package containers import ( "bytes" "fmt" "os" "regexp" "strconv" "strings" "sync" "time" "github.com/coroot/coroot-node-agent/kube" . "github.com/coroot/coroot-node-agent/utils" "github.com/coroot/coroot-node-agent/utils/enums" . "github.com/coroot/coroot-node-agent/utils/modelse" "github.com/coroot/coroot-node-agent/utils/try" . "github.com/coroot/coroot-node-agent/utils/worker" "github.com/coroot/coroot-node-agent/cgroup" "github.com/coroot/coroot-node-agent/common" "github.com/coroot/coroot-node-agent/ebpftracer" "github.com/coroot/coroot-node-agent/ebpftracer/tracer" "github.com/coroot/coroot-node-agent/flags" "github.com/coroot/coroot-node-agent/proc" "github.com/prometheus/client_golang/prometheus" klog "github.com/sirupsen/logrus" "github.com/vishvananda/netns" "inet.af/netaddr" ) const MinTrafficStatsUpdateInterval = 5 * time.Second var ( selfNetNs = netns.None() hostNetNsId = netns.None().UniqueId() agentPid = uint32(os.Getpid()) containerIdRegexp = regexp.MustCompile(`[a-z0-9]{64}`) cronjobPodName = regexp.MustCompile(`([a-z0-9-]+)-([0-9]{8})-[bcdfghjklmnpqrstvwxz2456789]{5}`) cronjobPodScheduleWindow = 7 * 24 * time.Hour ) const OPEN_STACK = 1 type ProcessInfo struct { Pid uint32 ContainerId ContainerID StartedAt time.Time } type Registry struct { reg prometheus.Registerer tracer *ebpftracer.Tracer events chan ebpftracer.Event hostConntrack *Conntrack containersById map[ContainerID]*Container containersByCgroupId map[string]*Container containersByPid map[uint32]*Container ip2fqdn map[netaddr.IP]string ip2fqdnLock sync.Mutex processInfoCh chan<- ProcessInfo whiteListRules WhiteListMap whiteLastUpdatedTime int connServer ServerWorker trafficStatsLastUpdated time.Time trafficStatsLock sync.Mutex trafficStatsUpdateCh chan *TrafficStatsUpdate nodeInfo *NodeInfoT isFusing bool IsFuseException bool } var ( uprobes []tracer.Uprobe uprobesMap map[string]tracer.Uprobe ) func NewRegistry(reg prometheus.Registerer, kernelVersion string, nodeInfo *NodeInfoT, processInfoCh chan<- ProcessInfo) (*Registry, error) { ns, err := proc.GetSelfNetNs() if err != nil { return nil, err } selfNetNs = ns hostNetNs, err := proc.GetHostNetNs() if err != nil { return nil, err } defer hostNetNs.Close() hostNetNsId = hostNetNs.UniqueId() err = proc.ExecuteInNetNs(hostNetNs, selfNetNs, func() error { if err := TaskstatsInit(); err != nil { return err } return nil }) if err != nil { return nil, err } if err := cgroup.Init(); err != nil { return nil, err } if err := DockerdInit(); err != nil { klog.Warningln(err) } if err := ContainerdInit(); err != nil { klog.Warningln(err) } if err := CrioInit(); err != nil { klog.Warningln(err) } if err := JournaldInit(); err != nil { klog.Warningln(err) } ct, err := NewConntrack(hostNetNs) if err != nil { return nil, err } r := &Registry{ reg: reg, events: make(chan ebpftracer.Event, 10000), hostConntrack: ct, containersById: map[ContainerID]*Container{}, containersByCgroupId: map[string]*Container{}, containersByPid: map[uint32]*Container{}, ip2fqdn: map[netaddr.IP]string{}, processInfoCh: processInfoCh, tracer: ebpftracer.NewTracer(kernelVersion, *flags.DisableL7Tracing, *flags.DisableE2ETracing, *flags.DisableStackTracing), whiteListRules: make(WhiteListMap), trafficStatsUpdateCh: make(chan *TrafficStatsUpdate), nodeInfo: nodeInfo, } // 初始化软负载集群节点 proxyClient, clientErr := NewProxyClient(*flags.ConfigServer, false) if clientErr == nil { // 负载健康检测 try.Go(proxyClient.CheckEndpoints, CatchFn) klog.Infof("New Proxy Client success.config_server is [%s]", *flags.ConfigServer) } else { klog.WithError(clientErr).Errorf("NewProxyClient error, Please check [export CONFIG_ENDPOINT=ip:port]") return nil, clientErr } r.connServer, err = NewServerHTTPWorker() if err != nil { klog.Errorf("init connServer error:%s.", err) return nil, err } if !