package store import ( "testing" "time" "github.com/TwiN/gatus/v3/core" "github.com/TwiN/gatus/v3/storage" "github.com/TwiN/gatus/v3/storage/store/common" "github.com/TwiN/gatus/v3/storage/store/common/paging" "github.com/TwiN/gatus/v3/storage/store/memory" "github.com/TwiN/gatus/v3/storage/store/sql" ) var ( firstCondition = core.Condition("[STATUS] == 200") secondCondition = core.Condition("[RESPONSE_TIME] < 500") thirdCondition = core.Condition("[CERTIFICATE_EXPIRATION] < 72h") now = time.Now().Truncate(time.Hour) testEndpoint = core.Endpoint{ Name: "name", Group: "group", URL: "https://example.org/what/ever", Method: "GET", Body: "body", Interval: 30 * time.Second, Conditions: []core.Condition{firstCondition, secondCondition, thirdCondition}, Alerts: nil, NumberOfFailuresInARow: 0, NumberOfSuccessesInARow: 0, } testSuccessfulResult = core.Result{ Timestamp: now, Success: true, Hostname: "example.org", IP: "127.0.0.1", HTTPStatus: 200, Errors: nil, Connected: true, Duration: 150 * time.Millisecond, CertificateExpiration: 10 * time.Hour, ConditionResults: []*core.ConditionResult{ { Condition: "[STATUS] == 200", Success: true, }, { Condition: "[RESPONSE_TIME] < 500", Success: true, }, { Condition: "[CERTIFICATE_EXPIRATION] < 72h", Success: true, }, }, } testUnsuccessfulResult = core.Result{ Timestamp: now, Success: false, Hostname: "example.org", IP: "127.0.0.1", HTTPStatus: 200, Errors: []string{"error-1", "error-2"}, Connected: true, Duration: 750 * time.Millisecond, CertificateExpiration: 10 * time.Hour, ConditionResults: []*core.ConditionResult{ { Condition: "[STATUS] == 200", Success: true, }, { Condition: "[RESPONSE_TIME] < 500", Success: false, }, { Condition: "[CERTIFICATE_EXPIRATION] < 72h", Success: false, }, }, } ) type Scenario struct { Name string Store Store } func initStoresAndBaseScenarios(t *testing.T, testName string) []*Scenario { memoryStore, err := memory.NewStore("") if err != nil { t.Fatal("failed to create store:", err.Error()) } sqliteStore, err := sql.NewStore("sqlite", t.TempDir()+"/"+testName+".db") if err != nil { t.Fatal("failed to create store:", err.Error()) } return []*Scenario{ { Name: "memory", Store: memoryStore, }, { Name: "sqlite", Store: sqliteStore, }, } } func cleanUp(scenarios []*Scenario) { for _, scenario := range scenarios { scenario.Store.Close() } } func TestStore_GetEndpointStatusByKey(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetEndpointStatusByKey") defer cleanUp(scenarios) firstResult := testSuccessfulResult firstResult.Timestamp = now.Add(-time.Minute) secondResult := testUnsuccessfulResult secondResult.Timestamp = now for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &firstResult) scenario.Store.Insert(&testEndpoint, &secondResult) endpointStatus, err := scenario.Store.GetEndpointStatusByKey(testEndpoint.Key(), paging.NewEndpointStatusParams().WithEvents(1, common.MaximumNumberOfEvents).WithResults(1, common.MaximumNumberOfResults)) if err != nil { t.Fatal("shouldn't have returned an error, got", err.Error()) } if endpointStatus == nil { t.Fatalf("endpointStatus shouldn't have been nil") } if endpointStatus.Name != testEndpoint.Name { t.Fatalf("endpointStatus.Name should've been %s, got %s", testEndpoint.Name, endpointStatus.Name) } if endpointStatus.Group != testEndpoint.Group { t.Fatalf("endpointStatus.Group should've been %s, got %s", testEndpoint.Group, endpointStatus.Group) } if len(endpointStatus.Results) != 2 { t.Fatalf("endpointStatus.Results should've had 2 entries") } if endpointStatus.Results[0].Timestamp.After(endpointStatus.Results[1].Timestamp) { t.Error("The result at index 0 should've been older than the result at index 1") } scenario.Store.Clear() }) } } func TestStore_GetEndpointStatusForMissingStatusReturnsNil(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetEndpointStatusForMissingStatusReturnsNil") defer