//go:build !notmono && !codec.notmono // Copyright (c) 2012-2020 Ugorji Nwoke. All rights reserved. // Use of this source code is governed by a MIT license found in the LICENSE file. package codec import ( "encoding" "io" "math" "math/big" "reflect" "slices" "sort" "strconv" "sync" "time" "unicode/utf8" ) type helperEncDriverCborBytes struct{} type encFnCborBytes struct { i encFnInfo fe func(*encoderCborBytes, *encFnInfo, reflect.Value) } type encRtidFnCborBytes struct { rtid uintptr fn *encFnCborBytes } type encoderCborBytes struct { dh helperEncDriverCborBytes fp *fastpathEsCborBytes e cborEncDriverBytes encoderBase } type helperDecDriverCborBytes struct{} type decFnCborBytes struct { i decFnInfo fd func(*decoderCborBytes, *decFnInfo, reflect.Value) } type decRtidFnCborBytes struct { rtid uintptr fn *decFnCborBytes } type decoderCborBytes struct { dh helperDecDriverCborBytes fp *fastpathDsCborBytes d cborDecDriverBytes decoderBase } type cborEncDriverBytes struct { noBuiltInTypes encDriverNoState encDriverNoopContainerWriter encDriverContainerNoTrackerT h *CborHandle e *encoderBase w bytesEncAppender enc encoderI b [40]byte } type cborDecDriverBytes struct { decDriverNoopContainerReader noBuiltInTypes h *CborHandle d *decoderBase r bytesDecReader dec decoderI bdAndBdread } func (e *encoderCborBytes) rawExt(_ *encFnInfo, rv reflect.Value) { if re := rv2i(rv).(*RawExt); re == nil { e.e.EncodeNil() } else { e.e.EncodeRawExt(re) } } func (e *encoderCborBytes) ext(f *encFnInfo, rv reflect.Value) { e.e.EncodeExt(rv2i(rv), f.ti.rt, f.xfTag, f.xfFn) } func (e *encoderCborBytes) selferMarshal(_ *encFnInfo, rv reflect.Value) { rv2i(rv).(Selfer).CodecEncodeSelf(&Encoder{e}) } func (e *encoderCborBytes) binaryMarshal(_ *encFnInfo, rv reflect.Value) { bs, fnerr := rv2i(rv).(encoding.BinaryMarshaler).MarshalBinary() e.marshalRaw(bs, fnerr) } func (e *encoderCborBytes) textMarshal(_ *encFnInfo, rv reflect.Value) { bs, fnerr := rv2i(rv).(encoding.TextMarshaler).MarshalText() e.marshalUtf8(bs, fnerr) } func (e *encoderCborBytes) jsonMarshal(_ *encFnInfo, rv reflect.Value) { bs, fnerr := rv2i(rv).(jsonMarshaler).MarshalJSON() e.marshalAsis(bs, fnerr) } func (e *encoderCborBytes) raw(_ *encFnInfo, rv reflect.Value) { e.rawBytes(rv2i(rv).(Raw)) } func (e *encoderCborBytes) encodeComplex64(v complex64) { if imag(v) != 0 { halt.errorf("cannot encode complex number: %v, with imaginary values: %v", any(v), any(imag(v))) } e.e.EncodeFloat32(real(v)) } func (e *encoderCborBytes) encodeComplex128(v complex128) { if imag(v) != 0 { halt.errorf("cannot encode complex number: %v, with imaginary values: %v", any(v), any(imag(v))) } e.e.EncodeFloat64(real(v)) } func (e *encoderCborBytes) kBool(_ *encFnInfo, rv reflect.Value) { e.e.EncodeBool(rvGetBool(rv)) } func (e *encoderCborBytes) kTime(_ *encFnInfo, rv reflect.Value) { e.e.EncodeTime(rvGetTime(rv)) } func (e *encoderCborBytes) kString(_ *encFnInfo, rv reflect.Value) { e.e.EncodeString(rvGetString(rv)) } func (e *encoderCborBytes) kFloat32(_ *encFnInfo, rv reflect.Value) { e.e.EncodeFloat32(rvGetFloat32(rv)) } func (e *encoderCborBytes) kFloat64(_ *encFnInfo, rv reflect.Value) { e.e.EncodeFloat64(rvGetFloat64(rv)) } func (e *encoderCborBytes) kComplex64(_ *encFnInfo, rv reflect.Value) { e.encodeComplex64(rvGetComplex64(rv)) } func (e *encoderCborBytes) kComplex128(_ *encFnInfo, rv reflect.Value) { e.encodeComplex128(rvGetComplex128(rv)) } func (e *encoderCborBytes) kInt(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt(rv))) } func (e *encoderCborBytes) kInt8(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt8(rv))) } func (e *encoderCborBytes) kInt16(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt16(rv))) } func (e *encoderCborBytes) kInt32(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt32(rv))) } func (e *encoderCborBytes) kInt64(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt64(rv))) } func (e *encoderCborBytes) kUint(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint(rv))) } func (e *encoderCborBytes) kUint8(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint8(rv))) } func (e *encoderCborBytes) kUint16(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint16(rv))) } func (e *encoderCborBytes) kUint32(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint32(rv))) } func (e *encoderCborBytes) kUint64(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint64(rv))) } func (e *encoderCborBytes) kUintptr(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUintptr(rv))) } func (e *encoderCborBytes) kSeqFn(rt reflect.Type) (fn *encFnCborBytes) { if rt = baseRT(rt); rt.Kind() != reflect.Interface { fn = e.fn(rt) } return } func (e *encoderCborBytes) kArrayWMbs(rv reflect.Value, ti *typeInfo, isSlice bool) { var l int if isSlice { l = rvLenSlice(rv) } else { l = rv.Len() } if l == 0 { e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(l) e.mapStart(l >> 1) var fn *encFnCborBytes builtin := ti.tielem.flagEncBuiltin if !builtin { fn = e.kSeqFn(ti.elem) } j := 0 e.c = containerMapKey e.e.WriteMapElemKey(true) for { rvv := rvArrayIndex(rv, j, ti, isSlice) if builtin { e.encodeIB(rv2i(baseRVRV(rvv))) } else { e.encodeValue(rvv, fn) } j++ if j == l { break } if j&1 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(false) } else { e.mapElemValue() } } e.c = 0 e.e.WriteMapEnd() } func (e *encoderCborBytes) kArrayW(rv reflect.Value, ti *typeInfo, isSlice bool) { var l int if isSlice { l = rvLenSlice(rv) } else { l = rv.Len() } if l <= 0 { e.e.WriteArrayEmpty() return } e.arrayStart(l) var fn *encFnCborBytes if !ti.tielem.flagEncBuiltin { fn = e.kSeqFn(ti.elem) } j := 0 e.c = containerArrayElem e.e.WriteArrayElem(true) builtin := ti.tielem.flagEncBuiltin for { rvv := rvArrayIndex(rv, j, ti, isSlice) if builtin { e.encodeIB(rv2i(baseRVRV(rvv))) } else { e.encodeValue(rvv, fn) } j++ if j == l { break } e.c = containerArrayElem e.e.WriteArrayElem(false) } e.c = 0 e.e.WriteArrayEnd() } func (e *encoderCborBytes) kChan(f *encFnInfo, rv reflect.Value) { if f.ti.chandir&uint8(reflect.RecvDir) == 0 { halt.errorStr("send-only channel cannot be encoded") } if !f.ti.mbs && uint8TypId == rt2id(f.ti.elem) { e.kSliceBytesChan(rv) return } rtslice := reflect.SliceOf(f.ti.elem) rv = chanToSlice(rv, rtslice, e.h.ChanRecvTimeout) ti := e.h.getTypeInfo(rt2id(rtslice), rtslice) if f.ti.mbs { e.kArrayWMbs(rv, ti, true) } else { e.kArrayW(rv, ti, true) } } func (e *encoderCborBytes) kSlice(f *encFnInfo, rv reflect.Value) { if f.ti.mbs { e.kArrayWMbs(rv, f.ti, true) } else if f.ti.rtid == uint8SliceTypId || uint8TypId == rt2id(f.ti.elem) { e.e.EncodeBytes(rvGetBytes(rv)) } else { e.kArrayW(rv, f.ti, true) } } func (e *encoderCborBytes) kArray(f *encFnInfo, rv reflect.Value) { if f.ti.mbs { e.kArrayWMbs(rv, f.ti, false) } else if handleBytesWithinKArray && uint8TypId == rt2id(f.ti.elem) { e.e.EncodeStringBytesRaw(rvGetArrayBytes(rv, nil)) } else { e.kArrayW(rv, f.ti, false) } } func (e *encoderCborBytes) kSliceBytesChan(rv reflect.Value) { bs0 := e.blist.peek(32, true) bs := bs0 irv := rv2i(rv) ch, ok := irv.(<-chan byte) if !ok { ch = irv.(chan byte) } L1: switch timeout := e.h.ChanRecvTimeout; { case timeout == 0: for { select { case b := <-ch: bs = append(bs, b) default: break L1 } } case timeout > 0: tt := time.NewTimer(timeout) for { select { case b := <-ch: bs = append(bs, b) case <-tt.C: break L1 } } default: for b := range ch { bs = append(bs, b) } } e.e.EncodeBytes(bs) e.blist.put(bs) if !byteSliceSameData(bs0, bs) { e.blist.put(bs0) } } func (e *encoderCborBytes) kStructFieldKey(keyType valueType, encName string) { if keyType == valueTypeString { e.e.EncodeString(encName) } else if keyType == valueTypeInt { e.e.EncodeInt(must.Int(strconv.ParseInt(encName, 10, 64))) } else if keyType == valueTypeUint { e.e.EncodeUint(must.Uint(strconv.ParseUint(encName, 10, 64))) } else if keyType == valueTypeFloat { e.e.EncodeFloat64(must.Float(strconv.ParseFloat(encName, 64))) } else { halt.errorStr2("invalid struct key type: ", keyType.String()) } } func (e *encoderCborBytes) kStructSimple(f *encFnInfo, rv reflect.Value) { _ = e.e tisfi := f.ti.sfi.source() chkCirRef := e.h.CheckCircularRef var si *structFieldInfo var j int if f.ti.toArray || e.h.StructToArray { if len(tisfi) == 0 { e.e.WriteArrayEmpty() return } e.arrayStart(len(tisfi)) for j, si = range tisfi { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) if si.encBuiltin { e.encodeIB(rv2i(si.fieldNoAlloc(rv, true))) } else { e.encodeValue(si.fieldNoAlloc(rv, !chkCirRef), nil) } } e.c = 0 e.e.WriteArrayEnd() } else { if len(tisfi) == 0 { e.e.WriteMapEmpty() return } if e.h.Canonical { tisfi = f.ti.sfi.sorted() } e.mapStart(len(tisfi)) for j, si = range tisfi { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) e.e.EncodeStringNoEscape4Json(si.encName) e.mapElemValue() if si.encBuiltin { e.encodeIB(rv2i(si.fieldNoAlloc(rv, true))) } else { e.encodeValue(si.fieldNoAlloc(rv, !chkCirRef), nil) } } e.c = 0 e.e.WriteMapEnd() } } func (e *encoderCborBytes) kStruct(f *encFnInfo, rv reflect.Value) { _ = e.e ti := f.ti toMap := !(ti.toArray || e.h.StructToArray) var mf map[string]interface{} if ti.flagMissingFielder { toMap = true mf = rv2i(rv).(MissingFielder).CodecMissingFields() } else if ti.flagMissingFielderPtr { toMap = true if rv.CanAddr() { mf = rv2i(rvAddr(rv, ti.ptr)).(MissingFielder).CodecMissingFields() } else { mf = rv2i(e.addrRV(rv, ti.rt, ti.ptr)).(MissingFielder).CodecMissingFields() } } newlen := len(mf) tisfi := ti.sfi.source() newlen += len(tisfi) var fkvs = e.slist.get(newlen)[:newlen] recur := e.h.RecursiveEmptyCheck chkCirRef := e.h.CheckCircularRef var xlen int var kv sfiRv var j int var sf encStructFieldObj if toMap { newlen = 0 if e.h.Canonical { tisfi = f.ti.sfi.sorted() } for _, si := range tisfi { if si.omitEmpty { kv.r = si.fieldNoAlloc(rv, false) if isEmptyValue(kv.r, e.h.TypeInfos, recur) { continue } } else { kv.r = si.fieldNoAlloc(rv, si.encBuiltin || !chkCirRef) } kv.v = si fkvs[newlen] = kv newlen++ } var mf2s []stringIntf if len(mf) != 0 { mf2s = make([]stringIntf, 0, len(mf)) for k, v := range mf { if k == "" { continue } if ti.infoFieldOmitempty && isEmptyValue(reflect.ValueOf(v), e.h.TypeInfos, recur) { continue } mf2s = append(mf2s, stringIntf{k, v}) } } xlen = newlen + len(mf2s) if xlen == 0 { e.e.WriteMapEmpty() goto END } e.mapStart(xlen) if len(mf2s) != 0 && e.h.Canonical { mf2w := make([]encStructFieldObj, newlen+len(mf2s)) for j = 0; j < newlen; j++ { kv = fkvs[j] mf2w[j] = encStructFieldObj{kv.v.encName, kv.r, nil, true, !kv.v.encNameEscape4Json, kv.v.encBuiltin} } for _, v := range mf2s { mf2w[j] = encStructFieldObj{v.v, reflect.Value{}, v.i, false, false, false} j++ } sort.Sort((encStructFieldObjSlice)(mf2w)) for j, sf = range mf2w { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) if ti.keyType == valueTypeString && sf.noEsc4json { e.e.EncodeStringNoEscape4Json(sf.key) } else { e.kStructFieldKey(ti.keyType, sf.key) } e.mapElemValue() if sf.isRv { if sf.builtin { e.encodeIB(rv2i(baseRVRV(sf.rv))) } else { e.encodeValue(sf.rv, nil) } } else { if !e.encodeBuiltin(sf.intf) { e.encodeR(reflect.ValueOf(sf.intf)) } } } } else { keytyp := ti.keyType for j = 0; j < newlen; j++ { kv = fkvs[j] e.c = containerMapKey e.e.WriteMapElemKey(j == 0) if ti.keyType == valueTypeString && !kv.v.encNameEscape4Json { e.e.EncodeStringNoEscape4Json(kv.v.encName) } else { e.kStructFieldKey(keytyp, kv.v.encName) } e.mapElemValue() if kv.v.encBuiltin { e.encodeIB(rv2i(baseRVRV(kv.r))) } else { e.encodeValue(kv.r, nil) } } for _, v := range mf2s { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) e.kStructFieldKey(keytyp, v.v) e.mapElemValue() if !e.encodeBuiltin(v.i) { e.encodeR(reflect.ValueOf(v.i)) } j++ } } e.c = 0 e.e.WriteMapEnd() } else { newlen = len(tisfi) for i, si := range tisfi { if si.omitEmpty { kv.r = si.fieldNoAlloc(rv, false) if isEmptyContainerValue(kv.r, e.h.TypeInfos, recur) { kv.r = reflect.Value{} } } else { kv.r = si.fieldNoAlloc(rv, si.encBuiltin || !chkCirRef) } kv.v = si fkvs[i] = kv } if newlen == 0 { e.e.WriteArrayEmpty() goto END } e.arrayStart(newlen) for j = 0; j < newlen; j++ { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) kv = fkvs[j] if !kv.r.IsValid() { e.e.EncodeNil() } else if kv.v.encBuiltin { e.encodeIB(rv2i(baseRVRV(kv.r))) } else { e.encodeValue(kv.r, nil) } } e.c = 0 e.e.WriteArrayEnd() } END: e.slist.put(fkvs) } func (e *encoderCborBytes) kMap(f *encFnInfo, rv reflect.Value) { _ = e.e l := rvLenMap(rv) if l == 0 { e.e.WriteMapEmpty() return } e.mapStart(l) var keyFn, valFn *encFnCborBytes ktypeKind := reflect.Kind(f.ti.keykind) vtypeKind := reflect.Kind(f.ti.elemkind) rtval := f.ti.elem rtvalkind := vtypeKind for rtvalkind == reflect.Ptr { rtval = rtval.Elem() rtvalkind = rtval.Kind() } if rtvalkind != reflect.Interface { valFn = e.fn(rtval) } var rvv = mapAddrLoopvarRV(f.ti.elem, vtypeKind) rtkey := f.ti.key var keyTypeIsString = stringTypId == rt2id(rtkey) if keyTypeIsString { keyFn = e.fn(rtkey) } else { for rtkey.Kind() == reflect.Ptr { rtkey = rtkey.Elem() } if rtkey.Kind() != reflect.Interface { keyFn = e.fn(rtkey) } } if e.h.Canonical { e.kMapCanonical(f.ti, rv, rvv, keyFn, valFn) e.c = 0 e.e.WriteMapEnd() return } var rvk = mapAddrLoopvarRV(f.ti.key, ktypeKind) var it mapIter mapRange(&it, rv, rvk, rvv, true) kbuiltin := f.ti.tikey.flagEncBuiltin vbuiltin := f.ti.tielem.flagEncBuiltin for j := 0; it.Next(); j++ { rv = it.Key() e.c = containerMapKey e.e.WriteMapElemKey(j == 0) if keyTypeIsString { e.e.EncodeString(rvGetString(rv)) } else if kbuiltin { e.encodeIB(rv2i(baseRVRV(rv))) } else { e.encodeValue(rv, keyFn) } e.mapElemValue() rv = it.Value() if vbuiltin { e.encodeIB(rv2i(baseRVRV(rv))) } else { e.encodeValue(it.Value(), valFn) } } it.Done() e.c = 0 e.e.WriteMapEnd() } func (e *encoderCborBytes) kMapCanonical(ti *typeInfo, rv, rvv reflect.Value, keyFn, valFn *encFnCborBytes) { _ = e.e rtkey := ti.key rtkeydecl := rtkey.PkgPath() == "" && rtkey.Name() != "" mks := rv.MapKeys() rtkeyKind := rtkey.Kind() mparams := getMapReqParams(ti) switch rtkeyKind { case reflect.Bool: if len(mks) == 2 && mks[0].Bool() { mks[0], mks[1] = mks[1], mks[0] } for i := range mks { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeBool(mks[i].Bool()) } else { e.encodeValueNonNil(mks[i], keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mks[i], rvv, mparams), valFn) } case reflect.String: mksv := make([]orderedRv[string], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = rvGetString(k) } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeString(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uint, reflect.Uintptr: mksv := make([]orderedRv[uint64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Uint() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeUint(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Int: mksv := make([]orderedRv[int64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Int() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeInt(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Float32: mksv := make([]orderedRv[float64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Float() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeFloat32(float32(mksv[i].v)) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Float64: mksv := make([]orderedRv[float64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Float() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeFloat64(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } default: if rtkey == timeTyp { mksv := make([]timeRv, len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = rv2i(k).(time.Time) } slices.SortFunc(mksv, cmpTimeRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeTime(mksv[i].v) e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } break } bs0 := e.blist.get(len(mks) * 16) mksv := bs0 mksbv := make([]bytesRv, len(mks)) sideEncode(e.hh, &e.h.sideEncPool, func(se encoderI) { se.ResetBytes(&mksv) for i, k := range mks { v := &mksbv[i] l := len(mksv) se.setContainerState(containerMapKey) se.encodeR(baseRVRV(k)) se.atEndOfEncode() se.writerEnd() v.r = k v.v = mksv[l:] } }) slices.SortFunc(mksbv, cmpBytesRv) for j := range mksbv { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) e.e.writeBytesAsis(mksbv[j].v) e.mapElemValue() e.encodeValue(mapGet(rv, mksbv[j].r, rvv, mparams), valFn) } e.blist.put(mksv) if !byteSliceSameData(bs0, mksv) { e.blist.put(bs0) } } } func (e *encoderCborBytes) init(h Handle) { initHandle(h) callMake(&e.e) e.hh = h e.h = h.getBasicHandle() e.err = errEncoderNotInitialized e.fp = e.e.init(h, &e.encoderBase, e).(*fastpathEsCborBytes) if e.bytes { e.rtidFn = &e.h.rtidFnsEncBytes e.rtidFnNoExt = &e.h.rtidFnsEncNoExtBytes } else { e.rtidFn = &e.h.rtidFnsEncIO e.rtidFnNoExt = &e.h.rtidFnsEncNoExtIO } e.reset() } func (e *encoderCborBytes) reset() { e.e.reset() if e.ci != nil { e.ci = e.ci[:0] } e.c = 0 e.calls = 0 e.seq = 0 e.err = nil } func (e *encoderCborBytes) Encode(v interface{}) (err error) { defer panicValToErr(e, callRecoverSentinel, &e.err, &err, debugging) e.mustEncode(v) return } func (e *encoderCborBytes) MustEncode(v interface{}) { defer panicValToErr(e, callRecoverSentinel, &e.err, nil, true) e.mustEncode(v) return } func (e *encoderCborBytes) mustEncode(v interface{}) { halt.onerror(e.err) if e.hh == nil { halt.onerror(errNoFormatHandle) } e.calls++ if !e.encodeBuiltin(v) { e.encodeR(reflect.ValueOf(v)) } e.calls-- if e.calls == 0 { e.e.atEndOfEncode() e.e.writerEnd() } } func (e *encoderCborBytes) encodeI(iv interface{}) { if !e.encodeBuiltin(iv) { e.encodeR(reflect.ValueOf(iv)) } } func (e *encoderCborBytes) encodeIB(iv interface{}) { if !e.encodeBuiltin(iv) { halt.errorStr("[should not happen] invalid type passed to encodeBuiltin") } } func (e *encoderCborBytes) encodeR(base reflect.Value) { e.encodeValue(base, nil) } func (e *encoderCborBytes) encodeBuiltin(iv interface{}) (ok bool) { ok = true switch v := iv.