# frozen_string_literal: true module Gitlab module SidekiqConfig class WorkerRouter InvalidRoutingRuleError = Class.new(StandardError) RuleEvaluator = Struct.new(:matcher, :queue_name) def self.queue_name_from_worker_name(worker_klass) base_queue_name = worker_klass.name .delete_prefix('Gitlab::') .delete_suffix('Worker') .underscore .tr('/', '_') [worker_klass.queue_namespace, base_queue_name].compact.join(':') end def self.global @global_worker_router ||= new(::Gitlab.config.sidekiq.routing_rules) rescue InvalidRoutingRuleError, ::Gitlab::SidekiqConfig::WorkerMatcher::UnknownPredicate => e ::Gitlab::ErrorTracking.track_and_raise_for_dev_exception(e) @global_worker_router = new([]) end # call-seq: # router = WorkerRouter.new([ # ["resource_boundary=cpu", 'cpu_boundary'], # ["feature_category=pages", nil], # ["feature_category=source_code_management", ''], # ["*", "default"] # ]) # router.route(ACpuBoundaryWorker) # Return "cpu_boundary" # router.route(JustAPagesWorker) # Return "just_a_pages_worker" # router.route(PostReceive) # Return "post_receive" # router.route(RandomWorker) # Return "default" # # This class is responsible for routing a Sidekiq worker to a certain # queue defined in the input routing rules. The input routing rules, as # described above, is an order-matter array of tuples [query, queue_name]. # # - The query syntax follows "worker matching query" detailedly # denoted in doc/administration/operations/extra_sidekiq_processes.md. # # - The queue_name must be a valid Sidekiq queue name. If the queue name # is nil, or an empty string, the worker is routed to the queue generated # by the name of the worker instead. # # Rules are evaluated from first to last, and as soon as we find a match # for a given worker we stop processing for that worker (first match # wins). If the worker doesn't match any rule, it falls back the queue # name generated from the worker name # # For further information, please visit: # https://gitlab.com/gitlab-com/gl-infra/scalability/-/issues/1016 # def initialize(routing_rules) @rule_evaluators = parse_routing_rules(routing_rules) end def route(worker_klass) # A medium representation to ensure the backward-compatibility of # WorkerMatcher worker_metadata = generate_worker_metadata(worker_klass) @rule_evaluators.each do |evaluator| if evaluator.matcher.match?(worker_metadata) return evaluator.queue_name.presence || queue_name_from_worker_name(worker_klass) end end queue_name_from_worker_name(worker_klass) end private def parse_routing_rules(routing_rules) raise InvalidRoutingRuleError, 'The set of routing rule must be an array' unless routing_rules.is_a?(Array) routing_rules.map do |rule_tuple| raise InvalidRoutingRuleError, "Routing rule `#{rule_tuple.inspect}` is invalid" unless valid_routing_rule?(rule_tuple) selector, destination_queue = rule_tuple RuleEvaluator.new( ::Gitlab::SidekiqConfig::WorkerMatcher.new(selector), destination_queue ) end end def valid_routing_rule?(rule_tuple) rule_tuple.is_a?(Array) && rule_tuple.length == 2 end def generate_worker_metadata(worker_klass) # The ee indicator here is insignificant and irrelevant to the matcher. # Plus, it's not easy to determine whether a worker is **only** # available in EE. ::Gitlab::SidekiqConfig::Worker.new(worker_klass, ee: false).to_yaml end def queue_name_from_worker_name(worker_klass) self.class.queue_name_from_worker_name(worker_klass) end end end end