package dynamodbattribute import ( "fmt" "reflect" "strconv" "time" "github.com/aws/aws-sdk-go/service/dynamodb" ) // An Unmarshaler is an interface to provide custom unmarshaling of // AttributeValues. Use this to provide custom logic determining // how AttributeValues should be unmarshaled. // type ExampleUnmarshaler struct { // Value int // } // // func (u *exampleUnmarshaler) UnmarshalDynamoDBAttributeValue(av *dynamodb.AttributeValue) error { // if av.N == nil { // return nil // } // // n, err := strconv.ParseInt(*av.N, 10, 0) // if err != nil { // return err // } // // u.Value = n // return nil // } type Unmarshaler interface { UnmarshalDynamoDBAttributeValue(*dynamodb.AttributeValue) error } // Unmarshal will unmarshal DynamoDB AttributeValues to Go value types. // Both generic interface{} and concrete types are valid unmarshal // destination types. // // Unmarshal will allocate maps, slices, and pointers as needed to // unmarshal the AttributeValue into the provided type value. // // When unmarshaling AttributeValues into structs Unmarshal matches // the field names of the struct to the AttributeValue Map keys. // Initially it will look for exact field name matching, but will // fall back to case insensitive if not exact match is found. // // With the exception of omitempty, omitemptyelem, binaryset, numberset // and stringset all struct tags used by Marshal are also used by // Unmarshal. // // When decoding AttributeValues to interfaces Unmarshal will use the // following types. // // []byte, AV Binary (B) // [][]byte, AV Binary Set (BS) // bool, AV Boolean (BOOL) // []interface{}, AV List (L) // map[string]interface{}, AV Map (M) // float64, AV Number (N) // Number, AV Number (N) with UseNumber set // []float64, AV Number Set (NS) // []Number, AV Number Set (NS) with UseNumber set // string, AV String (S) // []string, AV String Set (SS) // // If the Decoder option, UseNumber is set numbers will be unmarshaled // as Number values instead of float64. Use this to maintain the original // string formating of the number as it was represented in the AttributeValue. // In addition provides additional opportunities to parse the number // string based on individual use cases. // // When unmarshaling any error that occurs will halt the unmarshal // and return the error. // // The output value provided must be a non-nil pointer func Unmarshal(av *dynamodb.AttributeValue, out interface{}) error { return NewDecoder().Decode(av, out) } // UnmarshalMap is an alias for Unmarshal which unmarshals from // a map of AttributeValues. // // The output value provided must be a non-nil pointer func UnmarshalMap(m map[string]*dynamodb.AttributeValue, out interface{}) error { return NewDecoder().Decode(&dynamodb.AttributeValue{M: m}, out) } // UnmarshalList is an alias for Unmarshal func which unmarshals // a slice of AttributeValues. // // The output value provided must be a non-nil pointer func UnmarshalList(l []*dynamodb.AttributeValue, out interface{}) error { return NewDecoder().Decode(&dynamodb.AttributeValue{L: l}, out) } // UnmarshalListOfMaps is an alias for Unmarshal func which unmarshals a // slice of maps of attribute values. // // This is useful for when you need to unmarshal the Items from a DynamoDB // Query API call. // // The output value provided must be a non-nil pointer func UnmarshalListOfMaps(l []map[string]*dynamodb.AttributeValue, out interface{}) error { items := make([]*dynamodb.AttributeValue, len(l)) for i, m := range l { items[i] = &dynamodb.AttributeValue{M: m} } return UnmarshalList(items, out) } // A Decoder provides unmarshaling AttributeValues to Go value types. type Decoder struct { MarshalOptions // Instructs the decoder to decode AttributeValue Numbers as // Number type instead of float64 when the destination type // is interface{}. Similar