require 'spec_helper' require 'integrations/integration_test_helper' shared_examples_for 'Firehose::Rack::App' do include EM::TestHelper include IntegrationTestHelper before(:all) do Firehose::Producer.adapter = :em_http start_server end after(:all) do Firehose::Producer.adapter = nil stop_server end before(:each) { WebMock.disable! } after(:each) { WebMock.enable! } let(:app) { Firehose::Rack::App.new } let(:messages) { (1..2000).map{|n| "msg-#{n}" } } let(:channel) { "/firehose/integration/#{Time.now.to_i}" } let(:uri) { Firehose::Default::URI } let(:http_url) { "http://#{uri.host}:#{uri.port}#{channel}" } let(:ws_url) { "ws://#{uri.host}:#{uri.port}#{channel}" } it "should pub-sub http and websockets" do # Setup variables that we'll use after we turn off EM to validate our # test assertions. outgoing, received = messages.dup, Hash.new{|h,k| h[k] = []} # Our WS and Http clients call this when they have received their messages to determine # when to turn off EM and make the test assertion at the very bottom. succeed = Proc.new do # TODO: For some weird reason the `add_timer` call causes up to 20 seconds of delay after # the test finishes running. However, without it the test will randomly fail with a # "Redis disconnected" error. em.add_timer(1) { em.stop } if received.values.all?{|arr| arr.size == messages.size } end # Setup a publisher publish = Proc.new do Firehose::Producer.new.publish(outgoing.shift).to(channel) do # The random timer ensures that sometimes the clients will be behind # and sometimes they will be caught up. EM::add_timer(rand*0.005) { publish.call } unless outgoing.empty? end end # Lets have an HTTP Long poll client http_long_poll = Proc.new do |cid, last_sequence| http = EM::HttpRequest.new(http_url).get(:query => {'last_message_sequence' => last_sequence}) http.errback { em.stop } http.callback do received[cid] << http.response if received[cid].size < messages.size # Add some jitter so the clients aren't syncronized EM::add_timer(rand*0.001) { http_long_poll.call cid, http.response_header['pragma'] } else succeed.call cid end end end # And test a web socket client too, at the same time. websocket = Proc.new do |cid| ws = Faye::WebSocket::Client.new(ws_url) ws.onmessage = lambda do |event| received[cid] << event.data succeed.call cid unless received[cid].size < messages.size end ws.onclose = lambda do |event| ws = nil end ws.onerror { |e| raise 'ws failed' + "\n" + e.inspect } end # Great, we have all the pieces in order, lets run this thing in the reactor. em 60 do # Start the clients. websocket.call(1) websocket.call(2) http_long_poll.call(3) http_long_poll.call(4) # Wait a sec to let our clients set up. em.add_timer(1){ publish.call } end # When EM stops, these assertions will be made. received.size.should == 4 received.values.each do |arr| arr.should == messages end end it "should return 400 error for long-polling when using http long polling and sequence header is < 0" do em 5 do http = EM::HttpRequest.new(http_url).get(:query => {'last_message_sequence' => -1}) http.errback { |e| raise e.inspect } http.callback do http.response_header.status.should == 400 em.stop end end end end