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  1. package wire
  2. import (
  3. "encoding/hex"
  4. "encoding/json"
  5. "errors"
  6. "io"
  7. "reflect"
  8. "sync"
  9. "time"
  10. . "github.com/tendermint/tendermint/common"
  11. )
  12. const (
  13. ReflectSliceChunk = 1024
  14. )
  15. type TypeInfo struct {
  16. Type reflect.Type // The type
  17. // If Type is kind reflect.Interface, is registered
  18. IsRegisteredInterface bool
  19. ByteToType map[byte]reflect.Type
  20. TypeToByte map[reflect.Type]byte
  21. // If Type is concrete
  22. Byte byte
  23. // If Type is kind reflect.Struct
  24. Fields []StructFieldInfo
  25. }
  26. type Options struct {
  27. JSONName string // (JSON) Corresponding JSON field name. (override with `json=""`)
  28. Varint bool // (Binary) Use length-prefixed encoding for (u)int*
  29. }
  30. func getOptionsFromField(field reflect.StructField) (skip bool, opts Options) {
  31. jsonName := field.Tag.Get("json")
  32. if jsonName == "-" {
  33. skip = true
  34. return
  35. } else if jsonName == "" {
  36. jsonName = field.Name
  37. }
  38. varint := false
  39. binTag := field.Tag.Get("binary")
  40. if binTag == "varint" { // TODO: extend
  41. varint = true
  42. }
  43. opts = Options{
  44. JSONName: jsonName,
  45. Varint: varint,
  46. }
  47. return
  48. }
  49. type StructFieldInfo struct {
  50. Index int // Struct field index
  51. Type reflect.Type // Struct field type
  52. Options // Encoding options
  53. }
  54. func (info StructFieldInfo) unpack() (int, reflect.Type, Options) {
  55. return info.Index, info.Type, info.Options
  56. }
  57. // e.g. If o is struct{Foo}{}, return is the Foo reflection type.
  58. func GetTypeFromStructDeclaration(o interface{}) reflect.Type {
  59. rt := reflect.TypeOf(o)
  60. if rt.NumField() != 1 {
  61. PanicSanity("Unexpected number of fields in struct-wrapped declaration of type")
  62. }
  63. return rt.Field(0).Type
  64. }
  65. func SetByteForType(typeByte byte, rt reflect.Type) {
  66. typeInfo := GetTypeInfo(rt)
  67. if typeInfo.Byte != 0x00 && typeInfo.Byte != typeByte {
  68. PanicSanity(Fmt("Type %v already registered with type byte %X", rt, typeByte))
  69. }
  70. typeInfo.Byte = typeByte
  71. // If pointer, we need to set it for the concrete type as well.
  72. if rt.Kind() == reflect.Ptr {
  73. SetByteForType(typeByte, rt.Elem())
  74. }
  75. }
  76. // Predeclaration of common types
  77. var (
  78. timeType = GetTypeFromStructDeclaration(struct{ time.Time }{})
  79. )
  80. const (
  81. rfc2822 = "Mon Jan 02 15:04:05 -0700 2006"
  82. )
  83. // NOTE: do not access typeInfos directly, but call GetTypeInfo()
  84. var typeInfosMtx sync.Mutex
  85. var typeInfos = map[reflect.Type]*TypeInfo{}
  86. func GetTypeInfo(rt reflect.Type) *TypeInfo {
  87. typeInfosMtx.Lock()
  88. defer typeInfosMtx.Unlock()
  89. info := typeInfos[rt]
  90. if info == nil {
  91. info = MakeTypeInfo(rt)
  92. typeInfos[rt] = info
  93. }
  94. return info
  95. }
  96. // For use with the RegisterInterface declaration
  97. type ConcreteType struct {
  98. O interface{}
  99. Byte byte
  100. }
  101. // Must use this to register an interface to properly decode the
  102. // underlying concrete type.