to encoding/json.Number UseNumber bool } // NewDecoder creates a new Decoder with default configuration. Use // the `opts` functional options to override the default configuration. func NewDecoder(opts ...func(*Decoder)) *Decoder { d := &Decoder{ MarshalOptions: MarshalOptions{ SupportJSONTags: true, }, } for _, o := range opts { o(d) } return d } // Decode will unmarshal an AttributeValue into a Go value type. An error // will be return if the decoder is unable to unmarshal the AttributeValue // to the provide Go value type. // // The output value provided must be a non-nil pointer func (d *Decoder) Decode(av *dynamodb.AttributeValue, out interface{}, opts ...func(*Decoder)) error { v := reflect.ValueOf(out) if v.Kind() != reflect.Ptr || v.IsNil() || !v.IsValid() { return &InvalidUnmarshalError{Type: reflect.TypeOf(out)} } return d.decode(av, v, tag{}) } var stringInterfaceMapType = reflect.TypeOf(map[string]interface{}(nil)) var byteSliceType = reflect.TypeOf([]byte(nil)) var byteSliceSlicetype = reflect.TypeOf([][]byte(nil)) var numberType = reflect.TypeOf(Number("")) var timeType = reflect.TypeOf(time.Time{}) func (d *Decoder) decode(av *dynamodb.AttributeValue, v reflect.Value, fieldTag tag) error { var u Unmarshaler if av == nil || av.NULL != nil { u, v = indirect(v, true) if u != nil { return u.UnmarshalDynamoDBAttributeValue(av) } return d.decodeNull(v) } u, v = indirect(v, false) if u != nil { return u.UnmarshalDynamoDBAttributeValue(av) } switch { case len(av.B) != 0: return d.decodeBinary(av.B, v) case av.BOOL != nil: return d.decodeBool(av.BOOL, v) case len(av.BS) != 0: return d.decodeBinarySet(av.BS, v) case len(av.L) != 0: return d.decodeList(av.L, v) case len(av.M) != 0: return d.decodeMap(av.M, v) case av.N != nil: return d.decodeNumber(av.N, v, fieldTag) case len(av.NS) != 0: return d.decodeNumberSet(av.NS, v) case av.S != nil: return d.decodeString(av.S, v, fieldTag) case len(av.SS) != 0: return d.decodeStringSet(av.SS, v) } return nil } func (d *Decoder) decodeBinary(b []byte, v reflect.Value) error { if v.Kind() == reflect.Interface { buf := make([]byte, len(b)) copy(buf, b) v.Set(reflect.ValueOf(buf)) return nil } if v.Kind() != reflect.Slice { return &UnmarshalTypeError{Value: "binary", Type: v.Type()} } if v.Type() == byteSliceType { // Optimization for []byte types if v.IsNil() || v.Cap() < len(b) { v.Set(reflect.MakeSlice(byteSliceType, len(b), len(b))) } else if v.Len() != len(b) { v.SetLen(len(b)) } copy(v.Interface().([]byte), b) return nil } switch v.Type().Elem().Kind() { case reflect.Uint8: // Fallback to reflection copy for type aliased of []byte type if v.IsNil() || v.Cap() < len(b) { v.Set(reflect.MakeSlice(v.Type(), len(b), len(b))) } else if v.Len() != len(b) { v.SetLen(len(b)) } for i := 0; i < len(b); i++ { v.Index(i).SetUint(uint64(b[i])) } default: if v.Kind() == reflect.Array && v.Type().Elem().Kind() == reflect.Uint8 { reflect.Copy(v, reflect.ValueOf(b)) break } return &UnmarshalTypeError{Value: "binary", Type: v.Type()} } return nil } func (d *Decoder) decodeBool(b *bool, v reflect.Value) error { switch v.Kind() { case reflect.Bool, reflect.Interface: v.Set(reflect.ValueOf(*b).Convert(v.Type())) default: return &UnmarshalTypeError{Value: "bool", Type: v.Type()} } return nil } func (d *Decoder) decodeBinarySet(bs [][]byte, v reflect.Value) error { switch v.Kind() { case reflect.Slice: // Make room for the slice elements if needed if v.IsNil() || v.Cap() < len(bs) { // What about if ignoring nil/empty values? v.Set(reflect.MakeSlice(v.Type(), 0, len(bs))) } case reflect.Array: // Limited to capacity of existing array. case reflect.Interface: set := make([][]byte, len(bs)) for i, b := range bs { if err := d.decodeBinary(b, reflect.ValueOf(&set[i]).Elem()); err != nil { return err } } v.Set(reflect.ValueOf(set)) return