package server import ( "fmt" "strconv" "testing" "time" "github.com/google/uuid" "github.com/stretchr/testify/assert" "github.com/netbirdio/netbird/management/server/activity" ) func TestDefaultAccountManager_SaveSetupKey(t *testing.T) { manager, err := createManager(t) if err != nil { t.Fatal(err) } userID := "test_user" account, err := manager.GetOrCreateAccountByUser(userID, "") if err != nil { t.Fatal(err) } err = manager.SaveGroup(account.Id, userID, &Group{ ID: "group_1", Name: "group_name_1", Peers: []string{}, }) if err != nil { t.Fatal(err) } expiresIn := time.Hour keyName := "my-test-key" key, err := manager.CreateSetupKey(account.Id, keyName, SetupKeyReusable, expiresIn, []string{}, SetupKeyUnlimitedUsage, userID, false) if err != nil { t.Fatal(err) } autoGroups := []string{"group_1", "group_2"} newKeyName := "my-new-test-key" revoked := true newKey, err := manager.SaveSetupKey(account.Id, &SetupKey{ Id: key.Id, Name: newKeyName, Revoked: revoked, AutoGroups: autoGroups, }, userID) if err != nil { t.Fatal(err) } assertKey(t, newKey, newKeyName, revoked, "reusable", 0, key.CreatedAt, key.ExpiresAt, key.Id, time.Now().UTC(), autoGroups) // check the corresponding events that should have been generated ev := getEvent(t, account.Id, manager, activity.SetupKeyRevoked) assert.NotNil(t, ev) assert.Equal(t, account.Id, ev.AccountID) assert.Equal(t, newKeyName, ev.Meta["name"]) assert.Equal(t, fmt.Sprint(key.Type), fmt.Sprint(ev.Meta["type"])) assert.NotEmpty(t, ev.Meta["key"]) assert.Equal(t, userID, ev.InitiatorID) assert.Equal(t, key.Id, ev.TargetID) } func TestDefaultAccountManager_CreateSetupKey(t *testing.T) { manager, err := createManager(t) if err != nil { t.Fatal(err) } userID := "test_user" account, err := manager.GetOrCreateAccountByUser(userID, "") if err != nil { t.Fatal(err) } err = manager.SaveGroup(account.Id, userID, &Group{ ID: "group_1", Name: "group_name_1", Peers: []string{}, }) if err != nil { t.Fatal(err) } err = manager.SaveGroup(account.Id, userID, &Group{ ID: "group_2", Name: "group_name_2", Peers: []string{}, }) if err != nil { t.Fatal(err) } type testCase struct { name string expectedKeyName string expectedUsedTimes int expectedType string expectedGroups []string expectedCreatedAt time.Time expectedUpdatedAt time.Time expectedExpiresAt time.Time expectedFailure bool // indicates whether key creation should fail } now := time.Now().UTC() expiresIn := time.Hour testCase1 := testCase{ name: "Should Create Setup Key successfully", expectedKeyName: "my-test-key", expectedUsedTimes: 0, expectedType: "reusable", expectedGroups: []string{"group_1", "group_2"}, expectedCreatedAt: now, expectedUpdatedAt: now, expectedExpiresAt: now.Add(expiresIn), expectedFailure: false, } testCase2 := testCase{ name: "Create Setup Key should fail because of unexistent group", expectedKeyName: "my-test-key", expectedGroups: []string{"FAKE"}, expectedFailure: true, } for _, tCase := range []testCase{testCase1, testCase2} { t.Run(tCase.name, func(t *testing.T) { key, err := manager.CreateSetupKey(account.Id, tCase.expectedKeyName, SetupKeyReusable, expiresIn, tCase.expectedGroups, SetupKeyUnlimitedUsage, userID, false) if tCase.expectedFailure { if err == nil { t.Fatal("expected to fail") } return } if err != nil { t.Fatal(err) } assertKey(t, key, tCase.expectedKeyName, false, tCase.expectedType, tCase.expectedUsedTimes, tCase.expectedCreatedAt, tCase.expectedExpiresAt, strconv.Itoa(int(Hash(key.Key))), tCase.expectedUpdatedAt, tCase.expectedGroups) // check the corresponding events that should have been generated ev := getEvent(t, account.Id, manager, activity.SetupKeyCreated) assert.NotNil(t, ev) assert.Equal(t, account.Id, ev.AccountID) assert.Equal(t, tCase.expectedKeyName, ev.Meta["name"]) assert.Equal(t, tCase.expectedType, fmt.Sprint(ev.Meta["type"])) assert.NotEmpty(t, ev.Meta["key"]) }) } } func TestGenerateDefaultSetupKey(t *testing.T) { expectedName := "Default key" expectedRevoke := false expectedType := "reusable" expectedUsedTimes := 0 expectedCreatedAt := time.Now().UTC() expectedUpdatedAt := time.Now().UTC() expectedExpiresAt := time.Now().UTC().Add(24 * 30 * time.Hour) var