  103. func RegisterInterface(o interface{}, ctypes ...ConcreteType) *TypeInfo {
  104. it := GetTypeFromStructDeclaration(o)
  105. if it.Kind() != reflect.Interface {
  106. PanicSanity("RegisterInterface expects an interface")
  107. }
  108. toType := make(map[byte]reflect.Type, 0)
  109. toByte := make(map[reflect.Type]byte, 0)
  110. for _, ctype := range ctypes {
  111. crt := reflect.TypeOf(ctype.O)
  112. typeByte := ctype.Byte
  113. SetByteForType(typeByte, crt)
  114. if typeByte == 0x00 {
  115. PanicSanity(Fmt("Byte of 0x00 is reserved for nil (%v)", ctype))
  116. }
  117. if toType[typeByte] != nil {
  118. PanicSanity(Fmt("Duplicate Byte for type %v and %v", ctype, toType[typeByte]))
  119. }
  120. toType[typeByte] = crt
  121. toByte[crt] = typeByte
  122. }
  123. typeInfo := &TypeInfo{
  124. Type: it,
  125. IsRegisteredInterface: true,
  126. ByteToType: toType,
  127. TypeToByte: toByte,
  128. }
  129. typeInfos[it] = typeInfo
  130. return typeInfo
  131. }
  132. func MakeTypeInfo(rt reflect.Type) *TypeInfo {
  133. info := &TypeInfo{Type: rt}
  134. // If struct, register field name options
  135. if rt.Kind() == reflect.Struct {
  136. numFields := rt.NumField()
  137. structFields := []StructFieldInfo{}
  138. for i := 0; i < numFields; i++ {
  139. field := rt.Field(i)
  140. if field.PkgPath != "" {
  141. continue
  142. }
  143. skip, opts := getOptionsFromField(field)
  144. if skip {
  145. continue
  146. }
  147. structFields = append(structFields, StructFieldInfo{
  148. Index: i,
  149. Type: field.Type,
  150. Options: opts,
  151. })
  152. }
  153. info.Fields = structFields
  154. }
  155. return info
  156. }
  157. // Contract: Caller must ensure that rt is supported
  158. // (e.g. is recursively composed of supported native types, and structs and slices.)
  159. func readReflectBinary(rv reflect.Value, rt reflect.Type, opts Options, r io.Reader, n *int64, err *error) {
  160. // Get typeInfo
  161. typeInfo := GetTypeInfo(rt)
  162. if rt.Kind() == reflect.Interface {
  163. if !typeInfo.IsRegisteredInterface {
  164. // There's no way we can read such a thing.
  165. *err = errors.New(Fmt("Cannot read unregistered interface type %v", rt))
  166. return
  167. }
  168. typeByte := ReadByte(r, n, err)
  169. if *err != nil {
  170. return
  171. }
  172. if typeByte == 0x00 {
  173. return // nil
  174. }
  175. crt, ok := typeInfo.ByteToType[typeByte]
  176. if !ok {
  177. *err = errors.New(Fmt("Unexpected type byte %X for type %v", typeByte, rt))
  178. return
  179. }
  180. crv := reflect.New(crt).Elem()
  181. r = NewPrefixedReader([]byte{typeByte}, r)
  182. readReflectBinary(crv, crt, opts, r, n, err)
  183. rv.Set(crv) // NOTE: orig rv is ignored.
  184. return
  185. }
  186. if rt.Kind() == reflect.Ptr {
  187. typeByte := ReadByte(r, n, err)
  188. if *err != nil {
  189. return
  190. }
  191. if typeByte == 0x00 {
  192. return // nil
  193. }
  194. // Create new if rv is nil.
  195. if rv.IsNil() {
  196. newRv := reflect.New(rt.Elem())
  197. rv.Set(newRv)
  198. rv = newRv
  199. }
  200. // Dereference pointer
  201. rv, rt = rv.Elem(), rt.Elem()
  202. typeInfo = GetTypeInfo(rt)
  203. if typeInfo.Byte != 0x00 {
  204. r = NewPrefixedReader([]byte{typeByte}, r)
  205. } else if typeByte != 0x01 {
  206. *err = errors.New(Fmt("Unexpected type byte %X for ptr of untyped thing", typeByte))
  207. return
  208. }
  209. // continue...
