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Workers is a Ruby gem for performing work in background threads. Multi-threading made simple.

Workers Build Status Coverage Status

Workers is a Ruby gem for performing work in background threads. Design goals include high performance, low latency, simple API, customizability, and multi-layered architecture. It provides a number of simple to use classes that solve a wide range of concurrency problems. It is used by Tribe to implement event-driven actors.

Contents

Installation

Add this line to your application's Gemfile:

gem 'workers'

And then execute:

$ bundle

Or install it yourself as:

$ gem install workers

Parallel Map

Parallel map is the simplest way to get started with the Workers gem. It is similar to Ruby's built-in Array#map method except each element is mapped in parallel.

Workers.map([1, 2, 3, 4, 5]) { |i| i * i }

Any exceptions while mapping with cause the entire map method to fail. If your block is prone to temporary failures (exceptions), you can retry it.

Workers.map([1, 2, 3, 4, 5], :max_tries => 100) do |i|
  if rand <= 0.8
    puts "Sometimes I like to fail while computing #{i} * #{i}."
    raise 'sad face'
  end

  i * i
end

Tasks

Tasks and task groups provide more flexibility than parallel map. For example, you get to decide how you want to handle exceptions.

# Create a task group (it contains a pool of worker threads).
group = Workers::TaskGroup.new

# Add tasks to the group.
10.times do |i|
  10.times do |j|
    group.add(:max_tries => 10) do
      group.synchronize { puts "Computing #{i} * #{j}..." }
      if rand <= 0.9
        group.synchronize { puts "Sometimes I like to fail while computing #{i} * #{i}." }
        raise 'sad face'
      end
      i * j # Last statement executed is the result of the task.
    end
  end
end

# Execute the tasks (blocks until the tasks complete).
# Returns true if all tasks succeed.  False if any fail.
group.run

# Return an array of all the tasks.
group.tasks

# Return an array of the successful tasks.
group.successes

# Return an array of the failed tasks (raised an exception).
group.failures

# Review the results.
group.tasks.each do |t|
  t.succeeded? # True or false (false if an exception occurred).
  t.failed?    # True or false (true if an exception occurred).
  t.input      # Input value.
  t.result     # Output value (the result of i * i in this example).
  t.exception  # The exception if one exists.
  t.max_tries  # Maximum number of attempts.
  t.tries      # Actual number of attempts.
end

Note that instances of TaskGroup provide a 'synchronize' method. This method uses a mutex so you can serialize portions of your tasks that aren't thread safe.

Options

group = Workers::TaskGroup.new(
  :logger => nil,                   # Ruby logger instance.
  :pool => Workers.pool             # The workers pool used to execute timer callbacks.
)

task = Workers::Task.new(
  :logger => nil,                   # Ruby logger instance.
  :on_perform => proc {},           # Required option.  Block of code to run.
  :input => [],                     # Array of arguments passed to the 'perform' block.
  :on_finished => nil,              # Callback to execute after attempting to run the task.
  :max_tries => 1,                  # Number of times to try completing the task (without an exception).
)

Workers

Basic

The main purpose of the Worker class is to add an event system on top of Ruby's built-in Thread class. This greatly simplifies inter-thread communication. You must manually dispose of pools and workers so they get garbage collected.

# Initialize a worker pool.
pool = Workers::Pool.new(:on_exception => proc { |e|
  puts "A worker encountered an exception: #{e.class}: #{e.message}"
})

# Perform some work in the background.
100.times do
  pool.perform do
    sleep(rand(3))
    raise 'sad face' if rand < 0.5
    puts "Hello world from thread #{Thread.current.object_id}"
  end
end

# Wait up to 30 seconds for the workers to cleanly shutdown (or forcefully kill them).
pool.dispose(30) do
  puts "Worker thread #{Thread.current.object_id} is shutting down."
end

Advanced

The Worker class is designed to be customized through inheritence and its event system:

# Create a subclass that handles custom events.
# Super is called to handle built-in events such as perform and shutdown.
class CustomWorker < Workers::Worker
  private
  def event_handler(event)
    case event.command
    when :my_custom
      puts "Worker received custom event: #{event.data}"
      sleep(1)
    else
      super(event)
    end
  end
end

# Create a pool that uses your custom worker class.
pool = Workers::Pool.new(:worker_class => CustomWorker, :on_exception => proc { |e|
  puts "A worker encountered an exception: #{e.class}: e.message}"
})

# Tell the workers to do some work using custom events.
100.times do |i|
  pool.enqueue(:my_custom, i)
end

# Wait up to 30 seconds for the workers to cleanly shutdown (or forcefully kill them).
pool.dispose(30) do
  puts "Worker thread #{Thread.current.object_id} is shutting down."
end

Without pools

In most cases you will be using a group of workers (a pool) as demonstrated above. In certain cases, you may want to use a worker directly without the pool. This gives you direct access to a single event-driven thread that won't die on an exception.

