func TestPipes(t *testing.T) {
oldNewPipe := controls.NewPipe
defer func() { controls.NewPipe = oldNewPipe }()
controls.NewPipe = func(_ controls.PipeClient, _ string) (string, xfer.Pipe, error) {
return "pipeid", mockPipe{}, nil
}
mdc := newMockClient()
setupStubs(mdc, func() {
registry, _ := docker.NewRegistry(10*time.Second, nil)
defer registry.Stop()
test.Poll(t, 100*time.Millisecond, true, func() interface{} {
_, ok := registry.GetContainer("ping")
return ok
})
for _, tc := range []string{
docker.AttachContainer,
docker.ExecContainer,
} {
result := controls.HandleControlRequest(xfer.Request{
Control: tc,
NodeID: report.MakeContainerNodeID("ping"),
})
want := xfer.Response{
Pipe: "pipeid",
RawTTY: true,
}
if !reflect.DeepEqual(result, want) {
t.Errorf("diff: %s", test.Diff(want, result))
}
}
})
}
func TestControls(t *testing.T) {
mdc := newMockClient()
setupStubs(mdc, func() {
registry, _ := docker.NewRegistry(10*time.Second, nil)
defer registry.Stop()
for _, tc := range []struct{ command, result string }{
{docker.StopContainer, "stopped"},
{docker.StartContainer, "started"},
{docker.RestartContainer, "restarted"},
{docker.PauseContainer, "paused"},
{docker.UnpauseContainer, "unpaused"},
} {
result := controls.HandleControlRequest(xfer.Request{
Control: tc.command,
NodeID: report.MakeContainerNodeID("a1b2c3d4e5"),
})
if !reflect.DeepEqual(result, xfer.Response{
Error: tc.result,
}) {
t.Error(result)
}
}
})
}
func TestRegistryEvents(t *testing.T) {
mdc := newMockClient()
setupStubs(mdc, func() {
registry, _ := docker.NewRegistry(10 * time.Second)
defer registry.Stop()
runtime.Gosched()
check := func(want []docker.Container) {
test.Poll(t, 100*time.Millisecond, want, func() interface{} {
return allContainers(registry)
})
}
{
mdc.Lock()
mdc.apiContainers = []client.APIContainers{apiContainer1, apiContainer2}
mdc.containers["wiff"] = container2
mdc.Unlock()
mdc.send(&client.APIEvents{Status: docker.StartEvent, ID: "wiff"})
runtime.Gosched()
want := []docker.Container{&mockContainer{container1}, &mockContainer{container2}}
check(want)
}
{
mdc.Lock()
mdc.apiContainers = []client.APIContainers{apiContainer1}
delete(mdc.containers, "wiff")
mdc.Unlock()
mdc.send(&client.APIEvents{Status: docker.DieEvent, ID: "wiff"})
runtime.Gosched()
want := []docker.Container{&mockContainer{container1}}
check(want)
}
{
mdc.Lock()
mdc.apiContainers = []client.APIContainers{}
delete(mdc.containers, "ping")
mdc.Unlock()
mdc.send(&client.APIEvents{Status: docker.DieEvent, ID: "ping"})
runtime.Gosched()
want := []docker.Container{}
check(want)
}
{
mdc.send(&client.APIEvents{Status: docker.DieEvent, ID: "doesntexist"})
runtime.Gosched()
want := []docker.Container{}
check(want)
}
})
}
func TestLookupByPID(t *testing.T) {
mdc := newMockClient()
setupStubs(mdc, func() {
registry, _ := docker.NewRegistry(10 * time.Second)
defer registry.Stop()
want := docker.Container(&mockContainer{container1})
test.Poll(t, 100*time.Millisecond, want, func() interface{} {
var have docker.Container
registry.LockedPIDLookup(func(lookup func(int) docker.Container) {
have = lookup(1)
})
return have
})
})
}
func main() {
dockerRegistry, err := docker.NewRegistry(pollInterval, nil)
if err != nil {
log.Fatalf("Could start docker watcher: %v", err)
}
store := newStore()
tracer := tracer{
store: store,
ptrace: ptrace.NewPTracer(store),
docker: dockerRegistry,
}
defer tracer.Stop()
go tracer.http(6060)
<-handleSignals()
}
func TestRegistry(t *testing.T) {
mdc := newMockClient()
setupStubs(mdc, func() {
registry, _ := docker.NewRegistry(10 * time.Second)
defer registry.Stop()
runtime.Gosched()
{
want := []docker.Container{&mockContainer{container1}}
test.Poll(t, 100*time.Millisecond, want, func() interface{} {
return allContainers(registry)
})
}
{
want := []*client.APIImages{&apiImage1}
test.Poll(t, 100*time.Millisecond, want, func() interface{} {
return allImages(registry)
})
}
})
}
func TestRegistry(t *testing.T) {
mdc := mockClient // take a copy
