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package binary
import (
"encoding/hex"
"encoding/json"
"errors"
"io"
"reflect"
"sync"
"time"
. "github.com/tendermint/tendermint/common"
)
const (
ReflectSliceChunk = 1024
)
type TypeInfo struct {
Type reflect.Type // The type
// If Type is kind reflect.Interface, is registered
IsRegisteredInterface bool
ByteToType map[byte]reflect.Type
TypeToByte map[reflect.Type]byte
// If Type is concrete
Byte byte
// If Type is kind reflect.Struct
Fields []StructFieldInfo
}
type Options struct {
JSONName string // (JSON) Corresponding JSON field name. (override with `json=""`)
Varint bool // (Binary) Use length-prefixed encoding for (u)int*
}
func getOptionsFromField(field reflect.StructField) (skip bool, opts Options) {
jsonName := field.Tag.Get("json")
if jsonName == "-" {
skip = true
return
} else if jsonName == "" {
jsonName = field.Name
}
varint := false
binTag := field.Tag.Get("binary")
if binTag == "varint" { // TODO: extend
varint = true
}
opts = Options{
JSONName: jsonName,
Varint: varint,
}
return
}
type StructFieldInfo struct {
Index int // Struct field index
Type reflect.Type // Struct field type
Options // Encoding options
}
func (info StructFieldInfo) unpack() (int, reflect.Type, Options) {
return info.Index, info.Type, info.Options
}
// e.g. If o is struct{Foo}{}, return is the Foo reflection type.
func GetTypeFromStructDeclaration(o interface{}) reflect.Type {
rt := reflect.TypeOf(o)
if rt.NumField() != 1 {
panic("Unexpected number of fields in struct-wrapped declaration of type")
}
return rt.Field(0).Type
}
func SetByteForType(typeByte byte, rt reflect.Type) {
typeInfo := GetTypeInfo(rt)
if typeInfo.Byte != 0x00 && typeInfo.Byte != typeByte {
panic(Fmt("Type %v already registered with type byte %X", rt, typeByte))
}
typeInfo.Byte = typeByte
// If pointer, we need to set it for the concrete type as well.
if rt.Kind() == reflect.Ptr {
SetByteForType(typeByte, rt.Elem())
}
}
// Predeclaration of common types
var (
timeType = GetTypeFromStructDeclaration(struct{ time.Time }{})
)
const (
rfc2822 = "Mon Jan 02 15:04:05 -0700 2006"
)
// NOTE: do not access typeInfos directly, but call GetTypeInfo()
var typeInfosMtx sync.Mutex
var typeInfos = map[reflect.Type]*TypeInfo{}
func GetTypeInfo(rt reflect.Type) *TypeInfo {
typeInfosMtx.Lock()
defer typeInfosMtx.Unlock()
info := typeInfos[rt]
if info == nil {
info = MakeTypeInfo(rt)
typeInfos[rt] = info
}
return info
}
// For use with the RegisterInterface declaration
type ConcreteType struct {
O interface{}
Byte byte
}
// Must use this to register an interface to properly decode the
// underlying concrete type.
