mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-12-27 15:30:23 +00:00
0f2daca5c2
The new release has some important fixes available with it Ref: https://github.com/ThalesGroup/kmip-go/releases/tag/v0.0.8 Signed-off-by: Humble Chirammal <hchiramm@redhat.com>
504 lines
14 KiB
Go
504 lines
14 KiB
Go
package ttlv
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import (
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"bufio"
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"bytes"
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"errors"
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"io"
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"reflect"
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"github.com/ansel1/merry"
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)
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var ErrUnexpectedValue = errors.New("no field was found to unmarshal value into")
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// Unmarshal parses TTLV encoded data and stores the result
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// in the value pointed to by v.
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//
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// An error will be returned if v is nil or not a point, or
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// if b is not valid TTLV.
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//
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// Unmarshal will allocate values to store the result in, similar to the
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// json.Marshal. Generally, the destination value can be a pointer or
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// or a direct value. Currently, Unmarshal does not support anonymous fields.
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// They will be ignored. Private fields are ignored.
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//
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// Unmarshal maps TTLV values to golang values according to the following
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// rules:
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//
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// 1. If the destination value is interface{}, it will be set to the result
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// of TTLV.Value()
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// 2. If the destination implements Unmarshaler, that will be called.
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// 3. If the destination is a slice (except for []byte), append the
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// unmarshalled value to the slice
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// 4. Structure unmarshals into a struct. See rules
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// below for matching struct fields to the values in the Structure.
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// 5. Interval unmarshals into an int64
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// 6. DateTime and DateTimeExtended ummarshal into time.Time
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// 7. ByteString unmarshals to a []byte
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// 8. TextString unmarshals into a string
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// 9. Boolean unmarshals into a bool
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// 10. Enumeration can unmarshal into an int, int8, int16, int32, or their
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// uint counterparts. If the KMIP value overflows the destination, a
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// *UnmarshalerError with cause ErrIntOverflow is returned.
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// 11. Integer can unmarshal to the same types as Enumeration, with the
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// same overflow check.
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// 12. LongInteger unmarshals to int64 or uint64
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// 13. BitInteger unmarshals to big.Int.
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//
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// If the destination value is not a supported type, an *UnmarshalerError with
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// cause ErrUnsupportedTypeError is returned. If the source value's type is not recognized,
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// *UnmarshalerError with cause ErrInvalidType is returned.
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//
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// # Unmarshaling Structure
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//
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// Unmarshal will try to match the values in the Structure with the fields in the
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// destination struct. Structure is an array of values, while a struct is more like
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// a map, so not all Structure values can be accurately represented by a golang struct.
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// In particular, a Structure can hold the same tag multiple times, e.g. 3 TagComment values
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// in a row.
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//
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// For each field in the struct, Unmarshal infers a KMIP Tag by examining both the name
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// and type of the field. It uses the following rules, in order:
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//
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// 1. If the type of a field is a struct, and the struct contains a field named "TTLVTag", and the field
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// has a "ttlv" struct tag, the value of the struct tag will be parsed using ParseTag(). If
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// parsing fails, an error is returned. The type and value of the TTLVTag field is ignored.
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//
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// In this example, the F field will map to TagDeactivationDate.
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//
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// type Bar struct {
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// F Foo
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// }
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//
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// type Foo struct {
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// TTLVTag struct{} `ttlv:"DeactivationDate"`
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// }
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//
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// If Bar uses a struct tag on F indicating a different tag, it is an error:
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//
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// type Bar struct {
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// F Foo `ttlv:"DerivationData"` // this will cause an ErrTagConflict
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// // because conflict Bar's field tag
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// // conflicts with Foo's intrinsic tag
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// F2 Foo `ttlv:"0x420034"` // the value can also be hex
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// }
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//
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// 2. If the type of the field is a struct, and the struct contains a field named "TTLVTag",
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// and that field is of type ttlv.Tag and is not empty, the value of the field will be the
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// inferred Tag. For example:
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//
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// type Foo struct {
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// TTLVTag ttlv.Tag
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// }
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// f := Foo{TTLVTag: ttlv.TagState}
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//
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// This allows you to dynamically set the KMIP tag that a value will marshal to.
