package schema import ( "database/sql" "database/sql/driver" "fmt" "reflect" "strconv" "strings" "sync" "time" "github.com/jinzhu/now" "gorm.io/gorm/utils" ) type DataType string type TimeType int64 const ( UnixSecond TimeType = 1 UnixNanosecond TimeType = 2 ) const ( Bool DataType = "bool" Int = "int" Uint = "uint" Float = "float" String = "string" Time = "time" Bytes = "bytes" ) type Field struct { Name string DBName string BindNames []string DataType DataType PrimaryKey bool AutoIncrement bool Creatable bool Updatable bool Readable bool HasDefaultValue bool AutoCreateTime TimeType AutoUpdateTime TimeType DefaultValue string DefaultValueInterface interface{} NotNull bool Unique bool Comment string Size int Precision int FieldType reflect.Type IndirectFieldType reflect.Type StructField reflect.StructField Tag reflect.StructTag TagSettings map[string]string Schema *Schema EmbeddedSchema *Schema ReflectValueOf func(reflect.Value) reflect.Value ValueOf func(reflect.Value) (value interface{}, zero bool) Set func(reflect.Value, interface{}) error } func (schema *Schema) ParseField(fieldStruct reflect.StructField) *Field { field := &Field{ Name: fieldStruct.Name, BindNames: []string{fieldStruct.Name}, FieldType: fieldStruct.Type, IndirectFieldType: fieldStruct.Type, StructField: fieldStruct, Creatable: true, Updatable: true, Readable: true, Tag: fieldStruct.Tag, TagSettings: ParseTagSetting(fieldStruct.Tag.Get("gorm"), ";"), Schema: schema, } for field.IndirectFieldType.Kind() == reflect.Ptr { field.IndirectFieldType = field.IndirectFieldType.Elem() } fieldValue := reflect.New(field.IndirectFieldType) if fc, ok := fieldValue.Interface().(CreateClausesInterface); ok { field.Schema.CreateClauses = append(field.Schema.CreateClauses, fc.CreateClauses()...) } if fc, ok := fieldValue.Interface().(QueryClausesInterface); ok { field.Schema.QueryClauses = append(field.Schema.QueryClauses, fc.QueryClauses()...) } if fc, ok := fieldValue.Interface().(UpdateClausesInterface); ok { field.Schema.UpdateClauses = append(field.Schema.UpdateClauses, fc.UpdateClauses()...) } if fc, ok := fieldValue.Interface().(DeleteClausesInterface); ok { field.Schema.DeleteClauses = append(field.Schema.DeleteClauses, fc.DeleteClauses()...) } // if field is valuer, used its value or first fields as data type valuer, isValuer := fieldValue.Interface().(driver.Valuer) if isValuer { var overrideFieldValue bool if v, err := valuer.Value(); v != nil && err == nil { overrideFieldValue = true fieldValue = reflect.ValueOf(v) } if field.IndirectFieldType.Kind() == reflect.Struct { for i := 0; i < field.IndirectFieldType.NumField(); i++ { if !overrideFieldValue { newFieldType := field.IndirectFieldType.Field(i).Type for newFieldType.Kind() == reflect.Ptr { newFieldType = newFieldType.Elem() } fieldValue = reflect.New(newFieldType) overrideFieldValue = true } // copy tag settings from valuer for key, value := range ParseTagSetting(field.IndirectFieldType.Field(i).Tag.Get("gorm"), ";") { if _, ok := field.TagSettings[key]; !ok { field.TagSettings[key] = value } } } } } if dbName, ok := field.TagSettings["COLUMN"]; ok { field.DBName = dbName } if val, ok := field.TagSettings["PRIMARYKEY"]; ok && utils.CheckTruth(val) { field.PrimaryKey = true } else if val, ok := field.TagSettings["PRIMARY_KEY"]; ok && utils.CheckTruth(val) { field.PrimaryKey = true } if val, ok := field.TagSettings["AUTOINCREMENT"]; ok && utils.CheckTruth(val) { field.AutoIncrement = true field.HasDefaultValue = true } if v, ok := field.TagSettings["DEFAULT"]; ok { field.HasDefaultValue = true field.DefaultValue = v } if num, ok := field.TagSettings["SIZE"]; ok { var err error if field.Size, err = strconv.Atoi(num); err != nil { field.Size = -1 } } if p, ok := field.TagSettings["PRECISION"]; ok { field.Precision, _ = strconv.Atoi(p) } if val, ok := field.TagSettings["NOT NULL"]; ok && utils.CheckTruth(val) { field.NotNull = true } if val, ok := field.TagSettings["UNIQUE"]; ok && utils.CheckTruth(val) { field.Unique = true } if val, ok := field.TagSettings["COMMENT"]; ok { field.Comment = val } switch reflect.Indirect(fieldValue).Kind() { case reflect.Bool: field.DataType = Bool if field.HasDefaultValue { field.DefaultValueInterface, _ = strconv.ParseBool(field.DefaultValue) } case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: field.DataType = Int if field.HasDefaultValue { field.DefaultValueInterface, _ = strconv.ParseInt(field.DefaultValue, 0, 64) } case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: field.DataType = Uint if field.HasDefaultValue { field.DefaultValueInterface, _ = strconv.ParseUint(field.DefaultValue, 0, 64) } case reflect.Float32, reflect.Float64: field.DataType = Float if field.HasDefaultValue { field.DefaultValueInterface, _ = strconv.ParseFloat(field.DefaultValue, 64) } case reflect.String: field.DataType = String isFunc := strings.Contains(field.DefaultValue, "(") && strings.Contains(field.DefaultValue, ")") if field.HasDefaultValue && !isFunc { field.DefaultValue = strings.Trim(field.DefaultValue, "'") field.DefaultValue = strings.Trim(field.DefaultValue, "\"") field.DefaultValueInterface = field.DefaultValue } case reflect.Struct: if _, ok := fieldValue.Interface().(*time.Time); ok { field.DataType = Time } else if fieldValue.Type().ConvertibleTo(reflect.TypeOf(&time.Time{})) { field.DataType = Time } case reflect.Array, reflect.Slice: if reflect.Indirect(fieldValue).Type().Elem() == reflect.TypeOf(uint8(0)) { field.DataType = Bytes } } if dataTyper, ok := fieldValue.Interface().(GormDataTypeInterface); ok { field.DataType = DataType(dataTyper.GormDataType()) } if val, ok := field.TagSettings["TYPE"]; ok { switch DataType(strings.ToLower(val)) { case Bool, Int, Uint, Float, String, Time, Bytes: field.DataType = DataType(strings.ToLower(val)) default: field.DataType = DataType(val) } } if v, ok := field.TagSettings["AUTOCREATETIME"]; ok || (field.Name == "CreatedAt" && (field.DataType == Time || field.DataType == Int || field.DataType == Uint)) { if strings.ToUpper(v) == "NANO" { field.AutoCreateTime = UnixNanosecond } else { field.AutoCreateTime = UnixSecond } } if v, ok := field.TagSettings["AUTOUPDATETIME"]; ok || (field.Name == "UpdatedAt" && (field.DataType == Time || field.DataType == Int || field.DataType == Uint)) { if strings.ToUpper(v) == "NANO" { field.AutoUpdateTime = UnixNanosecond } else { field.AutoUpdateTime = UnixSecond } } if field.Size == 0 { switch reflect.Indirect(fieldValue).Kind() { case reflect.Int, reflect.Int64, reflect.Uint, reflect.Uint64, reflect.Float64: field.Size = 64 case reflect.Int8, reflect.Uint8: field.Size = 8 case reflect.Int16, reflect.Uint16: field.Size = 16 case reflect.Int32, reflect.Uint32, reflect.Float32: field.Size = 32 } } // setup permission if _, ok := field.TagSettings["-"]; ok { field.Creatable = false field.Updatable = false field.Readable = false field.DataType = "" } if v, ok := field.TagSettings["->"]; ok { field.Creatable = false field.Updatable = false if strings.ToLower(v) == "false" { field.Readable = false } else { field.Readable = true } } if v, ok := field.TagSettings["<-"]; ok { field.Creatable = true field.Updatable = true if v != "<-" { if !strings.Contains(v, "create") { field.Creatable = false } if !strings.Contains(v, "update") { field.Updatable = false } } } if _, ok := field.TagSettings["EMBEDDED"]; ok || (fieldStruct.Anonymous && !isValuer) { var err error field.Creatable = false field.Updatable = false field.Readable = false if field.EmbeddedSchema, err = Parse(fieldValue.Interface(), &sync.Map{}, schema.namer); err != nil { schema.err = err } for _, ef := range field.EmbeddedSchema.Fields { ef.Schema = schema ef.BindNames = append([]string{fieldStruct.Name}, ef.BindNames...) // index is negative means is pointer if field.FieldType.Kind() == reflect.Struct { ef.StructField.Index = append([]int{fieldStruct.Index[0]}, ef.StructField.Index...) } else { ef.StructField.Index = append([]int{-fieldStruct.Index[0] - 1}, ef.StructField.Index...) } if prefix, ok := field.TagSettings["EMBEDDEDPREFIX"]; ok { ef.DBName = prefix + ef.DBName } if val, ok := ef.TagSettings["PRIMARYKEY"]; ok && utils.CheckTruth(val) { ef.PrimaryKey = true } else if val, ok := ef.TagSettings["PRIMARY_KEY"]; ok && utils.CheckTruth(val) { ef.PrimaryKey = true } else { ef.PrimaryKey = false } for k, v := range field.TagSettings { ef.TagSettings[k] = v } } field.Schema.CreateClauses = append(field.Schema.CreateClauses, field.EmbeddedSchema.CreateClauses...) field.Schema.QueryClauses = append(field.Schema.QueryClauses, field.EmbeddedSchema.QueryClauses...) field.Schema.UpdateClauses = append(field.Schema.UpdateClauses, field.EmbeddedSchema.UpdateClauses...) field.Schema.DeleteClauses = append(field.Schema.DeleteClauses, field.EmbeddedSchema.DeleteClauses...) } return field } // create valuer, setter when parse struct func (field *Field) setupValuerAndSetter() { // ValueOf switch { case len(field.StructField.Index) == 1: field.ValueOf = func(value reflect.Value) (interface{}, bool) { fieldValue := reflect.Indirect(value).Field(field.StructField.Index[0]) return fieldValue.Interface(), fieldValue.IsZero() } case len(field.StructField.Index) == 2 && field.StructField.Index[0] >= 0: field.ValueOf = func(value reflect.Value) (interface{}, bool) { fieldValue := reflect.Indirect(value).Field(field.StructField.Index[0]).Field(field.StructField.Index[1]) return fieldValue.Interface(), fieldValue.IsZero() } default: field.ValueOf = func(value reflect.Value) (interface{}, bool) { v := reflect.Indirect(value) for _, idx := range field.StructField.Index { if idx >= 0 { v = v.Field(idx) } else { v = v.Field(-idx - 1) if v.Type().Elem().Kind() == reflect.Struct { if !v.IsNil() { v = v.Elem() } else { return nil, true } } else { return nil, true } } } return v.Interface(), v.IsZero() } } // ReflectValueOf switch { case len(field.StructField.Index) == 1: if field.FieldType.Kind() == reflect.Ptr { field.ReflectValueOf = func(value reflect.Value) reflect.Value { fieldValue := reflect.Indirect(value).Field(field.StructField.Index[0]) return fieldValue } } else { field.ReflectValueOf = func(value reflect.Value) reflect.Value { return reflect.Indirect(value).Field(field.StructField.Index[0]) } } case len(field.StructField.Index) == 2 && field.StructField.Index[0] >= 0 && field.FieldType.Kind() != reflect.Ptr: field.ReflectValueOf = func(value reflect.Value) reflect.Value { return reflect.Indirect(value).Field(field.StructField.Index[0]).Field(field.StructField.Index[1]) } default: field.ReflectValueOf = func(value reflect.Value) reflect.Value { v := reflect.Indirect(value) for _, idx := range field.StructField.Index { if idx >= 0 { v = v.Field(idx) } else { v = v.Field(-idx - 1) } if v.Kind() == reflect.Ptr { if v.Type().Elem().Kind() == reflect.Struct { if v.IsNil() { v.Set(reflect.New(v.Type().Elem())) } } if idx < len(field.StructField.Index)-1 { v = v.Elem() } } } return v } } fallbackSetter := func(value reflect.Value, v interface{}, setter func(reflect.Value, interface{}) error) (err error) { if v == nil { field.ReflectValueOf(value).Set(reflect.New(field.FieldType).Elem()) } else { reflectV := reflect.ValueOf(v) if reflectV.Type().AssignableTo(field.FieldType) { field.ReflectValueOf(value).Set(reflectV) return } else if reflectV.Type().ConvertibleTo(field.FieldType) { field.ReflectValueOf(value).Set(reflectV.Convert(field.FieldType)) return } else if field.FieldType.Kind() == reflect.Ptr { fieldValue := field.ReflectValueOf(value) if reflectV.Type().AssignableTo(field.FieldType.Elem()) { if fieldValue.IsNil() { fieldValue.Set(reflect.New(field.FieldType.Elem())) } fieldValue.Elem().Set(reflectV) return } else if reflectV.Type().ConvertibleTo(field.FieldType.Elem()) { if fieldValue.IsNil() { fieldValue.Set(reflect.New(field.FieldType.Elem())) } fieldValue.Elem().Set(reflectV.Convert(field.FieldType.Elem())) return } } if valuer, ok := v.(driver.Valuer); ok { if v, err = valuer.Value(); err == nil { setter(value, v) } } else if reflectV.Kind() == reflect.Ptr { if reflectV.IsNil() { field.ReflectValueOf(value).Set(reflect.New(field.FieldType).Elem()) } else { setter(value, reflectV.Elem().Interface()) } } else { return fmt.Errorf("failed to set value %+v to field %v", v, field.Name) } } return } // Set switch field.FieldType.Kind() { case reflect.Bool: field.Set = func(value reflect.Value, v interface{}) error { switch data := v.