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4fad0e521f
netbird/client/cmd/status.go
Maycon Santos 4fec709bb1
Release 0.28.0 (#2092) 
* compile client under freebsd (#1620)

Compile netbird client under freebsd and now support netstack and userspace modes.
Refactoring linux specific code to share same code with FreeBSD, move to *_unix.go files.

Not implemented yet:

Kernel mode not supported
DNS probably does not work yet
Routing also probably does not work yet
SSH support did not tested yet
Lack of test environment for freebsd (dedicated VM for github runners under FreeBSD required)
Lack of tests for freebsd specific code
info reporting need to review and also implement, for example OS reported as GENERIC instead of FreeBSD (lack of FreeBSD icon in management interface)
Lack of proper client setup under FreeBSD
Lack of FreeBSD port/package

* Add DNS routes (#1943)

Given domains are resolved periodically and resolved IPs are replaced with the new ones. Unless the flag keep_route is set to true, then only new ones are added.
This option is helpful if there are long-running connections that might still point to old IP addresses from changed DNS records.

* Add process posture check (#1693)

Introduces a process posture check to validate the existence and active status of specific binaries on peer systems. The check ensures that files are present at specified paths, and that corresponding processes are running. This check supports Linux, Windows, and macOS systems.


Co-authored-by: Evgenii <mail@skillcoder.com>
Co-authored-by: Pascal Fischer <pascal@netbird.io>
Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com>
Co-authored-by: Viktor Liu <17948409+lixmal@users.noreply.github.com>
Co-authored-by: Bethuel Mmbaga <bethuelmbaga12@gmail.com>
2024-06-13 13:24:24 +02:00

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package cmd
import (
"context"
"encoding/json"
"fmt"
"net"
"net/netip"
"os"
"runtime"
"sort"
"strings"
"time"
"github.com/spf13/cobra"
"google.golang.org/grpc/status"
"gopkg.in/yaml.v3"
"github.com/netbirdio/netbird/client/anonymize"
"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"`
IceCandidateEndpoint iceCandidateType `json:"iceCandidateEndpoint" yaml:"iceCandidateEndpoint"`
LastWireguardHandshake time.Time `json:"lastWireguardHandshake" yaml:"lastWireguardHandshake"`
TransferReceived int64 `json:"transferReceived" yaml:"transferReceived"`
TransferSent int64 `json:"transferSent" yaml:"transferSent"`
Latency time.Duration `json:"latency" yaml:"latency"`
RosenpassEnabled bool `json:"quantumResistance" yaml:"quantumResistance"`
Routes []string `json:"routes" yaml:"routes"`
}
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"`
Error string `json:"error" yaml:"error"`
}
type managementStateOutput struct {
URL string `json:"url" yaml:"url"`
Connected bool `json:"connected" yaml:"connected"`
Error string `json:"error" yaml:"error"`
}
type relayStateOutputDetail struct {
URI string `json:"uri" yaml:"uri"`
Available bool `json:"available" yaml:"available"`
Error string `json:"error" yaml:"error"`
}
type relayStateOutput struct {
Total int `json:"total" yaml:"total"`
Available int `json:"available" yaml:"available"`
Details []relayStateOutputDetail `json:"details" yaml:"details"`
}
type iceCandidateType struct {