(type) { case nil: e.e.EncodeNil() case Raw: e.rawBytes(v) case string: e.e.EncodeString(v) case bool: e.e.EncodeBool(v) case int: e.e.EncodeInt(int64(v)) case int8: e.e.EncodeInt(int64(v)) case int16: e.e.EncodeInt(int64(v)) case int32: e.e.EncodeInt(int64(v)) case int64: e.e.EncodeInt(v) case uint: e.e.EncodeUint(uint64(v)) case uint8: e.e.EncodeUint(uint64(v)) case uint16: e.e.EncodeUint(uint64(v)) case uint32: e.e.EncodeUint(uint64(v)) case uint64: e.e.EncodeUint(v) case uintptr: e.e.EncodeUint(uint64(v)) case float32: e.e.EncodeFloat32(v) case float64: e.e.EncodeFloat64(v) case complex64: e.encodeComplex64(v) case complex128: e.encodeComplex128(v) case time.Time: e.e.EncodeTime(v) case []byte: e.e.EncodeBytes(v) default: ok = !skipFastpathTypeSwitchInDirectCall && e.dh.fastpathEncodeTypeSwitch(iv, e) } return } func (e *encoderCborBytes) encodeValue(rv reflect.Value, fn *encFnCborBytes) { var ciPushes int var rvp reflect.Value var rvpValid bool RV: switch rv.Kind() { case reflect.Ptr: if rvIsNil(rv) { e.e.EncodeNil() goto END } rvpValid = true rvp = rv rv = rv.Elem() if e.h.CheckCircularRef && e.ci.canPushElemKind(rv.Kind()) { e.ci.push(rv2i(rvp)) ciPushes++ } goto RV case reflect.Interface: if rvIsNil(rv) { e.e.EncodeNil() goto END } rvpValid = false rvp = reflect.Value{} rv = rv.Elem() fn = nil goto RV case reflect.Map: if rvIsNil(rv) { if e.h.NilCollectionToZeroLength { e.e.WriteMapEmpty() } else { e.e.EncodeNil() } goto END } case reflect.Slice, reflect.Chan: if rvIsNil(rv) { if e.h.NilCollectionToZeroLength { e.e.WriteArrayEmpty() } else { e.e.EncodeNil() } goto END } case reflect.Invalid, reflect.Func: e.e.EncodeNil() goto END } if fn == nil { fn = e.fn(rv.Type()) } if !fn.i.addrE { } else if rvpValid { rv = rvp } else if rv.CanAddr() { rv = rvAddr(rv, fn.i.ti.ptr) } else { rv = e.addrRV(rv, fn.i.ti.rt, fn.i.ti.ptr) } fn.fe(e, &fn.i, rv) END: if ciPushes > 0 { e.ci.pop(ciPushes) } } func (e *encoderCborBytes) encodeValueNonNil(rv reflect.Value, fn *encFnCborBytes) { if fn.i.addrE { if rv.CanAddr() { rv = rvAddr(rv, fn.i.ti.ptr) } else { rv = e.addrRV(rv, fn.i.ti.rt, fn.i.ti.ptr) } } fn.fe(e, &fn.i, rv) } func (e *encoderCborBytes) encodeAs(v interface{}, t reflect.Type, ext bool) { if ext { e.encodeValue(baseRV(v), e.fn(t)) } else { e.encodeValue(baseRV(v), e.fnNoExt(t)) } } func (e *encoderCborBytes) marshalUtf8(bs []byte, fnerr error) { halt.onerror(fnerr) if bs == nil { e.e.EncodeNil() } else { e.e.EncodeString(stringView(bs)) } } func (e *encoderCborBytes) marshalAsis(bs []byte, fnerr error) { halt.onerror(fnerr) if bs == nil { e.e.EncodeNil() } else { e.e.writeBytesAsis(bs) } } func (e *encoderCborBytes) marshalRaw(bs []byte, fnerr error) { halt.onerror(fnerr) e.e.EncodeBytes(bs) } func (e *encoderCborBytes) rawBytes(vv Raw) { v := []byte(vv) if !e.h.Raw { halt.errorBytes("Raw values cannot be encoded: ", v) } e.e.writeBytesAsis(v) } func (e *encoderCborBytes) fn(t reflect.Type) *encFnCborBytes { return e.dh.encFnViaBH(t, e.rtidFn, e.h, e.fp, false) } func (e *encoderCborBytes) fnNoExt(t reflect.Type) *encFnCborBytes { return e.dh.encFnViaBH(t, e.rtidFnNoExt, e.h, e.fp, true) } func (e *encoderCborBytes) mapStart(length int) { e.e.WriteMapStart(length) e.c = containerMapStart } func (e *encoderCborBytes) mapElemValue() { e.e.WriteMapElemValue() e.c = containerMapValue } func (e *encoderCborBytes) arrayStart(length int) { e.e.WriteArrayStart(length) e.c = containerArrayStart } func (e *encoderCborBytes) writerEnd() { e.e.writerEnd() } func (e *encoderCborBytes) atEndOfEncode() { e.e.atEndOfEncode() } func (e *encoderCborBytes) Reset(w io.Writer) { if e.bytes { halt.onerror(errEncNoResetBytesWithWriter) } e.reset() if w == nil { w = io.Discard } e.e.resetOutIO(w) } func (e *encoderCborBytes) ResetBytes(out *[]byte) { if !e.bytes { halt.onerror(errEncNoResetWriterWithBytes) } e.resetBytes(out) } func (e *encoderCborBytes) resetBytes(out *[]byte) { e.reset() if out == nil { out = &bytesEncAppenderDefOut } e.e.resetOutBytes(out) } func (helperEncDriverCborBytes) newEncoderBytes(out *[]byte, h Handle) *encoderCborBytes { var c1 encoderCborBytes c1.bytes = true c1.init(h) c1.ResetBytes(out) return &c1 } func (helperEncDriverCborBytes) newEncoderIO(out io.Writer, h Handle) *encoderCborBytes { var c1 encoderCborBytes c1.bytes = false c1.init(h) c1.Reset(out) return &c1 } func (helperEncDriverCborBytes) encFnloadFastpathUnderlying(ti *typeInfo, fp *fastpathEsCborBytes) (f *fastpathECborBytes, u reflect.Type) { rtid := rt2id(ti.fastpathUnderlying) idx, ok := fastpathAvIndex(rtid) if !ok { return } f = &fp[idx] if uint8(reflect.Array) == ti.kind { u = reflect.ArrayOf(ti.rt.Len(), ti.elem) } else { u = f.rt } return } func (helperEncDriverCborBytes) encFindRtidFn(s []encRtidFnCborBytes, rtid uintptr) (i uint, fn *encFnCborBytes) { var h uint var j = uint(len(s)) LOOP: if i < j { h = (i + j) >> 1 if s[h].rtid < rtid { i = h + 1 } else { j = h } goto LOOP } if i < uint(len(s)) && s[i].rtid == rtid { fn = s[i].fn } return } func (helperEncDriverCborBytes) encFromRtidFnSlice(fns *atomicRtidFnSlice) (s []encRtidFnCborBytes) { if v := fns.load(); v != nil { s = *(lowLevelToPtr[[]encRtidFnCborBytes](v)) } return } func (dh helperEncDriverCborBytes) encFnViaBH(rt reflect.Type, fns *atomicRtidFnSlice, x *BasicHandle, fp *fastpathEsCborBytes, checkExt bool) (fn *encFnCborBytes) { return dh.encFnVia(rt, fns, x.typeInfos(), &x.mu, x.extHandle, fp, checkExt, x.CheckCircularRef, x.timeBuiltin, x.binaryHandle, x.jsonHandle) } func (dh helperEncDriverCborBytes) encFnVia(rt reflect.Type, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathEsCborBytes, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *encFnCborBytes) { rtid := rt2id(rt) var sp []encRtidFnCborBytes = dh.encFromRtidFnSlice(fns) if sp != nil { _, fn = dh.encFindRtidFn(sp, rtid) } if fn == nil { fn = dh.encFnViaLoader(rt, rtid, fns, tinfos, mu, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) } return } func (dh helperEncDriverCborBytes) encFnViaLoader(rt reflect.Type, rtid uintptr, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathEsCborBytes, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *encFnCborBytes) { fn = dh.encFnLoad(rt, rtid, tinfos, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) var sp []encRtidFnCborBytes mu.Lock() sp = dh.encFromRtidFnSlice(fns) if sp == nil { sp = []encRtidFnCborBytes{{rtid, fn}} fns.store(ptrToLowLevel(&sp)) } else { idx, fn2 := dh.encFindRtidFn(sp, rtid) if fn2 == nil { sp2 := make([]encRtidFnCborBytes, len(sp)+1) copy(sp2[idx+1:], sp[idx:]) copy(sp2, sp[:idx]) sp2[idx] = encRtidFnCborBytes{rtid, fn} fns.store(ptrToLowLevel(&sp2)) } } mu.Unlock() return } func (dh helperEncDriverCborBytes) encFnLoad(rt reflect.Type, rtid uintptr, tinfos *TypeInfos, exth extHandle, fp *fastpathEsCborBytes, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *encFnCborBytes) { fn = new(encFnCborBytes) fi := &(fn.i) ti := tinfos.get(rtid, rt) fi.ti = ti rk := reflect.Kind(ti.kind) if rtid == timeTypId && timeBuiltin { fn.fe = (*encoderCborBytes).kTime } else if rtid == rawTypId { fn.fe = (*encoderCborBytes).raw } else if rtid == rawExtTypId { fn.fe = (*encoderCborBytes).rawExt fi.addrE = true } else if xfFn := exth.getExt(rtid, checkExt); xfFn != nil { fi.xfTag, fi.xfFn = xfFn.tag, xfFn.ext fn.fe = (*encoderCborBytes).ext if rk == reflect.Struct || rk == reflect.Array { fi.addrE = true } } else if ti.flagSelfer || ti.flagSelferPtr { fn.fe = (*encoderCborBytes).selferMarshal fi.addrE = ti.flagSelferPtr } else if supportMarshalInterfaces && binaryEncoding && (ti.flagBinaryMarshaler || ti.flagBinaryMarshalerPtr) && (ti.flagBinaryUnmarshaler || ti.flagBinaryUnmarshalerPtr) { fn.fe = (*encoderCborBytes).binaryMarshal fi.addrE = ti.flagBinaryMarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && json && (ti.flagJsonMarshaler || ti.flagJsonMarshalerPtr) && (ti.flagJsonUnmarshaler || ti.flagJsonUnmarshalerPtr) { fn.fe = (*encoderCborBytes).jsonMarshal fi.addrE = ti.flagJsonMarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && (ti.flagTextMarshaler || ti.flagTextMarshalerPtr) && (ti.flagTextUnmarshaler || ti.flagTextUnmarshalerPtr) { fn.fe = (*encoderCborBytes).textMarshal fi.addrE = ti.flagTextMarshalerPtr } else { if fastpathEnabled && (rk == reflect.Map || rk == reflect.Slice || rk == reflect.Array) { var rtid2 uintptr if !ti.flagHasPkgPath { rtid2 = rtid if rk == reflect.Array { rtid2 = rt2id(ti.key) } if idx, ok := fastpathAvIndex(rtid2); ok { fn.fe = fp[idx].encfn } } else { xfe, xrt := dh.encFnloadFastpathUnderlying(ti, fp) if xfe != nil { xfnf := xfe.encfn fn.fe = func(e *encoderCborBytes, xf *encFnInfo, xrv reflect.Value) { xfnf(e, xf, rvConvert(xrv, xrt)) } } } } if fn.fe == nil { switch rk { case reflect.Bool: fn.fe = (*encoderCborBytes).kBool case reflect.String: fn.fe = (*encoderCborBytes).kString case reflect.Int: fn.fe = (*encoderCborBytes).kInt case reflect.Int8: fn.fe = (*encoderCborBytes).kInt8 case reflect.Int16: fn.fe = (*encoderCborBytes).kInt16 case reflect.Int32: fn.fe = (*encoderCborBytes).kInt32 case reflect.Int64: fn.fe = (*encoderCborBytes).kInt64 case reflect.Uint: fn.fe = (*encoderCborBytes).kUint case reflect.Uint8: fn.fe = (*encoderCborBytes).kUint8 case reflect.Uint16: fn.fe = (*encoderCborBytes).kUint16 case reflect.Uint32: fn.fe = (*encoderCborBytes).kUint32 case reflect.Uint64: fn.fe = (*encoderCborBytes).kUint64 case reflect.Uintptr: fn.fe = (*encoderCborBytes).kUintptr case reflect.Float32: fn.fe = (*encoderCborBytes).kFloat32 case reflect.Float64: fn.fe = (*encoderCborBytes).kFloat64 case reflect.Complex64: fn.fe = (*encoderCborBytes).kComplex64 case reflect.Complex128: fn.fe = (*encoderCborBytes).kComplex128 case reflect.Chan: fn.fe = (*encoderCborBytes).kChan case reflect.Slice: fn.fe = (*encoderCborBytes).kSlice case reflect.Array: fn.fe = (*encoderCborBytes).kArray case reflect.Struct: if ti.simple { fn.fe = (*encoderCborBytes).kStructSimple } else { fn.fe = (*encoderCborBytes).kStruct } case reflect.Map: fn.fe = (*encoderCborBytes).kMap case reflect.Interface: fn.fe = (*encoderCborBytes).kErr default: fn.fe = (*encoderCborBytes).kErr } } } return } func (d *decoderCborBytes) rawExt(f *decFnInfo, rv reflect.Value) { d.d.DecodeRawExt(rv2i(rv).(*RawExt)) } func (d *decoderCborBytes) ext(f *decFnInfo, rv reflect.Value) { d.d.DecodeExt(rv2i(rv), f.ti.rt, f.xfTag, f.xfFn) } func (d *decoderCborBytes) selferUnmarshal(_ *decFnInfo, rv reflect.Value) { rv2i(rv).(Selfer).CodecDecodeSelf(&Decoder{d}) } func (d *decoderCborBytes) binaryUnmarshal(_ *decFnInfo, rv reflect.Value) { bm := rv2i(rv).(encoding.BinaryUnmarshaler) xbs, _ := d.d.DecodeBytes() fnerr := bm.UnmarshalBinary(xbs) halt.onerror(fnerr) } func (d *decoderCborBytes) textUnmarshal(_ *decFnInfo, rv reflect.Value) { tm := rv2i(rv).(encoding.TextUnmarshaler) fnerr := tm.UnmarshalText(bytesOKs(d.d.DecodeStringAsBytes())) halt.onerror(fnerr) } func (d *decoderCborBytes) jsonUnmarshal(_ *decFnInfo, rv reflect.Value) { d.jsonUnmarshalV(rv2i(rv).(jsonUnmarshaler)) } func (d *decoderCborBytes) jsonUnmarshalV(tm jsonUnmarshaler) { halt.onerror(tm.UnmarshalJSON(d.d.nextValueBytes())) } func (d *decoderCborBytes) kErr(_ *decFnInfo, rv reflect.Value) { halt.errorf("unsupported decoding kind: %s, for %#v", rv.Kind(), rv) } func (d *decoderCborBytes) raw(_ *decFnInfo, rv reflect.Value) { rvSetBytes(rv, d.rawBytes()) } func (d *decoderCborBytes) kString(_ *decFnInfo, rv reflect.Value) { rvSetString(rv, d.detach2Str(d.d.DecodeStringAsBytes())) } func (d *decoderCborBytes) kBool(_ *decFnInfo, rv reflect.Value) { rvSetBool(rv, d.d.DecodeBool()) } func (d *decoderCborBytes) kTime(_ *decFnInfo, rv reflect.Value) { rvSetTime(rv, d.d.DecodeTime()) } func (d *decoderCborBytes) kFloat32(_ *decFnInfo, rv reflect.Value) { rvSetFloat32(rv, d.d.DecodeFloat32()) } func (d *decoderCborBytes) kFloat64(_ *decFnInfo, rv reflect.Value) { rvSetFloat64(rv, d.d.DecodeFloat64()) } func (d *decoderCborBytes) kComplex64(_ *decFnInfo, rv reflect.Value) { rvSetComplex64(rv, complex(d.d.DecodeFloat32(), 0)) } func (d *decoderCborBytes) kComplex128(_ *decFnInfo, rv reflect.Value) { rvSetComplex128(rv, complex(d.d.DecodeFloat64(), 0)) } func (d *decoderCborBytes) kInt(_ *decFnInfo, rv reflect.Value) { rvSetInt(rv, int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize))) } func (d *decoderCborBytes) kInt8(_ *decFnInfo, rv reflect.Value) { rvSetInt8(rv, int8(chkOvf.IntV(d.d.DecodeInt64(), 8))) } func (d *decoderCborBytes) kInt16(_ *decFnInfo, rv reflect.Value) { rvSetInt16(rv, int16(chkOvf.IntV(d.d.DecodeInt64(), 16))) } func (d *decoderCborBytes) kInt32(_ *decFnInfo, rv reflect.Value) { rvSetInt32(rv, int32(chkOvf.IntV(d.d.DecodeInt64(), 32))) } func (d *decoderCborBytes) kInt64(_ *decFnInfo, rv reflect.Value) { rvSetInt64(rv, d.d.DecodeInt64()) } func (d *decoderCborBytes) kUint(_ *decFnInfo, rv reflect.Value) { rvSetUint(rv, uint(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))) } func (d *decoderCborBytes) kUintptr(_ *decFnInfo, rv reflect.Value) { rvSetUintptr(rv, uintptr(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))) } func (d *decoderCborBytes) kUint8(_ *decFnInfo, rv reflect.Value) { rvSetUint8(rv, uint8(chkOvf.UintV(d.d.DecodeUint64(), 8))) } func (d *decoderCborBytes) kUint16(_ *decFnInfo, rv reflect.Value) { rvSetUint16(rv, uint16(chkOvf.UintV(d.d.DecodeUint64(), 16))) } func (d *decoderCborBytes) kUint32(_ *decFnInfo, rv reflect.Value) { rvSetUint32(rv, uint32(chkOvf.UintV(d.d.DecodeUint64(), 32))) } func (d *decoderCborBytes) kUint64(_ *decFnInfo, rv reflect.Value) { rvSetUint64(rv, d.d.DecodeUint64()) } func (d *decoderCborBytes) kInterfaceNaked(f *decFnInfo) (rvn reflect.Value) { n := d.naked() d.d.DecodeNaked() if decFailNonEmptyIntf && f.ti.numMeth > 0 { halt.errorf("cannot decode non-nil codec value into nil %v (%v methods)", f.ti.rt, f.ti.numMeth) } switch n.v { case valueTypeMap: mtid := d.mtid if mtid == 0 { if d.jsms { mtid = mapStrIntfTypId } else { mtid = mapIntfIntfTypId } } if mtid == mapStrIntfTypId { var v2 map[string]interface{} d.decode(&v2) rvn = rv4iptr(&v2).Elem() } else if mtid == mapIntfIntfTypId { var v2 map[interface{}]interface{} d.decode(&v2) rvn = rv4iptr(&v2).Elem() } else if d.mtr { rvn = reflect.New(d.h.MapType) d.decode(rv2i(rvn)) rvn = rvn.Elem() } else { rvn = rvZeroAddrK(d.h.MapType, reflect.Map) d.decodeValue(rvn, nil) } case valueTypeArray: if d.stid == 0 || d.stid == intfSliceTypId { var v2 []interface{} d.decode(&v2) rvn = rv4iptr(&v2).Elem() } else if d.str { rvn = reflect.New(d.h.SliceType) d.decode(rv2i(rvn)) rvn = rvn.Elem() } else { rvn = rvZeroAddrK(d.h.SliceType, reflect.Slice) d.decodeValue(rvn, nil) } if d.h.PreferArrayOverSlice { rvn = rvGetArray4Slice(rvn) } case valueTypeExt: tag, bytes := n.u, n.l bfn := d.h.getExtForTag(tag) var re = RawExt{Tag: tag} if bytes == nil { if bfn == nil { d.decode(&re.Value) rvn = rv4iptr(&re).Elem() } else if bfn.ext == SelfExt { rvn = rvZeroAddrK(bfn.rt, bfn.rt.Kind()) d.decodeValue(rvn, d.fnNoExt(bfn.rt)) } else { rvn = reflect.New(bfn.rt) d.interfaceExtConvertAndDecode(rv2i(rvn), bfn.ext) rvn = rvn.Elem() } } else { if bfn == nil { re.setData(bytes, false) rvn = rv4iptr(&re).Elem() } else { rvn = reflect.New(bfn.rt) if bfn.ext == SelfExt { sideDecode(d.hh, &d.h.sideDecPool, func(sd decoderI) { oneOffDecode(sd, rv2i(rvn), bytes, bfn.rt, true) }) } else { bfn.ext.ReadExt(rv2i(rvn), bytes) } rvn = rvn.Elem() } } if d.h.PreferPointerForStructOrArray && rvn.CanAddr() { if rk := rvn.Kind(); rk == reflect.Array || rk == reflect.Struct { rvn = rvn.Addr() } } case valueTypeNil: case valueTypeInt: rvn = n.ri() case valueTypeUint: rvn = n.ru() case valueTypeFloat: rvn = n.rf() case valueTypeBool: rvn = n.rb() case valueTypeString, valueTypeSymbol: rvn = n.rs() case valueTypeBytes: rvn = n.rl() case valueTypeTime: rvn = n.rt() default: halt.errorStr2("kInterfaceNaked: unexpected valueType: ", n.v.String()) } return } func (d *decoderCborBytes) kInterface(f *decFnInfo, rv reflect.Value) { isnilrv := rvIsNil(rv) var rvn reflect.Value if d.h.InterfaceReset { rvn = d.h.intf2impl(f.ti.rtid) if !rvn.IsValid() { rvn = d.kInterfaceNaked(f) if rvn.IsValid() { rvSetIntf(rv, rvn) } else if !isnilrv { decSetNonNilRV2Zero4Intf(rv) } return } } else if isnilrv { rvn = d.h.intf2impl(f.ti.rtid) if !rvn.IsValid() { rvn = d.kInterfaceNaked(f) if rvn.IsValid() { rvSetIntf(rv, rvn) } return } } else { rvn = rv.Elem() } canDecode, _ := isDecodeable(rvn) if !canDecode { rvn2 := d.oneShotAddrRV(rvn.Type(), rvn.Kind()) rvSetDirect(rvn2, rvn) rvn = rvn2 } d.decodeValue(rvn, nil) rvSetIntf(rv, rvn) } func (d *decoderCborBytes) kStructField(si *structFieldInfo, rv reflect.Value) { if d.d.TryNil() { rv = si.fieldNoAlloc(rv, true) if rv.IsValid() { decSetNonNilRV2Zero(rv) } } else if si.decBuiltin { rv = rvAddr(si.fieldAlloc(rv), si.ptrTyp) d.decode(rv2i(rv)) } else { fn := d.fn(si.baseTyp) rv = si.fieldAlloc(rv) if fn.i.addrD { rv = rvAddr(rv, si.ptrTyp) } fn.fd(d, &fn.i, rv) } } func (d *decoderCborBytes) kStructSimple(f *decFnInfo, rv reflect.Value) { _ = d.d ctyp := d.d.ContainerType() ti := f.ti if ctyp == valueTypeMap { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == 0 { d.mapEnd() return } hasLen := containerLen >= 0 var rvkencname []byte for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) sab, att := d.d.DecodeStringAsBytes() rvkencname = d.usableStructFieldNameBytes(rvkencname, sab, att) d.mapElemValue() if si := ti.siForEncName(rvkencname); si != nil { d.kStructField(si, rv) } else { d.structFieldNotFound(-1, stringView(rvkencname)) } } d.mapEnd() } else if ctyp == valueTypeArray { containerLen := d.arrayStart(d.d.ReadArrayStart()) if containerLen == 0 { d.arrayEnd() return } tisfi := ti.sfi.source() hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.arrayElem(j == 0) if j < len(tisfi) { d.kStructField(tisfi[j], rv) } else { d.structFieldNotFound(j, "") } } d.arrayEnd() } else { halt.onerror(errNeedMapOrArrayDecodeToStruct) } } func (d *decoderCborBytes) kStruct(f *decFnInfo, rv reflect.Value) { _ = d.d ctyp := d.d.ContainerType() ti := f.ti var mf MissingFielder if ti.flagMissingFielder { mf = rv2i(rv).(MissingFielder) } else if ti.flagMissingFielderPtr { mf = rv2i(rvAddr(rv, ti.ptr)).(MissingFielder) } if ctyp == valueTypeMap { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == 0 { d.mapEnd() return } hasLen := containerLen >= 0 var name2 []byte var rvkencname []byte tkt := ti.keyType for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) if tkt == valueTypeString { sab, att := d.d.DecodeStringAsBytes() rvkencname = d.usableStructFieldNameBytes(rvkencname, sab, att) } else if tkt == valueTypeInt { rvkencname = strconv.AppendInt(d.b[:0], d.d.DecodeInt64(), 10) } else if tkt == valueTypeUint { rvkencname = strconv.AppendUint(d.b[:0], d.d.DecodeUint64(), 10) } else if tkt == valueTypeFloat { rvkencname = strconv.AppendFloat(d.b[:0], d.d.DecodeFloat64(), 'f', -1, 64) } else { halt.errorStr2("invalid struct key type: ", ti.keyType.String()) } d.mapElemValue() if si := ti.siForEncName(rvkencname); si != nil { d.kStructField(si, rv) } else if mf != nil { name2 = append(name2[:0], rvkencname...) var f interface{} d.decode(&f) if !mf.CodecMissingField(name2, f) && d.h.ErrorIfNoField { halt.errorStr2("no matching struct field when decoding stream map with key: ", stringView(name2)) } } else { d.structFieldNotFound(-1, stringView(rvkencname)) } } d.mapEnd() } else if ctyp == valueTypeArray { containerLen := d.arrayStart(d.d.ReadArrayStart()) if containerLen == 0 { d.arrayEnd() return } tisfi := ti.sfi.source() hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.arrayElem(j == 0) if j < len(tisfi) { d.kStructField(tisfi[j], rv) } else { d.structFieldNotFound(j, "") } } d.arrayEnd() } else { halt.onerror(errNeedMapOrArrayDecodeToStruct) } } func (d *decoderCborBytes) kSlice(f *decFnInfo, rv reflect.Value) { _ = d.d ti := f.ti rvCanset := rv.CanSet() ctyp := d.d.ContainerType() if ctyp == valueTypeBytes || ctyp == valueTypeString { if !(ti.rtid == uint8SliceTypId || ti.elemkind == uint8(reflect.Uint8)) { halt.errorf("bytes/string in stream must decode into slice/array of bytes, not %v", ti.rt) } rvbs := rvGetBytes(rv) if rvCanset { bs2, bst := d.decodeBytesInto(rvbs, false) if bst != dBytesIntoParamOut { rvSetBytes(rv, bs2) } } else { d.decodeBytesInto(rvbs[:len(rvbs):len(rvbs)], true) } return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } if containerLenS == 0 { if rvCanset { if rvIsNil(rv) { rvSetDirect(rv, rvSliceZeroCap(ti.rt)) } else { rvSetSliceLen(rv, 0) } } if isArray { d.arrayEnd() } else { d.mapEnd() } return } rtelem0Mut := !scalarBitset.isset(ti.elemkind) rtelem := ti.elem for k := reflect.Kind(ti.elemkind); k == reflect.Ptr; k = rtelem.Kind() { rtelem = rtelem.Elem() } var fn *decFnCborBytes var rvChanged bool var rv0 = rv var rv9 reflect.Value rvlen := rvLenSlice(rv) rvcap := rvCapSlice(rv) maxInitLen := d.maxInitLen() hasLen := containerLenS >= 0 if hasLen { if containerLenS > rvcap { oldRvlenGtZero := rvlen > 0 rvlen1 := int(decInferLen(containerLenS, maxInitLen, uint(ti.elemsize))) if rvlen1 == rvlen { } else if rvlen1 <= rvcap { if rvCanset { rvlen = rvlen1 rvSetSliceLen(rv, rvlen) } } else if rvCanset { rvlen = rvlen1 rv, rvCanset = rvMakeSlice(rv, f.ti, rvlen, rvlen) rvcap = rvlen rvChanged = !rvCanset } else { halt.errorStr("cannot decode into non-settable slice") } if rvChanged && oldRvlenGtZero && rtelem0Mut { rvCopySlice(rv, rv0, rtelem) } } else if containerLenS != rvlen { if rvCanset { rvlen = containerLenS rvSetSliceLen(rv, rvlen) } } } var elemReset = d.h.SliceElementReset var rtelemIsPtr bool var rtelemElem reflect.Type builtin := ti.tielem.flagDecBuiltin if builtin { rtelemIsPtr = ti.elemkind == uint8(reflect.Ptr) if rtelemIsPtr { rtelemElem = ti.elem.Elem() } } var j int for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if rvIsNil(rv) { if rvCanset { rvlen = int(decInferLen(containerLenS, maxInitLen, uint(ti.elemsize))) rv, rvCanset = rvMakeSlice(rv, f.ti, rvlen, rvlen) rvcap = rvlen rvChanged = !rvCanset } else { halt.errorStr("cannot decode into non-settable slice") } } if fn == nil { fn = d.fn(rtelem) } } if ctyp == valueTypeArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= rvlen { if rvlen < rvcap { rvlen = rvcap if rvCanset { rvSetSliceLen(rv, rvlen) } else if rvChanged { rv = rvSlice(rv, rvlen) } else { halt.onerror(errExpandSliceCannotChange) } } else { if !