netbird/client/internal/peer/status.go
Zoltan Papp fd67892cb4
[client] Refactor/iface pkg (#2646)
Refactor the flat code structure
2024-10-02 18:24:22 +02:00

769 lines
19 KiB
Go

package peer
import (
"errors"
"net/netip"
"slices"
"sync"
"time"
"golang.org/x/exp/maps"
"google.golang.org/grpc/codes"
gstatus "google.golang.org/grpc/status"
"github.com/netbirdio/netbird/client/iface/configurer"
"github.com/netbirdio/netbird/client/internal/relay"
"github.com/netbirdio/netbird/management/domain"
relayClient "github.com/netbirdio/netbird/relay/client"
)
// State contains the latest state of a peer
type State struct {
Mux *sync.RWMutex
IP string
PubKey string
FQDN string
ConnStatus ConnStatus
ConnStatusUpdate time.Time
Relayed bool
LocalIceCandidateType string
RemoteIceCandidateType string
LocalIceCandidateEndpoint string
RemoteIceCandidateEndpoint string
RelayServerAddress string
LastWireguardHandshake time.Time
BytesTx int64
BytesRx int64
Latency time.Duration
RosenpassEnabled bool
routes map[string]struct{}
}
// AddRoute add a single route to routes map
func (s *State) AddRoute(network string) {
s.Mux.Lock()
defer s.Mux.Unlock()
if s.routes == nil {
s.routes = make(map[string]struct{})
}
s.routes[network] = struct{}{}
}
// SetRoutes set state routes
func (s *State) SetRoutes(routes map[string]struct{}) {
s.Mux.Lock()
defer s.Mux.Unlock()
s.routes = routes
}
// DeleteRoute removes a route from the network amp
func (s *State) DeleteRoute(network string) {
s.Mux.Lock()
defer s.Mux.Unlock()
delete(s.routes, network)
}
// GetRoutes return routes map
func (s *State) GetRoutes() map[string]struct{} {
s.Mux.RLock()
defer s.Mux.RUnlock()
return s.routes
}
// LocalPeerState contains the latest state of the local peer
type LocalPeerState struct {
IP string
PubKey string
KernelInterface bool
FQDN string
Routes map[string]struct{}
}
// SignalState contains the latest state of a signal connection
type SignalState struct {
URL string
Connected bool
Error error
}
// ManagementState contains the latest state of a management connection
type ManagementState struct {
URL string
Connected bool
Error error
}
// RosenpassState contains the latest state of the Rosenpass configuration
type RosenpassState struct {
Enabled bool
Permissive bool
}
// NSGroupState represents the status of a DNS server group, including associated domains,
// whether it's enabled, and the last error message encountered during probing.
type NSGroupState struct {
ID string
Servers []string
Domains []string
Enabled bool
Error error
}
// FullStatus contains the full state held by the Status instance
type FullStatus struct {
Peers []State
ManagementState ManagementState
SignalState SignalState
LocalPeerState LocalPeerState
RosenpassState RosenpassState
Relays []relay.ProbeResult
NSGroupStates []NSGroupState
}
// Status holds a state of peers, signal, management connections and relays
type Status struct {
mux sync.Mutex
peers map[string]State
changeNotify map[string]chan struct{}
signalState bool
signalError error
managementState bool
managementError error
relayStates []relay.ProbeResult
localPeer LocalPeerState
offlinePeers []State
mgmAddress string
signalAddress string
notifier *notifier
rosenpassEnabled bool
rosenpassPermissive bool
nsGroupStates []NSGroupState
resolvedDomainsStates map[domain.Domain][]netip.Prefix
// To reduce the number of notification invocation this bool will be true when need to call the notification
// Some Peer actions mostly used by in a batch when the network map has been synchronized. In these type of events
// set to true this variable and at the end of the processing we will reset it by the FinishPeerListModifications()
peerListChangedForNotification bool
relayMgr *relayClient.Manager
}
// NewRecorder returns a new Status instance
func NewRecorder(mgmAddress string) *Status {
return &Status{