  210. }
  211. // Read Byte prefix
  212. if typeInfo.Byte != 0x00 {
  213. typeByte := ReadByte(r, n, err)
  214. if typeByte != typeInfo.Byte {
  215. *err = errors.New(Fmt("Expected Byte of %X but got %X", typeInfo.Byte, typeByte))
  216. return
  217. }
  218. }
  219. switch rt.Kind() {
  220. case reflect.Array:
  221. elemRt := rt.Elem()
  222. length := rt.Len()
  223. if elemRt.Kind() == reflect.Uint8 {
  224. // Special case: Bytearrays
  225. buf := make([]byte, length)
  226. ReadFull(buf, r, n, err)
  227. if *err != nil {
  228. return
  229. }
  230. log.Info("Read bytearray", "bytes", buf)
  231. reflect.Copy(rv, reflect.ValueOf(buf))
  232. } else {
  233. for i := 0; i < length; i++ {
  234. elemRv := rv.Index(i)
  235. readReflectBinary(elemRv, elemRt, opts, r, n, err)
  236. if *err != nil {
  237. return
  238. }
  239. if MaxBinaryReadSize < *n {
  240. *err = ErrBinaryReadSizeOverflow
  241. return
  242. }
  243. }
  244. log.Info(Fmt("Read %v-array", elemRt), "length", length)
  245. }
  246. case reflect.Slice:
  247. elemRt := rt.Elem()
  248. if elemRt.Kind() == reflect.Uint8 {
  249. // Special case: Byteslices
  250. byteslice := ReadByteSlice(r, n, err)
  251. log.Info("Read byteslice", "bytes", byteslice)
  252. rv.Set(reflect.ValueOf(byteslice))
  253. } else {
  254. var sliceRv reflect.Value
  255. // Read length
  256. length := ReadVarint(r, n, err)
  257. log.Info(Fmt("Read length: %v", length))
  258. sliceRv = reflect.MakeSlice(rt, 0, 0)
  259. // read one ReflectSliceChunk at a time and append
  260. for i := 0; i*ReflectSliceChunk < length; i++ {
  261. l := MinInt(ReflectSliceChunk, length-i*ReflectSliceChunk)
  262. tmpSliceRv := reflect.MakeSlice(rt, l, l)
  263. for j := 0; j < l; j++ {
  264. elemRv := tmpSliceRv.Index(j)
  265. readReflectBinary(elemRv, elemRt, opts, r, n, err)
  266. if *err != nil {
  267. return
  268. }
  269. if MaxBinaryReadSize < *n {
  270. *err = ErrBinaryReadSizeOverflow
  271. return
  272. }
  273. }
  274. sliceRv = reflect.AppendSlice(sliceRv, tmpSliceRv)
  275. }
  276. rv.Set(sliceRv)
  277. }
  278. case reflect.Struct:
  279. if rt == timeType {
  280. // Special case: time.Time
  281. t := ReadTime(r, n, err)
  282. log.Info(Fmt("Read time: %v", t))
  283. rv.Set(reflect.ValueOf(t))
  284. } else {
  285. for _, fieldInfo := range typeInfo.Fields {
  286. i, fieldType, opts := fieldInfo.unpack()
  287. fieldRv := rv.Field(i)
  288. readReflectBinary(fieldRv, fieldType, opts, r, n, err)
  289. }
  290. }
  291. case reflect.String:
  292. str := ReadString(r, n, err)
  293. log.Info(Fmt("Read string: %v", str))
  294. rv.SetString(str)
  295. case reflect.Int64:
  296. if opts.Varint {
  297. num := ReadVarint(r, n, err)
  298. log.Info(Fmt("Read num: %v", num))
  299. rv.SetInt(int64(num))
  300. } else {
  301. num := ReadInt64(r, n, err)
  302. log.Info(Fmt("Read num: %v", num))
  303. rv.SetInt(int64(num))
  304. }
  305. case reflect.Int32:
  306. num := ReadUint32(r, n, err)
  307. log.Info(Fmt("Read num: %v", num))
  308. rv.SetInt(int64(num))
  309. case reflect.Int16:
  310. num := ReadUint16(r, n, err)
  311. log.Info(Fmt("Read num: %v", num))
  312. rv.SetInt(int64(num))
  313. case reflect.Int8:
  314. num := ReadUint8(r, n, err)
  315. log.Info(Fmt("Read num: %v", num))
  316. rv.SetInt(int64(num))
  317. case reflect.Int:
  318. num := ReadVarint(r, n, err)
  319. log.Info(Fmt("Read num: %v", num))
  320. rv.SetInt(int64(num))
  321. case reflect.Uint64:
  322. if opts.Varint {
  323. num := ReadVarint(r, n, err)
  324. log.Info(Fmt("Read num: %v", num))
  325. rv.SetUint(uint64(num))
  326. } else {
  327. num := ReadUint64(r, n, err)
  328. log.Info(Fmt("Read num: %v", num))
  329. rv.SetUint(uint64(num))
  330. }
  331. case reflect.Uint32:
  332. num := ReadUint32(r, n, err)
  333. log.Info(Fmt("Read num: %v", num))
  334. rv.SetUint(uint64(num))
  335. case reflect.Uint16:
  336. num := ReadUint16(r, n, err)
  337. log.Info(Fmt("Read num: %v", num))
  338. rv.SetUint(uint64(num))
  339. case reflect.Uint8:
  340. num := ReadUint8(r, n, err)
  341. log.Info(Fmt("Read num: %v", num))
  342. rv.SetUint(uint64(num))
  343. case reflect.Uint:
  344. num := ReadVarint(r, n, err)
  345. log.Info(Fmt("Read num: %v", num))
  346. rv.SetUint(uint64(num))
  347. case reflect.Bool:
  348. num := ReadUint8(r, n, err)
  349. log.Info(Fmt("Read bool: %v", num))
  350. rv.SetBool(num > 0)
  351. default:
  352. PanicSanity(Fmt("Unknown field type %v", rt.Kind()))
  353. }
  354. }
  355. // rv: the reflection value of the thing to write
  356. // rt: the type of rv as declared in the container, not necessarily rv.Type().