(rvCanset || rvChanged) { halt.onerror(errExpandSliceCannotChange) } rv, rvcap, rvCanset = rvGrowSlice(rv, f.ti, rvcap, 1) rvlen = rvcap rvChanged = !rvCanset } } rv9 = rvArrayIndex(rv, j, f.ti, true) if elemReset { rvSetZero(rv9) } if d.d.TryNil() { rvSetZero(rv9) } else if builtin { if rtelemIsPtr { if rvIsNil(rv9) { rvSetDirect(rv9, reflect.New(rtelemElem)) } d.decode(rv2i(rv9)) } else { d.decode(rv2i(rvAddr(rv9, ti.tielem.ptr))) } } else { d.decodeValueNoCheckNil(rv9, fn) } } if j < rvlen { if rvCanset { rvSetSliceLen(rv, j) } else if rvChanged { rv = rvSlice(rv, j) } } else if j == 0 && rvIsNil(rv) { if rvCanset { rv = rvSliceZeroCap(ti.rt) rvCanset = false rvChanged = true } } if isArray { d.arrayEnd() } else { d.mapEnd() } if rvChanged { rvSetDirect(rv0, rv) } } func (d *decoderCborBytes) kArray(f *decFnInfo, rv reflect.Value) { _ = d.d ti := f.ti ctyp := d.d.ContainerType() if handleBytesWithinKArray && (ctyp == valueTypeBytes || ctyp == valueTypeString) { if ti.elemkind != uint8(reflect.Uint8) { halt.errorf("bytes/string in stream can decode into array of bytes, but not %v", ti.rt) } rvbs := rvGetArrayBytes(rv, nil) d.decodeBytesInto(rvbs, true) return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } if containerLenS == 0 { if isArray { d.arrayEnd() } else { d.mapEnd() } return } rtelem := ti.elem for k := reflect.Kind(ti.elemkind); k == reflect.Ptr; k = rtelem.Kind() { rtelem = rtelem.Elem() } var rv9 reflect.Value rvlen := rv.Len() hasLen := containerLenS >= 0 if hasLen && containerLenS > rvlen { halt.errorf("cannot decode into array with length: %v, less than container length: %v", any(rvlen), any(containerLenS)) } var elemReset = d.h.SliceElementReset var rtelemIsPtr bool var rtelemElem reflect.Type var fn *decFnCborBytes builtin := ti.tielem.flagDecBuiltin if builtin { rtelemIsPtr = ti.elemkind == uint8(reflect.Ptr) if rtelemIsPtr { rtelemElem = ti.elem.Elem() } } else { fn = d.fn(rtelem) } for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if ctyp == valueTypeArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= rvlen { d.arrayCannotExpand(rvlen, j+1) d.swallow() continue } rv9 = rvArrayIndex(rv, j, f.ti, false) if elemReset { rvSetZero(rv9) } if d.d.TryNil() { rvSetZero(rv9) } else if builtin { if rtelemIsPtr { if rvIsNil(rv9) { rvSetDirect(rv9, reflect.New(rtelemElem)) } d.decode(rv2i(rv9)) } else { d.decode(rv2i(rvAddr(rv9, ti.tielem.ptr))) } } else { d.decodeValueNoCheckNil(rv9, fn) } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoderCborBytes) kChan(f *decFnInfo, rv reflect.Value) { _ = d.d ti := f.ti if ti.chandir&uint8(reflect.SendDir) == 0 { halt.errorStr("receive-only channel cannot be decoded") } ctyp := d.d.ContainerType() if ctyp == valueTypeBytes || ctyp == valueTypeString { if !(ti.rtid == uint8SliceTypId || ti.elemkind == uint8(reflect.Uint8)) { halt.errorf("bytes/string in stream must decode into slice/array of bytes, not %v", ti.rt) } bs2, _ := d.d.DecodeBytes() irv := rv2i(rv) ch, ok := irv.(chan<- byte) if !ok { ch = irv.(chan byte) } for _, b := range bs2 { ch <- b } return } var rvCanset = rv.CanSet() var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } if containerLenS == 0 { if rvCanset && rvIsNil(rv) { rvSetDirect(rv, reflect.MakeChan(ti.rt, 0)) } if isArray { d.arrayEnd() } else { d.mapEnd() } return } rtelem := ti.elem useTransient := decUseTransient && ti.elemkind != byte(reflect.Ptr) && ti.tielem.flagCanTransient for k := reflect.Kind(ti.elemkind); k == reflect.Ptr; k = rtelem.Kind() { rtelem = rtelem.Elem() } var fn *decFnCborBytes var rvChanged bool var rv0 = rv var rv9 reflect.Value var rvlen int hasLen := containerLenS >= 0 maxInitLen := d.maxInitLen() for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if rvIsNil(rv) { if hasLen { rvlen = int(decInferLen(containerLenS, maxInitLen, uint(ti.elemsize))) } else { rvlen = decDefChanCap } if rvCanset { rv = reflect.MakeChan(ti.rt, rvlen) rvChanged = true } else { halt.errorStr("cannot decode into non-settable chan") } } if fn == nil { fn = d.fn(rtelem) } } if ctyp == valueTypeArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if rv9.IsValid() { rvSetZero(rv9) } else if useTransient { rv9 = d.perType.TransientAddrK(ti.elem, reflect.Kind(ti.elemkind)) } else { rv9 = rvZeroAddrK(ti.elem, reflect.Kind(ti.elemkind)) } if !d.d.TryNil() { d.decodeValueNoCheckNil(rv9, fn) } rv.Send(rv9) } if isArray { d.arrayEnd() } else { d.mapEnd() } if rvChanged { rvSetDirect(rv0, rv) } } func (d *decoderCborBytes) kMap(f *decFnInfo, rv reflect.Value) { _ = d.d containerLen := d.mapStart(d.d.ReadMapStart()) ti := f.ti if rvIsNil(rv) { rvlen := int(decInferLen(containerLen, d.maxInitLen(), uint(ti.keysize+ti.elemsize))) rvSetDirect(rv, makeMapReflect(ti.rt, rvlen)) } if containerLen == 0 { d.mapEnd() return } ktype, vtype := ti.key, ti.elem ktypeId := rt2id(ktype) vtypeKind := reflect.Kind(ti.elemkind) ktypeKind := reflect.Kind(ti.keykind) mparams := getMapReqParams(ti) vtypePtr := vtypeKind == reflect.Ptr ktypePtr := ktypeKind == reflect.Ptr vTransient := decUseTransient && !vtypePtr && ti.tielem.flagCanTransient kTransient := vTransient && !ktypePtr && ti.tikey.flagCanTransient var vtypeElem reflect.Type var keyFn, valFn *decFnCborBytes var ktypeLo, vtypeLo = ktype, vtype if ktypeKind == reflect.Ptr { for ktypeLo = ktype.Elem(); ktypeLo.Kind() == reflect.Ptr; ktypeLo = ktypeLo.Elem() { } } if vtypePtr { vtypeElem = vtype.Elem() for vtypeLo = vtypeElem; vtypeLo.Kind() == reflect.Ptr; vtypeLo = vtypeLo.Elem() { } } rvkMut := !scalarBitset.isset(ti.keykind) rvvMut := !scalarBitset.isset(ti.elemkind) rvvCanNil := isnilBitset.isset(ti.elemkind) var rvk, rvkn, rvv, rvvn, rvva, rvvz reflect.Value var doMapGet, doMapSet bool if !d.h.MapValueReset { if rvvMut && (vtypeKind != reflect.Interface || !d.h.InterfaceReset) { doMapGet = true rvva = mapAddrLoopvarRV(vtype, vtypeKind) } } ktypeIsString := ktypeId == stringTypId ktypeIsIntf := ktypeId == intfTypId hasLen := containerLen >= 0 var kstr2bs []byte var kstr string var mapKeyStringSharesBytesBuf bool var att dBytesAttachState var vElem, kElem reflect.Type kbuiltin := ti.tikey.flagDecBuiltin && ti.keykind != uint8(reflect.Slice) vbuiltin := ti.tielem.flagDecBuiltin if kbuiltin && ktypePtr { kElem = ti.key.Elem() } if vbuiltin && vtypePtr { vElem = ti.elem.Elem() } for j := 0; d.containerNext(j, containerLen, hasLen); j++ { mapKeyStringSharesBytesBuf = false kstr = "" if j == 0 { if kTransient { rvk = d.perType.TransientAddr2K(ktype, ktypeKind) } else { rvk = rvZeroAddrK(ktype, ktypeKind) } if !rvkMut { rvkn = rvk } if !rvvMut { if vTransient { rvvn = d.perType.TransientAddrK(vtype, vtypeKind) } else { rvvn = rvZeroAddrK(vtype, vtypeKind) } } if !ktypeIsString && keyFn == nil { keyFn = d.fn(ktypeLo) } if valFn == nil { valFn = d.fn(vtypeLo) } } else if rvkMut { rvSetZero(rvk) } else { rvk = rvkn } d.mapElemKey(j == 0) if d.d.TryNil() { rvSetZero(rvk) } else if ktypeIsString { kstr2bs, att = d.d.DecodeStringAsBytes() kstr, mapKeyStringSharesBytesBuf = d.bytes2Str(kstr2bs, att) rvSetString(rvk, kstr) } else { if kbuiltin { if ktypePtr { if rvIsNil(rvk) { rvSetDirect(rvk, reflect.New(kElem)) } d.decode(rv2i(rvk)) } else { d.decode(rv2i(rvAddr(rvk, ti.tikey.ptr))) } } else { d.decodeValueNoCheckNil(rvk, keyFn) } if ktypeIsIntf { if rvk2 := rvk.Elem(); rvk2.IsValid() && rvk2.Type() == uint8SliceTyp { kstr2bs = rvGetBytes(rvk2) kstr, mapKeyStringSharesBytesBuf = d.bytes2Str(kstr2bs, dBytesAttachView) rvSetIntf(rvk, rv4istr(kstr)) } } } if mapKeyStringSharesBytesBuf && d.bufio { if ktypeIsString { rvSetString(rvk, d.detach2Str(kstr2bs, att)) } else { rvSetIntf(rvk, rv4istr(d.detach2Str(kstr2bs, att))) } mapKeyStringSharesBytesBuf = false } d.mapElemValue() if d.d.TryNil() { if mapKeyStringSharesBytesBuf { if ktypeIsString { rvSetString(rvk, d.detach2Str(kstr2bs, att)) } else { rvSetIntf(rvk, rv4istr(d.detach2Str(kstr2bs, att))) } } if !rvvz.IsValid() { rvvz = rvZeroK(vtype, vtypeKind) } mapSet(rv, rvk, rvvz, mparams) continue } doMapSet = true if !rvvMut { rvv = rvvn } else if !doMapGet { goto NEW_RVV } else { rvv = mapGet(rv, rvk, rvva, mparams) if !rvv.IsValid() || (rvvCanNil && rvIsNil(rvv)) { goto NEW_RVV } switch vtypeKind { case reflect.Ptr, reflect.Map: doMapSet = false case reflect.Interface: rvvn = rvv.Elem() if k := rvvn.Kind(); (k == reflect.Ptr || k == reflect.Map) && !rvIsNil(rvvn) { d.decodeValueNoCheckNil(rvvn, nil) continue } rvvn = rvZeroAddrK(vtype, vtypeKind) rvSetIntf(rvvn, rvv) rvv = rvvn default: if vTransient { rvvn = d.perType.TransientAddrK(vtype, vtypeKind) } else { rvvn = rvZeroAddrK(vtype, vtypeKind) } rvSetDirect(rvvn, rvv) rvv = rvvn } } goto DECODE_VALUE_NO_CHECK_NIL NEW_RVV: if vtypePtr { rvv = reflect.New(vtypeElem) } else if vTransient { rvv = d.perType.TransientAddrK(vtype, vtypeKind) } else { rvv = rvZeroAddrK(vtype, vtypeKind) } DECODE_VALUE_NO_CHECK_NIL: if doMapSet && mapKeyStringSharesBytesBuf { if ktypeIsString { rvSetString(rvk, d.detach2Str(kstr2bs, att)) } else { rvSetIntf(rvk, rv4istr(d.detach2Str(kstr2bs, att))) } } if vbuiltin { if vtypePtr { if rvIsNil(rvv) { rvSetDirect(rvv, reflect.New(vElem)) } d.decode(rv2i(rvv)) } else { d.decode(rv2i(rvAddr(rvv, ti.tielem.ptr))) } } else { d.decodeValueNoCheckNil(rvv, valFn) } if doMapSet { mapSet(rv, rvk, rvv, mparams) } } d.mapEnd() } func (d *decoderCborBytes) init(h Handle) { initHandle(h) callMake(&d.d) d.hh = h d.h = h.getBasicHandle() d.err = errDecoderNotInitialized if d.h.InternString && d.is == nil { d.is.init() } d.fp = d.d.init(h, &d.decoderBase, d).(*fastpathDsCborBytes) if d.bytes { d.rtidFn = &d.h.rtidFnsDecBytes d.rtidFnNoExt = &d.h.rtidFnsDecNoExtBytes } else { d.bufio = d.h.ReaderBufferSize > 0 d.rtidFn = &d.h.rtidFnsDecIO d.rtidFnNoExt = &d.h.rtidFnsDecNoExtIO } d.reset() } func (d *decoderCborBytes) reset() { d.d.reset() d.err = nil d.c = 0 d.depth = 0 d.calls = 0 d.maxdepth = decDefMaxDepth if d.h.MaxDepth > 0 { d.maxdepth = d.h.MaxDepth } d.mtid = 0 d.stid = 0 d.mtr = false d.str = false if d.h.MapType != nil { d.mtid = rt2id(d.h.MapType) _, d.mtr = fastpathAvIndex(d.mtid) } if d.h.SliceType != nil { d.stid = rt2id(d.h.SliceType) _, d.str = fastpathAvIndex(d.stid) } } func (d *decoderCborBytes) Reset(r io.Reader) { if d.bytes { halt.onerror(errDecNoResetBytesWithReader) } d.reset() if r == nil { r = &eofReader } d.d.resetInIO(r) } func (d *decoderCborBytes) ResetBytes(in []byte) { if !d.bytes { halt.onerror(errDecNoResetReaderWithBytes) } d.resetBytes(in) } func (d *decoderCborBytes) resetBytes(in []byte) { d.reset() if in == nil { in = zeroByteSlice } d.d.resetInBytes(in) } func (d *decoderCborBytes) ResetString(s string) { d.ResetBytes(bytesView(s)) } func (d *decoderCborBytes) Decode(v interface{}) (err error) { defer panicValToErr(d, callRecoverSentinel, &d.err, &err, debugging) d.mustDecode(v) return } func (d *decoderCborBytes) MustDecode(v interface{}) { defer panicValToErr(d, callRecoverSentinel, &d.err, nil, true) d.mustDecode(v) return } func (d *decoderCborBytes) mustDecode(v interface{}) { halt.onerror(d.err) if d.hh == nil { halt.onerror(errNoFormatHandle) } d.calls++ d.decode(v) d.calls-- } func (d *decoderCborBytes) Release() {} func (d *decoderCborBytes) swallow() { d.d.nextValueBytes() } func (d *decoderCborBytes) nextValueBytes() []byte { return d.d.nextValueBytes() } func (d *decoderCborBytes) decode(iv interface{}) { _ = d.d rv, ok := isNil(iv, true) if ok { halt.onerror(errCannotDecodeIntoNil) } switch v := iv.(type) { case *string: *v = d.detach2Str(d.d.DecodeStringAsBytes()) case *bool: *v = d.d.DecodeBool() case *int: *v = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) case *int8: *v = int8(chkOvf.IntV(d.d.DecodeInt64(), 8)) case *int16: *v = int16(chkOvf.IntV(d.d.DecodeInt64(), 16)) case *int32: *v = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) case *int64: *v = d.d.DecodeInt64() case *uint: *v = uint(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize)) case *uint8: *v = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) case *uint16: *v = uint16(chkOvf.UintV(d.d.DecodeUint64(), 16)) case *uint32: *v = uint32(chkOvf.UintV(d.d.DecodeUint64(), 32)) case *uint64: *v = d.d.DecodeUint64() case *uintptr: *v = uintptr(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize)) case *float32: *v = d.d.DecodeFloat32() case *float64: *v = d.d.DecodeFloat64() case *complex64: *v = complex(d.d.DecodeFloat32(), 0) case *complex128: *v = complex(d.d.DecodeFloat64(), 0) case *[]byte: *v, _ = d.decodeBytesInto(*v, false) case []byte: d.decodeBytesInto(v[:len(v):len(v)], true) case *time.Time: *v = d.d.DecodeTime() case *Raw: *v = d.rawBytes() case *interface{}: d.decodeValue(rv4iptr(v), nil) case reflect.Value: if ok, _ = isDecodeable(v); !ok { d.haltAsNotDecodeable(v) } d.decodeValue(v, nil) default: if skipFastpathTypeSwitchInDirectCall || !d.dh.fastpathDecodeTypeSwitch(iv, d) { if !rv.IsValid() { rv = reflect.ValueOf(iv) } if ok, _ = isDecodeable(rv); !ok { d.haltAsNotDecodeable(rv) } d.decodeValue(rv, nil) } } } func (d *decoderCborBytes) decodeValue(rv reflect.Value, fn *decFnCborBytes) { if d.d.TryNil() { decSetNonNilRV2Zero(rv) } else { d.decodeValueNoCheckNil(rv, fn) } } func (d *decoderCborBytes) decodeValueNoCheckNil(rv reflect.Value, fn *decFnCborBytes) { var rvp reflect.Value var rvpValid bool PTR: if rv.Kind() == reflect.Ptr { rvpValid = true if rvIsNil(rv) { rvSetDirect(rv, reflect.New(rv.Type().Elem())) } rvp = rv rv = rv.Elem() goto PTR } if fn == nil { fn = d.fn(rv.Type()) } if fn.i.addrD { if rvpValid { rv = rvp } else if rv.CanAddr() { rv = rvAddr(rv, fn.i.ti.ptr) } else if fn.i.addrDf { halt.errorStr("cannot decode into a non-pointer value") } } fn.fd(d, &fn.i, rv) } func (d *decoderCborBytes) decodeAs(v interface{}, t reflect.Type, ext bool) { if ext { d.decodeValue(baseRV(v), d.fn(t)) } else { d.decodeValue(baseRV(v), d.fnNoExt(t)) } } func (d *decoderCborBytes) structFieldNotFound(index int, rvkencname string) { if d.h.ErrorIfNoField { if index >= 0 { halt.errorInt("no matching struct field found when decoding stream array at index ", int64(index)) } else if rvkencname != "" { halt.errorStr2("no matching struct field found when decoding stream map with key ", rvkencname) } } d.swallow() } func (d *decoderCborBytes) decodeBytesInto(out []byte, mustFit bool) (v []byte, state dBytesIntoState) { v, att := d.d.DecodeBytes() if cap(v) == 0 || (att >= dBytesAttachViewZerocopy && !mustFit) { return } if len(v) == 0 { v = zeroByteSlice return } if len(out) == len(v) { state = dBytesIntoParamOut } else if cap(out) >= len(v) { out = out[:len(v)] state = dBytesIntoParamOutSlice } else if mustFit { halt.errorf("bytes capacity insufficient for decoded bytes: got/expected: %d/%d", len(v), len(out)) } else { out = make([]byte, len(v)) state = dBytesIntoNew } copy(out, v) v = out return } func (d *decoderCborBytes) rawBytes() (v []byte) { v = d.d.nextValueBytes() if d.bytes && !d.h.ZeroCopy { vv := make([]byte, len(v)) copy(vv, v) v = vv } return } func (d *decoderCborBytes) wrapErr(v error, err *error) { *err = wrapCodecErr(v, d.hh.Name(), d.d.NumBytesRead(), false) } func (d *decoderCborBytes) NumBytesRead() int { return d.d.NumBytesRead() } func (d *decoderCborBytes) containerNext(j, containerLen int, hasLen bool) bool { if hasLen { return j < containerLen } return !d.d.CheckBreak() } func (d *decoderCborBytes) mapElemKey(firstTime bool) { d.d.ReadMapElemKey(firstTime) d.c = containerMapKey } func (d *decoderCborBytes) mapElemValue() { d.d.ReadMapElemValue() d.c = containerMapValue } func (d *decoderCborBytes) mapEnd() { d.d.ReadMapEnd() d.depthDecr() d.c = 0 } func (d *decoderCborBytes) arrayElem(firstTime bool) { d.d.ReadArrayElem(firstTime) d.c = containerArrayElem } func (d *decoderCborBytes) arrayEnd() { d.d.ReadArrayEnd() d.depthDecr() d.c = 0 } func (d *decoderCborBytes) interfaceExtConvertAndDecode(v interface{}, ext InterfaceExt) { var vv interface{} d.decode(&vv) ext.UpdateExt(v, vv) } func (d *decoderCborBytes) fn(t reflect.Type) *decFnCborBytes { return d.dh.decFnViaBH(t, d.rtidFn, d.h, d.fp, false) } func (d *decoderCborBytes) fnNoExt(t reflect.Type) *decFnCborBytes { return d.dh.decFnViaBH(t, d.rtidFnNoExt, d.h, d.fp, true) } func (helperDecDriverCborBytes) newDecoderBytes(in []byte, h Handle) *decoderCborBytes { var c1 decoderCborBytes c1.bytes = true c1.init(h) c1.ResetBytes(in) return &c1 } func (helperDecDriverCborBytes) newDecoderIO(in io.Reader, h Handle) *decoderCborBytes { var c1 decoderCborBytes c1.init(h) c1.Reset(in) return &c1 } func (helperDecDriverCborBytes) decFnloadFastpathUnderlying(ti *typeInfo, fp *fastpathDsCborBytes) (f *fastpathDCborBytes, u reflect.Type) { rtid := rt2id(ti.fastpathUnderlying) idx, ok := fastpathAvIndex(rtid) if !ok { return } f = &fp[idx] if uint8(reflect.Array) == ti.kind { u = reflect.ArrayOf(ti.rt.Len(), ti.elem) } else { u = f.rt } return } func (helperDecDriverCborBytes) decFindRtidFn(s []decRtidFnCborBytes, rtid uintptr) (i uint, fn *decFnCborBytes) { var h uint var j = uint(len(s)) LOOP: if i < j { h = (i + j) >> 1 if s[h].rtid < rtid { i = h + 1 } else { j = h } goto LOOP } if i < uint(len(s)) && s[i].rtid == rtid { fn = s[i].fn } return } func (helperDecDriverCborBytes) decFromRtidFnSlice(fns *atomicRtidFnSlice) (s []decRtidFnCborBytes) { if v := fns.load(); v != nil { s = *(lowLevelToPtr[[]decRtidFnCborBytes](v)) } return } func (dh helperDecDriverCborBytes) decFnViaBH(rt reflect.Type, fns *atomicRtidFnSlice, x *BasicHandle, fp *fastpathDsCborBytes, checkExt bool) (fn *decFnCborBytes) { return dh.decFnVia(rt, fns, x.typeInfos(), &x.mu, x.extHandle, fp, checkExt, x.CheckCircularRef, x.timeBuiltin, x.binaryHandle, x.jsonHandle) } func (dh helperDecDriverCborBytes) decFnVia(rt reflect.Type, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathDsCborBytes, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *decFnCborBytes) { rtid := rt2id(rt) var sp []decRtidFnCborBytes = dh.decFromRtidFnSlice(fns) if sp != nil { _, fn = dh.decFindRtidFn(sp, rtid) } if fn == nil { fn = dh.decFnViaLoader(rt, rtid, fns, tinfos, mu, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) } return } func (dh helperDecDriverCborBytes) decFnViaLoader(rt reflect.Type, rtid uintptr, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathDsCborBytes, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *decFnCborBytes) { fn = dh.decFnLoad(rt, rtid, tinfos, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) var sp []decRtidFnCborBytes mu.Lock() sp = dh.decFromRtidFnSlice(fns) if sp == nil { sp = []decRtidFnCborBytes{{rtid, fn}} fns.store(ptrToLowLevel(&sp)) } else { idx, fn2 := dh.decFindRtidFn(sp, rtid) if fn2 == nil { sp2 := make([]decRtidFnCborBytes, len(sp)+1) copy(sp2[idx+1:], sp[idx:]) copy(sp2, sp[:idx]) sp2[idx] = decRtidFnCborBytes{rtid, fn} fns.store(ptrToLowLevel(&sp2)) } } mu.Unlock() return } func (dh helperDecDriverCborBytes) decFnLoad(rt reflect.Type, rtid uintptr, tinfos *TypeInfos, exth extHandle, fp *fastpathDsCborBytes, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *decFnCborBytes) { fn = new(decFnCborBytes) fi := &(fn.i) ti := tinfos.get(rtid, rt) fi.ti = ti rk := reflect.Kind(ti.kind) fi.addrDf = true if rtid == timeTypId && timeBuiltin { fn.fd = (*decoderCborBytes).kTime } else if rtid == rawTypId { fn.fd = (*decoderCborBytes).raw } else if rtid == rawExtTypId { fn.fd = (*decoderCborBytes).rawExt fi.addrD = true } else if xfFn := exth.getExt(rtid, checkExt); xfFn != nil { fi.xfTag, fi.xfFn = xfFn.tag, xfFn.ext fn.fd = (*decoderCborBytes).ext fi.addrD = true } else if ti.flagSelfer || ti.flagSelferPtr { fn.fd = (*decoderCborBytes).selferUnmarshal fi.addrD = ti.flagSelferPtr } else if supportMarshalInterfaces && binaryEncoding && (ti.flagBinaryMarshaler || ti.flagBinaryMarshalerPtr) && (ti.flagBinaryUnmarshaler || ti.flagBinaryUnmarshalerPtr) { fn.fd = (*decoderCborBytes).binaryUnmarshal fi.addrD = ti.flagBinaryUnmarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && json && (ti.flagJsonMarshaler || ti.flagJsonMarshalerPtr) && (ti.flagJsonUnmarshaler || ti.flagJsonUnmarshalerPtr) { fn.fd = (*decoderCborBytes).jsonUnmarshal fi.addrD = ti.flagJsonUnmarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && (ti.flagTextMarshaler || ti.flagTextMarshalerPtr) && (ti.flagTextUnmarshaler || ti.flagTextUnmarshalerPtr) { fn.fd = (*decoderCborBytes).textUnmarshal fi.addrD = ti.flagTextUnmarshalerPtr } else { if fastpathEnabled && (rk == reflect.Map || rk == reflect.Slice || rk == reflect.Array) { var rtid2 uintptr if !ti.flagHasPkgPath { rtid2 = rtid if rk == reflect.Array { rtid2 = rt2id(ti.key) } if idx, ok := fastpathAvIndex(rtid2); ok { fn.fd = fp[idx].decfn fi.addrD = true fi.addrDf = false if rk == reflect.Array { fi.addrD = false } } } else { xfe, xrt := dh.decFnloadFastpathUnderlying(ti, fp) if xfe != nil { xfnf2 := xfe.decfn if rk == reflect.Array { fi.addrD = false fn.fd = func(d *decoderCborBytes, xf *decFnInfo, xrv reflect.Value) { xfnf2(d, xf, rvConvert(xrv, xrt)) } } else { fi.addrD = true fi.addrDf = false xptr2rt := reflect.PointerTo(xrt) fn.fd = func(d *decoderCborBytes, xf *decFnInfo, xrv reflect.Value) { if xrv.Kind() == reflect.Ptr { xfnf2(d, xf, rvConvert(xrv, xptr2rt)) } else { xfnf2(d, xf, rvConvert(xrv, xrt)) } } } } } } if fn.fd == nil { switch rk { case reflect.Bool: fn.fd = (*decoderCborBytes).kBool case reflect.String: fn.fd = (*decoderCborBytes).kString case reflect.Int: fn.fd = (*decoderCborBytes).kInt case reflect.Int8: fn.fd = (*decoderCborBytes).kInt8 case reflect.Int16: fn.fd = (*decoderCborBytes).kInt16 case reflect.Int32: fn.fd = (*decoderCborBytes).kInt32 case reflect.Int64: fn.fd = (*decoderCborBytes).kInt64 case reflect.Uint: fn.fd = (*decoderCborBytes).kUint case reflect.Uint8: fn.fd = (*decoderCborBytes).kUint8 case reflect.Uint16: fn.fd = (*decoderCborBytes).kUint16 case reflect.Uint32: fn.fd = (*decoderCborBytes).kUint32 case reflect.Uint64: fn.fd = (*decoderCborBytes).kUint64 case reflect.Uintptr: fn.fd = (*decoderCborBytes).kUintptr case reflect.Float32: fn.fd = (*decoderCborBytes).kFloat32 case reflect.Float64: fn.fd = (*decoderCborBytes).kFloat64 case reflect.Complex64: fn.fd = (*decoderCborBytes).kComplex64 case reflect.Complex128: fn.fd = (*decoderCborBytes).kComplex128 case reflect.Chan: fn.fd = (*decoderCborBytes).kChan case reflect.Slice: fn.fd = (*decoderCborBytes).kSlice case reflect.Array: fi.addrD = false fn.fd = (*decoderCborBytes).kArray case reflect.Struct: if ti.simple { fn.fd = (*decoderCborBytes).kStructSimple } else { fn.fd = (*decoderCborBytes).kStruct } case reflect.Map: fn.fd = (*decoderCborBytes).kMap case reflect.Interface: fn.fd = (*decoderCborBytes).kInterface default: fn.fd = (*decoderCborBytes).kErr } } } return } func (e *cborEncDriverBytes) EncodeNil() { e.w.writen1(cborBdNil) } func (e *cborEncDriverBytes) EncodeBool(b bool) { if b { e.w.writen1(cborBdTrue) } else { e.w.writen1(cborBdFalse) } } func (e *cborEncDriverBytes) EncodeFloat32(f float32) { b := math.Float32bits(f) if e.h.OptimumSize { if h := floatToHalfFloatBits(b); halfFloatToFloatBits(h) == b { e.w.writen1(cborBdFloat16) e.w.writen2(bigen.PutUint16(h)) return } } e.w.writen1(cborBdFloat32) e.w.writen4(bigen.PutUint32(b)) } func (e *cborEncDriverBytes) EncodeFloat64(f float64) { if e.h.OptimumSize { if f32 := float32(f); float64(f32) == f { e.EncodeFloat32(f32) return } } e.w.writen1(cborBdFloat64) e.w.writen8(bigen.PutUint64(math.Float64bits(f))) } func (e *cborEncDriverBytes) encUint(v uint64, bd byte) { if v <= 0x17 { e.w.writen1(byte(v) + bd) } else if v <= math.MaxUint8 { e.w.writen2(bd+0x18, uint8(v)) } else if v <= math.MaxUint16 { e.w.writen1(bd + 0x19) e.w.writen2(bigen.PutUint16(uint16(v))) } else if v <= math.MaxUint32 { e.w.writen1(bd + 0x1a) e.w.writen4(bigen.PutUint32(uint32(v))) } else { e.w.writen1(bd + 0x1b) e.w.writen8(bigen.PutUint64(v)) } } func (e *cborEncDriverBytes) EncodeInt(v int64) { if v < 0 { e.encUint(uint64(-1-v), cborBaseNegInt) } else { e.encUint(uint64(v), cborBaseUint) } } func (e *cborEncDriverBytes) EncodeUint(v uint64) { e.encUint(v, cborBaseUint) } func (e *cborEncDriverBytes) encLen(bd byte, length int) { e.encUint(uint64(length), bd) } func (e *cborEncDriverBytes) EncodeTime(t time.Time) { if t.IsZero() { e.EncodeNil() } else if e.h.TimeRFC3339 { e.encUint(0, cborBaseTag) e.encStringBytesS(cborBaseString, stringView(t.AppendFormat(e.b[:0], time.RFC3339Nano))) } else { e.encUint(1, cborBaseTag) t = t.UTC().Round(time.Microsecond) sec, nsec := t.Unix(), uint64(t.Nanosecond()) if nsec == 0 { e.EncodeInt(sec) } else { e.EncodeFloat64(float64(sec) + float64(nsec)/1e9) } } } func (e *cborEncDriverBytes) EncodeExt(rv interface{}, basetype reflect.Type, xtag uint64, ext Ext) { e.encUint(uint64(xtag), cborBaseTag) if ext == SelfExt { e.enc.encodeAs(rv, basetype, false) } else if v := ext.ConvertExt(rv); v == nil { e.writeNilBytes() } else { e.enc.encodeI(v) } } func (e *cborEncDriverBytes) EncodeRawExt(re *RawExt) { e.encUint(uint64(re.Tag), cborBaseTag) if re.Data != nil { e.w.writeb(re.Data) } else if re.Value != nil { e.enc.encodeI(re.Value) } else { e.EncodeNil() } } func (e *cborEncDriverBytes) WriteArrayEmpty() { if e.h.IndefiniteLength { e.w.writen2(cborBdIndefiniteArray, cborBdBreak) } else { e.w.writen1(cborBaseArray) } } func (e *cborEncDriverBytes) WriteMapEmpty() { if e.h.IndefiniteLength { e.w.writen2(cborBdIndefiniteMap, cborBdBreak) } else { e.w.writen1(cborBaseMap) } } func (e *cborEncDriverBytes) WriteArrayStart(length int) { if e.h.IndefiniteLength { e.w.writen1(cborBdIndefiniteArray) } else { e.encLen(cborBaseArray, length) } } func (e *cborEncDriverBytes) WriteMapStart(length int) { if e.h.IndefiniteLength { e.w.writen1(cborBdIndefiniteMap) } else { e.encLen(cborBaseMap, length) } } func (e *cborEncDriverBytes) WriteMapEnd() { if e.h.IndefiniteLength { e.w.writen1(cborBdBreak) } } func (e *cborEncDriverBytes) WriteArrayEnd() { if e.h.IndefiniteLength { e.w.writen1(cborBdBreak) } } func (e *cborEncDriverBytes) EncodeString(v string) { bb := cborBaseString if e.h.StringToRaw { bb = cborBaseBytes } e.encStringBytesS(bb, v) } func (e *cborEncDriverBytes) EncodeStringNoEscape4Json(v string) { e.EncodeString(v) } func (e *cborEncDriverBytes) EncodeStringBytesRaw(v []byte) { e.encStringBytesS(cborBaseBytes, stringView(v)) } func (e *cborEncDriverBytes) encStringBytesS(bb byte, v string) { if e.h.IndefiniteLength { if bb == cborBaseBytes { e.w.writen1(cborBdIndefiniteBytes) } else { e.w.writen1(cborBdIndefiniteString) } vlen := uint(len(v)) n := max(4, min(vlen/4, 1024)) for i := uint(0); i < vlen; { i2 := i + n if i2 >= vlen { i2 = vlen } v2 := v[i:i2] e.encLen(bb, len(v2)) e.w.writestr(v2) i = i2 } e.w.writen1(cborBdBreak) } else { e.encLen(bb, len(v)) e.w.writestr(v) } } func (e *cborEncDriverBytes) EncodeBytes(v []byte) { if v == nil { e.writeNilBytes() return } e.EncodeStringBytesRaw(v) } func (e *cborEncDriverBytes) writeNilOr(v byte) { if !e.h.NilCollectionToZeroLength { v = cborBdNil } e.w.writen1(v) } func (e *cborEncDriverBytes) writeNilArray() { e.writeNilOr(cborBaseArray) } func (e *cborEncDriverBytes) writeNilMap() { e.writeNilOr(cborBaseMap) } func (e *cborEncDriverBytes) writeNilBytes() { e.writeNilOr(cborBaseBytes) } func (d *cborDecDriverBytes) readNextBd() { d.bd = d.r.readn1() d.bdRead = true } func (d *cborDecDriverBytes) advanceNil() (null bool) { if !d.bdRead { d.readNextBd() } if d.bd == cborBdNil || d.bd == cborBdUndefined { d.bdRead = false return true } return } func (d *cborDecDriverBytes) TryNil() bool { return d.advanceNil() } func (d *cborDecDriverBytes) skipTags() { for d.bd>>5 == cborMajorTag { d.decUint() d.bd = d.r.readn1() } } func (d *cborDecDriverBytes) ContainerType() (vt valueType) { if !d.bdRead { d.readNextBd() } if d.h.SkipUnexpectedTags { d.skipTags() } if d.bd == cborBdNil { d.bdRead = false return valueTypeNil } major := d.bd >> 5 if major == cborMajorBytes { return valueTypeBytes } else if major == cborMajorString { return valueTypeString } else if major == cborMajorArray { return valueTypeArray } else if major == cborMajorMap { return valueTypeMap } return valueTypeUnset } func (d *cborDecDriverBytes) CheckBreak() (v bool) { if !d.bdRead { d.readNextBd() } if d.bd == cborBdBreak { d.bdRead = false v = true } return } func (d *cborDecDriverBytes) decUint() (ui uint64) { v := d.bd & 0x1f if v <= 0x17 { ui = uint64(v) } else if v == 0x18 { ui = uint64(d.r.readn1()) } else if v == 0x19 { ui = uint64(bigen.Uint16(d.r.readn2())) } else if v == 0x1a { ui = uint64(bigen.Uint32(d.r.readn4())) } else if v == 0x1b { ui = uint64(bigen.Uint64(d.r.readn8())) } else { halt.errorf("invalid descriptor decoding uint: %x/%s (%x)", d.bd, cbordesc(d.bd), v) } return } func (d *cborDecDriverBytes) decLen() int { return int(d.decUint()) } func (d *cborDecDriverBytes) decFloat() (f float64, ok bool) { ok = true switch d.bd { case cborBdFloat16: f = float64(math.Float32frombits(halfFloatToFloatBits(bigen.Uint16(d.r.readn2())))) case cborBdFloat32: f = float64(math.Float32frombits(bigen.Uint32(d.r.readn4()))) case cborBdFloat64: f = math.Float64frombits(bigen.Uint64(d.r.readn8())) default: if d.bd>>5 == cborMajorTag { switch d.bd & 0x1f { case 2: f = d.decTagBigIntAsFloat(false) case 3: f = d.decTagBigIntAsFloat(true) case 4: f = d.decTagBigFloatAsFloat(true) case 5: f = d.decTagBigFloatAsFloat(false) default: ok = false } } else { ok = false } } return } func (d *cborDecDriverBytes) decInteger() (ui uint64, neg, ok bool) { ok = true switch d.bd >> 5 { case cborMajorUint: ui = d.decUint() case cborMajorNegInt: ui = d.decUint() neg = true default: ok = false } return } func (d *cborDecDriverBytes) DecodeInt64() (i int64) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } v1, v2, v3 := d.decInteger() i = decNegintPosintFloatNumberHelper{d}.int64(v1, v2, v3, true) d.bdRead = false return } func (d *cborDecDriverBytes) DecodeUint64() (ui uint64) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } ui = decNegintPosintFloatNumberHelper{d}.uint64(d.decInteger()) d.bdRead = false return } func (d *cborDecDriverBytes) DecodeFloat64() (f float64) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } v1, v2 := d.decFloat() f = decNegintPosintFloatNumberHelper{d}.float64(v1, v2, true) d.bdRead = false return } func (d *cborDecDriverBytes) DecodeBool() (b bool) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } if d.bd == cborBdTrue { b = true } else if d.bd == cborBdFalse { } else { halt.errorf("not bool - %s %x/%s", msgBadDesc, d.bd, cbordesc(d.bd)) } d.bdRead = false return } func (d *cborDecDriverBytes) ReadMapStart() (length int) { if d.advanceNil() { return containerLenNil } if d.h.SkipUnexpectedTags { d.skipTags() } d.bdRead = false if d.bd == cborBdIndefiniteMap { return containerLenUnknown } if d.bd>>5 != cborMajorMap { halt.errorf("error reading map; got major type: %x, expected %x/%s", d.bd>>5, cborMajorMap, cbordesc(d.bd)) } return d.decLen() } func (d *cborDecDriverBytes) ReadArrayStart() (length int) { if d.advanceNil() { return containerLenNil } if d.h.SkipUnexpectedTags { d.skipTags() } d.bdRead = false if d.bd == cborBdIndefiniteArray { return containerLenUnknown } if d.bd>>5 != cborMajorArray { halt.errorf("invalid array; got major type: %x, expect: %x/%s", d.bd>>5, cborMajorArray, cbordesc(d.bd)) } return d.decLen() } func (d *cborDecDriverBytes) DecodeBytes() (bs []byte, state dBytesAttachState) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } fnEnsureNonNilBytes := func() { if bs == nil { bs = zeroByteSlice state = dBytesDetach } } if d.bd == cborBdIndefiniteBytes || d.bd == cborBdIndefiniteString { major := d.bd >> 5 val4str := d.h.ValidateUnicode && major == cborMajorString bs = d.d.buf[:0] d.bdRead = false for !d.CheckBreak() { if d.bd>>5 != major { const msg = "malformed indefinite string/bytes %x (%s); " + "contains chunk with major type %v, expected %v" halt.errorf(msg, d.bd, cbordesc(d.bd), d.bd>>5, major) } n := uint(d.decLen()) bs = append(bs, d.r.readx(n)...) d.bdRead = false if val4str && !utf8.Valid(bs[len(bs)-int(n):]) { const msg = "indefinite-length text string contains chunk " + "that is not a valid utf-8 sequence: 0x%x" halt.errorf(msg, bs[len(bs)-int(n):]) } } d.bdRead = false d.d.buf = bs state = dBytesAttachBuffer fnEnsureNonNilBytes() return } if d.bd == cborBdIndefiniteArray { d.bdRead = false bs = d.d.buf[:0] for !d.CheckBreak() { bs = append(bs, uint8(chkOvf.UintV(d.DecodeUint64(), 8))) } d.d.buf = bs state = dBytesAttachBuffer fnEnsureNonNilBytes() return } var cond bool if d.bd>>5 == cborMajorArray { d.bdRead = false slen := d.decLen() bs, cond = usableByteSlice(d.d.buf, slen) for i := 0; i < len(bs); i++ { bs[i] = uint8(chkOvf.UintV(d.DecodeUint64(), 8)) } for i := len(bs); i < slen; i++ { bs = append(bs, uint8(chkOvf.UintV(d.DecodeUint64(), 8))) } if cond { d.d.buf = bs } state = dBytesAttachBuffer fnEnsureNonNilBytes() return } clen := d.decLen() d.bdRead = false bs, cond = d.r.readxb(uint(clen)) state = d.d.attachState(cond) return } func (d *cborDecDriverBytes) DecodeStringAsBytes() (out []byte, state dBytesAttachState) { out, state = d.DecodeBytes() if d.h.ValidateUnicode && !utf8.Valid(out) { halt.errorf("DecodeStringAsBytes: invalid UTF-8: %s", out) } return } func (d *cborDecDriverBytes) DecodeTime() (t time.Time) { if d.advanceNil() { return } if d.bd>>5 != cborMajorTag { halt.errorf("error reading tag; expected major type: %x, got: %x", cborMajorTag, d.bd>>5) } xtag := d.decUint() d.bdRead = false return d.decodeTime(xtag) } func (d *cborDecDriverBytes) decodeTime(xtag uint64) (t time.Time) { switch xtag { case 0: var err error t, err = time.Parse(time.RFC3339, stringView(bytesOKs(d.DecodeStringAsBytes()))) halt.onerror(err) case 1: f1, f2 := math.Modf(d.DecodeFloat64()) t = time.Unix(int64(f1), int64(f2*1e9)) default: halt.errorf("invalid tag for time.Time - expecting 0 or 1, got 0x%x", xtag) } t = t.UTC().Round(time.Microsecond) return } func (d *cborDecDriverBytes) preDecodeExt(checkTag bool, xtag uint64) (realxtag uint64, ok bool) { if d.advanceNil() { return } if d.bd>>5 != cborMajorTag { halt.errorf("error reading tag; expected major type: %x, got: %x", cborMajorTag, d.bd>>5) } realxtag = d.decUint() d.bdRead = false if checkTag && xtag != realxtag { halt.errorf("Wrong extension tag. Got %b. Expecting: %v", realxtag, xtag) } ok = true return } func (d *cborDecDriverBytes) DecodeRawExt(re *RawExt) { if realxtag, ok := d.preDecodeExt(false, 0); ok { re.Tag = realxtag d.dec.decode(&re.Value) d.bdRead = false } } func (d *cborDecDriverBytes) DecodeExt(rv interface{}, basetype reflect.Type, xtag uint64, ext Ext) { if _, ok := d.preDecodeExt(true, xtag); ok { if ext == SelfExt { d.dec.decodeAs(rv, basetype, false) } else { d.dec.interfaceExtConvertAndDecode(rv, ext) } d.bdRead = false } } func (d *cborDecDriverBytes) decTagBigIntAsFloat(neg bool) (f float64) { bs, _ := d.DecodeBytes() bi := new(big.Int).SetBytes(bs) if neg { bi0 := bi bi = new(big.Int).Sub(big.NewInt(-1), bi0) } f, _ = bi.Float64() return } func (d *cborDecDriverBytes) decTagBigFloatAsFloat(decimal bool) (f float64) { if nn := d.r.readn1(); nn != 82 { halt.errorf("(%d) decoding decimal/big.Float: expected 2 numbers", nn) } exp := d.DecodeInt64() mant := d.DecodeInt64() if decimal { rf := readFloatResult{exp: int8(exp)} if mant >= 0 { rf.mantissa = uint64(mant) } else { rf.neg = true rf.mantissa = uint64(-mant) } f, _ = parseFloat64_reader(rf) } else { bfm := new(big.Float).SetPrec(64).SetInt64(mant) bf := new(big.Float).SetPrec(64).SetMantExp(bfm, int(exp)) f, _ = bf.Float64() } return } func (d *cborDecDriverBytes) DecodeNaked() { if !d.bdRead { d.readNextBd() } n := d.d.naked() var decodeFurther bool switch d.bd >> 5 { case cborMajorUint: if d.h.SignedInteger { n.v = valueTypeInt n.i = d.DecodeInt64() } else { n.v = valueTypeUint n.u = d.DecodeUint64() } case cborMajorNegInt: n.v = valueTypeInt n.i = d.DecodeInt64() case cborMajorBytes: d.d.fauxUnionReadRawBytes(d, false, d.h.RawToString) case cborMajorString: n.v = valueTypeString n.s = d.d.detach2Str(d.DecodeStringAsBytes()) case cborMajorArray: n.v = valueTypeArray decodeFurther = true case cborMajorMap: n.v = valueTypeMap decodeFurther = true case cborMajorTag: n.v = valueTypeExt n.u = d.decUint() d.bdRead = false n.l = nil xx := d.h.getExtForTag(n.u) if xx == nil { switch n.u { case 0, 1: n.v = valueTypeTime n.t = d.decodeTime(n.u) case 2: n.f = d.decTagBigIntAsFloat(false) n.v = valueTypeFloat case 3: n.f = d.decTagBigIntAsFloat(true) n.v = valueTypeFloat case 4: n.f = d.decTagBigFloatAsFloat(true) n.v = valueTypeFloat case 5: n.f = d.decTagBigFloatAsFloat(false) n.v = valueTypeFloat case 55799: d.DecodeNaked() default: if d.h.SkipUnexpectedTags { d.DecodeNaked() } } return } case cborMajorSimpleOrFloat: switch d.bd { case cborBdNil, cborBdUndefined: n.v = valueTypeNil case cborBdFalse: n.v = valueTypeBool n.b = false case cborBdTrue: n.v = valueTypeBool n.b = true case cborBdFloat16, cborBdFloat32, cborBdFloat64: n.v = valueTypeFloat n.f = d.DecodeFloat64() default: halt.errorf("decodeNaked: Unrecognized d.bd: 0x%x", d.bd) } default: halt.errorf("decodeNaked: Unrecognized d.bd: 0x%x", d.bd) } if !decodeFurther { d.bdRead = false } } func (d *cborDecDriverBytes) uintBytes() (v []byte, ui uint64) { switch vv := d.bd & 0x1f; vv { case 0x18: v = d.r.readx(1) ui = uint64(v[0]) case 0x19: v = d.r.readx(2) ui = uint64(bigenstd.Uint16(v)) case 0x1a: v = d.r.readx(4) ui = uint64(bigenstd.Uint32(v)) case 0x1b: v = d.r.readx(8) ui = uint64(bigenstd.Uint64(v)) default: if vv > 0x1b { halt.errorf("invalid descriptor decoding uint: %x/%s", d.bd, cbordesc(d.bd)) } ui = uint64(vv) } return } func (d *cborDecDriverBytes) nextValueBytes() (v []byte) { if !d.bdRead { d.readNextBd() } d.r.startRecording() d.nextValueBytesBdReadR() v = d.r.stopRecording() d.bdRead = false return } func (d *cborDecDriverBytes) nextValueBytesBdReadR() { var ui uint64 switch d.bd >> 5 { case cborMajorUint, cborMajorNegInt: d.uintBytes() case cborMajorString, cborMajorBytes: if d.bd == cborBdIndefiniteBytes || d.bd == cborBdIndefiniteString { for { d.readNextBd() if d.bd == cborBdBreak { break } _, ui = d.uintBytes() d.r.skip(uint(ui)) } } else { _, ui = d.uintBytes() d.r.skip(uint(ui)) } case cborMajorArray: if d.bd == cborBdIndefiniteArray { for { d.readNextBd() if d.bd == cborBdBreak { break } d.nextValueBytesBdReadR() } } else { _, ui = d.uintBytes() for i := uint64(0); i < ui; i++ { d.readNextBd() d.nextValueBytesBdReadR() } } case cborMajorMap: if d.bd == cborBdIndefiniteMap { for { d.readNextBd() if d.bd == cborBdBreak { break } d.nextValueBytesBdReadR() d.readNextBd() d.nextValueBytesBdReadR() } } else { _, ui = d.uintBytes() for i := uint64(0); i < ui; i++ { d.readNextBd() d.nextValueBytesBdReadR() d.readNextBd() d.nextValueBytesBdReadR() } } case cborMajorTag: d.uintBytes() d.readNextBd() d.nextValueBytesBdReadR() case cborMajorSimpleOrFloat: switch d.bd { case cborBdNil, cborBdUndefined, cborBdFalse, cborBdTrue: case cborBdFloat16: d.r.skip(2) case cborBdFloat32: d.r.skip(4) case cborBdFloat64: d.r.skip(8) default: halt.errorf("nextValueBytes: Unrecognized d.bd: 0x%x", d.bd) } default: halt.errorf("nextValueBytes: Unrecognized d.bd: 0x%x", d.bd) } return } func (d *cborDecDriverBytes) reset() { d.bdAndBdread.reset() } func (d *cborEncDriverBytes) init(hh Handle, shared *encoderBase, enc encoderI) (fp interface{}) { callMake(&d.w) d.h = hh.(*CborHandle) d.e = shared if shared.bytes { fp = cborFpEncBytes } else { fp = cborFpEncIO } d.init2(enc) return } func (e *cborEncDriverBytes) writeBytesAsis(b []byte) { e.w.writeb(b) } func (e *cborEncDriverBytes) writerEnd() { e.w.end() } func (e *cborEncDriverBytes) resetOutBytes(out *[]byte) { e.w.resetBytes(*out, out) } func (e *cborEncDriverBytes) resetOutIO(out io.Writer) { e.w.resetIO(out, e.h.WriterBufferSize, &e.e.blist) } func (d *cborDecDriverBytes) init(hh Handle, shared *decoderBase, dec decoderI) (fp interface{}) { callMake(&d.r) d.h = hh.