// Copyright (C) MongoDB, Inc. 2017-present. // // Licensed under the Apache License, Version 2.0 (the "License"); you may // not use this file except in compliance with the License. You may obtain // a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 package bsoncodec // import "go.mongodb.org/mongo-driver/bson/bsoncodec" import ( "fmt" "reflect" "strings" "go.mongodb.org/mongo-driver/bson/bsonrw" "go.mongodb.org/mongo-driver/bson/bsontype" ) var ( emptyValue = reflect.Value{} ) // Marshaler is an interface implemented by types that can marshal themselves // into a BSON document represented as bytes. The bytes returned must be a valid // BSON document if the error is nil. type Marshaler interface { MarshalBSON() ([]byte, error) } // ValueMarshaler is an interface implemented by types that can marshal // themselves into a BSON value as bytes. The type must be the valid type for // the bytes returned. The bytes and byte type together must be valid if the // error is nil. type ValueMarshaler interface { MarshalBSONValue() (bsontype.Type, []byte, error) } // Unmarshaler is an interface implemented by types that can unmarshal a BSON // document representation of themselves. The BSON bytes can be assumed to be // valid. UnmarshalBSON must copy the BSON bytes if it wishes to retain the data // after returning. type Unmarshaler interface { UnmarshalBSON([]byte) error } // ValueUnmarshaler is an interface implemented by types that can unmarshal a // BSON value representation of themselves. The BSON bytes and type can be // assumed to be valid. UnmarshalBSONValue must copy the BSON value bytes if it // wishes to retain the data after returning. type ValueUnmarshaler interface { UnmarshalBSONValue(bsontype.Type, []byte) error } // ValueEncoderError is an error returned from a ValueEncoder when the provided value can't be // encoded by the ValueEncoder. type ValueEncoderError struct { Name string Types []reflect.Type Kinds []reflect.Kind Received reflect.Value } func (vee ValueEncoderError) Error() string { typeKinds := make([]string, 0, len(vee.Types)+len(vee.Kinds)) for _, t := range vee.Types { typeKinds = append(typeKinds, t.String()) } for _, k := range vee.Kinds { if k == reflect.Map { typeKinds = append(typeKinds, "map[string]*") continue } typeKinds = append(typeKinds, k.String()) } received := vee.Received.Kind().String() if vee.Received.IsValid() { received = vee.Received.Type().String() } return fmt.Sprintf("%s can only encode valid %s, but got %s", vee.Name, strings.Join(typeKinds, ", "), received) } // ValueDecoderError is an error returned from a ValueDecoder when the provided value can't be // decoded by the ValueDecoder. type ValueDecoderError struct { Name string Types []reflect.Type Kinds []reflect.Kind Received reflect.Value } func (vde ValueDecoderError) Error() string { typeKinds := make([]string, 0, len(vde.Types)+len(vde.Kinds)) for _, t := range vde.Types { typeKinds = append(typeKinds, t.String()) } for _, k := range vde.Kinds { if k == reflect.Map { typeKinds = append(typeKinds, "map[string]*") continue } typeKinds = append(typeKinds, k.String()) } received := vde.Received.Kind().String() if vde.Received.IsValid() { received = vde.Received.Type().String() } return fmt.Sprintf("%s can only decode valid and settable %s, but got %s", vde.Name, strings.Join(typeKinds, ", "), received) } // EncodeContext is the contextual information required for a Codec to encode a // value. type EncodeContext struct { *Registry MinSize bool } // DecodeContext is the contextual information required for a Codec to decode a // value. type DecodeContext struct { *Registry Truncate bool // Ancestor is the type of a containing document. This is mainly used to determine what type // should be used when decoding an embedded document into an empty interface. For example, if // Ancestor is a bson.M, BSON embedded document values being decoded into an empty interface // will be decoded into a bson.M. Ancestor reflect.Type } // ValueCodec is the interface that groups the methods to encode and decode // values. type ValueCodec interface { ValueEncoder ValueDecoder } // ValueEncoder is the interface implemented by types that can handle the encoding of a value. type ValueEncoder interface { EncodeValue(EncodeContext, bsonrw.ValueWriter, reflect.Value) error } // ValueEncoderFunc is an adapter function that allows a function with the correct signature to be // used as a ValueEncoder. type ValueEncoderFunc func(EncodeContext, bsonrw.ValueWriter, reflect.Value) error // EncodeValue implements the ValueEncoder interface. func (fn ValueEncoderFunc) EncodeValue(ec EncodeContext, vw bsonrw.ValueWriter, val reflect.Value) error { return fn(ec, vw, val) } // ValueDecoder is the interface implemented by types that can handle the decoding of a value. type ValueDecoder interface { DecodeValue(DecodeContext, bsonrw.ValueReader, reflect.Value) error } // ValueDecoderFunc is an adapter function that allows a function with the correct signature to be // used as a ValueDecoder. type ValueDecoderFunc func(DecodeContext, bsonrw.ValueReader, reflect.Value) error // DecodeValue implements the ValueDecoder interface. func (fn ValueDecoderFunc) DecodeValue(dc DecodeContext, vr bsonrw.ValueReader, val reflect.Value) error { return fn(dc, vr, val) } // typeDecoder is the interface implemented by types that can handle the decoding of a value given its type. type typeDecoder interface { decodeType(DecodeContext, bsonrw.ValueReader, reflect.Type) (reflect.Value, error) } // typeDecoderFunc is an adapter function that allows a function with the correct signature to be used as a typeDecoder. type typeDecoderFunc func(DecodeContext, bsonrw.ValueReader, reflect.Type) (reflect.Value, error) func (fn typeDecoderFunc) decodeType(dc DecodeContext, vr bsonrw.ValueReader, t reflect.Type) (reflect.Value, error) { return fn(dc, vr, t) } // decodeAdapter allows two functions with the correct signatures to be used as both a ValueDecoder and typeDecoder. type decodeAdapter struct { ValueDecoderFunc typeDecoderFunc } var _ ValueDecoder = decodeAdapter{} var _ typeDecoder = decodeAdapter{} // decodeTypeOrValue calls decoder.decodeType is decoder is a typeDecoder. Otherwise, it allocates a new element of type // t and calls decoder.DecodeValue on it. func decodeTypeOrValue(decoder ValueDecoder, dc DecodeContext, vr bsonrw.ValueReader, t reflect.Type) (reflect.Value, error) { td, _ := decoder.(typeDecoder) return decodeTypeOrValueWithInfo(decoder, td, dc, vr, t, true) } func decodeTypeOrValueWithInfo(vd ValueDecoder, td typeDecoder, dc DecodeContext, vr bsonrw.ValueReader, t reflect.Type, convert bool) (reflect.Value, error) { if td != nil { val, err := td.decodeType(dc, vr, t) if err == nil && convert && val.Type() != t { // This conversion step is necessary for slices and maps. If a user declares variables like: // // type myBool bool // var m map[string]myBool // // and tries to decode BSON bytes into the map, the decoding will fail if this conversion is not present // because we'll try to assign a value of type bool to one of type myBool. val = val.Convert(t) } return val, err } val := reflect.New(t).Elem() err := vd.DecodeValue(dc, vr, val) return val, err } // CodecZeroer is the interface implemented by Codecs that can also determine if // a value of the type that would be encoded is zero. type CodecZeroer interface { IsTypeZero(interface{}) bool }