setupStubs(&mdc, func() {
registry, _ := docker.NewRegistry(10 * time.Second)
defer registry.Stop()
runtime.Gosched()
{
want := []docker.Container{&mockContainer{container1}}
test.Poll(t, 10*time.Millisecond, want, func() interface{} {
return allContainers(registry)
})
}
{
have := allImages(registry)
want := []*client.APIImages{&apiImage1}
if !reflect.DeepEqual(want, have) {
t.Errorf("%s", test.Diff(want, have))
}
}
})
}
// Main runs the probe
func probeMain() {
var (
targets = []string{fmt.Sprintf("localhost:%d", xfer.AppPort)}
token = flag.String("token", "default-token", "probe token")
httpListen = flag.String("http.listen", "", "listen address for HTTP profiling and instrumentation server")
publishInterval = flag.Duration("publish.interval", 3*time.Second, "publish (output) interval")
spyInterval = flag.Duration("spy.interval", time.Second, "spy (scan) interval")
spyProcs = flag.Bool("processes", true, "report processes (needs root)")
procRoot = flag.String("proc.root", "/proc", "location of the proc filesystem")
useConntrack = flag.Bool("conntrack", true, "also use conntrack to track connections")
insecure = flag.Bool("insecure", false, "(SSL) explicitly allow \"insecure\" SSL connections and transfers")
logPrefix = flag.String("log.prefix", "<probe>", "prefix for each log line")
logLevel = flag.String("log.level", "info", "logging threshold level: debug|info|warn|error|fatal|panic")
dockerEnabled = flag.Bool("docker", false, "collect Docker-related attributes for processes")
dockerInterval = flag.Duration("docker.interval", 10*time.Second, "how often to update Docker attributes")
dockerBridge = flag.String("docker.bridge", "docker0", "the docker bridge name")
kubernetesEnabled = flag.Bool("kubernetes", false, "collect kubernetes-related attributes for containers, should only be enabled on the master node")
kubernetesAPI = flag.String("kubernetes.api", "", "Address of kubernetes master api")
kubernetesInterval = flag.Duration("kubernetes.interval", 10*time.Second, "how often to do a full resync of the kubernetes data")
weaveRouterAddr = flag.String("weave.router.addr", "127.0.0.1:6784", "IP address & port of the Weave router")
weaveDNSTarget = flag.String("weave.hostname", fmt.Sprintf("scope.weave.local:%d", xfer.AppPort), "Hostname to lookup in weaveDNS")
)
flag.Parse()
setLogLevel(*logLevel)
setLogFormatter(*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 *spyProcs && os.Getegid() != 0 {
log.Warn("-process=true, but that requires root to find everything")
}
rand.Seed(time.Now().UnixNano())
probeID := strconv.FormatInt(rand.Int63(), 16)
var (
hostName = hostname.Get()
hostID = hostName // TODO(pb): we should sanitize the hostname
)
log.Infof("probe starting, version %s, ID %s", version, probeID)
go check()
if len(flag.Args()) > 0 {
targets = flag.Args()
}
log.Infof("publishing to: %s", strings.Join(targets, ", "))
probeConfig := appclient.ProbeConfig{
Token: *token,
ProbeID: probeID,
Insecure: *insecure,
}
clients := appclient.NewMultiAppClient(func(hostname, endpoint string) (appclient.AppClient, error) {
return appclient.NewAppClient(
probeConfig, hostname, endpoint,
xfer.ControlHandlerFunc(controls.HandleControlRequest),
)
})
defer clients.Stop()
resolver := appclient.NewResolver(targets, net.LookupIP, clients.Set)
defer resolver.Stop()
processCache := process.NewCachingWalker(process.NewWalker(*procRoot))
scanner := procspy.NewConnectionScanner(processCache)
endpointReporter := endpoint.NewReporter(hostID, hostName, *spyProcs, *useConntrack, scanner)
defer endpointReporter.Stop()
p := probe.New(*spyInterval, *publishInterval, clients)
p.AddTicker(processCache)
p.AddReporter(
endpointReporter,
host.NewReporter(hostID, hostName),
process.NewReporter(processCache, hostID, process.GetDeltaTotalJiffies),
)
p.AddTagger(probe.NewTopologyTagger(), host.NewTagger(hostID, probeID))
if *dockerEnabled {
if err := report.AddLocalBridge(*dockerBridge); err != nil {