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//
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// 3. The "ttlv" struct tag can be used to indicate the tag for a field. The value will
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// be parsed with ParseTag():
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//
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// type Bar struct {
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// F Foo `ttlv:"DerivationData"`
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// }
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//
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// 4. The name of the field is parsed with ParseTag():
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//
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// type Bar struct {
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// DerivationData int
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// }
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//
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// 5. The name of the field's type is parsed with ParseTab():
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//
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// type DerivationData int
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//
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// type Bar struct {
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// dd DerivationData
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// }
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//
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// If no tag value can be inferred, the field is ignored. Multiple fields
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// *cannot* map to the same KMIP tag. If they do, an ErrTagConflict will
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// be returned.
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//
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// Each value in the Structure will be matched against the first field
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// in the struct with the same inferred tag.
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//
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// If the value cannot be matched with a field, Unmarshal will look for
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// the first field with the "any" struct flag set and unmarshal into that:
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//
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// type Foo struct {
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// Comment string // the Comment will unmarshal into this
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// EverythingElse []interface{} `,any` // all other values will unmarshal into this
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// AnotherAny []interface{} `,any` // allowed, but ignored. first any field will always match
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// NotLegal []interface{} `TagComment,any` // you cannot specify a tag and the any flag.
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// // will return error
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// }
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//
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// If after applying these rules no destination field is found, the KMIP value is ignored.
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func Unmarshal(ttlv TTLV, v interface{}) error {
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return NewDecoder(bytes.NewReader(ttlv)).Decode(v)
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}
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// Unmarshaler knows how to unmarshal a ttlv value into itself.
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// The decoder argument may be used to decode the ttlv value into
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// intermediary values if needed.
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type Unmarshaler interface {
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UnmarshalTTLV(d *Decoder, ttlv TTLV) error
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}
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// Decoder reads KMIP values from a stream, and decodes them into golang values.
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// It currently only decodes TTLV encoded KMIP values.
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// TODO: support decoding XML and JSON, so their decoding can be configured
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//
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// If DisallowExtraValues is true, the decoder will return an error when decoding
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// Structures into structs and a matching field can't get found for every value.
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type Decoder struct {
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r io.Reader
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bufr *bufio.Reader
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DisallowExtraValues bool
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currStruct reflect.Type
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currField string
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}
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func NewDecoder(r io.Reader) *Decoder {
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return &Decoder{
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r: r,
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bufr: bufio.NewReader(r),
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}
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}
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// Reset resets the internal state of the decoder for reuse.
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func (dec *Decoder) Reset(r io.Reader) {
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*dec = Decoder{
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r: r,
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bufr: dec.bufr,
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}
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dec.bufr.Reset(r)
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}
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// Decode the first KMIP value from the reader into v.
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// See Unmarshal for decoding rules.
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func (dec *Decoder) Decode(v interface{}) error {
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ttlv, err := dec.NextTTLV()
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if err != nil {
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return err
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}
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return dec.DecodeValue(v, ttlv)
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}
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// DecodeValue decodes a ttlv value into v. This doesn't read anything
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// from the Decoder's reader.
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// See Unmarshal for decoding rules.
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func (dec *Decoder) DecodeValue(v interface{}, ttlv TTLV) error {
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val := reflect.ValueOf(v)
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if val.Kind() != reflect.Ptr {
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return merry.New("non-pointer passed to Decode")
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}
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return dec.unmarshal(val, ttlv)
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}
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func (dec *Decoder) unmarshal(val reflect.Value, ttlv TTLV) error {
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if len(ttlv) == 0 {
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return nil
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}
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// Load value from interface, but only if the result will be
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// usefully addressable.
