Files
netbird/client/internal/peer/status_test.go
Zoltán Papp 61da51ed2e client/peer: don't fan out unchanged management/signal state
MarkManagement{Connected,Disconnected} and MarkSignal{Connected,
Disconnected} fired notifyStateChange unconditionally. The connect
goroutine re-marks the same state on every health-check cycle, so a
steady "connected -> connected" re-mark pushed a full SubscribeStatus
snapshot to every consumer each time — flooding the desktop UI (and its
tray) with identical Connected snapshots.

Guard each with an early return when neither the state nor the error
actually changed, so only real transitions wake SubscribeStatus
subscribers. The notifier already deduplicates, so collapsing both calls
under one guard is safe.
2026-06-01 21:11:32 +02:00

314 lines
8.4 KiB
Go

package peer
import (
"context"
"errors"
"sync"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
func TestAddPeer(t *testing.T) {
key := "abc"
ip := "100.108.254.1"
status := NewRecorder("https://mgm")
err := status.AddPeer(key, "abc.netbird", ip, "")
assert.NoError(t, err, "shouldn't return error")
_, exists := status.peers[key]
assert.True(t, exists, "value was found")
err = status.AddPeer(key, "abc.netbird", ip, "")
assert.Error(t, err, "should return error on duplicate")
}
func TestGetPeer(t *testing.T) {
key := "abc"
ip := "100.108.254.1"
status := NewRecorder("https://mgm")
err := status.AddPeer(key, "abc.netbird", ip, "")
assert.NoError(t, err, "shouldn't return error")
peerStatus, err := status.GetPeer(key)
assert.NoError(t, err, "shouldn't return error on getting peer")
assert.Equal(t, key, peerStatus.PubKey, "retrieved public key should match")
_, err = status.GetPeer("non_existing_key")
assert.Error(t, err, "should return error when peer doesn't exist")
}
func TestUpdatePeerState(t *testing.T) {
key := "abc"
ip := "10.10.10.10"
fqdn := "peer-a.netbird.local"
status := NewRecorder("https://mgm")
require.NoError(t, status.AddPeer(key, fqdn, ip, ""))
peerState := State{
PubKey: key,
ConnStatusUpdate: time.Now(),
ConnStatus: StatusConnecting,
}
err := status.UpdatePeerState(peerState)
assert.NoError(t, err, "shouldn't return error")
state, exists := status.peers[key]
assert.True(t, exists, "state should be found")
assert.Equal(t, ip, state.IP, "ip should be equal")
}
func TestStatus_PeerStateByIP(t *testing.T) {
status := NewRecorder("https://mgm")
req := require.New(t)
req.NoError(status.AddPeer("pk-1", "peer-1.netbird", "100.64.0.10", ""))
req.NoError(status.AddPeer("pk-2", "peer-2.netbird", "100.64.0.11", ""))
state, ok := status.PeerStateByIP("100.64.0.10")
req.True(ok, "known tunnel IP should resolve to a peer state")
req.Equal("pk-1", state.PubKey, "matching state must carry the right pub key")
req.Equal("peer-1.netbird", state.FQDN, "matching state must carry the right FQDN")
_, ok = status.PeerStateByIP("100.64.0.99")
req.False(ok, "unknown IP must report ok=false")
}
func TestStatus_PeerStateByIP_MatchesIPv6(t *testing.T) {
status := NewRecorder("https://mgm")
req := require.New(t)
req.NoError(status.AddPeer("pk-1", "peer-1.netbird", "100.64.0.10", "fd00::1"))
state, ok := status.PeerStateByIP("fd00::1")
req.True(ok, "IPv6-only match must resolve to the peer state")
req.Equal("pk-1", state.PubKey, "matching state must carry the right pub key")
}
func TestStatus_UpdatePeerFQDN(t *testing.T) {
key := "abc"
fqdn := "peer-a.netbird.local"
status := NewRecorder("https://mgm")
peerState := State{
PubKey: key,
Mux: new(sync.RWMutex),
}
status.peers[key] = peerState
err := status.UpdatePeerFQDN(key, fqdn)
assert.NoError(t, err, "shouldn't return error")
state, exists := status.peers[key]
assert.True(t, exists, "state should be found")
assert.Equal(t, fqdn, state.FQDN, "fqdn should be equal")
}
func TestGetPeerStateChangeNotifierLogic(t *testing.T) {
key := "abc"
ip := "10.10.10.10"
status := NewRecorder("https://mgm")
_ = status.AddPeer(key, "abc.netbird", ip, "")
sub := status.SubscribeToPeerStateChanges(context.Background(), key)
assert.NotNil(t, sub, "channel shouldn't be nil")
peerState := State{
PubKey: key,
ConnStatus: StatusConnecting,
Relayed: false,
ConnStatusUpdate: time.Now(),
}
err := status.UpdatePeerRelayedStateToDisconnected(peerState)
assert.NoError(t, err, "shouldn't return error")
timeoutCtx, cancel := context.WithTimeout(context.Background(), 1*time.Second)
defer cancel()
select {
case <-sub.eventsChan:
case <-timeoutCtx.Done():