nil default: return &UnmarshalTypeError{Value: "binary set", Type: v.Type()} } for i := 0; i < v.Cap() && i < len(bs); i++ { v.SetLen(i + 1) u, elem := indirect(v.Index(i), false) if u != nil { return u.UnmarshalDynamoDBAttributeValue(&dynamodb.AttributeValue{BS: bs}) } if err := d.decodeBinary(bs[i], elem); err != nil { return err } } return nil } func (d *Decoder) decodeNumber(n *string, v reflect.Value, fieldTag tag) error { switch v.Kind() { case reflect.Interface: i, err := d.decodeNumberToInterface(n) if err != nil { return err } v.Set(reflect.ValueOf(i)) return nil case reflect.String: if v.Type() == numberType { // Support Number value type v.Set(reflect.ValueOf(Number(*n))) return nil } v.Set(reflect.ValueOf(*n)) case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: i, err := strconv.ParseInt(*n, 10, 64) if err != nil { return err } if v.OverflowInt(i) { return &UnmarshalTypeError{ Value: fmt.Sprintf("number overflow, %s", *n), Type: v.Type(), } } v.SetInt(i) case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64: i, err := strconv.ParseUint(*n, 10, 64) if err != nil { return err } if v.OverflowUint(i) { return &UnmarshalTypeError{ Value: fmt.Sprintf("number overflow, %s", *n), Type: v.Type(), } } v.SetUint(i) case reflect.Float32, reflect.Float64: i, err := strconv.ParseFloat(*n, 64) if err != nil { return err } if v.OverflowFloat(i) { return &UnmarshalTypeError{ Value: fmt.Sprintf("number overflow, %s", *n), Type: v.Type(), } } v.SetFloat(i) default: if v.Type().ConvertibleTo(timeType) && fieldTag.AsUnixTime { t, err := decodeUnixTime(*n) if err != nil { return err } v.Set(reflect.ValueOf(t).Convert(v.Type())) return nil } return &UnmarshalTypeError{Value: "number", Type: v.Type()} } return nil } func (d *Decoder) decodeNumberToInterface(n *string) (interface{}, error) { if d.UseNumber { return Number(*n), nil } // Default to float64 for all numbers return strconv.ParseFloat(*n, 64) } func (d *Decoder) decodeNumberSet(ns []*string, v reflect.Value) error { switch v.Kind() { case reflect.Slice: // Make room for the slice elements if needed if v.IsNil() || v.Cap() < len(ns) { // What about if ignoring nil/empty values? v.Set(reflect.MakeSlice(v.Type(), 0, len(ns))) } case reflect.Array: // Limited to capacity of existing array. case reflect.Interface: if d.UseNumber { set := make([]Number, len(ns)) for i, n := range ns { if err := d.decodeNumber(n, reflect.ValueOf(&set[i]).Elem(), tag{}); err != nil { return err } } v.Set(reflect.ValueOf(set)) } else { set := make([]float64, len(ns)) for i, n := range ns { if err := d.decodeNumber(n, reflect.ValueOf(&set[i]).Elem(), tag{}); err != nil { return err } } v.Set(reflect.ValueOf(set)) } return nil default: return &UnmarshalTypeError{Value: "number set", Type: v.Type()} } for i := 0; i < v.Cap() && i < len(ns); i++ { v.SetLen(i + 1) u, elem := indirect(v.Index(i), false) if u != nil { return u.UnmarshalDynamoDBAttributeValue(&dynamodb.AttributeValue{NS: ns}) } if err := d.decodeNumber(ns[i], elem, tag{}); err != nil { return err } } return nil } func (d *Decoder) decodeList(avList []*dynamodb.AttributeValue, v reflect.Value) error { switch v.Kind() { case reflect.Slice: // Make room for the slice elements if needed if v.IsNil() || v.Cap() < len(avList) { // What about if ignoring nil/empty values? v.Set(reflect.MakeSlice(v.Type(), 0, len(avList))) } case reflect.Array: // Limited to capacity of existing array. case reflect.Interface: s := make([]interface{}, len(avList)) for i, av := range avList { if err := d.decode(av, reflect.ValueOf(&s[i]).Elem(), tag{}); err != nil { return err } } v.Set(reflect.ValueOf(s)) return nil default: return &UnmarshalTypeError{Value: "list", Type: v.Type()} } // If v is not a slice, array for i := 0; i < v.Cap() && i < len(avList); i++ { v.SetLen(i + 