func (cmd *ATCCommand) constructAPIHandler( logger lager.Logger, reconfigurableSink *lager.ReconfigurableSink, sqlDB *db.SQLDB, authValidator auth.Validator, userContextReader auth.UserContextReader, providerFactory provider.OAuthFactory, signingKey *rsa.PrivateKey, pipelineDBFactory db.PipelineDBFactory, engine engine.Engine, workerClient worker.Client, drain <-chan struct{}, radarSchedulerFactory pipelines.RadarSchedulerFactory, radarScannerFactory radar.ScannerFactory, ) (http.Handler, error) { apiWrapper := wrappa.MultiWrappa{ wrappa.NewAPIAuthWrappa(cmd.PubliclyViewable, authValidator, userContextReader), wrappa.NewAPIMetricsWrappa(logger), wrappa.NewConcourseVersionWrappa(Version), } return api.NewHandler( logger, cmd.ExternalURL.String(), apiWrapper, auth.NewTokenGenerator(signingKey), providerFactory, cmd.oauthBaseURL(), pipelineDBFactory, sqlDB, // authserver.AuthDB sqlDB, // db.ConfigDB sqlDB, // buildserver.BuildsDB sqlDB, // workerserver.WorkerDB sqlDB, // containerserver.ContainerDB sqlDB, // volumeserver.VolumesDB sqlDB, // pipes.PipeDB sqlDB, // db.PipelinesDB sqlDB, // teamserver.TeamDB config.ValidateConfig, cmd.PeerURL.String(), buildserver.NewEventHandler, drain, engine, workerClient, radarSchedulerFactory, radarScannerFactory, reconfigurableSink, cmd.CLIArtifactsDir.Path(), Version, ) }
func (cmd *ATCCommand) constructAPIHandler( logger lager.Logger, reconfigurableSink *lager.ReconfigurableSink, sqlDB *db.SQLDB, authValidator auth.Validator, oauthProviders auth.Providers, basicAuthEnabled bool, signingKey *rsa.PrivateKey, pipelineDBFactory db.PipelineDBFactory, engine engine.Engine, workerClient worker.Client, drain <-chan struct{}, radarSchedulerFactory pipelines.RadarSchedulerFactory, ) (http.Handler, error) { apiWrapper := wrappa.MultiWrappa{ wrappa.NewAPIAuthWrappa(authValidator), wrappa.NewAPIMetricsWrappa(logger), } return api.NewHandler( logger, cmd.ExternalURL.String(), apiWrapper, auth.NewTokenGenerator(signingKey), oauthProviders, basicAuthEnabled, pipelineDBFactory, sqlDB, // db.ConfigDB sqlDB, // buildserver.BuildsDB sqlDB, // workerserver.WorkerDB sqlDB, // containerserver.ContainerDB sqlDB, // volumeserver.VolumesDB sqlDB, // pipes.PipeDB sqlDB, // db.PipelinesDB config.ValidateConfig, cmd.PeerURL.String(), buildserver.NewEventHandler, drain, engine, workerClient, radarSchedulerFactory, reconfigurableSink, cmd.CLIArtifactsDir.Path(), ) }
handler, err := api.NewHandler( logger, externalURL, wrappa.NewAPIAuthWrappa(true, authValidator, userContextReader), fakeTokenGenerator, providerFactory, oAuthBaseURL, pipelineDBFactory, configDB, authDB, buildsDB, workerDB, containerDB, volumesDB, pipeDB, pipelinesDB, teamDB, func(atc.Config) error { return configValidationErr }, peerAddr, constructedEventHandler.Construct, drain, fakeEngine, fakeWorkerClient, fakeSchedulerFactory, sink, cliDownloadsDir, )
sink = lager.NewReconfigurableSink(lager.NewWriterSink(GinkgoWriter, lager.DEBUG), lager.DEBUG) logger.RegisterSink(sink) handler, err := api.NewHandler( logger, authValidator, pipelineDBFactory, configDB, buildsDB, workerDB, pipeDB, pipelinesDB, func(atc.Config) error { return configValidationErr }, peerAddr, constructedEventHandler.Construct, drain, fakeEngine, fakeWorkerClient, sink, cliDownloadsDir, ) Ω(err).ShouldNot(HaveOccurred()) server = httptest.NewServer(handler)
func main() { flag.Parse() if !*dev && (*httpUsername == "" || (*httpHashedPassword == "" && *httpPassword == "")) { fatal(errors.New("must specify -httpUsername and -httpPassword or -httpHashedPassword or turn on dev mode")) } if _, err := os.Stat(*templatesDir); err != nil { fatal(errors.New("directory specified via -templates does not exist")) } if _, err := os.Stat(*publicDir); err != nil { fatal(errors.New("directory specified via -public does not exist")) } logger := lager.NewLogger("atc") logLevel := lager.INFO if *dev { logLevel = lager.DEBUG } sink := lager.NewReconfigurableSink(lager.NewWriterSink(os.Stdout, lager.DEBUG), logLevel) logger.RegisterSink(sink) var err error var dbConn Db.Conn for { dbConn, err = migration.Open(*sqlDriver, *sqlDataSource, migrations.Migrations) if err != nil { if strings.Contains(err.Error(), " dial ") { logger.Error("failed-to-open-db", err) time.Sleep(5 * time.Second) continue } fatal(err) } break } dbConn = Db.Explain(logger, dbConn, 500*time.Millisecond) listener := pq.NewListener(*sqlDataSource, time.Second, time.Minute, nil) bus := Db.NewNotificationsBus(listener) db := Db.NewSQL(logger.Session("db"), dbConn, bus) pipelineDBFactory := Db.NewPipelineDBFactory(logger.Session("db"), dbConn, bus, db) var configDB Db.ConfigDB