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64 lines
2.7 KiB
ReStructuredText
64 lines
2.7 KiB
ReStructuredText
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Stator
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======
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Takahē's background task system is called Stator, and rather than being a
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transitional task queue, it is instead a *reconciliation loop* system; the
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workers look for objects that could have actions taken, try to take them, and
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update them if successful.
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As someone running Takahē, the most important aspects of this are:
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* You have to run at least one Stator worker to make things like follows,
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posting, and timelines work.
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* You can run as many workers as you want; there is a locking system to ensure
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they can coexist.
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* You can get away without running any workers for a few minutes; the server
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will continue to accept posts and follows from other servers, and will
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process them when a worker comes back up.
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* There is no separate queue to run, flush or replay; it is all stored in the
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main database.
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* If all your workers die, just restart them, and within a few minutes the
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existing locks will time out and the system will recover itself and process
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everything that's pending.
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You run a worker via the command ``manage.py runstator``. It will run forever
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until it is killed; send SIGINT (Ctrl-C) to it once to have it enter graceful
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shutdown, and a second time to force exiting immediately.
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Technical Details
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-----------------
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Each object managed by Stator has a set of extra columns:
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* ``state``, the name of a state in a state machine
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* ``state_ready``, a boolean saying if it's ready to have a transition tried
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* ``state_changed``, when it entered into its current state
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* ``state_attempted``, when a transition was last attempted
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* ``state_locked_until``, when the entry is locked by a worker until
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They also have an associated state machine which is a subclass of
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``stator.graph.StateGraph``, which will define a series of states, the
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possible transitions between them, and handlers that run for each state to see
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if a transition is possible.
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An object becoming ready for execution happens first:
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* If it's just entered into a new state, or just created, it is marked ready.
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* If ``state_attempted`` is far enough in the past (based on the ``try_interval``
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of the current state), a small scheduling loop marks it as ready.
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Then, in the main fast loop of the worker, it:
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* Selects an item with ``state_ready`` that is in a state it can handle (some
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states are "externally progressed" and will not have handlers run)
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* Fires up a coroutine for that handler and lets it run
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* When that coroutine exits, sees if it returned a new state name and if so,
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transitions the object to that state.
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* If that coroutine errors or exits with ``None`` as a return value, it marks
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down the attempt and leaves the object to be rescheduled after its ``try_interval``.
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