t.Errorf("timed out waiting for event")
}
}
func TestRemovePeer(t *testing.T) {
key := "abc"
status := NewRecorder("https://mgm")
peerState := State{
PubKey: key,
Mux: new(sync.RWMutex),
}
status.peers[key] = peerState
err := status.RemovePeer(key)
assert.NoError(t, err, "shouldn't return error")
_, exists := status.peers[key]
assert.False(t, exists, "state value shouldn't be found")
err = status.RemovePeer("not existing")
assert.Error(t, err, "should return error when peer doesn't exist")
}
func TestUpdateLocalPeerState(t *testing.T) {
localPeerState := LocalPeerState{
IP: "10.10.10.10",
PubKey: "abc",
KernelInterface: false,
}
status := NewRecorder("https://mgm")
status.UpdateLocalPeerState(localPeerState)
assert.Equal(t, localPeerState, status.localPeer, "local peer status should be equal")
}
func TestCleanLocalPeerState(t *testing.T) {
emptyLocalPeerState := LocalPeerState{}
localPeerState := LocalPeerState{
IP: "10.10.10.10",
PubKey: "abc",
KernelInterface: false,
}
status := NewRecorder("https://mgm")
status.localPeer = localPeerState
status.CleanLocalPeerState()
assert.Equal(t, emptyLocalPeerState, status.localPeer, "local peer status should be empty")
}
func TestUpdateSignalState(t *testing.T) {
url := "https://signal"
var tests = []struct {
name string
connected bool
want bool
err error
}{
{"should mark as connected", true, true, nil},
{"should mark as disconnected", false, false, errors.New("test")},
}
status := NewRecorder("https://mgm")
status.UpdateSignalAddress(url)
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
if test.connected {
status.MarkSignalConnected()
} else {
status.MarkSignalDisconnected(test.err)
}
assert.Equal(t, test.want, status.signalState, "signal status should be equal")
assert.Equal(t, test.err, status.signalError)
})
}
}
func TestUpdateManagementState(t *testing.T) {
url := "https://management"
var tests = []struct {
name string
connected bool
want bool
err error
}{
{"should mark as connected", true, true, nil},
{"should mark as disconnected", false, false, errors.New("test")},
}
status := NewRecorder(url)
for _, test := range tests {
t.Run(test.name, func(t *testing.T) {
if test.connected {
status.MarkManagementConnected()
} else {
status.MarkManagementDisconnected(test.err)
}
assert.Equal(t, test.want, status.managementState, "signalState status should be equal")
assert.Equal(t, test.err, status.managementError)
})
}
}
func TestGetFullStatus(t *testing.T) {
key1 := "abc"
key2 := "def"
signalAddr := "https://signal"
managementState := ManagementState{
URL: "https://mgm",
Connected: true,
}
signalState := SignalState{
URL: signalAddr,
Connected: true,
}
peerState1 := State{
PubKey: key1,
}
peerState2 := State{
PubKey: key2,
}
status := NewRecorder("https://mgm")
status.UpdateSignalAddress(signalAddr)
status.managementState = managementState.Connected
status.signalState = signalState.Connected
status.peers[key1] = peerState1
status.peers[key2] = peerState2
fullStatus := status.GetFullStatus()
assert.Equal(t, managementState, fullStatus.ManagementState, "management status should be equal")
assert.Equal(t, signalState, fullStatus.SignalState, "signal status should be equal")
assert.ElementsMatch(t, []State{peerState1, peerState2}, fullStatus.Peers, "peers states should match")
}
// notified reports whether a state-change tick is pending on ch, draining it.
func notified(ch <-chan struct{}) bool {
select {
case <-ch:
return true
default:
return false
}
}
func TestMarkServerStateDoesNotNotifyWhenUnchanged(t *testing.T) {
status := NewRecorder("https://mgm")
_, ch := status.SubscribeToStateChanges()
// First transition is a real change and must notify.
status.MarkManagementConnected()
require.True(t, notified(ch), "first connect should notify")
// Re-marking the same state must not notify again.
status.MarkManagementConnected()
assert.False(t, notified(ch), "redundant connect should not notify")
// Same for signal.
status.MarkSignalConnected()
require.True(t, notified(ch), "first signal connect should notify")
status.MarkSignalConnected()
assert.False(t, notified(ch), "redundant signal connect should not notify")
// A genuine change (disconnect with an error) notifies again.
err := errors.New("boom")
status.MarkManagementDisconnected(err)
require.True(t, notified(ch), "disconnect should notify")
status.MarkManagementDisconnected(err)
assert.False(t, notified(ch), "redundant disconnect should not notify")
}