package cmd import ( "context" "encoding/json" "fmt" "net" "net/netip" "sort" "strings" "time" "github.com/spf13/cobra" "google.golang.org/grpc/status" "gopkg.in/yaml.v3" "github.com/netbirdio/netbird/client/internal" "github.com/netbirdio/netbird/client/internal/peer" "github.com/netbirdio/netbird/client/proto" "github.com/netbirdio/netbird/util" "github.com/netbirdio/netbird/version" ) type peerStateDetailOutput struct { FQDN string `json:"fqdn" yaml:"fqdn"` IP string `json:"netbirdIp" yaml:"netbirdIp"` PubKey string `json:"publicKey" yaml:"publicKey"` Status string `json:"status" yaml:"status"` LastStatusUpdate time.Time `json:"lastStatusUpdate" yaml:"lastStatusUpdate"` ConnType string `json:"connectionType" yaml:"connectionType"` Direct bool `json:"direct" yaml:"direct"` IceCandidateType iceCandidateType `json:"iceCandidateType" yaml:"iceCandidateType"` } type peersStateOutput struct { Total int `json:"total" yaml:"total"` Connected int `json:"connected" yaml:"connected"` Details []peerStateDetailOutput `json:"details" yaml:"details"` } type signalStateOutput struct { URL string `json:"url" yaml:"url"` Connected bool `json:"connected" yaml:"connected"` } type managementStateOutput struct { URL string `json:"url" yaml:"url"` Connected bool `json:"connected" yaml:"connected"` } type iceCandidateType struct { Local string `json:"local" yaml:"local"` Remote string `json:"remote" yaml:"remote"` } type statusOutputOverview struct { Peers peersStateOutput `json:"peers" yaml:"peers"` CliVersion string `json:"cliVersion" yaml:"cliVersion"` DaemonVersion string `json:"daemonVersion" yaml:"daemonVersion"` ManagementState managementStateOutput `json:"management" yaml:"management"` SignalState signalStateOutput `json:"signal" yaml:"signal"` IP string `json:"netbirdIp" yaml:"netbirdIp"` PubKey string `json:"publicKey" yaml:"publicKey"` KernelInterface bool `json:"usesKernelInterface" yaml:"usesKernelInterface"` FQDN string `json:"fqdn" yaml:"fqdn"` } var ( detailFlag bool ipv4Flag bool jsonFlag bool yamlFlag bool ipsFilter []string statusFilter string ipsFilterMap map[string]struct{} ) var statusCmd = &cobra.Command{ Use: "status", Short: "status of the Netbird Service", RunE: statusFunc, } func init() { ipsFilterMap = make(map[string]struct{}) statusCmd.PersistentFlags().BoolVarP(&detailFlag, "detail", "d", false, "display detailed status information in human-readable format") statusCmd.PersistentFlags().BoolVar(&jsonFlag, "json", false, "display detailed status information in json format") statusCmd.PersistentFlags().BoolVar(&yamlFlag, "yaml", false, "display detailed status information in yaml format") statusCmd.PersistentFlags().BoolVar(&ipv4Flag, "ipv4", false, "display only NetBird IPv4 of this peer, e.g., --ipv4 will output 100.64.0.33") statusCmd.MarkFlagsMutuallyExclusive("detail", "json", "yaml", "ipv4") statusCmd.PersistentFlags().StringSliceVar(&ipsFilter, "filter-by-ips", []string{}, "filters the detailed output by a list of one or more IPs, e.g., --filter-by-ips 100.64.0.100,100.64.0.200") statusCmd.PersistentFlags().StringVar(&statusFilter, "filter-by-status", "", "filters the detailed output by connection status(connected|disconnected), e.g., --filter-by-status connected") } func statusFunc(cmd *cobra.Command, args []string) error { SetFlagsFromEnvVars(rootCmd) cmd.SetOut(cmd.OutOrStdout()) err := parseFilters() if err != nil { return err } err = util.InitLog(logLevel, "console") if err != nil { return fmt.Errorf("failed initializing log %v", err) } ctx := internal.CtxInitState(context.Background()) resp, _ := getStatus(ctx, cmd) if err != nil { return nil } if resp.GetStatus() == string(internal.StatusNeedsLogin) || resp.GetStatus() == string(internal.StatusLoginFailed) { cmd.Printf("Daemon status: %s\n\n"+ "Run UP command to log in with SSO (interactive