# frozen_string_literal: true require "sidekiq/throttled/strategy/base" require "sidekiq/throttled/strategy/script" module Sidekiq module Throttled class Strategy # Concurrency throttling strategy class Concurrency include Base # LUA script used to limit fetch concurrency. # Logic behind the scene can be described in following pseudo code: # # if @limit <= LLEN(@key) # return 1 # else # PUSH(@key, @jid) # return 0 # end SCRIPT = Script.read "#{__dir__}/concurrency.lua" private_constant :SCRIPT # @param [#to_s] strategy_key # @param [#to_i, #call] limit Amount of allowed concurrent jobs # per processors running for given key. # @param [#to_i] ttl Concurrency lock TTL in seconds. # @param [Proc] key_suffix Dynamic key suffix generator. def initialize(strategy_key, limit:, ttl: 900, key_suffix: nil) @base_key = "#{strategy_key}:concurrency.v2" @limit = limit @ttl = ttl.to_i @key_suffix = key_suffix end # @return [Boolean] Whenever strategy has dynamic config def dynamic? @key_suffix || @limit.respond_to?(:call) end # @return [Boolean] whenever job is throttled or not def throttled?(jid, *job_args) return false unless (job_limit = limit(job_args)) keys = [key(job_args)] args = [jid.to_s, job_limit, @ttl, Time.now.to_f] 1 == SCRIPT.eval(keys, args) end # @return [Integer] Current count of jobs def count(*job_args) Sidekiq.redis { |conn| conn.zcard(key(job_args)) }.to_i end # Resets count of jobs # @return [void] def reset!(*job_args) Sidekiq.redis { |conn| conn.del(key(job_args)) } end # Remove jid from the pool of jobs in progress # @return [void] def finalize!(jid, *job_args) Sidekiq.redis { |conn| conn.zrem(key(job_args), jid.to_s) } end end end end end