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  • Updated about 6 years ago

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Repository Details

Job server in Go

Workq Build Status Coverage Status Go Report Card Project Status

Workq is a job scheduling server strictly focused on simplifying job processing and streamlining coordination. It can run jobs in blocking foreground or non-blocking background mode.

Workq runs as a standalone TCP server and implements a simple, text based protocol. Clients interact with Workq over a TCP socket in a request/response model with text commands. Please refer to the full protocol doc for details.

Supported Features

  • Asynchronous and Synchronous processing
    • Submit a job and grab a result at a later time up to TTL.
    • Submit a job and wait for the result synchronously (Gearman style).
  • Adhoc job scheduling at any future UTC time.
  • Numeric job priorities from -2147483648 to 2147483647.
  • Per job TTR (time-to-run) - Limits max execution time in milliseconds for a single attempt until re-queue.
  • Per job TTL expiration - Limits max job lifetime in milliseconds until automatic deletion.
  • Per job retry support with max-attempts and max-fails flags.
  • In-memory with a persistent Command Log.

What is Workq useful for?

Scheduling & Timers

Schedule adhoc one-time jobs at a future UTC time. Workq can be used as a timer for any application event scheduling. Compare this to the usual alternative of building scheduling schema into an existing datastore, writing a custom worker to poll the datastore, and finally building in locking & state management to manage dispatching.

In Workq, you schedule the job, lease the job, and complete the job.

Concurrency Control

Workq can enable concurrency especially in languages that do not have built-in concurrency. Background multiple jobs, process them with multiple workers, and retrieve results from within a single process.

Streamlining & Persistent Processing

Workq will retry jobs from TTR (time-to-run) timeouts and/or from explicit job failures through the max-attempts and max-fails flags. Retry is a job execution specification and does not require any custom worker logic.

Distributing Work

Distribute work to multiple workers using Workq as the coordinator. In addition, Workq is language agnostic, submit a job from one language and process it in another.

Workq can also naturally store job execution results for later retrieval up to the job's TTL.

Project Status

Workq is in alpha status and not yet stable. The protocol may still be subject to small changes. Full unit test coverage, system testing, and fuzz testing are used to ensure maximum coverage and safety throughout development. Workq is currently suitable for development experimentation and evaluation. Stabilization will happen once the test coverage is thorough enough and there no major gaps in the protocol. There will be absolutely no reliance on manual testing where technically possible. Workq will slow bake until ready.

Table of Contents

Getting Started

Client/Worker examples are shown using the Go client.

Installing

make server
# Builds into bin/workq-server

Starting

Start an in-memory only workq-server on port 9922.

bin/workq-server

Workq can be started with persistence by passing the cmdlog-path option with the path to a directory where the persistent logs will be stored.

bin/workq-server --cmdlog-path /path/to/workq/cmdlog-dir

Please refer to the full Command Log Doc for details.

Connecting

import "github.com/iamduo/go-workq"
// ...

client, err := workq.Connect("localhost:9922")
if err != nil {
  // ...
}

Submitting Jobs - 3 Ways

Add a Job (Background)

Protocol Doc | Go Doc

Add a background job. The result can be retrieved through the "result" command.

job := &workq.BgJob{
	ID: "6ba7b810-9dad-11d1-80b4-00c04fd430c4",
	Name: "ping",
	TTL: 60000,      // Expire after 60 seconds
	TTR: 5000,       // 5 second time-to-run limit
	Payload: []byte("ping"),
	Priority: 10,    // @OPTIONAL Numeric priority, default 0.
	MaxAttempts: 3,  // @OPTIONAL Absolute max num of attempts.
	MaxFails: 1,     // @OPTIONAL Absolute max number of failures.
}
err := client.Add(job)
if err != nil {
	// ...
}

Run a Job (Foreground)

Protocol Doc | Go Doc

Run a job and wait for its result.

job := &workq.FgJob{
	ID: "6ba7b810-9dad-11d1-80b4-00c04fd430c4",
	Name: "ping",
	TTR: 5000,          // 5 second time-to-run limit
	Timeout: 60000, 		// Wait up to 60 seconds for a worker to pick up.
	Payload: []byte("ping"),
	Priority: 10,       // @OPTIONAL Numeric priority, default 0.
}
result, err := client.Run(job)
if err != nil {
  // ...
}

fmt.Printf("Success: %t, Result: %s", result.Success, result.Result)

Schedule a Job

Protocol Doc | Go Doc

Schedule a job at a UTC time. The result can be retrieved through the "result" command.

job := &workq.ScheduledJob{
	ID: "6ba7b810-9dad-11d1-80b4-00c04fd430c4",
	Name: "ping",
	Time: "2016-12-01T00:00:00Z"    // Start job at this UTC time.
	TTL: 60000,                     // Expire after 60 seconds
	TTR: 5000,                      // 5 second time-to-run limit
	Payload: []byte("ping"),
	Priority: 10,                   // @OPTIONAL Numeric priority, default 0.
	MaxAttempts: 3,                 // @OPTIONAL Absolute max num of attempts.
	MaxFails: 1,                    // @OPTIONAL Absolute max number of failures.
}
err := client.Schedule(job)
if err != nil {
	// ...
}

Leasing Jobs

Protocol Doc | Go Doc

Lease the first job within a set of one or more job names with a wait-timeout (milliseconds).