Local string `json:"local" yaml:"local"`
Remote string `json:"remote" yaml:"remote"`
}
type nsServerGroupStateOutput struct {
Servers []string `json:"servers" yaml:"servers"`
Domains []string `json:"domains" yaml:"domains"`
Enabled bool `json:"enabled" yaml:"enabled"`
Error string `json:"error" yaml:"error"`
}
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"`
Relays relayStateOutput `json:"relays" yaml:"relays"`
IP string `json:"netbirdIp" yaml:"netbirdIp"`
PubKey string `json:"publicKey" yaml:"publicKey"`
KernelInterface bool `json:"usesKernelInterface" yaml:"usesKernelInterface"`
FQDN string `json:"fqdn" yaml:"fqdn"`
RosenpassEnabled bool `json:"quantumResistance" yaml:"quantumResistance"`
RosenpassPermissive bool `json:"quantumResistancePermissive" yaml:"quantumResistancePermissive"`
Routes []string `json:"routes" yaml:"routes"`
NSServerGroups []nsServerGroupStateOutput `json:"dnsServers" yaml:"dnsServers"`
}
var (
detailFlag bool
ipv4Flag bool
jsonFlag bool
yamlFlag bool
ipsFilter []string
prefixNamesFilter []string
statusFilter string
ipsFilterMap map[string]struct{}
prefixNamesFilterMap map[string]struct{}
)
var statusCmd = &cobra.Command{
Use: "status",
Short: "status of the Netbird Service",
RunE: statusFunc,
}
func init() {
ipsFilterMap = make(map[string]struct{})
prefixNamesFilterMap = 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().StringSliceVar(&prefixNamesFilter, "filter-by-names", []string{}, "filters the detailed output by a list of one or more peer FQDN or hostnames, e.g., --filter-by-names peer-a,peer-b.netbird.cloud")
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(cmd.Context())
resp, err := getStatus(ctx)
if err != nil {
return err
}
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 <YOUR_MANAGEMENT_URL> --setup-key <YOUR_SETUP_KEY>\n\n"+
"More info: https://docs.netbird.io/how-to/register-machines-using-setup-keys\n\n",
resp.GetStatus(),
)
return nil
}
if ipv4Flag {
cmd.Print(parseInterfaceIP(resp.GetFullStatus().GetLocalPeerState().GetIP()))
return nil
}
outputInformationHolder := convertToStatusOutputOverview(resp)
var statusOutputString string
switch {
case detailFlag:
statusOutputString = parseToFullDetailSummary(outputInformationHolder)
case jsonFlag:
statusOutputString, err = parseToJSON(outputInformationHolder)
case yamlFlag:
statusOutputString, err = parseToYAML(outputInformationHolder)
default:
statusOutputString = parseGeneralSummary(outputInformationHolder, false, false, false)
}
if err != nil {
return err
}
cmd.Print(statusOutputString)
return nil
}
func getStatus(ctx context.Context) (*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(ctx, &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":
if strings.ToLower(statusFilter) != "" {
enableDetailFlagWhenFilterFlag()
}
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{}{}
enableDetailFlagWhenFilterFlag()
}
}
if len(prefixNamesFilter) > 0 {
for _, name := range prefixNamesFilter {
prefixNamesFilterMap[strings.ToLower(name)] = struct{}{}
}
enableDetailFlagWhenFilterFlag()
}
return nil
}
func enableDetailFlagWhenFilterFlag() {
if !detailFlag && !jsonFlag && !yamlFlag {
detailFlag = true
}
}
func convertToStatusOutputOverview(resp *proto.StatusResponse) statusOutputOverview {
pbFullStatus := resp.GetFullStatus()
managementState := pbFullStatus.GetManagementState()