log.Errorf("Docker: problem with bridge %s: %v", *dockerBridge, err)
}
if registry, err := docker.NewRegistry(*dockerInterval, clients); err == nil {
defer registry.Stop()
p.AddTagger(docker.NewTagger(registry, processCache))
p.AddReporter(docker.NewReporter(registry, hostID, p))
} else {
log.Errorf("Docker: failed to start registry: %v", err)
}
}
if *kubernetesEnabled {
if client, err := kubernetes.NewClient(*kubernetesAPI, *kubernetesInterval); err == nil {
defer client.Stop()
p.AddReporter(kubernetes.NewReporter(client))
} 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 *weaveRouterAddr != "" {
client := weave.NewClient(sanitize.URL("http://", 6784, "")(*weaveRouterAddr))
weave := overlay.NewWeave(hostID, client)
defer weave.Stop()
p.AddTagger(weave)
p.AddReporter(weave)
dockerBridgeIP, err := getFirstAddressOf(*dockerBridge)
if err != nil {
log.Println("Error getting docker bridge ip:", err)
} else {
weaveDNSLookup := appclient.LookupUsing(dockerBridgeIP + ":53")
weaveResolver := appclient.NewResolver([]string{*weaveDNSTarget}, weaveDNSLookup, clients.Set)
defer weaveResolver.Stop()
}
}
if *httpListen != "" {
go func() {
log.Infof("Profiling data being exported to %s", *httpListen)
log.Infof("go tool pprof http://%s/debug/pprof/{profile,heap,block}", *httpListen)
log.Infof("Profiling endpoint %s terminated: %v", *httpListen, http.ListenAndServe(*httpListen, nil))
}()
}
p.Start()
defer p.Stop()
common.SignalHandlerLoop()
}
func main() {
var (
targets = []string{fmt.Sprintf("localhost:%d", xfer.AppPort), fmt.Sprintf("scope.weave.local:%d", xfer.AppPort)}
token = flag.String("token", "default-token", "probe token")
httpListen = flag.String("http.listen", "", "listen address for HTTP profiling and instrumentation server")
publishInterval = flag.Duration("publish.interval", 3*time.Second, "publish (output) interval")
spyInterval = flag.Duration("spy.interval", time.Second, "spy (scan) interval")
spyProcs = flag.Bool("processes", true, "report processes (needs root)")
dockerEnabled = flag.Bool("docker", false, "collect Docker-related attributes for processes")
dockerInterval = flag.Duration("docker.interval", 10*time.Second, "how often to update Docker attributes")
dockerBridge = flag.String("docker.bridge", "docker0", "the docker bridge name")
kubernetesEnabled = flag.Bool("kubernetes", false, "collect kubernetes-related attributes for containers, should only be enabled on the master node")
kubernetesAPI = flag.String("kubernetes.api", "http://localhost:8080", "Address of kubernetes master api")
kubernetesInterval = flag.Duration("kubernetes.interval", 10*time.Second, "how often to do a full resync of the kubernetes data")
weaveRouterAddr = flag.String("weave.router.addr", "", "IP address or FQDN of the Weave router")
procRoot = flag.String("proc.root", "/proc", "location of the proc filesystem")
printVersion = flag.Bool("version", false, "print version number and exit")
useConntrack = flag.Bool("conntrack", true, "also use conntrack to track connections")
insecure = flag.Bool("insecure", false, "(SSL) explicitly allow \"insecure\" SSL connections and transfers")
logPrefix = flag.String("log.prefix", "<probe>", "prefix for each log line")
)
flag.Parse()
if *printVersion {
fmt.Println(version)
return
}
// 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)
if !strings.HasSuffix(*logPrefix, " ") {
*logPrefix += " "
}
log.SetPrefix(*logPrefix)
defer log.Print("probe exiting")
if *spyProcs && os.Getegid() != 0 {
log.Printf("warning: -process=true, but that requires root to find everything")
}
rand.Seed(time.Now().UnixNano())
probeID := strconv.FormatInt(rand.Int63(), 16)
var (
hostName = probe.Hostname()
hostID = hostName // TODO(pb): we should sanitize the hostname
)
log.Printf("probe starting, version %s, ID %s", version, probeID)
addrs, err := net.InterfaceAddrs()
if err != nil {
log.Fatal(err)
}
localNets := report.Networks{}
for _, addr := range addrs {
// Not all addrs are IPNets.