// Lease the first available job in "ping1", "ping2", "ping3"
// waiting up to 60 seconds.
job, err := client.Lease([]string{"ping1", "ping2", "ping3"}, 60000)
if err != nil {
	// ...
}

fmt.Printf("Leased Job: ID: %s, Name: %s, Payload: %s", job.ID, job.Name, job.Payload)

Completing Jobs

Protocol Doc | Go Doc

Mark a job successfully completed with a result.

err := client.Complete("6ba7b810-9dad-11d1-80b4-00c04fd430c4", []byte("pong"))
if err != nil {
	// ...
}

Failing Jobs

Protocol Doc | Go Doc

Mark a job failed with a result.

err := client.Fail("6ba7b810-9dad-11d1-80b4-00c04fd430c4", []byte("failed"))
if err != nil {
	// ...
}

Retrieving Job Results

Protocol Doc | Go Doc

Get a job result previously executed by Add or Schedule commands.

// Get a job result, waiting up to 60 seconds if the job is still executing.
result, err := client.Result("6ba7b810-9dad-11d1-80b4-00c04fd430c4", 60000)
if err != nil {
	// ...
}

fmt.Printf("Success: %t, Result: %s", result.Success, result.Result)

And More

Please see the full protocol doc and Go client docs for more details.

Command Log Persistence

Persistence in Workq is handled by the Command Log, an append-only data log of all job commands that perform state changes.

Please refer to the full Command Log Doc for details.

Clients

Go

Java

Developing New Clients

While there is no official client development guide yet, developing a Workq client is fairly straightforward simply by reading the protocol doc. In addition, you can review the Go client as a working example. If you have questions, please open a Github issue with the "question" label.

Caveats & Limitations

Workq can't and will not do everything you want. Some things to keep in mind:

  • In-memory job server limited to RAM size (persistent on disk with cmdlog).
  • Job payload & results are limited to 1 MiB each.
  • Workq servers are standalone and do not speak to each other.

Glossary

Priority

Priority is a signed 32-bit integer value from -2147483648 to 2147483647, 0 being the default. Controls the order of job execution within a single job queue. Higher priorities are executed first.

TTR - Time-to-run

TTR stands for time-to-run and is the maximum time a job can run for after being leased before it is requeued. This value is in milliseconds.

TTL - Time-to-live

Expiration time before job is deleted regardless of state. This value is in milliseconds.

Lease

A worker receives work by leasing jobs by their name. A lease is bound by the job's TTR.

Max-Attempts

Max Attempts is used in add and schedule commands to specify the number of times a job can be attempted before being marked as failed. An attempt is counted anytime a job is leased regardless of the outcome. This primarily is a job timing out due to TTR.

Max-Fails

Max number of explicit job failures. Explicit job failures are not from timeouts, but from explicit workers reporting results by the fail command. Use this when you want a job to be retried on "true" worker failures and not timeouts from TTR.

Contributing

  • Don't violate DRY principles.
  • Boy Scout Rule needs to have been applied.
  • Your code should look like all the other code – this project should look like it was written by one person, always.
  • If you want to propose something – just create an issue and describe your question with as much description as you can.
  • Avoid sending blind pull requests, have a discussion first. A new feature pull request should not come as a surprise to the maintainer.
  • If you add new code, it should be covered by tests fully. No tests – no code.
  • If you add a new feature, don't forget to update the documentation for it. No documentation, no feature.
  • If you find a bug (or at least you think it is a bug), create an issue with the version and test case that can be run or at least full reproduction steps of the bug.

Contribution Suitability

The project maintainer has the last word on whether or not a contribution is suitable for Workq. All contributions will be considered carefully, but from time to time, contributions will be rejected because they do not suit the current goals or needs of the project.

If your contribution is rejected, don't despair! As long as you followed these guidelines, you will have a much better chance of getting your next contribution accepted.

Bug Reports

Bug reports are hugely important! Before you raise one, though, please check through the GitHub issues, both open and closed, to confirm that the bug hasn't been reported before. Duplicate bug reports are a huge drain on the time of other contributors, and should be avoided as much as possible.

Feature Requests

Workq is intended to have a small API to solve a very specific set of use cases. Maintaining a small API allows Workq to be maintainable in the future and understandable.

One of the most important skills to have while maintaining an open source project is learning the ability to say "no" to suggested changes, while keeping an open ear and mind.

Admittedly Workq is still in its early stages. If you believe there is a feature missing, feel free to raise a feature request, but please do be aware that not all requests are suitable.

Supporting Workq

If enough users find value in Workq, I'll attempt to set up a strategy to sustain it for the long term. If you find value in Workq for your company, please say hello on our mailing list.

Credits

Workq is inspired from prior works. The following projects have shaped Workq's feature set:

  • Beanstalkd - Simple protocol, TTR, and reserve concepts.
  • Gearman - Job server concept.
  • Memcached - Simple protocol.
  • Redis & Disque - Reference point for server design & packaging and many other things.
  • SQLite & Varnish - Strategies to sustain open source.
  • Rihanna for working so hard...
  • Probably many more....

Thanks

Special thanks to Theofanis M3 Industries, the initial Workq Supporter, which provided me the hardware to build Workq.