func RegisterInterface(o interface{}, ctypes ...ConcreteType) *TypeInfo {
it := GetTypeFromStructDeclaration(o)
if it.Kind() != reflect.Interface {
panic("RegisterInterface expects an interface")
}
toType := make(map[byte]reflect.Type, 0)
toByte := make(map[reflect.Type]byte, 0)
for _, ctype := range ctypes {
crt := reflect.TypeOf(ctype.O)
typeByte := ctype.Byte
SetByteForType(typeByte, crt)
if typeByte == 0x00 {
panic(Fmt("Byte of 0x00 is reserved for nil (%v)", ctype))
}
if toType[typeByte] != nil {
panic(Fmt("Duplicate Byte for type %v and %v", ctype, toType[typeByte]))
}
toType[typeByte] = crt
toByte[crt] = typeByte
}
typeInfo := &TypeInfo{
Type: it,
IsRegisteredInterface: true,
ByteToType: toType,
TypeToByte: toByte,
}
typeInfos[it] = typeInfo
return typeInfo
}
func MakeTypeInfo(rt reflect.Type) *TypeInfo {
info := &TypeInfo{Type: rt}
// If struct, register field name options
if rt.Kind() == reflect.Struct {
numFields := rt.NumField()
structFields := []StructFieldInfo{}
for i := 0; i < numFields; i++ {
field := rt.Field(i)
if field.PkgPath != "" {
continue
}
skip, opts := getOptionsFromField(field)
if skip {
continue
}
structFields = append(structFields, StructFieldInfo{
Index: i,
Type: field.Type,
Options: opts,
})
}
info.Fields = structFields
}
return info
}
func readReflectBinary(rv reflect.Value, rt reflect.Type, opts Options, r io.Reader, n *int64, err *error) {
// Get typeInfo
typeInfo := GetTypeInfo(rt)
if rt.Kind() == reflect.Interface {
if !typeInfo.IsRegisteredInterface {
// There's no way we can read such a thing.
*err = errors.New(Fmt("Cannot read unregistered interface type %v", rt))
return
}
typeByte := ReadByte(r, n, err)
if *err != nil {
return
}
if typeByte == 0x00 {
return // nil
}
crt, ok := typeInfo.ByteToType[typeByte]
if !ok {
*err = errors.New(Fmt("Unexpected type byte %X for type %v", typeByte, rt))
return
}
crv := reflect.New(crt).Elem()
r = NewPrefixedReader([]byte{typeByte}, r)
readReflectBinary(crv, crt, opts, r, n, err)
rv.Set(crv) // NOTE: orig rv is ignored.
return
}
if rt.Kind() == reflect.Ptr {
typeByte := ReadByte(r, n, err)
if *err != nil {
return
}
if typeByte == 0x00 {
return // nil
}
// Create new if rv is nil.
if rv.IsNil() {
newRv := reflect.New(rt.Elem())
rv.Set(newRv)
rv = newRv
}
// Dereference pointer
rv, rt = rv.Elem(), rt.Elem()
typeInfo = GetTypeInfo(rt)
if typeInfo.Byte != 0x00 {
r = NewPrefixedReader([]byte{typeByte}, r)
} else if typeByte != 0x01 {
*err = errors.New(Fmt("Unexpected type byte %X for ptr of untyped thing", typeByte))
return
}
// continue...
}
// Read Byte prefix
if typeInfo.Byte != 0x00 {
typeByte := ReadByte(r, n, err)
if typeByte != typeInfo.Byte {
*err = errors.New(Fmt("Expected Byte of %X but got %X", typeInfo.Byte, typeByte))
return
}
}
switch rt.Kind() {
case reflect.Slice:
elemRt := rt.Elem()
if elemRt.Kind() == reflect.Uint8 {
// Special case: Byteslices
byteslice := ReadByteSlice(r, n, err)
log.Debug("Read byteslice", "bytes", byteslice)
rv.Set(reflect.ValueOf(byteslice))
} else {
var sliceRv reflect.Value
// Read length
length := ReadVarint(r, n, err)
log.Debug(Fmt("Read length: %v", length))
sliceRv = reflect.MakeSlice(rt, 0, 0)
// read one ReflectSliceChunk at a time and append
for i := 0; i*ReflectSliceChunk < length; i++ {
l := MinInt(ReflectSliceChunk, length-i*ReflectSliceChunk)
tmpSliceRv := reflect.MakeSlice(rt, l, l)
for j := 0; j < l; j++ {
elemRv := tmpSliceRv.Index(j)
readReflectBinary(elemRv, elemRt, opts, r, n, err)
if *err != nil {
return
}
}
