package peer import ( "errors" "sync" "testing" "github.com/stretchr/testify/assert" ) func TestAddPeer(t *testing.T) { key := "abc" status := NewRecorder("https://mgm") err := status.AddPeer(key, "abc.netbird") 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") assert.Error(t, err, "should return error on duplicate") } func TestGetPeer(t *testing.T) { key := "abc" status := NewRecorder("https://mgm") err := status.AddPeer(key, "abc.netbird") 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" status := NewRecorder("https://mgm") peerState := State{ PubKey: key, Mux: new(sync.RWMutex), } status.peers[key] = peerState peerState.IP = ip 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_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") peerState := State{ PubKey: key, Mux: new(sync.RWMutex), } status.peers[key] = peerState ch := status.GetPeerStateChangeNotifier(key) assert.NotNil(t, ch, "channel shouldn't be nil") peerState.IP = ip err := status.UpdatePeerState(peerState) assert.NoError(t, err, "shouldn't return error") select { case <-ch: default: t.Errorf("channel wasn't closed after update") } } 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") }