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[client] Add netbird ui improvements (#3222)

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Viktor Liu 2025-02-21 16:29:21 +01:00 committed by GitHub
parent f00a997167
commit b307298b2f
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GPG Key ID: B5690EEEBB952194
30 changed files with 1984 additions and 1529 deletions
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13
client/cmd/debug.go
View File

@ -13,6 +13,7 @@ import (
"github.com/netbirdio/netbird/client/internal"
"github.com/netbirdio/netbird/client/proto"
"github.com/netbirdio/netbird/client/server"
nbstatus "github.com/netbirdio/netbird/client/status"
)
const errCloseConnection = "Failed to close connection: %v"
@ -85,7 +86,7 @@ func debugBundle(cmd *cobra.Command, _ []string) error {
client := proto.NewDaemonServiceClient(conn)
resp, err := client.DebugBundle(cmd.Context(), &proto.DebugBundleRequest{
Anonymize: anonymizeFlag,
Status: getStatusOutput(cmd),
Status: getStatusOutput(cmd, anonymizeFlag),
SystemInfo: debugSystemInfoFlag,
})
if err != nil {
@ -196,7 +197,7 @@ func runForDuration(cmd *cobra.Command, args []string) error {
time.Sleep(3 * time.Second)
headerPostUp := fmt.Sprintf("----- Netbird post-up - Timestamp: %s", time.Now().Format(time.RFC3339))
statusOutput := fmt.Sprintf("%s\n%s", headerPostUp, getStatusOutput(cmd))
statusOutput := fmt.Sprintf("%s\n%s", headerPostUp, getStatusOutput(cmd, anonymizeFlag))
if waitErr := waitForDurationOrCancel(cmd.Context(), duration, cmd); waitErr != nil {
return waitErr
@ -206,7 +207,7 @@ func runForDuration(cmd *cobra.Command, args []string) error {
cmd.Println("Creating debug bundle...")
headerPreDown := fmt.Sprintf("----- Netbird pre-down - Timestamp: %s - Duration: %s", time.Now().Format(time.RFC3339), duration)
statusOutput = fmt.Sprintf("%s\n%s\n%s", statusOutput, headerPreDown, getStatusOutput(cmd))
statusOutput = fmt.Sprintf("%s\n%s\n%s", statusOutput, headerPreDown, getStatusOutput(cmd, anonymizeFlag))
resp, err := client.DebugBundle(cmd.Context(), &proto.DebugBundleRequest{
Anonymize: anonymizeFlag,
@ -271,13 +272,15 @@ func setNetworkMapPersistence(cmd *cobra.Command, args []string) error {
return nil
}
func getStatusOutput(cmd *cobra.Command) string {
func getStatusOutput(cmd *cobra.Command, anon bool) string {
var statusOutputString string
statusResp, err := getStatus(cmd.Context())
if err != nil {
cmd.PrintErrf("Failed to get status: %v\n", err)
} else {
statusOutputString = parseToFullDetailSummary(convertToStatusOutputOverview(statusResp))
statusOutputString = nbstatus.ParseToFullDetailSummary(
nbstatus.ConvertToStatusOutputOverview(statusResp, anon, "", nil, nil, nil),
)
}
return statusOutputString
}

714
client/cmd/status.go
View File

@ -2,106 +2,20 @@ 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"
nbstatus "github.com/netbirdio/netbird/client/status"
"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"`
IceCandidateType iceCandidateType `json:"iceCandidateType" yaml:"iceCandidateType"`
IceCandidateEndpoint iceCandidateType `json:"iceCandidateEndpoint" yaml:"iceCandidateEndpoint"`
RelayAddress string `json:"relayAddress" yaml:"relayAddress"`
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"`
Networks []string `json:"networks" yaml:"networks"`
}
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"`
Networks []string `json:"networks" yaml:"networks"`
NSServerGroups []nsServerGroupStateOutput `json:"dnsServers" yaml:"dnsServers"`
Events []systemEventOutput `json:"events" yaml:"events"`
}
var (
detailFlag bool
ipv4Flag bool
@ -172,18 +86,17 @@ func statusFunc(cmd *cobra.Command, args []string) error {
return nil
}
outputInformationHolder := convertToStatusOutputOverview(resp)
var outputInformationHolder = nbstatus.ConvertToStatusOutputOverview(resp, anonymizeFlag, statusFilter, prefixNamesFilter, prefixNamesFilterMap, ipsFilterMap)
var statusOutputString string
switch {
case detailFlag:
statusOutputString = parseToFullDetailSummary(outputInformationHolder)
statusOutputString = nbstatus.ParseToFullDetailSummary(outputInformationHolder)
case jsonFlag:
statusOutputString, err = parseToJSON(outputInformationHolder)
statusOutputString, err = nbstatus.ParseToJSON(outputInformationHolder)
case yamlFlag:
statusOutputString, err = parseToYAML(outputInformationHolder)
statusOutputString, err = nbstatus.ParseToYAML(outputInformationHolder)
default:
statusOutputString = parseGeneralSummary(outputInformationHolder, false, false, false)
statusOutputString = nbstatus.ParseGeneralSummary(outputInformationHolder, false, false, false)
}
if err != nil {
@ -213,7 +126,6 @@ func getStatus(ctx context.Context) (*proto.StatusResponse, error) {
}
func parseFilters() error {
switch strings.ToLower(statusFilter) {
case "", "disconnected", "connected":
if strings.ToLower(statusFilter) != "" {
@ -250,174 +162,6 @@ func enableDetailFlagWhenFilterFlag() {
}
}
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(),
Networks: pbFullStatus.GetLocalPeerState().GetNetworks(),
NSServerGroups: mapNSGroups(pbFullStatus.GetDnsServers()),
Events: mapEvents(pbFullStatus.GetEvents()),
}
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
peersConnected := 0
for _, pbPeerState := range peers {
localICE := ""
remoteICE := ""
localICEEndpoint := ""
remoteICEEndpoint := ""
relayServerAddress := ""
connType := ""
lastHandshake := time.Time{}
transferReceived := int64(0)
transferSent := int64(0)
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"
}
relayServerAddress = pbPeerState.GetRelayAddress()
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,
IceCandidateType: iceCandidateType{
Local: localICE,
Remote: remoteICE,
},
IceCandidateEndpoint: iceCandidateType{
Local: localICEEndpoint,
Remote: remoteICEEndpoint,
},
RelayAddress: relayServerAddress,
FQDN: pbPeerState.GetFqdn(),
LastWireguardHandshake: lastHandshake,
TransferReceived: transferReceived,
TransferSent: transferSent,
Latency: pbPeerState.GetLatency().AsDuration(),
RosenpassEnabled: pbPeerState.GetRosenpassEnabled(),
Networks: pbPeerState.GetNetworks(),
}
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 {
@ -425,449 +169,3 @@ func parseInterfaceIP(interfaceIP string) string {
}
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)
}
networks := "-"
if len(overview.Networks) > 0 {
sort.Strings(overview.Networks)
networks = strings.Join(overview.Networks, ", ")
}
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"+
"Networks: %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,
networks,
peersCountString,
)
return summary
}
func parseToFullDetailSummary(overview statusOutputOverview) string {
parsedPeersString := parsePeers(overview.Peers, overview.RosenpassEnabled, overview.RosenpassPermissive)
parsedEventsString := parseEvents(overview.Events)
summary := parseGeneralSummary(overview, true, true, true)
return fmt.Sprintf(
"Peers detail:"+
"%s\n"+
"Events:"+
"%s\n"+
"%s",
parsedPeersString,
parsedEventsString,
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)"
}
}
networks := "-"
if len(peerState.Networks) > 0 {
sort.Strings(peerState.Networks)
networks = strings.Join(peerState.Networks, ", ")
}
peerString := fmt.Sprintf(
"\n %s:\n"+
" NetBird IP: %s\n"+
" Public key: %s\n"+
" Status: %s\n"+
" -- detail --\n"+
" Connection type: %s\n"+
" ICE candidate (Local/Remote): %s/%s\n"+
" ICE candidate endpoints (Local/Remote): %s/%s\n"+
" Relay server address: %s\n"+
" Last connection update: %s\n"+
" Last WireGuard handshake: %s\n"+
" Transfer status (received/sent) %s/%s\n"+
" Quantum resistance: %s\n"+
" Networks: %s\n"+
" Latency: %s\n",
peerState.FQDN,
peerState.IP,
peerState.PubKey,
peerState.Status,
peerState.ConnType,
localICE,
remoteICE,
localICEEndpoint,
remoteICEEndpoint,
peerState.RelayAddress,
timeAgo(peerState.LastStatusUpdate),
timeAgo(peerState.LastWireguardHandshake),
toIEC(peerState.TransferReceived),
toIEC(peerState.TransferSent),
rosenpassEnabledStatus,
networks,
peerState.Latency.String(),
)
peersString += peerString
}
return peersString
}
func skipDetailByFilters(peerState *proto.PeerState, isConnected bool) bool {
statusEval := false
ipEval := false
nameEval := true
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 = false
break
}
}
} else {
nameEval = false
}
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)
}
peer.RelayAddress = a.AnonymizeURI(peer.RelayAddress)
for i, route := range peer.Networks {
peer.Networks[i] = a.AnonymizeIPString(route)
}
for i, route := range peer.Networks {
peer.Networks[i] = a.AnonymizeRoute(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.Networks {
overview.Networks[i] = a.AnonymizeRoute(route)
}
overview.FQDN = a.AnonymizeDomain(overview.FQDN)
for i, event := range overview.Events {
overview.Events[i].Message = a.AnonymizeString(event.Message)
overview.Events[i].UserMessage = a.AnonymizeString(event.UserMessage)
for k, v := range event.Metadata {
event.Metadata[k] = a.AnonymizeString(v)
}
}
}