managementOverview := managementStateOutput{
URL: managementState.GetURL(),
Connected: managementState.GetConnected(),
Error: managementState.Error,
}
signalState := pbFullStatus.GetSignalState()
signalOverview := signalStateOutput{
URL: signalState.GetURL(),
Connected: signalState.GetConnected(),
Error: signalState.Error,
}
relayOverview := mapRelays(pbFullStatus.GetRelays())
peersOverview := mapPeers(resp.GetFullStatus().GetPeers())
overview := statusOutputOverview{
Peers: peersOverview,
CliVersion: version.NetbirdVersion(),
DaemonVersion: resp.GetDaemonVersion(),
ManagementState: managementOverview,
SignalState: signalOverview,
Relays: relayOverview,
IP: pbFullStatus.GetLocalPeerState().GetIP(),
PubKey: pbFullStatus.GetLocalPeerState().GetPubKey(),
KernelInterface: pbFullStatus.GetLocalPeerState().GetKernelInterface(),
FQDN: pbFullStatus.GetLocalPeerState().GetFqdn(),
RosenpassEnabled: pbFullStatus.GetLocalPeerState().GetRosenpassEnabled(),
RosenpassPermissive: pbFullStatus.GetLocalPeerState().GetRosenpassPermissive(),
Routes: pbFullStatus.GetLocalPeerState().GetRoutes(),
NSServerGroups: mapNSGroups(pbFullStatus.GetDnsServers()),
}
if anonymizeFlag {
anonymizer := anonymize.NewAnonymizer(anonymize.DefaultAddresses())
anonymizeOverview(anonymizer, &overview)
}
return overview
}
func mapRelays(relays []*proto.RelayState) relayStateOutput {
var relayStateDetail []relayStateOutputDetail
var relaysAvailable int
for _, relay := range relays {
available := relay.GetAvailable()
relayStateDetail = append(relayStateDetail,
relayStateOutputDetail{
URI: relay.URI,
Available: available,
Error: relay.GetError(),
},
)
if available {
relaysAvailable++
}
}
return relayStateOutput{
Total: len(relays),
Available: relaysAvailable,
Details: relayStateDetail,
}
}
func mapNSGroups(servers []*proto.NSGroupState) []nsServerGroupStateOutput {
mappedNSGroups := make([]nsServerGroupStateOutput, 0, len(servers))
for _, pbNsGroupServer := range servers {
mappedNSGroups = append(mappedNSGroups, nsServerGroupStateOutput{
Servers: pbNsGroupServer.GetServers(),
Domains: pbNsGroupServer.GetDomains(),
Enabled: pbNsGroupServer.GetEnabled(),
Error: pbNsGroupServer.GetError(),
})
}
return mappedNSGroups
}
func mapPeers(peers []*proto.PeerState) peersStateOutput {
var peersStateDetail []peerStateDetailOutput
localICE := ""
remoteICE := ""
localICEEndpoint := ""
remoteICEEndpoint := ""
connType := ""
peersConnected := 0
lastHandshake := time.Time{}
transferReceived := int64(0)
transferSent := int64(0)
for _, pbPeerState := range peers {
isPeerConnected := pbPeerState.ConnStatus == peer.StatusConnected.String()
if skipDetailByFilters(pbPeerState, isPeerConnected) {
continue
}
if isPeerConnected {
peersConnected++
localICE = pbPeerState.GetLocalIceCandidateType()
remoteICE = pbPeerState.GetRemoteIceCandidateType()
localICEEndpoint = pbPeerState.GetLocalIceCandidateEndpoint()
remoteICEEndpoint = pbPeerState.GetRemoteIceCandidateEndpoint()
connType = "P2P"
if pbPeerState.Relayed {
connType = "Relayed"
}
lastHandshake = pbPeerState.GetLastWireguardHandshake().AsTime().Local()
transferReceived = pbPeerState.GetBytesRx()
transferSent = pbPeerState.GetBytesTx()
}
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,
},
IceCandidateEndpoint: iceCandidateType{
Local: localICEEndpoint,