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if val.Kind() == reflect.Interface && !val.IsNil() {
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e := val.Elem()
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if e.Kind() == reflect.Ptr && !e.IsNil() {
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val = e
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}
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}
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if val.Kind() == reflect.Ptr {
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if val.IsNil() {
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val.Set(reflect.New(val.Type().Elem()))
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}
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val = val.Elem()
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}
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if val.Type().Implements(unmarshalerType) {
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return val.Interface().(Unmarshaler).UnmarshalTTLV(dec, ttlv) //nolint:forcetypeassert
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}
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if val.CanAddr() {
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valAddr := val.Addr()
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if valAddr.CanInterface() && valAddr.Type().Implements(unmarshalerType) {
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return valAddr.Interface().(Unmarshaler).UnmarshalTTLV(dec, ttlv) //nolint:forcetypeassert
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}
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}
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switch val.Kind() {
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case reflect.Interface:
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if ttlv.Type() == TypeStructure {
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// if the value is a structure, set the whole TTLV
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// as the value.
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val.Set(reflect.ValueOf(ttlv))
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} else {
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// set blank interface equal to the TTLV.Value()
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val.Set(reflect.ValueOf(ttlv.Value()))
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}
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return nil
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case reflect.Slice:
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typ := val.Type()
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if typ.Elem() == byteType {
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// []byte
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break
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}
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// Slice of element values.
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// Grow slice.
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n := val.Len()
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val.Set(reflect.Append(val, reflect.Zero(val.Type().Elem())))
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// Recur to read element into slice.
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if err := dec.unmarshal(val.Index(n), ttlv); err != nil {
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val.SetLen(n)
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return err
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}
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return nil
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default:
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}
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typeMismatchErr := func() error {
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e := &UnmarshalerError{
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Struct: dec.currStruct,
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Field: dec.currField,
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Tag: ttlv.Tag(),
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Type: ttlv.Type(),
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Val: val.Type(),
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}
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err := merry.WrapSkipping(e, 1).WithCause(ErrUnsupportedTypeError)
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return err
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}
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switch ttlv.Type() {
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case TypeStructure:
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if val.Kind() != reflect.Struct {
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return typeMismatchErr()
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}
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// stash currStruct
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currStruct := dec.currStruct
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err := dec.unmarshalStructure(ttlv, val)
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// restore currStruct
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dec.currStruct = currStruct
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return err
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case TypeInterval:
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if val.Kind() != reflect.Int64 {
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return typeMismatchErr()
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}
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val.SetInt(int64(ttlv.ValueInterval()))
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case TypeDateTime, TypeDateTimeExtended:
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if val.Type() != timeType {
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return typeMismatchErr()
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}
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val.Set(reflect.ValueOf(ttlv.ValueDateTime()))
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case TypeByteString:
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if val.Kind() != reflect.Slice && val.Type().Elem() != byteType {
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return typeMismatchErr()
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}
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val.SetBytes(ttlv.ValueByteString())
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case TypeTextString:
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if val.Kind() != reflect.String {
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return typeMismatchErr()
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}
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val.SetString(ttlv.ValueTextString())
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case TypeBoolean:
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if val.Kind() != reflect.Bool {
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return typeMismatchErr()
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}
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val.SetBool(ttlv.ValueBoolean())
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//nolint:dupl
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case TypeEnumeration:
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switch val.Kind() {
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case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32:
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i := int64(ttlv.ValueEnumeration())
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if val.OverflowInt(i) {
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return dec.newUnmarshalerError(ttlv, val.Type(), ErrIntOverflow)
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}
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val.SetInt(i)
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case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32:
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i := uint64(ttlv.ValueEnumeration())
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if val.OverflowUint(i) {
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return dec.newUnmarshalerError(ttlv, val.Type(), ErrIntOverflow)
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}
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val.SetUint(i)
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default:
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return typeMismatchErr()
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}
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//nolint:dupl
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case TypeInteger:
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switch val.Kind() {
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case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32:
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i := int64(ttlv.ValueInteger())
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if val.OverflowInt(i) {
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return dec.newUnmarshalerError(ttlv, val.Type(), ErrIntOverflow)
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}
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val.SetInt(i)
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case reflect.Uint, reflect.Uint8, reflect.Uint16, reflect.Uint32:
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i := uint64(ttlv.ValueInteger())