596
client/cmd/status_test.go
View File

@ -1,579 +1,11 @@
package cmd
import (
"bytes"
"encoding/json"
"fmt"
"runtime"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"google.golang.org/protobuf/types/known/durationpb"
"google.golang.org/protobuf/types/known/timestamppb"
"github.com/netbirdio/netbird/client/proto"
"github.com/netbirdio/netbird/version"
)
func init() {
loc, err := time.LoadLocation("UTC")
if err != nil {
panic(err)
}
time.Local = loc
}
var resp = &proto.StatusResponse{
Status: "Connected",
FullStatus: &proto.FullStatus{
Peers: []*proto.PeerState{
{
IP: "192.168.178.101",
PubKey: "Pubkey1",
Fqdn: "peer-1.awesome-domain.com",
ConnStatus: "Connected",
ConnStatusUpdate: timestamppb.New(time.Date(2001, time.Month(1), 1, 1, 1, 1, 0, time.UTC)),
Relayed: false,
LocalIceCandidateType: "",
RemoteIceCandidateType: "",
LocalIceCandidateEndpoint: "",
RemoteIceCandidateEndpoint: "",
LastWireguardHandshake: timestamppb.New(time.Date(2001, time.Month(1), 1, 1, 1, 2, 0, time.UTC)),
BytesRx: 200,
BytesTx: 100,
Networks: []string{
"10.1.0.0/24",
},
Latency: durationpb.New(time.Duration(10000000)),
},
{
IP: "192.168.178.102",
PubKey: "Pubkey2",
Fqdn: "peer-2.awesome-domain.com",
ConnStatus: "Connected",
ConnStatusUpdate: timestamppb.New(time.Date(2002, time.Month(2), 2, 2, 2, 2, 0, time.UTC)),
Relayed: true,
LocalIceCandidateType: "relay",
RemoteIceCandidateType: "prflx",
LocalIceCandidateEndpoint: "10.0.0.1:10001",
RemoteIceCandidateEndpoint: "10.0.10.1:10002",
LastWireguardHandshake: timestamppb.New(time.Date(2002, time.Month(2), 2, 2, 2, 3, 0, time.UTC)),
BytesRx: 2000,
BytesTx: 1000,
Latency: durationpb.New(time.Duration(10000000)),
},
},
ManagementState: &proto.ManagementState{
URL: "my-awesome-management.com:443",
Connected: true,
Error: "",
},
SignalState: &proto.SignalState{
URL: "my-awesome-signal.com:443",
Connected: true,
Error: "",
},
Relays: []*proto.RelayState{
{
URI: "stun:my-awesome-stun.com:3478",
Available: true,
Error: "",
},
{
URI: "turns:my-awesome-turn.com:443?transport=tcp",
Available: false,
Error: "context: deadline exceeded",
},
},
LocalPeerState: &proto.LocalPeerState{
IP: "192.168.178.100/16",
PubKey: "Some-Pub-Key",
KernelInterface: true,
Fqdn: "some-localhost.awesome-domain.com",
Networks: []string{
"10.10.0.0/24",
},
},
DnsServers: []*proto.NSGroupState{
{
Servers: []string{
"8.8.8.8:53",
},
Domains: nil,
Enabled: true,
Error: "",
},
{
Servers: []string{
"1.1.1.1:53",
"2.2.2.2:53",
},
Domains: []string{
"example.com",
"example.net",
},
Enabled: false,
Error: "timeout",
},
},
},
DaemonVersion: "0.14.1",
}
var overview = statusOutputOverview{
Peers: peersStateOutput{
Total: 2,
Connected: 2,
Details: []peerStateDetailOutput{
{
IP: "192.168.178.101",
PubKey: "Pubkey1",
FQDN: "peer-1.awesome-domain.com",
Status: "Connected",
LastStatusUpdate: time.Date(2001, 1, 1, 1, 1, 1, 0, time.UTC),
ConnType: "P2P",
IceCandidateType: iceCandidateType{
Local: "",
Remote: "",
},
IceCandidateEndpoint: iceCandidateType{
Local: "",
Remote: "",
},
LastWireguardHandshake: time.Date(2001, 1, 1, 1, 1, 2, 0, time.UTC),
TransferReceived: 200,
TransferSent: 100,
Networks: []string{
"10.1.0.0/24",
},
Latency: time.Duration(10000000),
},
{
IP: "192.168.178.102",
PubKey: "Pubkey2",
FQDN: "peer-2.awesome-domain.com",
Status: "Connected",
LastStatusUpdate: time.Date(2002, 2, 2, 2, 2, 2, 0, time.UTC),
ConnType: "Relayed",
IceCandidateType: iceCandidateType{
Local: "relay",
Remote: "prflx",
},
IceCandidateEndpoint: iceCandidateType{
Local: "10.0.0.1:10001",
Remote: "10.0.10.1:10002",
},
LastWireguardHandshake: time.Date(2002, 2, 2, 2, 2, 3, 0, time.UTC),
TransferReceived: 2000,
TransferSent: 1000,
Latency: time.Duration(10000000),
},
},
},
Events: []systemEventOutput{},
CliVersion: version.NetbirdVersion(),
DaemonVersion: "0.14.1",
ManagementState: managementStateOutput{
URL: "my-awesome-management.com:443",
Connected: true,
Error: "",
},
SignalState: signalStateOutput{
URL: "my-awesome-signal.com:443",
Connected: true,
Error: "",
},
Relays: relayStateOutput{
Total: 2,
Available: 1,
Details: []relayStateOutputDetail{
{
URI: "stun:my-awesome-stun.com:3478",
Available: true,
Error: "",
},
{
URI: "turns:my-awesome-turn.com:443?transport=tcp",
Available: false,
Error: "context: deadline exceeded",
},
},
},
IP: "192.168.178.100/16",
PubKey: "Some-Pub-Key",
KernelInterface: true,
FQDN: "some-localhost.awesome-domain.com",
NSServerGroups: []nsServerGroupStateOutput{
{
Servers: []string{
"8.8.8.8:53",
},
Domains: nil,
Enabled: true,
Error: "",
},
{
Servers: []string{
"1.1.1.1:53",
"2.2.2.2:53",
},
Domains: []string{
"example.com",
"example.net",
},
Enabled: false,
Error: "timeout",
},
},
Networks: []string{
"10.10.0.0/24",
},
}
func TestConversionFromFullStatusToOutputOverview(t *testing.T) {
convertedResult := convertToStatusOutputOverview(resp)
assert.Equal(t, overview, convertedResult)
}
func TestSortingOfPeers(t *testing.T) {
peers := []peerStateDetailOutput{
{
IP: "192.168.178.104",
},
{
IP: "192.168.178.102",
},
{
IP: "192.168.178.101",
},
{
IP: "192.168.178.105",
},
{
IP: "192.168.178.103",
},
}
sortPeersByIP(peers)
assert.Equal(t, peers[3].IP, "192.168.178.104")
}
func TestParsingToJSON(t *testing.T) {
jsonString, _ := parseToJSON(overview)
//@formatter:off
expectedJSONString := `
{
"peers": {
"total": 2,
"connected": 2,
"details": [
{
"fqdn": "peer-1.awesome-domain.com",
"netbirdIp": "192.168.178.101",
"publicKey": "Pubkey1",
"status": "Connected",
"lastStatusUpdate": "2001-01-01T01:01:01Z",
"connectionType": "P2P",
"iceCandidateType": {
"local": "",
"remote": ""
},
"iceCandidateEndpoint": {
"local": "",
"remote": ""
},
"relayAddress": "",
"lastWireguardHandshake": "2001-01-01T01:01:02Z",
"transferReceived": 200,
"transferSent": 100,
"latency": 10000000,
"quantumResistance": false,
"networks": [
"10.1.0.0/24"
]
},
{
"fqdn": "peer-2.awesome-domain.com",
"netbirdIp": "192.168.178.102",
"publicKey": "Pubkey2",
"status": "Connected",
"lastStatusUpdate": "2002-02-02T02:02:02Z",
"connectionType": "Relayed",
"iceCandidateType": {
"local": "relay",
"remote": "prflx"
},
"iceCandidateEndpoint": {
"local": "10.0.0.1:10001",
"remote": "10.0.10.1:10002"
},
"relayAddress": "",
"lastWireguardHandshake": "2002-02-02T02:02:03Z",
"transferReceived": 2000,
"transferSent": 1000,
"latency": 10000000,
"quantumResistance": false,
"networks": null
}
]
},
"cliVersion": "development",
"daemonVersion": "0.14.1",
"management": {
"url": "my-awesome-management.com:443",
"connected": true,
"error": ""
},
"signal": {
"url": "my-awesome-signal.com:443",
"connected": true,
"error": ""
},
"relays": {
"total": 2,
"available": 1,
"details": [
{
"uri": "stun:my-awesome-stun.com:3478",
"available": true,
"error": ""
},
{
"uri": "turns:my-awesome-turn.com:443?transport=tcp",
"available": false,
"error": "context: deadline exceeded"
}
]
},
"netbirdIp": "192.168.178.100/16",
"publicKey": "Some-Pub-Key",
"usesKernelInterface": true,
"fqdn": "some-localhost.awesome-domain.com",
"quantumResistance": false,
"quantumResistancePermissive": false,
"networks": [
"10.10.0.0/24"
],
"dnsServers": [
{
"servers": [
"8.8.8.8:53"
],
"domains": null,
"enabled": true,
"error": ""
},
{
"servers": [
"1.1.1.1:53",
"2.2.2.2:53"
],
"domains": [
"example.com",
"example.net"
],
"enabled": false,
"error": "timeout"
}
],
"events": []
}`
// @formatter:on
var expectedJSON bytes.Buffer
require.NoError(t, json.Compact(&expectedJSON, []byte(expectedJSONString)))
assert.Equal(t, expectedJSON.String(), jsonString)
}
func TestParsingToYAML(t *testing.T) {
yaml, _ := parseToYAML(overview)
expectedYAML :=
`peers:
total: 2
connected: 2
details:
- fqdn: peer-1.awesome-domain.com
netbirdIp: 192.168.178.101
publicKey: Pubkey1
status: Connected
lastStatusUpdate: 2001-01-01T01:01:01Z
connectionType: P2P
iceCandidateType:
local: ""
remote: ""
iceCandidateEndpoint:
local: ""
remote: ""
relayAddress: ""
lastWireguardHandshake: 2001-01-01T01:01:02Z
transferReceived: 200
transferSent: 100
latency: 10ms
quantumResistance: false
networks:
- 10.1.0.0/24
- fqdn: peer-2.awesome-domain.com
netbirdIp: 192.168.178.102
publicKey: Pubkey2
status: Connected
lastStatusUpdate: 2002-02-02T02:02:02Z
connectionType: Relayed
iceCandidateType:
local: relay
remote: prflx
iceCandidateEndpoint:
local: 10.0.0.1:10001
remote: 10.0.10.1:10002
relayAddress: ""
lastWireguardHandshake: 2002-02-02T02:02:03Z
transferReceived: 2000
transferSent: 1000
latency: 10ms
quantumResistance: false
networks: []
cliVersion: development
daemonVersion: 0.14.1
management:
url: my-awesome-management.com:443
connected: true
error: ""
signal:
url: my-awesome-signal.com:443
connected: true
error: ""
relays:
total: 2
available: 1
details:
- uri: stun:my-awesome-stun.com:3478
available: true
error: ""
- uri: turns:my-awesome-turn.com:443?transport=tcp
available: false
error: 'context: deadline exceeded'
netbirdIp: 192.168.178.100/16
publicKey: Some-Pub-Key
usesKernelInterface: true
fqdn: some-localhost.awesome-domain.com
quantumResistance: false
quantumResistancePermissive: false
networks:
- 10.10.0.0/24
dnsServers:
- servers:
- 8.8.8.8:53
domains: []
enabled: true
error: ""
- servers:
- 1.1.1.1:53
- 2.2.2.2:53
domains:
- example.com
- example.net
enabled: false
error: timeout
events: []
`
assert.Equal(t, expectedYAML, yaml)
}
func TestParsingToDetail(t *testing.T) {
// Calculate time ago based on the fixture dates
lastConnectionUpdate1 := timeAgo(overview.Peers.Details[0].LastStatusUpdate)
lastHandshake1 := timeAgo(overview.Peers.Details[0].LastWireguardHandshake)
lastConnectionUpdate2 := timeAgo(overview.Peers.Details[1].LastStatusUpdate)
lastHandshake2 := timeAgo(overview.Peers.Details[1].LastWireguardHandshake)
detail := parseToFullDetailSummary(overview)
expectedDetail := fmt.Sprintf(
`Peers detail:
peer-1.awesome-domain.com:
NetBird IP: 192.168.178.101
Public key: Pubkey1
Status: Connected
-- detail --
Connection type: P2P
ICE candidate (Local/Remote): -/-
ICE candidate endpoints (Local/Remote): -/-
Relay server address:
Last connection update: %s
Last WireGuard handshake: %s
Transfer status (received/sent) 200 B/100 B
Quantum resistance: false
Networks: 10.1.0.0/24
Latency: 10ms
peer-2.awesome-domain.com:
NetBird IP: 192.168.178.102
Public key: Pubkey2
Status: Connected
-- detail --
Connection type: Relayed
ICE candidate (Local/Remote): relay/prflx
ICE candidate endpoints (Local/Remote): 10.0.0.1:10001/10.0.10.1:10002
Relay server address:
Last connection update: %s
Last WireGuard handshake: %s
Transfer status (received/sent) 2.0 KiB/1000 B
Quantum resistance: false
Networks: -
Latency: 10ms
Events: No events recorded
OS: %s/%s
Daemon version: 0.14.1
CLI version: %s
Management: Connected to my-awesome-management.com:443
Signal: Connected to my-awesome-signal.com:443
Relays:
[stun:my-awesome-stun.com:3478] is Available
[turns:my-awesome-turn.com:443?transport=tcp] is Unavailable, reason: context: deadline exceeded
Nameservers:
[8.8.8.8:53] for [.] is Available
[1.1.1.1:53, 2.2.2.2:53] for [example.com, example.net] is Unavailable, reason: timeout
FQDN: some-localhost.awesome-domain.com
NetBird IP: 192.168.178.100/16
Interface type: Kernel
Quantum resistance: false
Networks: 10.10.0.0/24
Peers count: 2/2 Connected
`, lastConnectionUpdate1, lastHandshake1, lastConnectionUpdate2, lastHandshake2, runtime.GOOS, runtime.GOARCH, overview.CliVersion)
assert.Equal(t, expectedDetail, detail)
}
func TestParsingToShortVersion(t *testing.T) {
shortVersion := parseGeneralSummary(overview, false, false, false)
expectedString := fmt.Sprintf("OS: %s/%s", runtime.GOOS, runtime.GOARCH) + `
Daemon version: 0.14.1
CLI version: development
Management: Connected
Signal: Connected
Relays: 1/2 Available
Nameservers: 1/2 Available
FQDN: some-localhost.awesome-domain.com
NetBird IP: 192.168.178.100/16
Interface type: Kernel
Quantum resistance: false
Networks: 10.10.0.0/24
Peers count: 2/2 Connected
`
assert.Equal(t, expectedString, shortVersion)
}
func TestParsingOfIP(t *testing.T) {
InterfaceIP := "192.168.178.123/16"
@ -581,31 +13,3 @@ func TestParsingOfIP(t *testing.T) {
assert.Equal(t, "192.168.178.123\n", parsedIP)
}
func TestTimeAgo(t *testing.T) {
now := time.Now()
cases := []struct {
name string
input time.Time
expected string
}{
{"Now", now, "Now"},
{"Seconds ago", now.Add(-10 * time.Second), "10 seconds ago"},
{"One minute ago", now.Add(-1 * time.Minute), "1 minute ago"},
{"Minutes and seconds ago", now.Add(-(1*time.Minute + 30*time.Second)), "1 minute, 30 seconds ago"},
{"One hour ago", now.Add(-1 * time.Hour), "1 hour ago"},
{"Hours and minutes ago", now.Add(-(2*time.Hour + 15*time.Minute)), "2 hours, 15 minutes ago"},
{"One day ago", now.Add(-24 * time.Hour), "1 day ago"},
{"Multiple days ago", now.Add(-(72*time.Hour + 20*time.Minute)), "3 days ago"},
{"Zero time", time.Time{}, "-"},
{"Unix zero time", time.Unix(0, 0), "-"},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
result := timeAgo(tc.input)
assert.Equal(t, tc.expected, result, "Failed %s", tc.name)
})
}
}