cleanUp(scenarios) for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &testSuccessfulResult) endpointStatus, err := scenario.Store.GetEndpointStatus("nonexistantgroup", "nonexistantname", paging.NewEndpointStatusParams().WithEvents(1, common.MaximumNumberOfEvents).WithResults(1, common.MaximumNumberOfResults)) if err != common.ErrEndpointNotFound { t.Error("should've returned ErrEndpointNotFound, got", err) } if endpointStatus != nil { t.Errorf("Returned endpoint status for group '%s' and name '%s' not nil after inserting the endpoint into the store", testEndpoint.Group, testEndpoint.Name) } endpointStatus, err = scenario.Store.GetEndpointStatus(testEndpoint.Group, "nonexistantname", paging.NewEndpointStatusParams().WithEvents(1, common.MaximumNumberOfEvents).WithResults(1, common.MaximumNumberOfResults)) if err != common.ErrEndpointNotFound { t.Error("should've returned ErrEndpointNotFound, got", err) } if endpointStatus != nil { t.Errorf("Returned endpoint status for group '%s' and name '%s' not nil after inserting the endpoint into the store", testEndpoint.Group, "nonexistantname") } endpointStatus, err = scenario.Store.GetEndpointStatus("nonexistantgroup", testEndpoint.Name, paging.NewEndpointStatusParams().WithEvents(1, common.MaximumNumberOfEvents).WithResults(1, common.MaximumNumberOfResults)) if err != common.ErrEndpointNotFound { t.Error("should've returned ErrEndpointNotFound, got", err) } if endpointStatus != nil { t.Errorf("Returned endpoint status for group '%s' and name '%s' not nil after inserting the endpoint into the store", "nonexistantgroup", testEndpoint.Name) } }) } } func TestStore_GetAllEndpointStatuses(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetAllEndpointStatuses") defer cleanUp(scenarios) for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &testSuccessfulResult) scenario.Store.Insert(&testEndpoint, &testUnsuccessfulResult) endpointStatuses, err := scenario.Store.GetAllEndpointStatuses(paging.NewEndpointStatusParams().WithResults(1, 20)) if err != nil { t.Error("shouldn't have returned an error, got", err.Error()) } if len(endpointStatuses) != 1 { t.Fatal("expected 1 endpoint status") } actual := endpointStatuses[0] if actual == nil { t.Fatal("expected endpoint status to exist") } if len(actual.Results) != 2 { t.Error("expected 2 results, got", len(actual.Results)) } if len(actual.Events) != 0 { t.Error("expected 0 events, got", len(actual.Events)) } scenario.Store.Clear() }) t.Run(scenario.Name+"-page-2", func(t *testing.T) { otherEndpoint := testEndpoint otherEndpoint.Name = testEndpoint.Name + "-other" scenario.Store.Insert(&testEndpoint, &testSuccessfulResult) scenario.Store.Insert(&otherEndpoint, &testSuccessfulResult) scenario.Store.Insert(&otherEndpoint, &testSuccessfulResult) scenario.Store.Insert(&otherEndpoint, &testSuccessfulResult) endpointStatuses, err := scenario.Store.GetAllEndpointStatuses(paging.NewEndpointStatusParams().WithResults(2, 2)) if err != nil { t.Error("shouldn't have returned an error, got", err.Error()) } if len(endpointStatuses) != 2 { t.Fatal("expected 2 endpoint statuses") } if endpointStatuses[0] == nil || endpointStatuses[1] == nil { t.Fatal("expected endpoint status to exist") } if len(endpointStatuses[0].Results) != 0 { t.Error("expected 0 results on the first endpoint, got", len(endpointStatuses[0].Results)) } if len(endpointStatuses[1].Results) != 1 { t.Error("expected 1 result on the second endpoint, got", len(endpointStatuses[1].Results)) } if len(endpointStatuses[0].Events) != 0 { t.Error("expected 0 events on the first endpoint, got", len(endpointStatuses[0].Events)) } if len(endpointStatuses[1].Events) != 0 { t.Error("expected 0 events on the second