// driver runs on local, controlling all tasks func (fcd *FlowContextDriver) Run(fc *flow.FlowContext) { // task fusion to minimize disk IO taskGroups := plan.GroupTasks(fc) // plot the execution graph if fcd.option.PlotOutput { plan.PlotGraph(taskGroups, fc) return } // start server to serve files to agents to run exectuors rsyncServer, err := rsync.NewRsyncServer(os.Args[0], fcd.option.RelatedFileNames()) if err != nil { log.Fatalf("Failed to start local server: %v", err) } rsyncServer.Start() // create thes cheduler sched := scheduler.NewScheduler( fcd.option.Leader, &scheduler.SchedulerOption{ DataCenter: fcd.option.DataCenter, Rack: fcd.option.Rack, TaskMemoryMB: fcd.option.TaskMemoryMB, DriverPort: rsyncServer.Port, Module: fcd.option.Module, ExecutableFile: os.Args[0], ExecutableFileHash: rsyncServer.ExecutableFileHash(), }, ) // best effort to clean data on agent disk // this may need more improvements defer fcd.Cleanup(sched, fc, taskGroups) go sched.EventLoop() flow.OnInterrupt(func() { fcd.OnInterrupt(fc, taskGroups, sched) }) // schedule to run the steps var wg sync.WaitGroup for _, taskGroup := range taskGroups { wg.Add(1) sched.EventChan <- scheduler.SubmitTaskGroup{ FlowContext: fc, TaskGroup: taskGroup, Bid: fcd.option.FlowBid / float64(len(taskGroups)), WaitGroup: &wg, } } go sched.Market.FetcherLoop() wg.Wait() fcd.CloseOutputChannels(fc) }
// driver runs on local, controlling all tasks func (fcd *FlowContextDriver) Run(fc *flow.FlowContext) { fcd.checkParameters() // task fusion to minimize disk IO fcd.stepGroups, fcd.taskGroups = plan.GroupTasks(fc) // plot the execution graph if fcd.Option.PlotOutput { plan.PlotGraph(fcd.taskGroups, fc) return } tlsConfig := fcd.Option.CertFiles.MakeTLSConfig() util.SetupHttpClient(tlsConfig) // start server to serve files to agents to run exectuors rsyncServer, err := rsync.NewRsyncServer(os.Args[0], fcd.Option.RelatedFileNames()) if err != nil { log.Fatalf("Failed to start local server: %v", err) } rsyncServer.StartRsyncServer(tlsConfig, fcd.Option.Host+":"+strconv.Itoa(fcd.Option.Port)) driverHost := fcd.Option.Host // create thes cheduler sched := scheduler.NewScheduler( fcd.Option.Leader, &scheduler.SchedulerOption{ DataCenter: fcd.Option.DataCenter, Rack: fcd.Option.Rack, TaskMemoryMB: fcd.Option.TaskMemoryMB, DriverHost: driverHost, DriverPort: rsyncServer.Port, Module: fcd.Option.Module, ExecutableFile: os.Args[0], ExecutableFileHash: rsyncServer.ExecutableFileHash(), TlsConfig: tlsConfig, }, ) // best effort to clean data on agent disk // this may need more improvements defer fcd.Cleanup(sched, fc) go sched.EventLoop() flow.OnInterrupt(func() { fcd.OnInterrupt(fc, sched) }, func() { fcd.OnExit(fc, sched) }) // schedule to run the steps var wg sync.WaitGroup for _, taskGroup := range fcd.taskGroups { wg.Add(1) sched.EventChan <- scheduler.SubmitTaskGroup{ FlowContext: fc, TaskGroup: taskGroup, Bid: fcd.Option.FlowBid / float64(len(fcd.taskGroups)), WaitGroup: &wg, } } go sched.Market.FetcherLoop() wg.Wait() fcd.CloseOutputChannels(fc) if fcd.Option.ShowFlowStats { fcd.ShowFlowStatus(fc, sched) } }