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binary-encode.go
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binary-encode.go
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package amino
import (
"bytes"
"encoding/binary"
"errors"
"fmt"
"io"
"reflect"
"time"
"github.com/davecgh/go-spew/spew"
)
//----------------------------------------
// cdc.encodeReflectBinary
// This is the main entrypoint for encoding all types in binary form. This
// function calls encodeReflectBinary*, and generally those functions should
// only call this one, for the prefix bytes are only written here.
// The value may be a nil interface, but not a nil pointer.
// The following contracts apply to all similar encode methods.
// CONTRACT: rv is not a pointer
// CONTRACT: rv is valid.
func (cdc *Codec) encodeReflectBinary(w io.Writer, info *TypeInfo, rv reflect.Value, fopts FieldOptions, bare bool) (err error) {
if rv.Kind() == reflect.Ptr {
panic("not allowed to be called with a reflect.Ptr")
}
if !rv.IsValid() {
panic("not allowed to be called with invalid / zero Value")
}
if printLog {
spew.Printf("(E) encodeReflectBinary(info: %v, rv: %#v (%v), fopts: %v)\n",
info, rv.Interface(), rv.Type(), fopts)
defer func() {
fmt.Printf("(E) -> err: %v\n", err)
}()
}
// Handle override if rv implements json.Marshaler.
if info.IsAminoMarshaler {
// First, encode rv into repr instance.
var rrv, rinfo = reflect.Value{}, (*TypeInfo)(nil)
rrv, err = toReprObject(rv)
if err != nil {
return
}
rinfo, err = cdc.getTypeInfo_wlock(info.AminoMarshalReprType)
if err != nil {
return
}
// Then, encode the repr instance.
err = cdc.encodeReflectBinary(w, rinfo, rrv, fopts, bare)
return
}
switch info.Type.Kind() {
//----------------------------------------
// Complex
case reflect.Interface:
err = cdc.encodeReflectBinaryInterface(w, info, rv, fopts, bare)
case reflect.Array:
if info.Type.Elem().Kind() == reflect.Uint8 {
err = cdc.encodeReflectBinaryByteArray(w, info, rv, fopts)
} else {
err = cdc.encodeReflectBinaryList(w, info, rv, fopts, bare)
}
case reflect.Slice:
if info.Type.Elem().Kind() == reflect.Uint8 {
err = cdc.encodeReflectBinaryByteSlice(w, info, rv, fopts)
} else {
err = cdc.encodeReflectBinaryList(w, info, rv, fopts, bare)
}
case reflect.Struct:
err = cdc.encodeReflectBinaryStruct(w, info, rv, fopts, bare)
//----------------------------------------
// Signed
case reflect.Int64:
if fopts.BinFixed64 {
err = EncodeInt64(w, rv.Int())
} else {
err = EncodeUvarint(w, uint64(rv.Int()))
}
case reflect.Int32:
if fopts.BinFixed32 {
err = EncodeInt32(w, int32(rv.Int()))
} else {
err = EncodeUvarint(w, uint64(rv.Int()))
}
case reflect.Int16:
if fopts.BinFixed16 {
err = EncodeInt16(w, int16(rv.Int()))
} else {
err = EncodeUvarint(w, uint64(rv.Int()))
}
case reflect.Int8:
if fopts.BinFixed8 {
err = EncodeInt8(w, int8(rv.Int()))
} else {
err = EncodeUvarint(w, uint64(rv.Int()))
}
case reflect.Int:
err = EncodeUvarint(w, uint64(rv.Int()))
//----------------------------------------
// Unsigned
case reflect.Uint64:
if fopts.BinFixed64 {
err = EncodeUint64(w, rv.Uint())
} else {
err = EncodeUvarint(w, rv.Uint())
}
case reflect.Uint32:
if fopts.BinFixed32 {
err = EncodeUint32(w, uint32(rv.Uint()))
} else {
err = EncodeUvarint(w, rv.Uint())
}
case reflect.Uint16:
err = EncodeUint16(w, uint16(rv.Uint()))
case reflect.Uint8:
err = EncodeUint8(w, uint8(rv.Uint()))
case reflect.Uint:
err = EncodeUvarint(w, rv.Uint())
//----------------------------------------
// Misc
case reflect.Bool:
err = EncodeBool(w, rv.Bool())
case reflect.Float64:
if !fopts.Unsafe {
err = errors.New("Amino float* support requires `amino:\"unsafe\"`.")
return
}
err = EncodeFloat64(w, rv.Float())
case reflect.Float32:
if !fopts.Unsafe {
err = errors.New("Amino float* support requires `amino:\"unsafe\"`.")