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if val.OverflowUint(i) {
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return dec.newUnmarshalerError(ttlv, val.Type(), ErrIntOverflow)
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}
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val.SetUint(i)
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default:
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return typeMismatchErr()
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}
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case TypeLongInteger:
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switch val.Kind() {
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case reflect.Int64:
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val.SetInt(ttlv.ValueLongInteger())
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case reflect.Uint64:
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val.SetUint(uint64(ttlv.ValueLongInteger()))
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default:
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return typeMismatchErr()
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}
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case TypeBigInteger:
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if val.Type() != bigIntType {
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return typeMismatchErr()
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}
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val.Set(reflect.ValueOf(*ttlv.ValueBigInteger()))
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default:
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return dec.newUnmarshalerError(ttlv, val.Type(), ErrInvalidType)
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}
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return nil
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}
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func (dec *Decoder) unmarshalStructure(ttlv TTLV, val reflect.Value) error {
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ti, err := getTypeInfo(val.Type())
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if err != nil {
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return dec.newUnmarshalerError(ttlv, val.Type(), err)
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}
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if ti.tagField != nil && ti.tagField.ti.typ == tagType {
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val.FieldByIndex(ti.tagField.index).Set(reflect.ValueOf(ttlv.Tag()))
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}
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fields := ti.valueFields
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// push currStruct (caller will pop)
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dec.currStruct = val.Type()
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for n := ttlv.ValueStructure(); n != nil; n = n.Next() {
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fldIdx := -1
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for i := range fields {
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if fields[i].flags.any() {
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// if this is the first any field found, keep track
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// of it as the current candidate match, but
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// keep looking for a tag match
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if fldIdx == -1 {
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fldIdx = i
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}
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} else if fields[i].tag == n.Tag() {
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// tag match found
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// we can stop looking
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fldIdx = i
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break
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}
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}
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if fldIdx > -1 {
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// push currField
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currField := dec.currField
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dec.currField = fields[fldIdx].name
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err := dec.unmarshal(val.FieldByIndex(fields[fldIdx].index), n)
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// restore currField
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dec.currField = currField
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if err != nil {
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return err
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}
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} else if dec.DisallowExtraValues {
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return dec.newUnmarshalerError(ttlv, val.Type(), ErrUnexpectedValue)
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}
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}
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return nil
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}
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// NextTTLV reads the next, full KMIP value off the reader.
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func (dec *Decoder) NextTTLV() (TTLV, error) {
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// first, read the header
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header, err := dec.bufr.Peek(8)
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if err != nil {
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return nil, merry.Wrap(err)
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}
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if err := TTLV(header).ValidHeader(); err != nil {
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// bad header, abort
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return TTLV(header), merry.Prependf(err, "invalid header: %v", TTLV(header))
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}
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// allocate a buffer large enough for the entire message
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fullLen := TTLV(header).FullLen()
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buf := make([]byte, fullLen)
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var totRead int
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for {
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n, err := dec.bufr.Read(buf[totRead:])
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if err != nil {
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return TTLV(buf), merry.Wrap(err)
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}
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totRead += n
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if totRead >= fullLen {
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// we've read off a single full message
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return buf, nil
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} // else keep reading
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}
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}
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func (dec *Decoder) newUnmarshalerError(ttlv TTLV, valType reflect.Type, cause error) merry.Error {
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e := &UnmarshalerError{
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Struct: dec.currStruct,
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Field: dec.currField,
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Tag: ttlv.Tag(),
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Type: ttlv.Type(),
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Val: valType,
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}
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return merry.WrapSkipping(e, 1).WithCause(cause)
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}
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type UnmarshalerError struct {
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// Val is the type of the destination value
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Val reflect.Type
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// Struct is the type of the containing struct if the value is a field
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Struct reflect.Type
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// Field is the name of the value field
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Field string
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Tag Tag
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Type Type
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}
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func (e *UnmarshalerError) Error() string {
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msg := "kmip: error unmarshaling " + e.Tag.String() + " with type " + e.Type.String() + " into value of type " + e.Val.Name()
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if e.Struct != nil {
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msg += " in struct field " + e.Struct.Name() + "." + e.Field
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}
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return msg
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}
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