(type) { case bool: field.ReflectValueOf(value).SetBool(data) case *bool: field.ReflectValueOf(value).SetBool(*data) case int64: if data > 0 { field.ReflectValueOf(value).SetBool(true) } else { field.ReflectValueOf(value).SetBool(false) } case string: b, _ := strconv.ParseBool(data) field.ReflectValueOf(value).SetBool(b) default: return fallbackSetter(value, v, field.Set) } return nil } case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: field.Set = func(value reflect.Value, v interface{}) (err error) { switch data := v.(type) { case int64: field.ReflectValueOf(value).SetInt(data) case int: field.ReflectValueOf(value).SetInt(int64(data)) case int8: field.ReflectValueOf(value).SetInt(int64(data)) case int16: field.ReflectValueOf(value).SetInt(int64(data)) case int32: field.ReflectValueOf(value).SetInt(int64(data)) case uint: field.ReflectValueOf(value).SetInt(int64(data)) case uint8: field.ReflectValueOf(value).SetInt(int64(data)) case uint16: field.ReflectValueOf(value).SetInt(int64(data)) case uint32: field.ReflectValueOf(value).SetInt(int64(data)) case uint64: field.ReflectValueOf(value).SetInt(int64(data)) case float32: field.ReflectValueOf(value).SetInt(int64(data)) case float64: field.ReflectValueOf(value).SetInt(int64(data)) case []byte: return field.Set(value, string(data)) case string: if i, err := strconv.ParseInt(data, 0, 64); err == nil { field.ReflectValueOf(value).SetInt(i) } else { return err } case time.Time: if field.AutoCreateTime == UnixNanosecond || field.AutoUpdateTime == UnixNanosecond { field.ReflectValueOf(value).SetInt(data.UnixNano()) } else { field.ReflectValueOf(value).SetInt(data.Unix()) } case *time.Time: if data != nil { if field.AutoCreateTime == UnixNanosecond || field.AutoUpdateTime == UnixNanosecond { field.ReflectValueOf(value).SetInt(data.UnixNano()) } else { field.ReflectValueOf(value).SetInt(data.Unix()) } } else { field.ReflectValueOf(value).SetInt(0) } default: return fallbackSetter(value, v, field.Set) } return err } case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: field.Set = func(value reflect.Value, v interface{}) (err error) { switch data := v.(type) { case uint64: field.ReflectValueOf(value).SetUint(data) case uint: field.ReflectValueOf(value).SetUint(uint64(data)) case uint8: field.ReflectValueOf(value).SetUint(uint64(data)) case uint16: field.ReflectValueOf(value).SetUint(uint64(data)) case uint32: field.ReflectValueOf(value).SetUint(uint64(data)) case int64: field.ReflectValueOf(value).SetUint(uint64(data)) case int: field.ReflectValueOf(value).SetUint(uint64(data)) case int8: field.ReflectValueOf(value).SetUint(uint64(data)) case int16: field.ReflectValueOf(value).SetUint(uint64(data)) case int32: field.ReflectValueOf(value).SetUint(uint64(data)) case float32: field.ReflectValueOf(value).SetUint(uint64(data)) case float64: field.ReflectValueOf(value).SetUint(uint64(data)) case []byte: return field.Set(value, string(data)) case string: if i, err := strconv.ParseUint(data, 0, 64); err == nil { field.ReflectValueOf(value).SetUint(i) } else { return err } default: return fallbackSetter(value, v, field.Set) } return err } case reflect.Float32, reflect.Float64: field.Set = func(value reflect.Value, v interface{}) (err error) { switch data := v.(type) { case float64: field.ReflectValueOf(value).SetFloat(data) case float32: field.ReflectValueOf(value).SetFloat(float64(data)) case int64: field.ReflectValueOf(value).SetFloat(float64(data)) case int: field.ReflectValueOf(value).SetFloat(float64(data)) case int8: field.ReflectValueOf(value).SetFloat(float64(data)) case int16: field.ReflectValueOf(value).SetFloat(float64(data)) case int32: field.ReflectValueOf(value).SetFloat(float64(data)) case uint: field.ReflectValueOf(value).SetFloat(float64(data)) case uint8: field.ReflectValueOf(value).SetFloat(float64(data)) case uint16: field.ReflectValueOf(value).SetFloat(float64(data)) case uint32: field.ReflectValueOf(value).SetFloat(float64(data)) case uint64: field.ReflectValueOf(value).SetFloat(float64(data)) case []byte: return field.Set(value, string(data)) case string: if i, err := strconv.ParseFloat(data, 64); err == nil { field.ReflectValueOf(value).SetFloat(i) } else { return err } default: return fallbackSetter(value, v, field.Set) } return err } case reflect.String: field.Set = func(value reflect.Value, v interface{}) (err error) { switch data := v.