endpoint, got", len(endpointStatuses[1].Events)) } scenario.Store.Clear() }) } } func TestStore_GetAllEndpointStatusesWithResultsAndEvents(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetAllEndpointStatusesWithResultsAndEvents") defer cleanUp(scenarios) firstResult := testSuccessfulResult secondResult := testUnsuccessfulResult for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &firstResult) scenario.Store.Insert(&testEndpoint, &secondResult) // Can't be bothered dealing with timezone issues on the worker that runs the automated tests endpointStatuses, err := scenario.Store.GetAllEndpointStatuses(paging.NewEndpointStatusParams().WithResults(1, 20).WithEvents(1, 50)) if err != nil { t.Error("shouldn't have returned an error, got", err.Error()) } if len(endpointStatuses) != 1 { t.Fatal("expected 1 endpoint status") } actual := endpointStatuses[0] if actual == nil { t.Fatal("expected endpoint status to exist") } if len(actual.Results) != 2 { t.Error("expected 2 results, got", len(actual.Results)) } if len(actual.Events) != 3 { t.Error("expected 3 events, got", len(actual.Events)) } scenario.Store.Clear() }) } } func TestStore_GetEndpointStatusPage1IsHasMoreRecentResultsThanPage2(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetEndpointStatusPage1IsHasMoreRecentResultsThanPage2") defer cleanUp(scenarios) firstResult := testSuccessfulResult firstResult.Timestamp = now.Add(-time.Minute) secondResult := testUnsuccessfulResult secondResult.Timestamp = now for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &firstResult) scenario.Store.Insert(&testEndpoint, &secondResult) endpointStatusPage1, err := scenario.Store.GetEndpointStatusByKey(testEndpoint.Key(), paging.NewEndpointStatusParams().WithResults(1, 1)) if err != nil { t.Error("shouldn't have returned an error, got", err.Error()) } if endpointStatusPage1 == nil { t.Fatalf("endpointStatusPage1 shouldn't have been nil") } if len(endpointStatusPage1.Results) != 1 { t.Fatalf("endpointStatusPage1 should've had 1 result") } endpointStatusPage2, err := scenario.Store.GetEndpointStatusByKey(testEndpoint.Key(), paging.NewEndpointStatusParams().WithResults(2, 1)) if err != nil { t.Error("shouldn't have returned an error, got", err.Error()) } if endpointStatusPage2 == nil { t.Fatalf("endpointStatusPage2 shouldn't have been nil") } if len(endpointStatusPage2.Results) != 1 { t.Fatalf("endpointStatusPage2 should've had 1 result") } // Compare the timestamp of both pages if !endpointStatusPage1.Results[0].Timestamp.After(endpointStatusPage2.Results[0].Timestamp) { t.Errorf("The result from the first page should've been more recent than the results from the second page") } scenario.Store.Clear() }) } } func TestStore_GetUptimeByKey(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetUptimeByKey") defer cleanUp(scenarios) firstResult := testSuccessfulResult firstResult.Timestamp = now.Add(-time.Minute) secondResult := testUnsuccessfulResult secondResult.Timestamp = now for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { if _, err := scenario.Store.GetUptimeByKey(testEndpoint.Key(), time.Now().Add(-time.Hour), time.Now()); err != common.ErrEndpointNotFound { t.Errorf("should've returned not found because there's nothing yet, got %v", err) } scenario.Store.Insert(&testEndpoint, &firstResult) scenario.Store.Insert(&testEndpoint, &secondResult) if uptime, _ := scenario.Store.GetUptimeByKey(testEndpoint.Key(), now.Add(-time.Hour), time.Now()); uptime != 0.5 { t.Errorf("the uptime over the past 1h should've been 0.5, got %f", uptime) } if uptime, _ := scenario.Store.GetUptimeByKey(testEndpoint.Key(), now.Add(-time.Hour*24), time.Now()); uptime != 0.5 { t.Errorf("the uptime over the past 24h should've been 0.5, got %f", uptime) } if uptime, _ := scenario.Store.GetUptimeByKey(testEndpoint.Key(), now.Add(-time.Hour*24*7), time.Now()); uptime != 0.5 { t.Errorf("the uptime over the past 7d should've been 0.5, got %f", uptime) } if _, err := scenario.Store.GetUptimeByKey(testEndpoint.Key(), now, time.Now().Add(-time.Hour)); err == nil { t.Error("should've returned an error because the parameter 'from' cannot be older than 'to'") } }) } } func TestStore_GetAverageResponseTimeByKey(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetAverageResponseTimeByKey") defer cleanUp(scenarios) firstResult := testSuccessfulResult firstResult.Timestamp = now.Add(-(2 * time.Hour)) firstResult.Duration = 300 * time.Millisecond secondResult := testSuccessfulResult secondResult.Duration = 150 * time.Millisecond secondResult.Timestamp = now.Add(-(1*time.Hour + 30*time.Minute)) thirdResult := testUnsuccessfulResult thirdResult.Duration = 200 * time.Millisecond thirdResult.Timestamp = now.Add(-(1 * time.Hour)) fourthResult := testSuccessfulResult fourthResult.Duration = 500 * time.Millisecond fourthResult.Timestamp = now for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &firstResult) scenario.Store.Insert(&testEndpoint, &secondResult) scenario.Store.Insert(&testEndpoint, &thirdResult) scenario.Store.Insert(&testEndpoint, &fourthResult) if averageResponseTime, err := scenario.Store.GetAverageResponseTimeByKey(testEndpoint.Key(), now.Add(-48*time.Hour), now.Add(-24*time.Hour)); err == nil { if averageResponseTime != 0 { t.Errorf("expected average response time to be 0ms, got %v", averageResponseTime) } } else { t.Error("shouldn't have returned an error, got", err) } if averageResponseTime, err := scenario.Store.GetAverageResponseTimeByKey(testEndpoint.Key(), now.Add(-24*time.Hour), now); err == nil { if averageResponseTime != 287 { t.Errorf("expected average response time to be 287ms, got %v", averageResponseTime) } } else { t.Error("shouldn't have returned an error, got", err) } if averageResponseTime, err := scenario.Store.GetAverageResponseTimeByKey(testEndpoint.Key(), now.Add(-time.Hour), now); err == nil { if averageResponseTime != 350 { t.Errorf("expected average response time to be 350ms, got %v", averageResponseTime) } } else { t.Error("shouldn't have returned an error, got", err) } if averageResponseTime, err := scenario.Store.GetAverageResponseTimeByKey(testEndpoint.Key(), now.Add(-2*time.Hour), now.Add(-time.Hour)); err == nil { if averageResponseTime != 216 { t.Errorf("expected average response time to be 216ms, got %v", averageResponseTime) } } else { t.Error("shouldn't have returned an error, got", err) } if _, err := scenario.Store.GetAverageResponseTimeByKey(testEndpoint.Key(), now, now.Add(-2*time.Hour)); err == nil { t.Error("expected an error because from > to, got nil") } scenario.Store.Clear() }) } } func TestStore_GetHourlyAverageResponseTimeByKey(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_GetHourlyAverageResponseTimeByKey") defer cleanUp(scenarios) firstResult := testSuccessfulResult firstResult.Timestamp = now.Add(-(2 * time.Hour)) firstResult.Duration = 300 * time.Millisecond secondResult := testSuccessfulResult secondResult.Duration = 150 * time.Millisecond secondResult.Timestamp = now.Add(-(1*time.Hour + 30*time.Minute)) thirdResult := testUnsuccessfulResult thirdResult.Duration = 200 * time.Millisecond thirdResult.Timestamp = now.Add(-(1 * time.Hour)) fourthResult := testSuccessfulResult fourthResult.Duration = 500 * time.Millisecond fourthResult.Timestamp = now for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &firstResult) scenario.Store.Insert(&testEndpoint, &secondResult) scenario.Store.Insert(&testEndpoint, &thirdResult) scenario.Store.Insert(&testEndpoint, &fourthResult) hourlyAverageResponseTime, err := scenario.Store.GetHourlyAverageResponseTimeByKey(testEndpoint.Key(), now.Add(-24*time.Hour), now) if err != nil { t.Error("shouldn't have returned an error, got", err) } if key := now.Truncate(time.Hour).Unix(); hourlyAverageResponseTime[key] != 500 { t.Errorf("expected average response time to be 500ms at %d, got %v", key, hourlyAverageResponseTime[key]) } if key := now.Truncate(time.Hour).Add(-time.Hour).Unix(); hourlyAverageResponseTime[key] != 200 { t.Errorf("expected average response time to be 200ms at %d, got %v", key, hourlyAverageResponseTime[key]) } if key := now.Truncate(time.Hour).Add(-2 * time.Hour).Unix(); hourlyAverageResponseTime[key] != 225 { t.Errorf("expected average response time to be 225ms at %d, got %v", key, hourlyAverageResponseTime[key]) } scenario.Store.Clear() }) } } func TestStore_Insert(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_Insert") defer cleanUp(scenarios) firstResult := testSuccessfulResult firstResult.Timestamp = now.Add(-time.Minute) secondResult := testUnsuccessfulResult secondResult.Timestamp = now for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&testEndpoint, &testSuccessfulResult) scenario.Store.Insert(&testEndpoint, &testUnsuccessfulResult) ss, err := scenario.Store.GetEndpointStatusByKey(testEndpoint.Key(), paging.NewEndpointStatusParams().WithEvents(1, common.MaximumNumberOfEvents).WithResults(1, common.MaximumNumberOfResults)) if err != nil { t.Error("shouldn't have returned an error, got", err) } if ss == nil { t.Fatalf("Store should've had key '%s', but didn't", testEndpoint.Key()) } if len(ss.Events) != 3 { t.Fatalf("Endpoint '%s' should've had 3 events, got %d", ss.Name, len(ss.Events)) } if len(ss.Results) != 2 { t.Fatalf("Endpoint '%s' should've had 2 results, got %d", ss.Name, len(ss.Results)) } for i, expectedResult := range []core.Result{testSuccessfulResult, testUnsuccessfulResult} { if expectedResult.HTTPStatus != ss.Results[i].HTTPStatus { t.Errorf("Result at index %d should've had a HTTPStatus of %d, got %d", i, ss.Results[i].HTTPStatus, expectedResult.HTTPStatus) } if expectedResult.DNSRCode != ss.Results[i].DNSRCode { t.Errorf("Result at index %d should've had a DNSRCode of %s, got %s", i, ss.Results[i].DNSRCode, expectedResult.DNSRCode) } if expectedResult.Hostname != ss.Results[i].Hostname { t.Errorf("Result at index %d should've had a Hostname of %s, got %s", i, ss.Results[i].Hostname, expectedResult.Hostname) } if expectedResult.IP != ss.Results[i].IP { t.Errorf("Result at index %d should've had a IP of %s, got %s", i, ss.Results[i].IP, expectedResult.IP) } if expectedResult.Connected != ss.Results[i].Connected { t.Errorf("Result at index %d should've had a Connected value of %t, got %t", i, ss.Results[i].Connected, expectedResult.Connected) } if expectedResult.Duration != ss.Results[i].Duration { t.Errorf("Result at index %d should've had a Duration of %s, got %s", i, ss.Results[i].Duration.String(), expectedResult.Duration.String()) } if len(expectedResult.Errors) != len(ss.Results[i].Errors) { t.Errorf("Result at index %d should've had %d errors, but actually had %d errors", i, len(ss.Results[i].Errors), len(expectedResult.Errors)) } else { for j := range expectedResult.Errors { if ss.Results[i].Errors[j] != expectedResult.Errors[j] { t.Error("should've been the same") } } } if len(expectedResult.ConditionResults) != len(ss.Results[i].ConditionResults) { t.Errorf("Result at index %d should've had %d ConditionResults, but actually had %d ConditionResults", i, len(ss.Results[i].ConditionResults), len(expectedResult.ConditionResults)) } else { for j := range expectedResult.ConditionResults { if ss.Results[i].ConditionResults[j].Condition != expectedResult.ConditionResults[j].Condition { t.Error("should've been the same") } if ss.Results[i].ConditionResults[j].Success != expectedResult.ConditionResults[j].Success { t.Error("should've been the same") } } } if expectedResult.Success != ss.Results[i].Success { t.Errorf("Result at index %d should've had a Success of %t, got %t", i, ss.Results[i].Success, expectedResult.Success) } if expectedResult.Timestamp.Unix() != ss.Results[i].Timestamp.Unix() { t.Errorf("Result at index %d should've had a Timestamp of %d, got %d", i, ss.Results[i].Timestamp.Unix(), expectedResult.Timestamp.Unix()) } if expectedResult.CertificateExpiration != ss.Results[i].CertificateExpiration { t.Errorf("Result at index %d should've had a CertificateExpiration of %s, got %s", i, ss.Results[i].CertificateExpiration.String(), expectedResult.CertificateExpiration.String()) } } }) } } func TestStore_DeleteAllEndpointStatusesNotInKeys(t *testing.T) { scenarios := initStoresAndBaseScenarios(t, "TestStore_DeleteAllEndpointStatusesNotInKeys") defer cleanUp(scenarios) firstEndpoint := core.Endpoint{Name: "endpoint-1", Group: "group"} secondEndpoint := core.Endpoint{Name: "endpoint-2", Group: "group"} result := &testSuccessfulResult for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { scenario.Store.Insert(&firstEndpoint, result) scenario.Store.Insert(&secondEndpoint, result) if ss, _ := scenario.Store.GetEndpointStatusByKey(firstEndpoint.Key(), paging.NewEndpointStatusParams()); ss == nil { t.Fatal("firstEndpoint should exist") } if ss, _ := scenario.Store.GetEndpointStatusByKey(secondEndpoint.Key(), paging.NewEndpointStatusParams()); ss == nil { t.Fatal("secondEndpoint should exist") } scenario.Store.DeleteAllEndpointStatusesNotInKeys([]string{firstEndpoint.Key()}) if ss, _ := scenario.Store.GetEndpointStatusByKey(firstEndpoint.Key(), paging.NewEndpointStatusParams()); ss == nil { t.Error("secondEndpoint should've been deleted") } if ss, _ := scenario.Store.GetEndpointStatusByKey(secondEndpoint.Key(), paging.NewEndpointStatusParams()); ss != nil { t.Error("firstEndpoint should still exist") } // Delete everything scenario.Store.DeleteAllEndpointStatusesNotInKeys([]string{}) endpointStatuses, _ := scenario.Store.GetAllEndpointStatuses(paging.NewEndpointStatusParams()) if len(endpointStatuses) != 0 { t.Errorf("everything should've been deleted") } }) } } func TestGet(t *testing.T) { store := Get() if store == nil { t.Error("store should've been automatically initialized") } } func TestInitialize(t *testing.T) { type Scenario struct { Name string Cfg *storage.Config ExpectedErr error } scenarios := []Scenario{ { Name: "nil", Cfg: nil, ExpectedErr: nil, }, { Name: "blank", Cfg: &storage.Config{}, ExpectedErr: nil, }, { Name: "memory-no-path", Cfg: &storage.Config{Type: storage.TypeMemory}, ExpectedErr: nil, }, { Name: "sqlite-no-path", Cfg: &storage.Config{Type: storage.TypeSQLite}, ExpectedErr: sql.ErrPathNotSpecified, }, { Name: "sqlite-with-path", Cfg: &storage.Config{Type: storage.TypeSQLite, Path: t.TempDir() + "/TestInitialize_sqlite-with-path.db"}, ExpectedErr: nil, }, } for _, scenario := range scenarios { t.Run(scenario.Name, func(t *testing.T) { err := Initialize(scenario.Cfg) if err != scenario.ExpectedErr { t.Errorf("expected %v, got %v", scenario.ExpectedErr, err) } if err != nil { return } if cancelFunc == nil { t.Error("cancelFunc shouldn't have been nil") } if ctx == nil { t.Error("ctx shouldn't have been nil") } if store == nil { t.Fatal("provider shouldn't have been nit") } store.Close() // Try to initialize it again err = Initialize(scenario.Cfg) if err != scenario.ExpectedErr { t.Errorf("expected %v, got %v", scenario.ExpectedErr, err) return } store.Close() }) } } func TestAutoSave(t *testing.T) { file := t.TempDir() + "/TestAutoSave.db" if err := Initialize(&storage.Config{Path: file}); err != nil { t.Fatal("shouldn't have returned an error") } go autoSave(ctx, store, 3*time.Millisecond) time.Sleep(15 * time.Millisecond) cancelFunc() time.Sleep(50 * time.Millisecond) }