if ipNet, ok := addr.(*net.IPNet); ok {
localNets = append(localNets, ipNet)
}
}
if len(flag.Args()) > 0 {
targets = flag.Args()
}
log.Printf("publishing to: %s", strings.Join(targets, ", "))
factory := func(hostname, endpoint string) (string, xfer.Publisher, error) {
id, publisher, err := xfer.NewHTTPPublisher(hostname, endpoint, *token, probeID, *insecure)
if err != nil {
return "", nil, err
}
return id, xfer.NewBackgroundPublisher(publisher), nil
}
publishers := xfer.NewMultiPublisher(factory)
defer publishers.Stop()
clients := xfer.NewMultiAppClient(xfer.ProbeConfig{
Token: *token,
ProbeID: probeID,
Insecure: *insecure,
}, xfer.ControlHandlerFunc(controls.HandleControlRequest), xfer.NewAppClient)
defer clients.Stop()
resolver := xfer.NewStaticResolver(targets, publishers.Set, clients.Set)
defer resolver.Stop()
endpointReporter := endpoint.NewReporter(hostID, hostName, *spyProcs, *useConntrack)
defer endpointReporter.Stop()
processCache := process.NewCachingWalker(process.NewWalker(*procRoot))
p := probe.New(*spyInterval, *publishInterval, publishers)
p.AddTicker(processCache)
p.AddReporter(
endpointReporter,
host.NewReporter(hostID, hostName, localNets),
process.NewReporter(processCache, hostID),
)
p.AddTagger(probe.NewTopologyTagger(), host.NewTagger(hostID, probeID))
if *dockerEnabled {
if err := report.AddLocalBridge(*dockerBridge); err != nil {
log.Printf("Docker: problem with bridge %s: %v", *dockerBridge, err)
}
if registry, err := docker.NewRegistry(*dockerInterval); err == nil {
defer registry.Stop()
p.AddTagger(docker.NewTagger(registry, processCache))
p.AddReporter(docker.NewReporter(registry, hostID, p))
} else {
log.Printf("Docker: failed to start registry: %v", err)
}
}
if *kubernetesEnabled {
if client, err := kubernetes.NewClient(*kubernetesAPI, *kubernetesInterval); err == nil {
defer client.Stop()
p.AddReporter(kubernetes.NewReporter(client))
} else {
log.Printf("Kubernetes: failed to start client: %v", err)
}
}
if *weaveRouterAddr != "" {
weave := overlay.NewWeave(hostID, *weaveRouterAddr)
defer weave.Stop()
p.AddTicker(weave)
p.AddTagger(weave)
p.AddReporter(weave)
}
if *httpListen != "" {
go func() {
log.Printf("Profiling data being exported to %s", *httpListen)
log.Printf("go tool pprof http://%s/debug/pprof/{profile,heap,block}", *httpListen)
log.Printf("Profiling endpoint %s terminated: %v", *httpListen, http.ListenAndServe(*httpListen, nil))
}()
}
p.Start()
defer p.Stop()
log.Printf("%s", <-interrupt())
}
// 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.token != "" {
// service mode
if len(flag.Args()) == 0 {
targets = append(targets, defaultServiceHost)
}
} else if !flags.noApp {
targets = append(targets, fmt.Sprintf("localhost:%d", xfer.AppPort))
}
targets = append(targets, flag.Args()...)
