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137 lines
5.6 KiB
Markdown
137 lines
5.6 KiB
Markdown
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---
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layout: docs
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title: Joex - Job Executor
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---
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# Job Executor
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## Context and Problem Statement
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Docspell is a multi-user application. When processing user's
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documents, there must be some thought on how to distribute all the
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processing jobs on a much more restricted set of resources. There
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maybe 100 users but only 4 cores that can process documents at a
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time. Doing simply FIFO is not enough since it provides an unfair
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distribution. The first user who submits 20 documents will then occupy
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all cores for quite some time and all other users would need to wait.
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This tries to find a more fair distribution among the users (strictly
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meaning collectives here) of docspell.
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The job executor is a separate component that will run in its own
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process. It takes the next job from the "queue" and executes the
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associated task. This is used to run the document processing jobs
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(text extraction, text analysis etc).
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1. The task execution should survive restarts. State and task code
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must be recreated from some persisted state.
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2. The processing should be fair with respect to collectives.
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3. It must be possible to run many job executors, possibly on
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different machines. This can be used to quickly enable more
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processing power and removing it once the peak is over.
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4. Task execution can fail and it should be able to retry those
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tasks. Reasons are that errors may be temporarily (for example
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talking to a third party service), and to enable repairing without
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stopping the job executor. Some errors might be easily repaired (a
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program was not installed or whatever). In such a case it is good
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to know that the task will be retried later.
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## Considered Options
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In contrast to other ADRs this is just some sketching of thoughts for
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the current implementation.
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1. Job description are serialized and written to the database into a
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table. This becomes the queue. Tasks are identified by names and a
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job executor implementation must have a map of names to code to
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lookup the task to perform. The tasks arguments are serialized into
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a string and written to the database. Tasks must decode the
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string. This can be conveniently done using JSON and the provided
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circe decoders.
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2. To provide a fair execution jobs are organized into groups. When a
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new job is requested from the queue, first a group is selected
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using a round-robin strategy. This should ensure good enough
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fairness among groups. A group maps to a collective. Within a
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group, a job is selected based on priority, submitted time (fifo)
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and job state (see notes about stuck jobs).
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3. Allowing multiple job executors means that getting the next job can
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fail due to simultaneous running transactions. It is retried until
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it succeeds. Taking a job puts in into _scheduled_ state. Each job
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executor has a unique (manually supplied) id and jobs are marked
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with that id once it is handed to the executor.
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4. When a task fails, its state is updated to state _stuck_. Stuck
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jobs are retried in the future. The queue prefers to return stuck
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jobs that are due at the specific point in time ignoring the
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priority hint.
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### More Details
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A job has these properties
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- id (something random)
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- group
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- taskname (to choose task to run)
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- submitted-date
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- worker (the id of the job executor)
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- state, one of: waiting, scheduled, running, stuck, cancelled,
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failed, success
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- waiting: job has been inserted into the queue
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- scheduled: job has been handed over to some executore and is
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marked with the job executor id
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- running: a task is currently executing
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- stuck: a task has failed and is being retried eventually
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- cancelled: task has finished and there was a cancel request
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- failed: task has failed, execeeded the retries
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- success: task has completed successfully
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The queue has a `take` or `nextJob` operation that takes the worker-id
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and a priority hint and goes roughly like this:
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- select the next group using round-robin strategy
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- select all jobs with that group, where
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- state is stuck and waiting time has elapsed
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- state is waiting and have the given priority if possible
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- jobs are ordered by submitted time, but stuck jobs whose waiting
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time elapsed are preferred
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There are two priorities within a group: high and low. A configured
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counting scheme determines when to select certain priority. For
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example, counting scheme of `(2,1)` would select two high priority
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jobs and then 1 low priority job. The `take` operation tries to prefer
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this priority but falls back to the other if no job with this priority
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is available.
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A group corresponds to a collective. Then all collectives get
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(roughly) equal treatment.
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Once there are no jobs in the queue the executor goes into sleep and
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must be waked to run again. If a job is submitted, the executors are
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notified.
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### Stuck Jobs
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A job is going into _stuck_ state, if the task has failed. In this
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state, the task is rerun after a while until a maximum retry count is
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reached.
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The problem is how to notify all executors when the waiting time has
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elapsed. If one executor puts a job into stuck state, it means that
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all others should start looking into the queue again after `x`
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minutes. It would be possible to tell all existing executors to
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schedule themselves to wake up in the future, but this would miss all
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executors that show up later.
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The waiting time is increased exponentially after each retry (`2 ^
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retry`) and it is meant as the minimum waiting time. So it is ok if
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all executors wakeup periodically and check for new work. Most of the
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time this should not be necessary and is just a fallback if only stuck
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jobs are in the queue and nothing is submitted for a long time. If the
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system is used, jobs get submitted once in a while and would awake all
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executors.
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