1) if err := d.decode(avList[i], v.Index(i), tag{}); err != nil { return err } } return nil } func (d *Decoder) decodeMap(avMap map[string]*dynamodb.AttributeValue, v reflect.Value) error { switch v.Kind() { case reflect.Map: t := v.Type() if t.Key().Kind() != reflect.String { return &UnmarshalTypeError{Value: "map string key", Type: t.Key()} } if v.IsNil() { v.Set(reflect.MakeMap(t)) } case reflect.Struct: case reflect.Interface: v.Set(reflect.MakeMap(stringInterfaceMapType)) v = v.Elem() default: return &UnmarshalTypeError{Value: "map", Type: v.Type()} } if v.Kind() == reflect.Map { for k, av := range avMap { key := reflect.ValueOf(k) elem := reflect.New(v.Type().Elem()).Elem() if err := d.decode(av, elem, tag{}); err != nil { return err } v.SetMapIndex(key, elem) } } else if v.Kind() == reflect.Struct { fields := unionStructFields(v.Type(), d.MarshalOptions) for k, av := range avMap { if f, ok := fieldByName(fields, k); ok { fv := fieldByIndex(v, f.Index, func(v *reflect.Value) bool { v.Set(reflect.New(v.Type().Elem())) return true // to continue the loop. }) if err := d.decode(av, fv, f.tag); err != nil { return err } } } } return nil } func (d *Decoder) decodeNull(v reflect.Value) error { if v.IsValid() && v.CanSet() { v.Set(reflect.Zero(v.Type())) } return nil } func (d *Decoder) decodeString(s *string, v reflect.Value, fieldTag tag) error { if fieldTag.AsString { return d.decodeNumber(s, v, fieldTag) } // To maintain backwards compatibility with ConvertFrom family of methods which // converted strings to time.Time structs if v.Type().ConvertibleTo(timeType) { t, err := time.Parse(time.RFC3339, *s) if err != nil { return err } v.Set(reflect.ValueOf(t).Convert(v.Type())) return nil } switch v.Kind() { case reflect.String: v.SetString(*s) case reflect.Interface: // Ensure type aliasing is handled properly v.Set(reflect.ValueOf(*s).Convert(v.Type())) default: return &UnmarshalTypeError{Value: "string", Type: v.Type()} } return nil } func (d *Decoder) decodeStringSet(ss []*string, v reflect.Value) error { switch v.Kind() { case reflect.Slice: // Make room for the slice elements if needed if v.IsNil() || v.Cap() < len(ss) { v.Set(reflect.MakeSlice(v.Type(), 0, len(ss))) } case reflect.Array: // Limited to capacity of existing array. case reflect.Interface: set := make([]string, len(ss)) for i, s := range ss { if err := d.decodeString(s, reflect.ValueOf(&set[i]).Elem(), tag{}); err != nil { return err } } v.Set(reflect.ValueOf(set)) return nil default: return &UnmarshalTypeError{Value: "string set", Type: v.Type()} } for i := 0; i < v.Cap() && i < len(ss); i++ { v.SetLen(i + 1) u, elem := indirect(v.Index(i), false) if u != nil { return u.UnmarshalDynamoDBAttributeValue(&dynamodb.AttributeValue{SS: ss}) } if err := d.decodeString(ss[i], elem, tag{}); err != nil { return err } } return nil } func decodeUnixTime(n string) (time.Time, error) { v, err := strconv.ParseInt(n, 10, 64) if err != nil { return time.Time{}, &UnmarshalError{ Err: err, Value: n, Type: timeType, } } return time.Unix(v, 0), nil } // indirect will walk a value's interface or pointer value types. Returning // the final value or the value a unmarshaler is defined on. // // Based on the enoding/json type reflect value type indirection in Go Stdlib // https://golang.org/src/encoding/json/decode.go indirect func. func indirect(v reflect.Value, decodingNull bool) (Unmarshaler, reflect.Value) { if v.Kind() != reflect.Ptr && v.Type().Name() != "" && v.CanAddr() { v = v.Addr() } for { if v.Kind() == reflect.Interface && !v.IsNil() { e := v.Elem() if e.Kind() == reflect.Ptr && !e.IsNil() && (!decodingNull || e.Elem().Kind() == reflect.Ptr) { v = e continue } } if v.Kind() != reflect.Ptr { break } if v.Elem().Kind() != reflect.Ptr && decodingNull && v.CanSet() { break } if v.IsNil() { v.Set(reflect.New(v.Type().Elem())) } if v.Type().NumMethod() > 0 { if u, ok := v.Interface().