log.Infof("publishing to: %s", strings.Join(targets, ", "))
probeConfig := appclient.ProbeConfig{
Token: flags.token,
ProbeVersion: version,
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()
p := probe.New(flags.spyInterval, flags.publishInterval, clients)
hostReporter := host.NewReporter(hostID, hostName, probeID, version, clients)
defer hostReporter.Stop()
p.AddReporter(hostReporter)
p.AddTagger(probe.NewTopologyTagger(), host.NewTagger(hostID))
var processCache *process.CachingWalker
var scanner procspy.ConnectionScanner
if flags.procEnabled {
processCache = process.NewCachingWalker(process.NewWalker(flags.procRoot))
scanner = procspy.NewConnectionScanner(processCache)
p.AddTicker(processCache)
p.AddReporter(process.NewReporter(processCache, hostID, process.GetDeltaTotalJiffies))
}
endpointReporter := endpoint.NewReporter(hostID, hostName, flags.spyProcs, flags.useConntrack, flags.procEnabled, scanner)
defer endpointReporter.Stop()
p.AddReporter(endpointReporter)
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()
if flags.procEnabled {
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()
}
func main() {
var (
targets = []string{fmt.Sprintf("localhost:%d", xfer.AppPort), fmt.Sprintf("scope.weave.local:%d", xfer.AppPort)}
token = flag.String("token", "default-token", "probe token")
httpListen = flag.String("http.listen", "", "listen address for HTTP profiling and instrumentation server")
publishInterval = flag.Duration("publish.interval", 3*time.Second, "publish (output) interval")
spyInterval = flag.Duration("spy.interval", time.Second, "spy (scan) interval")
prometheusEndpoint = flag.String("prometheus.endpoint", "/metrics", "Prometheus metrics exposition endpoint (requires -http.listen)")
spyProcs = flag.Bool("processes", true, "report processes (needs root)")
dockerEnabled = flag.Bool("docker", false, "collect Docker-related attributes for processes")
dockerInterval = flag.Duration("docker.interval", 10*time.Second, "how often to update Docker attributes")
dockerBridge = flag.String("docker.bridge", "docker0", "the docker bridge name")
weaveRouterAddr = flag.String("weave.router.addr", "", "IP address or FQDN of the Weave router")
procRoot = flag.String("proc.root", "/proc", "location of the proc filesystem")
printVersion = flag.Bool("version", false, "print version number and exit")
useConntrack = flag.Bool("conntrack", true, "also use conntrack to track connections")
logPrefix = flag.String("log.prefix", "<probe>", "prefix for each log line")
)
flag.Parse()
if *printVersion {
fmt.Println(version)
return
}
if !strings.HasSuffix(*logPrefix, " ") {
*logPrefix += " "
}
log.SetPrefix(*logPrefix)
defer log.Print("probe exiting")
if *spyProcs && os.Getegid() != 0 {
log.Printf("warning: -process=true, but that requires root to find everything")
}
var (
hostName = hostname()
hostID = hostName // TODO(pb): we should sanitize the hostname
probeID = hostName // TODO(pb): does this need to be a random string instead?
)
log.Printf("probe starting, version %s, ID %s", version, probeID)
addrs, err := net.InterfaceAddrs()
if err != nil {
log.Fatal(err)
}
localNets := report.Networks{}
for _, addr := range addrs {
// Not all addrs are IPNets.
if ipNet, ok := addr.(*net.IPNet); ok {
localNets = append(localNets, ipNet)
}
}
if len(flag.Args()) > 0 {
targets = flag.Args()
}
log.Printf("publishing to: %s", strings.Join(targets, ", "))
factory := func(endpoint string) (string, xfer.Publisher, error) {
id, publisher, err := xfer.NewHTTPPublisher(endpoint, *token, probeID)
if err != nil {
return "", nil, err
}
return id, xfer.NewBackgroundPublisher(publisher), nil
}
publishers := xfer.NewMultiPublisher(factory)
defer publishers.Stop()
resolver := newStaticResolver(targets, publishers.Set)
defer resolver.Stop()
endpointReporter := endpoint.NewReporter(hostID, hostName, *spyProcs, *useConntrack)
defer endpointReporter.Stop()
processCache := process.NewCachingWalker(process.NewWalker(*procRoot))
var (
tickers = []Ticker{processCache}
reporters = []Reporter{endpointReporter, host.NewReporter(hostID, hostName, localNets), process.NewReporter(processCache, hostID)}
taggers = []Tagger{newTopologyTagger(), host.NewTagger(hostID)}
)
dockerTagger, dockerReporter, dockerRegistry := func() (*docker.Tagger, *docker.Reporter, docker.Registry) {
if !*dockerEnabled {
return nil, nil, nil
}
if err := report.AddLocalBridge(*dockerBridge); err != nil {
log.Printf("Docker: problem with bridge %s: %v", *dockerBridge, err)
return nil, nil, nil
}
registry, err := docker.NewRegistry(*dockerInterval)
if err != nil {
log.Printf("Docker: failed to start registry: %v", err)
return nil, nil, nil
}
return docker.NewTagger(registry, processCache), docker.NewReporter(registry, hostID), registry
}()
if dockerTagger != nil {
taggers = append(taggers, dockerTagger)
}
if dockerReporter != nil {
reporters = append(reporters, dockerReporter)
}
if dockerRegistry != nil {
defer dockerRegistry.Stop()
}
if *weaveRouterAddr != "" {
weave := overlay.NewWeave(hostID, *weaveRouterAddr)
