# frozen_string_literal: true require 'sidekiq/client' module Sidekiq ## # Include this module in your worker class and you can easily create # asynchronous jobs: # # class HardWorker # include Sidekiq::Worker # # def perform(*args) # # do some work # end # end # # Then in your Rails app, you can do this: # # HardWorker.perform_async(1, 2, 3) # # Note that perform_async is a class method, perform is an instance method. module Worker attr_accessor :jid def self.included(base) raise ArgumentError, "You cannot include Sidekiq::Worker in an ActiveJob: #{base.name}" if base.ancestors.any? {|c| c.name == 'ActiveJob::Base' } base.extend(ClassMethods) base.sidekiq_class_attribute :sidekiq_options_hash base.sidekiq_class_attribute :sidekiq_retry_in_block base.sidekiq_class_attribute :sidekiq_retries_exhausted_block end def logger Sidekiq.logger end # This helper class encapsulates the set options for `set`, e.g. # # SomeWorker.set(queue: 'foo').perform_async(....) # class Setter def initialize(klass, opts) @klass = klass @opts = opts end def perform_async(*args) @klass.client_push(@opts.merge('args' => args, 'class' => @klass)) end # +interval+ must be a timestamp, numeric or something that acts # numeric (like an activesupport time interval). def perform_in(interval, *args) int = interval.to_f now = Time.now.to_f ts = (int < 1_000_000_000 ? now + int : int) payload = @opts.merge('class' => @klass, 'args' => args, 'at' => ts) # Optimization to enqueue something now that is scheduled to go out now or in the past payload.delete('at') if ts <= now @klass.client_push(payload) end alias_method :perform_at, :perform_in end module ClassMethods ACCESSOR_MUTEX = Mutex.new def delay(*args) raise ArgumentError, "Do not call .delay on a Sidekiq::Worker class, call .perform_async" end def delay_for(*args) raise ArgumentError, "Do not call .delay_for on a Sidekiq::Worker class, call .perform_in" end def delay_until(*args) raise ArgumentError, "Do not call .delay_until on a Sidekiq::Worker class, call .perform_at" end def set(options) Setter.new(self, options) end def perform_async(*args) client_push('class' => self, 'args' => args) end # +interval+ must be a timestamp, numeric or something that acts # numeric (like an activesupport time interval). def perform_in(interval, *args) int = interval.to_f now = Time.now.to_f ts = (int < 1_000_000_000 ? now + int : int) item = { 'class' => self, 'args' => args, 'at' => ts } # Optimization to enqueue something now that is scheduled to go out now or in the past item.delete('at') if ts <= now client_push(item) end alias_method :perform_at, :perform_in ## # Allows customization for this type of Worker. # Legal options: # # queue - use a named queue for this Worker, default 'default' # retry - enable the RetryJobs middleware for this Worker, *true* to use the default # or *Integer* count # backtrace - whether to save any error backtrace in the retry payload to display in web UI, # can be true, false or an integer number of lines to save, default *false* # pool - use the given Redis connection pool to push this type of job to a given shard. # # In practice, any option is allowed. This is the main mechanism to configure the # options for a specific job. def sidekiq_options(opts={}) # stringify self.sidekiq_options_hash = get_sidekiq_options.merge(Hash[opts.map{|k, v| [k.to_s, v]}]) end def sidekiq_retry_in(&block) self.sidekiq_retry_in_block = block end def sidekiq_retries_exhausted(&block) self.sidekiq_retries_exhausted_block = block end def get_sidekiq_options # :nodoc: self.sidekiq_options_hash ||= Sidekiq.default_worker_options end def client_push(item) # :nodoc: pool = Thread.current[:sidekiq_via_pool] || get_sidekiq_options['pool'] || Sidekiq.redis_pool # stringify item.keys.each do |key| item[key.to_s] = item.delete(key) end Sidekiq::Client.new(pool).push(item) end def sidekiq_class_attribute(*attrs) instance_reader = true instance_writer = true attrs.each do |name| synchronized_getter = "__synchronized_#{name}" singleton_class.instance_eval do undef_method(name) if method_defined?(name) || private_method_defined?(name) end define_singleton_method(synchronized_getter) { nil } singleton_class.class_eval do private(synchronized_getter) end define_singleton_method(name) { ACCESSOR_MUTEX.synchronize { send synchronized_getter } } ivar = "@#{name}" singleton_class.instance_eval do m = "#{name}=" undef_method(m) if method_defined?(m) || private_method_defined?(m) end define_singleton_method("#{name}=") do |val| singleton_class.class_eval do ACCESSOR_MUTEX.synchronize do undef_method(synchronized_getter) if method_defined?(synchronized_getter) || private_method_defined?(synchronized_getter) define_method(synchronized_getter) { val } end end if singleton_class? class_eval do undef_method(name) if method_defined?(name) || private_method_defined?(name) define_method(name) do if instance_variable_defined? ivar instance_variable_get ivar else singleton_class.send name end end end end val end if instance_reader undef_method(name) if method_defined?(name) || private_method_defined?(name) define_method(name) do if instance_variable_defined?(ivar) instance_variable_get ivar else self.class.public_send name end end end if instance_writer m = "#{name}=" undef_method(m) if method_defined?(m) || private_method_defined?(m) attr_writer name end end end end end end