func TestSpyWithProcesses(t *testing.T) { const ( nodeID = "nikon" // TODO rename to hostID nodeName = "fishermans-friend" // TODO rename to hostName ) scanner := procspy.FixedScanner(fixConnectionsWithProcesses) reporter := endpoint.NewReporter(nodeID, nodeName, true, false, scanner) r, _ := reporter.Report() // buf, _ := json.MarshalIndent(r, "", " ") ; t.Logf("\n%s\n", buf) var ( scopedLocal = report.MakeEndpointNodeID(nodeID, fixLocalAddress.String(), strconv.Itoa(int(fixLocalPort))) scopedRemote = report.MakeEndpointNodeID(nodeID, fixRemoteAddress.String(), strconv.Itoa(int(fixRemotePort))) ) if want, have := 1, len(r.Endpoint.Nodes[scopedRemote].Adjacency); want != have { t.Fatalf("want %d, have %d", want, have) } if want, have := scopedLocal, r.Endpoint.Nodes[scopedRemote].Adjacency[0]; want != have { t.Fatalf("want %q, have %q", want, have) } for key, want := range map[string]string{ "pid": strconv.FormatUint(uint64(fixProcessPID), 10), } { have, _ := r.Endpoint.Nodes[scopedLocal].Latest.Lookup(key) if want != have { t.Errorf("Process.Nodes[%q][%q]: want %q, have %q", scopedLocal, key, want, have) } } }
func TestSpyNoProcesses(t *testing.T) { const ( nodeID = "heinz-tomato-ketchup" // TODO rename to hostID nodeName = "frenchs-since-1904" // TODO rename to hostName ) scanner := procspy.FixedScanner(fixConnections) reporter := endpoint.NewReporter(nodeID, nodeName, false, false, scanner) r, _ := reporter.Report() //buf, _ := json.MarshalIndent(r, "", " ") //t.Logf("\n%s\n", buf) // No process nodes, please if want, have := 0, len(r.Endpoint.Nodes); want != have { t.Fatalf("want %d, have %d", want, have) } }
// Main runs the probe func probeMain(flags probeFlags) { setLogLevel(flags.logLevel) setLogFormatter(flags.logPrefix) // Setup in memory metrics sink inm := metrics.NewInmemSink(time.Minute, 2*time.Minute) sig := metrics.DefaultInmemSignal(inm) defer sig.Stop() metrics.NewGlobal(metrics.DefaultConfig("scope-probe"), inm) defer log.Info("probe exiting") if flags.spyProcs && os.Getegid() != 0 { log.Warn("--probe.process=true, but that requires root to find everything") } rand.Seed(time.Now().UnixNano()) var ( probeID = strconv.FormatInt(rand.Int63(), 16) hostName = hostname.Get() hostID = hostName // TODO(pb): we should sanitize the hostname ) log.Infof("probe starting, version %s, ID %s", version, probeID) log.Infof("command line: %v", os.Args) checkpointFlags := map[string]string{} if flags.kubernetesEnabled { checkpointFlags["kubernetes_enabled"] = "true" } go check(checkpointFlags) var targets = []string{} if !flags.noApp { targets = append(targets, fmt.Sprintf("localhost:%d", xfer.AppPort)) } if len(flag.Args()) > 0 { targets = append(targets, flag.Args()...) } log.Infof("publishing to: %s", strings.Join(targets, ", ")) probeConfig := appclient.ProbeConfig{ Token: flags.token, ProbeID: probeID, Insecure: flags.insecure, } clients := appclient.NewMultiAppClient(func(hostname, endpoint string) (appclient.AppClient, error) { return appclient.NewAppClient( probeConfig, hostname, endpoint, xfer.ControlHandlerFunc(controls.HandleControlRequest), ) }) defer clients.Stop() dnsLookupFn := net.LookupIP if flags.resolver != "" { dnsLookupFn = appclient.LookupUsing(flags.resolver) } resolver := appclient.NewResolver(targets, dnsLookupFn, clients.Set) defer resolver.Stop() processCache := process.NewCachingWalker(process.NewWalker(flags.procRoot)) scanner := procspy.NewConnectionScanner(processCache) endpointReporter := endpoint.NewReporter(hostID, hostName, flags.spyProcs, flags.useConntrack, scanner) defer endpointReporter.Stop() p := probe.New(flags.spyInterval, flags.publishInterval, clients) p.AddTicker(processCache) hostReporter := host.NewReporter(hostID, hostName, probeID, version, clients) defer hostReporter.Stop() p.AddReporter( endpointReporter, hostReporter, process.NewReporter(processCache, hostID, process.GetDeltaTotalJiffies), ) p.AddTagger(probe.NewTopologyTagger(), host.NewTagger(hostID)) if flags.dockerEnabled { // Don't add the bridge in Kubernetes since container IPs are global and // shouldn't be scoped if !flags.kubernetesEnabled { if err := report.AddLocalBridge(flags.dockerBridge); err != nil { log.Errorf("Docker: problem with bridge %s: %v", flags.dockerBridge, err) } } if registry, err := docker.NewRegistry(flags.dockerInterval, clients, true, hostID); err == nil { defer registry.Stop() p.AddTagger(docker.NewTagger(registry, processCache)) p.AddReporter(docker.NewReporter(registry, hostID, probeID, p)) } else { log.Errorf("Docker: failed to start registry: %v", err) } } if flags.kubernetesEnabled { if client, err := kubernetes.NewClient(flags.kubernetesAPI, flags.kubernetesInterval); err == nil { defer client.Stop() reporter := kubernetes.NewReporter(client, clients, probeID, hostID, p) defer reporter.Stop() p.AddReporter(reporter) p.AddTagger(reporter) } else { log.Errorf("Kubernetes: failed to start client: %v", err) log.Errorf("Kubernetes: make sure to run Scope inside a POD with a service account or provide a valid kubernetes.api url") } } if flags.weaveAddr != "" { client := weave.NewClient(sanitize.URL("http://", 6784, "")(flags.weaveAddr)) weave := overlay.NewWeave(hostID, client) defer weave.Stop() p.AddTagger(weave) p.AddReporter(weave) dockerBridgeIP, err := network.GetFirstAddressOf(flags.dockerBridge) if err != nil { log.Println("Error getting docker bridge ip:", err) } else { weaveDNSLookup := appclient.LookupUsing(dockerBridgeIP + ":53") weaveResolver := appclient.NewResolver([]string{flags.weaveHostname}, weaveDNSLookup, clients.Set) defer weaveResolver.Stop() } } pluginRegistry, err := plugins.NewRegistry( flags.pluginsRoot, pluginAPIVersion, map[string]string{ "probe_id": probeID, "api_version": pluginAPIVersion, }, ) if err != nil { log.Errorf("plugins: problem loading: %v", err) } else { defer pluginRegistry.Close() p.AddReporter(pluginRegistry) } if flags.httpListen != "" { go func() { log.Infof("Profiling data being exported to %s", flags.httpListen) log.Infof("go tool pprof http://%s/debug/pprof/{profile,heap,block}", flags.httpListen) log.Infof("Profiling endpoint %s terminated: %v", flags.httpListen, http.ListenAndServe(flags.httpListen, nil)) }() } p.Start() defer p.Stop() common.SignalHandlerLoop() }