package logstorage import ( "fmt" "math" "reflect" "testing" ) func TestValuesEncoder(t *testing.T) { f := func(values []string, expectedValueType valueType, expectedMinValue, expectedMaxValue uint64) { t.Helper() ve := getValuesEncoder() var dict valuesDict vt, minValue, maxValue := ve.encode(values, &dict) if vt != expectedValueType { t.Fatalf("unexpected value type; got %d; want %d", vt, expectedValueType) } if minValue != expectedMinValue { t.Fatalf("unexpected minValue; got %d; want %d", minValue, expectedMinValue) } if maxValue != expectedMaxValue { t.Fatalf("unexpected maxValue; got %d; want %d", maxValue, expectedMaxValue) } encodedValues := append([]string{}, ve.values...) putValuesEncoder(ve) vd := getValuesDecoder() if err := vd.decodeInplace(encodedValues, vt, &dict); err != nil { t.Fatalf("unexpected error in decodeInplace(): %s", err) } if len(values) == 0 { values = []string{} } if !reflect.DeepEqual(values, encodedValues) { t.Fatalf("unexpected values decoded\ngot\n%q\nwant\n%q", encodedValues, values) } putValuesDecoder(vd) } // An empty values list f(nil, valueTypeString, 0, 0) // string values values := make([]string, maxDictLen+1) for i := range values { values[i] = fmt.Sprintf("value_%d", i) } f(values, valueTypeString, 0, 0) // dict values f([]string{"foobar"}, valueTypeDict, 0, 0) f([]string{"foo", "bar"}, valueTypeDict, 0, 0) f([]string{"1", "2foo"}, valueTypeDict, 0, 0) // uint8 values for i := range values { values[i] = fmt.Sprintf("%d", i+1) } f(values, valueTypeUint8, 1, uint64(len(values))) // uint16 values for i := range values { values[i] = fmt.Sprintf("%d", (i+1)<<8) } f(values, valueTypeUint16, 1<<8, uint64(len(values)<<8)) // uint32 values for i := range values { values[i] = fmt.Sprintf("%d", (i+1)<<16) } f(values, valueTypeUint32, 1<<16, uint64(len(values)<<16)) // uint64 values for i := range values { values[i] = fmt.Sprintf("%d", (i+1)<<32) } f(values, valueTypeUint64, 1<<32, uint64(len(values)<<32)) // ipv4 values for i := range values { values[i] = fmt.Sprintf("1.2.3.%d", i) } f(values, valueTypeIPv4, 16909056, 16909064) // iso8601 timestamps for i := range values { values[i] = fmt.Sprintf("2011-04-19T03:44:01.%03dZ", i) } f(values, valueTypeTimestampISO8601, 1303184641000000000, 1303184641008000000) // float64 values for i := range values { values[i] = fmt.Sprintf("%g", math.Sqrt(float64(i+1))) } f(values, valueTypeFloat64, 4607182418800017408, 4613937818241073152) } func TestTryParseIPv4(t *testing.T) { f := func(s string, nExpected uint32, okExpected bool) { t.Helper() n, ok := tryParseIPv4(s) if n != nExpected { t.Fatalf("unexpected n; got %d; want %d", n, nExpected) } if ok != okExpected { t.Fatalf("unexpected ok; got %v; want %v", ok, okExpected) } } f("", 0, false) f("foo", 0, false) f("a.b.c.d", 0, false) f("1.2.3.4", 0x01020304, true) f("255.255.255.255", 0xffffffff, true) f("0.0.0.0", 0, true) f("127.0.0.1", 0x7f000001, true) f("127.0.0.x", 0, false) f("127.0.x.0", 0, false) f("127.x.0.0", 0, false) f("x.0.0.0", 0, false) f("127.127.127.256", 0, false) f("127.127.256.127", 0, false) f("127.256.127.127", 0, false) f("256.127.127.127", 0, false) f("-1.127.127.127", 0, false) f("127.-1.127.127", 0, false) f("127.127.-1.127", 0, false) f("127.127.127.-1", 0, false) } func TestTryParseTimestampISO8601(t *testing.T) { f := func(s string, timestampExpected uint64, okExpected bool) { t.Helper() timestamp, ok := tryParseTimestampISO8601(s) if timestamp != timestampExpected { t.Fatalf("unexpected timestamp; got %d; want %d", timestamp, timestampExpected) } if ok != okExpected { t.Fatalf("unexpected ok; got %v; want %v", ok, okExpected) } } f("2023-01-15T23:45:51.123Z", 1673826351123000000, true) // Invalid milliseconds f("2023-01-15T22:15:51.12345Z", 0, false) f("2023-01-15T22:15:51.12Z", 0, false) f("2023-01-15T22:15:51Z", 0, false) // Missing Z f("2023-01-15T23:45:51.123", 0, false) // Invalid timestamp f("foo", 0, false) f("2023-01-15T23:45:51.123Zxyabcd", 0, false) f("2023-01-15T23:45:51.123Z01:00", 0, false) // timestamp with timezone f("2023-01-16T00:45:51.123+01:00", 0, false) } func TestTryParseFloat64(t *testing.T) { f := func(s string, valueExpected float64, okExpected bool) { t.Helper() value, ok := tryParseFloat64(s) if value != valueExpected { t.Fatalf("unexpected value; got %v; want %v", value, valueExpected) } if ok != okExpected { t.Fatalf("unexpected ok; got %v; want %v", ok, okExpected) } } f("0", 0, true) f("1234567890", 1234567890, true) f("-1.234567", -1.234567, true) // Empty value f("", 0, false) // Plus in the value isn't allowed, since it cannot be convered back to the same string representation f("+123", 0, false) // Dot at the beginning and the end of value isn't allowed, since it cannot converted back to the same string representation f(".123", 0, false) f("123.", 0, false) // Multiple dots aren't allowed f("123.434.55", 0, false) // Invalid dots f("-.123", 0, false) f(".", 0, false) // Scientific notation isn't allowed, since it cannot be converted back to the same string representation f("12e5", 0, false) // Minus in the middle of string isn't allowed f("12-5", 0, false) } func TestTryParseUint64(t *testing.T) { f := func(s string, valueExpected uint64, okExpected bool) { t.Helper() value, ok := tryParseUint64(s) if value != valueExpected { t.Fatalf("unexpected value; got %d; want %d", value, valueExpected) } if ok != okExpected { t.Fatalf("unexpected ok; got %v; want %v", ok, okExpected) } } f("0", 0, true) f("123456789012345678", 123456789012345678, true) // empty value f("", 0, false) // too big value f("1234567890123456789", 0, false) // invalid value f("foo", 0, false) }