Remote: remoteICEEndpoint,
},
FQDN: pbPeerState.GetFqdn(),
LastWireguardHandshake: lastHandshake,
TransferReceived: transferReceived,
TransferSent: transferSent,
Latency: pbPeerState.GetLatency().AsDuration(),
RosenpassEnabled: pbPeerState.GetRosenpassEnabled(),
Routes: pbPeerState.GetRoutes(),
}
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, showRelays bool, showNameServers bool) string {
var managementConnString string
if overview.ManagementState.Connected {
managementConnString = "Connected"
if showURL {
managementConnString = fmt.Sprintf("%s to %s", managementConnString, overview.ManagementState.URL)
}
} else {
managementConnString = "Disconnected"
if overview.ManagementState.Error != "" {
managementConnString = fmt.Sprintf("%s, reason: %s", managementConnString, overview.ManagementState.Error)
}
}
var signalConnString string
if overview.SignalState.Connected {
signalConnString = "Connected"
if showURL {
signalConnString = fmt.Sprintf("%s to %s", signalConnString, overview.SignalState.URL)
}
} else {
signalConnString = "Disconnected"
if overview.SignalState.Error != "" {
signalConnString = fmt.Sprintf("%s, reason: %s", signalConnString, overview.SignalState.Error)
}
}
interfaceTypeString := "Userspace"
interfaceIP := overview.IP
if overview.KernelInterface {
interfaceTypeString = "Kernel"
} else if overview.IP == "" {
interfaceTypeString = "N/A"
interfaceIP = "N/A"
}
var relaysString string
if showRelays {
for _, relay := range overview.Relays.Details {
available := "Available"
reason := ""
if !relay.Available {
available = "Unavailable"
reason = fmt.Sprintf(", reason: %s", relay.Error)
}
relaysString += fmt.Sprintf("\n [%s] is %s%s", relay.URI, available, reason)
}
} else {
relaysString = fmt.Sprintf("%d/%d Available", overview.Relays.Available, overview.Relays.Total)
}
routes := "-"
if len(overview.Routes) > 0 {
sort.Strings(overview.Routes)
routes = strings.Join(overview.Routes, ", ")
}
var dnsServersString string
if showNameServers {
for _, nsServerGroup := range overview.NSServerGroups {
enabled := "Available"
if !nsServerGroup.Enabled {
enabled = "Unavailable"
}
errorString := ""
if nsServerGroup.Error != "" {
errorString = fmt.Sprintf(", reason: %s", nsServerGroup.Error)
errorString = strings.TrimSpace(errorString)
}
domainsString := strings.Join(nsServerGroup.Domains, ", ")
if domainsString == "" {
domainsString = "." // Show "." for the default zone
}
dnsServersString += fmt.Sprintf(
"\n [%s] for [%s] is %s%s",
strings.Join(nsServerGroup.Servers, ", "),
domainsString,
enabled,
errorString,
)
}
} else {
dnsServersString = fmt.Sprintf("%d/%d Available", countEnabled(overview.NSServerGroups), len(overview.NSServerGroups))
}
rosenpassEnabledStatus := "false"
if overview.RosenpassEnabled {
rosenpassEnabledStatus = "true"
if overview.RosenpassPermissive {
rosenpassEnabledStatus = "true (permissive)" //nolint:gosec
}
}
peersCountString := fmt.Sprintf("%d/%d Connected", overview.Peers.Connected, overview.Peers.Total)
goos := runtime.GOOS
goarch := runtime.GOARCH
goarm := ""
if goarch == "arm" {
goarm = fmt.Sprintf(" (ARMv%s)", os.Getenv("GOARM"))
}
summary := fmt.Sprintf(
"OS: %s\n"+
"Daemon version: %s\n"+
"CLI version: %s\n"+
"Management: %s\n"+
"Signal: %s\n"+
"Relays: %s\n"+
"Nameservers: %s\n"+
"FQDN: %s\n"+
"NetBird IP: %s\n"+