11
client/internal/connect.go
View File

@ -23,6 +23,7 @@ import (
"github.com/netbirdio/netbird/client/internal/listener"
"github.com/netbirdio/netbird/client/internal/peer"
"github.com/netbirdio/netbird/client/internal/stdnet"
cProto "github.com/netbirdio/netbird/client/proto"
"github.com/netbirdio/netbird/client/ssh"
"github.com/netbirdio/netbird/client/system"
mgm "github.com/netbirdio/netbird/management/client"
@ -104,6 +105,16 @@ func (c *ConnectClient) RunOniOS(
func (c *ConnectClient) run(mobileDependency MobileDependency, runningChan chan error) error {
defer func() {
if r := recover(); r != nil {
rec := c.statusRecorder
if rec != nil {
rec.PublishEvent(
cProto.SystemEvent_CRITICAL, cProto.SystemEvent_SYSTEM,
"panic occurred",
"The Netbird service panicked. Please restart the service and submit a bug report with the client logs.",
nil,
)
}
log.Panicf("Panic occurred: %v, stack trace: %s", r, string(debug.Stack()))
}
}()

6
client/internal/dns/file_unix.go
View File

@ -58,7 +58,7 @@ func (f *fileConfigurator) applyDNSConfig(config HostDNSConfig, stateManager *st
return fmt.Errorf("restoring the original resolv.conf file return err: %w", err)
}
}
return fmt.Errorf("unable to configure DNS for this peer using file manager without a nameserver group with all domains configured")
return ErrRouteAllWithoutNameserverGroup
}
if !backupFileExist {
@ -121,6 +121,10 @@ func (f *fileConfigurator) restoreHostDNS() error {
return f.restore()
}
func (f *fileConfigurator) string() string {
return "file"
}
func (f *fileConfigurator) backup() error {
stats, err := os.Stat(defaultResolvConfPath)
if err != nil {

15
client/internal/dns/host.go
View File

@ -9,6 +9,8 @@ import (
nbdns "github.com/netbirdio/netbird/dns"
)
var ErrRouteAllWithoutNameserverGroup = fmt.Errorf("unable to configure DNS for this peer using file manager without a nameserver group with all domains configured")
const (
ipv4ReverseZone = ".in-addr.arpa"
ipv6ReverseZone = ".ip6.arpa"
@ -18,6 +20,7 @@ type hostManager interface {
applyDNSConfig(config HostDNSConfig, stateManager *statemanager.Manager) error
restoreHostDNS() error
supportCustomPort() bool
string() string
}
type SystemDNSSettings struct {
@ -44,6 +47,7 @@ type mockHostConfigurator struct {
restoreHostDNSFunc func() error
supportCustomPortFunc func() bool
restoreUncleanShutdownDNSFunc func(*netip.Addr) error
stringFunc func() string
}
func (m *mockHostConfigurator) applyDNSConfig(config HostDNSConfig, stateManager *statemanager.Manager) error {
@ -67,6 +71,13 @@ func (m *mockHostConfigurator) supportCustomPort() bool {
return false
}
func (m *mockHostConfigurator) string() string {
if m.stringFunc != nil {
return m.stringFunc()
}
return "mock"
}
func newNoopHostMocker() hostManager {
return &mockHostConfigurator{
applyDNSConfigFunc: func(config HostDNSConfig, stateManager *statemanager.Manager) error { return nil },
@ -122,3 +133,7 @@ func (n noopHostConfigurator) restoreHostDNS() error {
func (n noopHostConfigurator) supportCustomPort() bool {
return true
}
func (n noopHostConfigurator) string() string {
return "noop"
}

4
client/internal/dns/host_android.go
View File

@ -22,3 +22,7 @@ func (a androidHostManager) restoreHostDNS() error {
func (a androidHostManager) supportCustomPort() bool {
return false
}
func (a androidHostManager) string() string {
return "none"
}

4
client/internal/dns/host_darwin.go
View File

@ -114,6 +114,10 @@ func (s *systemConfigurator) applyDNSConfig(config HostDNSConfig, stateManager *
return nil
}
func (s *systemConfigurator) string() string {
return "scutil"
}
func (s *systemConfigurator) restoreHostDNS() error {
keys := s.getRemovableKeysWithDefaults()
for _, key := range keys {

4
client/internal/dns/host_ios.go
View File

@ -38,3 +38,7 @@ func (a iosHostManager) restoreHostDNS() error {
func (a iosHostManager) supportCustomPort() bool {
return false
}
func (a iosHostManager) string() string {
return "none"
}

4
client/internal/dns/host_windows.go
View File

@ -184,6 +184,10 @@ func (r *registryConfigurator) configureDNSPolicy(policyPath string, domains []s
return nil
}
func (r *registryConfigurator) string() string {
return "registry"
}
func (r *registryConfigurator) updateSearchDomains(domains []string) error {
if err := r.setInterfaceRegistryKeyStringValue(interfaceConfigSearchListKey, strings.Join(domains, ",")); err != nil {
return fmt.Errorf("update search domains: %w", err)

4
client/internal/dns/network_manager_unix.go
View File

@ -179,6 +179,10 @@ func (n *networkManagerDbusConfigurator) restoreHostDNS() error {
return nil
}
func (n *networkManagerDbusConfigurator) string() string {
return "network-manager"
}
func (n *networkManagerDbusConfigurator) getAppliedConnectionSettings() (networkManagerConnSettings, networkManagerConfigVersion, error) {
obj, closeConn, err := getDbusObject(networkManagerDest, n.dbusLinkObject)
if err != nil {

6
client/internal/dns/resolvconf_unix.go
View File

@ -91,7 +91,7 @@ func (r *resolvconf) applyDNSConfig(config HostDNSConfig, stateManager *stateman
if err != nil {
log.Errorf("restore host dns: %s", err)
}
return fmt.Errorf("unable to configure DNS for this peer using resolvconf manager without a nameserver group with all domains configured")
return ErrRouteAllWithoutNameserverGroup
}
searchDomainList := searchDomains(config)
@ -139,6 +139,10 @@ func (r *resolvconf) restoreHostDNS() error {
return nil
}
func (r *resolvconf) string() string {
return fmt.Sprintf("resolvconf (%s)", r.implType)
}
func (r *resolvconf) applyConfig(content bytes.Buffer) error {
var cmd *exec.Cmd

23
client/internal/dns/server.go
View File

@ -2,6 +2,7 @@ package dns
import (
"context"
"errors"
"fmt"
"net/netip"
"runtime"
@ -15,6 +16,7 @@ import (
"github.com/netbirdio/netbird/client/internal/listener"
"github.com/netbirdio/netbird/client/internal/peer"
"github.com/netbirdio/netbird/client/internal/statemanager"
cProto "github.com/netbirdio/netbird/client/proto"
nbdns "github.com/netbirdio/netbird/dns"
)
@ -420,6 +422,7 @@ func (s *DefaultServer) applyConfiguration(update nbdns.Config) error {
if err = s.hostManager.applyDNSConfig(hostUpdate, s.stateManager); err != nil {
log.Error(err)
s.handleErrNoGroupaAll(err)
}
go func() {
@ -438,10 +441,26 @@ func (s *DefaultServer) applyConfiguration(update nbdns.Config) error {
return nil
}
func (s *DefaultServer) handleErrNoGroupaAll(err error) {
if !errors.Is(ErrRouteAllWithoutNameserverGroup, err) {
return
}
if s.statusRecorder == nil {
return
}
s.statusRecorder.PublishEvent(
cProto.SystemEvent_WARNING, cProto.SystemEvent_DNS,
"The host dns manager does not support match domains",
"The host dns manager does not support match domains without a catch-all nameserver group.",
map[string]string{"manager": s.hostManager.string()},
)
}
func (s *DefaultServer) buildLocalHandlerUpdate(
customZones []nbdns.CustomZone,
) ([]handlerWrapper, map[string][]nbdns.SimpleRecord, error) {
var muxUpdates []handlerWrapper
localRecords := make(map[string][]nbdns.SimpleRecord)
@ -672,6 +691,7 @@ func (s *DefaultServer) upstreamCallbacks(
}
if err := s.hostManager.applyDNSConfig(s.currentConfig, s.stateManager); err != nil {
s.handleErrNoGroupaAll(err)
l.Errorf("Failed to apply nameserver deactivation on the host: %v", err)
}
@ -710,6 +730,7 @@ func (s *DefaultServer) upstreamCallbacks(
if s.hostManager != nil {
if err := s.hostManager.applyDNSConfig(s.currentConfig, s.stateManager); err != nil {
s.handleErrNoGroupaAll(err)
l.WithError(err).Error("reactivate temporary disabled nameserver group, DNS update apply")
}
}

