module Sidekiq # Middleware is code configured to run before/after # a message is processed. It is patterned after Rack # middleware. Middleware exists for the client side # (pushing jobs onto the queue) as well as the server # side (when jobs are actually processed). # # To add middleware for the client: # # Sidekiq.configure_client do |config| # config.client_middleware do |chain| # chain.add MyClientHook # end # end # # To modify middleware for the server, just call # with another block: # # Sidekiq.configure_server do |config| # config.server_middleware do |chain| # chain.add MyServerHook # chain.remove ActiveRecord # end # end # # To insert immediately preceding another entry: # # Sidekiq.configure_client do |config| # config.client_middleware do |chain| # chain.insert_before ActiveRecord, MyClientHook # end # end # # To insert immediately after another entry: # # Sidekiq.configure_client do |config| # config.client_middleware do |chain| # chain.insert_after ActiveRecord, MyClientHook # end # end # # This is an example of a minimal server middleware: # # class MyServerHook # def call(worker_instance, msg, queue) # puts "Before work" # yield # puts "After work" # end # end # # This is an example of a minimal client middleware, note # the method must return the result or the job will not push # to Redis: # # class MyClientHook # def call(worker_class, msg, queue) # puts "Before push" # result = yield # puts "After push" # result # end # end # module Middleware class Chain include Enumerable attr_reader :entries def initialize_copy(copy) copy.instance_variable_set(:@entries, entries.dup) end def each(&block) entries.each(&block) end def initialize @entries = [] yield self if block_given? end def remove(klass) entries.delete_if { |entry| entry.klass == klass } end def add(klass, *args) remove(klass) if exists?(klass) entries << Entry.new(klass, *args) end def insert_before(oldklass, newklass, *args) i = entries.index { |entry| entry.klass == newklass } new_entry = i.nil? ? Entry.new(newklass, *args) : entries.delete_at(i) i = entries.index { |entry| entry.klass == oldklass } || 0 entries.insert(i, new_entry) end def insert_after(oldklass, newklass, *args) i = entries.index { |entry| entry.klass == newklass } new_entry = i.nil? ? Entry.new(newklass, *args) : entries.delete_at(i) i = entries.index { |entry| entry.klass == oldklass } || entries.count - 1 entries.insert(i+1, new_entry) end def exists?(klass) any? { |entry| entry.klass == klass } end def retrieve map(&:make_new) end def clear entries.clear end def invoke(*args, &final_action) chain = retrieve.dup traverse_chain = lambda do if chain.empty? final_action.call else chain.shift.call(*args, &traverse_chain) end end traverse_chain.call end end class Entry attr_reader :klass def initialize(klass, *args) @klass = klass @args = args end def make_new @klass.new(*@args) end end end end