"Interface type: %s\n"+
"Quantum resistance: %s\n"+
"Routes: %s\n"+
"Peers count: %s\n",
fmt.Sprintf("%s/%s%s", goos, goarch, goarm),
overview.DaemonVersion,
version.NetbirdVersion(),
managementConnString,
signalConnString,
relaysString,
dnsServersString,
overview.FQDN,
interfaceIP,
interfaceTypeString,
rosenpassEnabledStatus,
routes,
peersCountString,
)
return summary
}
func parseToFullDetailSummary(overview statusOutputOverview) string {
parsedPeersString := parsePeers(overview.Peers, overview.RosenpassEnabled, overview.RosenpassPermissive)
summary := parseGeneralSummary(overview, true, true, true)
return fmt.Sprintf(
"Peers detail:"+
"%s\n"+
"%s",
parsedPeersString,
summary,
)
}
func parsePeers(peers peersStateOutput, rosenpassEnabled, rosenpassPermissive bool) 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
}
localICEEndpoint := "-"
if peerState.IceCandidateEndpoint.Local != "" {
localICEEndpoint = peerState.IceCandidateEndpoint.Local
}
remoteICEEndpoint := "-"
if peerState.IceCandidateEndpoint.Remote != "" {
remoteICEEndpoint = peerState.IceCandidateEndpoint.Remote
}
rosenpassEnabledStatus := "false"
if rosenpassEnabled {
if peerState.RosenpassEnabled {
rosenpassEnabledStatus = "true"
} else {
if rosenpassPermissive {
rosenpassEnabledStatus = "false (remote didn't enable quantum resistance)"
} else {
rosenpassEnabledStatus = "false (connection won't work without a permissive mode)"
}
}
} else {
if peerState.RosenpassEnabled {
rosenpassEnabledStatus = "false (connection might not work without a remote permissive mode)"
}
}
routes := "-"
if len(peerState.Routes) > 0 {
sort.Strings(peerState.Routes)
routes = strings.Join(peerState.Routes, ", ")
}
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"+
" ICE candidate endpoints (Local/Remote): %s/%s\n"+
" Last connection update: %s\n"+
" Last WireGuard handshake: %s\n"+
" Transfer status (received/sent) %s/%s\n"+
" Quantum resistance: %s\n"+
" Routes: %s\n"+
" Latency: %s\n",
peerState.FQDN,
peerState.IP,
peerState.PubKey,
peerState.Status,
peerState.ConnType,
peerState.Direct,
localICE,
remoteICE,
localICEEndpoint,
remoteICEEndpoint,
timeAgo(peerState.LastStatusUpdate),
timeAgo(peerState.LastWireguardHandshake),
toIEC(peerState.TransferReceived),
toIEC(peerState.TransferSent),
rosenpassEnabledStatus,
routes,
peerState.Latency.String(),
)
peersString += peerString
}
return peersString
}
func skipDetailByFilters(peerState *proto.PeerState, isConnected bool) bool {
statusEval := false
ipEval := false
nameEval := 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
}
}
if len(prefixNamesFilter) > 0 {
for prefixNameFilter := range prefixNamesFilterMap {
if !strings.HasPrefix(peerState.Fqdn, prefixNameFilter) {
nameEval = true
break
}
}
}
return statusEval || ipEval || nameEval
}
func toIEC(b int64) string {
const unit = 1024
if b < unit {
return fmt.Sprintf("%d B", b)
}
div, exp := int64(unit), 0
for n := b / unit; n >= unit; n /= unit {
div *= unit
exp++
}
return fmt.Sprintf("%.1f %ciB",
float64(b)/float64(div), "KMGTPE"[exp])
}
func countEnabled(dnsServers []nsServerGroupStateOutput) int {
count := 0
for _, server := range dnsServers {
if server.Enabled {
count++
}
}
return count
}
// timeAgo returns a string representing the duration since the provided time in a human-readable format.
