// Package randomize has helpers for randomization of structs and fields package randomize import ( "database/sql" "fmt" "reflect" "regexp" "sort" "strconv" "strings" "sync/atomic" "time" "gopkg.in/nullbio/null.v5" "github.com/lib/pq/hstore" "github.com/pkg/errors" "github.com/satori/go.uuid" "github.com/vattle/sqlboiler/strmangle" "github.com/vattle/sqlboiler/types" ) var ( typeNullFloat32 = reflect.TypeOf(null.Float32{}) typeNullFloat64 = reflect.TypeOf(null.Float64{}) typeNullInt = reflect.TypeOf(null.Int{}) typeNullInt8 = reflect.TypeOf(null.Int8{}) typeNullInt16 = reflect.TypeOf(null.Int16{}) typeNullInt32 = reflect.TypeOf(null.Int32{}) typeNullInt64 = reflect.TypeOf(null.Int64{}) typeNullUint = reflect.TypeOf(null.Uint{}) typeNullUint8 = reflect.TypeOf(null.Uint8{}) typeNullUint16 = reflect.TypeOf(null.Uint16{}) typeNullUint32 = reflect.TypeOf(null.Uint32{}) typeNullUint64 = reflect.TypeOf(null.Uint64{}) typeNullString = reflect.TypeOf(null.String{}) typeNullBool = reflect.TypeOf(null.Bool{}) typeNullTime = reflect.TypeOf(null.Time{}) typeNullBytes = reflect.TypeOf(null.Bytes{}) typeNullJSON = reflect.TypeOf(null.JSON{}) typeTime = reflect.TypeOf(time.Time{}) typeJSON = reflect.TypeOf(types.JSON{}) typeInt64Array = reflect.TypeOf(types.Int64Array{}) typeBytesArray = reflect.TypeOf(types.BytesArray{}) typeBoolArray = reflect.TypeOf(types.BoolArray{}) typeFloat64Array = reflect.TypeOf(types.Float64Array{}) typeStringArray = reflect.TypeOf(types.StringArray{}) typeHstore = reflect.TypeOf(types.Hstore{}) rgxValidTime = regexp.MustCompile(`[2-9]+`) validatedTypes = []string{ "inet", "line", "uuid", "interval", "json", "jsonb", "box", "cidr", "circle", "lseg", "macaddr", "path", "pg_lsn", "point", "polygon", "txid_snapshot", "money", "hstore", } ) // Seed is an atomic counter for pseudo-randomization structs. Using full // randomization leads to collisions in a domain where uniqueness is an // important factor. type Seed int64 // NewSeed creates a new seed for pseudo-randomization. func NewSeed() *Seed { s := new(int64) *s = time.Now().Unix() return (*Seed)(s) } func (s *Seed) nextInt() int { return int(atomic.AddInt64((*int64)(s), 1)) } // Struct gets its fields filled with random data based on the seed. // It will ignore the fields in the blacklist. // It will ignore fields that have the struct tag boil:"-" func Struct(s *Seed, str interface{}, colTypes map[string]string, canBeNull bool, blacklist ...string) error { // Don't modify blacklist copyBlacklist := make([]string, len(blacklist)) copy(copyBlacklist, blacklist) blacklist = copyBlacklist sort.Strings(blacklist) // Check if it's pointer value := reflect.ValueOf(str) kind := value.Kind() if kind != reflect.Ptr { return errors.Errorf("Outer element should be a pointer, given a non-pointer: %T", str) } // Check if it's a struct value = value.Elem() kind = value.Kind() if kind != reflect.Struct { return errors.Errorf("Inner element should be a struct, given a non-struct: %T", str) } typ := value.Type() nFields := value.NumField() // Iterate through fields, randomizing for i := 0; i < nFields; i++ { fieldVal := value.Field(i) fieldTyp := typ.Field(i) var found bool for _, v := range blacklist { if strmangle.TitleCase(v) == fieldTyp.Name { found = true break } } if found { continue } if fieldTyp.Tag.Get("boil") == "-" { continue } fieldDBType := colTypes[fieldTyp.Name] if err := randomizeField(s, fieldVal, fieldDBType, canBeNull); err != nil { return err } } return nil } // randDate generates a random time.Time between 1850 and 2050. // Only the Day/Month/Year columns are set so that Dates and DateTimes do // not cause mismatches in the test data comparisons. func randDate(s *Seed) time.Time { t := time.Date( 1850+s.nextInt()%160, time.Month(1+(s.nextInt()%12)), 1+(s.nextInt()%25), 0, 0, 0, 0, time.UTC, ) return t } // randomizeField changes the value at field to a "randomized" value. // // If canBeNull is false: // The value will always be a non-null and non-zero value. // If canBeNull is true: // The value has the possibility of being null or non-zero at random. func randomizeField(s *Seed, field reflect.Value, fieldType string, canBeNull bool) error { kind := field.Kind() typ := field.Type() var value interface{} var isNull bool // Validated columns always need to be set regardless of canBeNull, // and they have to adhere to a strict value format. foundValidated := strmangle.SetInclude(fieldType, validatedTypes) if foundValidated { if kind == reflect.Struct { switch typ { case typeNullString: if fieldType == "interval" { value = null.NewString(strconv.Itoa((s.nextInt()%26)+2)+" days", true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "uuid" { value = null.NewString(uuid.NewV4().String(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "box" || fieldType == "line" || fieldType == "lseg" || fieldType == "path" || fieldType == "polygon" { value = null.NewString(randBox(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "cidr" || fieldType == "inet" { value = null.NewString(randNetAddr(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "macaddr" { value = null.NewString(randMacAddr(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "circle" { value = null.NewString(randCircle(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "pg_lsn" { value = null.NewString(randLsn(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "point" { value = null.NewString(randPoint(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "txid_snapshot" { value = null.NewString(randTxID(), true) field.Set(reflect.ValueOf(value)) return nil } if fieldType == "money" { value = null.NewString(randMoney(s), true) field.Set(reflect.ValueOf(value)) return nil } case typeNullJSON: value = null.NewJSON([]byte(fmt.Sprintf(`"%s"`, randStr(s, 1))), true) field.Set(reflect.ValueOf(value)) return nil case typeHstore: value := hstore.Hstore{Map: map[string]sql.NullString{}} value.Map[randStr(s, 3)] = sql.NullString{String: randStr(s, 3), Valid: s.nextInt()%3 == 0} value.Map[randStr(s, 3)] = sql.NullString{String: randStr(s, 3), Valid: s.nextInt()%3 == 0} field.Set(reflect.ValueOf(value)) return nil } } else { switch kind { case reflect.String: if fieldType == "interval" { value = strconv.Itoa((s.nextInt()%26)+2) + " days" field.Set(reflect.ValueOf(value)) return nil } if fieldType == "uuid" { value = uuid.NewV4().String() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "box" || fieldType == "line" || fieldType == "lseg" || fieldType == "path" || fieldType == "polygon" { value = randBox() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "cidr" || fieldType == "inet" { value = randNetAddr() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "macaddr" { value = randMacAddr() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "circle" { value = randCircle() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "pg_lsn" { value = randLsn() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "point" { value = randPoint() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "txid_snapshot" { value = randTxID() field.Set(reflect.ValueOf(value)) return nil } if fieldType == "money" { value = randMoney(s) field.Set(reflect.ValueOf(value)) return nil } } switch typ { case typeJSON: value = []byte(fmt.Sprintf(`"%s"`, randStr(s, 1))) field.Set(reflect.ValueOf(value)) return nil case typeHstore: value := types.Hstore{} value[randStr(s, 3)] = sql.NullString{String: randStr(s, 3), Valid: s.nextInt()%3 == 0} value[randStr(s, 3)] = sql.NullString{String: randStr(s, 3), Valid: s.nextInt()%3 == 0} field.Set(reflect.ValueOf(value)) return nil } } } // Check the regular columns, these can be set or not set // depending on the canBeNull flag. if canBeNull { // 1 in 3 chance of being null or zero value isNull = s.nextInt()%3 == 0 } else { // if canBeNull is false, then never return null values. isNull = false } // If it's a Postgres array, treat it like one if strings.HasPrefix(fieldType, "ARRAY") { value = getArrayRandValue(s, typ, fieldType) // Retrieve the value to be returned } else if kind == reflect.Struct { if isNull { value = getStructNullValue(typ) } else { value = getStructRandValue(s, typ) } } else { if isNull { value = getVariableZeroValue(kind) } else { value = getVariableRandValue(s, kind, typ) } } if value == nil { return errors.Errorf("unsupported type: %s", typ.String()) } field.Set(reflect.ValueOf(value)) return nil } func getArrayRandValue(s *Seed, typ reflect.Type, fieldType string) interface{} { fieldType = strings.TrimLeft(fieldType, "ARRAY") switch typ { case typeInt64Array: return types.Int64Array{int64(s.nextInt()), int64(s.nextInt())} case typeFloat64Array: return types.Float64Array{float64(s.nextInt()), float64(s.nextInt())} case typeBoolArray: return types.BoolArray{s.nextInt()%2 == 0, s.nextInt()%2 == 0, s.nextInt()%2 == 0} case typeStringArray: if fieldType == "interval" { value := strconv.Itoa((s.nextInt()%26)+2) + " days" return types.StringArray{value, value} } if fieldType == "uuid" { value := uuid.NewV4().String() return types.StringArray{value, value} } if fieldType == "box" || fieldType == "line" || fieldType == "lseg" || fieldType == "path" || fieldType == "polygon" { value := randBox() return types.StringArray{value, value} } if fieldType == "cidr" || fieldType == "inet" { value := randNetAddr() return types.StringArray{value, value} } if fieldType == "macaddr" { value := randMacAddr() return types.StringArray{value, value} } if fieldType == "circle" { value := randCircle() return types.StringArray{value, value} } if fieldType == "pg_lsn" { value := randLsn() return types.StringArray{value, value} } if fieldType == "point" { value := randPoint() return types.StringArray{value, value} } if