diff options
Diffstat (limited to 'tests/sql')
-rw-r--r-- | tests/sql/main_test.go | 23 | ||||
-rw-r--r-- | tests/sql/sla_test.go | 406 |
2 files changed, 429 insertions, 0 deletions
diff --git a/tests/sql/main_test.go b/tests/sql/main_test.go new file mode 100644 index 0000000..a295125 --- /dev/null +++ b/tests/sql/main_test.go @@ -0,0 +1,23 @@ +package sql_test + +import ( + "github.com/icinga/icinga-testing" + "github.com/icinga/icinga-testing/services" + "github.com/icinga/icingadb/tests/internal/utils" + "testing" +) + +var it *icingatesting.IT + +func TestMain(m *testing.M) { + it = icingatesting.NewIT() + defer it.Cleanup() + + m.Run() +} + +func getDatabase(t testing.TB) services.RelationalDatabase { + rdb := utils.GetDatabase(it, t) + rdb.ImportIcingaDbSchema() + return rdb +} diff --git a/tests/sql/sla_test.go b/tests/sql/sla_test.go new file mode 100644 index 0000000..8a89850 --- /dev/null +++ b/tests/sql/sla_test.go @@ -0,0 +1,406 @@ +package sql_test + +import ( + "crypto/rand" + "database/sql/driver" + "fmt" + "github.com/go-sql-driver/mysql" + "github.com/jmoiron/sqlx" + "github.com/lib/pq" + "github.com/stretchr/testify/assert" + "github.com/stretchr/testify/require" + "testing" +) + +func TestSla(t *testing.T) { + rdb := getDatabase(t) + db, err := sqlx.Open(rdb.Driver(), rdb.DSN()) + require.NoError(t, err, "connect to database") + + type TestData struct { + Name string + Events []SlaHistoryEvent + Start uint64 + End uint64 + Expected float64 + } + + tests := []TestData{{ + Name: "EmptyHistory", + // Empty history implies no previous problem state, therefore SLA should be 100% + Events: nil, + Start: 1000, + End: 2000, + Expected: 100.0, + }, { + Name: "MultipleStateChanges", + // Some flapping, test that all changes are considered. + Events: []SlaHistoryEvent{ + &State{Time: 1000, State: 2, PreviousState: 99}, // -10% + &State{Time: 1100, State: 0, PreviousState: 2}, + &State{Time: 1300, State: 2, PreviousState: 0}, // -10% + &State{Time: 1400, State: 0, PreviousState: 2}, + &State{Time: 1600, State: 2, PreviousState: 0}, // -10% + &State{Time: 1700, State: 0, PreviousState: 2}, + &State{Time: 1900, State: 2, PreviousState: 0}, // -10% + }, + Start: 1000, + End: 2000, + Expected: 60.0, + }, { + Name: "OverlappingDowntimesAndProblems", + // SLA should be 90%: + // 1000..1100: OK, no downtime + // 1100..1200: OK, in downtime + // 1200..1300: CRITICAL, in downtime + // 1300..1400: CRITICAL, no downtime (only period counting for SLA, -10%) + // 1400..1500: CRITICAL, in downtime + // 1500..1600: OK, in downtime + // 1600..2000: OK, no downtime + Events: []SlaHistoryEvent{ + &Downtime{Start: 1100, End: 1300}, + &Downtime{Start: 1400, End: 1600}, + &State{Time: 1200, State: 2, PreviousState: 0}, + &State{Time: 1500, State: 0, PreviousState: 2}, + }, + Start: 1000, + End: 2000, + Expected: 90.0, + }, { + Name: "CriticalBeforeInterval", + // If there is no event within the SLA interval, the last state from before the interval should be used. + Events: []SlaHistoryEvent{ + &State{Time: 0, State: 2, PreviousState: 99}, + }, + Start: 1000, + End: 2000, + Expected: 0.0, + }, { + Name: "CriticalBeforeIntervalWithDowntime", + // State change and downtime start from before the SLA interval should be considered if still relevant. + Events: []SlaHistoryEvent{ + &State{Time: 800, State: 