14
client/internal/dns/server_test.go
View File

@ -356,7 +356,7 @@ func TestUpdateDNSServer(t *testing.T) {
t.Log(err)
}
}()
dnsServer, err := NewDefaultServer(context.Background(), wgIface, "", &peer.Status{}, nil, false)
dnsServer, err := NewDefaultServer(context.Background(), wgIface, "", peer.NewRecorder("mgm"), nil, false)
if err != nil {
t.Fatal(err)
}
@ -465,7 +465,7 @@ func TestDNSFakeResolverHandleUpdates(t *testing.T) {
return
}
dnsServer, err := NewDefaultServer(context.Background(), wgIface, "", &peer.Status{}, nil, false)
dnsServer, err := NewDefaultServer(context.Background(), wgIface, "", peer.NewRecorder("mgm"), nil, false)
if err != nil {
t.Errorf("create DNS server: %v", err)
return
@ -566,7 +566,7 @@ func TestDNSServerStartStop(t *testing.T) {
for _, testCase := range testCases {
t.Run(testCase.name, func(t *testing.T) {
dnsServer, err := NewDefaultServer(context.Background(), &mocWGIface{}, testCase.addrPort, &peer.Status{}, nil, false)
dnsServer, err := NewDefaultServer(context.Background(), &mocWGIface{}, testCase.addrPort, peer.NewRecorder("mgm"), nil, false)
if err != nil {
t.Fatalf("%v", err)
}
@ -639,7 +639,7 @@ func TestDNSServerUpstreamDeactivateCallback(t *testing.T) {
{false, "domain2", false},
},
},
statusRecorder: &peer.Status{},
statusRecorder: peer.NewRecorder("mgm"),
}
var domainsUpdate string
@ -700,7 +700,7 @@ func TestDNSPermanent_updateHostDNS_emptyUpstream(t *testing.T) {
var dnsList []string
dnsConfig := nbdns.Config{}
dnsServer := NewDefaultServerPermanentUpstream(context.Background(), wgIFace, dnsList, dnsConfig, nil, &peer.Status{}, false)
dnsServer := NewDefaultServerPermanentUpstream(context.Background(), wgIFace, dnsList, dnsConfig, nil, peer.NewRecorder("mgm"), false)
err = dnsServer.Initialize()
if err != nil {
t.Errorf("failed to initialize DNS server: %v", err)
@ -724,7 +724,7 @@ func TestDNSPermanent_updateUpstream(t *testing.T) {
}
defer wgIFace.Close()
dnsConfig := nbdns.Config{}
dnsServer := NewDefaultServerPermanentUpstream(context.Background(), wgIFace, []string{"8.8.8.8"}, dnsConfig, nil, &peer.Status{}, false)
dnsServer := NewDefaultServerPermanentUpstream(context.Background(), wgIFace, []string{"8.8.8.8"}, dnsConfig, nil, peer.NewRecorder("mgm"), false)
err = dnsServer.Initialize()
if err != nil {
t.Errorf("failed to initialize DNS server: %v", err)
@ -816,7 +816,7 @@ func TestDNSPermanent_matchOnly(t *testing.T) {
}
defer wgIFace.Close()
dnsConfig := nbdns.Config{}
dnsServer := NewDefaultServerPermanentUpstream(context.Background(), wgIFace, []string{"8.8.8.8"}, dnsConfig, nil, &peer.Status{}, false)
dnsServer := NewDefaultServerPermanentUpstream(context.Background(), wgIFace, []string{"8.8.8.8"}, dnsConfig, nil, peer.NewRecorder("mgm"), false)
err = dnsServer.Initialize()
if err != nil {
t.Errorf("failed to initialize DNS server: %v", err)

4
client/internal/dns/systemd_linux.go
View File

@ -154,6 +154,10 @@ func (s *systemdDbusConfigurator) applyDNSConfig(config HostDNSConfig, stateMana
return nil
}
func (s *systemdDbusConfigurator) string() string {
return "dbus"
}
func (s *systemdDbusConfigurator) setDomainsForInterface(domainsInput []systemdDbusLinkDomainsInput) error {
err := s.callLinkMethod(systemdDbusSetDomainsMethodSuffix, domainsInput)
if err != nil {

19
client/internal/dns/upstream.go
View File

@ -183,6 +183,19 @@ func (u *upstreamResolverBase) checkUpstreamFails(err error) {
}
u.disable(err)
if u.statusRecorder == nil {
return
}
u.statusRecorder.PublishEvent(
proto.SystemEvent_WARNING,
proto.SystemEvent_DNS,
"All upstream servers failed (fail count exceeded)",
"Unable to reach one or more DNS servers. This might affect your ability to connect to some services.",
map[string]string{"upstreams": strings.Join(u.upstreamServers, ", ")},
// TODO add domain meta
)
}
// probeAvailability tests all upstream servers simultaneously and
@ -232,10 +245,14 @@ func (u *upstreamResolverBase) probeAvailability() {
if !success {
u.disable(errors.ErrorOrNil())
if u.statusRecorder == nil {
return
}
u.statusRecorder.PublishEvent(
proto.SystemEvent_WARNING,
proto.SystemEvent_DNS,
"All upstream servers failed",
"All upstream servers failed (probe failed)",
"Unable to reach one or more DNS servers. This might affect your ability to connect to some services.",
map[string]string{"upstreams": strings.Join(u.upstreamServers, ", ")},
)

3
client/internal/engine.go
View File

@ -43,6 +43,7 @@ import (
"github.com/netbirdio/netbird/client/internal/routemanager"
"github.com/netbirdio/netbird/client/internal/routemanager/systemops"
"github.com/netbirdio/netbird/client/internal/statemanager"
cProto "github.com/netbirdio/netbird/client/proto"
"github.com/netbirdio/netbird/management/domain"
semaphoregroup "github.com/netbirdio/netbird/util/semaphore-group"
@ -673,6 +674,8 @@ func (e *Engine) handleSync(update *mgmProto.SyncResponse) error {
return err
}
e.statusRecorder.PublishEvent(cProto.SystemEvent_INFO, cProto.SystemEvent_SYSTEM, "Network map updated", "", nil)
return nil
}

49
client/internal/routemanager/client.go
View File

@ -306,11 +306,13 @@ func (c *clientNetwork) recalculateRouteAndUpdatePeerAndSystem(rsn reason) error
return nil
}
var isNew bool
if c.currentChosen == nil {
// If they were not previously assigned to another peer, add routes to the system first
if err := c.handler.AddRoute(c.ctx); err != nil {
return fmt.Errorf("add route: %w", err)
}
isNew = true
} else {
// Otherwise, remove the allowed IPs from the previous peer first
if err := c.removeRouteFromWireGuardPeer(); err != nil {
@ -324,6 +326,10 @@ func (c *clientNetwork) recalculateRouteAndUpdatePeerAndSystem(rsn reason) error
return fmt.Errorf("add allowed IPs for peer %s: %w", c.currentChosen.Peer, err)
}
if isNew {
c.connectEvent()
}
err := c.statusRecorder.AddPeerStateRoute(c.currentChosen.Peer, c.handler.String())
if err != nil {
return fmt.Errorf("add peer state route: %w", err)
@ -331,6 +337,35 @@ func (c *clientNetwork) recalculateRouteAndUpdatePeerAndSystem(rsn reason) error
return nil
}
func (c *clientNetwork) connectEvent() {
var defaultRoute bool
for _, r := range c.routes {
if r.Network.Bits() == 0 {
defaultRoute = true
break
}
}
if !defaultRoute {
return
}
meta := map[string]string{
"network": c.handler.String(),
}
if c.currentChosen != nil {
meta["id"] = string(c.currentChosen.NetID)
meta["peer"] = c.currentChosen.Peer
}
c.statusRecorder.PublishEvent(
proto.SystemEvent_INFO,
proto.SystemEvent_NETWORK,
"Default route added",
"Exit node connected.",
meta,
)
}
func (c *clientNetwork) disconnectEvent(rsn reason) {
var defaultRoute bool
for _, r := range c.routes {
@ -349,29 +384,27 @@ func (c *clientNetwork) disconnectEvent(rsn reason) {
var userMessage string
meta := make(map[string]string)
if c.currentChosen != nil {
meta["id"] = string(c.currentChosen.NetID)
meta["peer"] = c.currentChosen.Peer
}
meta["network"] = c.handler.String()
switch rsn {
case reasonShutdown:
severity = proto.SystemEvent_INFO
message = "Default route removed"
userMessage = "Exit node disconnected."
meta["network"] = c.handler.String()
case reasonRouteUpdate:
severity = proto.SystemEvent_INFO
message = "Default route updated due to configuration change"
meta["network"] = c.handler.String()
case reasonPeerUpdate:
severity = proto.SystemEvent_WARNING
message = "Default route disconnected due to peer unreachability"
userMessage = "Exit node connection lost. Your internet access might be affected."
if c.currentChosen != nil {
meta["peer"] = c.currentChosen.Peer
meta["network"] = c.handler.String()
}
default:
severity = proto.SystemEvent_ERROR
message = "Default route disconnected for unknown reason"
message = "Default route disconnected for unknown reasons"
userMessage = "Exit node disconnected for unknown reasons."
meta["network"] = c.handler.String()
}
c.statusRecorder.PublishEvent(

203
client/proto/daemon.pb.go
View File

@ -146,6 +146,7 @@ const (
SystemEvent_DNS SystemEvent_Category = 1
SystemEvent_AUTHENTICATION SystemEvent_Category = 2
SystemEvent_CONNECTIVITY SystemEvent_Category = 3
SystemEvent_SYSTEM SystemEvent_Category = 4
)
// Enum value maps for SystemEvent_Category.
@ -155,12 +156,14 @@ var (
1: "DNS",
2: "AUTHENTICATION",
3: "CONNECTIVITY",
4: "SYSTEM",
}
SystemEvent_Category_value = map[string]int32{
"NETWORK": 0,
"DNS": 1,
"AUTHENTICATION": 2,
"CONNECTIVITY": 3,
"SYSTEM": 4,
}
)
@ -3675,7 +3678,7 @@ var file_daemon_proto_rawDesc = []byte{
0x69, 0x74, 0x69, 0x6f, 0x6e, 0x18, 0x02, 0x20, 0x01, 0x28, 0x08, 0x52, 0x10, 0x66, 0x69, 0x6e,
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@ -3703,111 +3706,111 @@ var file_daemon_proto_rawDesc = []byte{
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}
var (