(*CborHandle) d.d = shared if shared.bytes { fp = cborFpDecBytes } else { fp = cborFpDecIO } d.init2(dec) return } func (d *cborDecDriverBytes) NumBytesRead() int { return int(d.r.numread()) } func (d *cborDecDriverBytes) resetInBytes(in []byte) { d.r.resetBytes(in) } func (d *cborDecDriverBytes) resetInIO(r io.Reader) { d.r.resetIO(r, d.h.ReaderBufferSize, d.h.MaxInitLen, &d.d.blist) } func (d *cborDecDriverBytes) descBd() string { return sprintf("%v (%s)", d.bd, cbordesc(d.bd)) } func (d *cborDecDriverBytes) DecodeFloat32() (f float32) { return float32(chkOvf.Float32V(d.DecodeFloat64())) } func (d *cborEncDriverBytes) init2(enc encoderI) { d.enc = enc } func (d *cborDecDriverBytes) init2(dec decoderI) { d.dec = dec } type helperEncDriverCborIO struct{} type encFnCborIO struct { i encFnInfo fe func(*encoderCborIO, *encFnInfo, reflect.Value) } type encRtidFnCborIO struct { rtid uintptr fn *encFnCborIO } type encoderCborIO struct { dh helperEncDriverCborIO fp *fastpathEsCborIO e cborEncDriverIO encoderBase } type helperDecDriverCborIO struct{} type decFnCborIO struct { i decFnInfo fd func(*decoderCborIO, *decFnInfo, reflect.Value) } type decRtidFnCborIO struct { rtid uintptr fn *decFnCborIO } type decoderCborIO struct { dh helperDecDriverCborIO fp *fastpathDsCborIO d cborDecDriverIO decoderBase } type cborEncDriverIO struct { noBuiltInTypes encDriverNoState encDriverNoopContainerWriter encDriverContainerNoTrackerT h *CborHandle e *encoderBase w bufioEncWriter enc encoderI b [40]byte } type cborDecDriverIO struct { decDriverNoopContainerReader noBuiltInTypes h *CborHandle d *decoderBase r ioDecReader dec decoderI bdAndBdread } func (e *encoderCborIO) rawExt(_ *encFnInfo, rv reflect.Value) { if re := rv2i(rv).(*RawExt); re == nil { e.e.EncodeNil() } else { e.e.EncodeRawExt(re) } } func (e *encoderCborIO) ext(f *encFnInfo, rv reflect.Value) { e.e.EncodeExt(rv2i(rv), f.ti.rt, f.xfTag, f.xfFn) } func (e *encoderCborIO) selferMarshal(_ *encFnInfo, rv reflect.Value) { rv2i(rv).(Selfer).CodecEncodeSelf(&Encoder{e}) } func (e *encoderCborIO) binaryMarshal(_ *encFnInfo, rv reflect.Value) { bs, fnerr := rv2i(rv).(encoding.BinaryMarshaler).MarshalBinary() e.marshalRaw(bs, fnerr) } func (e *encoderCborIO) textMarshal(_ *encFnInfo, rv reflect.Value) { bs, fnerr := rv2i(rv).(encoding.TextMarshaler).MarshalText() e.marshalUtf8(bs, fnerr) } func (e *encoderCborIO) jsonMarshal(_ *encFnInfo, rv reflect.Value) { bs, fnerr := rv2i(rv).(jsonMarshaler).MarshalJSON() e.marshalAsis(bs, fnerr) } func (e *encoderCborIO) raw(_ *encFnInfo, rv reflect.Value) { e.rawBytes(rv2i(rv).(Raw)) } func (e *encoderCborIO) encodeComplex64(v complex64) { if imag(v) != 0 { halt.errorf("cannot encode complex number: %v, with imaginary values: %v", any(v), any(imag(v))) } e.e.EncodeFloat32(real(v)) } func (e *encoderCborIO) encodeComplex128(v complex128) { if imag(v) != 0 { halt.errorf("cannot encode complex number: %v, with imaginary values: %v", any(v), any(imag(v))) } e.e.EncodeFloat64(real(v)) } func (e *encoderCborIO) kBool(_ *encFnInfo, rv reflect.Value) { e.e.EncodeBool(rvGetBool(rv)) } func (e *encoderCborIO) kTime(_ *encFnInfo, rv reflect.Value) { e.e.EncodeTime(rvGetTime(rv)) } func (e *encoderCborIO) kString(_ *encFnInfo, rv reflect.Value) { e.e.EncodeString(rvGetString(rv)) } func (e *encoderCborIO) kFloat32(_ *encFnInfo, rv reflect.Value) { e.e.EncodeFloat32(rvGetFloat32(rv)) } func (e *encoderCborIO) kFloat64(_ *encFnInfo, rv reflect.Value) { e.e.EncodeFloat64(rvGetFloat64(rv)) } func (e *encoderCborIO) kComplex64(_ *encFnInfo, rv reflect.Value) { e.encodeComplex64(rvGetComplex64(rv)) } func (e *encoderCborIO) kComplex128(_ *encFnInfo, rv reflect.Value) { e.encodeComplex128(rvGetComplex128(rv)) } func (e *encoderCborIO) kInt(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt(rv))) } func (e *encoderCborIO) kInt8(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt8(rv))) } func (e *encoderCborIO) kInt16(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt16(rv))) } func (e *encoderCborIO) kInt32(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt32(rv))) } func (e *encoderCborIO) kInt64(_ *encFnInfo, rv reflect.Value) { e.e.EncodeInt(int64(rvGetInt64(rv))) } func (e *encoderCborIO) kUint(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint(rv))) } func (e *encoderCborIO) kUint8(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint8(rv))) } func (e *encoderCborIO) kUint16(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint16(rv))) } func (e *encoderCborIO) kUint32(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint32(rv))) } func (e *encoderCborIO) kUint64(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUint64(rv))) } func (e *encoderCborIO) kUintptr(_ *encFnInfo, rv reflect.Value) { e.e.EncodeUint(uint64(rvGetUintptr(rv))) } func (e *encoderCborIO) kSeqFn(rt reflect.Type) (fn *encFnCborIO) { if rt = baseRT(rt); rt.Kind() != reflect.Interface { fn = e.fn(rt) } return } func (e *encoderCborIO) kArrayWMbs(rv reflect.Value, ti *typeInfo, isSlice bool) { var l int if isSlice { l = rvLenSlice(rv) } else { l = rv.Len() } if l == 0 { e.e.WriteMapEmpty() return } e.haltOnMbsOddLen(l) e.mapStart(l >> 1) var fn *encFnCborIO builtin := ti.tielem.flagEncBuiltin if !builtin { fn = e.kSeqFn(ti.elem) } j := 0 e.c = containerMapKey e.e.WriteMapElemKey(true) for { rvv := rvArrayIndex(rv, j, ti, isSlice) if builtin { e.encodeIB(rv2i(baseRVRV(rvv))) } else { e.encodeValue(rvv, fn) } j++ if j == l { break } if j&1 == 0 { e.c = containerMapKey e.e.WriteMapElemKey(false) } else { e.mapElemValue() } } e.c = 0 e.e.WriteMapEnd() } func (e *encoderCborIO) kArrayW(rv reflect.Value, ti *typeInfo, isSlice bool) { var l int if isSlice { l = rvLenSlice(rv) } else { l = rv.Len() } if l <= 0 { e.e.WriteArrayEmpty() return } e.arrayStart(l) var fn *encFnCborIO if !ti.tielem.flagEncBuiltin { fn = e.kSeqFn(ti.elem) } j := 0 e.c = containerArrayElem e.e.WriteArrayElem(true) builtin := ti.tielem.flagEncBuiltin for { rvv := rvArrayIndex(rv, j, ti, isSlice) if builtin { e.encodeIB(rv2i(baseRVRV(rvv))) } else { e.encodeValue(rvv, fn) } j++ if j == l { break } e.c = containerArrayElem e.e.WriteArrayElem(false) } e.c = 0 e.e.WriteArrayEnd() } func (e *encoderCborIO) kChan(f *encFnInfo, rv reflect.Value) { if f.ti.chandir&uint8(reflect.RecvDir) == 0 { halt.errorStr("send-only channel cannot be encoded") } if !f.ti.mbs && uint8TypId == rt2id(f.ti.elem) { e.kSliceBytesChan(rv) return } rtslice := reflect.SliceOf(f.ti.elem) rv = chanToSlice(rv, rtslice, e.h.ChanRecvTimeout) ti := e.h.getTypeInfo(rt2id(rtslice), rtslice) if f.ti.mbs { e.kArrayWMbs(rv, ti, true) } else { e.kArrayW(rv, ti, true) } } func (e *encoderCborIO) kSlice(f *encFnInfo, rv reflect.Value) { if f.ti.mbs { e.kArrayWMbs(rv, f.ti, true) } else if f.ti.rtid == uint8SliceTypId || uint8TypId == rt2id(f.ti.elem) { e.e.EncodeBytes(rvGetBytes(rv)) } else { e.kArrayW(rv, f.ti, true) } } func (e *encoderCborIO) kArray(f *encFnInfo, rv reflect.Value) { if f.ti.mbs { e.kArrayWMbs(rv, f.ti, false) } else if handleBytesWithinKArray && uint8TypId == rt2id(f.ti.elem) { e.e.EncodeStringBytesRaw(rvGetArrayBytes(rv, nil)) } else { e.kArrayW(rv, f.ti, false) } } func (e *encoderCborIO) kSliceBytesChan(rv reflect.Value) { bs0 := e.blist.peek(32, true) bs := bs0 irv := rv2i(rv) ch, ok := irv.(<-chan byte) if !ok { ch = irv.(chan byte) } L1: switch timeout := e.h.ChanRecvTimeout; { case timeout == 0: for { select { case b := <-ch: bs = append(bs, b) default: break L1 } } case timeout > 0: tt := time.NewTimer(timeout) for { select { case b := <-ch: bs = append(bs, b) case <-tt.C: break L1 } } default: for b := range ch { bs = append(bs, b) } } e.e.EncodeBytes(bs) e.blist.put(bs) if !byteSliceSameData(bs0, bs) { e.blist.put(bs0) } } func (e *encoderCborIO) kStructFieldKey(keyType valueType, encName string) { if keyType == valueTypeString { e.e.EncodeString(encName) } else if keyType == valueTypeInt { e.e.EncodeInt(must.Int(strconv.ParseInt(encName, 10, 64))) } else if keyType == valueTypeUint { e.e.EncodeUint(must.Uint(strconv.ParseUint(encName, 10, 64))) } else if keyType == valueTypeFloat { e.e.EncodeFloat64(must.Float(strconv.ParseFloat(encName, 64))) } else { halt.errorStr2("invalid struct key type: ", keyType.String()) } } func (e *encoderCborIO) kStructSimple(f *encFnInfo, rv reflect.Value) { _ = e.e tisfi := f.ti.sfi.source() chkCirRef := e.h.CheckCircularRef var si *structFieldInfo var j int if f.ti.toArray || e.h.StructToArray { if len(tisfi) == 0 { e.e.WriteArrayEmpty() return } e.arrayStart(len(tisfi)) for j, si = range tisfi { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) if si.encBuiltin { e.encodeIB(rv2i(si.fieldNoAlloc(rv, true))) } else { e.encodeValue(si.fieldNoAlloc(rv, !chkCirRef), nil) } } e.c = 0 e.e.WriteArrayEnd() } else { if len(tisfi) == 0 { e.e.WriteMapEmpty() return } if e.h.Canonical { tisfi = f.ti.sfi.sorted() } e.mapStart(len(tisfi)) for j, si = range tisfi { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) e.e.EncodeStringNoEscape4Json(si.encName) e.mapElemValue() if si.encBuiltin { e.encodeIB(rv2i(si.fieldNoAlloc(rv, true))) } else { e.encodeValue(si.fieldNoAlloc(rv, !chkCirRef), nil) } } e.c = 0 e.e.WriteMapEnd() } } func (e *encoderCborIO) kStruct(f *encFnInfo, rv reflect.Value) { _ = e.e ti := f.ti toMap := !(ti.toArray || e.h.StructToArray) var mf map[string]interface{} if ti.flagMissingFielder { toMap = true mf = rv2i(rv).(MissingFielder).CodecMissingFields() } else if ti.flagMissingFielderPtr { toMap = true if rv.CanAddr() { mf = rv2i(rvAddr(rv, ti.ptr)).(MissingFielder).CodecMissingFields() } else { mf = rv2i(e.addrRV(rv, ti.rt, ti.ptr)).(MissingFielder).CodecMissingFields() } } newlen := len(mf) tisfi := ti.sfi.source() newlen += len(tisfi) var fkvs = e.slist.get(newlen)[:newlen] recur := e.h.RecursiveEmptyCheck chkCirRef := e.h.CheckCircularRef var xlen int var kv sfiRv var j int var sf encStructFieldObj if toMap { newlen = 0 if e.h.Canonical { tisfi = f.ti.sfi.sorted() } for _, si := range tisfi { if si.omitEmpty { kv.r = si.fieldNoAlloc(rv, false) if isEmptyValue(kv.r, e.h.TypeInfos, recur) { continue } } else { kv.r = si.fieldNoAlloc(rv, si.encBuiltin || !chkCirRef) } kv.v = si fkvs[newlen] = kv newlen++ } var mf2s []stringIntf if len(mf) != 0 { mf2s = make([]stringIntf, 0, len(mf)) for k, v := range mf { if k == "" { continue } if ti.infoFieldOmitempty && isEmptyValue(reflect.ValueOf(v), e.h.TypeInfos, recur) { continue } mf2s = append(mf2s, stringIntf{k, v}) } } xlen = newlen + len(mf2s) if xlen == 0 { e.e.WriteMapEmpty() goto END } e.mapStart(xlen) if len(mf2s) != 0 && e.h.Canonical { mf2w := make([]encStructFieldObj, newlen+len(mf2s)) for j = 0; j < newlen; j++ { kv = fkvs[j] mf2w[j] = encStructFieldObj{kv.v.encName, kv.r, nil, true, !kv.v.encNameEscape4Json, kv.v.encBuiltin} } for _, v := range mf2s { mf2w[j] = encStructFieldObj{v.v, reflect.Value{}, v.i, false, false, false} j++ } sort.Sort((encStructFieldObjSlice)(mf2w)) for j, sf = range mf2w { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) if ti.keyType == valueTypeString && sf.noEsc4json { e.e.EncodeStringNoEscape4Json(sf.key) } else { e.kStructFieldKey(ti.keyType, sf.key) } e.mapElemValue() if sf.isRv { if sf.builtin { e.encodeIB(rv2i(baseRVRV(sf.rv))) } else { e.encodeValue(sf.rv, nil) } } else { if !e.encodeBuiltin(sf.intf) { e.encodeR(reflect.ValueOf(sf.intf)) } } } } else { keytyp := ti.keyType for j = 0; j < newlen; j++ { kv = fkvs[j] e.c = containerMapKey e.e.WriteMapElemKey(j == 0) if ti.keyType == valueTypeString && !kv.v.encNameEscape4Json { e.e.EncodeStringNoEscape4Json(kv.v.encName) } else { e.kStructFieldKey(keytyp, kv.v.encName) } e.mapElemValue() if kv.v.encBuiltin { e.encodeIB(rv2i(baseRVRV(kv.r))) } else { e.encodeValue(kv.r, nil) } } for _, v := range mf2s { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) e.kStructFieldKey(keytyp, v.v) e.mapElemValue() if !e.encodeBuiltin(v.i) { e.encodeR(reflect.ValueOf(v.i)) } j++ } } e.c = 0 e.e.WriteMapEnd() } else { newlen = len(tisfi) for i, si := range tisfi { if si.omitEmpty { kv.r = si.fieldNoAlloc(rv, false) if isEmptyContainerValue(kv.r, e.h.TypeInfos, recur) { kv.r = reflect.Value{} } } else { kv.r = si.fieldNoAlloc(rv, si.encBuiltin || !chkCirRef) } kv.v = si fkvs[i] = kv } if newlen == 0 { e.e.WriteArrayEmpty() goto END } e.arrayStart(newlen) for j = 0; j < newlen; j++ { e.c = containerArrayElem e.e.WriteArrayElem(j == 0) kv = fkvs[j] if !kv.r.IsValid() { e.e.EncodeNil() } else if kv.v.encBuiltin { e.encodeIB(rv2i(baseRVRV(kv.r))) } else { e.encodeValue(kv.r, nil) } } e.c = 0 e.e.WriteArrayEnd() } END: e.slist.put(fkvs) } func (e *encoderCborIO) kMap(f *encFnInfo, rv reflect.Value) { _ = e.e l := rvLenMap(rv) if l == 0 { e.e.WriteMapEmpty() return } e.mapStart(l) var keyFn, valFn *encFnCborIO ktypeKind := reflect.Kind(f.ti.keykind) vtypeKind := reflect.Kind(f.ti.elemkind) rtval := f.ti.elem rtvalkind := vtypeKind for rtvalkind == reflect.Ptr { rtval = rtval.Elem() rtvalkind = rtval.Kind() } if rtvalkind != reflect.Interface { valFn = e.fn(rtval) } var rvv = mapAddrLoopvarRV(f.ti.elem, vtypeKind) rtkey := f.ti.key var keyTypeIsString = stringTypId == rt2id(rtkey) if keyTypeIsString { keyFn = e.fn(rtkey) } else { for rtkey.Kind() == reflect.Ptr { rtkey = rtkey.Elem() } if rtkey.Kind() != reflect.Interface { keyFn = e.fn(rtkey) } } if e.h.Canonical { e.kMapCanonical(f.ti, rv, rvv, keyFn, valFn) e.c = 0 e.e.WriteMapEnd() return } var rvk = mapAddrLoopvarRV(f.ti.key, ktypeKind) var it mapIter mapRange(&it, rv, rvk, rvv, true) kbuiltin := f.ti.tikey.flagEncBuiltin vbuiltin := f.ti.tielem.flagEncBuiltin for j := 0; it.Next(); j++ { rv = it.Key() e.c = containerMapKey e.e.WriteMapElemKey(j == 0) if keyTypeIsString { e.e.EncodeString(rvGetString(rv)) } else if kbuiltin { e.encodeIB(rv2i(baseRVRV(rv))) } else { e.encodeValue(rv, keyFn) } e.mapElemValue() rv = it.Value() if vbuiltin { e.encodeIB(rv2i(baseRVRV(rv))) } else { e.encodeValue(it.Value(), valFn) } } it.Done() e.c = 0 e.e.WriteMapEnd() } func (e *encoderCborIO) kMapCanonical(ti *typeInfo, rv, rvv reflect.Value, keyFn, valFn *encFnCborIO) { _ = e.e rtkey := ti.key rtkeydecl := rtkey.PkgPath() == "" && rtkey.Name() != "" mks := rv.MapKeys() rtkeyKind := rtkey.Kind() mparams := getMapReqParams(ti) switch rtkeyKind { case reflect.Bool: if len(mks) == 2 && mks[0].Bool() { mks[0], mks[1] = mks[1], mks[0] } for i := range mks { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeBool(mks[i].Bool()) } else { e.encodeValueNonNil(mks[i], keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mks[i], rvv, mparams), valFn) } case reflect.String: mksv := make([]orderedRv[string], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = rvGetString(k) } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeString(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Uint8, reflect.Uint16, reflect.Uint32, reflect.Uint64, reflect.Uint, reflect.Uintptr: mksv := make([]orderedRv[uint64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Uint() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeUint(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64, reflect.Int: mksv := make([]orderedRv[int64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Int() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeInt(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Float32: mksv := make([]orderedRv[float64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Float() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeFloat32(float32(mksv[i].v)) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } case reflect.Float64: mksv := make([]orderedRv[float64], len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = k.Float() } slices.SortFunc(mksv, cmpOrderedRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) if rtkeydecl { e.e.EncodeFloat64(mksv[i].v) } else { e.encodeValueNonNil(mksv[i].r, keyFn) } e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } default: if rtkey == timeTyp { mksv := make([]timeRv, len(mks)) for i, k := range mks { v := &mksv[i] v.r = k v.v = rv2i(k).(time.Time) } slices.SortFunc(mksv, cmpTimeRv) for i := range mksv { e.c = containerMapKey e.e.WriteMapElemKey(i == 0) e.e.EncodeTime(mksv[i].v) e.mapElemValue() e.encodeValue(mapGet(rv, mksv[i].r, rvv, mparams), valFn) } break } bs0 := e.blist.get(len(mks) * 16) mksv := bs0 mksbv := make([]bytesRv, len(mks)) sideEncode(e.hh, &e.h.sideEncPool, func(se encoderI) { se.ResetBytes(&mksv) for i, k := range mks { v := &mksbv[i] l := len(mksv) se.setContainerState(containerMapKey) se.encodeR(baseRVRV(k)) se.atEndOfEncode() se.writerEnd() v.r = k v.v = mksv[l:] } }) slices.SortFunc(mksbv, cmpBytesRv) for j := range mksbv { e.c = containerMapKey e.e.WriteMapElemKey(j == 0) e.e.writeBytesAsis(mksbv[j].v) e.mapElemValue() e.encodeValue(mapGet(rv, mksbv[j].r, rvv, mparams), valFn) } e.blist.put(mksv) if !byteSliceSameData(bs0, mksv) { e.blist.put(bs0) } } } func (e *encoderCborIO) init(h Handle) { initHandle(h) callMake(&e.e) e.hh = h e.h = h.getBasicHandle() e.err = errEncoderNotInitialized e.fp = e.e.init(h, &e.encoderBase, e).(*fastpathEsCborIO) if e.bytes { e.rtidFn = &e.h.rtidFnsEncBytes e.rtidFnNoExt = &e.h.rtidFnsEncNoExtBytes } else { e.rtidFn = &e.h.rtidFnsEncIO e.rtidFnNoExt = &e.h.rtidFnsEncNoExtIO } e.reset() } func (e *encoderCborIO) reset() { e.e.reset() if e.ci != nil { e.ci = e.ci[:0] } e.c = 0 e.calls = 0 e.seq = 0 e.err = nil } func (e *encoderCborIO) Encode(v interface{}) (err error) { defer panicValToErr(e, callRecoverSentinel, &e.err, &err, debugging) e.mustEncode(v) return } func (e *encoderCborIO) MustEncode(v interface{}) { defer panicValToErr(e, callRecoverSentinel, &e.err, nil, true) e.mustEncode(v) return } func (e *encoderCborIO) mustEncode(v interface{}) { halt.onerror(e.err) if e.hh == nil { halt.onerror(errNoFormatHandle) } e.calls++ if !e.encodeBuiltin(v) { e.encodeR(reflect.ValueOf(v)) } e.calls-- if e.calls == 0 { e.e.atEndOfEncode() e.e.writerEnd() } } func (e *encoderCborIO) encodeI(iv interface{}) { if !e.encodeBuiltin(iv) { e.encodeR(reflect.ValueOf(iv)) } } func (e *encoderCborIO) encodeIB(iv interface{}) { if !e.encodeBuiltin(iv) { halt.errorStr("[should not happen] invalid type passed to encodeBuiltin") } } func (e *encoderCborIO) encodeR(base reflect.Value) { e.encodeValue(base, nil) } func (e *encoderCborIO) encodeBuiltin(iv interface{}) (ok bool) { ok = true switch v := iv.