configDB = Db.PlanConvertingConfigDB{db} var resourceTypesNG []atc.WorkerResourceType err = json.Unmarshal([]byte(*resourceTypes), &resourceTypesNG) if err != nil { logger.Fatal("invalid-resource-types", err) } var workerClient worker.Client if *gardenAddr != "" { workerClient = worker.NewGardenWorker( gclient.New(gconn.NewWithLogger( *gardenNetwork, *gardenAddr, logger.Session("garden-connection"), )), clock.NewClock(), -1, resourceTypesNG, "linux", []string{}, ) } else { workerClient = worker.NewPool(worker.NewDBWorkerProvider(db, logger)) } resourceTracker := resource.NewTracker(workerClient) gardenFactory := exec.NewGardenFactory(workerClient, resourceTracker, func() string { guid, err := uuid.NewV4() if err != nil { panic("not enough entropy to generate guid: " + err.Error()) } return guid.String() }) execEngine := engine.NewExecEngine(gardenFactory, engine.NewBuildDelegateFactory(db), db) engine := engine.NewDBEngine(engine.Engines{execEngine}, db, db) var webValidator auth.Validator if *httpUsername != "" && *httpHashedPassword != "" { webValidator = auth.BasicAuthHashedValidator{ Username: *httpUsername, HashedPassword: *httpHashedPassword, } } else if *httpUsername != "" && *httpPassword != "" { webValidator = auth.BasicAuthValidator{ Username: *httpUsername, Password: *httpPassword, } } else { webValidator = auth.NoopValidator{} } callbacksURL, err := url.Parse(*callbacksURLString) if err != nil { fatal(err) } drain := make(chan struct{}) apiHandler, err := api.NewHandler( logger, // logger lager.Logger, webValidator, // validator auth.Validator, pipelineDBFactory, // pipelineDBFactory db.PipelineDBFactory, configDB, // configDB db.ConfigDB, db, // buildsDB buildserver.BuildsDB, db, // workerDB workerserver.WorkerDB, db, // pipeDB pipes.PipeDB, db, // pipelinesDB db.PipelinesDB, config.ValidateConfig, // configValidator configserver.ConfigValidator, callbacksURL.String(), // peerURL string, buildserver.NewEventHandler, // eventHandlerFactory buildserver.EventHandlerFactory, drain, // drain <-chan struct{}, engine, // engine engine.Engine, workerClient, // workerClient worker.Client, sink, // sink *lager.ReconfigurableSink, *cliDownloadsDir, // cliDownloadsDir string, ) if err != nil { fatal(err) } radarSchedulerFactory := pipelines.NewRadarSchedulerFactory( resourceTracker, *checkInterval, db, engine, db, ) webHandler, err := web.NewHandler( logger, webValidator, radarSchedulerFactory, db, pipelineDBFactory, configDB, *templatesDir, *publicDir, engine, ) if err != nil { fatal(err) } webMux := http.NewServeMux() webMux.Handle("/api/v1/", apiHandler) webMux.Handle("/", webHandler) var httpHandler http.Handler httpHandler = webMux if !*publiclyViewable { httpHandler = auth.Handler{ Handler: httpHandler, Validator: webValidator, } } // copy Authorization header as ATC-Authorization cookie for websocket auth httpHandler = auth.CookieSetHandler{ Handler: httpHandler, } httpHandler = httpmetrics.Wrap(httpHandler) webListenAddr := fmt.Sprintf("%s:%d", *webListenAddress, *webListenPort) debugListenAddr := fmt.Sprintf("%s:%d", *debugListenAddress, *debugListenPort) syncer := pipelines.NewSyncer( logger.Session("syncer"), db, pipelineDBFactory, func(pipelineDB Db.PipelineDB) ifrit.Runner { return grouper.NewParallel(os.Interrupt, grouper.Members{ { pipelineDB.ScopedName("radar"), rdr.NewRunner( logger.Session(pipelineDB.ScopedName("radar")), *noop, db, radarSchedulerFactory.BuildRadar(pipelineDB), pipelineDB, 1*time.Minute, ), }, { pipelineDB.ScopedName("scheduler"), &sched.Runner{ Logger: logger.Session(pipelineDB.ScopedName("scheduler")), Locker: db, DB: pipelineDB, Scheduler: radarSchedulerFactory.BuildScheduler(pipelineDB), Noop: *noop, Interval: 10 * time.Second, }, }, }) }, ) buildTracker := builds.NewTracker( logger.Session("build-tracker"), db, engine, ) memberGrouper := []grouper.Member{ {"web", http_server.New(webListenAddr, httpHandler)}, {"debug", http_server.New(debugListenAddr, http.DefaultServeMux)}, {"drainer", ifrit.RunFunc(func(signals <-chan os.Signal, ready chan<- struct{}) error { close(ready) <-signals close(drain) return nil })}, {"pipelines", pipelines.SyncRunner{ Syncer: syncer, Interval: 10 * time.Second, Clock: clock.NewClock(), }}, {"builds", builds.TrackerRunner{ Tracker: buildTracker, Interval: 10 * time.Second, Clock: clock.NewClock(), }}, } group := grouper.NewParallel(os.Interrupt, memberGrouper) running := ifrit.Envoke(sigmon.New(group)) logger.Info("listening", lager.Data{ "web": webListenAddr, "debug": debugListenAddr, }) err = <-running.Wait() if err != nil { logger.Error("exited-with-failure", err) os.Exit(1) } }