return
}
err = EncodeFloat32(w, float32(rv.Float()))
case reflect.String:
err = EncodeString(w, rv.String())
//----------------------------------------
// Default
default:
panic(fmt.Sprintf("unsupported type %v", info.Type.Kind()))
}
return
}
func (cdc *Codec) encodeReflectBinaryInterface(w io.Writer, iinfo *TypeInfo, rv reflect.Value, fopts FieldOptions, bare bool) (err error) {
if printLog {
fmt.Println("(e) encodeReflectBinaryInterface")
defer func() {
fmt.Printf("(e) -> err: %v\n", err)
}()
}
// Special case when rv is nil, write 0x00 to denote an empty byteslice.
if rv.IsNil() {
_, err = w.Write([]byte{0x00})
return
}
// Get concrete non-pointer reflect value & type.
var crv, isPtr, isNilPtr = derefPointers(rv.Elem())
if isPtr && crv.Kind() == reflect.Interface {
// See "MARKER: No interface-pointers" in codec.go
panic("should not happen")
}
if isNilPtr {
panic(fmt.Sprintf("Illegal nil-pointer of type %v for registered interface %v. "+
"For compatibility with other languages, nil-pointer interface values are forbidden.", crv.Type(), iinfo.Type))
}
var crt = crv.Type()
// Get *TypeInfo for concrete type.
var cinfo *TypeInfo
cinfo, err = cdc.getTypeInfo_wlock(crt)
if err != nil {
return
}
if !cinfo.Registered {
err = fmt.Errorf("Cannot encode unregistered concrete type %v.", crt)
return
}
// For Proto3 compatibility, encode interfaces as ByteLength.
buf := bytes.NewBuffer(nil)
// Write disambiguation bytes if needed.
var needDisamb bool = false
if iinfo.AlwaysDisambiguate {
needDisamb = true
} else if len(iinfo.Implementers[cinfo.Prefix]) > 1 {
needDisamb = true
}
if needDisamb {
_, err = buf.Write(append([]byte{0x00}, cinfo.Disamb[:]...))
if err != nil {
return
}
}
// Write prefix bytes.
_, err = buf.Write(cinfo.Prefix.Bytes())
if err != nil {
return
}
// Write actual concrete value.
err = cdc.encodeReflectBinary(buf, cinfo, crv, fopts, true)
if err != nil {
return
}
if bare {
// Write byteslice without byte-length prefixing.
_, err = w.Write(buf.Bytes())
} else {
// Write byte-length prefixed byteslice.
err = EncodeByteSlice(w, buf.Bytes())
}
return
}
func (cdc *Codec) encodeReflectBinaryByteArray(w io.Writer, info *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
ert := info.Type.Elem()
if ert.Kind() != reflect.Uint8 {
panic("should not happen")
}
length := info.Type.Len()
// Get byteslice.
var byteslice = []byte(nil)
if rv.CanAddr() {
byteslice = rv.Slice(0, length).Bytes()
} else {
byteslice = make([]byte, length)
reflect.Copy(reflect.ValueOf(byteslice), rv) // XXX: looks expensive!
}
// Write byte-length prefixed byteslice.
err = EncodeByteSlice(w, byteslice)
return
}
func (cdc *Codec) encodeReflectBinaryList(w io.Writer, info *TypeInfo, rv reflect.Value, fopts FieldOptions, bare bool) (err error) {
if printLog {
fmt.Println("(e) encodeReflectBinaryList")
defer func() {
fmt.Printf("(e) -> err: %v\n", err)
}()
}
ert := info.Type.Elem()
if ert.Kind() == reflect.Uint8 {
panic("should not happen")
}
einfo, err := cdc.getTypeInfo_wlock(ert)
if err != nil {
return
}
// Proto3 byte-length prefixing incurs alloc cost on the encoder.
// Here we incur it for unpacked form for ease of dev.
buf := bytes.NewBuffer(nil)
// If elem is not already a ByteLength type, write in packed form.
// This is a Proto wart due to Proto backwards compatibility issues.
// Amino2 will probably migrate to use the List typ3. Please? :)
typ3 := typeToTyp3(einfo.Type, fopts)
if typ3 != Typ3_ByteLength {
// Write elems in packed form.
for i := 0; i < rv.Len(); i++ {
// Get dereferenced element value (or zero).
var erv, _, _ = derefPointersZero(rv.Index(i))
// Write the element value.
err = cdc.encodeReflectBinary(buf, einfo, erv, fopts, false)
if err != nil {
return
}
}
} else {
// NOTE: ert is for the element value, while einfo.Type is dereferenced.
isErtStructPointer := ert.Kind() == reflect.Ptr && einfo.Type.Kind() == reflect.Struct
// Write elems in unpacked form.
for i := 0; i < rv.Len(); i++ {
// Write elements as repeated fields of the parent struct.
err = encodeFieldNumberAndTyp3(buf, fopts.BinFieldNum, Typ3_ByteLength)
if err != nil {
return
}
// Get dereferenced element value and info.
var erv, isDefault = isDefaultValue(rv.Index(i))
if isDefault {
// Special case if:
// - erv is a struct pointer and
// - field option has EmptyElements set
if isErtStructPointer && fopts.EmptyElements {
// NOTE: Not sure what to do here, but for future-proofing,
// we explicitly fail on nil pointers, just like
// Proto3's Golang client does.