  357. func writeReflectBinary(rv reflect.Value, rt reflect.Type, opts Options, w io.Writer, n *int64, err *error) {
  358. // Get typeInfo
  359. typeInfo := GetTypeInfo(rt)
  360. if rt.Kind() == reflect.Interface {
  361. if rv.IsNil() {
  362. // XXX ensure that typeByte 0 is reserved.
  363. WriteByte(0x00, w, n, err)
  364. return
  365. }
  366. crv := rv.Elem() // concrete reflection value
  367. crt := crv.Type() // concrete reflection type
  368. if typeInfo.IsRegisteredInterface {
  369. // See if the crt is registered.
  370. // If so, we're more restrictive.
  371. _, ok := typeInfo.TypeToByte[crt]
  372. if !ok {
  373. switch crt.Kind() {
  374. case reflect.Ptr:
  375. *err = errors.New(Fmt("Unexpected pointer type %v. Was it registered as a value receiver rather than as a pointer receiver?", crt))
  376. case reflect.Struct:
  377. *err = errors.New(Fmt("Unexpected struct type %v. Was it registered as a pointer receiver rather than as a value receiver?", crt))
  378. default:
  379. *err = errors.New(Fmt("Unexpected type %v.", crt))
  380. }
  381. return
  382. }
  383. } else {
  384. // We support writing unsafely for convenience.
  385. }
  386. // We don't have to write the typeByte here,
  387. // the writeReflectBinary() call below will write it.
  388. writeReflectBinary(crv, crt, opts, w, n, err)
  389. return
  390. }
  391. if rt.Kind() == reflect.Ptr {
  392. // Dereference pointer
  393. rv, rt = rv.Elem(), rt.Elem()
  394. typeInfo = GetTypeInfo(rt)
  395. if !rv.IsValid() {
  396. // For better compatibility with other languages,
  397. // as far as tendermint/wire is concerned,
  398. // pointers to nil values are the same as nil.
  399. WriteByte(0x00, w, n, err)
  400. return
  401. }
  402. if typeInfo.Byte == 0x00 {
  403. WriteByte(0x01, w, n, err)
  404. // continue...
  405. } else {
  406. // continue...
