is where most of the work is done.

The protocol for see_object() allows it to raise a special exception, QuarantienRequested. Auditor catches it and quarantines the object. In general, it’s okay for watcher methods to throw exceptions, so an author of a watcher plugin does not have to catch them explicitly with a try:; they can be just permitted to bubble up naturally.

Loading the plugins

Swift auditor loads watcher classes from eggs, so it is necessary to wrap the class and provide it an entry point:

$ cat /usr/lib/python3.8/site-p*/mywatcher*egg-info/entry_points.txt
[mywatcher.mysection]
mywatcherentry = mywatcher:MyWatcher

Operator tells Swift auditor what plugins to load by adding them to object-server.conf in the section [object-auditor]. It is also possible to pass parameters, arriving in the argument conf{} of method start():

[object-auditor]
watchers = mywatcher#mywatcherentry,swift#dark_data

[object-auditor:watcher:mywatcher#mywatcherentry]
myparam=testing2020

Do not forget to remove the watcher from auditors when done. Although the API itself is very lightweight, it is common for watchers to incur a significant performance penalty: they can talk to networked services or access additional objects.

Dark Data Watcher

The watcher API is assumed to be under development. Operators who need extensions are welcome to report any needs for more arguments to see_object().

The Dark Data watcher has been provided as an example. If an operator wants to create their own watcher, start by copying the provided example template swift/obj/watchers/dark_data.py and see if it is sufficient.