expectedAutoGroups []string key := GenerateDefaultSetupKey() assertKey(t, key, expectedName, expectedRevoke, expectedType, expectedUsedTimes, expectedCreatedAt, expectedExpiresAt, strconv.Itoa(int(Hash(key.Key))), expectedUpdatedAt, expectedAutoGroups) } func TestGenerateSetupKey(t *testing.T) { expectedName := "key" expectedRevoke := false expectedType := "one-off" expectedUsedTimes := 0 expectedCreatedAt := time.Now().UTC() expectedExpiresAt := time.Now().UTC().Add(time.Hour) expectedUpdatedAt := time.Now().UTC() var expectedAutoGroups []string key := GenerateSetupKey(expectedName, SetupKeyOneOff, time.Hour, []string{}, SetupKeyUnlimitedUsage, false) assertKey(t, key, expectedName, expectedRevoke, expectedType, expectedUsedTimes, expectedCreatedAt, expectedExpiresAt, strconv.Itoa(int(Hash(key.Key))), expectedUpdatedAt, expectedAutoGroups) } func TestSetupKey_IsValid(t *testing.T) { validKey := GenerateSetupKey("valid key", SetupKeyOneOff, time.Hour, []string{}, SetupKeyUnlimitedUsage, false) if !validKey.IsValid() { t.Errorf("expected key to be valid, got invalid %v", validKey) } // expired expiredKey := GenerateSetupKey("invalid key", SetupKeyOneOff, -time.Hour, []string{}, SetupKeyUnlimitedUsage, false) if expiredKey.IsValid() { t.Errorf("expected key to be invalid due to expiration, got valid %v", expiredKey) } // revoked revokedKey := GenerateSetupKey("invalid key", SetupKeyOneOff, time.Hour, []string{}, SetupKeyUnlimitedUsage, false) revokedKey.Revoked = true if revokedKey.IsValid() { t.Errorf("expected revoked key to be invalid, got valid %v", revokedKey) } // overused overUsedKey := GenerateSetupKey("invalid key", SetupKeyOneOff, time.Hour, []string{}, SetupKeyUnlimitedUsage, false) overUsedKey.UsedTimes = 1 if overUsedKey.IsValid() { t.Errorf("expected overused key to be invalid, got valid %v", overUsedKey) } // overused reusableKey := GenerateSetupKey("valid key", SetupKeyReusable, time.Hour, []string{}, SetupKeyUnlimitedUsage, false) reusableKey.UsedTimes = 99 if !reusableKey.IsValid() { t.Errorf("expected reusable key to be valid when used many times, got valid %v", reusableKey) } } func assertKey(t *testing.T, key *SetupKey, expectedName string, expectedRevoke bool, expectedType string, expectedUsedTimes int, expectedCreatedAt time.Time, expectedExpiresAt time.Time, expectedID string, expectedUpdatedAt time.Time, expectedAutoGroups []string) { if key.Name != expectedName { t.Errorf("expected setup key to have Name %v, got %v", expectedName, key.Name) } if key.Revoked != expectedRevoke { t.Errorf("expected setup key to have Revoke %v, got %v", expectedRevoke, key.Revoked) } if string(key.Type) != expectedType { t.Errorf("expected setup key to have Type %v, got %v", expectedType, key.Type) } if key.UsedTimes != expectedUsedTimes { t.Errorf("expected setup key to have UsedTimes = %v, got %v", expectedUsedTimes, key.UsedTimes) } if key.ExpiresAt.Sub(expectedExpiresAt).Round(time.Hour) != 0 { t.Errorf("expected setup key to have ExpiresAt ~ %v, got %v", expectedExpiresAt, key.ExpiresAt) } if key.UpdatedAt.Sub(expectedUpdatedAt).Round(time.Hour) != 0 { t.Errorf("expected setup key to have UpdatedAt ~ %v, got %v", expectedUpdatedAt, key.UpdatedAt) } if key.CreatedAt.Sub(expectedCreatedAt).Round(time.Hour) != 0 { t.Errorf("expected setup key to have CreatedAt ~ %v, got %v", expectedCreatedAt, key.CreatedAt) } _, err := uuid.Parse(key.Key) if err != nil { t.Errorf("expected key to be a valid UUID, got %v, %v", key.Key, err) } if key.Id != strconv.Itoa(int(Hash(key.Key))) { t.Errorf("expected key Id t= %v, got %v", expectedID, key.Id) } if len(key.AutoGroups) != len(expectedAutoGroups) { t.Errorf("expected key AutoGroups size=%d, got %d", len(expectedAutoGroups), len(key.AutoGroups)) } assert.ElementsMatch(t, key.AutoGroups, expectedAutoGroups, "expected key AutoGroups to be equal") } func TestSetupKey_Copy(t *testing.T) { key := GenerateSetupKey("key name", SetupKeyOneOff, time.Hour, []string{}, SetupKeyUnlimitedUsage, false) keyCopy := key.Copy() assertKey(t, keyCopy, key.Name, key.Revoked, string(key.Type), key.UsedTimes, key.CreatedAt, key.ExpiresAt, key.Id, key.UpdatedAt, key.AutoGroups) }