  407. }
  408. }
  409. // Write type byte
  410. if typeInfo.Byte != 0x00 {
  411. WriteByte(typeInfo.Byte, w, n, err)
  412. }
  413. // All other types
  414. switch rt.Kind() {
  415. case reflect.Array:
  416. elemRt := rt.Elem()
  417. length := rt.Len()
  418. if elemRt.Kind() == reflect.Uint8 {
  419. // Special case: Bytearrays
  420. if rv.CanAddr() {
  421. byteslice := rv.Slice(0, length).Bytes()
  422. WriteTo(byteslice, w, n, err)
  423. } else {
  424. buf := make([]byte, length)
  425. reflect.Copy(reflect.ValueOf(buf), rv)
  426. WriteTo(buf, w, n, err)
  427. }
  428. } else {
  429. // Write elems
  430. for i := 0; i < length; i++ {
  431. elemRv := rv.Index(i)
  432. writeReflectBinary(elemRv, elemRt, opts, w, n, err)
  433. }
  434. }
  435. case reflect.Slice:
  436. elemRt := rt.Elem()
  437. if elemRt.Kind() == reflect.Uint8 {
  438. // Special case: Byteslices
  439. byteslice := rv.Bytes()
  440. WriteByteSlice(byteslice, w, n, err)
  441. } else {
  442. // Write length
  443. length := rv.Len()
  444. WriteVarint(length, w, n, err)
  445. // Write elems
  446. for i := 0; i < length; i++ {
  447. elemRv := rv.Index(i)
  448. writeReflectBinary(elemRv, elemRt, opts, w, n, err)
  449. }
  450. }
  451. case reflect.Struct:
  452. if rt == timeType {
  453. // Special case: time.Time
  454. WriteTime(rv.Interface().(time.Time), w, n, err)
  455. } else {
  456. for _, fieldInfo := range typeInfo.Fields {
  457. i, fieldType, opts := fieldInfo.unpack()
  458. fieldRv := rv.Field(i)
  459. writeReflectBinary(fieldRv, fieldType, opts, w, n, err)
  460. }
  461. }
  462. case reflect.String:
  463. WriteString(rv.String(), w, n, err)
  464. case reflect.Int64:
  465. if opts.Varint {
  466. WriteVarint(int(rv.Int()), w, n, err)
  467. } else {
  468. WriteInt64(rv.Int(), w, n, err)
  469. }
  470. case reflect.Int32:
  471. WriteInt32(int32(rv.Int()), w, n, err)
  472. case reflect.Int16:
  473. WriteInt16(int16(rv.Int()), w, n, err)
  474. case reflect.Int8:
  475. WriteInt8(int8(rv.Int()), w, n, err)
  476. case reflect.Int:
  477. WriteVarint(int(rv.Int()), w, n, err)
  478. case reflect.Uint64:
  479. if opts.Varint {
  480. WriteUvarint(uint(rv.Uint()), w, n, err)
  481. } else {
  482. WriteUint64(rv.Uint(), w, n, err)
  483. }
  484. case reflect.Uint32:
  485. WriteUint32(uint32(rv.Uint()), w, n, err)
  486. case reflect.Uint16:
  487. WriteUint16(uint16(rv.Uint()), w, n, err)
  488. case reflect.Uint8:
  489. WriteUint8(uint8(rv.Uint()), w, n, err)
  490. case reflect.Uint:
  491. WriteUvarint(uint(rv.Uint()), w, n, err)
  492. case reflect.Bool:
  493. if rv.Bool() {
  494. WriteUint8(uint8(1), w, n, err)
  495. } else {
  496. WriteUint8(uint8(0), w, n, err)
  497. }
  498. default:
  499. PanicSanity(Fmt("Unknown field type %v", rt.Kind()))
  500. }
  501. }
  502. //-----------------------------------------------------------------------------
  503. func readByteJSON(o interface{}) (typeByte byte, rest interface{}, err error) {
  504. oSlice, ok := o.([]interface{})
  505. if !ok {
  506. err = errors.New(Fmt("Expected type [Byte,?] but got type %v", reflect.TypeOf(o)))
  507. return
  508. }
  509. if len(oSlice) != 2 {
  510. err = errors.New(Fmt("Expected [Byte,?] len 2 but got len %v", len(oSlice)))
  511. return
  512. }
  513. typeByte_, ok := oSlice[0].(float64)
  514. typeByte = byte(typeByte_)
  515. rest = oSlice[1]
  516. return
  517. }
  518. // Contract: Caller must ensure that rt is supported
  519. // (e.g. is recursively composed of supported native types, and structs and slices.)
  520. func readReflectJSON(rv reflect.Value, rt reflect.Type, o interface{}, err *error) {
  521. // Get typeInfo
  522. typeInfo := GetTypeInfo(rt)
  523. if rt.Kind() == reflect.Interface {
  524. if !typeInfo.IsRegisteredInterface {
  525. // There's no way we can read such a thing.
