# frozen_string_literal: true require "mutex_m" require "concurrent/map" module ActiveSupport module Notifications # This is a default queue implementation that ships with Notifications. # It just pushes events to all registered log subscribers. # # This class is thread safe. All methods are reentrant. class Fanout include Mutex_m def initialize @subscribers = [] @listeners_for = Concurrent::Map.new super end def subscribe(pattern = nil, block = Proc.new) subscriber = Subscribers.new pattern, block synchronize do @subscribers << subscriber @listeners_for.clear end subscriber end def unsubscribe(subscriber_or_name) synchronize do case subscriber_or_name when String @subscribers.reject! { |s| s.matches?(subscriber_or_name) } else @subscribers.delete(subscriber_or_name) end @listeners_for.clear end end def start(name, id, payload) listeners_for(name).each { |s| s.start(name, id, payload) } end def finish(name, id, payload, listeners = listeners_for(name)) listeners.each { |s| s.finish(name, id, payload) } end def publish(name, *args) listeners_for(name).each { |s| s.publish(name, *args) } end def listeners_for(name) # this is correctly done double-checked locking (Concurrent::Map's lookups have volatile semantics) @listeners_for[name] || synchronize do # use synchronisation when accessing @subscribers @listeners_for[name] ||= @subscribers.select { |s| s.subscribed_to?(name) } end end def listening?(name) listeners_for(name).any? end # This is a sync queue, so there is no waiting. def wait end module Subscribers # :nodoc: def self.new(pattern, listener) subscriber_class = Timed if listener.respond_to?(:start) && listener.respond_to?(:finish) subscriber_class = Evented else # Doing all this to detect a block like `proc { |x| }` vs # `proc { |*x| }` or `proc { |**x| }` if listener.respond_to?(:parameters) params = listener.parameters if params.length == 1 && params.first.first == :opt subscriber_class = EventObject end end end wrap_all pattern, subscriber_class.new(pattern, listener) end def self.event_object_subscriber(pattern, block) wrap_all pattern, EventObject.new(pattern, block) end def self.wrap_all(pattern, subscriber) unless pattern AllMessages.new(subscriber) else subscriber end end class Evented #:nodoc: def initialize(pattern, delegate) @pattern = pattern @delegate = delegate @can_publish = delegate.respond_to?(:publish) end def publish(name, *args) if @can_publish @delegate.publish name, *args end end def start(name, id, payload) @delegate.start name, id, payload end def finish(name, id, payload) @delegate.finish name, id, payload end def subscribed_to?(name) @pattern === name end def matches?(name) @pattern && @pattern === name end end class Timed < Evented # :nodoc: def publish(name, *args) @delegate.call name, *args end def start(name, id, payload) timestack = Thread.current[:_timestack] ||= [] timestack.push Time.now end def finish(name, id, payload) timestack = Thread.current[:_timestack] started = timestack.pop @delegate.call(name, started, Time.now, id, payload) end end class EventObject < Evented def start(name, id, payload) stack = Thread.current[:_event_stack] ||= [] event = build_event name, id, payload event.start! stack.push event end def finish(name, id, payload) stack = Thread.current[:_event_stack] event = stack.pop event.finish! @delegate.call event end private def build_event(name, id, payload) ActiveSupport::Notifications::Event.new name, nil, nil, id, payload end end class AllMessages # :nodoc: def initialize(delegate) @delegate = delegate end def start(name, id, payload) @delegate.start name, id, payload end def finish(name, id, payload) @delegate.finish name, id, payload end def publish(name, *args) @delegate.publish name, *args end def subscribed_to?(name) true end alias :matches? :=== end end end end end