*flags.DisableRegisterHost { // Register Host err = r.RegisterHost() if err != nil { klog.WithError(err).Errorf("Failed Register Host.") return nil, err } try.Go(r.TaskRegisterHost, CatchFn) } if err = reg.Register(r); err != nil { return nil, err } //_, err = r.getWhiteList() //if err != nil { // return nil, err //} try.Go(r.PullAllAppInfo, CatchFn) //go r.handleEvents(r.events) try.GoParams(r.handleEvents, CatchFn, r.events) if err = r.tracer.Run(r.events); err != nil { close(r.events) return nil, err } return r, nil } func (r *Registry) Describe(ch chan<- *prometheus.Desc) { ch <- metrics.Ip2Fqdn } func (r *Registry) Collect(ch chan<- prometheus.Metric) { r.ip2fqdnLock.Lock() defer r.ip2fqdnLock.Unlock() for ip, fqdn := range r.ip2fqdn { ch <- gauge(metrics.Ip2Fqdn, 1, ip.String(), fqdn) } } func (r *Registry) Close() { r.CloseContainers() r.tracer.Close() close(r.events) } func (r *Registry) CloseContainers() { for pid, c := range r.containersByPid { if c.Isl7AttachSuccess() { c.Detach(r.tracer, pid, APP_UNINSTALL) } } } func (r *Registry) handleEvents(ch <-chan ebpftracer.Event) { gcTicker := time.NewTicker(gcInterval) defer gcTicker.Stop() var fuseOnce bool for { select { case now := <-gcTicker.C: //_, err1 := os.Stat("/tmp/fuse") //if err1 == nil { // r.isFusing = true //} else { // r.isFusing = false //} //_, err := r.pullWhiteList() _, err := r.pullWhiteListV2() if err != nil { klog.WithError(err).Errorf("connWhiteList error") } runtimeApps := make(map[uint32]AppStatusInfo) for pid, c := range r.containersByPid { if c != nil && !common.IsOpenFilter() && !fuseOnce { c.AgentCtrl(r, pid) } c.BuildActiveApps(runtimeApps, pid) cg, err := proc.ReadCgroup(pid) if err != nil { delete(r.containersByPid, pid) if c != nil { c.onProcessExit(pid, false) } continue } if c != nil && cg.Id != c.cgroup.Id { delete(r.containersByPid, pid) c.onProcessExit(pid, false) } } saveAppInfo(runtimeApps) if r.isFusing { fuseOnce = true } else { fuseOnce = false } activeIPs := map[netaddr.IP]struct{}{} for id, c := range r.containersById { for dst := range c.connectLastAttempt { activeIPs[dst.IP()] = struct{}{} } if !c.Dead(now) { continue } klog.Debugln("deleting dead container:", id) for cg, cc := range r.containersByCgroupId { if cc == c { delete(r.containersByCgroupId, cg) } } for pid, cc := range r.containersByPid { if cc == c { delete(r.containersByPid, pid) } } if ok := prometheus.WrapRegistererWith(setLabels(string(id), c.K8sContainer.ns, c.K8sContainer.workload, c.K8sContainer.podName, c.K8sContainer.containerName, c.K8sContainer.pid), r.reg).Unregister(c); !ok { klog.Warningln("failed to unregister container:", id) } delete(r.containersById, id) c.Close() } r.ip2fqdnLock.Lock() for ip := range r.ip2fqdn { if _, ok := activeIPs[ip]; !ok { delete(r.ip2fqdn, ip) } } r.ip2fqdnLock.Unlock() case u := <-r.trafficStatsUpdateCh: if u == nil { continue } if c := r.containersByPid[u.Pid]; c != nil { c.updateTrafficStats(u) } case e, more := <-ch: if e.Pid == uint32(os.Getpid()) { continue } if !more { return } switch e.Type { case ebpftracer.EventTypeProcessStart: c, seen := r.containersByPid[e.Pid] switch { // possible pids wraparound + missed `process-exit` event case c == nil && seen: // ignored delete(r.containersByPid, e.Pid) case c != nil: // revalidating by cgroup cg, err := proc.ReadCgroup(e.Pid) if err != nil || cg.Id != c.cgroup.Id { delete(r.containersByPid, e.Pid) c.onProcessExit(e.Pid, false) } } if c := r.getOrCreateContainer(e.Pid); c != nil { p := c.onProcessStart(e.Pid) if r.processInfoCh != nil && p != nil { r.processInfoCh <- ProcessInfo{Pid: p.Pid, ContainerId: c.id, StartedAt: p.StartedAt} } } case ebpftracer.EventTypeProcessExit: if c := r.containersByPid[e.Pid]; c != nil { c.onProcessExit(e.Pid, e.Reason == ebpftracer.EventReasonOOMKill) } delete(r.containersByPid, e.Pid) case ebpftracer.EventTypeFileOpen: if c := r.getOrCreateContainer(e.Pid); c != nil { c.onFileOpen(e.Pid, e.Fd) } case ebpftracer.EventTypeListenOpen: //fmt.Println("ebpftracer.EventTypeListenOpen==================", e.Pid) if c := r.getOrCreateContainer(e.Pid); c != nil { c.onListenOpen(e.Pid, e.SrcAddr, false) // cmdline InstanceID agentID if !common.IsOpenFilter() || common.IsFilterPid(e.Pid) { if c.buildIDs(e.Pid) { c.eventReady() } } if common.IsOpenFilter() && common.IsFilterPid(e.Pid) { c.WhiteSettingInfo.AppName = enums.TestApp err := c.RegisterAppInfo(r, e.Pid) if err != nil { klog.WithError(err).Errorf("[registry] Failed registerAppInfo. pid is %d", e.Pid) continue } err = c.AttachUprobes(r.tracer, e.Pid) if err != nil { klog.WithField("pid", e.Pid).WithError(err).Errorf("[AttachUprobes] [end] Failed attach stack trace!") } if !r.tracer.DisableStackTracing() { err = c.AttachStack(r.tracer, e.Pid) if err != nil { klog.WithField("pid", e.Pid).WithError(err).Errorf("[registry] [end] Failed attach stack trace!") } } } } else { klog.Infoln("TCP listen open from unknown container", e) } case ebpftracer.EventTypeAcceptOpen: //klog.Infoln("ebpftracer.EventTypeAcceptOpen==================", e.Pid) if c := r.getOrCreateContainer(e.Pid); c != nil { c.onAcceptOpen(e.Pid, e.Fd, e.SrcAddr, e.DstAddr, e.Timestamp, false, e.Duration) c.eventReady() } else { klog.Infoln("TCP connection from unknown container", e) } case ebpftracer.EventTypeConnectionOpen: //fmt.Println("ebpftracer.EventTypeConnectionOpen==================", e.Pid) if c := r.getOrCreateContainer(e.Pid); c != nil { c.onConnectionOpen(e.Pid, e.Fd, e.SrcAddr, e.DstAddr, e.Timestamp, false, e.Duration) if !common.IsOpenFilter() || common.IsFilterPid(e.Pid) { if !c.checkEventReady() && c.buildIDs(e.Pid) { c.eventReady() } } if common.IsOpenFilter() && common.IsFilterPid(e.Pid) { c.WhiteSettingInfo.AppName = enums.TestApp err := c.RegisterAppInfo(r, e.Pid) if err != nil { klog.WithError(err).Errorf("[registry] Failed registerAppInfo. pid is %d", e.Pid) continue } err = c.AttachUprobes(r.tracer, e.Pid) if err != nil { klog.WithField("pid", e.Pid).WithError(err).Errorf("[AttachUprobes] [end] Failed attach stack trace!") } // 禁用stack if !r.tracer.DisableStackTracing() { err = c.AttachStack(r.tracer, e.Pid) if err != nil { klog.WithField("pid", e.Pid).WithError(err).Errorf("[registry] [end] Failed attach stack trace!") } } else { klog.Warnf("StackTrace tracing is disabled") } } } else { klog.Infoln("TCP connection from unknown