  526. *err = errors.New(Fmt("Cannot read unregistered interface type %v", rt))
  527. return
  528. }
  529. if o == nil {
  530. return // nil
  531. }
  532. typeByte, _, err_ := readByteJSON(o)
  533. if err_ != nil {
  534. *err = err_
  535. return
  536. }
  537. crt, ok := typeInfo.ByteToType[typeByte]
  538. if !ok {
  539. *err = errors.New(Fmt("Byte %X not registered for interface %v", typeByte, rt))
  540. return
  541. }
  542. crv := reflect.New(crt).Elem()
  543. readReflectJSON(crv, crt, o, err)
  544. rv.Set(crv) // NOTE: orig rv is ignored.
  545. return
  546. }
  547. if rt.Kind() == reflect.Ptr {
  548. if o == nil {
  549. return // nil
  550. }
  551. // Create new struct if rv is nil.
  552. if rv.IsNil() {
  553. newRv := reflect.New(rt.Elem())
  554. rv.Set(newRv)
  555. rv = newRv
  556. }
  557. // Dereference pointer
  558. rv, rt = rv.Elem(), rt.Elem()
  559. typeInfo = GetTypeInfo(rt)
  560. // continue...
  561. }
  562. // Read Byte prefix
  563. if typeInfo.Byte != 0x00 {
  564. typeByte, rest, err_ := readByteJSON(o)
  565. if err_ != nil {
  566. *err = err_
  567. return
  568. }
  569. if typeByte != typeInfo.Byte {
  570. *err = errors.New(Fmt("Expected Byte of %X but got %X", typeInfo.Byte, byte(typeByte)))
  571. return
  572. }
  573. o = rest
  574. }
  575. switch rt.Kind() {
  576. case reflect.Array:
  577. elemRt := rt.Elem()
  578. length := rt.Len()
  579. if elemRt.Kind() == reflect.Uint8 {
  580. // Special case: Bytearrays
  581. oString, ok := o.(string)
  582. if !ok {
  583. *err = errors.New(Fmt("Expected string but got type %v", reflect.TypeOf(o)))
  584. return
  585. }
  586. buf, err_ := hex.DecodeString(oString)
  587. if err_ != nil {
  588. *err = err_
  589. return
  590. }
  591. if len(buf) != length {
  592. *err = errors.New(Fmt("Expected bytearray of length %v but got %v", length, len(buf)))
  593. return
  594. }
  595. log.Info("Read bytearray", "bytes", buf)
  596. reflect.Copy(rv, reflect.ValueOf(buf))
  597. } else {
  598. oSlice, ok := o.([]interface{})
  599. if !ok {
  600. *err = errors.New(Fmt("Expected array of %v but got type %v", rt, reflect.TypeOf(o)))
  601. return
  602. }
  603. if len(oSlice) != length {
  604. *err = errors.New(Fmt("Expected array of length %v but got %v", length, len(oSlice)))
  605. return
  606. }
  607. for i := 0; i < length; i++ {
  608. elemRv := rv.Index(i)
  609. readReflectJSON(elemRv, elemRt, oSlice[i], err)
  610. }
  611. log.Info(Fmt("Read %v-array", elemRt), "length", length)
  612. }
  613. case reflect.Slice:
  614. elemRt := rt.Elem()
  615. if elemRt.Kind() == reflect.Uint8 {
  616. // Special case: Byteslices
  617. oString, ok := o.(string)
  618. if !ok {
  619. *err = errors.New(Fmt("Expected string but got type %v", reflect.TypeOf(o)))
  620. return
  621. }
  622. byteslice, err_ := hex.DecodeString(oString)
  623. if err_ != nil {
  624. *err = err_
  625. return
  626. }
  627. log.Info("Read byteslice", "bytes", byteslice)
  628. rv.Set(reflect.ValueOf(byteslice))
  629. } else {
  630. // Read length
  631. oSlice, ok := o.([]interface{})
  632. if !ok {
  633. *err = errors.New(Fmt("Expected array of %v but got type %v", rt, reflect.TypeOf(o)))
  634. return
  635. }
  636. length := len(oSlice)
  637. log.Info(Fmt("Read length: %v", length))
  638. sliceRv := reflect.MakeSlice(rt, length, length)
  639. // Read elems
  640. for i := 0; i < length; i++ {
  641. elemRv := sliceRv.Index(i)
  642. readReflectJSON(elemRv, elemRt, oSlice[i], err)
  643. }
  644. rv.Set(sliceRv)
  645. }
  646. case reflect.Struct:
  647. if rt == timeType {
  648. // Special case: time.Time
  649. str, ok := o.(string)
  650. if !ok {
  651. *err = errors.New(Fmt("Expected string but got type %v", reflect.TypeOf(o)))
  652. return
  653. }
  654. log.Info(Fmt("Read time: %v", str))
  655. t, err_ := time.Parse(rfc2822, str)
  656. if err_ != nil {
  657. *err = err_
  658. return
  659. }
  660. rv.Set(reflect.ValueOf(t))
  661. } else {
  662. oMap, ok := o.(map[string]interface{})
  663. if !ok {
  664. *err = errors.New(Fmt("Expected map but got type %v", reflect.TypeOf(o)))
  665. return
  666. }
  667. // TODO: ensure that all fields are set?