sliceRv = reflect.AppendSlice(sliceRv, tmpSliceRv)
}
rv.Set(sliceRv)
}
case reflect.Struct:
if rt == timeType {
// Special case: time.Time
t := ReadTime(r, n, err)
log.Debug(Fmt("Read time: %v", t))
rv.Set(reflect.ValueOf(t))
} else {
for _, fieldInfo := range typeInfo.Fields {
i, fieldType, opts := fieldInfo.unpack()
fieldRv := rv.Field(i)
readReflectBinary(fieldRv, fieldType, opts, r, n, err)
}
}
case reflect.String:
str := ReadString(r, n, err)
log.Debug(Fmt("Read string: %v", str))
rv.SetString(str)
case reflect.Int64:
if opts.Varint {
num := ReadVarint(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetInt(int64(num))
} else {
num := ReadInt64(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetInt(int64(num))
}
case reflect.Int32:
num := ReadUint32(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetInt(int64(num))
case reflect.Int16:
num := ReadUint16(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetInt(int64(num))
case reflect.Int8:
num := ReadUint8(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetInt(int64(num))
case reflect.Int:
num := ReadVarint(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetInt(int64(num))
case reflect.Uint64:
if opts.Varint {
num := ReadVarint(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetUint(uint64(num))
} else {
num := ReadUint64(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetUint(uint64(num))
}
case reflect.Uint32:
num := ReadUint32(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetUint(uint64(num))
case reflect.Uint16:
num := ReadUint16(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetUint(uint64(num))
case reflect.Uint8:
num := ReadUint8(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetUint(uint64(num))
case reflect.Uint:
num := ReadVarint(r, n, err)
log.Debug(Fmt("Read num: %v", num))
rv.SetUint(uint64(num))
case reflect.Bool:
num := ReadUint8(r, n, err)
log.Debug(Fmt("Read bool: %v", num))
rv.SetBool(num > 0)
default:
panic(Fmt("Unknown field type %v", rt.Kind()))
}
}
// rv: the reflection value of the thing to write
// rt: the type of rv as declared in the container, not necessarily rv.Type().
func writeReflectBinary(rv reflect.Value, rt reflect.Type, opts Options, w io.Writer, n *int64, err *error) {
// Get typeInfo
typeInfo := GetTypeInfo(rt)
if rt.Kind() == reflect.Interface {
if rv.IsNil() {
// XXX ensure that typeByte 0 is reserved.
WriteByte(0x00, w, n, err)
return
}
crv := rv.Elem() // concrete reflection value
crt := crv.Type() // concrete reflection type
if typeInfo.IsRegisteredInterface {
// See if the crt is registered.
// If so, we're more restrictive.
_, ok := typeInfo.TypeToByte[crt]
if !ok {
switch crt.Kind() {
case reflect.Ptr:
*err = errors.New(Fmt("Unexpected pointer type %v. Was it registered as a value receiver rather than as a pointer receiver?", crt))
case reflect.Struct:
*err = errors.New(Fmt("Unexpected struct type %v. Was it registered as a pointer receiver rather than as a value receiver?", crt))
default:
*err = errors.New(Fmt("Unexpected type %v.", crt))
}
return
}
} else {
// We support writing unsafely for convenience.
}
// We don't have to write the typeByte here,
// the writeReflectBinary() call below will write it.
writeReflectBinary(crv, crt, opts, w, n, err)
return
}
if rt.Kind() == reflect.Ptr {
// Dereference pointer
rv, rt = rv.Elem(), rt.Elem()
typeInfo = GetTypeInfo(rt)
if !rv.IsValid() {
WriteByte(0x00, w, n, err)
return
}
if typeInfo.Byte == 0x00 {
WriteByte(0x01, w, n, err)
// continue...
} else {
// continue...