container", e) } case ebpftracer.EventTypeListenClose: if c := r.containersByPid[e.Pid]; c != nil { c.onListenClose(e.Pid, e.SrcAddr) } case ebpftracer.EventTypeConnectionError: if c := r.getOrCreateContainer(e.Pid); c != nil { c.onConnectionOpen(e.Pid, e.Fd, e.SrcAddr, e.DstAddr, 0, true, e.Duration) } else { klog.Infoln("TCP connection error from unknown container", e) } case ebpftracer.EventTypeConnectionClose: if c := r.containersByPid[e.Pid]; c != nil { c.onConnectionClose(e) } case ebpftracer.EventTypeAcceptClose: if c := r.containersByPid[e.Pid]; c != nil { c.onAcceptClose(e) } case ebpftracer.EventTypeTCPRetransmit: srcDst := AddrPair{src: e.SrcAddr, dst: e.DstAddr} for _, c := range r.containersById { if c.onRetransmission(srcDst) { break } } case ebpftracer.EventTypeL7Request: //fmt.Println("e.L7Request Payload:", string(e.L7Request.Payload)) if e.L7Request == nil { continue } if c := r.containersByPid[e.Pid]; c != nil { //fmt.Println("EventTypeL7Request", e.Pid, c.Isl7AttachSuccess()) //a, _ := json.Marshal(e.L7Request) //fmt.Println("EventTypeL7Request", e.Pid, string(a)) klog.Debugln("Payload:", string(e.L7Request.Payload)) ip2fqdn := c.onL7RequestApm(e.Pid, e.Fd, e.Timestamp, e.L7Request) r.ip2fqdnLock.Lock() for ip, fqdn := range ip2fqdn { r.ip2fqdn[ip] = fqdn } r.ip2fqdnLock.Unlock() } case ebpftracer.EventTypeOffCpuTIme: //fmt.Println("e.L7Request Payload:", string(e.L7Request.Payload)) if e.OffCPU == nil { continue } if c := r.getOrCreateContainer(e.Pid); c != nil { c.onOffCPUTime(e.OffCPU) } else { klog.Infoln("EventTypeOffCpuTIme from unknown container", e) } case ebpftracer.EventTypeFunEnt: if e.StackEvent == nil { continue } if c := r.containersByPid[uint32(e.StackEvent.Pid)]; c != nil { /*if e.StackEvent.Type == uint64(CodeTypeJava) { klog.Debugf("e.EventTypeFunEnt: TraceId:%d, Pid:%d, Location:%d, Goid:%d, TimeNs:%d, Ip:%X, CallerIp:%d, Bp:%d, CallerBp:%d\n", e.StackEvent.TraceId, e.StackEvent.Pid, e.StackEvent.Location, e.StackEvent.Goid, e.StackEvent.TimeNsStart, e.StackEvent.Ip, e.StackEvent.CallerIp, e.StackEvent.Bp, e.StackEvent.CallerBp) klog.Debugf("e.EventTypeFunEnt: TraceId: MethedName: %d -- %s -- %s", e.StackEvent.Type, e.StackEvent.MethedName, e.StackEvent.ClassName) } else { klog.Debugf("e.EventTypeFunEnt: TraceId:%d, Pid:%d, Location:%d, Goid:%d, TimeNs:%d, Ip:%X, CallerIp:%x, Bp:%x, CallerBp:%x\n", e.StackEvent.TraceId, e.StackEvent.Pid, e.StackEvent.Location, e.StackEvent.Goid, e.StackEvent.TimeNsStart, e.StackEvent.Ip, e.StackEvent.CallerIp, e.StackEvent.Bp, e.StackEvent.CallerBp) }*/ c.StackProcess2(*e.StackEvent, r.tracer) } else { // fmt.Printf("e.EventTypeFunEnt ErrorError: TraceId:%d, Pid:%d, Location:%d, Goid:%d, TimeNs:%d, Ip:%X, CallerIp:%x, Bp:%x, CallerBp:%x", e.StackEvent.TraceId, e.StackEvent.Pid, e.StackEvent.Location, e.StackEvent.Goid, e.StackEvent.TimeNsStart, e.StackEvent.Ip, e.StackEvent.CallerIp, e.StackEvent.Bp, e.StackEvent.CallerBp) // fmt.Printf("e.EventTypeFunEnt ErrorError: TraceId:%x, FPid:%x, Nid:%x, Level:%d\n", e.StackEvent.Fpid, e.StackEvent.Nid, e.StackEvent.Level) } } } } } func (r *Registry) getOrCreateContainer(pid uint32) *Container { if c, seen := r.containersByPid[pid]; c != nil { return c } else if seen { // ignored return nil } cg, err := proc.ReadCgroup(pid) if err != nil { if !common.IsNotExist(err) { klog.Warningln("failed to read proc cgroup:", err) } return nil } cgId := fmt.Sprintf("%s/%d", cg.Id, pid) if c := r.containersByCgroupId[cgId]; c != nil { r.containersByPid[pid] = c return c } if cg.ContainerType == cgroup.ContainerTypeSandbox { cmdline := proc.GetCmdline(pid) parts := bytes.Split(cmdline, []byte{0}) if len(parts) > 0 { cmd := parts[0] lastArg := parts[len(parts)-1] if (bytes.HasSuffix(cmd, []byte("runsc-sandbox")) || bytes.HasSuffix(cmd, []byte("runsc"))) && containerIdRegexp.Match(lastArg) { cg.ContainerId = string(lastArg) } } } md, err := getContainerMetadata(cg) if err != nil { klog.Warningf("failed to get container metadata for pid %d -> %s: %s", pid, cg.Id, err) return nil } // add ns/workload/podname id, extensionTag := calcId(cg, md, pid) //klog.Infof("calculated container id %d -> %s -> %s", pid, cg.Id, id) if id == "" { if cg.Id == "/init.scope" && pid != 1 { klog.Infoln("ignoring without persisting", "cg", cg.Id, "pid", pid) } else { klog.Infoln("ignoring", "cg", cg.Id, "pid", pid) r.containersByPid[pid] = nil } return nil } if c := r.containersById[id]; c != nil { //klog.Warningln("id conflict:", id) if cg.CreatedAt().After(c.cgroup.CreatedAt()) { c.cgroup = cg c.metadata = md c.runLogParser("") if c.nsConntrack != nil { _ = c.nsConntrack.Close() c.nsConntrack = nil } } setK8sTag(c, extensionTag, pid) r.containersByPid[pid] = c r.containersByCgroupId[cgId] = c return c } c, err := NewContainer(id, cg, md, r.hostConntrack, pid, r) if err != nil { klog.Warningf("failed to create container pid=%d cg=%s id=%s: %s", pid, cg.Id, id, err) return nil } //klog.Infoln("detected a new container", "pid", pid, "cg", cg.Id, "id", id) // add ns/workload/podname/pid/ctype //sType := fmt.Sprintf("%d", cg.ContainerType) setK8sTag(c, extensionTag, pid) if err := prometheus.WrapRegistererWith(setLabels(string(id), extensionTag[Namespace], extensionTag[Workload], extensionTag[PodName], extensionTag[ProcessName], fmt.Sprintf("%d", pid)), r.reg).Register(c); err != nil { klog.Warningln("failed to register container:", err) return nil } r.containersByPid[pid] = c r.containersByCgroupId[cgId] = c r.containersById[id] = c return c } func (r *Registry) updateTrafficStatsIfNecessary() { r.trafficStatsLock.Lock() defer r.trafficStatsLock.Unlock() if time.Now().Sub(r.trafficStatsLastUpdated) < MinTrafficStatsUpdateInterval { return } iter := r.tracer.ActiveConnectionsIterator() cid := ConnectionId{} stats := Connection{} for iter.Next(&cid, &stats) { r.trafficStatsUpdateCh <- &TrafficStatsUpdate{ Pid: cid.PID, FD: cid.FD, BytesSent: stats.BytesSent, BytesReceived: stats.BytesReceived, } } if err := iter.Err(); err != nil { klog.Warningln(err) } r.trafficStatsUpdateCh <- nil r.trafficStatsLastUpdated = time.Now() } func calcId(cg *cgroup.Cgroup, md *ContainerMetadata, pid uint32) (ContainerID, map[string]string) { // 卡一下防止概率性获取为bash time.Sleep(1 * time.Millisecond) procName := proc.GetProcName(pid) extensionTag := map[string]string{Namespace: "", Workload: "", PodName: "", ProcessName: procName} if cg.ContainerType == cgroup.ContainerTypeSystemdService { if strings.HasPrefix(cg.ContainerId, "/system.slice/crio-conmon-") { return "", extensionTag } return ContainerID(cg.ContainerId), extensionTag } if cg.ContainerType == cgroup.ContainerTypeStandaloneProcess { //extensionTag[ProcessName] = procName return ContainerID(fmt.Sprintf("/%s/%s/%d", "standalone", procName, pid)), extensionTag } switch