peers: make(map[string]State),
changeNotify: make(map[string]chan struct{}),
offlinePeers: make([]State, 0),
notifier: newNotifier(),
mgmAddress: mgmAddress,
resolvedDomainsStates: make(map[domain.Domain][]netip.Prefix),
}
}
func (d *Status) SetRelayMgr(manager *relayClient.Manager) {
d.mux.Lock()
defer d.mux.Unlock()
d.relayMgr = manager
}
// ReplaceOfflinePeers replaces
func (d *Status) ReplaceOfflinePeers(replacement []State) {
d.mux.Lock()
defer d.mux.Unlock()
d.offlinePeers = make([]State, len(replacement))
copy(d.offlinePeers, replacement)
// todo we should set to true in case if the list changed only
d.peerListChangedForNotification = true
}
// AddPeer adds peer to Daemon status map
func (d *Status) AddPeer(peerPubKey string, fqdn string) error {
d.mux.Lock()
defer d.mux.Unlock()
_, ok := d.peers[peerPubKey]
if ok {
return errors.New("peer already exist")
}
d.peers[peerPubKey] = State{
PubKey: peerPubKey,
ConnStatus: StatusDisconnected,
FQDN: fqdn,
Mux: new(sync.RWMutex),
}
d.peerListChangedForNotification = true
return nil
}
// GetPeer adds peer to Daemon status map
func (d *Status) GetPeer(peerPubKey string) (State, error) {
d.mux.Lock()
defer d.mux.Unlock()
state, ok := d.peers[peerPubKey]
if !ok {
return State{}, configurer.ErrPeerNotFound
}
return state, nil
}
// RemovePeer removes peer from Daemon status map
func (d *Status) RemovePeer(peerPubKey string) error {
d.mux.Lock()
defer d.mux.Unlock()
_, ok := d.peers[peerPubKey]
if !ok {
return errors.New("no peer with to remove")
}
delete(d.peers, peerPubKey)
d.peerListChangedForNotification = true
return nil
}
// UpdatePeerState updates peer status
func (d *Status) UpdatePeerState(receivedState State) error {
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[receivedState.PubKey]
if !ok {
return errors.New("peer doesn't exist")
}
if receivedState.IP != "" {
peerState.IP = receivedState.IP
}
if receivedState.GetRoutes() != nil {
peerState.SetRoutes(receivedState.GetRoutes())
}
skipNotification := shouldSkipNotify(receivedState.ConnStatus, peerState)
if receivedState.ConnStatus != peerState.ConnStatus {
peerState.ConnStatus = receivedState.ConnStatus
peerState.ConnStatusUpdate = receivedState.ConnStatusUpdate
peerState.Relayed = receivedState.Relayed
peerState.LocalIceCandidateType = receivedState.LocalIceCandidateType
peerState.RemoteIceCandidateType = receivedState.RemoteIceCandidateType
peerState.LocalIceCandidateEndpoint = receivedState.LocalIceCandidateEndpoint
peerState.RemoteIceCandidateEndpoint = receivedState.RemoteIceCandidateEndpoint
peerState.RelayServerAddress = receivedState.RelayServerAddress
peerState.RosenpassEnabled = receivedState.RosenpassEnabled
}
d.peers[receivedState.PubKey] = peerState
if skipNotification {
return nil
}
ch, found := d.changeNotify[receivedState.PubKey]
if found && ch != nil {
close(ch)
d.changeNotify[receivedState.PubKey] = nil
}
d.notifyPeerListChanged()
return nil
}
func (d *Status) UpdatePeerICEState(receivedState State) error {
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[receivedState.PubKey]
if !ok {
return errors.New("peer doesn't exist")
}
if receivedState.IP != "" {
peerState.IP = receivedState.IP
}
skipNotification := shouldSkipNotify(receivedState.ConnStatus, peerState)
peerState.ConnStatus = receivedState.ConnStatus
peerState.ConnStatusUpdate = receivedState.ConnStatusUpdate
peerState.Relayed = receivedState.Relayed
peerState.LocalIceCandidateType = receivedState.LocalIceCandidateType
peerState.RemoteIceCandidateType = receivedState.RemoteIceCandidateType
peerState.LocalIceCandidateEndpoint = receivedState.LocalIceCandidateEndpoint
peerState.RemoteIceCandidateEndpoint = receivedState.RemoteIceCandidateEndpoint
peerState.RosenpassEnabled = receivedState.RosenpassEnabled
d.peers[receivedState.PubKey] = peerState
if skipNotification {
return nil