1
client/proto/daemon.proto
View File

@ -425,6 +425,7 @@ message SystemEvent {
DNS = 1;
AUTHENTICATION = 2;
CONNECTIVITY = 3;
SYSTEM = 4;
}
string id = 1;

25
client/server/network.go
View File

@ -6,6 +6,7 @@ import (
"net/netip"
"slices"
"sort"
"strings"
"golang.org/x/exp/maps"
@ -134,6 +135,18 @@ func (s *Server) SelectNetworks(_ context.Context, req *proto.SelectNetworksRequ
}
routeManager.TriggerSelection(routeManager.GetClientRoutes())
s.statusRecorder.PublishEvent(
proto.SystemEvent_INFO,
proto.SystemEvent_SYSTEM,
"Network selection changed",
"",
map[string]string{
"networks": strings.Join(req.GetNetworkIDs(), ", "),
"append": fmt.Sprint(req.GetAppend()),
"all": fmt.Sprint(req.GetAll()),
},
)
return &proto.SelectNetworksResponse{}, nil
}
@ -164,6 +177,18 @@ func (s *Server) DeselectNetworks(_ context.Context, req *proto.SelectNetworksRe
}
routeManager.TriggerSelection(routeManager.GetClientRoutes())
s.statusRecorder.PublishEvent(
proto.SystemEvent_INFO,
proto.SystemEvent_SYSTEM,
"Network deselection changed",
"",
map[string]string{
"networks": strings.Join(req.GetNetworkIDs(), ", "),
"append": fmt.Sprint(req.GetAppend()),
"all": fmt.Sprint(req.GetAll()),
},
)
return &proto.SelectNetworksResponse{}, nil
}

12
client/cmd/status_event.go → client/status/event.go
View File

@ -1,4 +1,4 @@
package cmd
package status
import (
"fmt"
@ -9,7 +9,7 @@ import (
"github.com/netbirdio/netbird/client/proto"
)
type systemEventOutput struct {
type SystemEventOutput struct {
ID string `json:"id" yaml:"id"`
Severity string `json:"severity" yaml:"severity"`
Category string `json:"category" yaml:"category"`
@ -19,10 +19,10 @@ type systemEventOutput struct {
Metadata map[string]string `json:"metadata" yaml:"metadata"`
}
func mapEvents(protoEvents []*proto.SystemEvent) []systemEventOutput {
events := make([]systemEventOutput, len(protoEvents))
func mapEvents(protoEvents []*proto.SystemEvent) []SystemEventOutput {
events := make([]SystemEventOutput, len(protoEvents))
for i, event := range protoEvents {
events[i] = systemEventOutput{
events[i] = SystemEventOutput{
ID: event.GetId(),
Severity: event.GetSeverity().String(),
Category: event.GetCategory().String(),
@ -35,7 +35,7 @@ func mapEvents(protoEvents []*proto.SystemEvent) []systemEventOutput {
return events
}
func parseEvents(events []systemEventOutput) string {
func parseEvents(events []SystemEventOutput) string {
if len(events) == 0 {
return " No events recorded"
}

725
client/status/status.go Normal file
View File

@ -0,0 +1,725 @@
package status
import (
"encoding/json"
"fmt"
"net"
"net/netip"
"os"
"runtime"
"sort"
"strings"
"time"
"gopkg.in/yaml.v3"
"github.com/netbirdio/netbird/client/anonymize"
"github.com/netbirdio/netbird/client/internal/peer"
"github.com/netbirdio/netbird/client/proto"
"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"`
IceCandidateType IceCandidateType `json:"iceCandidateType" yaml:"iceCandidateType"`
IceCandidateEndpoint IceCandidateType `json:"iceCandidateEndpoint" yaml:"iceCandidateEndpoint"`
RelayAddress string `json:"relayAddress" yaml:"relayAddress"`
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"`
Networks []string `json:"networks" yaml:"networks"`
}
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 OutputOverview 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"`
Networks []string `json:"networks" yaml:"networks"`
NSServerGroups []NsServerGroupStateOutput `json:"dnsServers" yaml:"dnsServers"`
Events []SystemEventOutput `json:"events" yaml:"events"`
}
func ConvertToStatusOutputOverview(resp *proto.StatusResponse, anon bool, statusFilter string, prefixNamesFilter []string, prefixNamesFilterMap map[string]struct{}, ipsFilter map[string]struct{}) OutputOverview {
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(), statusFilter, prefixNamesFilter, prefixNamesFilterMap, ipsFilter)
overview := OutputOverview{
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(),
Networks: pbFullStatus.GetLocalPeerState().GetNetworks(),
NSServerGroups: mapNSGroups(pbFullStatus.GetDnsServers()),
Events: mapEvents(pbFullStatus.GetEvents()),
}
if anon {
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,
statusFilter string,
prefixNamesFilter []string,
prefixNamesFilterMap map[string]struct{},
ipsFilter map[string]struct{},
) PeersStateOutput {
var peersStateDetail []PeerStateDetailOutput
peersConnected := 0
for _, pbPeerState := range peers {
localICE := ""
remoteICE := ""
localICEEndpoint := ""
remoteICEEndpoint := ""
relayServerAddress := ""
connType := ""
lastHandshake := time.Time{}
transferReceived := int64(0)
transferSent := int64(0)
isPeerConnected := pbPeerState.ConnStatus == peer.StatusConnected.String()
if skipDetailByFilters(pbPeerState, isPeerConnected, statusFilter, prefixNamesFilter, prefixNamesFilterMap, ipsFilter) {
continue
}
if isPeerConnected {
peersConnected++
localICE = pbPeerState.GetLocalIceCandidateType()
remoteICE = pbPeerState.GetRemoteIceCandidateType()
localICEEndpoint = pbPeerState.GetLocalIceCandidateEndpoint()
remoteICEEndpoint = pbPeerState.GetRemoteIceCandidateEndpoint()
connType = "P2P"
if pbPeerState.Relayed {
connType = "Relayed"
}
relayServerAddress = pbPeerState.GetRelayAddress()
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,
IceCandidateType: IceCandidateType{
Local: localICE,
Remote: remoteICE,
},
IceCandidateEndpoint: IceCandidateType{
Local: localICEEndpoint,
Remote: remoteICEEndpoint,
},
RelayAddress: relayServerAddress,
FQDN: pbPeerState.GetFqdn(),
LastWireguardHandshake: lastHandshake,
TransferReceived: transferReceived,
TransferSent: transferSent,
Latency: pbPeerState.GetLatency().AsDuration(),
RosenpassEnabled: pbPeerState.GetRosenpassEnabled(),
Networks: pbPeerState.GetNetworks(),
}
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 ParseToJSON(overview OutputOverview) (string, error) {
jsonBytes, err := json.Marshal(overview)
if err != nil {
return "", fmt.Errorf("json marshal failed")
}
return string(jsonBytes), err
}
func ParseToYAML(overview OutputOverview) (string, error) {
yamlBytes, err := yaml.Marshal(overview)
if err != nil {
return "", fmt.Errorf("yaml marshal failed")
}
return string(yamlBytes), nil
}
func ParseGeneralSummary(overview OutputOverview, 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)
}
networks := "-"
if len(overview.Networks) > 0 {
sort.Strings(overview.Networks)
networks = strings.Join(overview.Networks, ", ")
}
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"+
"Networks: %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,
networks,
peersCountString,
)
return summary
}
func ParseToFullDetailSummary(overview OutputOverview) string {
parsedPeersString := parsePeers(overview.Peers, overview.RosenpassEnabled, overview.RosenpassPermissive)
parsedEventsString := parseEvents(overview.Events)
summary := ParseGeneralSummary(overview, true, true, true)
return fmt.Sprintf(
"Peers detail:"+
"%s\n"+
"Events:"+
"%s\n"+
"%s",
parsedPeersString,
parsedEventsString,
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)"
}
}
networks := "-"
if len(peerState.Networks) > 0 {
sort.Strings(peerState.Networks)
networks = strings.Join(peerState.Networks, ", ")
}
peerString := fmt.Sprintf(
"\n %s:\n"+
" NetBird IP: %s\n"+
" Public key: %s\n"+
" Status: %s\n"+
" -- detail --\n"+
" Connection type: %s\n"+
" ICE candidate (Local/Remote): %s/%s\n"+
" ICE candidate endpoints (Local/Remote): %s/%s\n"+
" Relay server address: %s\n"+
" Last connection update: %s\n"+
" Last WireGuard handshake: %s\n"+
" Transfer status (received/sent) %s/%s\n"+
" Quantum resistance: %s\n"+
" Networks: %s\n"+
" Latency: %s\n",
peerState.FQDN,
peerState.IP,
peerState.PubKey,
peerState.Status,
peerState.ConnType,
localICE,
remoteICE,
localICEEndpoint,
remoteICEEndpoint,
peerState.RelayAddress,
timeAgo(peerState.LastStatusUpdate),
timeAgo(peerState.LastWireguardHandshake),
toIEC(peerState.TransferReceived),
toIEC(peerState.TransferSent),
rosenpassEnabledStatus,
networks,
peerState.Latency.String(),
)
peersString += peerString
}
return peersString
}
func skipDetailByFilters(
peerState *proto.PeerState,
isConnected bool,
statusFilter string,
prefixNamesFilter []string,
prefixNamesFilterMap map[string]struct{},
ipsFilter map[string]struct{},
) bool {
statusEval := false
ipEval := false
nameEval := true
if statusFilter != "" {
lowerStatusFilter := strings.ToLower(statusFilter)
if lowerStatusFilter == "disconnected" && isConnected {
statusEval = true
} else if lowerStatusFilter == "connected" && !isConnected {
statusEval = true
}
}
if len(ipsFilter) > 0 {
_, ok := ipsFilter[peerState.IP]
if !ok {
ipEval = true
}
}
if len(prefixNamesFilter) > 0 {
for prefixNameFilter := range prefixNamesFilterMap {
if strings.HasPrefix(peerState.Fqdn, prefixNameFilter) {
nameEval = false
break
}
}
} else {
nameEval = false
}
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)
}
peer.RelayAddress = a.AnonymizeURI(peer.RelayAddress)
for i, route := range peer.Networks {
peer.Networks[i] = a.AnonymizeIPString(route)
}
for i, route := range peer.Networks {
peer.Networks[i] = a.AnonymizeRoute(route)
}
}
func anonymizeOverview(a *anonymize.Anonymizer, overview *OutputOverview) {
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.Networks {
overview.Networks[i] = a.AnonymizeRoute(route)
}
overview.FQDN = a.AnonymizeDomain(overview.FQDN)
for i, event := range overview.Events {
overview.Events[i].Message = a.AnonymizeString(event.Message)
overview.Events[i].UserMessage = a.AnonymizeString(event.UserMessage)
for k, v := range event.Metadata {
event.Metadata[k] = a.AnonymizeString(v)
}
}
}