  668. // TODO: disallow unknown oMap fields?
  669. for _, fieldInfo := range typeInfo.Fields {
  670. i, fieldType, opts := fieldInfo.unpack()
  671. value, ok := oMap[opts.JSONName]
  672. if !ok {
  673. continue // Skip missing fields.
  674. }
  675. fieldRv := rv.Field(i)
  676. readReflectJSON(fieldRv, fieldType, value, err)
  677. }
  678. }
  679. case reflect.String:
  680. str, ok := o.(string)
  681. if !ok {
  682. *err = errors.New(Fmt("Expected string but got type %v", reflect.TypeOf(o)))
  683. return
  684. }
  685. log.Info(Fmt("Read string: %v", str))
  686. rv.SetString(str)
  687. case reflect.Int64, reflect.Int32, reflect.Int16, reflect.Int8, reflect.Int:
  688. num, ok := o.(float64)
  689. if !ok {
  690. *err = errors.New(Fmt("Expected numeric but got type %v", reflect.TypeOf(o)))
  691. return
  692. }
  693. log.Info(Fmt("Read num: %v", num))
  694. rv.SetInt(int64(num))
  695. case reflect.Uint64, reflect.Uint32, reflect.Uint16, reflect.Uint8, reflect.Uint:
  696. num, ok := o.(float64)
  697. if !ok {
  698. *err = errors.New(Fmt("Expected numeric but got type %v", reflect.TypeOf(o)))
  699. return
  700. }
  701. if num < 0 {
  702. *err = errors.New(Fmt("Expected unsigned numeric but got %v", num))
  703. return
  704. }
  705. log.Info(Fmt("Read num: %v", num))
  706. rv.SetUint(uint64(num))
  707. case reflect.Bool:
  708. bl, ok := o.(bool)
  709. if !ok {
  710. *err = errors.New(Fmt("Expected boolean but got type %v", reflect.TypeOf(o)))
  711. return
  712. }
  713. log.Info(Fmt("Read boolean: %v", bl))
  714. rv.SetBool(bl)
  715. default:
  716. PanicSanity(Fmt("Unknown field type %v", rt.Kind()))
  717. }
  718. }
  719. func writeReflectJSON(rv reflect.Value, rt reflect.Type, w io.Writer, n *int64, err *error) {
  720. log.Info(Fmt("writeReflectJSON(%v, %v, %v, %v, %v)", rv, rt, w, n, err))
  721. // Get typeInfo
  722. typeInfo := GetTypeInfo(rt)
  723. if rt.Kind() == reflect.Interface {
  724. if rv.IsNil() {
  725. // XXX ensure that typeByte 0 is reserved.
  726. WriteTo([]byte("null"), w, n, err)
  727. return
  728. }
  729. crv := rv.Elem() // concrete reflection value
  730. crt := crv.Type() // concrete reflection type
  731. if typeInfo.IsRegisteredInterface {
  732. // See if the crt is registered.
  733. // If so, we're more restrictive.
  734. _, ok := typeInfo.TypeToByte[crt]
  735. if !ok {
  736. switch crt.Kind() {
  737. case reflect.Ptr:
  738. *err = errors.New(Fmt("Unexpected pointer type %v. Was it registered as a value receiver rather than as a pointer receiver?", crt))
  739. case reflect.Struct:
  740. *err = errors.New(Fmt("Unexpected struct type %v. Was it registered as a pointer receiver rather than as a value receiver?", crt))
  741. default:
  742. *err = errors.New(Fmt("Unexpected type %v.", crt))
  743. }
  744. return
  745. }
  746. } else {
  747. // We support writing unsafely for convenience.