}
ch, found := d.changeNotify[receivedState.PubKey]
if found && ch != nil {
close(ch)
d.changeNotify[receivedState.PubKey] = nil
}
d.notifyPeerListChanged()
return nil
}
func (d *Status) UpdatePeerRelayedState(receivedState State) error {
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[receivedState.PubKey]
if !ok {
return errors.New("peer doesn't exist")
}
skipNotification := shouldSkipNotify(receivedState.ConnStatus, peerState)
peerState.ConnStatus = receivedState.ConnStatus
peerState.ConnStatusUpdate = receivedState.ConnStatusUpdate
peerState.Relayed = receivedState.Relayed
peerState.RelayServerAddress = receivedState.RelayServerAddress
peerState.RosenpassEnabled = receivedState.RosenpassEnabled
d.peers[receivedState.PubKey] = peerState
if skipNotification {
return nil
}
ch, found := d.changeNotify[receivedState.PubKey]
if found && ch != nil {
close(ch)
d.changeNotify[receivedState.PubKey] = nil
}
d.notifyPeerListChanged()
return nil
}
func (d *Status) UpdatePeerRelayedStateToDisconnected(receivedState State) error {
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[receivedState.PubKey]
if !ok {
return errors.New("peer doesn't exist")
}
skipNotification := shouldSkipNotify(receivedState.ConnStatus, peerState)
peerState.ConnStatus = receivedState.ConnStatus
peerState.Relayed = receivedState.Relayed
peerState.ConnStatusUpdate = receivedState.ConnStatusUpdate
peerState.RelayServerAddress = ""
d.peers[receivedState.PubKey] = peerState
if skipNotification {
return nil
}
ch, found := d.changeNotify[receivedState.PubKey]
if found && ch != nil {
close(ch)
d.changeNotify[receivedState.PubKey] = nil
}
d.notifyPeerListChanged()
return nil
}
func (d *Status) UpdatePeerICEStateToDisconnected(receivedState State) error {
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[receivedState.PubKey]
if !ok {
return errors.New("peer doesn't exist")
}
skipNotification := shouldSkipNotify(receivedState.ConnStatus, peerState)
peerState.ConnStatus = receivedState.ConnStatus
peerState.Relayed = receivedState.Relayed
peerState.ConnStatusUpdate = receivedState.ConnStatusUpdate
peerState.LocalIceCandidateType = receivedState.LocalIceCandidateType
peerState.RemoteIceCandidateType = receivedState.RemoteIceCandidateType
peerState.LocalIceCandidateEndpoint = receivedState.LocalIceCandidateEndpoint
peerState.RemoteIceCandidateEndpoint = receivedState.RemoteIceCandidateEndpoint
d.peers[receivedState.PubKey] = peerState
if skipNotification {
return nil
}
ch, found := d.changeNotify[receivedState.PubKey]
if found && ch != nil {
close(ch)
d.changeNotify[receivedState.PubKey] = nil
}
d.notifyPeerListChanged()
return nil
}
// UpdateWireGuardPeerState updates the WireGuard bits of the peer state
func (d *Status) UpdateWireGuardPeerState(pubKey string, wgStats configurer.WGStats) error {
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[pubKey]
if !ok {
return errors.New("peer doesn't exist")
}
peerState.LastWireguardHandshake = wgStats.LastHandshake
peerState.BytesRx = wgStats.RxBytes
peerState.BytesTx = wgStats.TxBytes
d.peers[pubKey] = peerState
return nil
}
func shouldSkipNotify(receivedConnStatus ConnStatus, curr State) bool {
switch {
case receivedConnStatus == StatusConnecting:
return true
case receivedConnStatus == StatusDisconnected && curr.ConnStatus == StatusConnecting:
return true
case receivedConnStatus == StatusDisconnected && curr.ConnStatus == StatusDisconnected:
return curr.IP != ""
default:
return false
}
}
// UpdatePeerFQDN update peer's state fqdn only
func (d *Status) UpdatePeerFQDN(peerPubKey, fqdn string) error {
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[peerPubKey]
if !ok {
return errors.New("peer doesn't exist")
}
peerState.FQDN = fqdn
d.peers[peerPubKey] = peerState
return nil
}
// FinishPeerListModifications this event invoke the notification