(Unmarshaler); ok { return u, reflect.Value{} } } v = v.Elem() } return nil, v } // A Number represents a Attributevalue number literal. type Number string // Float64 attempts to cast the number ot a float64, returning // the result of the case or error if the case failed. func (n Number) Float64() (float64, error) { return strconv.ParseFloat(string(n), 64) } // Int64 attempts to cast the number ot a int64, returning // the result of the case or error if the case failed. func (n Number) Int64() (int64, error) { return strconv.ParseInt(string(n), 10, 64) } // Uint64 attempts to cast the number ot a uint64, returning // the result of the case or error if the case failed. func (n Number) Uint64() (uint64, error) { return strconv.ParseUint(string(n), 10, 64) } // String returns the raw number represented as a string func (n Number) String() string { return string(n) } type emptyOrigError struct{} func (e emptyOrigError) OrigErr() error { return nil } // An UnmarshalTypeError is an error type representing a error // unmarshaling the AttributeValue's element to a Go value type. // Includes details about the AttributeValue type and Go value type. type UnmarshalTypeError struct { emptyOrigError Value string Type reflect.Type } // Error returns the string representation of the error. // satisfying the error interface func (e *UnmarshalTypeError) Error() string { return fmt.Sprintf("%s: %s", e.Code(), e.Message()) } // Code returns the code of the error, satisfying the awserr.Error // interface. func (e *UnmarshalTypeError) Code() string { return "UnmarshalTypeError" } // Message returns the detailed message of the error, satisfying // the awserr.Error interface. func (e *UnmarshalTypeError) Message() string { return "cannot unmarshal " + e.Value + " into Go value of type " + e.Type.String() } // An InvalidUnmarshalError is an error type representing an invalid type // encountered while unmarshaling a AttributeValue to a Go value type. type InvalidUnmarshalError struct { emptyOrigError Type reflect.Type } // Error returns the string representation of the error. // satisfying the error interface func (e *InvalidUnmarshalError) Error() string { return fmt.Sprintf("%s: %s", e.Code(), e.Message()) } // Code returns the code of the error, satisfying the awserr.Error // interface. func (e *InvalidUnmarshalError) Code() string { return "InvalidUnmarshalError" } // Message returns the detailed message of the error, satisfying // the awserr.Error interface. func (e *InvalidUnmarshalError) Message() string { if e.Type == nil { return "cannot unmarshal to nil value" } if e.Type.Kind() != reflect.Ptr { return "cannot unmarshal to non-pointer value, got " + e.Type.String() } return "cannot unmarshal to nil value, " + e.Type.String() } // An UnmarshalError wraps an error that occured while unmarshaling a DynamoDB // AttributeValue element into a Go type. This is different from UnmarshalTypeError // in that it wraps the underlying error that occured. type UnmarshalError struct { Err error Value string Type reflect.Type } // Error returns the string representation of the error. // satisfying the error interface. func (e *UnmarshalError) Error() string { return fmt.Sprintf("%s: %s\ncaused by: %v", e.Code(), e.Message(), e.Err) } // OrigErr returns the original error that caused this issue. func (e UnmarshalError) OrigErr() error { return e.Err } // Code returns the code of the error, satisfying the awserr.Error // interface. func (e *UnmarshalError) Code() string { return "UnmarshalError" } // Message returns the detailed message of the error, satisfying // the awserr.Error interface. func (e *UnmarshalError) Message() string { return fmt.Sprintf("cannot unmarshal %q into %s.", e.Value, e.Type.String()) }