(type) { case string: field.ReflectValueOf(value).SetString(data) case []byte: field.ReflectValueOf(value).SetString(string(data)) case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64: field.ReflectValueOf(value).SetString(fmt.Sprint(data)) case float64, float32: field.ReflectValueOf(value).SetString(fmt.Sprintf("%."+strconv.Itoa(field.Precision)+"f", data)) default: return fallbackSetter(value, v, field.Set) } return err } default: fieldValue := reflect.New(field.FieldType) switch fieldValue.Elem().Interface().(type) { case time.Time: field.Set = func(value reflect.Value, v interface{}) error { switch data := v.(type) { case time.Time: field.ReflectValueOf(value).Set(reflect.ValueOf(v)) case *time.Time: field.ReflectValueOf(value).Set(reflect.ValueOf(v).Elem()) case string: if t, err := now.Parse(data); err == nil { field.ReflectValueOf(value).Set(reflect.ValueOf(t)) } else { return fmt.Errorf("failed to set string %v to time.Time field %v, failed to parse it as time, got error %v", v, field.Name, err) } default: return fallbackSetter(value, v, field.Set) } return nil } case *time.Time: field.Set = func(value reflect.Value, v interface{}) error { switch data := v.(type) { case time.Time: fieldValue := field.ReflectValueOf(value) if fieldValue.IsNil() { fieldValue.Set(reflect.New(field.FieldType.Elem())) } fieldValue.Elem().Set(reflect.ValueOf(v)) case *time.Time: field.ReflectValueOf(value).Set(reflect.ValueOf(v)) case string: if t, err := now.Parse(data); err == nil { fieldValue := field.ReflectValueOf(value) if fieldValue.IsNil() { if v == "" { return nil } fieldValue.Set(reflect.New(field.FieldType.Elem())) } fieldValue.Elem().Set(reflect.ValueOf(t)) } else { return fmt.Errorf("failed to set string %v to time.Time field %v, failed to parse it as time, got error %v", v, field.Name, err) } default: return fallbackSetter(value, v, field.Set) } return nil } default: if _, ok := fieldValue.Interface().(sql.Scanner); ok { // struct scanner field.Set = func(value reflect.Value, v interface{}) (err error) { if valuer, ok := v.(driver.Valuer); ok { v, _ = valuer.Value() } reflectV := reflect.ValueOf(v) if !reflectV.IsValid() { field.ReflectValueOf(value).Set(reflect.New(field.FieldType).Elem()) } else if reflectV.Kind() == reflect.Ptr { if reflectV.Elem().IsNil() || !reflectV.Elem().IsValid() { field.ReflectValueOf(value).Set(reflect.New(field.FieldType).Elem()) } else { return field.Set(value, reflectV.Elem().Interface()) } } else { err = field.ReflectValueOf(value).Addr().Interface().(sql.Scanner).Scan(v) } return } } else if _, ok := fieldValue.Elem().Interface().(sql.Scanner); ok { // pointer scanner field.Set = func(value reflect.Value, v interface{}) (err error) { if valuer, ok := v.(driver.Valuer); ok { if valuer == nil { field.ReflectValueOf(value).Set(reflect.New(field.FieldType).Elem()) } else { v, _ = valuer.Value() } } reflectV := reflect.ValueOf(v) if reflectV.Type().AssignableTo(field.FieldType) { field.ReflectValueOf(value).Set(reflectV) } else if reflectV.Kind() == reflect.Ptr { if reflectV.IsNil() { field.ReflectValueOf(value).Set(reflect.New(field.FieldType).Elem()) } else { field.Set(value, reflectV.Elem().Interface()) } } else { fieldValue := field.ReflectValueOf(value) if fieldValue.IsNil() { fieldValue.Set(reflect.New(field.FieldType.Elem())) } err = fieldValue.Interface().(sql.Scanner).Scan(v) } return } } else { field.Set = func(value reflect.Value, v interface{}) (err error) { return fallbackSetter(value, v, field.Set) } } } } }