603
client/status/status_test.go Normal file
View File

@ -0,0 +1,603 @@
package status
import (
"bytes"
"encoding/json"
"fmt"
"runtime"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"google.golang.org/protobuf/types/known/durationpb"
"google.golang.org/protobuf/types/known/timestamppb"
"github.com/netbirdio/netbird/client/proto"
"github.com/netbirdio/netbird/version"
)
func init() {
loc, err := time.LoadLocation("UTC")
if err != nil {
panic(err)
}
time.Local = loc
}
var resp = &proto.StatusResponse{
Status: "Connected",
FullStatus: &proto.FullStatus{
Peers: []*proto.PeerState{
{
IP: "192.168.178.101",
PubKey: "Pubkey1",
Fqdn: "peer-1.awesome-domain.com",
ConnStatus: "Connected",
ConnStatusUpdate: timestamppb.New(time.Date(2001, time.Month(1), 1, 1, 1, 1, 0, time.UTC)),
Relayed: false,
LocalIceCandidateType: "",
RemoteIceCandidateType: "",
LocalIceCandidateEndpoint: "",
RemoteIceCandidateEndpoint: "",
LastWireguardHandshake: timestamppb.New(time.Date(2001, time.Month(1), 1, 1, 1, 2, 0, time.UTC)),
BytesRx: 200,
BytesTx: 100,
Networks: []string{
"10.1.0.0/24",
},
Latency: durationpb.New(time.Duration(10000000)),
},
{
IP: "192.168.178.102",
PubKey: "Pubkey2",
Fqdn: "peer-2.awesome-domain.com",
ConnStatus: "Connected",
ConnStatusUpdate: timestamppb.New(time.Date(2002, time.Month(2), 2, 2, 2, 2, 0, time.UTC)),
Relayed: true,
LocalIceCandidateType: "relay",
RemoteIceCandidateType: "prflx",
LocalIceCandidateEndpoint: "10.0.0.1:10001",
RemoteIceCandidateEndpoint: "10.0.10.1:10002",
LastWireguardHandshake: timestamppb.New(time.Date(2002, time.Month(2), 2, 2, 2, 3, 0, time.UTC)),
BytesRx: 2000,
BytesTx: 1000,
Latency: durationpb.New(time.Duration(10000000)),
},
},
ManagementState: &proto.ManagementState{
URL: "my-awesome-management.com:443",
Connected: true,
Error: "",
},
SignalState: &proto.SignalState{
URL: "my-awesome-signal.com:443",
Connected: true,
Error: "",
},
Relays: []*proto.RelayState{
{
URI: "stun:my-awesome-stun.com:3478",
Available: true,
Error: "",
},
{
URI: "turns:my-awesome-turn.com:443?transport=tcp",
Available: false,
Error: "context: deadline exceeded",
},
},
LocalPeerState: &proto.LocalPeerState{
IP: "192.168.178.100/16",
PubKey: "Some-Pub-Key",
KernelInterface: true,
Fqdn: "some-localhost.awesome-domain.com",
Networks: []string{
"10.10.0.0/24",
},
},
DnsServers: []*proto.NSGroupState{
{
Servers: []string{
"8.8.8.8:53",
},
Domains: nil,
Enabled: true,
Error: "",
},
{
Servers: []string{
"1.1.1.1:53",
"2.2.2.2:53",
},
Domains: []string{
"example.com",
"example.net",
},
Enabled: false,
Error: "timeout",
},
},
},
DaemonVersion: "0.14.1",
}
var overview = OutputOverview{
Peers: PeersStateOutput{
Total: 2,
Connected: 2,
Details: []PeerStateDetailOutput{
{
IP: "192.168.178.101",
PubKey: "Pubkey1",
FQDN: "peer-1.awesome-domain.com",
Status: "Connected",
LastStatusUpdate: time.Date(2001, 1, 1, 1, 1, 1, 0, time.UTC),
ConnType: "P2P",
IceCandidateType: IceCandidateType{
Local: "",
Remote: "",
},
IceCandidateEndpoint: IceCandidateType{
Local: "",
Remote: "",
},
LastWireguardHandshake: time.Date(2001, 1, 1, 1, 1, 2, 0, time.UTC),
TransferReceived: 200,
TransferSent: 100,
Networks: []string{
"10.1.0.0/24",
},
Latency: time.Duration(10000000),
},
{
IP: "192.168.178.102",
PubKey: "Pubkey2",
FQDN: "peer-2.awesome-domain.com",
Status: "Connected",
LastStatusUpdate: time.Date(2002, 2, 2, 2, 2, 2, 0, time.UTC),
ConnType: "Relayed",
IceCandidateType: IceCandidateType{
Local: "relay",
Remote: "prflx",
},
IceCandidateEndpoint: IceCandidateType{
Local: "10.0.0.1:10001",
Remote: "10.0.10.1:10002",
},
LastWireguardHandshake: time.Date(2002, 2, 2, 2, 2, 3, 0, time.UTC),
TransferReceived: 2000,
TransferSent: 1000,
Latency: time.Duration(10000000),
},
},
},
Events: []SystemEventOutput{},
CliVersion: version.NetbirdVersion(),
DaemonVersion: "0.14.1",
ManagementState: ManagementStateOutput{
URL: "my-awesome-management.com:443",
Connected: true,
Error: "",
},
SignalState: SignalStateOutput{
URL: "my-awesome-signal.com:443",
Connected: true,
Error: "",
},
Relays: RelayStateOutput{
Total: 2,
Available: 1,
Details: []RelayStateOutputDetail{
{
URI: "stun:my-awesome-stun.com:3478",
Available: true,
Error: "",
},
{
URI: "turns:my-awesome-turn.com:443?transport=tcp",
Available: false,
Error: "context: deadline exceeded",
},
},
},
IP: "192.168.178.100/16",
PubKey: "Some-Pub-Key",
KernelInterface: true,
FQDN: "some-localhost.awesome-domain.com",
NSServerGroups: []NsServerGroupStateOutput{
{
Servers: []string{
"8.8.8.8:53",
},
Domains: nil,
Enabled: true,
Error: "",
},
{
Servers: []string{
"1.1.1.1:53",
"2.2.2.2:53",
},
Domains: []string{
"example.com",
"example.net",
},
Enabled: false,
Error: "timeout",
},
},
Networks: []string{
"10.10.0.0/24",
},
}
func TestConversionFromFullStatusToOutputOverview(t *testing.T) {
convertedResult := ConvertToStatusOutputOverview(resp, false, "", nil, nil, nil)
assert.Equal(t, overview, convertedResult)
}
func TestSortingOfPeers(t *testing.T) {
peers := []PeerStateDetailOutput{
{
IP: "192.168.178.104",
},
{
IP: "192.168.178.102",
},
{
IP: "192.168.178.101",
},
{
IP: "192.168.178.105",
},
{
IP: "192.168.178.103",
},
}
sortPeersByIP(peers)
assert.Equal(t, peers[3].IP, "192.168.178.104")
}
func TestParsingToJSON(t *testing.T) {
jsonString, _ := ParseToJSON(overview)
//@formatter:off
expectedJSONString := `
{
"peers": {
"total": 2,
"connected": 2,
"details": [
{
"fqdn": "peer-1.awesome-domain.com",
"netbirdIp": "192.168.178.101",
"publicKey": "Pubkey1",
"status": "Connected",
"lastStatusUpdate": "2001-01-01T01:01:01Z",
"connectionType": "P2P",
"iceCandidateType": {
"local": "",
"remote": ""
},
"iceCandidateEndpoint": {
"local": "",
"remote": ""
},
"relayAddress": "",
"lastWireguardHandshake": "2001-01-01T01:01:02Z",
"transferReceived": 200,
"transferSent": 100,
"latency": 10000000,
"quantumResistance": false,
"networks": [
"10.1.0.0/24"
]
},
{
"fqdn": "peer-2.awesome-domain.com",
"netbirdIp": "192.168.178.102",
"publicKey": "Pubkey2",
"status": "Connected",
"lastStatusUpdate": "2002-02-02T02:02:02Z",
"connectionType": "Relayed",
"iceCandidateType": {
"local": "relay",
"remote": "prflx"
},
"iceCandidateEndpoint": {
"local": "10.0.0.1:10001",
"remote": "10.0.10.1:10002"
},
"relayAddress": "",
"lastWireguardHandshake": "2002-02-02T02:02:03Z",
"transferReceived": 2000,
"transferSent": 1000,
"latency": 10000000,
"quantumResistance": false,
"networks": null
}
]
},
"cliVersion": "development",
"daemonVersion": "0.14.1",
"management": {
"url": "my-awesome-management.com:443",
"connected": true,
"error": ""
},
"signal": {
"url": "my-awesome-signal.com:443",
"connected": true,
"error": ""
},
"relays": {
"total": 2,
"available": 1,
"details": [
{
"uri": "stun:my-awesome-stun.com:3478",
"available": true,
"error": ""
},
{
"uri": "turns:my-awesome-turn.com:443?transport=tcp",
"available": false,
"error": "context: deadline exceeded"
}
]
},
"netbirdIp": "192.168.178.100/16",
"publicKey": "Some-Pub-Key",
"usesKernelInterface": true,
"fqdn": "some-localhost.awesome-domain.com",
"quantumResistance": false,
"quantumResistancePermissive": false,
"networks": [
"10.10.0.0/24"
],
"dnsServers": [
{
"servers": [
"8.8.8.8:53"
],
"domains": null,
"enabled": true,
"error": ""
},
{
"servers": [
"1.1.1.1:53",
"2.2.2.2:53"
],
"domains": [
"example.com",
"example.net"
],
"enabled": false,
"error": "timeout"
}
],
"events": []
}`
// @formatter:on
var expectedJSON bytes.Buffer
require.NoError(t, json.Compact(&expectedJSON, []byte(expectedJSONString)))
assert.Equal(t, expectedJSON.String(), jsonString)
}
func TestParsingToYAML(t *testing.T) {
yaml, _ := ParseToYAML(overview)
expectedYAML :=
`peers:
total: 2
connected: 2
details:
- fqdn: peer-1.awesome-domain.com
netbirdIp: 192.168.178.101
publicKey: Pubkey1
status: Connected
lastStatusUpdate: 2001-01-01T01:01:01Z
connectionType: P2P
iceCandidateType:
local: ""
remote: ""
iceCandidateEndpoint:
local: ""
remote: ""
relayAddress: ""
lastWireguardHandshake: 2001-01-01T01:01:02Z
transferReceived: 200
transferSent: 100
latency: 10ms
quantumResistance: false
networks:
- 10.1.0.0/24
- fqdn: peer-2.awesome-domain.com
netbirdIp: 192.168.178.102
publicKey: Pubkey2
status: Connected
lastStatusUpdate: 2002-02-02T02:02:02Z
connectionType: Relayed
iceCandidateType:
local: relay
remote: prflx
iceCandidateEndpoint:
local: 10.0.0.1:10001
remote: 10.0.10.1:10002
relayAddress: ""
lastWireguardHandshake: 2002-02-02T02:02:03Z
transferReceived: 2000
transferSent: 1000
latency: 10ms
quantumResistance: false
networks: []
cliVersion: development
daemonVersion: 0.14.1
management:
url: my-awesome-management.com:443
connected: true
error: ""
signal:
url: my-awesome-signal.com:443
connected: true
error: ""
relays:
total: 2
available: 1
details:
- uri: stun:my-awesome-stun.com:3478
available: true
error: ""
- uri: turns:my-awesome-turn.com:443?transport=tcp
available: false
error: 'context: deadline exceeded'
netbirdIp: 192.168.178.100/16
publicKey: Some-Pub-Key
usesKernelInterface: true
fqdn: some-localhost.awesome-domain.com
quantumResistance: false
quantumResistancePermissive: false
networks:
- 10.10.0.0/24
dnsServers:
- servers:
- 8.8.8.8:53
domains: []
enabled: true
error: ""
- servers:
- 1.1.1.1:53
- 2.2.2.2:53
domains:
- example.com
- example.net
enabled: false
error: timeout
events: []
`
assert.Equal(t, expectedYAML, yaml)
}
func TestParsingToDetail(t *testing.T) {
// Calculate time ago based on the fixture dates
lastConnectionUpdate1 := timeAgo(overview.Peers.Details[0].LastStatusUpdate)
lastHandshake1 := timeAgo(overview.Peers.Details[0].LastWireguardHandshake)
lastConnectionUpdate2 := timeAgo(overview.Peers.Details[1].LastStatusUpdate)
lastHandshake2 := timeAgo(overview.Peers.Details[1].LastWireguardHandshake)
detail := ParseToFullDetailSummary(overview)
expectedDetail := fmt.Sprintf(
`Peers detail:
peer-1.awesome-domain.com:
NetBird IP: 192.168.178.101
Public key: Pubkey1
Status: Connected
-- detail --
Connection type: P2P
ICE candidate (Local/Remote): -/-
ICE candidate endpoints (Local/Remote): -/-
Relay server address:
Last connection update: %s
Last WireGuard handshake: %s
Transfer status (received/sent) 200 B/100 B
Quantum resistance: false
Networks: 10.1.0.0/24
Latency: 10ms
peer-2.awesome-domain.com:
NetBird IP: 192.168.178.102
Public key: Pubkey2
Status: Connected
-- detail --
Connection type: Relayed
ICE candidate (Local/Remote): relay/prflx
ICE candidate endpoints (Local/Remote): 10.0.0.1:10001/10.0.10.1:10002
Relay server address:
Last connection update: %s
Last WireGuard handshake: %s
Transfer status (received/sent) 2.0 KiB/1000 B
Quantum resistance: false
Networks: -
Latency: 10ms
Events: No events recorded
OS: %s/%s
Daemon version: 0.14.1
CLI version: %s
Management: Connected to my-awesome-management.com:443
Signal: Connected to my-awesome-signal.com:443
Relays:
[stun:my-awesome-stun.com:3478] is Available
[turns:my-awesome-turn.com:443?transport=tcp] is Unavailable, reason: context: deadline exceeded
Nameservers:
[8.8.8.8:53] for [.] is Available
[1.1.1.1:53, 2.2.2.2:53] for [example.com, example.net] is Unavailable, reason: timeout
FQDN: some-localhost.awesome-domain.com
NetBird IP: 192.168.178.100/16
Interface type: Kernel
Quantum resistance: false
Networks: 10.10.0.0/24
Peers count: 2/2 Connected
`, lastConnectionUpdate1, lastHandshake1, lastConnectionUpdate2, lastHandshake2, runtime.GOOS, runtime.GOARCH, overview.CliVersion)
assert.Equal(t, expectedDetail, detail)
}
func TestParsingToShortVersion(t *testing.T) {
shortVersion := ParseGeneralSummary(overview, false, false, false)
expectedString := fmt.Sprintf("OS: %s/%s", runtime.GOOS, runtime.GOARCH) + `
Daemon version: 0.14.1
CLI version: development
Management: Connected
Signal: Connected
Relays: 1/2 Available
Nameservers: 1/2 Available
FQDN: some-localhost.awesome-domain.com
NetBird IP: 192.168.178.100/16
Interface type: Kernel
Quantum resistance: false
Networks: 10.10.0.0/24
Peers count: 2/2 Connected
`
assert.Equal(t, expectedString, shortVersion)
}
func TestTimeAgo(t *testing.T) {
now := time.Now()
cases := []struct {
name string
input time.Time
expected string
}{
{"Now", now, "Now"},
{"Seconds ago", now.Add(-10 * time.Second), "10 seconds ago"},
{"One minute ago", now.Add(-1 * time.Minute), "1 minute ago"},
{"Minutes and seconds ago", now.Add(-(1*time.Minute + 30*time.Second)), "1 minute, 30 seconds ago"},
{"One hour ago", now.Add(-1 * time.Hour), "1 hour ago"},
{"Hours and minutes ago", now.Add(-(2*time.Hour + 15*time.Minute)), "2 hours, 15 minutes ago"},
{"One day ago", now.Add(-24 * time.Hour), "1 day ago"},
{"Multiple days ago", now.Add(-(72*time.Hour + 20*time.Minute)), "3 days ago"},
{"Zero time", time.Time{}, "-"},
{"Unix zero time", time.Unix(0, 0), "-"},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
result := timeAgo(tc.input)
assert.Equal(t, tc.expected, result, "Failed %s", tc.name)
})
}
}