2, PreviousState: 99}, + &Downtime{Start: 600, End: 1800}, + }, + Start: 1000, + End: 2000, + Expected: 80.0, + }, { + Name: "CriticalBeforeIntervalWithOverlappingDowntimes", + // Test that overlapping downtimes are properly accounted for. + Events: []SlaHistoryEvent{ + &State{Time: 800, State: 2, PreviousState: 99}, + &Downtime{Start: 600, End: 1000}, + &Downtime{Start: 800, End: 1200}, + &Downtime{Start: 1000, End: 1400}, + // Everything except 1400-1600 is covered by downtimes, -20% + &Downtime{Start: 1600, End: 2000}, + &Downtime{Start: 1800, End: 2200}, + }, + Start: 1000, + End: 2000, + Expected: 80.0, + }, { + Name: "FallbackToPreviousState", + // If there is no state event from before the SLA interval, the previous hard state from the first event + // after the beginning of the SLA interval should be used as the initial state. + Events: []SlaHistoryEvent{ + &State{Time: 1200, State: 0, PreviousState: 2}, + }, + Start: 1000, + End: 2000, + Expected: 80.0, + }, { + Name: "FallbackToCurrentState", + // If there are no state history events, the current state of the checkable should be used. + Events: []SlaHistoryEvent{ + &CurrentState{State: 2}, + }, + Start: 1000, + End: 2000, + Expected: 0.0, + }, { + Name: "PreferInitialStateFromBeforeOverLaterState", + // The previous_hard_state should only be used as a fallback when there is no event from before the + // SLA interval. Therefore, the latter should be preferred if there is conflicting information. + Events: []SlaHistoryEvent{ + &State{Time: 800, State: 2, PreviousState: 99}, + &State{Time: 1200, State: 0, PreviousState: 0}, + }, + Start: 1000, + End: 2000, + Expected: 80.0, + }, { + Name: "PreferInitialStateFromBeforeOverCurrentState", + // The current state should only be used as a fallback when there is no state history event. + // Therefore, the latter should be preferred if there is conflicting information. + Events: []SlaHistoryEvent{ + &State{Time: 800, State: 2, PreviousState: 99}, + &CurrentState{State: 0}, + }, + Start: 1000, + End: 2000, + Expected: 0.0, + }, { + Name: "PreferLaterStateOverCurrentState", + // The current state should only be used as a fallback when there is no state history event. + // Therefore, the latter should be preferred if there is conflicting information. + Events: []SlaHistoryEvent{ + &State{Time: 1200, State: 0, PreviousState: 2}, + &CurrentState{State: 2}, + }, + Start: 1000, + End: 2000, + Expected: 80.0, + }, { + Name: "InitialUnknownReducesTotalTime", + Events: []SlaHistoryEvent{ + &State{Time: 1500, State: 2, PreviousState: 99}, + &State{Time: 1700, State: 0, PreviousState: 2}, + &CurrentState{State: 0}, + }, + Start: 1000, + End: 2000, + Expected: 60, + }, { + Name: "IntermediateUnknownReducesTotalTime", + Events: []SlaHistoryEvent{ + &State{Time: 1000, State: 0, PreviousState: 2}, + &State{Time: 1100, State: 2, PreviousState: 0}, + &State{Time: 1600, State: 0, PreviousState: 99}, + &State{Time: 1800, State: 2, PreviousState: 0}, + &CurrentState{State: 0}, + }, + Start: 1000, + End: 2000, + Expected: 60, + }} + + for _, test := range tests { + t.Run(test.Name, func(t *testing.T) { + testSla(t, db, test.Events, test.Start, test.End, test.Expected, "unexpected SLA value") + }) + } + + t.Run("Invalid", func(t *testing.T) { + m := SlaHistoryMeta{ + EnvironmentId: make([]byte, 20), + EndpointId: make([]byte, 