login):\n\n"+ " netbird up \n\n"+ "If you are running a self-hosted version and no SSO provider has been configured in your Management Server,\n"+ "you can use a setup-key:\n\n netbird up --management-url --setup-key \n\n"+ "More info: https://www.netbird.io/docs/overview/setup-keys\n\n", resp.GetStatus(), ) return nil } if ipv4Flag { cmd.Print(parseInterfaceIP(resp.GetFullStatus().GetLocalPeerState().GetIP())) return nil } outputInformationHolder := convertToStatusOutputOverview(resp) statusOutputString := "" switch { case detailFlag: statusOutputString = parseToFullDetailSummary(outputInformationHolder) case jsonFlag: statusOutputString, err = parseToJSON(outputInformationHolder) case yamlFlag: statusOutputString, err = parseToYAML(outputInformationHolder) default: statusOutputString = parseGeneralSummary(outputInformationHolder, false) } if err != nil { return err } cmd.Print(statusOutputString) return nil } func getStatus(ctx context.Context, cmd *cobra.Command) (*proto.StatusResponse, error) { conn, err := DialClientGRPCServer(ctx, daemonAddr) if err != nil { return nil, fmt.Errorf("failed to connect to daemon error: %v\n"+ "If the daemon is not running please run: "+ "\nnetbird service install \nnetbird service start\n", err) } defer conn.Close() resp, err := proto.NewDaemonServiceClient(conn).Status(cmd.Context(), &proto.StatusRequest{GetFullPeerStatus: true}) if err != nil { return nil, fmt.Errorf("status failed: %v", status.Convert(err).Message()) } return resp, nil } func parseFilters() error { switch strings.ToLower(statusFilter) { case "", "disconnected", "connected": default: return fmt.Errorf("wrong status filter, should be one of connected|disconnected, got: %s", statusFilter) } if len(ipsFilter) > 0 { for _, addr := range ipsFilter { _, err := netip.ParseAddr(addr) if err != nil { return fmt.Errorf("got an invalid IP address in the filter: address %s, error %s", addr, err) } ipsFilterMap[addr] = struct{}{} } } return nil } func convertToStatusOutputOverview(resp *proto.StatusResponse) statusOutputOverview { pbFullStatus := resp.GetFullStatus() managementState := pbFullStatus.GetManagementState() managementOverview := managementStateOutput{ URL: managementState.GetURL(), Connected: managementState.GetConnected(), } signalState := pbFullStatus.GetSignalState() signalOverview := signalStateOutput{ URL: signalState.GetURL(), Connected: signalState.GetConnected(), } peersOverview := mapPeers(resp.GetFullStatus().GetPeers()) overview := statusOutputOverview{ Peers: peersOverview, CliVersion: version.NetbirdVersion(), DaemonVersion: resp.GetDaemonVersion(), ManagementState: managementOverview, SignalState: signalOverview, IP: pbFullStatus.GetLocalPeerState().GetIP(), PubKey: pbFullStatus.GetLocalPeerState().GetPubKey(), KernelInterface: pbFullStatus.GetLocalPeerState().GetKernelInterface(), FQDN: pbFullStatus.GetLocalPeerState().GetFqdn(), } return overview } func mapPeers(peers []*proto.PeerState) peersStateOutput { var peersStateDetail []peerStateDetailOutput localICE := "" remoteICE := "" connType := "" peersConnected := 0 for _, pbPeerState := range peers { isPeerConnected := pbPeerState.ConnStatus == peer.StatusConnected.String() if skipDetailByFilters(pbPeerState, isPeerConnected) { continue } if isPeerConnected { peersConnected = peersConnected + 1 localICE = pbPeerState.GetLocalIceCandidateType() remoteICE = pbPeerState.GetRemoteIceCandidateType() connType = "P2P" if pbPeerState.Relayed { connType = "Relayed" } } timeLocal := pbPeerState.GetConnStatusUpdate().AsTime().Local() peerState := peerStateDetailOutput{ IP: pbPeerState.GetIP(), PubKey: pbPeerState.GetPubKey(), Status: pbPeerState.GetConnStatus(), LastStatusUpdate: timeLocal, ConnType: connType, Direct: pbPeerState.GetDirect(), IceCandidateType: iceCandidateType{ Local: localICE, Remote: remoteICE, }, FQDN: pbPeerState.GetFqdn(), } peersStateDetail = append(peersStateDetail, peerState) } sortPeersByIP(peersStateDetail) peersOverview := peersStateOutput{ Total: len(peersStateDetail), Connected: peersConnected, Details: peersStateDetail, } return peersOverview } func sortPeersByIP(peersStateDetail []peerStateDetailOutput) { if len(peersStateDetail) > 0 { sort.SliceStable(peersStateDetail, func(i, j int) bool { iAddr, _ := netip.ParseAddr(peersStateDetail[i].IP) jAddr, _ := netip.ParseAddr(peersStateDetail[j].IP) return iAddr.Compare(jAddr) == -1 }) } } func parseInterfaceIP(interfaceIP string) string { ip, _, err := net.ParseCIDR(interfaceIP) if err != nil { return "" } return fmt.Sprintf("%s\n", ip) } func parseToJSON(overview statusOutputOverview) (string, error) { jsonBytes, err := json.Marshal(overview) if err != nil { return "", fmt.Errorf("json marshal failed") } return string(jsonBytes), err } func parseToYAML(overview statusOutputOverview) (string, error) { yamlBytes, err := yaml.Marshal(overview) if err != nil { return "", fmt.Errorf("yaml marshal failed") } return string(yamlBytes), nil } func parseGeneralSummary(overview statusOutputOverview, showURL bool) string { managementConnString := "Disconnected" if overview.ManagementState.Connected { managementConnString = "Connected" if showURL { managementConnString = fmt.Sprintf("%s to %s", managementConnString, overview.ManagementState.URL) } } signalConnString := "Disconnected" if overview.SignalState.Connected { signalConnString = "Connected" if showURL { signalConnString = fmt.Sprintf("%s to %s", signalConnString, overview.SignalState.URL) } } interfaceTypeString := "Userspace" interfaceIP := overview.IP if overview.KernelInterface { interfaceTypeString = "Kernel" } else if overview.IP == "" { interfaceTypeString = "N/A" interfaceIP = "N/A" } peersCountString := fmt.Sprintf("%d/%d Connected", overview.Peers.Connected, overview.Peers.Total) summary := fmt.Sprintf( "Daemon version: %s\n"+ "CLI version: %s\n"+ "Management: %s\n"+ "Signal: %s\n"+ "FQDN: %s\n"+ "NetBird IP: %s\n"+ "Interface type: %s\n"+ "Peers count: %s\n", overview.DaemonVersion, version.NetbirdVersion(), managementConnString, signalConnString, overview.FQDN, interfaceIP, interfaceTypeString, peersCountString, ) return summary } func parseToFullDetailSummary(overview statusOutputOverview) string { parsedPeersString := parsePeers(overview.Peers) summary := parseGeneralSummary(overview, true) return fmt.Sprintf( "Peers detail:"+ "%s\n"+ "%s", parsedPeersString, summary, ) } func parsePeers(peers peersStateOutput) string { var ( peersString = "" ) for _, peerState := range peers.Details { localICE := "-" if peerState.IceCandidateType.Local != "" { localICE = peerState.IceCandidateType.Local } remoteICE := "-" if peerState.IceCandidateType.Remote != "" { remoteICE = peerState.IceCandidateType.Remote } peerString := fmt.Sprintf( "\n %s:\n"+ " NetBird IP: %s\n"+ " Public key: %s\n"+ " Status: %s\n"+ " -- detail --\n"+ " Connection type: %s\n"+ " Direct: %t\n"+ " ICE candidate (Local/Remote): %s/%s\n"+ " Last connection update: %s\n", peerState.FQDN, peerState.IP, peerState.PubKey, peerState.Status, peerState.ConnType, peerState.Direct, localICE, remoteICE, peerState.LastStatusUpdate.Format("2006-01-02 15:04:05"), ) peersString = peersString + peerString } return peersString } func skipDetailByFilters(peerState *proto.PeerState, isConnected bool) bool { statusEval := false ipEval := false if statusFilter != "" { lowerStatusFilter := strings.ToLower(statusFilter) if lowerStatusFilter == "disconnected" && isConnected { statusEval = true } else if lowerStatusFilter == "connected" && !isConnected { statusEval = true } } if len(ipsFilter) > 0 { _, ok := ipsFilterMap[peerState.IP] if !ok { ipEval = true } } return statusEval || ipEval }