tickers = append(tickers, weave)
taggers = append(taggers, weave)
reporters = append(reporters, weave)
}
if *httpListen != "" {
go func() {
log.Printf("Profiling data being exported to %s", *httpListen)
log.Printf("go tool pprof http://%s/debug/pprof/{profile,heap,block}", *httpListen)
if *prometheusEndpoint != "" {
log.Printf("exposing Prometheus endpoint at %s%s", *httpListen, *prometheusEndpoint)
http.Handle(*prometheusEndpoint, makePrometheusHandler())
}
log.Printf("Profiling endpoint %s terminated: %v", *httpListen, http.ListenAndServe(*httpListen, nil))
}()
}
quit, done := make(chan struct{}), sync.WaitGroup{}
done.Add(2)
defer func() { done.Wait() }() // second, wait for the main loops to be killed
defer close(quit) // first, kill the main loops
var rpt syncReport
rpt.swap(report.MakeReport())
go func() {
defer done.Done()
spyTick := time.Tick(*spyInterval)
for {
select {
case <-spyTick:
start := time.Now()
for _, ticker := range tickers {
if err := ticker.Tick(); err != nil {
log.Printf("error doing ticker: %v", err)
}
}
localReport := rpt.copy()
localReport = localReport.Merge(doReport(reporters))
localReport = Apply(localReport, taggers)
rpt.swap(localReport)
if took := time.Since(start); took > *spyInterval {
log.Printf("report generation took too long (%s)", took)
}
case <-quit:
return
}
}
}()
go func() {
defer done.Done()
var (
pubTick = time.Tick(*publishInterval)
p = xfer.NewReportPublisher(publishers)
)
for {
select {
case <-pubTick:
publishTicks.WithLabelValues().Add(1)
localReport := rpt.swap(report.MakeReport())
localReport.Window = *publishInterval
if err := p.Publish(localReport); err != nil {
log.Printf("publish: %v", err)
}
case <-quit:
return
}
}
}()
log.Printf("%s", <-interrupt())
}
func TestRegistryEvents(t *testing.T) {
mdc := mockClient // take a copy
setupStubs(&mdc, func() {
registry, _ := docker.NewRegistry(10 * time.Second)
defer registry.Stop()
runtime.Gosched()
{
mdc.Lock()
mdc.containers["wiff"] = container2
mdc.Unlock()
mdc.send(&client.APIEvents{Status: docker.StartEvent, ID: "wiff"})
runtime.Gosched()
have := allContainers(registry)
want := []docker.Container{&mockContainer{container1}, &mockContainer{container2}}
if !reflect.DeepEqual(want, have) {
t.Errorf("%s", test.Diff(want, have))
}
}
{
mdc.Lock()
delete(mdc.containers, "wiff")
mdc.Unlock()
mdc.send(&client.APIEvents{Status: docker.DieEvent, ID: "wiff"})
runtime.Gosched()
have := allContainers(registry)
want := []docker.Container{&mockContainer{container1}}
if !reflect.DeepEqual(want, have) {
t.Errorf("%s", test.Diff(want, have))
}
}
{
mdc.Lock()
delete(mdc.containers, "ping")
mdc.Unlock()
mdc.send(&client.APIEvents{Status: docker.DieEvent, ID: "ping"})
runtime.Gosched()
have := allContainers(registry)
want := []docker.Container{}
if !reflect.DeepEqual(want, have) {
t.Errorf("%s", test.Diff(want, have))
}
}
{
mdc.send(&client.APIEvents{Status: docker.DieEvent, ID: "doesntexist"})
runtime.Gosched()
have := allContainers(registry)
want := []docker.Container{}
if !reflect.DeepEqual(want, have) {
t.Errorf("%s", test.Diff(want, have))
}
}
})
}
func main() {
var (
targets = []string{fmt.Sprintf("localhost:%d", xfer.AppPort), fmt.Sprintf("scope.weave.local:%d", xfer.AppPort)}
token = flag.String("token", "default-token", "probe token")
httpListen = flag.String("http.listen", "", "listen address for HTTP profiling and instrumentation server")
publishInterval = flag.Duration("publish.interval", 3*time.Second, "publish (output) interval")
spyInterval = flag.Duration("spy.interval", time.Second, "spy (scan) interval")
prometheusEndpoint = flag.String("prometheus.endpoint", "/metrics", "Prometheus metrics exposition endpoint (requires -http.listen)")
spyProcs = flag.Bool("processes", true, "report processes (needs root)")
dockerEnabled = flag.Bool("docker", false, "collect Docker-related attributes for processes")
dockerInterval = flag.Duration("docker.interval", 10*time.Second, "how often to update Docker attributes")
dockerBridge = flag.String("docker.bridge", "docker0", "the docker bridge name")
weaveRouterAddr = flag.String("weave.router.addr", "", "IP address or FQDN of the Weave router")
procRoot = flag.String("proc.root", "/proc", "location of the proc filesystem")
captureEnabled = flag.Bool("capture", false, "perform sampled packet capture")
captureInterfaces = flag.String("capture.interfaces", interfaces(), "packet capture on these interfaces")
captureOn = flag.Duration("capture.on", 1*time.Second, "packet capture duty cycle 'on'")
captureOff = flag.Duration("capture.off", 5*time.Second, "packet capture duty cycle 'off'")
printVersion = flag.Bool("version", false, "print version number and exit")
useConntrack = flag.Bool("conntrack", true, "also use conntrack to track connections")
)
flag.Parse()
if *printVersion {
fmt.Println(version)
return
}
var (
hostName = hostname()
hostID = hostName // TODO: we should sanitize the hostname
probeID = hostName // TODO: does this need to be a random string instead?