  748. }
  749. // We don't have to write the typeByte here,
  750. // the writeReflectJSON() call below will write it.
  751. writeReflectJSON(crv, crt, w, n, err)
  752. return
  753. }
  754. if rt.Kind() == reflect.Ptr {
  755. // Dereference pointer
  756. rv, rt = rv.Elem(), rt.Elem()
  757. typeInfo = GetTypeInfo(rt)
  758. if !rv.IsValid() {
  759. // For better compatibility with other languages,
  760. // as far as tendermint/wire is concerned,
  761. // pointers to nil values are the same as nil.
  762. WriteTo([]byte("null"), w, n, err)
  763. return
  764. }
  765. // continue...
  766. }
  767. // Write Byte
  768. if typeInfo.Byte != 0x00 {
  769. WriteTo([]byte(Fmt("[%v,", typeInfo.Byte)), w, n, err)
  770. defer WriteTo([]byte("]"), w, n, err)
  771. }
  772. // All other types
  773. switch rt.Kind() {
  774. case reflect.Array:
  775. elemRt := rt.Elem()
  776. length := rt.Len()
  777. if elemRt.Kind() == reflect.Uint8 {
  778. // Special case: Bytearray
  779. bytearray := reflect.ValueOf(make([]byte, length))
  780. reflect.Copy(bytearray, rv)
  781. WriteTo([]byte(Fmt("\"%X\"", bytearray.Interface())), w, n, err)
  782. } else {
  783. WriteTo([]byte("["), w, n, err)
  784. // Write elems
  785. for i := 0; i < length; i++ {
  786. elemRv := rv.Index(i)
  787. writeReflectJSON(elemRv, elemRt, w, n, err)
  788. if i < length-1 {
  789. WriteTo([]byte(","), w, n, err)
  790. }
  791. }
  792. WriteTo([]byte("]"), w, n, err)
  793. }
  794. case reflect.Slice:
  795. elemRt := rt.Elem()
  796. if elemRt.Kind() == reflect.Uint8 {
  797. // Special case: Byteslices
  798. byteslice := rv.Bytes()
  799. WriteTo([]byte(Fmt("\"%X\"", byteslice)), w, n, err)
  800. } else {
  801. WriteTo([]byte("["), w, n, err)
  802. // Write elems
  803. length := rv.Len()
  804. for i := 0; i < length; i++ {
  805. elemRv := rv.Index(i)
  806. writeReflectJSON(elemRv, elemRt, w, n, err)
  807. if i < length-1 {
  808. WriteTo([]byte(","), w, n, err)
  809. }
  810. }
  811. WriteTo([]byte("]"), w, n, err)
  812. }
  813. case reflect.Struct:
  814. if rt == timeType {
  815. // Special case: time.Time
  816. t := rv.Interface().(time.Time)
  817. str := t.Format(rfc2822)
  818. jsonBytes, err_ := json.Marshal(str)
  819. if err_ != nil {
  820. *err = err_
  821. return
  822. }
  823. WriteTo(jsonBytes, w, n, err)
  824. } else {
  825. WriteTo([]byte("{"), w, n, err)
  826. wroteField := false
  827. for _, fieldInfo := range typeInfo.Fields {
  828. i, fieldType, opts := fieldInfo.unpack()
  829. fieldRv := rv.Field(i)
  830. if wroteField {
  831. WriteTo([]byte(","), w, n, err)
  832. } else {
  833. wroteField = true
  834. }
  835. WriteTo([]byte(Fmt("\"%v\":", opts.JSONName)), w, n, err)
  836. writeReflectJSON(fieldRv, fieldType, w, n, err)
  837. }
  838. WriteTo([]byte("}"), w, n, err)
  839. }
  840. case reflect.String:
  841. fallthrough
  842. case reflect.Uint64, reflect.Uint32, reflect.Uint16, reflect.Uint8, reflect.Uint:
  843. fallthrough
  844. case reflect.Int64, reflect.Int32, reflect.Int16, reflect.Int8, reflect.Int:
  845. fallthrough
  846. case reflect.Bool:
  847. jsonBytes, err_ := json.Marshal(rv.Interface())
  848. if err_ != nil {
  849. *err = err_
  850. return
  851. }
  852. WriteTo(jsonBytes, w, n, err)
  853. default:
  854. PanicSanity(Fmt("Unknown field type %v", rt.Kind()))
  855. }
  856. }