12
client/ui/bundled.go
View File

File diff suppressed because one or more lines are too long

70
client/ui/client_ui.go
View File

@ -158,12 +158,14 @@ type serviceClient struct {
mVersionDaemon *systray.MenuItem
mUpdate *systray.MenuItem
mQuit *systray.MenuItem
mRoutes *systray.MenuItem
mNetworks *systray.MenuItem
mAllowSSH *systray.MenuItem
mAutoConnect *systray.MenuItem
mEnableRosenpass *systray.MenuItem
mNotifications *systray.MenuItem
mAdvancedSettings *systray.MenuItem
mCreateDebugBundle *systray.MenuItem
mExitNode *systray.MenuItem
// application with main windows.
app fyne.App
@ -200,6 +202,14 @@ type serviceClient struct {
wRoutes fyne.Window
eventManager *event.Manager
exitNodeMu sync.Mutex
mExitNodeItems []menuHandler
}
type menuHandler struct {
*systray.MenuItem
cancel context.CancelFunc
}
// newServiceClient instance constructor
@ -473,6 +483,9 @@ func (s *serviceClient) updateStatus() error {
status, err := conn.Status(s.ctx, &proto.StatusRequest{})
if err != nil {
log.Errorf("get service status: %v", err)
if s.connected {
s.app.SendNotification(fyne.NewNotification("Error", "Connection to service lost"))
}
s.setDisconnectedStatus()
return err
}
@ -498,7 +511,8 @@ func (s *serviceClient) updateStatus() error {
s.mStatus.SetTitle("Connected")
s.mUp.Disable()
s.mDown.Enable()
s.mRoutes.Enable()
s.mNetworks.Enable()
go s.updateExitNodes()
systrayIconState = true
} else if status.Status != string(internal.StatusConnected) && s.mUp.Disabled() {
s.setDisconnectedStatus()
@ -554,7 +568,9 @@ func (s *serviceClient) setDisconnectedStatus() {
s.mStatus.SetTitle("Disconnected")
s.mDown.Disable()
s.mUp.Enable()
s.mRoutes.Disable()
s.mNetworks.Disable()
s.mExitNode.Disable()
go s.updateExitNodes()
}
func (s *serviceClient) onTrayReady() {
@ -577,10 +593,16 @@ func (s *serviceClient) onTrayReady() {
s.mEnableRosenpass = s.mSettings.AddSubMenuItemCheckbox("Enable Quantum-Resistance", "Enable post-quantum security via Rosenpass", false)
s.mNotifications = s.mSettings.AddSubMenuItemCheckbox("Notifications", "Enable notifications", true)
s.mAdvancedSettings = s.mSettings.AddSubMenuItem("Advanced Settings", "Advanced settings of the application")
s.mCreateDebugBundle = s.mSettings.AddSubMenuItem("Create Debug Bundle", "Create and open debug information bundle")
s.loadSettings()
s.mRoutes = systray.AddMenuItem("Networks", "Open the networks management window")
s.mRoutes.Disable()
s.exitNodeMu.Lock()
s.mExitNode = systray.AddMenuItem("Exit Node", "Select exit node for routing traffic")
s.mExitNode.Disable()
s.exitNodeMu.Unlock()
s.mNetworks = systray.AddMenuItem("Networks", "Open the networks management window")
s.mNetworks.Disable()
systray.AddSeparator()
s.mAbout = systray.AddMenuItem("About", "About")
@ -599,6 +621,9 @@ func (s *serviceClient) onTrayReady() {
systray.AddSeparator()
s.mQuit = systray.AddMenuItem("Quit", "Quit the client app")
// update exit node menu in case service is already connected
go s.updateExitNodes()
s.update.SetOnUpdateListener(s.onUpdateAvailable)
go func() {
s.getSrvConfig()
@ -614,6 +639,12 @@ func (s *serviceClient) onTrayReady() {
s.eventManager = event.NewManager(s.app, s.addr)
s.eventManager.SetNotificationsEnabled(s.mNotifications.Checked())
s.eventManager.AddHandler(func(event *proto.SystemEvent) {
if event.Category == proto.SystemEvent_SYSTEM {
s.updateExitNodes()
}
})
go s.eventManager.Start(s.ctx)
go func() {
@ -628,7 +659,7 @@ func (s *serviceClient) onTrayReady() {
defer s.mUp.Enable()
err := s.menuUpClick()
if err != nil {
s.runSelfCommand("error-msg", err.Error())
s.app.SendNotification(fyne.NewNotification("Error", "Failed to connect to NetBird service"))
return
}
}()
@ -638,7 +669,7 @@ func (s *serviceClient) onTrayReady() {
defer s.mDown.Enable()
err := s.menuDownClick()
if err != nil {
s.runSelfCommand("error-msg", err.Error())
s.app.SendNotification(fyne.NewNotification("Error", "Failed to connect to NetBird service"))
return
}
}()
@ -676,6 +707,13 @@ func (s *serviceClient) onTrayReady() {
defer s.getSrvConfig()
s.runSelfCommand("settings", "true")
}()
case <-s.mCreateDebugBundle.ClickedCh:
go func() {
if err := s.createAndOpenDebugBundle(); err != nil {
log.Errorf("Failed to create debug bundle: %v", err)
s.app.SendNotification(fyne.NewNotification("Error", "Failed to create debug bundle"))
}
}()
case <-s.mQuit.ClickedCh:
systray.Quit()
return
@ -684,10 +722,10 @@ func (s *serviceClient) onTrayReady() {
if err != nil {
log.Errorf("%s", err)
}
case <-s.mRoutes.ClickedCh:
s.mRoutes.Disable()
case <-s.mNetworks.ClickedCh:
s.mNetworks.Disable()
go func() {
defer s.mRoutes.Enable()
defer s.mNetworks.Enable()
s.runSelfCommand("networks", "true")
}()
case <-s.mNotifications.ClickedCh:
@ -718,7 +756,11 @@ func (s *serviceClient) runSelfCommand(command, arg string) {
return
}
cmd := exec.Command(proc, fmt.Sprintf("--%s=%s", command, arg))
cmd := exec.Command(proc,
fmt.Sprintf("--%s=%s", command, arg),
fmt.Sprintf("--daemon-addr=%s", s.addr),
)
out, err := cmd.CombinedOutput()
if exitErr, ok := err.(*exec.ExitError); ok && exitErr.ExitCode() == 1 {
log.Errorf("start %s UI: %v, %s", command, err, string(out))
@ -737,7 +779,11 @@ func normalizedVersion(version string) string {
return versionString
}
func (s *serviceClient) onTrayExit() {}
func (s *serviceClient) onTrayExit() {
for _, item := range s.mExitNodeItems {
item.cancel()
}
}
// getSrvClient connection to the service.
func (s *serviceClient) getSrvClient(timeout time.Duration) (proto.DaemonServiceClient, error) {