func (d *Status) FinishPeerListModifications() {
d.mux.Lock()
if !d.peerListChangedForNotification {
d.mux.Unlock()
return
}
d.peerListChangedForNotification = false
d.mux.Unlock()
d.notifyPeerListChanged()
}
// GetPeerStateChangeNotifier returns a change notifier channel for a peer
func (d *Status) GetPeerStateChangeNotifier(peer string) <-chan struct{} {
d.mux.Lock()
defer d.mux.Unlock()
ch, found := d.changeNotify[peer]
if !found || ch == nil {
ch = make(chan struct{})
d.changeNotify[peer] = ch
}
return ch
}
// GetLocalPeerState returns the local peer state
func (d *Status) GetLocalPeerState() LocalPeerState {
d.mux.Lock()
defer d.mux.Unlock()
return d.localPeer
}
// UpdateLocalPeerState updates local peer status
func (d *Status) UpdateLocalPeerState(localPeerState LocalPeerState) {
d.mux.Lock()
defer d.mux.Unlock()
d.localPeer = localPeerState
d.notifyAddressChanged()
}
// CleanLocalPeerState cleans local peer status
func (d *Status) CleanLocalPeerState() {
d.mux.Lock()
defer d.mux.Unlock()
d.localPeer = LocalPeerState{}
d.notifyAddressChanged()
}
// MarkManagementDisconnected sets ManagementState to disconnected
func (d *Status) MarkManagementDisconnected(err error) {
d.mux.Lock()
defer d.mux.Unlock()
defer d.onConnectionChanged()
d.managementState = false
d.managementError = err
}
// MarkManagementConnected sets ManagementState to connected
func (d *Status) MarkManagementConnected() {
d.mux.Lock()
defer d.mux.Unlock()
defer d.onConnectionChanged()
d.managementState = true
d.managementError = nil
}
// UpdateSignalAddress update the address of the signal server
func (d *Status) UpdateSignalAddress(signalURL string) {
d.mux.Lock()
defer d.mux.Unlock()
d.signalAddress = signalURL
}
// UpdateManagementAddress update the address of the management server
func (d *Status) UpdateManagementAddress(mgmAddress string) {
d.mux.Lock()
defer d.mux.Unlock()
d.mgmAddress = mgmAddress
}
// UpdateRosenpass update the Rosenpass configuration
func (d *Status) UpdateRosenpass(rosenpassEnabled, rosenpassPermissive bool) {
d.mux.Lock()
defer d.mux.Unlock()
d.rosenpassPermissive = rosenpassPermissive
d.rosenpassEnabled = rosenpassEnabled
}
// MarkSignalDisconnected sets SignalState to disconnected
func (d *Status) MarkSignalDisconnected(err error) {
d.mux.Lock()
defer d.mux.Unlock()
defer d.onConnectionChanged()
d.signalState = false
d.signalError = err
}
// MarkSignalConnected sets SignalState to connected
func (d *Status) MarkSignalConnected() {
d.mux.Lock()
defer d.mux.Unlock()
defer d.onConnectionChanged()
d.signalState = true
d.signalError = nil
}
func (d *Status) UpdateRelayStates(relayResults []relay.ProbeResult) {
d.mux.Lock()
defer d.mux.Unlock()
d.relayStates = relayResults
}
func (d *Status) UpdateDNSStates(dnsStates []NSGroupState) {
d.mux.Lock()
defer d.mux.Unlock()
d.nsGroupStates = dnsStates
}
func (d *Status) UpdateResolvedDomainsStates(domain domain.Domain, prefixes []netip.Prefix) {
d.mux.Lock()
defer d.mux.Unlock()
d.resolvedDomainsStates[domain] = prefixes
}
func (d *Status) DeleteResolvedDomainsStates(domain domain.Domain) {
d.mux.Lock()
defer d.mux.Unlock()
delete(d.resolvedDomainsStates, domain)
}
func (d *Status) GetRosenpassState() RosenpassState {
d.mux.Lock()
defer d.mux.Unlock()
return RosenpassState{
d.rosenpassEnabled,
d.rosenpassPermissive,
}
}
func (d *Status) GetManagementState() ManagementState {
d.mux.Lock()
defer d.mux.Unlock()
return ManagementState{
d.mgmAddress,
d.managementState,
d.managementError,
}
}
func (d *Status) UpdateLatency(pubKey string, latency time.Duration) error {
if latency <= 0 {
return nil
}
d.mux.Lock()
defer d.mux.Unlock()
peerState, ok := d.peers[pubKey]
if !ok {
return errors.New("peer doesn't exist")
}
peerState.Latency = latency
d.peers[pubKey] = peerState
return nil
}
// IsLoginRequired determines if a peer's login has expired.