)
log.Printf("probe starting, version %s, ID %s", version, probeID)
if len(flag.Args()) > 0 {
targets = flag.Args()
}
log.Printf("publishing to: %s", strings.Join(targets, ", "))
procspy.SetProcRoot(*procRoot)
if *httpListen != "" {
log.Printf("profiling data being exported to %s", *httpListen)
log.Printf("go tool pprof http://%s/debug/pprof/{profile,heap,block}", *httpListen)
if *prometheusEndpoint != "" {
log.Printf("exposing Prometheus endpoint at %s%s", *httpListen, *prometheusEndpoint)
http.Handle(*prometheusEndpoint, makePrometheusHandler())
}
go func() {
err := http.ListenAndServe(*httpListen, nil)
log.Print(err)
}()
}
if *spyProcs && os.Getegid() != 0 {
log.Printf("warning: process reporting enabled, but that requires root to find everything")
}
publisherFactory := func(target string) (xfer.Publisher, error) { return xfer.NewHTTPPublisher(target, *token, probeID) }
publishers := xfer.NewMultiPublisher(publisherFactory)
resolver := newStaticResolver(targets, publishers.Add)
defer resolver.Stop()
addrs, err := net.InterfaceAddrs()
if err != nil {
log.Fatal(err)
}
localNets := report.Networks{}
for _, addr := range addrs {
// Not all addrs are IPNets.
if ipNet, ok := addr.(*net.IPNet); ok {
localNets = append(localNets, ipNet)
}
}
var (
endpointReporter = endpoint.NewReporter(hostID, hostName, *spyProcs, *useConntrack)
processCache = process.NewCachingWalker(process.NewWalker(*procRoot))
reporters = []Reporter{
endpointReporter,
host.NewReporter(hostID, hostName, localNets),
process.NewReporter(processCache, hostID),
}
taggers = []Tagger{newTopologyTagger(), host.NewTagger(hostID)}
)
defer endpointReporter.Stop()
if *dockerEnabled {
if err := report.AddLocalBridge(*dockerBridge); err != nil {
log.Fatalf("failed to get docker bridge address: %v", err)
}
dockerRegistry, err := docker.NewRegistry(*dockerInterval)
if err != nil {
log.Fatalf("failed to start docker registry: %v", err)
}
defer dockerRegistry.Stop()
taggers = append(taggers, docker.NewTagger(dockerRegistry, processCache))
reporters = append(reporters, docker.NewReporter(dockerRegistry, hostID))
}
if *weaveRouterAddr != "" {
weave, err := overlay.NewWeave(hostID, *weaveRouterAddr)
if err != nil {
log.Fatalf("failed to start Weave tagger: %v", err)
}
taggers = append(taggers, weave)
reporters = append(reporters, weave)
}
if *captureEnabled {
var sniffers int
for _, iface := range strings.Split(*captureInterfaces, ",") {
source, err := sniff.NewSource(iface)
if err != nil {
log.Printf("warning: %v", err)
continue
}
defer source.Close()
log.Printf("capturing packets on %s", iface)
reporters = append(reporters, sniff.New(hostID, localNets, source, *captureOn, *captureOff))
sniffers++
}
// Packet capture can block OS threads on Linux, so we need to provide
// sufficient overhead in GOMAXPROCS.