func timeAgo(t time.Time) string {
if t.IsZero() || t.Equal(time.Unix(0, 0)) {
return "-"
}
duration := time.Since(t)
switch {
case duration < time.Second:
return "Now"
case duration < time.Minute:
seconds := int(duration.Seconds())
if seconds == 1 {
return "1 second ago"
}
return fmt.Sprintf("%d seconds ago", seconds)
case duration < time.Hour:
minutes := int(duration.Minutes())
seconds := int(duration.Seconds()) % 60
if minutes == 1 {
if seconds == 1 {
return "1 minute, 1 second ago"
} else if seconds > 0 {
return fmt.Sprintf("1 minute, %d seconds ago", seconds)
}
return "1 minute ago"
}
if seconds > 0 {
return fmt.Sprintf("%d minutes, %d seconds ago", minutes, seconds)
}
return fmt.Sprintf("%d minutes ago", minutes)
case duration < 24*time.Hour:
hours := int(duration.Hours())
minutes := int(duration.Minutes()) % 60
if hours == 1 {
if minutes == 1 {
return "1 hour, 1 minute ago"
} else if minutes > 0 {
return fmt.Sprintf("1 hour, %d minutes ago", minutes)
}
return "1 hour ago"
}
if minutes > 0 {
return fmt.Sprintf("%d hours, %d minutes ago", hours, minutes)
}
return fmt.Sprintf("%d hours ago", hours)
}
days := int(duration.Hours()) / 24
hours := int(duration.Hours()) % 24
if days == 1 {
if hours == 1 {
return "1 day, 1 hour ago"
} else if hours > 0 {
return fmt.Sprintf("1 day, %d hours ago", hours)
}
return "1 day ago"
}
if hours > 0 {
return fmt.Sprintf("%d days, %d hours ago", days, hours)
}
return fmt.Sprintf("%d days ago", days)
}
func anonymizePeerDetail(a *anonymize.Anonymizer, peer *peerStateDetailOutput) {
peer.FQDN = a.AnonymizeDomain(peer.FQDN)
if localIP, port, err := net.SplitHostPort(peer.IceCandidateEndpoint.Local); err == nil {
peer.IceCandidateEndpoint.Local = fmt.Sprintf("%s:%s", a.AnonymizeIPString(localIP), port)
}
if remoteIP, port, err := net.SplitHostPort(peer.IceCandidateEndpoint.Remote); err == nil {
peer.IceCandidateEndpoint.Remote = fmt.Sprintf("%s:%s", a.AnonymizeIPString(remoteIP), port)
}
for i, route := range peer.Routes {
peer.Routes[i] = a.AnonymizeIPString(route)
}
for i, route := range peer.Routes {
peer.Routes[i] = anonymizeRoute(a, route)
}
}
func anonymizeOverview(a *anonymize.Anonymizer, overview *statusOutputOverview) {
for i, peer := range overview.Peers.Details {
peer := peer
anonymizePeerDetail(a, &peer)
overview.Peers.Details[i] = peer
}
overview.ManagementState.URL = a.AnonymizeURI(overview.ManagementState.URL)
overview.ManagementState.Error = a.AnonymizeString(overview.ManagementState.Error)
overview.SignalState.URL = a.AnonymizeURI(overview.SignalState.URL)
overview.SignalState.Error = a.AnonymizeString(overview.SignalState.Error)
overview.IP = a.AnonymizeIPString(overview.IP)
for i, detail := range overview.Relays.Details {
detail.URI = a.AnonymizeURI(detail.URI)
detail.Error = a.AnonymizeString(detail.Error)
overview.Relays.Details[i] = detail
}
for i, nsGroup := range overview.NSServerGroups {
for j, domain := range nsGroup.Domains {
overview.NSServerGroups[i].Domains[j] = a.AnonymizeDomain(domain)
}
for j, ns := range nsGroup.Servers {
host, port, err := net.SplitHostPort(ns)
if err == nil {
overview.NSServerGroups[i].Servers[j] = fmt.Sprintf("%s:%s", a.AnonymizeIPString(host), port)
}
}
}
for i, route := range overview.Routes {
overview.Routes[i] = anonymizeRoute(a, route)
}
overview.FQDN = a.AnonymizeDomain(overview.FQDN)
}
func anonymizeRoute(a *anonymize.Anonymizer, route string) string {
prefix, err := netip.ParsePrefix(route)
if err == nil {
ip := a.AnonymizeIPString(prefix.Addr().String())
return fmt.Sprintf("%s/%d", ip, prefix.Bits())
}
domains := strings.Split(route, ", ")
for i, domain := range domains {
domains[i] = a.AnonymizeDomain(domain)
}
return strings.Join(domains, ", ")
}
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