# Create a single worker.
worker = Workers::Worker.new

# Perform some work in the background.
25.times do |i|
  worker.perform do
    sleep(0.1)
    puts "Hello world from thread #{Thread.current.object_id}"
  end
end

# Wait up to 30 seconds for the worker to cleanly shutdown (or forcefully kill it).
worker.dispose(30)

Options

worker = Workers::Worker.new(
  :logger => nil,                   # Ruby Logger instance.
  :input_queue => nil,              # Ruby Queue used for input events.
  :on_exception => nil              # Callback to execute on exception (exception passed as only argument).
)

Pools

Pools allow a group of workers to share a work queue. The Workers gem has a default pool (Workers.pool) with 20 workers so in most cases you won't need to create your own. Pools can be adjusted using the below methods:

# Create a pool.
pool = Workers::Pool.new

# Return the number of workers in the pool.
pool.size

# Increase the number of workers in the pool.
pool.expand(5)

# Decrease the number of workers in the pool.
pool.contract(5)

# Resize the pool size to a specific value.
pool.resize(20)

Options

pool = Workers::Pool.new(
  :size => 20,                      # Number of threads to create.
  :logger => nil,                   # Ruby Logger instance.
  :worker_class => Workers::Worker  # Class of worker to use for this pool.
  :on_exception => nil              # Callback to execute on exception (exception passed as only argument).
)

Timers

Timers provide a way to execute code in the future. You can easily use them to tell a Worker or it's higher level classes (Task, TaskGroup, etc) to perform work in the future.

# Create a one shot timer that executes in 1.5 seconds.
timer = Workers::Timer.new(1.5) do
  puts 'Hello world'
end

# Create a periodic timer that loops infinitely or until 'cancel' is called.
timer = Workers::PeriodicTimer.new(1) do
  puts 'Hello world many times'
end

# Let the timer print some lines.
sleep(5)

# Shutdown the timer.
timer.cancel

Options

timer = Workers::Timer.new(1,
  :logger => nil,                   # Ruby logger instance.
  :repeat => false,                 # Repeat the timer until 'cancel' is called.
  :scheduler => Workers.scheduler,  # The scheduler that manages execution.
  :callback => nil                  # The proc to execute (provide this or a block, but not both).
)

timer = Workers::PeriodicTimer.new(1,
  :logger => nil,                   # Ruby logger instance.
  :scheduler => Workers.scheduler,  # The scheduler that manages execution.
  :callback => nil                  # The proc to execute (provide this or a block, but not both).
)

Schedulers

Schedulers are what trigger Timers to fire. The Workers gem has a default scheduler (Workers.scheduler) so in most cases you won't need to create your own. Schedulers execute timers using a pool of workers so make sure your timer block is thread safe. You can create additional schedulers as necessary:

# Create a workers pool with a larger than default thread count (optional).
pool = Workers::Pool.new(:size => 100)

# Create a scheduler.
scheduler = Workers::Scheduler.new(:pool => pool)

# Create a timer that uses the above scheduler.
timer = Workers::Timer.new(1, :scheduler => scheduler) do
  puts 'Hello world'
end

# Wait for the timer to fire.
sleep(5)

# Shutdown the scheduler.
scheduler.dispose

Options

scheduler = Workers::Scheduler.new(
  :logger => nil,                   # Ruby logger instance.
  :pool => Workers::Pool.new        # The workers pool used to execute timer callbacks.
)

Bucket Schedulers

The Bucket scheduler class is a specialized scheduler designed to work around lock contention. This is accomplished by using many pools (100 by default) each with a small number of workers (1 by default). Timers are assigned to a scheduler by their hash value. Most users will never need to use this class, but it is documented here for completeness. Both the number of buckets and the number of workers assigned to each bucket are configurable.

# Create a bucket scheduler.
scheduler = Workers::BucketScheduler.new

Ruby's main thread

Ruby's main thread (the default thread) will terminate the Ruby process when it exits. Since asynchronouse code (such as the Timer and Scheduler classes) don't block the main thread, you may run into a problem where your script exits before your timers fire. If this is the case, you will need to provide a busy loop to keep the main thread from exiting:

while(true) do
  sleep 1
end

Concurrency and performance

Workers is tested with both JRuby and MRI (C Ruby). Below are some notes specific to each Ruby implementation. In summary, JRuby is the recommended Ruby to use with Workers since it provides the highest performance with multiple CPU cores.

JRuby (recommended)

JRuby is designed for multi-threaded apps running on multiple cores. When used with Workers, you will be able to saturate all of your CPU cores with little to no tuning. It is highly recommended you increase the number of workers in your pool if you have a large number of cores. A good starting point is 1x - 2x the number of cores for CPU bound apps. For IO bound apps you will need to do some benchmarking to figure out what is best for you. A good starting point is 4x - 10x the number of cores for IO bound apps.

MRI 2.2.0 or newer (supported)

MRI 2.2.0 and above use real operating system threads with a global interpreter lock (GIL). The bad news is that due to the GIL, only one thread can execute Ruby code at a given point in time. This means your app will be CPU bound to a single core. The good news is that IO bound applications will still see huge benefits from Workers. Examples of such IO are web service requests, web servers, web crawlers, database queries, writing to disk, etc. Threads performing such IO will temporarily release the GIL and thus let another thread execute Ruby code.

MRI 1.8.x or older (not supported)

These old versions of Ruby use green threads (application layer threads) instead of operating system level threads. I recommend you upgrade to a newer version as I haven't tested Workers with them. They also aren't officially supported by the Ruby community at this point.

Rubinius

I haven't tested Workers with Rubinius, but in theory it should just work. The above JRuby notes should apply.

Contributing

  1. Fork it
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Add some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create new Pull Request