46
client/ui/config/config.go
View File

@ -1,46 +0,0 @@
package config
import (
"os"
"runtime"
)
// ClientConfig basic settings for the UI application.
type ClientConfig struct {
configPath string
logFile string
daemonAddr string
}
// Config object with default settings.
//
// We are creating this package to extract utility functions from the cmd package
// reading and parsing the configurations for the client should be done here
func Config() *ClientConfig {
defaultConfigPath := "/etc/wiretrustee/config.json"
defaultLogFile := "/var/log/wiretrustee/client.log"
if runtime.GOOS == "windows" {
defaultConfigPath = os.Getenv("PROGRAMDATA") + "\\Wiretrustee\\" + "config.json"
defaultLogFile = os.Getenv("PROGRAMDATA") + "\\Wiretrustee\\" + "client.log"
}
defaultDaemonAddr := "unix:///var/run/wiretrustee.sock"
if runtime.GOOS == "windows" {
defaultDaemonAddr = "tcp://127.0.0.1:41731"
}
return &ClientConfig{
configPath: defaultConfigPath,
logFile: defaultLogFile,
daemonAddr: defaultDaemonAddr,
}
}
// DaemonAddr of the gRPC API.
func (c *ClientConfig) DaemonAddr() string {
return c.daemonAddr
}
// LogFile path.
func (c *ClientConfig) LogFile() string {
return c.logFile
}

50
client/ui/debug.go Normal file
View File

@ -0,0 +1,50 @@
//go:build !(linux && 386)
package main
import (
"fmt"
"path/filepath"
"fyne.io/fyne/v2"
"github.com/skratchdot/open-golang/open"
"github.com/netbirdio/netbird/client/proto"
nbstatus "github.com/netbirdio/netbird/client/status"
)
func (s *serviceClient) createAndOpenDebugBundle() error {
conn, err := s.getSrvClient(failFastTimeout)
if err != nil {
return fmt.Errorf("get client: %v", err)
}
statusResp, err := conn.Status(s.ctx, &proto.StatusRequest{GetFullPeerStatus: true})
if err != nil {
return fmt.Errorf("failed to get status: %v", err)
}
overview := nbstatus.ConvertToStatusOutputOverview(statusResp, true, "", nil, nil, nil)
statusOutput := nbstatus.ParseToFullDetailSummary(overview)
resp, err := conn.DebugBundle(s.ctx, &proto.DebugBundleRequest{
Anonymize: true,
Status: statusOutput,
SystemInfo: true,
})
if err != nil {
return fmt.Errorf("failed to create debug bundle: %v", err)
}
bundleDir := filepath.Dir(resp.GetPath())
if err := open.Start(bundleDir); err != nil {
return fmt.Errorf("failed to open debug bundle directory: %v", err)
}
s.app.SendNotification(fyne.NewNotification(
"Debug Bundle",
fmt.Sprintf("Debug bundle created at %s. Administrator privileges are required to access it.", resp.GetPath()),
))
return nil
}

31
client/ui/event/event.go
View File

@ -3,6 +3,7 @@ package event
import (
"context"
"fmt"
"slices"
"strings"
"sync"
"time"
@ -17,6 +18,8 @@ import (
"github.com/netbirdio/netbird/client/system"
)
type Handler func(*proto.SystemEvent)
type Manager struct {
app fyne.App
addr string
@ -25,6 +28,7 @@ type Manager struct {
ctx context.Context
cancel context.CancelFunc
enabled bool
handlers []Handler
}
func NewManager(app fyne.App, addr string) *Manager {
@ -100,20 +104,41 @@ func (e *Manager) SetNotificationsEnabled(enabled bool) {
func (e *Manager) handleEvent(event *proto.SystemEvent) {
e.mu.Lock()
enabled := e.enabled
handlers := slices.Clone(e.handlers)
e.mu.Unlock()
if !enabled {
// critical events are always shown
if !enabled && event.Severity != proto.SystemEvent_CRITICAL {
return
}
if event.UserMessage != "" {
title := e.getEventTitle(event)
e.app.SendNotification(fyne.NewNotification(title, event.UserMessage))
body := event.UserMessage
id := event.Metadata["id"]
if id != "" {
body += fmt.Sprintf(" ID: %s", id)
}
e.app.SendNotification(fyne.NewNotification(title, body))
}
for _, handler := range handlers {
go handler(event)
}
}
func (e *Manager) AddHandler(handler Handler) {
e.mu.Lock()
defer e.mu.Unlock()
e.handlers = append(e.handlers, handler)
}
func (e *Manager) getEventTitle(event *proto.SystemEvent) string {
var prefix string
switch event.Severity {
case proto.SystemEvent_ERROR, proto.SystemEvent_CRITICAL:
case proto.SystemEvent_CRITICAL:
prefix = "Critical"
case proto.SystemEvent_ERROR:
prefix = "Error"
case proto.SystemEvent_WARNING:
prefix = "Warning"

202
client/ui/network.go
View File

@ -3,7 +3,9 @@
package main
import (
"context"
"fmt"
"runtime"
"sort"
"strings"
"time"
@ -13,6 +15,7 @@ import (
"fyne.io/fyne/v2/dialog"
"fyne.io/fyne/v2/layout"
"fyne.io/fyne/v2/widget"
"fyne.io/systray"
log "github.com/sirupsen/logrus"
"github.com/netbirdio/netbird/client/proto"
@ -237,14 +240,14 @@ func (s *serviceClient) selectNetwork(id string, checked bool) {
s.showError(fmt.Errorf("failed to select network: %v", err))
return
}
log.Infof("Route %s selected", id)
log.Infof("Network '%s' selected", id)
} else {
if _, err := conn.DeselectNetworks(s.ctx, req); err != nil {
log.Errorf("failed to deselect network: %v", err)
s.showError(fmt.Errorf("failed to deselect network: %v", err))
return
}
log.Infof("Network %s deselected", id)
log.Infof("Network '%s' deselected", id)
}
}
@ -324,6 +327,201 @@ func (s *serviceClient) updateNetworksBasedOnDisplayTab(tabs *container.AppTabs,
s.updateNetworks(grid, f)
}
func (s *serviceClient) updateExitNodes() {
conn, err := s.getSrvClient(defaultFailTimeout)
if err != nil {
log.Errorf("get client: %v", err)
return
}
exitNodes, err := s.getExitNodes(conn)
if err != nil {
log.Errorf("get exit nodes: %v", err)
return
}
s.exitNodeMu.Lock()
defer s.exitNodeMu.Unlock()
s.recreateExitNodeMenu(exitNodes)
if len(s.mExitNodeItems) > 0 {
s.mExitNode.Enable()
} else {
s.mExitNode.Disable()
}
log.Debugf("Exit nodes updated: %d", len(s.mExitNodeItems))
}
func (s *serviceClient) recreateExitNodeMenu(exitNodes []*proto.Network) {
for _, node := range s.mExitNodeItems {
node.cancel()
node.Remove()
}
s.mExitNodeItems = nil
if runtime.GOOS == "linux" || runtime.GOOS == "freebsd" {
s.mExitNode.Remove()
s.mExitNode = systray.AddMenuItem("Exit Node", "Select exit node for routing traffic")
}
for _, node := range exitNodes {
menuItem := s.mExitNode.AddSubMenuItemCheckbox(
node.ID,
fmt.Sprintf("Use exit node %s", node.ID),
node.Selected,
)
ctx, cancel := context.WithCancel(context.Background())
s.mExitNodeItems = append(s.mExitNodeItems, menuHandler{
MenuItem: menuItem,
cancel: cancel,
})
go s.handleChecked(ctx, node.ID, menuItem)
}
}
func (s *serviceClient) getExitNodes(conn proto.DaemonServiceClient) ([]*proto.Network, error) {
ctx, cancel := context.WithTimeout(s.ctx, defaultFailTimeout)
defer cancel()
resp, err := conn.ListNetworks(ctx, &proto.ListNetworksRequest{})
if err != nil {
return nil, fmt.Errorf("list networks: %v", err)
}
var exitNodes []*proto.Network
for _, network := range resp.Routes {
if network.Range == "0.0.0.0/0" {
exitNodes = append(exitNodes, network)
}
}
return exitNodes, nil
}
func (s *serviceClient) handleChecked(ctx context.Context, id string, item *systray.MenuItem) {
for {
select {
case <-ctx.Done():
return
case _, ok := <-item.ClickedCh:
if !ok {
return
}
if err := s.toggleExitNode(id, item); err != nil {
log.Errorf("failed to toggle exit node: %v", err)
continue
}
}
}
}
// Add function to toggle exit node selection
func (s *serviceClient) toggleExitNode(nodeID string, item *systray.MenuItem) error {
conn, err := s.getSrvClient(defaultFailTimeout)
if err != nil {
return fmt.Errorf("get client: %v", err)
}
log.Infof("Toggling exit node '%s'", nodeID)
s.exitNodeMu.Lock()
defer s.exitNodeMu.Unlock()
exitNodes, err := s.getExitNodes(conn)
if err != nil {
return fmt.Errorf("get exit nodes: %v", err)
}
var exitNode *proto.Network
// find other selected nodes and ours
ids := make([]string, 0, len(exitNodes))
for _, node := range exitNodes {
if node.ID == nodeID {
// preserve original state
cp := *node //nolint:govet
exitNode = &cp
// set desired state for recreation
node.Selected = true
continue
}
if node.Selected {
ids = append(ids, node.ID)
// set desired state for recreation
node.Selected = false
}
}
if item.Checked() && len(ids) == 0 {
// exit node is the only selected node, deselect it
ids = append(ids, nodeID)
exitNode = nil
}
// deselect all other selected exit nodes
if err := s.deselectOtherExitNodes(conn, ids, item); err != nil {
return err
}
if err := s.selectNewExitNode(conn, exitNode, nodeID, item); err != nil {
return err
}
// linux/bsd doesn't handle Check/Uncheck well, so we recreate the menu
if runtime.GOOS == "linux" || runtime.GOOS == "freebsd" {
s.recreateExitNodeMenu(exitNodes)
}
return nil
}
func (s *serviceClient) deselectOtherExitNodes(conn proto.DaemonServiceClient, ids []string, currentItem *systray.MenuItem) error {
// deselect all other selected exit nodes
if len(ids) > 0 {
deselectReq := &proto.SelectNetworksRequest{
NetworkIDs: ids,
}
if _, err := conn.DeselectNetworks(s.ctx, deselectReq); err != nil {
return fmt.Errorf("deselect networks: %v", err)
}
log.Infof("Deselected exit nodes: %v", ids)
}
// uncheck all other exit node menu items
for _, i := range s.mExitNodeItems {
if i.MenuItem == currentItem {
continue
}
i.Uncheck()
log.Infof("Unchecked exit node %v", i)
}
return nil
}
func (s *serviceClient) selectNewExitNode(conn proto.DaemonServiceClient, exitNode *proto.Network, nodeID string, item *systray.MenuItem) error {
if exitNode != nil && !exitNode.Selected {
selectReq := &proto.SelectNetworksRequest{
NetworkIDs: []string{exitNode.ID},
Append: true,
}
if _, err := conn.SelectNetworks(s.ctx, selectReq); err != nil {
return fmt.Errorf("select network: %v", err)
}
log.Infof("Selected exit node '%s'", nodeID)
}
item.Check()
return nil
}
func getGridAndFilterFromTab(tabs *container.AppTabs, allGrid, overlappingGrid, exitNodesGrid *fyne.Container) (*fyne.Container, filter) {
switch tabs.Selected().Text {
case overlappingNetworksText: