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json-decode.go
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json-decode.go
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package amino
import (
"bytes"
"encoding/json"
"errors"
"fmt"
"reflect"
"github.com/davecgh/go-spew/spew"
)
//----------------------------------------
// cdc.decodeReflectJSON
// CONTRACT: rv.CanAddr() is true.
func (cdc *Codec) decodeReflectJSON(bz []byte, info *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
if !rv.CanAddr() {
panic("rv not addressable")
}
if info.Type.Kind() == reflect.Interface && rv.Kind() == reflect.Ptr {
panic("should not happen")
}
if printLog {
spew.Printf("(D) decodeReflectJSON(bz: %s, info: %v, rv: %#v (%v), fopts: %v)\n",
bz, info, rv.Interface(), rv.Type(), fopts)
defer func() {
fmt.Printf("(D) -> err: %v\n", err)
}()
}
// Special case for null for either interface, pointer, slice
// NOTE: This doesn't match the binary implementation completely.
if nullBytes(bz) {
rv.Set(reflect.Zero(rv.Type()))
return
}
// Dereference-and-construct pointers all the way.
// This works for pointer-pointers.
for rv.Kind() == reflect.Ptr {
if rv.IsNil() {
newPtr := reflect.New(rv.Type().Elem())
rv.Set(newPtr)
}
rv = rv.Elem()
}
// Special case:
if rv.Type() == timeType {
// Amino time strips the timezone, so must end with Z.
if len(bz) >= 2 && bz[0] == '"' && bz[len(bz)-1] == '"' {
if bz[len(bz)-2] != 'Z' {
err = fmt.Errorf("Amino:JSON time must be UTC and end with 'Z' but got %s.", bz)
return
}
} else {
err = fmt.Errorf("Amino:JSON time must be an RFC3339Nano string, but got %s.", bz)
return
}
}
// Handle override if a pointer to rv implements json.Unmarshaler.
if rv.Addr().Type().Implements(jsonUnmarshalerType) {
err = rv.Addr().Interface().(json.Unmarshaler).UnmarshalJSON(bz)
return
}
// Handle override if a pointer to rv implements UnmarshalAmino.
if info.IsAminoUnmarshaler {
// First, decode repr instance from bytes.
rrv, rinfo := reflect.New(info.AminoUnmarshalReprType).Elem(), (*TypeInfo)(nil)
rinfo, err = cdc.getTypeInfo_wlock(info.AminoUnmarshalReprType)
if err != nil {
return
}
err = cdc.decodeReflectJSON(bz, rinfo, rrv, fopts)
if err != nil {
return
}
// Then, decode from repr instance.
uwrm := rv.Addr().MethodByName("UnmarshalAmino")
uwouts := uwrm.Call([]reflect.Value{rrv})
erri := uwouts[0].Interface()
if erri != nil {
err = erri.(error)
}
return
}
switch ikind := info.Type.Kind(); ikind {
//----------------------------------------
// Complex
case reflect.Interface:
err = cdc.decodeReflectJSONInterface(bz, info, rv, fopts)
case reflect.Array:
err = cdc.decodeReflectJSONArray(bz, info, rv, fopts)
case reflect.Slice:
err = cdc.decodeReflectJSONSlice(bz, info, rv, fopts)
case reflect.Struct:
err = cdc.decodeReflectJSONStruct(bz, info, rv, fopts)
case reflect.Map:
err = cdc.decodeReflectJSONMap(bz, info, rv, fopts)
//----------------------------------------
// Signed, Unsigned
case reflect.Int64, reflect.Int:
fallthrough
case reflect.Uint64, reflect.Uint:
if bz[0] != '"' || bz[len(bz)-1] != '"' {
err = fmt.Errorf("invalid character -- Amino:JSON int/int64/uint/uint64 expects quoted values for javascript numeric support, got: %v.", string(bz))
if err != nil {
return
}
}
bz = bz[1 : len(bz)-1]
fallthrough
case reflect.Int32, reflect.Int16, reflect.Int8,
reflect.Uint32, reflect.Uint16, reflect.Uint8:
err = invokeStdlibJSONUnmarshal(bz, rv, fopts)
//----------------------------------------
// Misc
case reflect.Float32, reflect.Float64:
if !fopts.Unsafe {
return errors.New("Amino:JSON float* support requires `amino:\"unsafe\"`.")
}
fallthrough
case reflect.Bool, reflect.String:
err = invokeStdlibJSONUnmarshal(bz, rv, fopts)
//----------------------------------------
// Default
default:
panic(fmt.Sprintf("unsupported type %v", info.Type.Kind()))
}
return
}
func invokeStdlibJSONUnmarshal(bz []byte, rv reflect.Value, fopts FieldOptions) error {
if !rv.CanAddr() && rv.Kind() != reflect.Ptr {
panic("rv not addressable nor pointer")
}
var rrv reflect.Value = rv
if rv.Kind() != reflect.Ptr {
rrv = reflect.New(rv.Type())
}
if err := json.Unmarshal(bz, rrv.Interface()); err != nil {
return err
}
rv.Set(rrv.Elem())
return nil
}
// CONTRACT: rv.CanAddr() is true.
func (cdc *Codec) decodeReflectJSONInterface(bz []byte, iinfo *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
if !rv.CanAddr() {
panic("rv not addressable")
}
if printLog {
fmt.Println("(d) decodeReflectJSONInterface")
defer func() {
fmt.Printf("(d) -> err: %v\n", err)
}()
}
/*
We don't make use of user-provided interface values because there are a
lot of edge cases.
* What if the type is mismatched?
* What if the JSON field entry is missing?
* Circular references?
*/
if !rv.IsNil() {
// We don't strictly need to set it nil, but lets keep it here for a
// while in case we forget, for defensive purposes.
rv.Set(iinfo.ZeroValue)
}
// Consume type wrapper info.
name, bz, err := decodeInterfaceJSON(bz)
if err != nil {
return
}
// XXX: Check name against interface to make sure that it actually
// matches, and return an error if it doesn't.
// NOTE: Unlike decodeReflectBinaryInterface, we already dealt with nil in decodeReflectJSON.
// NOTE: We also "consumed" the interface wrapper by replacing `bz` above.
// Get concrete type info.
// NOTE: Unlike decodeReflectBinaryInterface, uses the full name string.
var cinfo *TypeInfo
cinfo, err = cdc.getTypeInfoFromName_rlock(name)
if err != nil {
return
}
// Construct the concrete type.
var crv, irvSet = constructConcreteType(cinfo)
// Decode into the concrete type.
err = cdc.decodeReflectJSON(bz, cinfo, crv, fopts)
if err != nil {
rv.Set(irvSet) // Helps with debugging
return
}
// We need to set here, for when !PointerPreferred and the type
// is say, an array of bytes (e.g. [32]byte), then we must call
// rv.Set() *after* the value was acquired.
rv.Set(irvSet)
return
}
// CONTRACT: rv.CanAddr() is true.
func (cdc *Codec) decodeReflectJSONArray(bz []byte, info *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
if !rv.CanAddr() {
panic("rv not addressable")
}
if printLog {
fmt.Println("(d) decodeReflectJSONArray")
defer func() {
fmt.Printf("(d) -> err: %v\n", err)
}()
}
ert := info.Type.Elem()
length := info.Type.Len()
switch ert.Kind() {
case reflect.Uint8: // Special case: byte array
var buf []byte
err = json.Unmarshal(bz, &buf)
if err != nil {
return
}
if len(buf) != length {
err = fmt.Errorf("decodeReflectJSONArray: byte-length mismatch, got %v want %v",
len(buf), length)
}
reflect.Copy(rv, reflect.ValueOf(buf))
return
default: // General case.
var einfo *TypeInfo
einfo, err = cdc.getTypeInfo_wlock(ert)
if err != nil {
return
}
// Read into rawSlice.
var rawSlice []json.RawMessage
if err = json.Unmarshal(bz, &rawSlice); err != nil {
return
}
if len(rawSlice) != length {
err = fmt.Errorf("decodeReflectJSONArray: length mismatch, got %v want %v", len(rawSlice), length)
return
}
// Decode each item in rawSlice.
for i := 0; i < length; i++ {
erv := rv.Index(i)
ebz := rawSlice[i]
err = cdc.decodeReflectJSON(ebz, einfo, erv, fopts)
if err != nil {
return
}
}
return
}
}
// CONTRACT: rv.CanAddr() is true.
func (cdc *Codec) decodeReflectJSONSlice(bz []byte, info *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
if !rv.CanAddr() {
panic("rv not addressable")
}
if printLog {
fmt.Println("(d) decodeReflectJSONSlice")
defer func() {
fmt.Printf("(d) -> err: %v\n", err)
}()
}
var ert = info.Type.Elem()
switch ert.Kind() {
case reflect.Uint8: // Special case: byte slice
err = json.Unmarshal(bz, rv.Addr().Interface())
if err != nil {
return
}
if rv.Len() == 0 {
// Special case when length is 0.
// NOTE: We prefer nil slices.
rv.Set(info.ZeroValue)
} else {
// NOTE: Already set via json.Unmarshal() above.
}
return
default: // General case.
var einfo *TypeInfo
einfo, err = cdc.getTypeInfo_wlock(ert)
if err != nil {
return
}
// Read into rawSlice.
var rawSlice []json.RawMessage
if err = json.Unmarshal(bz, &rawSlice); err != nil {
return
}
// Special case when length is 0.
// NOTE: We prefer nil slices.
var length = len(rawSlice)
if length == 0 {
rv.Set(info.ZeroValue)
return
}
// Read into a new slice.
var esrt = reflect.SliceOf(ert) // TODO could be optimized.
var srv = reflect.MakeSlice(esrt, length, length)
for i := 0; i < length; i++ {
erv := srv.Index(i)
ebz := rawSlice[i]
err = cdc.decodeReflectJSON(ebz, einfo, erv, fopts)
if err != nil {
return
}
}
// TODO do we need this extra step?
rv.Set(srv)
return
}
}
// CONTRACT: rv.CanAddr() is true.
func (cdc *Codec) decodeReflectJSONStruct(bz []byte, info *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
if !rv.CanAddr() {
panic("rv not addressable")
}
if printLog {
fmt.Println("(d) decodeReflectJSONStruct")
defer func() {
fmt.Printf("(d) -> err: %v\n", err)
}()
}
// Map all the fields(keys) to their blobs/bytes.
// NOTE: In decodeReflectBinaryStruct, we don't need to do this,
// since fields are encoded in order.
var rawMap = make(map[string]json.RawMessage)
err = json.Unmarshal(bz, &rawMap)
if err != nil {
return
}
for _, field := range info.Fields {
// Get field rv and info.
var frv = rv.Field(field.Index)
var finfo *TypeInfo
finfo, err = cdc.getTypeInfo_wlock(field.Type)
if err != nil {
return
}
// Get value from rawMap.
var valueBytes = rawMap[field.JSONName]
if len(valueBytes) == 0 {
// TODO: Since the Go stdlib's JSON codec allows case-insensitive
// keys perhaps we need to also do case-insensitive lookups here.
// So "Vanilla" and "vanilla" would both match to the same field.
// It is actually a security flaw with encoding/json library
// - See https://github.com/golang/go/issues/14750
// but perhaps we are aiming for as much compatibility here.
// JAE: I vote we depart from encoding/json, than carry a vuln.
// Set nil/zero on frv.
frv.Set(reflect.Zero(frv.Type()))
continue
}
// Decode into field rv.
err = cdc.decodeReflectJSON(valueBytes, finfo, frv, fopts)
if err != nil {
return
}
}
return nil
}
// CONTRACT: rv.CanAddr() is true.
func (cdc *Codec) decodeReflectJSONMap(bz []byte, info *TypeInfo, rv reflect.Value, fopts FieldOptions) (err error) {
if !rv.CanAddr() {
panic("rv not addressable")
}
if printLog {
fmt.Println("(d) decodeReflectJSONMap")
defer func() {
fmt.Printf("(d) -> err: %v\n", err)
}()
}
// Map all the fields(keys) to their blobs/bytes.
// NOTE: In decodeReflectBinaryMap, we don't need to do this,
// since fields are encoded in order.
var rawMap = make(map[string]json.RawMessage)
err = json.Unmarshal(bz, &rawMap)
if err != nil {
return
}
var krt = rv.Type().Key()
if krt.Kind() != reflect.String {
err = fmt.Errorf("decodeReflectJSONMap: key type must be string") // TODO also support []byte and maybe others
return
}
var vinfo *TypeInfo
vinfo, err = cdc.getTypeInfo_wlock(rv.Type().Elem())
if err != nil {
return
}
var mrv = reflect.MakeMapWithSize(rv.Type(), len(rawMap))
for key, valueBytes := range rawMap {
// Get map value rv.
vrv := reflect.New(mrv.Type().Elem()).Elem()
// Decode valueBytes into vrv.
err = cdc.decodeReflectJSON(valueBytes, vinfo, vrv, fopts)
if err != nil {
return
}
// And set.
krv := reflect.New(reflect.TypeOf("")).Elem()
krv.SetString(key)
mrv.SetMapIndex(krv, vrv)
}
rv.Set(mrv)
return nil
}
//----------------------------------------
// Misc.
type disfixWrapper struct {
Name string `json:"type"`
Data json.RawMessage `json:"value"`
}
// decodeInterfaceJSON helps unravel the type name and
// the stored data, which are expected in the form:
// {
// "type": "<canonical concrete type name>",
// "value": {}
// }
func decodeInterfaceJSON(bz []byte) (name string, data []byte, err error) {
dfw := new(disfixWrapper)
err = json.Unmarshal(bz, dfw)
if err != nil {
err = fmt.Errorf("cannot parse disfix JSON wrapper: %v", err)
return
}
// Get name.
if dfw.Name == "" {
err = errors.New("JSON encoding of interfaces require non-empty type field.")
return
}
name = dfw.Name
// Get data.
if len(dfw.Data) == 0 {
err = errors.New("interface JSON wrapper should have non-empty value field")
return
}
data = dfw.Data
return
}
func nullBytes(b []byte) bool {
return bytes.Equal(b, []byte(`null`))
}