cg.ContainerType { case cgroup.ContainerTypeDocker, cgroup.ContainerTypeContainerd, cgroup.ContainerTypeSandbox, cgroup.ContainerTypeCrio: default: return "", extensionTag } if cg.ContainerId == "" { return "", extensionTag } if md.labels["io.kubernetes.pod.name"] != "" { pod := md.labels["io.kubernetes.pod.name"] namespace := md.labels["io.kubernetes.pod.namespace"] name := md.labels["io.kubernetes.container.name"] if cg.ContainerType == cgroup.ContainerTypeSandbox { name = "sandbox" } if name == "" || name == "POD" { // skip pause containers return "", extensionTag } extensionTag[Namespace] = namespace if *flags.RunInContainer { extensionTag[Workload], _ = kube.GetWorkload(namespace, pod) } extensionTag[PodName] = pod //extensionTag[ProcessName] = name if g := cronjobPodName.FindStringSubmatch(pod); len(g) == 3 { now := time.Now() tsMiniutes, _ := strconv.ParseUint(g[2], 10, 64) scheduledAt := time.Unix(int64(tsMiniutes)*60, 0) if scheduledAt.After(now.Add(-cronjobPodScheduleWindow)) && scheduledAt.Before(now.Add(cronjobPodScheduleWindow)) { return ContainerID(fmt.Sprintf("/k8s-cronjob/%s/%s/%s", namespace, g[1], name)), extensionTag } } return ContainerID(fmt.Sprintf("/k8s/%s/%s/%s", namespace, pod, name)), extensionTag } if taskNameParts := strings.SplitN(md.labels["com.docker.swarm.task.name"], ".", 3); len(taskNameParts) == 3 { namespace := md.labels["com.docker.stack.namespace"] service := md.labels["com.docker.swarm.service.name"] if namespace != "" { service = strings.TrimPrefix(service, namespace+"_") } if namespace == "" { namespace = "_" } return ContainerID(fmt.Sprintf("/swarm/%s/%s/%s", namespace, service, taskNameParts[1])), extensionTag } if md.env != nil { allocId := md.env["NOMAD_ALLOC_ID"] group := md.env["NOMAD_GROUP_NAME"] job := md.env["NOMAD_JOB_NAME"] namespace := md.env["NOMAD_NAMESPACE"] task := md.env["NOMAD_TASK_NAME"] if allocId != "" && group != "" && job != "" && namespace != "" && task != "" { return ContainerID(fmt.Sprintf("/nomad/%s/%s/%s/%s/%s", namespace, job, group, allocId, task)), extensionTag } } if md.name == "" { // should be "pure" dockerd container here klog.Warningln("empty dockerd container name for:", cg.ContainerId) return "", extensionTag } return ContainerID("/docker/" + md.name), extensionTag } func getContainerMetadata(cg *cgroup.Cgroup) (*ContainerMetadata, error) { switch cg.ContainerType { case cgroup.ContainerTypeSystemdService: md := &ContainerMetadata{} md.systemdTriggeredBy = SystemdTriggeredBy(cg.ContainerId) return md, nil case cgroup.ContainerTypeDocker, cgroup.ContainerTypeContainerd, cgroup.ContainerTypeSandbox, cgroup.ContainerTypeCrio: default: return &ContainerMetadata{}, nil } if cg.ContainerId == "" { return &ContainerMetadata{}, nil } if cg.ContainerType == cgroup.ContainerTypeCrio { return CrioInspect(cg.ContainerId) } var dockerdErr error if dockerdClient != nil { md, err := DockerdInspect(cg.ContainerId) if err == nil { return md, nil } dockerdErr = err } var containerdErr error if containerdClient != nil { md, err := ContainerdInspect(cg.ContainerId) if err == nil { return md, nil } containerdErr = err } return nil, fmt.Errorf("failed to interact with dockerd (%s) or with containerd (%s)", dockerdErr, containerdErr) } type TrafficStatsUpdate struct { Pid uint32 FD uint64 BytesSent uint64 BytesReceived uint64 } func (r *Registry) IsFusing() bool { return r.isFusing }