(type) { case nil: e.e.EncodeNil() case Raw: e.rawBytes(v) case string: e.e.EncodeString(v) case bool: e.e.EncodeBool(v) case int: e.e.EncodeInt(int64(v)) case int8: e.e.EncodeInt(int64(v)) case int16: e.e.EncodeInt(int64(v)) case int32: e.e.EncodeInt(int64(v)) case int64: e.e.EncodeInt(v) case uint: e.e.EncodeUint(uint64(v)) case uint8: e.e.EncodeUint(uint64(v)) case uint16: e.e.EncodeUint(uint64(v)) case uint32: e.e.EncodeUint(uint64(v)) case uint64: e.e.EncodeUint(v) case uintptr: e.e.EncodeUint(uint64(v)) case float32: e.e.EncodeFloat32(v) case float64: e.e.EncodeFloat64(v) case complex64: e.encodeComplex64(v) case complex128: e.encodeComplex128(v) case time.Time: e.e.EncodeTime(v) case []byte: e.e.EncodeBytes(v) default: ok = !skipFastpathTypeSwitchInDirectCall && e.dh.fastpathEncodeTypeSwitch(iv, e) } return } func (e *encoderCborIO) encodeValue(rv reflect.Value, fn *encFnCborIO) { var ciPushes int var rvp reflect.Value var rvpValid bool RV: switch rv.Kind() { case reflect.Ptr: if rvIsNil(rv) { e.e.EncodeNil() goto END } rvpValid = true rvp = rv rv = rv.Elem() if e.h.CheckCircularRef && e.ci.canPushElemKind(rv.Kind()) { e.ci.push(rv2i(rvp)) ciPushes++ } goto RV case reflect.Interface: if rvIsNil(rv) { e.e.EncodeNil() goto END } rvpValid = false rvp = reflect.Value{} rv = rv.Elem() fn = nil goto RV case reflect.Map: if rvIsNil(rv) { if e.h.NilCollectionToZeroLength { e.e.WriteMapEmpty() } else { e.e.EncodeNil() } goto END } case reflect.Slice, reflect.Chan: if rvIsNil(rv) { if e.h.NilCollectionToZeroLength { e.e.WriteArrayEmpty() } else { e.e.EncodeNil() } goto END } case reflect.Invalid, reflect.Func: e.e.EncodeNil() goto END } if fn == nil { fn = e.fn(rv.Type()) } if !fn.i.addrE { } else if rvpValid { rv = rvp } else if rv.CanAddr() { rv = rvAddr(rv, fn.i.ti.ptr) } else { rv = e.addrRV(rv, fn.i.ti.rt, fn.i.ti.ptr) } fn.fe(e, &fn.i, rv) END: if ciPushes > 0 { e.ci.pop(ciPushes) } } func (e *encoderCborIO) encodeValueNonNil(rv reflect.Value, fn *encFnCborIO) { if fn.i.addrE { if rv.CanAddr() { rv = rvAddr(rv, fn.i.ti.ptr) } else { rv = e.addrRV(rv, fn.i.ti.rt, fn.i.ti.ptr) } } fn.fe(e, &fn.i, rv) } func (e *encoderCborIO) encodeAs(v interface{}, t reflect.Type, ext bool) { if ext { e.encodeValue(baseRV(v), e.fn(t)) } else { e.encodeValue(baseRV(v), e.fnNoExt(t)) } } func (e *encoderCborIO) marshalUtf8(bs []byte, fnerr error) { halt.onerror(fnerr) if bs == nil { e.e.EncodeNil() } else { e.e.EncodeString(stringView(bs)) } } func (e *encoderCborIO) marshalAsis(bs []byte, fnerr error) { halt.onerror(fnerr) if bs == nil { e.e.EncodeNil() } else { e.e.writeBytesAsis(bs) } } func (e *encoderCborIO) marshalRaw(bs []byte, fnerr error) { halt.onerror(fnerr) e.e.EncodeBytes(bs) } func (e *encoderCborIO) rawBytes(vv Raw) { v := []byte(vv) if !e.h.Raw { halt.errorBytes("Raw values cannot be encoded: ", v) } e.e.writeBytesAsis(v) } func (e *encoderCborIO) fn(t reflect.Type) *encFnCborIO { return e.dh.encFnViaBH(t, e.rtidFn, e.h, e.fp, false) } func (e *encoderCborIO) fnNoExt(t reflect.Type) *encFnCborIO { return e.dh.encFnViaBH(t, e.rtidFnNoExt, e.h, e.fp, true) } func (e *encoderCborIO) mapStart(length int) { e.e.WriteMapStart(length) e.c = containerMapStart } func (e *encoderCborIO) mapElemValue() { e.e.WriteMapElemValue() e.c = containerMapValue } func (e *encoderCborIO) arrayStart(length int) { e.e.WriteArrayStart(length) e.c = containerArrayStart } func (e *encoderCborIO) writerEnd() { e.e.writerEnd() } func (e *encoderCborIO) atEndOfEncode() { e.e.atEndOfEncode() } func (e *encoderCborIO) Reset(w io.Writer) { if e.bytes { halt.onerror(errEncNoResetBytesWithWriter) } e.reset() if w == nil { w = io.Discard } e.e.resetOutIO(w) } func (e *encoderCborIO) ResetBytes(out *[]byte) { if !e.bytes { halt.onerror(errEncNoResetWriterWithBytes) } e.resetBytes(out) } func (e *encoderCborIO) resetBytes(out *[]byte) { e.reset() if out == nil { out = &bytesEncAppenderDefOut } e.e.resetOutBytes(out) } func (helperEncDriverCborIO) newEncoderBytes(out *[]byte, h Handle) *encoderCborIO { var c1 encoderCborIO c1.bytes = true c1.init(h) c1.ResetBytes(out) return &c1 } func (helperEncDriverCborIO) newEncoderIO(out io.Writer, h Handle) *encoderCborIO { var c1 encoderCborIO c1.bytes = false c1.init(h) c1.Reset(out) return &c1 } func (helperEncDriverCborIO) encFnloadFastpathUnderlying(ti *typeInfo, fp *fastpathEsCborIO) (f *fastpathECborIO, u reflect.Type) { rtid := rt2id(ti.fastpathUnderlying) idx, ok := fastpathAvIndex(rtid) if !ok { return } f = &fp[idx] if uint8(reflect.Array) == ti.kind { u = reflect.ArrayOf(ti.rt.Len(), ti.elem) } else { u = f.rt } return } func (helperEncDriverCborIO) encFindRtidFn(s []encRtidFnCborIO, rtid uintptr) (i uint, fn *encFnCborIO) { var h uint var j = uint(len(s)) LOOP: if i < j { h = (i + j) >> 1 if s[h].rtid < rtid { i = h + 1 } else { j = h } goto LOOP } if i < uint(len(s)) && s[i].rtid == rtid { fn = s[i].fn } return } func (helperEncDriverCborIO) encFromRtidFnSlice(fns *atomicRtidFnSlice) (s []encRtidFnCborIO) { if v := fns.load(); v != nil { s = *(lowLevelToPtr[[]encRtidFnCborIO](v)) } return } func (dh helperEncDriverCborIO) encFnViaBH(rt reflect.Type, fns *atomicRtidFnSlice, x *BasicHandle, fp *fastpathEsCborIO, checkExt bool) (fn *encFnCborIO) { return dh.encFnVia(rt, fns, x.typeInfos(), &x.mu, x.extHandle, fp, checkExt, x.CheckCircularRef, x.timeBuiltin, x.binaryHandle, x.jsonHandle) } func (dh helperEncDriverCborIO) encFnVia(rt reflect.Type, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathEsCborIO, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *encFnCborIO) { rtid := rt2id(rt) var sp []encRtidFnCborIO = dh.encFromRtidFnSlice(fns) if sp != nil { _, fn = dh.encFindRtidFn(sp, rtid) } if fn == nil { fn = dh.encFnViaLoader(rt, rtid, fns, tinfos, mu, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) } return } func (dh helperEncDriverCborIO) encFnViaLoader(rt reflect.Type, rtid uintptr, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathEsCborIO, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *encFnCborIO) { fn = dh.encFnLoad(rt, rtid, tinfos, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) var sp []encRtidFnCborIO mu.Lock() sp = dh.encFromRtidFnSlice(fns) if sp == nil { sp = []encRtidFnCborIO{{rtid, fn}} fns.store(ptrToLowLevel(&sp)) } else { idx, fn2 := dh.encFindRtidFn(sp, rtid) if fn2 == nil { sp2 := make([]encRtidFnCborIO, len(sp)+1) copy(sp2[idx+1:], sp[idx:]) copy(sp2, sp[:idx]) sp2[idx] = encRtidFnCborIO{rtid, fn} fns.store(ptrToLowLevel(&sp2)) } } mu.Unlock() return } func (dh helperEncDriverCborIO) encFnLoad(rt reflect.Type, rtid uintptr, tinfos *TypeInfos, exth extHandle, fp *fastpathEsCborIO, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *encFnCborIO) { fn = new(encFnCborIO) fi := &(fn.i) ti := tinfos.get(rtid, rt) fi.ti = ti rk := reflect.Kind(ti.kind) if rtid == timeTypId && timeBuiltin { fn.fe = (*encoderCborIO).kTime } else if rtid == rawTypId { fn.fe = (*encoderCborIO).raw } else if rtid == rawExtTypId { fn.fe = (*encoderCborIO).rawExt fi.addrE = true } else if xfFn := exth.getExt(rtid, checkExt); xfFn != nil { fi.xfTag, fi.xfFn = xfFn.tag, xfFn.ext fn.fe = (*encoderCborIO).ext if rk == reflect.Struct || rk == reflect.Array { fi.addrE = true } } else if ti.flagSelfer || ti.flagSelferPtr { fn.fe = (*encoderCborIO).selferMarshal fi.addrE = ti.flagSelferPtr } else if supportMarshalInterfaces && binaryEncoding && (ti.flagBinaryMarshaler || ti.flagBinaryMarshalerPtr) && (ti.flagBinaryUnmarshaler || ti.flagBinaryUnmarshalerPtr) { fn.fe = (*encoderCborIO).binaryMarshal fi.addrE = ti.flagBinaryMarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && json && (ti.flagJsonMarshaler || ti.flagJsonMarshalerPtr) && (ti.flagJsonUnmarshaler || ti.flagJsonUnmarshalerPtr) { fn.fe = (*encoderCborIO).jsonMarshal fi.addrE = ti.flagJsonMarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && (ti.flagTextMarshaler || ti.flagTextMarshalerPtr) && (ti.flagTextUnmarshaler || ti.flagTextUnmarshalerPtr) { fn.fe = (*encoderCborIO).textMarshal fi.addrE = ti.flagTextMarshalerPtr } else { if fastpathEnabled && (rk == reflect.Map || rk == reflect.Slice || rk == reflect.Array) { var rtid2 uintptr if !ti.flagHasPkgPath { rtid2 = rtid if rk == reflect.Array { rtid2 = rt2id(ti.key) } if idx, ok := fastpathAvIndex(rtid2); ok { fn.fe = fp[idx].encfn } } else { xfe, xrt := dh.encFnloadFastpathUnderlying(ti, fp) if xfe != nil { xfnf := xfe.encfn fn.fe = func(e *encoderCborIO, xf *encFnInfo, xrv reflect.Value) { xfnf(e, xf, rvConvert(xrv, xrt)) } } } } if fn.fe == nil { switch rk { case reflect.Bool: fn.fe = (*encoderCborIO).kBool case reflect.String: fn.fe = (*encoderCborIO).kString case reflect.Int: fn.fe = (*encoderCborIO).kInt case reflect.Int8: fn.fe = (*encoderCborIO).kInt8 case reflect.Int16: fn.fe = (*encoderCborIO).kInt16 case reflect.Int32: fn.fe = (*encoderCborIO).kInt32 case reflect.Int64: fn.fe = (*encoderCborIO).kInt64 case reflect.Uint: fn.fe = (*encoderCborIO).kUint case reflect.Uint8: fn.fe = (*encoderCborIO).kUint8 case reflect.Uint16: fn.fe = (*encoderCborIO).kUint16 case reflect.Uint32: fn.fe = (*encoderCborIO).kUint32 case reflect.Uint64: fn.fe = (*encoderCborIO).kUint64 case reflect.Uintptr: fn.fe = (*encoderCborIO).kUintptr case reflect.Float32: fn.fe = (*encoderCborIO).kFloat32 case reflect.Float64: fn.fe = (*encoderCborIO).kFloat64 case reflect.Complex64: fn.fe = (*encoderCborIO).kComplex64 case reflect.Complex128: fn.fe = (*encoderCborIO).kComplex128 case reflect.Chan: fn.fe = (*encoderCborIO).kChan case reflect.Slice: fn.fe = (*encoderCborIO).kSlice case reflect.Array: fn.fe = (*encoderCborIO).kArray case reflect.Struct: if ti.simple { fn.fe = (*encoderCborIO).kStructSimple } else { fn.fe = (*encoderCborIO).kStruct } case reflect.Map: fn.fe = (*encoderCborIO).kMap case reflect.Interface: fn.fe = (*encoderCborIO).kErr default: fn.fe = (*encoderCborIO).kErr } } } return } func (d *decoderCborIO) rawExt(f *decFnInfo, rv reflect.Value) { d.d.DecodeRawExt(rv2i(rv).(*RawExt)) } func (d *decoderCborIO) ext(f *decFnInfo, rv reflect.Value) { d.d.DecodeExt(rv2i(rv), f.ti.rt, f.xfTag, f.xfFn) } func (d *decoderCborIO) selferUnmarshal(_ *decFnInfo, rv reflect.Value) { rv2i(rv).(Selfer).CodecDecodeSelf(&Decoder{d}) } func (d *decoderCborIO) binaryUnmarshal(_ *decFnInfo, rv reflect.Value) { bm := rv2i(rv).(encoding.BinaryUnmarshaler) xbs, _ := d.d.DecodeBytes() fnerr := bm.UnmarshalBinary(xbs) halt.onerror(fnerr) } func (d *decoderCborIO) textUnmarshal(_ *decFnInfo, rv reflect.Value) { tm := rv2i(rv).(encoding.TextUnmarshaler) fnerr := tm.UnmarshalText(bytesOKs(d.d.DecodeStringAsBytes())) halt.onerror(fnerr) } func (d *decoderCborIO) jsonUnmarshal(_ *decFnInfo, rv reflect.Value) { d.jsonUnmarshalV(rv2i(rv).(jsonUnmarshaler)) } func (d *decoderCborIO) jsonUnmarshalV(tm jsonUnmarshaler) { halt.onerror(tm.UnmarshalJSON(d.d.nextValueBytes())) } func (d *decoderCborIO) kErr(_ *decFnInfo, rv reflect.Value) { halt.errorf("unsupported decoding kind: %s, for %#v", rv.Kind(), rv) } func (d *decoderCborIO) raw(_ *decFnInfo, rv reflect.Value) { rvSetBytes(rv, d.rawBytes()) } func (d *decoderCborIO) kString(_ *decFnInfo, rv reflect.Value) { rvSetString(rv, d.detach2Str(d.d.DecodeStringAsBytes())) } func (d *decoderCborIO) kBool(_ *decFnInfo, rv reflect.Value) { rvSetBool(rv, d.d.DecodeBool()) } func (d *decoderCborIO) kTime(_ *decFnInfo, rv reflect.Value) { rvSetTime(rv, d.d.DecodeTime()) } func (d *decoderCborIO) kFloat32(_ *decFnInfo, rv reflect.Value) { rvSetFloat32(rv, d.d.DecodeFloat32()) } func (d *decoderCborIO) kFloat64(_ *decFnInfo, rv reflect.Value) { rvSetFloat64(rv, d.d.DecodeFloat64()) } func (d *decoderCborIO) kComplex64(_ *decFnInfo, rv reflect.Value) { rvSetComplex64(rv, complex(d.d.DecodeFloat32(), 0)) } func (d *decoderCborIO) kComplex128(_ *decFnInfo, rv reflect.Value) { rvSetComplex128(rv, complex(d.d.DecodeFloat64(), 0)) } func (d *decoderCborIO) kInt(_ *decFnInfo, rv reflect.Value) { rvSetInt(rv, int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize))) } func (d *decoderCborIO) kInt8(_ *decFnInfo, rv reflect.Value) { rvSetInt8(rv, int8(chkOvf.IntV(d.d.DecodeInt64(), 8))) } func (d *decoderCborIO) kInt16(_ *decFnInfo, rv reflect.Value) { rvSetInt16(rv, int16(chkOvf.IntV(d.d.DecodeInt64(), 16))) } func (d *decoderCborIO) kInt32(_ *decFnInfo, rv reflect.Value) { rvSetInt32(rv, int32(chkOvf.IntV(d.d.DecodeInt64(), 32))) } func (d *decoderCborIO) kInt64(_ *decFnInfo, rv reflect.Value) { rvSetInt64(rv, d.d.DecodeInt64()) } func (d *decoderCborIO) kUint(_ *decFnInfo, rv reflect.Value) { rvSetUint(rv, uint(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))) } func (d *decoderCborIO) kUintptr(_ *decFnInfo, rv reflect.Value) { rvSetUintptr(rv, uintptr(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize))) } func (d *decoderCborIO) kUint8(_ *decFnInfo, rv reflect.Value) { rvSetUint8(rv, uint8(chkOvf.UintV(d.d.DecodeUint64(), 8))) } func (d *decoderCborIO) kUint16(_ *decFnInfo, rv reflect.Value) { rvSetUint16(rv, uint16(chkOvf.UintV(d.d.DecodeUint64(), 16))) } func (d *decoderCborIO) kUint32(_ *decFnInfo, rv reflect.Value) { rvSetUint32(rv, uint32(chkOvf.UintV(d.d.DecodeUint64(), 32))) } func (d *decoderCborIO) kUint64(_ *decFnInfo, rv reflect.Value) { rvSetUint64(rv, d.d.DecodeUint64()) } func (d *decoderCborIO) kInterfaceNaked(f *decFnInfo) (rvn reflect.Value) { n := d.naked() d.d.DecodeNaked() if decFailNonEmptyIntf && f.ti.numMeth > 0 { halt.errorf("cannot decode non-nil codec value into nil %v (%v methods)", f.ti.rt, f.ti.numMeth) } switch n.v { case valueTypeMap: mtid := d.mtid if mtid == 0 { if d.jsms { mtid = mapStrIntfTypId } else { mtid = mapIntfIntfTypId } } if mtid == mapStrIntfTypId { var v2 map[string]interface{} d.decode(&v2) rvn = rv4iptr(&v2).Elem() } else if mtid == mapIntfIntfTypId { var v2 map[interface{}]interface{} d.decode(&v2) rvn = rv4iptr(&v2).Elem() } else if d.mtr { rvn = reflect.New(d.h.MapType) d.decode(rv2i(rvn)) rvn = rvn.Elem() } else { rvn = rvZeroAddrK(d.h.MapType, reflect.Map) d.decodeValue(rvn, nil) } case valueTypeArray: if d.stid == 0 || d.stid == intfSliceTypId { var v2 []interface{} d.decode(&v2) rvn = rv4iptr(&v2).Elem() } else if d.str { rvn = reflect.New(d.h.SliceType) d.decode(rv2i(rvn)) rvn = rvn.Elem() } else { rvn = rvZeroAddrK(d.h.SliceType, reflect.Slice) d.decodeValue(rvn, nil) } if d.h.PreferArrayOverSlice { rvn = rvGetArray4Slice(rvn) } case valueTypeExt: tag, bytes := n.u, n.l bfn := d.h.getExtForTag(tag) var re = RawExt{Tag: tag} if bytes == nil { if bfn == nil { d.decode(&re.Value) rvn = rv4iptr(&re).Elem() } else if bfn.ext == SelfExt { rvn = rvZeroAddrK(bfn.rt, bfn.rt.Kind()) d.decodeValue(rvn, d.fnNoExt(bfn.rt)) } else { rvn = reflect.New(bfn.rt) d.interfaceExtConvertAndDecode(rv2i(rvn), bfn.ext) rvn = rvn.Elem() } } else { if bfn == nil { re.setData(bytes, false) rvn = rv4iptr(&re).Elem() } else { rvn = reflect.New(bfn.rt) if bfn.ext == SelfExt { sideDecode(d.hh, &d.h.sideDecPool, func(sd decoderI) { oneOffDecode(sd, rv2i(rvn), bytes, bfn.rt, true) }) } else { bfn.ext.ReadExt(rv2i(rvn), bytes) } rvn = rvn.Elem() } } if d.h.PreferPointerForStructOrArray && rvn.CanAddr() { if rk := rvn.Kind(); rk == reflect.Array || rk == reflect.Struct { rvn = rvn.Addr() } } case valueTypeNil: case valueTypeInt: rvn = n.ri() case valueTypeUint: rvn = n.ru() case valueTypeFloat: rvn = n.rf() case valueTypeBool: rvn = n.rb() case valueTypeString, valueTypeSymbol: rvn = n.rs() case valueTypeBytes: rvn = n.rl() case valueTypeTime: rvn = n.rt() default: halt.errorStr2("kInterfaceNaked: unexpected valueType: ", n.v.String()) } return } func (d *decoderCborIO) kInterface(f *decFnInfo, rv reflect.Value) { isnilrv := rvIsNil(rv) var rvn reflect.Value if d.h.InterfaceReset { rvn = d.h.intf2impl(f.ti.rtid) if !rvn.IsValid() { rvn = d.kInterfaceNaked(f) if rvn.IsValid() { rvSetIntf(rv, rvn) } else if !isnilrv { decSetNonNilRV2Zero4Intf(rv) } return } } else if isnilrv { rvn = d.h.intf2impl(f.ti.rtid) if !rvn.IsValid() { rvn = d.kInterfaceNaked(f) if rvn.IsValid() { rvSetIntf(rv, rvn) } return } } else { rvn = rv.Elem() } canDecode, _ := isDecodeable(rvn) if !canDecode { rvn2 := d.oneShotAddrRV(rvn.Type(), rvn.Kind()) rvSetDirect(rvn2, rvn) rvn = rvn2 } d.decodeValue(rvn, nil) rvSetIntf(rv, rvn) } func (d *decoderCborIO) kStructField(si *structFieldInfo, rv reflect.Value) { if d.d.TryNil() { rv = si.fieldNoAlloc(rv, true) if rv.IsValid() { decSetNonNilRV2Zero(rv) } } else if si.decBuiltin { rv = rvAddr(si.fieldAlloc(rv), si.ptrTyp) d.decode(rv2i(rv)) } else { fn := d.fn(si.baseTyp) rv = si.fieldAlloc(rv) if fn.i.addrD { rv = rvAddr(rv, si.ptrTyp) } fn.fd(d, &fn.i, rv) } } func (d *decoderCborIO) kStructSimple(f *decFnInfo, rv reflect.Value) { _ = d.d ctyp := d.d.ContainerType() ti := f.ti if ctyp == valueTypeMap { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == 0 { d.mapEnd() return } hasLen := containerLen >= 0 var rvkencname []byte for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) sab, att := d.d.DecodeStringAsBytes() rvkencname = d.usableStructFieldNameBytes(rvkencname, sab, att) d.mapElemValue() if si := ti.siForEncName(rvkencname); si != nil { d.kStructField(si, rv) } else { d.structFieldNotFound(-1, stringView(rvkencname)) } } d.mapEnd() } else if ctyp == valueTypeArray { containerLen := d.arrayStart(d.d.ReadArrayStart()) if containerLen == 0 { d.arrayEnd() return } tisfi := ti.sfi.source() hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.arrayElem(j == 0) if j < len(tisfi) { d.kStructField(tisfi[j], rv) } else { d.structFieldNotFound(j, "") } } d.arrayEnd() } else { halt.onerror(errNeedMapOrArrayDecodeToStruct) } } func (d *decoderCborIO) kStruct(f *decFnInfo, rv reflect.Value) { _ = d.d ctyp := d.d.ContainerType() ti := f.ti var mf MissingFielder if ti.flagMissingFielder { mf = rv2i(rv).(MissingFielder) } else if ti.flagMissingFielderPtr { mf = rv2i(rvAddr(rv, ti.ptr)).(MissingFielder) } if ctyp == valueTypeMap { containerLen := d.mapStart(d.d.ReadMapStart()) if containerLen == 0 { d.mapEnd() return } hasLen := containerLen >= 0 var name2 []byte var rvkencname []byte tkt := ti.keyType for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.mapElemKey(j == 0) if tkt == valueTypeString { sab, att := d.d.DecodeStringAsBytes() rvkencname = d.usableStructFieldNameBytes(rvkencname, sab, att) } else if tkt == valueTypeInt { rvkencname = strconv.AppendInt(d.b[:0], d.d.DecodeInt64(), 10) } else if tkt == valueTypeUint { rvkencname = strconv.AppendUint(d.b[:0], d.d.DecodeUint64(), 10) } else if tkt == valueTypeFloat { rvkencname = strconv.AppendFloat(d.b[:0], d.d.DecodeFloat64(), 'f', -1, 64) } else { halt.errorStr2("invalid struct key type: ", ti.keyType.String()) } d.mapElemValue() if si := ti.siForEncName(rvkencname); si != nil { d.kStructField(si, rv) } else if mf != nil { name2 = append(name2[:0], rvkencname...) var f interface{} d.decode(&f) if !mf.CodecMissingField(name2, f) && d.h.ErrorIfNoField { halt.errorStr2("no matching struct field when decoding stream map with key: ", stringView(name2)) } } else { d.structFieldNotFound(-1, stringView(rvkencname)) } } d.mapEnd() } else if ctyp == valueTypeArray { containerLen := d.arrayStart(d.d.ReadArrayStart()) if containerLen == 0 { d.arrayEnd() return } tisfi := ti.sfi.source() hasLen := containerLen >= 0 for j := 0; d.containerNext(j, containerLen, hasLen); j++ { d.arrayElem(j == 0) if j < len(tisfi) { d.kStructField(tisfi[j], rv) } else { d.structFieldNotFound(j, "") } } d.arrayEnd() } else { halt.onerror(errNeedMapOrArrayDecodeToStruct) } } func (d *decoderCborIO) kSlice(f *decFnInfo, rv reflect.Value) { _ = d.d ti := f.ti rvCanset := rv.CanSet() ctyp := d.d.ContainerType() if ctyp == valueTypeBytes || ctyp == valueTypeString { if !(ti.rtid == uint8SliceTypId || ti.elemkind == uint8(reflect.Uint8)) { halt.errorf("bytes/string in stream must decode into slice/array of bytes, not %v", ti.rt) } rvbs := rvGetBytes(rv) if rvCanset { bs2, bst := d.decodeBytesInto(rvbs, false) if bst != dBytesIntoParamOut { rvSetBytes(rv, bs2) } } else { d.decodeBytesInto(rvbs[:len(rvbs):len(rvbs)], true) } return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } if containerLenS == 0 { if rvCanset { if rvIsNil(rv) { rvSetDirect(rv, rvSliceZeroCap(ti.rt)) } else { rvSetSliceLen(rv, 0) } } if isArray { d.arrayEnd() } else { d.mapEnd() } return } rtelem0Mut := !scalarBitset.isset(ti.elemkind) rtelem := ti.elem for k := reflect.Kind(ti.elemkind); k == reflect.Ptr; k = rtelem.Kind() { rtelem = rtelem.Elem() } var fn *decFnCborIO var rvChanged bool var rv0 = rv var rv9 reflect.Value rvlen := rvLenSlice(rv) rvcap := rvCapSlice(rv) maxInitLen := d.maxInitLen() hasLen := containerLenS >= 0 if hasLen { if containerLenS > rvcap { oldRvlenGtZero := rvlen > 0 rvlen1 := int(decInferLen(containerLenS, maxInitLen, uint(ti.elemsize))) if rvlen1 == rvlen { } else if rvlen1 <= rvcap { if rvCanset { rvlen = rvlen1 rvSetSliceLen(rv, rvlen) } } else if rvCanset { rvlen = rvlen1 rv, rvCanset = rvMakeSlice(rv, f.ti, rvlen, rvlen) rvcap = rvlen rvChanged = !rvCanset } else { halt.errorStr("cannot decode into non-settable slice") } if rvChanged && oldRvlenGtZero && rtelem0Mut { rvCopySlice(rv, rv0, rtelem) } } else if containerLenS != rvlen { if rvCanset { rvlen = containerLenS rvSetSliceLen(rv, rvlen) } } } var elemReset = d.h.SliceElementReset var rtelemIsPtr bool var rtelemElem reflect.Type builtin := ti.tielem.flagDecBuiltin if builtin { rtelemIsPtr = ti.elemkind == uint8(reflect.Ptr) if rtelemIsPtr { rtelemElem = ti.elem.Elem() } } var j int for ; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if rvIsNil(rv) { if rvCanset { rvlen = int(decInferLen(containerLenS, maxInitLen, uint(ti.elemsize))) rv, rvCanset = rvMakeSlice(rv, f.ti, rvlen, rvlen) rvcap = rvlen rvChanged = !rvCanset } else { halt.errorStr("cannot decode into non-settable slice") } } if fn == nil { fn = d.fn(rtelem) } } if ctyp == valueTypeArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= rvlen { if rvlen < rvcap { rvlen = rvcap if rvCanset { rvSetSliceLen(rv, rvlen) } else if rvChanged { rv = rvSlice(rv, rvlen) } else { halt.onerror(errExpandSliceCannotChange) } } else { if !