fieldType == "txid_snapshot" { value := randTxID() return types.StringArray{value, value} } if fieldType == "money" { value := randMoney(s) return types.StringArray{value, value} } if fieldType == "json" || fieldType == "jsonb" { value := []byte(fmt.Sprintf(`"%s"`, randStr(s, 1))) return types.StringArray{string(value)} } return types.StringArray{randStr(s, 4), randStr(s, 4), randStr(s, 4)} case typeBytesArray: return types.BytesArray{randByteSlice(s, 4), randByteSlice(s, 4), randByteSlice(s, 4)} } return nil } // getStructNullValue for the matching type. func getStructNullValue(typ reflect.Type) interface{} { switch typ { case typeTime: return time.Time{} case typeNullBool: return null.NewBool(false, false) case typeNullString: return null.NewString("", false) case typeNullTime: return null.NewTime(time.Time{}, false) case typeNullFloat32: return null.NewFloat32(0.0, false) case typeNullFloat64: return null.NewFloat64(0.0, false) case typeNullInt: return null.NewInt(0, false) case typeNullInt8: return null.NewInt8(0, false) case typeNullInt16: return null.NewInt16(0, false) case typeNullInt32: return null.NewInt32(0, false) case typeNullInt64: return null.NewInt64(0, false) case typeNullUint: return null.NewUint(0, false) case typeNullUint8: return null.NewUint8(0, false) case typeNullUint16: return null.NewUint16(0, false) case typeNullUint32: return null.NewUint32(0, false) case typeNullUint64: return null.NewUint64(0, false) case typeNullBytes: return null.NewBytes(nil, false) } return nil } // getStructRandValue returns a "random" value for the matching type. // The randomness is really an incrementation of the global seed, // this is done to avoid duplicate key violations. func getStructRandValue(s *Seed, typ reflect.Type) interface{} { switch typ { case typeTime: return randDate(s) case typeNullBool: return null.NewBool(s.nextInt()%2 == 0, true) case typeNullString: return null.NewString(randStr(s, 1), true) case typeNullTime: return null.NewTime(randDate(s), true) case typeNullFloat32: return null.NewFloat32(float32(s.nextInt()%10)/10.0+float32(s.nextInt()%10), true) case typeNullFloat64: return null.NewFloat64(float64(s.nextInt()%10)/10.0+float64(s.nextInt()%10), true) case typeNullInt: return null.NewInt(s.nextInt(), true) case typeNullInt8: return null.NewInt8(int8(s.nextInt()), true) case typeNullInt16: return null.NewInt16(int16(s.nextInt()), true) case typeNullInt32: return null.NewInt32(int32(s.nextInt()), true) case typeNullInt64: return null.NewInt64(int64(s.nextInt()), true) case typeNullUint: return null.NewUint(uint(s.nextInt()), true) case typeNullUint8: return null.NewUint8(uint8(s.nextInt()), true) case typeNullUint16: return null.NewUint16(uint16(s.nextInt()), true) case typeNullUint32: return null.NewUint32(uint32(s.nextInt()), true) case typeNullUint64: return null.NewUint64(uint64(s.nextInt()), true) case typeNullBytes: return null.NewBytes(randByteSlice(s, 16), true) } return nil } // getVariableZeroValue for the matching type. func getVariableZeroValue(kind reflect.Kind) interface{} { switch kind { case reflect.Float32: return float32(0) case reflect.Float64: return float64(0) case reflect.Int: return int(0) case reflect.Int8: return int8(0) case reflect.Int16: return int16(0) case reflect.Int32: return int32(0) case reflect.Int64: return int64(0) case reflect.Uint: return uint(0) case reflect.Uint8: return uint8(0) case reflect.Uint16: return uint16(0) case reflect.Uint32: return uint32(0) case reflect.Uint64: return uint64(0) case reflect.Bool: return false case reflect.String: return "" case reflect.Slice: return []byte(nil) } return nil } // getVariableRandValue returns a "random" value for the matching kind. // The randomness is really an incrementation of the global seed, // this is done to avoid duplicate key violations. func getVariableRandValue(s *Seed, kind reflect.Kind, typ reflect.Type) interface{} { switch kind { case reflect.Float32: return float32(float32(s.nextInt()%10)/10.0 + float32(s.nextInt()%10)) case reflect.Float64: return float64(float64(s.nextInt()%10)/10.0 + float64(s.nextInt()%10)) case reflect.Int: return s.nextInt() case reflect.Int8: return int8(s.nextInt()) case reflect.Int16: return int16(s.nextInt()) case reflect.Int32: return int32(s.nextInt()) case reflect.Int64: return int64(s.nextInt()) case reflect.Uint: return uint(s.nextInt()) case reflect.Uint8: return uint8(s.nextInt()) case reflect.Uint16: return uint16(s.nextInt()) case reflect.Uint32: return uint32(s.nextInt()) case reflect.Uint64: return uint64(s.nextInt()) case reflect.Bool: return true case reflect.String: return randStr(s, 1) case reflect.Slice: sliceVal := typ.Elem() if sliceVal.Kind() != reflect.Uint8 { return errors.Errorf("unsupported slice type: %T, was expecting byte slice.", typ.String()) } return randByteSlice(s, 5+s.nextInt()%20) } return nil }