}
}
// Write type byte
if typeInfo.Byte != 0x00 {
WriteByte(typeInfo.Byte, w, n, err)
}
// All other types
switch rt.Kind() {
case reflect.Slice:
elemRt := rt.Elem()
if elemRt.Kind() == reflect.Uint8 {
// Special case: Byteslices
byteslice := rv.Bytes()
WriteByteSlice(byteslice, w, n, err)
} else {
// Write length
length := rv.Len()
WriteVarint(length, w, n, err)
// Write elems
for i := 0; i < length; i++ {
elemRv := rv.Index(i)
writeReflectBinary(elemRv, elemRt, opts, w, n, err)
}
}
case reflect.Struct:
if rt == timeType {
// Special case: time.Time
WriteTime(rv.Interface().(time.Time), w, n, err)
} else {
for _, fieldInfo := range typeInfo.Fields {
i, fieldType, opts := fieldInfo.unpack()
fieldRv := rv.Field(i)
writeReflectBinary(fieldRv, fieldType, opts, w, n, err)
}
}
case reflect.String:
WriteString(rv.String(), w, n, err)
case reflect.Int64:
if opts.Varint {
WriteVarint(int(rv.Int()), w, n, err)
} else {
WriteInt64(rv.Int(), w, n, err)
}
case reflect.Int32:
WriteInt32(int32(rv.Int()), w, n, err)
case reflect.Int16:
WriteInt16(int16(rv.Int()), w, n, err)
case reflect.Int8:
WriteInt8(int8(rv.Int()), w, n, err)
case reflect.Int:
WriteVarint(int(rv.Int()), w, n, err)
case reflect.Uint64:
if opts.Varint {
WriteUvarint(uint(rv.Uint()), w, n, err)
} else {
WriteUint64(rv.Uint(), w, n, err)
}
case reflect.Uint32:
WriteUint32(uint32(rv.Uint()), w, n, err)
case reflect.Uint16:
WriteUint16(uint16(rv.Uint()), w, n, err)
case reflect.Uint8:
WriteUint8(uint8(rv.Uint()), w, n, err)
case reflect.Uint:
WriteUvarint(uint(rv.Uint()), w, n, err)
case reflect.Bool:
if rv.Bool() {
WriteUint8(uint8(1), w, n, err)
} else {
WriteUint8(uint8(0), w, n, err)
}
default:
panic(Fmt("Unknown field type %v", rt.Kind()))
}
}
//-----------------------------------------------------------------------------
func readByteJSON(o interface{}) (typeByte byte, rest interface{}, err error) {
oSlice, ok := o.([]interface{})
if !ok {
err = errors.New(Fmt("Expected type [Byte,?] but got type %v", reflect.TypeOf(o)))
return
}
if len(oSlice) != 2 {
err = errors.New(Fmt("Expected [Byte,?] len 2 but got len %v", len(oSlice)))
return
}
typeByte_, ok := oSlice[0].(float64)
typeByte = byte(typeByte_)
rest = oSlice[1]
return
}
func readReflectJSON(rv reflect.Value, rt reflect.Type, o interface{}, err *error) {
// Get typeInfo
typeInfo := GetTypeInfo(rt)
if rt.Kind() == reflect.Interface {
if !typeInfo.IsRegisteredInterface {
// There's no way we can read such a thing.
*err = errors.New(Fmt("Cannot read unregistered interface type %v", rt))
return
}
if o == nil {
return // nil
}
typeByte, _, err_ := readByteJSON(o)
if err_ != nil {
*err = err_
return
}
crt, ok := typeInfo.ByteToType[typeByte]
if !ok {
*err = errors.New(Fmt("Byte %X not registered for interface %v", typeByte, rt))
return
}
crv := reflect.New(crt).Elem()
readReflectJSON(crv, crt, o, err)
rv.Set(crv) // NOTE: orig rv is ignored.
return
}
if rt.Kind() == reflect.Ptr {
if o == nil {
return // nil
}
// Create new struct if rv is nil.
if rv.IsNil() {
newRv := reflect.New(rt.Elem())
rv.Set(newRv)
rv = newRv
}
// Dereference pointer
rv, rt = rv.Elem(), rt.Elem()
typeInfo = GetTypeInfo(rt)
// continue...
}
// Read Byte prefix
if typeInfo.Byte != 0x00 {
typeByte, rest, err_ := readByteJSON(o)
if err_ != nil {
*err = err_
return
}
if typeByte != typeInfo.Byte {
*err = errors.New(Fmt("Expected Byte of %X but got %X", typeInfo.Byte, byte(typeByte)))
return
}
o = rest
}
switch rt.Kind() {
case reflect.Slice:
elemRt := rt.Elem()
if elemRt.Kind() == reflect.Uint8 {
// Special case: Byteslices
oString, ok := o.(string)
if !ok {
*err = errors.New(Fmt("Expected string but got type %v", reflect.TypeOf(o)))
return
}
byteslice, err_ := hex.DecodeString(oString)
if err_ != nil {
*err = err_
return
}
log.Debug("Read byteslice", "bytes", byteslice)
rv.Set(reflect.ValueOf(byteslice))
} else {
// Read length
oSlice, ok := o.([]interface{})
if !ok {
*err = errors.New(Fmt("Expected array of %v but got type %v", rt, reflect.TypeOf(o)))
return
}
length := len(oSlice)
log.Debug(Fmt("Read length: %v", length))
sliceRv := reflect.MakeSlice(rt, length, length)
// Read elems
for i := 0; i < length; i++ {
elemRv := sliceRv.Index(i)
readReflectJSON(elemRv, elemRt, oSlice[i], err)
}
rv.Set(sliceRv)
}
case reflect.Struct:
if rt == timeType {
// Special case: time.Time
str, ok := o.(string)
if !ok {
*err = errors.New(Fmt("Expected string but got type %v", reflect.TypeOf(o)))
return
}
log.Debug(Fmt("Read time: %v", str))
t, err_ := time.Parse(rfc2822, str)
if err_ != nil {
*err = err_
return
}
rv.Set(reflect.ValueOf(t))
} else {
oMap, ok := o.(map[string]interface{})
if !ok {
*err = errors.New(Fmt("Expected map but got type %v", reflect.TypeOf(o)))
return
}
// TODO: ensure that all fields are set?
// TODO: disallow unknown oMap fields?
for _, fieldInfo := range typeInfo.Fields {
i, fieldType, opts := fieldInfo.unpack()
value, ok := oMap[opts.JSONName]
if !ok {
continue // Skip missing fields.
}
fieldRv := rv.Field(i)
readReflectJSON(fieldRv, fieldType, value, err)
}
}
case reflect.String:
str, ok := o.(string)
if !ok {
*err = errors.New(Fmt("Expected string but got type %v", reflect.TypeOf(o)))
return
}
log.Debug(Fmt("Read string: %v", str))
rv.SetString(str)
case reflect.Int64, reflect.Int32, reflect.Int16, reflect.Int8, reflect.Int:
num, ok := o.(float64)
if !ok {
*err = errors.New(Fmt("Expected numeric but got type %v", reflect.TypeOf(o)))
return
}
log.Debug(Fmt("Read num: %v", num))
rv.SetInt(int64(num))
case reflect.Uint64, reflect.Uint32, reflect.Uint16, reflect.Uint8, reflect.Uint:
num, ok := o.(float64)
if !ok {
*err = errors.New(Fmt("Expected numeric but got type %v", reflect.TypeOf(o)))
return
}
if num < 0 {
*err = errors.New(Fmt("Expected unsigned numeric but got %v", num))
return
}
log.Debug(Fmt("Read num: %v", num))
rv.SetUint(uint64(num))
case reflect.Bool:
bl, ok := o.(bool)
if !ok {
*err = errors.New(Fmt("Expected boolean but got type %v", reflect.TypeOf(o)))
return
}
log.Debug(Fmt("Read boolean: %v", bl))
rv.SetBool(bl)
default:
panic(Fmt("Unknown field type %v", rt.Kind()))
}
}
func writeReflectJSON(rv reflect.Value, rt reflect.Type, w io.Writer, n *int64, err *error) {
log.Debug(Fmt("writeReflectJSON(%v, %v, %v, %v, %v)", rv, rt, w, n, err))
// Get typeInfo
typeInfo := GetTypeInfo(rt)
if rt.Kind() == reflect.Interface {
if rv.IsNil() {
// XXX ensure that typeByte 0 is reserved.
