package sqlite import ( "testing" "time" "github.com/TwinProduction/gatus/core" "github.com/TwinProduction/gatus/storage/store/paging" ) var ( firstCondition = core.Condition("[STATUS] == 200") secondCondition = core.Condition("[RESPONSE_TIME] < 500") thirdCondition = core.Condition("[CERTIFICATE_EXPIRATION] < 72h") now = time.Now() testService = core.Service{ 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, Insecure: false, NumberOfFailuresInARow: 0, NumberOfSuccessesInARow: 0, } testSuccessfulResult = core.Result{ Hostname: "example.org", IP: "127.0.0.1", HTTPStatus: 200, Errors: nil, Connected: true, Success: true, Timestamp: now, 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{ Hostname: "example.org", IP: "127.0.0.1", HTTPStatus: 200, Errors: []string{"error-1", "error-2"}, Connected: true, Success: false, Timestamp: now, 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, }, }, } ) func TestNewStore(t *testing.T) { if _, err := NewStore("", "TestNewStore.db"); err != ErrDatabaseDriverNotSpecified { t.Error("expected error due to blank driver parameter") } if _, err := NewStore("sqlite", ""); err != ErrFilePathNotSpecified { t.Error("expected error due to blank path parameter") } if store, err := NewStore("sqlite", t.TempDir()+"/TestNewStore.db"); err != nil { t.Error("shouldn't have returned any error, got", err.Error()) } else { _ = store.db.Close() } } func TestStore_InsertCleansUpOldUptimeEntriesProperly(t *testing.T) { store, _ := NewStore("sqlite", t.TempDir()+"/TestStore_InsertCleansUpOldUptimeEntriesProperly.db") defer store.Close() now := time.Now().Round(time.Minute) now = time.Date(now.Year(), now.Month(), now.Day(), now.Hour(), 0, 0, 0, now.Location()) store.Insert(&testService, &core.Result{Timestamp: now.Add(-5 * time.Hour), Success: true}) tx, _ := store.db.Begin() oldest, _ := store.getAgeOfOldestServiceUptimeEntry(tx, 1) _ = tx.Commit() if oldest.Truncate(time.Hour) != 5*time.Hour { t.Errorf("oldest service uptime entry should've been ~5 hours old, was %s", oldest) } // The oldest cache entry should remain at ~5 hours old, because this entry is more recent store.Insert(&testService, &core.Result{Timestamp: now.Add(-3 * time.Hour), Success: true}) tx, _ = store.db.Begin() oldest, _ = store.getAgeOfOldestServiceUptimeEntry(tx, 1) _ = tx.Commit() if oldest.Truncate(time.Hour) != 5*time.Hour { t.Errorf("oldest service uptime entry should've been ~5 hours old, was %s", oldest) } // The oldest cache entry should now become at ~8 hours old, because this entry is older store.Insert(&testService, &core.Result{Timestamp: now.Add(-8 * time.Hour), Success: true}) tx, _ = store.db.Begin() oldest, _ = store.getAgeOfOldestServiceUptimeEntry(tx, 1) _ = tx.Commit() if oldest.Truncate(time.Hour) != 8*time.Hour { t.Errorf("oldest service uptime entry should've been ~8 hours old, was %s", oldest) } // Since this is one hour before reaching the clean up threshold, the oldest entry should now be this one store.Insert(&testService, &core.Result{Timestamp: now.Add(-(uptimeCleanUpThreshold - time.Hour)), Success: true}) tx, _ = store.db.Begin() oldest, _ = store.getAgeOfOldestServiceUptimeEntry(tx, 1) _ = tx.Commit() if oldest.Truncate(time.Hour) != uptimeCleanUpThreshold-time.Hour { t.Errorf("oldest service uptime entry should've been ~%s hours old, was %s", uptimeCleanUpThreshold-time.Hour, oldest) } // Since this entry is after the uptimeCleanUpThreshold, both this entry as well as the previous // one should be deleted since they both surpass uptimeRetention store.Insert(&testService, &core.Result{Timestamp: now.Add(-(uptimeCleanUpThreshold + time.Hour)), Success: true}) tx, _ = store.db.Begin() oldest, _ = store.getAgeOfOldestServiceUptimeEntry(tx, 1) _ = tx.Commit() if oldest.Truncate(time.Hour) != 8*time.Hour { t.Errorf("oldest service uptime entry should've been ~8 hours old, was %s", oldest) } } func TestStore_InsertCleansUpEventsAndResultsProperly(t *testing.T) { store, _ := NewStore("sqlite", t.TempDir()+"/TestStore_InsertCleansUpEventsAndResultsProperly.db") defer store.Close() for i := 0; i < resultsCleanUpThreshold+eventsCleanUpThreshold; i++ { store.Insert(&testService, &testSuccessfulResult) store.Insert(&testService, &testUnsuccessfulResult) ss := store.GetServiceStatusByKey(testService.Key(), paging.NewServiceStatusParams().WithResults(1, core.MaximumNumberOfResults*5).WithEvents(1, core.MaximumNumberOfEvents*5)) if len(ss.Results) > resultsCleanUpThreshold+1 { t.Errorf("number of results shouldn't have exceeded %d, reached %d", resultsCleanUpThreshold, len(ss.Results)) } if len(ss.Events) > eventsCleanUpThreshold+1 { t.Errorf("number of events shouldn't have exceeded %d, reached %d", eventsCleanUpThreshold, len(ss.Events)) } } store.Clear() } func TestStore_Persistence(t *testing.T) { file := t.TempDir() + "/TestStore_Persistence.db" store, _ := NewStore("sqlite", file) store.Insert(&testService, &testSuccessfulResult) store.Insert(&testService, &testUnsuccessfulResult) ssFromOldStore := store.GetServiceStatus(testService.Group, testService.Name, paging.NewServiceStatusParams().WithResults(1, core.MaximumNumberOfResults).WithEvents(1, core.MaximumNumberOfEvents).WithUptime()) if ssFromOldStore == nil || ssFromOldStore.Group != "group" || ssFromOldStore.Name != "name" || len(ssFromOldStore.Events) != 3 || len(ssFromOldStore.Results) != 2 || ssFromOldStore.Uptime.LastHour != 0.5 || ssFromOldStore.Uptime.LastTwentyFourHours != 0.5 || ssFromOldStore.Uptime.LastSevenDays != 0.5 { store.Close() t.Fatal("sanity check failed") } store.Close() store, _ = NewStore("sqlite", file) defer store.Close() ssFromNewStore := store.GetServiceStatus(testService.Group, testService.Name, paging.NewServiceStatusParams().WithResults(1, core.MaximumNumberOfResults).WithEvents(1, core.MaximumNumberOfEvents).WithUptime()) if ssFromNewStore == nil || ssFromNewStore.Group != "group" || ssFromNewStore.Name != "name" || len(ssFromNewStore.Events) != 3 || len(ssFromNewStore.Results) != 2 || ssFromNewStore.Uptime.LastHour != 0.5 || ssFromNewStore.Uptime.LastTwentyFourHours != 0.5 || ssFromNewStore.Uptime.LastSevenDays != 0.5 { t.Fatal("failed sanity check") } if ssFromNewStore == ssFromOldStore { t.Fatal("ss from the old and new store should have a different memory address") } for i := range ssFromNewStore.Events { if ssFromNewStore.Events[i].Timestamp != ssFromOldStore.Events[i].Timestamp { t.Error("new and old should've been the same") } if ssFromNewStore.Events[i].Type != ssFromOldStore.Events[i].Type { t.Error("new and old should've been the same") } } for i := range ssFromOldStore.Results { if ssFromNewStore.Results[i].Timestamp != ssFromOldStore.Results[i].Timestamp { t.Error("new and old should've been the same") } if ssFromNewStore.Results[i].Success != ssFromOldStore.Results[i].Success { t.Error("new and old should've been the same") } if ssFromNewStore.Results[i].Connected != ssFromOldStore.Results[i].Connected { t.Error("new and old should've been the same") } if ssFromNewStore.Results[i].IP != ssFromOldStore.Results[i].IP { t.Error("new and old should've been the same") } if ssFromNewStore.Results[i].Hostname != ssFromOldStore.Results[i].Hostname { t.Error("new and old should've been the same") } if ssFromNewStore.Results[i].HTTPStatus != ssFromOldStore.Results[i].HTTPStatus { t.Error("new and old should've been the same") } if ssFromNewStore.Results[i].DNSRCode != ssFromOldStore.Results[i].DNSRCode { t.Error("new and old should've been the same") } if len(ssFromNewStore.Results[i].Errors) != len(ssFromOldStore.Results[i].Errors) { t.Error("new and old should've been the same") } else { for j := range ssFromOldStore.Results[i].Errors { if ssFromNewStore.Results[i].Errors[j] != ssFromOldStore.Results[i].Errors[j] { t.Error("new and old should've been the same") } } } if len(ssFromNewStore.Results[i].ConditionResults) != len(ssFromOldStore.Results[i].ConditionResults) { t.Error("new and old should've been the same") } else { for j := range ssFromOldStore.Results[i].ConditionResults { if ssFromNewStore.Results[i].ConditionResults[j].Condition != ssFromOldStore.Results[i].ConditionResults[j].Condition { t.Error("new and old should've been the same") } if ssFromNewStore.Results[i].ConditionResults[j].Success != ssFromOldStore.Results[i].ConditionResults[j].Success { t.Error("new and old should've been the same") } } } } } func TestStore_Save(t *testing.T) { store, _ := NewStore("sqlite", t.TempDir()+"/TestStore_Save.db") defer store.Close() if store.Save() != nil { t.Error("Save shouldn't do anything for this store") } } // Note that are much more extensive tests in /storage/store/store_test.go. // This test is simply an extra sanity check func TestStore_SanityCheck(t *testing.T) { store, _ := NewStore("sqlite", t.TempDir()+"/TestStore_SanityCheck.db") defer store.Close() store.Insert(&testService, &testSuccessfulResult) if numberOfServiceStatuses := len(store.GetAllServiceStatuses(paging.NewServiceStatusParams())); numberOfServiceStatuses != 1 { t.Fatalf("expected 1 ServiceStatus, got %d", numberOfServiceStatuses) } store.Insert(&testService, &testUnsuccessfulResult) // Both results inserted are for the same service, therefore, the count shouldn't have increased if numberOfServiceStatuses := len(store.GetAllServiceStatuses(paging.NewServiceStatusParams())); numberOfServiceStatuses != 1 { t.Fatalf("expected 1 ServiceStatus, got %d", numberOfServiceStatuses) } ss := store.GetServiceStatus(testService.Group, testService.Name, paging.NewServiceStatusParams().WithResults(1, 20).WithEvents(1, 20)) if ss == nil { t.Fatalf("Store should've had key '%s', but didn't", testService.Key()) } if len(ss.Events) != 3 { t.Errorf("Service '%s' should've had 3 events, got %d", ss.Name, len(ss.Events)) } if len(ss.Results) != 2 { t.Errorf("Service '%s' should've had 2 results, got %d", ss.Name, len(ss.Results)) } if deleted := store.DeleteAllServiceStatusesNotInKeys([]string{}); deleted != 1 { t.Errorf("%d entries should've been deleted, got %d", 1, deleted) } } // TestStore_InvalidTransaction tests what happens if an invalid transaction is passed as parameter func TestStore_InvalidTransaction(t *testing.T) { store, _ := NewStore("sqlite", t.TempDir()+"/TestStore_InvalidTransaction.db") defer store.Close() tx, _ := store.db.Begin() tx.Commit() if _, err := store.insertService(tx, &testService); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if err := store.insertEvent(tx, 1, core.NewEventFromResult(&testSuccessfulResult)); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if err := store.insertResult(tx, 1, &testSuccessfulResult); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if err := store.insertConditionResults(tx, 1, testSuccessfulResult.ConditionResults); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if err := store.updateServiceUptime(tx, 1, &testSuccessfulResult); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getAllServiceKeys(tx); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getServiceStatusByKey(tx, testService.Key(), paging.NewServiceStatusParams().WithResults(1, 20)); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getEventsByServiceID(tx, 1, 1, 50); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getResultsByServiceID(tx, 1, 1, 50); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if err := store.deleteOldServiceEvents(tx, 1); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if err := store.deleteOldServiceResults(tx, 1); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, _, err := store.getServiceUptime(tx, 1, time.Now(), time.Now()); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getServiceID(tx, &testService); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getNumberOfEventsByServiceID(tx, 1); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getNumberOfResultsByServiceID(tx, 1); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getAgeOfOldestServiceUptimeEntry(tx, 1); err == nil { t.Error("should've returned an error, because the transaction was already committed") } if _, err := store.getLastServiceResultSuccessValue(tx, 1); err == nil { t.Error("should've returned an error, because the transaction was already committed") } } func TestStore_NoRows(t *testing.T) { store, _ := NewStore("sqlite", t.TempDir()+"/TestStore_NoRows.db") defer store.Close() tx, _ := store.db.Begin() defer tx.Rollback() if _, err := store.getLastServiceResultSuccessValue(tx, 1); err != errNoRowsReturned { t.Errorf("should've %v, got %v", errNoRowsReturned, err) } if _, err := store.getAgeOfOldestServiceUptimeEntry(tx, 1); err != errNoRowsReturned { t.Errorf("should've %v, got %v", errNoRowsReturned, err) } }