(rvCanset || rvChanged) { halt.onerror(errExpandSliceCannotChange) } rv, rvcap, rvCanset = rvGrowSlice(rv, f.ti, rvcap, 1) rvlen = rvcap rvChanged = !rvCanset } } rv9 = rvArrayIndex(rv, j, f.ti, true) if elemReset { rvSetZero(rv9) } if d.d.TryNil() { rvSetZero(rv9) } else if builtin { if rtelemIsPtr { if rvIsNil(rv9) { rvSetDirect(rv9, reflect.New(rtelemElem)) } d.decode(rv2i(rv9)) } else { d.decode(rv2i(rvAddr(rv9, ti.tielem.ptr))) } } else { d.decodeValueNoCheckNil(rv9, fn) } } if j < rvlen { if rvCanset { rvSetSliceLen(rv, j) } else if rvChanged { rv = rvSlice(rv, j) } } else if j == 0 && rvIsNil(rv) { if rvCanset { rv = rvSliceZeroCap(ti.rt) rvCanset = false rvChanged = true } } if isArray { d.arrayEnd() } else { d.mapEnd() } if rvChanged { rvSetDirect(rv0, rv) } } func (d *decoderCborIO) kArray(f *decFnInfo, rv reflect.Value) { _ = d.d ti := f.ti ctyp := d.d.ContainerType() if handleBytesWithinKArray && (ctyp == valueTypeBytes || ctyp == valueTypeString) { if ti.elemkind != uint8(reflect.Uint8) { halt.errorf("bytes/string in stream can decode into array of bytes, but not %v", ti.rt) } rvbs := rvGetArrayBytes(rv, nil) d.decodeBytesInto(rvbs, true) return } var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } if containerLenS == 0 { if isArray { d.arrayEnd() } else { d.mapEnd() } return } rtelem := ti.elem for k := reflect.Kind(ti.elemkind); k == reflect.Ptr; k = rtelem.Kind() { rtelem = rtelem.Elem() } var rv9 reflect.Value rvlen := rv.Len() hasLen := containerLenS >= 0 if hasLen && containerLenS > rvlen { halt.errorf("cannot decode into array with length: %v, less than container length: %v", any(rvlen), any(containerLenS)) } var elemReset = d.h.SliceElementReset var rtelemIsPtr bool var rtelemElem reflect.Type var fn *decFnCborIO builtin := ti.tielem.flagDecBuiltin if builtin { rtelemIsPtr = ti.elemkind == uint8(reflect.Ptr) if rtelemIsPtr { rtelemElem = ti.elem.Elem() } } else { fn = d.fn(rtelem) } for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if ctyp == valueTypeArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if j >= rvlen { d.arrayCannotExpand(rvlen, j+1) d.swallow() continue } rv9 = rvArrayIndex(rv, j, f.ti, false) if elemReset { rvSetZero(rv9) } if d.d.TryNil() { rvSetZero(rv9) } else if builtin { if rtelemIsPtr { if rvIsNil(rv9) { rvSetDirect(rv9, reflect.New(rtelemElem)) } d.decode(rv2i(rv9)) } else { d.decode(rv2i(rvAddr(rv9, ti.tielem.ptr))) } } else { d.decodeValueNoCheckNil(rv9, fn) } } if isArray { d.arrayEnd() } else { d.mapEnd() } } func (d *decoderCborIO) kChan(f *decFnInfo, rv reflect.Value) { _ = d.d ti := f.ti if ti.chandir&uint8(reflect.SendDir) == 0 { halt.errorStr("receive-only channel cannot be decoded") } ctyp := d.d.ContainerType() if ctyp == valueTypeBytes || ctyp == valueTypeString { if !(ti.rtid == uint8SliceTypId || ti.elemkind == uint8(reflect.Uint8)) { halt.errorf("bytes/string in stream must decode into slice/array of bytes, not %v", ti.rt) } bs2, _ := d.d.DecodeBytes() irv := rv2i(rv) ch, ok := irv.(chan<- byte) if !ok { ch = irv.(chan byte) } for _, b := range bs2 { ch <- b } return } var rvCanset = rv.CanSet() var containerLenS int isArray := ctyp == valueTypeArray if isArray { containerLenS = d.arrayStart(d.d.ReadArrayStart()) } else if ctyp == valueTypeMap { containerLenS = d.mapStart(d.d.ReadMapStart()) * 2 } else { halt.errorStr2("decoding into a slice, expect map/array - got ", ctyp.String()) } if containerLenS == 0 { if rvCanset && rvIsNil(rv) { rvSetDirect(rv, reflect.MakeChan(ti.rt, 0)) } if isArray { d.arrayEnd() } else { d.mapEnd() } return } rtelem := ti.elem useTransient := decUseTransient && ti.elemkind != byte(reflect.Ptr) && ti.tielem.flagCanTransient for k := reflect.Kind(ti.elemkind); k == reflect.Ptr; k = rtelem.Kind() { rtelem = rtelem.Elem() } var fn *decFnCborIO var rvChanged bool var rv0 = rv var rv9 reflect.Value var rvlen int hasLen := containerLenS >= 0 maxInitLen := d.maxInitLen() for j := 0; d.containerNext(j, containerLenS, hasLen); j++ { if j == 0 { if rvIsNil(rv) { if hasLen { rvlen = int(decInferLen(containerLenS, maxInitLen, uint(ti.elemsize))) } else { rvlen = decDefChanCap } if rvCanset { rv = reflect.MakeChan(ti.rt, rvlen) rvChanged = true } else { halt.errorStr("cannot decode into non-settable chan") } } if fn == nil { fn = d.fn(rtelem) } } if ctyp == valueTypeArray { d.arrayElem(j == 0) } else if j&1 == 0 { d.mapElemKey(j == 0) } else { d.mapElemValue() } if rv9.IsValid() { rvSetZero(rv9) } else if useTransient { rv9 = d.perType.TransientAddrK(ti.elem, reflect.Kind(ti.elemkind)) } else { rv9 = rvZeroAddrK(ti.elem, reflect.Kind(ti.elemkind)) } if !d.d.TryNil() { d.decodeValueNoCheckNil(rv9, fn) } rv.Send(rv9) } if isArray { d.arrayEnd() } else { d.mapEnd() } if rvChanged { rvSetDirect(rv0, rv) } } func (d *decoderCborIO) kMap(f *decFnInfo, rv reflect.Value) { _ = d.d containerLen := d.mapStart(d.d.ReadMapStart()) ti := f.ti if rvIsNil(rv) { rvlen := int(decInferLen(containerLen, d.maxInitLen(), uint(ti.keysize+ti.elemsize))) rvSetDirect(rv, makeMapReflect(ti.rt, rvlen)) } if containerLen == 0 { d.mapEnd() return } ktype, vtype := ti.key, ti.elem ktypeId := rt2id(ktype) vtypeKind := reflect.Kind(ti.elemkind) ktypeKind := reflect.Kind(ti.keykind) mparams := getMapReqParams(ti) vtypePtr := vtypeKind == reflect.Ptr ktypePtr := ktypeKind == reflect.Ptr vTransient := decUseTransient && !vtypePtr && ti.tielem.flagCanTransient kTransient := vTransient && !ktypePtr && ti.tikey.flagCanTransient var vtypeElem reflect.Type var keyFn, valFn *decFnCborIO var ktypeLo, vtypeLo = ktype, vtype if ktypeKind == reflect.Ptr { for ktypeLo = ktype.Elem(); ktypeLo.Kind() == reflect.Ptr; ktypeLo = ktypeLo.Elem() { } } if vtypePtr { vtypeElem = vtype.Elem() for vtypeLo = vtypeElem; vtypeLo.Kind() == reflect.Ptr; vtypeLo = vtypeLo.Elem() { } } rvkMut := !scalarBitset.isset(ti.keykind) rvvMut := !scalarBitset.isset(ti.elemkind) rvvCanNil := isnilBitset.isset(ti.elemkind) var rvk, rvkn, rvv, rvvn, rvva, rvvz reflect.Value var doMapGet, doMapSet bool if !d.h.MapValueReset { if rvvMut && (vtypeKind != reflect.Interface || !d.h.InterfaceReset) { doMapGet = true rvva = mapAddrLoopvarRV(vtype, vtypeKind) } } ktypeIsString := ktypeId == stringTypId ktypeIsIntf := ktypeId == intfTypId hasLen := containerLen >= 0 var kstr2bs []byte var kstr string var mapKeyStringSharesBytesBuf bool var att dBytesAttachState var vElem, kElem reflect.Type kbuiltin := ti.tikey.flagDecBuiltin && ti.keykind != uint8(reflect.Slice) vbuiltin := ti.tielem.flagDecBuiltin if kbuiltin && ktypePtr { kElem = ti.key.Elem() } if vbuiltin && vtypePtr { vElem = ti.elem.Elem() } for j := 0; d.containerNext(j, containerLen, hasLen); j++ { mapKeyStringSharesBytesBuf = false kstr = "" if j == 0 { if kTransient { rvk = d.perType.TransientAddr2K(ktype, ktypeKind) } else { rvk = rvZeroAddrK(ktype, ktypeKind) } if !rvkMut { rvkn = rvk } if !rvvMut { if vTransient { rvvn = d.perType.TransientAddrK(vtype, vtypeKind) } else { rvvn = rvZeroAddrK(vtype, vtypeKind) } } if !ktypeIsString && keyFn == nil { keyFn = d.fn(ktypeLo) } if valFn == nil { valFn = d.fn(vtypeLo) } } else if rvkMut { rvSetZero(rvk) } else { rvk = rvkn } d.mapElemKey(j == 0) if d.d.TryNil() { rvSetZero(rvk) } else if ktypeIsString { kstr2bs, att = d.d.DecodeStringAsBytes() kstr, mapKeyStringSharesBytesBuf = d.bytes2Str(kstr2bs, att) rvSetString(rvk, kstr) } else { if kbuiltin { if ktypePtr { if rvIsNil(rvk) { rvSetDirect(rvk, reflect.New(kElem)) } d.decode(rv2i(rvk)) } else { d.decode(rv2i(rvAddr(rvk, ti.tikey.ptr))) } } else { d.decodeValueNoCheckNil(rvk, keyFn) } if ktypeIsIntf { if rvk2 := rvk.Elem(); rvk2.IsValid() && rvk2.Type() == uint8SliceTyp { kstr2bs = rvGetBytes(rvk2) kstr, mapKeyStringSharesBytesBuf = d.bytes2Str(kstr2bs, dBytesAttachView) rvSetIntf(rvk, rv4istr(kstr)) } } } if mapKeyStringSharesBytesBuf && d.bufio { if ktypeIsString { rvSetString(rvk, d.detach2Str(kstr2bs, att)) } else { rvSetIntf(rvk, rv4istr(d.detach2Str(kstr2bs, att))) } mapKeyStringSharesBytesBuf = false } d.mapElemValue() if d.d.TryNil() { if mapKeyStringSharesBytesBuf { if ktypeIsString { rvSetString(rvk, d.detach2Str(kstr2bs, att)) } else { rvSetIntf(rvk, rv4istr(d.detach2Str(kstr2bs, att))) } } if !rvvz.IsValid() { rvvz = rvZeroK(vtype, vtypeKind) } mapSet(rv, rvk, rvvz, mparams) continue } doMapSet = true if !rvvMut { rvv = rvvn } else if !doMapGet { goto NEW_RVV } else { rvv = mapGet(rv, rvk, rvva, mparams) if !rvv.IsValid() || (rvvCanNil && rvIsNil(rvv)) { goto NEW_RVV } switch vtypeKind { case reflect.Ptr, reflect.Map: doMapSet = false case reflect.Interface: rvvn = rvv.Elem() if k := rvvn.Kind(); (k == reflect.Ptr || k == reflect.Map) && !rvIsNil(rvvn) { d.decodeValueNoCheckNil(rvvn, nil) continue } rvvn = rvZeroAddrK(vtype, vtypeKind) rvSetIntf(rvvn, rvv) rvv = rvvn default: if vTransient { rvvn = d.perType.TransientAddrK(vtype, vtypeKind) } else { rvvn = rvZeroAddrK(vtype, vtypeKind) } rvSetDirect(rvvn, rvv) rvv = rvvn } } goto DECODE_VALUE_NO_CHECK_NIL NEW_RVV: if vtypePtr { rvv = reflect.New(vtypeElem) } else if vTransient { rvv = d.perType.TransientAddrK(vtype, vtypeKind) } else { rvv = rvZeroAddrK(vtype, vtypeKind) } DECODE_VALUE_NO_CHECK_NIL: if doMapSet && mapKeyStringSharesBytesBuf { if ktypeIsString { rvSetString(rvk, d.detach2Str(kstr2bs, att)) } else { rvSetIntf(rvk, rv4istr(d.detach2Str(kstr2bs, att))) } } if vbuiltin { if vtypePtr { if rvIsNil(rvv) { rvSetDirect(rvv, reflect.New(vElem)) } d.decode(rv2i(rvv)) } else { d.decode(rv2i(rvAddr(rvv, ti.tielem.ptr))) } } else { d.decodeValueNoCheckNil(rvv, valFn) } if doMapSet { mapSet(rv, rvk, rvv, mparams) } } d.mapEnd() } func (d *decoderCborIO) init(h Handle) { initHandle(h) callMake(&d.d) d.hh = h d.h = h.getBasicHandle() d.err = errDecoderNotInitialized if d.h.InternString && d.is == nil { d.is.init() } d.fp = d.d.init(h, &d.decoderBase, d).(*fastpathDsCborIO) if d.bytes { d.rtidFn = &d.h.rtidFnsDecBytes d.rtidFnNoExt = &d.h.rtidFnsDecNoExtBytes } else { d.bufio = d.h.ReaderBufferSize > 0 d.rtidFn = &d.h.rtidFnsDecIO d.rtidFnNoExt = &d.h.rtidFnsDecNoExtIO } d.reset() } func (d *decoderCborIO) reset() { d.d.reset() d.err = nil d.c = 0 d.depth = 0 d.calls = 0 d.maxdepth = decDefMaxDepth if d.h.MaxDepth > 0 { d.maxdepth = d.h.MaxDepth } d.mtid = 0 d.stid = 0 d.mtr = false d.str = false if d.h.MapType != nil { d.mtid = rt2id(d.h.MapType) _, d.mtr = fastpathAvIndex(d.mtid) } if d.h.SliceType != nil { d.stid = rt2id(d.h.SliceType) _, d.str = fastpathAvIndex(d.stid) } } func (d *decoderCborIO) Reset(r io.Reader) { if d.bytes { halt.onerror(errDecNoResetBytesWithReader) } d.reset() if r == nil { r = &eofReader } d.d.resetInIO(r) } func (d *decoderCborIO) ResetBytes(in []byte) { if !d.bytes { halt.onerror(errDecNoResetReaderWithBytes) } d.resetBytes(in) } func (d *decoderCborIO) resetBytes(in []byte) { d.reset() if in == nil { in = zeroByteSlice } d.d.resetInBytes(in) } func (d *decoderCborIO) ResetString(s string) { d.ResetBytes(bytesView(s)) } func (d *decoderCborIO) Decode(v interface{}) (err error) { defer panicValToErr(d, callRecoverSentinel, &d.err, &err, debugging) d.mustDecode(v) return } func (d *decoderCborIO) MustDecode(v interface{}) { defer panicValToErr(d, callRecoverSentinel, &d.err, nil, true) d.mustDecode(v) return } func (d *decoderCborIO) mustDecode(v interface{}) { halt.onerror(d.err) if d.hh == nil { halt.onerror(errNoFormatHandle) } d.calls++ d.decode(v) d.calls-- } func (d *decoderCborIO) Release() {} func (d *decoderCborIO) swallow() { d.d.nextValueBytes() } func (d *decoderCborIO) nextValueBytes() []byte { return d.d.nextValueBytes() } func (d *decoderCborIO) decode(iv interface{}) { _ = d.d rv, ok := isNil(iv, true) if ok { halt.onerror(errCannotDecodeIntoNil) } switch v := iv.(type) { case *string: *v = d.detach2Str(d.d.DecodeStringAsBytes()) case *bool: *v = d.d.DecodeBool() case *int: *v = int(chkOvf.IntV(d.d.DecodeInt64(), intBitsize)) case *int8: *v = int8(chkOvf.IntV(d.d.DecodeInt64(), 8)) case *int16: *v = int16(chkOvf.IntV(d.d.DecodeInt64(), 16)) case *int32: *v = int32(chkOvf.IntV(d.d.DecodeInt64(), 32)) case *int64: *v = d.d.DecodeInt64() case *uint: *v = uint(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize)) case *uint8: *v = uint8(chkOvf.UintV(d.d.DecodeUint64(), 8)) case *uint16: *v = uint16(chkOvf.UintV(d.d.DecodeUint64(), 16)) case *uint32: *v = uint32(chkOvf.UintV(d.d.DecodeUint64(), 32)) case *uint64: *v = d.d.DecodeUint64() case *uintptr: *v = uintptr(chkOvf.UintV(d.d.DecodeUint64(), uintBitsize)) case *float32: *v = d.d.DecodeFloat32() case *float64: *v = d.d.DecodeFloat64() case *complex64: *v = complex(d.d.DecodeFloat32(), 0) case *complex128: *v = complex(d.d.DecodeFloat64(), 0) case *[]byte: *v, _ = d.decodeBytesInto(*v, false) case []byte: d.decodeBytesInto(v[:len(v):len(v)], true) case *time.Time: *v = d.d.DecodeTime() case *Raw: *v = d.rawBytes() case *interface{}: d.decodeValue(rv4iptr(v), nil) case reflect.Value: if ok, _ = isDecodeable(v); !ok { d.haltAsNotDecodeable(v) } d.decodeValue(v, nil) default: if skipFastpathTypeSwitchInDirectCall || !d.dh.fastpathDecodeTypeSwitch(iv, d) { if !rv.IsValid() { rv = reflect.ValueOf(iv) } if ok, _ = isDecodeable(rv); !ok { d.haltAsNotDecodeable(rv) } d.decodeValue(rv, nil) } } } func (d *decoderCborIO) decodeValue(rv reflect.Value, fn *decFnCborIO) { if d.d.TryNil() { decSetNonNilRV2Zero(rv) } else { d.decodeValueNoCheckNil(rv, fn) } } func (d *decoderCborIO) decodeValueNoCheckNil(rv reflect.Value, fn *decFnCborIO) { var rvp reflect.Value var rvpValid bool PTR: if rv.Kind() == reflect.Ptr { rvpValid = true if rvIsNil(rv) { rvSetDirect(rv, reflect.New(rv.Type().Elem())) } rvp = rv rv = rv.Elem() goto PTR } if fn == nil { fn = d.fn(rv.Type()) } if fn.i.addrD { if rvpValid { rv = rvp } else if rv.CanAddr() { rv = rvAddr(rv, fn.i.ti.ptr) } else if fn.i.addrDf { halt.errorStr("cannot decode into a non-pointer value") } } fn.fd(d, &fn.i, rv) } func (d *decoderCborIO) decodeAs(v interface{}, t reflect.Type, ext bool) { if ext { d.decodeValue(baseRV(v), d.fn(t)) } else { d.decodeValue(baseRV(v), d.fnNoExt(t)) } } func (d *decoderCborIO) structFieldNotFound(index int, rvkencname string) { if d.h.ErrorIfNoField { if index >= 0 { halt.errorInt("no matching struct field found when decoding stream array at index ", int64(index)) } else if rvkencname != "" { halt.errorStr2("no matching struct field found when decoding stream map with key ", rvkencname) } } d.swallow() } func (d *decoderCborIO) decodeBytesInto(out []byte, mustFit bool) (v []byte, state dBytesIntoState) { v, att := d.d.DecodeBytes() if cap(v) == 0 || (att >= dBytesAttachViewZerocopy && !mustFit) { return } if len(v) == 0 { v = zeroByteSlice return } if len(out) == len(v) { state = dBytesIntoParamOut } else if cap(out) >= len(v) { out = out[:len(v)] state = dBytesIntoParamOutSlice } else if mustFit { halt.errorf("bytes capacity insufficient for decoded bytes: got/expected: %d/%d", len(v), len(out)) } else { out = make([]byte, len(v)) state = dBytesIntoNew } copy(out, v) v = out return } func (d *decoderCborIO) rawBytes() (v []byte) { v = d.d.nextValueBytes() if d.bytes && !d.h.ZeroCopy { vv := make([]byte, len(v)) copy(vv, v) v = vv } return } func (d *decoderCborIO) wrapErr(v error, err *error) { *err = wrapCodecErr(v, d.hh.Name(), d.d.NumBytesRead(), false) } func (d *decoderCborIO) NumBytesRead() int { return d.d.NumBytesRead() } func (d *decoderCborIO) containerNext(j, containerLen int, hasLen bool) bool { if hasLen { return j < containerLen } return !d.d.CheckBreak() } func (d *decoderCborIO) mapElemKey(firstTime bool) { d.d.ReadMapElemKey(firstTime) d.c = containerMapKey } func (d *decoderCborIO) mapElemValue() { d.d.ReadMapElemValue() d.c = containerMapValue } func (d *decoderCborIO) mapEnd() { d.d.ReadMapEnd() d.depthDecr() d.c = 0 } func (d *decoderCborIO) arrayElem(firstTime bool) { d.d.ReadArrayElem(firstTime) d.c = containerArrayElem } func (d *decoderCborIO) arrayEnd() { d.d.ReadArrayEnd() d.depthDecr() d.c = 0 } func (d *decoderCborIO) interfaceExtConvertAndDecode(v interface{}, ext InterfaceExt) { var vv interface{} d.decode(&vv) ext.UpdateExt(v, vv) } func (d *decoderCborIO) fn(t reflect.Type) *decFnCborIO { return d.dh.decFnViaBH(t, d.rtidFn, d.h, d.fp, false) } func (d *decoderCborIO) fnNoExt(t reflect.Type) *decFnCborIO { return d.dh.decFnViaBH(t, d.rtidFnNoExt, d.h, d.fp, true) } func (helperDecDriverCborIO) newDecoderBytes(in []byte, h Handle) *decoderCborIO { var c1 decoderCborIO c1.bytes = true c1.init(h) c1.ResetBytes(in) return &c1 } func (helperDecDriverCborIO) newDecoderIO(in io.Reader, h Handle) *decoderCborIO { var c1 decoderCborIO c1.init(h) c1.Reset(in) return &c1 } func (helperDecDriverCborIO) decFnloadFastpathUnderlying(ti *typeInfo, fp *fastpathDsCborIO) (f *fastpathDCborIO, u reflect.Type) { rtid := rt2id(ti.fastpathUnderlying) idx, ok := fastpathAvIndex(rtid) if !ok { return } f = &fp[idx] if uint8(reflect.Array) == ti.kind { u = reflect.ArrayOf(ti.rt.Len(), ti.elem) } else { u = f.rt } return } func (helperDecDriverCborIO) decFindRtidFn(s []decRtidFnCborIO, rtid uintptr) (i uint, fn *decFnCborIO) { var h uint var j = uint(len(s)) LOOP: if i < j { h = (i + j) >> 1 if s[h].rtid < rtid { i = h + 1 } else { j = h } goto LOOP } if i < uint(len(s)) && s[i].rtid == rtid { fn = s[i].fn } return } func (helperDecDriverCborIO) decFromRtidFnSlice(fns *atomicRtidFnSlice) (s []decRtidFnCborIO) { if v := fns.load(); v != nil { s = *(lowLevelToPtr[[]decRtidFnCborIO](v)) } return } func (dh helperDecDriverCborIO) decFnViaBH(rt reflect.Type, fns *atomicRtidFnSlice, x *BasicHandle, fp *fastpathDsCborIO, checkExt bool) (fn *decFnCborIO) { return dh.decFnVia(rt, fns, x.typeInfos(), &x.mu, x.extHandle, fp, checkExt, x.CheckCircularRef, x.timeBuiltin, x.binaryHandle, x.jsonHandle) } func (dh helperDecDriverCborIO) decFnVia(rt reflect.Type, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathDsCborIO, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *decFnCborIO) { rtid := rt2id(rt) var sp []decRtidFnCborIO = dh.decFromRtidFnSlice(fns) if sp != nil { _, fn = dh.decFindRtidFn(sp, rtid) } if fn == nil { fn = dh.decFnViaLoader(rt, rtid, fns, tinfos, mu, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) } return } func (dh helperDecDriverCborIO) decFnViaLoader(rt reflect.Type, rtid uintptr, fns *atomicRtidFnSlice, tinfos *TypeInfos, mu *sync.Mutex, exth extHandle, fp *fastpathDsCborIO, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *decFnCborIO) { fn = dh.decFnLoad(rt, rtid, tinfos, exth, fp, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json) var sp []decRtidFnCborIO mu.Lock() sp = dh.decFromRtidFnSlice(fns) if sp == nil { sp = []decRtidFnCborIO{{rtid, fn}} fns.store(ptrToLowLevel(&sp)) } else { idx, fn2 := dh.decFindRtidFn(sp, rtid) if fn2 == nil { sp2 := make([]decRtidFnCborIO, len(sp)+1) copy(sp2[idx+1:], sp[idx:]) copy(sp2, sp[:idx]) sp2[idx] = decRtidFnCborIO{rtid, fn} fns.store(ptrToLowLevel(&sp2)) } } mu.Unlock() return } func (dh helperDecDriverCborIO) decFnLoad(rt reflect.Type, rtid uintptr, tinfos *TypeInfos, exth extHandle, fp *fastpathDsCborIO, checkExt, checkCircularRef, timeBuiltin, binaryEncoding, json bool) (fn *decFnCborIO) { fn = new(decFnCborIO) fi := &(fn.i) ti := tinfos.get(rtid, rt) fi.ti = ti rk := reflect.Kind(ti.kind) fi.addrDf = true if rtid == timeTypId && timeBuiltin { fn.fd = (*decoderCborIO).kTime } else if rtid == rawTypId { fn.fd = (*decoderCborIO).raw } else if rtid == rawExtTypId { fn.fd = (*decoderCborIO).rawExt fi.addrD = true } else if xfFn := exth.getExt(rtid, checkExt); xfFn != nil { fi.xfTag, fi.xfFn = xfFn.tag, xfFn.ext fn.fd = (*decoderCborIO).ext fi.addrD = true } else if ti.flagSelfer || ti.flagSelferPtr { fn.fd = (*decoderCborIO).selferUnmarshal fi.addrD = ti.flagSelferPtr } else if supportMarshalInterfaces && binaryEncoding && (ti.flagBinaryMarshaler || ti.flagBinaryMarshalerPtr) && (ti.flagBinaryUnmarshaler || ti.flagBinaryUnmarshalerPtr) { fn.fd = (*decoderCborIO).binaryUnmarshal fi.addrD = ti.flagBinaryUnmarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && json && (ti.flagJsonMarshaler || ti.flagJsonMarshalerPtr) && (ti.flagJsonUnmarshaler || ti.flagJsonUnmarshalerPtr) { fn.fd = (*decoderCborIO).jsonUnmarshal fi.addrD = ti.flagJsonUnmarshalerPtr } else if supportMarshalInterfaces && !binaryEncoding && (ti.flagTextMarshaler || ti.flagTextMarshalerPtr) && (ti.flagTextUnmarshaler || ti.flagTextUnmarshalerPtr) { fn.fd = (*decoderCborIO).textUnmarshal fi.addrD = ti.flagTextUnmarshalerPtr } else { if fastpathEnabled && (rk == reflect.Map || rk == reflect.Slice || rk == reflect.Array) { var rtid2 uintptr if !ti.flagHasPkgPath { rtid2 = rtid if rk == reflect.Array { rtid2 = rt2id(ti.key) } if idx, ok := fastpathAvIndex(rtid2); ok { fn.fd = fp[idx].decfn fi.addrD = true fi.addrDf = false if rk == reflect.Array { fi.addrD = false } } } else { xfe, xrt := dh.decFnloadFastpathUnderlying(ti, fp) if xfe != nil { xfnf2 := xfe.decfn if rk == reflect.Array { fi.addrD = false fn.fd = func(d *decoderCborIO, xf *decFnInfo, xrv reflect.Value) { xfnf2(d, xf, rvConvert(xrv, xrt)) } } else { fi.addrD = true fi.addrDf = false xptr2rt := reflect.PointerTo(xrt) fn.fd = func(d *decoderCborIO, xf *decFnInfo, xrv reflect.Value) { if xrv.Kind() == reflect.Ptr { xfnf2(d, xf, rvConvert(xrv, xptr2rt)) } else { xfnf2(d, xf, rvConvert(xrv, xrt)) } } } } } } if fn.fd == nil { switch rk { case reflect.Bool: fn.fd = (*decoderCborIO).kBool case reflect.String: fn.fd = (*decoderCborIO).kString case reflect.Int: fn.fd = (*decoderCborIO).kInt case reflect.Int8: fn.fd = (*decoderCborIO).kInt8 case reflect.Int16: fn.fd = (*decoderCborIO).kInt16 case reflect.Int32: fn.fd = (*decoderCborIO).kInt32 case reflect.Int64: fn.fd = (*decoderCborIO).kInt64 case reflect.Uint: fn.fd = (*decoderCborIO).kUint case reflect.Uint8: fn.fd = (*decoderCborIO).kUint8 case reflect.Uint16: fn.fd = (*decoderCborIO).kUint16 case reflect.Uint32: fn.fd = (*decoderCborIO).kUint32 case reflect.Uint64: fn.fd = (*decoderCborIO).kUint64 case reflect.Uintptr: fn.fd = (*decoderCborIO).kUintptr case reflect.Float32: fn.fd = (*decoderCborIO).kFloat32 case reflect.Float64: fn.fd = (*decoderCborIO).kFloat64 case reflect.Complex64: fn.fd = (*decoderCborIO).kComplex64 case reflect.Complex128: fn.fd = (*decoderCborIO).kComplex128 case reflect.Chan: fn.fd = (*decoderCborIO).kChan case reflect.Slice: fn.fd = (*decoderCborIO).kSlice case reflect.Array: fi.addrD = false fn.fd = (*decoderCborIO).kArray case reflect.Struct: if ti.simple { fn.fd = (*decoderCborIO).kStructSimple } else { fn.fd = (*decoderCborIO).kStruct } case reflect.Map: fn.fd = (*decoderCborIO).kMap case reflect.Interface: fn.fd = (*decoderCborIO).kInterface default: fn.fd = (*decoderCborIO).kErr } } } return } func (e *cborEncDriverIO) EncodeNil() { e.w.writen1(cborBdNil) } func (e *cborEncDriverIO) EncodeBool(b bool) { if b { e.w.writen1(cborBdTrue) } else { e.w.writen1(cborBdFalse) } } func (e *cborEncDriverIO) EncodeFloat32(f float32) { b := math.Float32bits(f) if e.h.OptimumSize { if h := floatToHalfFloatBits(b); halfFloatToFloatBits(h) == b { e.w.writen1(cborBdFloat16) e.w.writen2(bigen.PutUint16(h)) return } } e.w.writen1(cborBdFloat32) e.w.writen4(bigen.PutUint32(b)) } func (e *cborEncDriverIO) EncodeFloat64(f float64) { if e.h.OptimumSize { if f32 := float32(f); float64(f32) == f { e.EncodeFloat32(f32) return } } e.w.writen1(cborBdFloat64) e.w.writen8(bigen.PutUint64(math.Float64bits(f))) } func (e *cborEncDriverIO) encUint(v uint64, bd byte) { if v <= 0x17 { e.w.writen1(byte(v) + bd) } else if v <= math.MaxUint8 { e.w.writen2(bd+0x18, uint8(v)) } else if v <= math.MaxUint16 { e.w.writen1(bd + 0x19) e.w.writen2(bigen.PutUint16(uint16(v))) } else if v <= math.MaxUint32 { e.w.writen1(bd + 0x1a) e.w.writen4(bigen.PutUint32(uint32(v))) } else { e.w.writen1(bd + 0x1b) e.w.writen8(bigen.PutUint64(v)) } } func (e *cborEncDriverIO) EncodeInt(v int64) { if v < 0 { e.encUint(uint64(-1-v), cborBaseNegInt) } else { e.encUint(uint64(v), cborBaseUint) } } func (e *cborEncDriverIO) EncodeUint(v uint64) { e.encUint(v, cborBaseUint) } func (e *cborEncDriverIO) encLen(bd byte, length int) { e.encUint(uint64(length), bd) } func (e *cborEncDriverIO) EncodeTime(t time.Time) { if t.IsZero() { e.EncodeNil() } else if e.h.TimeRFC3339 { e.encUint(0, cborBaseTag) e.encStringBytesS(cborBaseString, stringView(t.AppendFormat(e.b[:0], time.RFC3339Nano))) } else { e.encUint(1, cborBaseTag) t = t.UTC().Round(time.Microsecond) sec, nsec := t.Unix(), uint64(t.Nanosecond()) if nsec == 0 { e.EncodeInt(sec) } else { e.EncodeFloat64(float64(sec) + float64(nsec)/1e9) } } } func (e *cborEncDriverIO) EncodeExt(rv interface{}, basetype reflect.Type, xtag uint64, ext Ext) { e.encUint(uint64(xtag), cborBaseTag) if ext == SelfExt { e.enc.encodeAs(rv, basetype, false) } else if v := ext.ConvertExt(rv); v == nil { e.writeNilBytes() } else { e.enc.encodeI(v) } } func (e *cborEncDriverIO) EncodeRawExt(re *RawExt) { e.encUint(uint64(re.Tag), cborBaseTag) if re.Data != nil { e.w.writeb(re.Data) } else if re.Value != nil { e.enc.encodeI(re.Value) } else { e.EncodeNil() } } func (e *cborEncDriverIO) WriteArrayEmpty() { if e.h.IndefiniteLength { e.w.writen2(cborBdIndefiniteArray, cborBdBreak) } else { e.w.writen1(cborBaseArray) } } func (e *cborEncDriverIO) WriteMapEmpty() { if e.h.IndefiniteLength { e.w.writen2(cborBdIndefiniteMap, cborBdBreak) } else { e.w.writen1(cborBaseMap) } } func (e *cborEncDriverIO) WriteArrayStart(length int) { if e.h.IndefiniteLength { e.w.writen1(cborBdIndefiniteArray) } else { e.encLen(cborBaseArray, length) } } func (e *cborEncDriverIO) WriteMapStart(length int) { if e.h.IndefiniteLength { e.w.writen1(cborBdIndefiniteMap) } else { e.encLen(cborBaseMap, length) } } func (e *cborEncDriverIO) WriteMapEnd() { if e.h.IndefiniteLength { e.w.writen1(cborBdBreak) } } func (e *cborEncDriverIO) WriteArrayEnd() { if e.h.IndefiniteLength { e.w.writen1(cborBdBreak) } } func (e *cborEncDriverIO) EncodeString(v string) { bb := cborBaseString if e.h.StringToRaw { bb = cborBaseBytes } e.encStringBytesS(bb, v) } func (e *cborEncDriverIO) EncodeStringNoEscape4Json(v string) { e.EncodeString(v) } func (e *cborEncDriverIO) EncodeStringBytesRaw(v []byte) { e.encStringBytesS(cborBaseBytes, stringView(v)) } func (e *cborEncDriverIO) encStringBytesS(bb byte, v string) { if e.h.IndefiniteLength { if bb == cborBaseBytes { e.w.writen1(cborBdIndefiniteBytes) } else { e.w.writen1(cborBdIndefiniteString) } vlen := uint(len(v)) n := max(4, min(vlen/4, 1024)) for i := uint(0); i < vlen; { i2 := i + n if i2 >= vlen { i2 = vlen } v2 := v[i:i2] e.encLen(bb, len(v2)) e.w.writestr(v2) i = i2 } e.w.writen1(cborBdBreak) } else { e.encLen(bb, len(v)) e.w.writestr(v) } } func (e *cborEncDriverIO) EncodeBytes(v []byte) { if v == nil { e.writeNilBytes() return } e.EncodeStringBytesRaw(v) } func (e *cborEncDriverIO) writeNilOr(v byte) { if !e.h.NilCollectionToZeroLength { v = cborBdNil } e.w.writen1(v) } func (e *cborEncDriverIO) writeNilArray() { e.writeNilOr(cborBaseArray) } func (e *cborEncDriverIO) writeNilMap() { e.writeNilOr(cborBaseMap) } func (e *cborEncDriverIO) writeNilBytes() { e.writeNilOr(cborBaseBytes) } func (d *cborDecDriverIO) readNextBd() { d.bd = d.r.readn1() d.bdRead = true } func (d *cborDecDriverIO) advanceNil() (null bool) { if !d.bdRead { d.readNextBd() } if d.bd == cborBdNil || d.bd == cborBdUndefined { d.bdRead = false return true } return } func (d *cborDecDriverIO) TryNil() bool { return d.advanceNil() } func (d *cborDecDriverIO) skipTags() { for d.bd>>5 == cborMajorTag { d.decUint() d.bd = d.r.readn1() } } func (d *cborDecDriverIO) ContainerType() (vt valueType) { if !d.bdRead { d.readNextBd() } if d.h.SkipUnexpectedTags { d.skipTags() } if d.bd == cborBdNil { d.bdRead = false return valueTypeNil } major := d.bd >> 5 if major == cborMajorBytes { return valueTypeBytes } else if major == cborMajorString { return valueTypeString } else if major == cborMajorArray { return valueTypeArray } else if major == cborMajorMap { return valueTypeMap } return valueTypeUnset } func (d *cborDecDriverIO) CheckBreak() (v bool) { if !d.bdRead { d.readNextBd() } if d.bd == cborBdBreak { d.bdRead = false v = true } return } func (d *cborDecDriverIO) decUint() (ui uint64) { v := d.bd & 0x1f if v <= 0x17 { ui = uint64(v) } else if v == 0x18 { ui = uint64(d.r.readn1()) } else if v == 0x19 { ui = uint64(bigen.Uint16(d.r.readn2())) } else if v == 0x1a { ui = uint64(bigen.Uint32(d.r.readn4())) } else if v == 0x1b { ui = uint64(bigen.Uint64(d.r.readn8())) } else { halt.errorf("invalid descriptor decoding uint: %x/%s (%x)", d.bd, cbordesc(d.bd), v) } return } func (d *cborDecDriverIO) decLen() int { return int(d.decUint()) } func (d *cborDecDriverIO) decFloat() (f float64, ok bool) { ok = true switch d.bd { case cborBdFloat16: f = float64(math.Float32frombits(halfFloatToFloatBits(bigen.Uint16(d.r.readn2())))) case cborBdFloat32: f = float64(math.Float32frombits(bigen.Uint32(d.r.readn4()))) case cborBdFloat64: f = math.Float64frombits(bigen.Uint64(d.r.readn8())) default: if d.bd>>5 == cborMajorTag { switch d.bd & 0x1f { case 2: f = d.decTagBigIntAsFloat(false) case 3: f = d.decTagBigIntAsFloat(true) case 4: f = d.decTagBigFloatAsFloat(true) case 5: f = d.decTagBigFloatAsFloat(false) default: ok = false } } else { ok = false } } return } func (d *cborDecDriverIO) decInteger() (ui uint64, neg, ok bool) { ok = true switch d.bd >> 5 { case cborMajorUint: ui = d.decUint() case cborMajorNegInt: ui = d.decUint() neg = true default: ok = false } return } func (d *cborDecDriverIO) DecodeInt64() (i int64) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } v1, v2, v3 := d.decInteger() i = decNegintPosintFloatNumberHelper{d}.int64(v1, v2, v3, true) d.bdRead = false return } func (d *cborDecDriverIO) DecodeUint64() (ui uint64) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } ui = decNegintPosintFloatNumberHelper{d}.uint64(d.decInteger()) d.bdRead = false return } func (d *cborDecDriverIO) DecodeFloat64() (f float64) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } v1, v2 := d.decFloat() f = decNegintPosintFloatNumberHelper{d}.float64(v1, v2, true) d.bdRead = false return } func (d *cborDecDriverIO) DecodeBool() (b bool) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } if d.bd == cborBdTrue { b = true } else if d.bd == cborBdFalse { } else { halt.errorf("not bool - %s %x/%s", msgBadDesc, d.bd, cbordesc(d.bd)) } d.bdRead = false return } func (d *cborDecDriverIO) ReadMapStart() (length int) { if d.advanceNil() { return containerLenNil } if d.h.SkipUnexpectedTags { d.skipTags() } d.bdRead = false if d.bd == cborBdIndefiniteMap { return containerLenUnknown } if d.bd>>5 != cborMajorMap { halt.errorf("error reading map; got major type: %x, expected %x/%s", d.bd>>5, cborMajorMap, cbordesc(d.bd)) } return d.decLen() } func (d *cborDecDriverIO) ReadArrayStart() (length int) { if d.advanceNil() { return containerLenNil } if d.h.SkipUnexpectedTags { d.skipTags() } d.bdRead = false if d.bd == cborBdIndefiniteArray { return containerLenUnknown } if d.bd>>5 != cborMajorArray { halt.errorf("invalid array; got major type: %x, expect: %x/%s", d.bd>>5, cborMajorArray, cbordesc(d.bd)) } return d.decLen() } func (d *cborDecDriverIO) DecodeBytes() (bs []byte, state dBytesAttachState) { if d.advanceNil() { return } if d.h.SkipUnexpectedTags { d.skipTags() } fnEnsureNonNilBytes := func() { if bs == nil { bs = zeroByteSlice state = dBytesDetach } } if d.bd == cborBdIndefiniteBytes || d.bd == cborBdIndefiniteString { major := d.bd >> 5 val4str := d.h.ValidateUnicode && major == cborMajorString bs = d.d.buf[:0] d.bdRead = false for !d.CheckBreak() { if d.bd>>5 != major { const msg = "malformed indefinite string/bytes %x (%s); " + "contains chunk with major type %v, expected %v" halt.errorf(msg, d.bd, cbordesc(d.bd), d.bd>>5, major) } n := uint(d.decLen()) bs = append(bs, d.r.readx(n)...) d.bdRead = false if val4str && !utf8.Valid(bs[len(bs)-int(n):]) { const msg = "indefinite-length text string contains chunk " + "that is not a valid utf-8 sequence: 0x%x" halt.errorf(msg, bs[len(bs)-int(n):]) } } d.bdRead = false d.d.buf = bs state = dBytesAttachBuffer fnEnsureNonNilBytes() return } if d.bd == cborBdIndefiniteArray { d.bdRead = false bs = d.d.buf[:0] for !d.CheckBreak() { bs = append(bs, uint8(chkOvf.UintV(d.DecodeUint64(), 8))) } d.d.buf = bs state = dBytesAttachBuffer fnEnsureNonNilBytes() return } var cond bool if d.bd>>5 == cborMajorArray { d.bdRead = false slen := d.decLen() bs, cond = usableByteSlice(d.d.buf, slen) for i := 0; i < len(bs); i++ { bs[i] = uint8(chkOvf.UintV(d.DecodeUint64(), 8)) } for i := len(bs); i < slen; i++ { bs = append(bs, uint8(chkOvf.UintV(d.DecodeUint64(), 8))) } if cond { d.d.buf = bs } state = dBytesAttachBuffer fnEnsureNonNilBytes() return } clen := d.decLen() d.bdRead = false bs, cond = d.r.readxb(uint(clen)) state = d.d.attachState(cond) return } func (d *cborDecDriverIO) DecodeStringAsBytes() (out []byte, state dBytesAttachState) { out, state = d.DecodeBytes() if d.h.ValidateUnicode && !utf8.Valid(out) { halt.errorf("DecodeStringAsBytes: invalid UTF-8: %s", out) } return } func (d *cborDecDriverIO) DecodeTime() (t time.Time) { if d.advanceNil() { return } if d.bd>>5 != cborMajorTag { halt.errorf("error reading tag; expected major type: %x, got: %x", cborMajorTag, d.bd>>5) } xtag := d.decUint() d.bdRead = false return d.decodeTime(xtag) } func (d *cborDecDriverIO) decodeTime(xtag uint64) (t time.Time) { switch xtag { case 0: var err error t, err = time.Parse(time.RFC3339, stringView(bytesOKs(d.DecodeStringAsBytes()))) halt.onerror(err) case 1: f1, f2 := math.Modf(d.DecodeFloat64()) t = time.Unix(int64(f1), int64(f2*1e9)) default: halt.errorf("invalid tag for time.Time - expecting 0 or 1, got 0x%x", xtag) } t = t.UTC().Round(time.Microsecond) return } func (d *cborDecDriverIO) preDecodeExt(checkTag bool, xtag uint64) (realxtag uint64, ok bool) { if d.advanceNil() { return } if d.bd>>5 != cborMajorTag { halt.errorf("error reading tag; expected major type: %x, got: %x", cborMajorTag, d.bd>>5) } realxtag = d.decUint() d.bdRead = false if checkTag && xtag != realxtag { halt.errorf("Wrong extension tag. Got %b. Expecting: %v", realxtag, xtag) } ok = true return } func (d *cborDecDriverIO) DecodeRawExt(re *RawExt) { if realxtag, ok := d.preDecodeExt(false, 0); ok { re.Tag = realxtag d.dec.decode(&re.Value) d.bdRead = false } } func (d *cborDecDriverIO) DecodeExt(rv interface{}, basetype reflect.Type, xtag uint64, ext Ext) { if _, ok := d.preDecodeExt(true, xtag); ok { if ext == SelfExt { d.dec.decodeAs(rv, basetype, false) } else { d.dec.interfaceExtConvertAndDecode(rv, ext) } d.bdRead = false } } func (d *cborDecDriverIO) decTagBigIntAsFloat(neg bool) (f float64) { bs, _ := d.DecodeBytes() bi := new(big.Int).SetBytes(bs) if neg { bi0 := bi bi = new(big.Int).Sub(big.NewInt(-1), bi0) } f, _ = bi.Float64() return } func (d *cborDecDriverIO) decTagBigFloatAsFloat(decimal bool) (f float64) { if nn := d.r.readn1(); nn != 82 { halt.errorf("(%d) decoding decimal/big.Float: expected 2 numbers", nn) } exp := d.DecodeInt64() mant := d.DecodeInt64() if decimal { rf := readFloatResult{exp: int8(exp)} if mant >= 0 { rf.mantissa = uint64(mant) } else { rf.neg = true rf.mantissa = uint64(-mant) } f, _ = parseFloat64_reader(rf) } else { bfm := new(big.Float).SetPrec(64).SetInt64(mant) bf := new(big.Float).SetPrec(64).SetMantExp(bfm, int(exp)) f, _ = bf.Float64() } return } func (d *cborDecDriverIO) DecodeNaked() { if !d.bdRead { d.readNextBd() } n := d.d.naked() var decodeFurther bool switch d.bd >> 5 { case cborMajorUint: if d.h.SignedInteger { n.v = valueTypeInt n.i = d.DecodeInt64() } else { n.v = valueTypeUint n.u = d.DecodeUint64() } case cborMajorNegInt: n.v = valueTypeInt n.i = d.DecodeInt64() case cborMajorBytes: d.d.fauxUnionReadRawBytes(d, false, d.h.RawToString) case cborMajorString: n.v = valueTypeString n.s = d.d.detach2Str(d.DecodeStringAsBytes()) case cborMajorArray: n.v = valueTypeArray decodeFurther = true case cborMajorMap: n.v = valueTypeMap decodeFurther = true case cborMajorTag: n.v = valueTypeExt n.u = d.decUint() d.bdRead = false n.l = nil xx := d.h.getExtForTag(n.u) if xx == nil { switch n.u { case 0, 1: n.v = valueTypeTime n.t = d.decodeTime(n.u) case 2: n.f = d.decTagBigIntAsFloat(false) n.v = valueTypeFloat case 3: n.f = d.decTagBigIntAsFloat(true) n.v = valueTypeFloat case 4: n.f = d.decTagBigFloatAsFloat(true) n.v = valueTypeFloat case 5: n.f = d.decTagBigFloatAsFloat(false) n.v = valueTypeFloat case 55799: d.DecodeNaked() default: if d.h.SkipUnexpectedTags { d.DecodeNaked() } } return } case cborMajorSimpleOrFloat: switch d.bd { case cborBdNil, cborBdUndefined: n.v = valueTypeNil case cborBdFalse: n.v = valueTypeBool n.b = false case cborBdTrue: n.v = valueTypeBool n.b = true case cborBdFloat16, cborBdFloat32, cborBdFloat64: n.v = valueTypeFloat n.f = d.DecodeFloat64() default: halt.errorf("decodeNaked: Unrecognized d.bd: 0x%x", d.bd) } default: halt.errorf("decodeNaked: Unrecognized d.bd: 0x%x", d.bd) } if !decodeFurther { d.bdRead = false } } func (d *cborDecDriverIO) uintBytes() (v []byte, ui uint64) { switch vv := d.bd & 0x1f; vv { case 0x18: v = d.r.readx(1) ui = uint64(v[0]) case 0x19: v = d.r.readx(2) ui = uint64(bigenstd.Uint16(v)) case 0x1a: v = d.r.readx(4) ui = uint64(bigenstd.Uint32(v)) case 0x1b: v = d.r.readx(8) ui = uint64(bigenstd.Uint64(v)) default: if vv > 0x1b { halt.errorf("invalid descriptor decoding uint: %x/%s", d.bd, cbordesc(d.bd)) } ui = uint64(vv) } return } func (d *cborDecDriverIO) nextValueBytes() (v []byte) { if !d.bdRead { d.readNextBd() } d.r.startRecording() d.nextValueBytesBdReadR() v = d.r.stopRecording() d.bdRead = false return } func (d *cborDecDriverIO) nextValueBytesBdReadR() { var ui uint64 switch d.bd >> 5 { case cborMajorUint, cborMajorNegInt: d.uintBytes() case cborMajorString, cborMajorBytes: if d.bd == cborBdIndefiniteBytes || d.bd == cborBdIndefiniteString { for { d.readNextBd() if d.bd == cborBdBreak { break } _, ui = d.uintBytes() d.r.skip(uint(ui)) } } else { _, ui = d.uintBytes() d.r.skip(uint(ui)) } case cborMajorArray: if d.bd == cborBdIndefiniteArray { for { d.readNextBd() if d.bd == cborBdBreak { break } d.nextValueBytesBdReadR() } } else { _, ui = d.uintBytes() for i := uint64(0); i < ui; i++ { d.readNextBd() d.nextValueBytesBdReadR() } } case cborMajorMap: if d.bd == cborBdIndefiniteMap { for { d.readNextBd() if d.bd == cborBdBreak { break } d.nextValueBytesBdReadR() d.readNextBd() d.nextValueBytesBdReadR() } } else { _, ui = d.uintBytes() for i := uint64(0); i < ui; i++ { d.readNextBd() d.nextValueBytesBdReadR() d.readNextBd() d.nextValueBytesBdReadR() } } case cborMajorTag: d.uintBytes() d.readNextBd() d.nextValueBytesBdReadR() case cborMajorSimpleOrFloat: switch d.bd { case cborBdNil, cborBdUndefined, cborBdFalse, cborBdTrue: case cborBdFloat16: d.r.skip(2) case cborBdFloat32: d.r.skip(4) case cborBdFloat64: d.r.skip(8) default: halt.errorf("nextValueBytes: Unrecognized d.bd: 0x%x", d.bd) } default: halt.errorf("nextValueBytes: Unrecognized d.bd: 0x%x", d.bd) } return } func (d *cborDecDriverIO) reset() { d.bdAndBdread.reset() } func (d *cborEncDriverIO) init(hh Handle, shared *encoderBase, enc encoderI) (fp interface{}) { callMake(&d.w) d.h = hh.(*CborHandle) d.e = shared if shared.bytes { fp = cborFpEncBytes } else { fp = cborFpEncIO } d.init2(enc) return } func (e *cborEncDriverIO) writeBytesAsis(b []byte) { e.w.writeb(b) } func (e *cborEncDriverIO) writerEnd() { e.w.end() } func (e *cborEncDriverIO) resetOutBytes(out *[]byte) { e.w.resetBytes(*out, out) } func (e *cborEncDriverIO) resetOutIO(out io.Writer) { e.w.resetIO(out, e.h.WriterBufferSize, &e.e.blist) } func (d *cborDecDriverIO) init(hh Handle, shared *decoderBase, dec decoderI) (fp interface{}) { callMake(&d.r) d.h = hh.(*CborHandle) d.d = shared if shared.bytes { fp = cborFpDecBytes } else { fp = cborFpDecIO } d.init2(dec) return } func (d *cborDecDriverIO) NumBytesRead() int { return int(d.r.numread()) } func (d *cborDecDriverIO) resetInBytes(in []byte) { d.r.resetBytes(in) } func (d *cborDecDriverIO) resetInIO(r io.Reader) { d.r.resetIO(r, d.h.ReaderBufferSize, d.h.MaxInitLen, &d.d.blist) } func (d *cborDecDriverIO) descBd() string { return sprintf("%v (%s)", d.bd, cbordesc(d.bd)) } func (d *cborDecDriverIO) DecodeFloat32() (f float32) { return float32(chkOvf.Float32V(d.DecodeFloat64())) } func (d *cborEncDriverIO) init2(enc encoderI) { d.enc = enc } func (d *cborDecDriverIO) init2(dec decoderI) { d.dec = dec }