20), + ObjectType: "host", + HostId: make([]byte, 20), + } + + checkErr := func(t *testing.T, err error) { + require.Error(t, err, "SLA function should return an error") + + switch d := db.DriverName(); d { + case "mysql": + var mysqlErr *mysql.MySQLError + require.ErrorAs(t, err, &mysqlErr, "SLA function should return a MySQL error") + // https://dev.mysql.com/doc/mysql-errors/8.0/en/server-error-reference.html#error_er_signal_exception + assert.Equal(t, uint16(1644), mysqlErr.Number, "MySQL error should be ER_SIGNAL_EXCEPTION") + assert.Equal(t, "end time must be greater than start time", mysqlErr.Message, + "MySQL error should contain custom message") + + case "postgres": + var pqErr *pq.Error + require.ErrorAs(t, err, &pqErr, "SLA function should return a PostgreSQL error") + assert.Equal(t, pq.ErrorCode("P0001"), pqErr.Code, "MySQL error should be ER_SIGNAL_EXCEPTION") + assert.Equal(t, "end time must be greater than start time", pqErr.Message, + "PostgreSQL error should contain custom message") + + default: + panic(fmt.Sprintf("unknown database driver %q", d)) + } + } + + t.Run("ZeroDuration", func(t *testing.T) { + _, err := execSqlSlaFunc(db, &m, 1000, 1000) + checkErr(t, err) + }) + + t.Run("NegativeDuration", func(t *testing.T) { + _, err := execSqlSlaFunc(db, &m, 2000, 1000) + checkErr(t, err) + }) + }) +} + +func execSqlSlaFunc(db *sqlx.DB, m *SlaHistoryMeta, start uint64, end uint64) (float64, error) { + var result float64 + err := db.Get(&result, db.Rebind("SELECT get_sla_ok_percent(?, ?, ?, ?)"), + m.HostId, m.ServiceId, start, end) + return result, err +} + +func testSla(t *testing.T, db *sqlx.DB, events []SlaHistoryEvent, start uint64, end uint64, expected float64, msg string) { + t.Run("Host", func(t *testing.T) { + testSlaWithObjectType(t, db, events, false, start, end, expected, msg) + }) + t.Run("Service", func(t *testing.T) { + testSlaWithObjectType(t, db, events, true, start, end, expected, msg) + }) +} + +func testSlaWithObjectType(t *testing.T, db *sqlx.DB, + events []SlaHistoryEvent, service bool, start uint64, end uint64, expected float64, msg string, +) { + makeId := func() []byte { + id := make([]byte, 20) + _, err := rand.Read(id) + require.NoError(t, err, "generating random id failed") + return id + } + + meta := SlaHistoryMeta{ + EnvironmentId: makeId(), + EndpointId: makeId(), + HostId: makeId(), + } + if service { + meta.ObjectType = "service" + meta.ServiceId = makeId() + } else { + meta.ObjectType = "host" + } + + for _, event := range events { + err := event.WriteSlaEventToDatabase(db, &meta) + require.NoErrorf(t, err, "Inserting SLA history for %#v failed", event) + } + + r, err := execSqlSlaFunc(db, &meta, start, end) + require.NoError(t, err, "SLA query should not fail") + assert.Equal(t, expected, r, msg) +} + +type SlaHistoryMeta struct { + EnvironmentId NullableBytes `db:"environment_id"` + EndpointId NullableBytes `db:"endpoint_id"` + ObjectType string `db:"object_type"` + HostId NullableBytes `db:"host_id"` + ServiceId NullableBytes `db:"service_id"` +} + +type SlaHistoryEvent interface { + WriteSlaEventToDatabase(db *sqlx.DB, m *SlaHistoryMeta) error +} + +type State struct { + Time uint64 + State uint8 + PreviousState uint8 +} + +var _ SlaHistoryEvent = (*State)(nil) + +func (s *State) WriteSlaEventToDatabase(db *sqlx.DB, m *SlaHistoryMeta) error { + type values struct { + *SlaHistoryMeta + Id []byte `db:"id"` + EventTime uint64 `db:"event_time"` + HardState uint8 `db:"hard_state"` + PreviousHardState uint8 `db:"previous_hard_state"` + } + + id := make([]byte, 20) + _, err := rand.Read(id) + if err != nil { + return err + } + + _, err = db.NamedExec("INSERT INTO sla_history_state"+ + " (id, environment_id, endpoint_id, object_type, host_id, service_id, event_time, hard_state, previous_hard_state)"+ + " VALUES (:id, :environment_id, :endpoint_id, :object_type, :host_id, :service_id, :event_time, :hard_state, :previous_hard_state)", + &values{ + SlaHistoryMeta: m, + Id: id[:], + EventTime: s.Time, + HardState: s.State, + PreviousHardState: s.PreviousState, + }) + return err +} + +type CurrentState struct { + State uint8 +} + +func (c *CurrentState) WriteSlaEventToDatabase(db *sqlx.DB, m *SlaHistoryMeta) error { + type values struct { + *SlaHistoryMeta + State uint8 `db:"state"` + PropertiesChecksum NullableBytes `db:"properties_checksum"` + } + + v := values{ + SlaHistoryMeta: m, + State: c.State, + PropertiesChecksum: make([]byte, 20), + } + + if len(m.ServiceId) == 0 { + _, err := db.NamedExec("INSERT INTO host_state"+ + " (id, host_id, environment_id, properties_checksum, soft_state, previous_soft_state,"+ + " hard_state, previous_hard_state, check_attempt, severity, last_state_change, next_check, next_update)"+ + " VALUES (:host_id, :host_id, :environment_id, :properties_checksum, :state, :state, :state, :state, 0, 0, 0, 0, 0)", + &v) + return err + } else { + _, err := db.NamedExec("INSERT INTO service_state"+ + " (id, host_id, service_id, environment_id, properties_checksum, soft_state, previous_soft_state,"+ + " hard_state, previous_hard_state, check_attempt, severity, last_state_change, next_check, next_update)"+ + " VALUES (:service_id, :host_id, :service_id, :environment_id, :properties_checksum, :state, :state, :state, :state, 0, 0, 0, 0, 0)", + &v) + return err + } +} + +var _ SlaHistoryEvent = (*CurrentState)(nil) + +type Downtime struct { + Start uint64 + End uint64 +} + +var _ SlaHistoryEvent = (*Downtime)(nil) + +type slaHistoryDowntime struct { + *SlaHistoryMeta + DowntimeId []byte `db:"downtime_id"` + DowntimeStart uint64 `db:"downtime_start"` + DowntimeEnd uint64 `db:"downtime_end"` +} + +func (d *Downtime) WriteSlaEventToDatabase(db *sqlx.DB, m *SlaHistoryMeta) error { + downtimeId := make([]byte, 20) + _, err := rand.Read(downtimeId) + if err != nil { + return err + } + + _, err = db.NamedExec("INSERT INTO sla_history_downtime"+ + " (environment_id, endpoint_id, object_type, host_id, service_id, downtime_id, downtime_start, downtime_end)"+ + " VALUES (:environment_id, :endpoint_id, :object_type, :host_id,"+ + " :service_id, :downtime_id, :downtime_start, :downtime_end)", + &slaHistoryDowntime{ + SlaHistoryMeta: m, + DowntimeId: downtimeId[:], + DowntimeStart: d.Start, + DowntimeEnd: d.End, + }) + return err +} + +// NullableBytes allows writing to binary columns in a database with support for NULL. +type NullableBytes []byte + +// Value implements the database/sql/driver.Valuer interface. +func (b NullableBytes) Value() (driver.Value, error) { + if b != nil { + return []byte(b), nil + } + + // any(nil) is treated as NULL in contrast to []byte(nil) which is a non-NULL byte sequence of length 0. + return nil, nil +} |