func (d *Status) IsLoginRequired() bool {
d.mux.Lock()
defer d.mux.Unlock()
// if peer is connected to the management then login is not expired
if d.managementState {
return false
}
s, ok := gstatus.FromError(d.managementError)
if ok && (s.Code() == codes.InvalidArgument || s.Code() == codes.PermissionDenied) {
return true
}
return false
}
func (d *Status) GetSignalState() SignalState {
d.mux.Lock()
defer d.mux.Unlock()
return SignalState{
d.signalAddress,
d.signalState,
d.signalError,
}
}
// GetRelayStates returns the stun/turn/permanent relay states
func (d *Status) GetRelayStates() []relay.ProbeResult {
d.mux.Lock()
defer d.mux.Unlock()
if d.relayMgr == nil {
return d.relayStates
}
// extend the list of stun, turn servers with relay address
relayStates := slices.Clone(d.relayStates)
var relayState relay.ProbeResult
// if the server connection is not established then we will use the general address
// in case of connection we will use the instance specific address
instanceAddr, err := d.relayMgr.RelayInstanceAddress()
if err != nil {
// TODO add their status
if errors.Is(err, relayClient.ErrRelayClientNotConnected) {
for _, r := range d.relayMgr.ServerURLs() {
relayStates = append(relayStates, relay.ProbeResult{
URI: r,
})
}
return relayStates
}
relayState.Err = err
}
relayState.URI = instanceAddr
return append(relayStates, relayState)
}
func (d *Status) GetDNSStates() []NSGroupState {
d.mux.Lock()
defer d.mux.Unlock()
return d.nsGroupStates
}
func (d *Status) GetResolvedDomainsStates() map[domain.Domain][]netip.Prefix {
d.mux.Lock()
defer d.mux.Unlock()
return maps.Clone(d.resolvedDomainsStates)
}
// GetFullStatus gets full status
func (d *Status) GetFullStatus() FullStatus {
fullStatus := FullStatus{
ManagementState: d.GetManagementState(),
SignalState: d.GetSignalState(),
Relays: d.GetRelayStates(),
RosenpassState: d.GetRosenpassState(),
NSGroupStates: d.GetDNSStates(),
}
d.mux.Lock()
defer d.mux.Unlock()
fullStatus.LocalPeerState = d.localPeer
for _, status := range d.peers {
fullStatus.Peers = append(fullStatus.Peers, status)
}
fullStatus.Peers = append(fullStatus.Peers, d.offlinePeers...)
return fullStatus
}
// ClientStart will notify all listeners about the new service state
func (d *Status) ClientStart() {
d.notifier.clientStart()
}
// ClientStop will notify all listeners about the new service state
func (d *Status) ClientStop() {
d.notifier.clientStop()
}
// ClientTeardown will notify all listeners about the service is under teardown
func (d *Status) ClientTeardown() {
d.notifier.clientTearDown()
}
// SetConnectionListener set a listener to the notifier
func (d *Status) SetConnectionListener(listener Listener) {
d.notifier.setListener(listener)
}
// RemoveConnectionListener remove the listener from the notifier
func (d *Status) RemoveConnectionListener() {
d.notifier.removeListener()
}
func (d *Status) onConnectionChanged() {
d.notifier.updateServerStates(d.managementState, d.signalState)
}
func (d *Status) notifyPeerListChanged() {
d.notifier.peerListChanged(d.numOfPeers())
}
func (d *Status) notifyAddressChanged() {
d.notifier.localAddressChanged(d.localPeer.FQDN, d.localPeer.IP)
}
func (d *Status) numOfPeers() int {
return len(d.peers) + len(d.offlinePeers)
}