// This also makes it easier to upgrade to Amino2
// which would enable the encoding of nil structs.
return errors.New("nil struct pointers not supported when empty_elements field tag is set")
}
// Nothing to encode, so the length is 0.
err = EncodeByte(buf, byte(0x00))
if err != nil {
return
}
} else {
// Write the element value as a ByteLength.
// In case of any inner lists in unpacked form.
efopts := fopts
efopts.BinFieldNum = 1
err = cdc.encodeReflectBinary(buf, einfo, erv, efopts, false)
if err != nil {
return
}
}
}
}
if bare {
// Write byteslice without byte-length prefixing.
_, err = w.Write(buf.Bytes())
} else {
// Write byte-length prefixed byteslice.
err = EncodeByteSlice(w, buf.Bytes())
}
return
}
// CONTRACT: info.Type.Elem().Kind() == reflect.Uint8
func (cdc *Codec) encodeReflectBinaryByteSlice(w io.Writer, info *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
if printLog {
fmt.Println("(e) encodeReflectBinaryByteSlice")
defer func() {
fmt.Printf("(e) -> err: %v\n", err)
}()
}
ert := info.Type.Elem()
if ert.Kind() != reflect.Uint8 {
panic("should not happen")
}
// Write byte-length prefixed byte-slice.
var byteslice = rv.Bytes()
err = EncodeByteSlice(w, byteslice)
return
}
func (cdc *Codec) encodeReflectBinaryStruct(w io.Writer, info *TypeInfo, rv reflect.Value, fopts FieldOptions, bare bool) (err error) {
if printLog {
fmt.Println("(e) encodeReflectBinaryBinaryStruct")
defer func() {
fmt.Printf("(e) -> err: %v\n", err)
}()
}
// Proto3 incurs a cost in writing non-root structs.
// Here we incur it for root structs as well for ease of dev.
buf := bytes.NewBuffer(nil)
switch info.Type {
case timeType:
// Special case: time.Time
err = EncodeTime(buf, rv.Interface().(time.Time))
if err != nil {
return
}
default:
for _, field := range info.Fields {
// Get type info for field.
var finfo *TypeInfo
finfo, err = cdc.getTypeInfo_wlock(field.Type)
if err != nil {
return
}
// Get dereferenced field value and info.
var frv = rv.Field(field.Index)
var frvIsPtr = frv.Kind() == reflect.Ptr
var dfrv, isDefault = isDefaultValue(frv)
if isDefault && !fopts.WriteEmpty {
// Do not encode default value fields
// (except when `amino:"write_empty"` is set).
continue
}
if field.UnpackedList {
// Write repeated field entries for each list item.
err = cdc.encodeReflectBinaryList(buf, finfo, dfrv, field.FieldOptions, true)
if err != nil {
return
}
} else {
lBeforeKey := buf.Len()
// Write field key (number and type).
err = encodeFieldNumberAndTyp3(buf, field.BinFieldNum, typeToTyp3(finfo.Type, field.FieldOptions))
if err != nil {
return
}
lBeforeValue := buf.Len()
// Write field value from rv.
err = cdc.encodeReflectBinary(buf, finfo, dfrv, field.FieldOptions, false)
if err != nil {
return
}
lAfterValue := buf.Len()
if !frvIsPtr && !fopts.WriteEmpty && lBeforeValue == lAfterValue-1 && buf.Bytes()[buf.Len()-1] == 0x00 {
// rollback typ3/fieldnum and last byte if
// not a pointer and empty:
buf.Truncate(lBeforeKey)
}
}
}
}
if bare {
// Write byteslice without byte-length prefixing.
_, err = w.Write(buf.Bytes())
} else {
// Write byte-length prefixed byteslice.
err = EncodeByteSlice(w, buf.Bytes())
}
return
}
//----------------------------------------
// Misc.
// Write field key.
func encodeFieldNumberAndTyp3(w io.Writer, num uint32, typ Typ3) (err error) {
if (typ & 0xF8) != 0 {
panic(fmt.Sprintf("invalid Typ3 byte %v", typ))
}
if num < 0 || num > (1<<29-1) {
panic(fmt.Sprintf("invalid field number %v", num))
}
// Pack Typ3 and field number.
var value64 = (uint64(num) << 3) | uint64(typ)
// Write uvarint value for field and Typ3.
var buf [10]byte
n := binary.PutUvarint(buf[:], value64)
_, err = w.Write(buf[0:n])
return
}