WriteTo([]byte("null"), w, n, err)
return
}
crv := rv.Elem() // concrete reflection value
crt := crv.Type() // concrete reflection type
if typeInfo.IsRegisteredInterface {
// See if the crt is registered.
// If so, we're more restrictive.
_, ok := typeInfo.TypeToByte[crt]
if !ok {
switch crt.Kind() {
case reflect.Ptr:
*err = errors.New(Fmt("Unexpected pointer type %v. Was it registered as a value receiver rather than as a pointer receiver?", crt))
case reflect.Struct:
*err = errors.New(Fmt("Unexpected struct type %v. Was it registered as a pointer receiver rather than as a value receiver?", crt))
default:
*err = errors.New(Fmt("Unexpected type %v.", crt))
}
return
}
} else {
// We support writing unsafely for convenience.
}
// We don't have to write the typeByte here,
// the writeReflectJSON() call below will write it.
writeReflectJSON(crv, crt, w, n, err)
return
}
if rt.Kind() == reflect.Ptr {
// Dereference pointer
rv, rt = rv.Elem(), rt.Elem()
typeInfo = GetTypeInfo(rt)
if !rv.IsValid() {
WriteTo([]byte("null"), w, n, err)
return
}
// continue...
}
// Write Byte
if typeInfo.Byte != 0x00 {
WriteTo([]byte(Fmt("[%v,", typeInfo.Byte)), w, n, err)
defer WriteTo([]byte("]"), w, n, err)
}
// All other types
switch rt.Kind() {
case reflect.Slice:
elemRt := rt.Elem()
if elemRt.Kind() == reflect.Uint8 {
// Special case: Byteslices
byteslice := rv.Bytes()
WriteTo([]byte(Fmt("\"%X\"", byteslice)), w, n, err)
//WriteByteSlice(byteslice, w, n, err)
} else {
WriteTo([]byte("["), w, n, err)
// Write elems
length := rv.Len()
for i := 0; i < length; i++ {
elemRv := rv.Index(i)
writeReflectJSON(elemRv, elemRt, w, n, err)
if i < length-1 {
WriteTo([]byte(","), w, n, err)
}
}
WriteTo([]byte("]"), w, n, err)
}
case reflect.Struct:
if rt == timeType {
// Special case: time.Time
t := rv.Interface().(time.Time)
str := t.Format(rfc2822)
jsonBytes, err_ := json.Marshal(str)
if err_ != nil {
*err = err_
return
}
WriteTo(jsonBytes, w, n, err)
} else {
WriteTo([]byte("{"), w, n, err)
wroteField := false
for _, fieldInfo := range typeInfo.Fields {
i, fieldType, opts := fieldInfo.unpack()
fieldRv := rv.Field(i)
if wroteField {
WriteTo([]byte(","), w, n, err)
} else {
wroteField = true
}
WriteTo([]byte(Fmt("\"%v\":", opts.JSONName)), w, n, err)
writeReflectJSON(fieldRv, fieldType, w, n, err)
}
WriteTo([]byte("}"), w, n, err)
}
case reflect.String:
fallthrough
case reflect.Uint64, reflect.Uint32, reflect.Uint16, reflect.Uint8, reflect.Uint:
fallthrough
case reflect.Int64, reflect.Int32, reflect.Int16, reflect.Int8, reflect.Int:
fallthrough
case reflect.Bool:
jsonBytes, err_ := json.Marshal(rv.Interface())
if err_ != nil {
*err = err_
return
}
WriteTo(jsonBytes, w, n, err)
default:
panic(Fmt("Unknown field type %v", rt.Kind()))
}
}