if have, want := runtime.GOMAXPROCS(-1), (sniffers + 1); have < want {
runtime.GOMAXPROCS(want)
}
}
quit := make(chan struct{})
defer close(quit)
go func() {
var (
pubTick = time.Tick(*publishInterval)
spyTick = time.Tick(*spyInterval)
r = report.MakeReport()
)
for {
select {
case <-pubTick:
publishTicks.WithLabelValues().Add(1)
r.Window = *publishInterval
if err := publishers.Publish(r); err != nil {
log.Printf("publish: %v", err)
}
r = report.MakeReport()
case <-spyTick:
if err := processCache.Update(); err != nil {
log.Printf("error reading processes: %v", err)
}
for _, reporter := range reporters {
newReport, err := reporter.Report()
if err != nil {
log.Printf("error generating report: %v", err)
}
r = r.Merge(newReport)
}
r = Apply(r, taggers)
case <-quit:
return
}
}
}()
log.Printf("%s", <-interrupt())
}
func main() {
var (
httpListen = flag.String("http.listen", "", "listen address for HTTP profiling and instrumentation server")
publishInterval = flag.Duration("publish.interval", 3*time.Second, "publish (output) interval")
spyInterval = flag.Duration("spy.interval", time.Second, "spy (scan) interval")
listen = flag.String("listen", ":"+strconv.Itoa(xfer.ProbePort), "listen address")
prometheusEndpoint = flag.String("prometheus.endpoint", "/metrics", "Prometheus metrics exposition endpoint (requires -http.listen)")
spyProcs = flag.Bool("processes", true, "report processes (needs root)")
dockerEnabled = flag.Bool("docker", false, "collect Docker-related attributes for processes")
dockerInterval = flag.Duration("docker.interval", 10*time.Second, "how often to update Docker attributes")
dockerBridge = flag.String("docker.bridge", "docker0", "the docker bridge name")
weaveRouterAddr = flag.String("weave.router.addr", "", "IP address or FQDN of the Weave router")
procRoot = flag.String("proc.root", "/proc", "location of the proc filesystem")
)
flag.Parse()
if len(flag.Args()) != 0 {
flag.Usage()
os.Exit(1)
}
log.Printf("probe version %s", version)
procspy.SetProcRoot(*procRoot)
if *httpListen != "" {
log.Printf("profiling data being exported to %s", *httpListen)
log.Printf("go tool pprof http://%s/debug/pprof/{profile,heap,block}", *httpListen)
if *prometheusEndpoint != "" {
log.Printf("exposing Prometheus endpoint at %s%s", *httpListen, *prometheusEndpoint)
http.Handle(*prometheusEndpoint, makePrometheusHandler())
}
go func() {
err := http.ListenAndServe(*httpListen, nil)
log.Print(err)
}()
}
if *spyProcs && os.Getegid() != 0 {
log.Printf("warning: process reporting enabled, but that requires root to find everything")
}
publisher, err := xfer.NewTCPPublisher(*listen)
if err != nil {
log.Fatal(err)
}
defer publisher.Close()
var (
hostName = hostname()
hostID = hostName // TODO: we should sanitize the hostname
taggers = []Tagger{newTopologyTagger(), host.NewTagger(hostID)}
reporters = []Reporter{host.NewReporter(hostID, hostName), endpoint.NewReporter(hostID, hostName, *spyProcs)}
processCache *process.CachingWalker
)
processCache = process.NewCachingWalker(process.NewWalker(*procRoot))
reporters = append(reporters, process.NewReporter(processCache, hostID))
if *dockerEnabled {
if err := report.AddLocalBridge(*dockerBridge); err != nil {
log.Fatalf("failed to get docker bridge address: %v", err)
}
dockerRegistry, err := docker.NewRegistry(*dockerInterval)
if err != nil {
log.Fatalf("failed to start docker registry: %v", err)
}
defer dockerRegistry.Stop()
taggers = append(taggers, docker.NewTagger(dockerRegistry, processCache))
reporters = append(reporters, docker.NewReporter(dockerRegistry, hostID))
}
if *weaveRouterAddr != "" {
weave, err := overlay.NewWeave(*weaveRouterAddr)
if err != nil {
log.Fatalf("failed to start Weave tagger: %v", err)
}
taggers = append(taggers, weave)
reporters = append(reporters, weave)
}
log.Printf("listening on %s", *listen)
quit := make(chan struct{})
defer close(quit)
go func() {
var (
pubTick = time.Tick(*publishInterval)
spyTick = time.Tick(*spyInterval)
r = report.MakeReport()
)
for {
select {
case <-pubTick:
publishTicks.WithLabelValues().Add(1)
publisher.Publish(r)
r = report.MakeReport()
case <-spyTick:
if err := processCache.Update(); err != nil {
log.Printf("error reading processes: %v", err)
}
for _, reporter := range reporters {
newReport, err := reporter.Report()
if err != nil {
log.Printf("error generating report: %v", err)
}
r.Merge(newReport)
}
r = Apply(r, taggers)
case <-quit:
return
}
}
}()
log.Printf("%s", <-interrupt())
}