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decode.go
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decode.go
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package amqp
import (
"bytes"
"encoding/binary"
"math"
"reflect"
"time"
)
// parseFrameHeader reads the header from r and returns the result.
//
// No validation is done.
func parseFrameHeader(r *buffer) (frameHeader, error) {
buf, ok := r.next(8)
if !ok {
return frameHeader{}, errorNew("invalid frameHeader")
}
_ = buf[7]
fh := frameHeader{
Size: binary.BigEndian.Uint32(buf[0:4]),
DataOffset: buf[4],
FrameType: buf[5],
Channel: binary.BigEndian.Uint16(buf[6:8]),
}
if fh.Size < frameHeaderSize {
return fh, errorErrorf("received frame header with invalid size %d", fh.Size)
}
return fh, nil
}
// parseProtoHeader reads the proto header from r and returns the results
//
// An error is returned if the protocol is not "AMQP" or if the version is not 1.0.0.
func parseProtoHeader(r *buffer) (protoHeader, error) {
const protoHeaderSize = 8
buf, ok := r.next(protoHeaderSize)
if !ok {
return protoHeader{}, errorNew("invalid protoHeader")
}
_ = buf[7]
if !bytes.Equal(buf[:4], []byte{'A', 'M', 'Q', 'P'}) {
return protoHeader{}, errorErrorf("unexpected protocol %q", buf[:4])
}
p := protoHeader{
ProtoID: protoID(buf[4]),
Major: buf[5],
Minor: buf[6],
Revision: buf[7],
}
if p.Major != 1 || p.Minor != 0 || p.Revision != 0 {
return p, errorErrorf("unexpected protocol version %d.%d.%d", p.Major, p.Minor, p.Revision)
}
return p, nil
}
// peekFrameBodyType peeks at the frame body's type code without advancing r.
func peekFrameBodyType(r *buffer) (amqpType, error) {
payload := r.bytes()
if r.len() < 3 || payload[0] != 0 || amqpType(payload[1]) != typeCodeSmallUlong {
return 0, errorNew("invalid frame body header")
}
return amqpType(payload[2]), nil
}
// parseFrameBody reads and unmarshals an AMQP frame.
func parseFrameBody(r *buffer) (frameBody, error) {
pType, err := peekFrameBodyType(r)
if err != nil {
return nil, err
}
switch pType {
case typeCodeOpen:
t := new(performOpen)
err := t.unmarshal(r)
return t, err
case typeCodeBegin:
t := new(performBegin)
err := t.unmarshal(r)
return t, err
case typeCodeAttach:
t := new(performAttach)
err := t.unmarshal(r)
return t, err
case typeCodeFlow:
t := new(performFlow)
err := t.unmarshal(r)
return t, err
case typeCodeTransfer:
t := new(performTransfer)
err := t.unmarshal(r)
return t, err
case typeCodeDisposition:
t := new(performDisposition)
err := t.unmarshal(r)
return t, err
case typeCodeDetach:
t := new(performDetach)
err := t.unmarshal(r)
return t, err
case typeCodeEnd:
t := new(performEnd)
err := t.unmarshal(r)
return t, err
case typeCodeClose:
t := new(performClose)
err := t.unmarshal(r)
return t, err
case typeCodeSASLMechanism:
t := new(saslMechanisms)
err := t.unmarshal(r)
return t, err
case typeCodeSASLChallenge:
t := new(saslChallenge)
err := t.unmarshal(r)
return t, err
case typeCodeSASLOutcome:
t := new(saslOutcome)
err := t.unmarshal(r)
return t, err
default:
return nil, errorErrorf("unknown preformative type %02x", pType)
}
}
// unmarshaler is fulfilled by types that can unmarshal
// themselves from AMQP data.
type unmarshaler interface {
unmarshal(r *buffer) error
}
// unmarshal decodes AMQP encoded data into i.
//
// The decoding method is based on the type of i.
//
// If i implements unmarshaler, i.unmarshal() will be called.
//
// Pointers to primitive types will be decoded via the appropriate read[Type] function.
//
// If i is a pointer to a pointer (**Type), it will be dereferenced and a new instance
// of (*Type) is allocated via reflection.
//
// Common map types (map[string]string, map[Symbol]interface{}, and
// map[interface{}]interface{}), will be decoded via conversion to the mapStringAny,
// mapSymbolAny, and mapAnyAny types.
func unmarshal(r *buffer, i interface{}) error {
if tryReadNull(r) {
return nil
}
switch t := i.(type) {
case *int:
val, err := readInt(r)
if err != nil {
return err
}
*t = val
case *int8:
val, err := readSbyte(r)
if err != nil {
return err
}
*t = val
case *int16:
val, err := readShort(r)
if err != nil {
return err
}
*t = val
case *int32:
val, err := readInt32(r)
if err != nil {
return err
}
*t = val
case *int64:
val, err := readLong(r)
if err != nil {
return err
}
*t = val
case *uint64:
val, err := readUlong(r)
if err != nil {
return err
}
*t = val
case *uint32:
val, err := readUint32(r)
if err != nil {
return err
}
*t = val
case **uint32: // fastpath for uint32 pointer fields
val, err := readUint32(r)
if err != nil {
return err
}
*t = &val
case *uint16:
val, err := readUshort(r)
if err != nil {
return err
}
*t = val
case *uint8:
val, err := readUbyte(r)
if err != nil {
return err
}
*t = val
case *float32:
val, err := readFloat(r)
if err != nil {
return err
}
*t = val
case *float64:
val, err := readDouble(r)
if err != nil {
return err
}
*t = val
case *string:
val, err := readString(r)
if err != nil {
return err
}
*t = val
case *symbol:
s, err := readString(r)
if err != nil {
return err
}
*t = symbol(s)
case *[]byte:
val, err := readBinary(r)
if err != nil {
return err
}
*t = val
case *bool:
b, err := readBool(r)
if err != nil {
return err
}
*t = b
case *time.Time:
ts, err := readTimestamp(r)
if err != nil {
return err
}
*t = ts
case *[]int8:
return (*arrayInt8)(t).unmarshal(r)
case *[]uint16:
return (*arrayUint16)(t).unmarshal(r)
case *[]int16:
return (*arrayInt16)(t).unmarshal(r)
case *[]uint32:
return (*arrayUint32)(t).unmarshal(r)
case *[]int32:
return (*arrayInt32)(t).unmarshal(r)
case *[]uint64:
return (*arrayUint64)(t).unmarshal(r)
case *[]int64:
return (*arrayInt64)(t).unmarshal(r)
case *[]float32:
return (*arrayFloat)(t).unmarshal(r)
case *[]float64:
return (*arrayDouble)(t).unmarshal(r)
case *[]bool:
return (*arrayBool)(t).unmarshal(r)
case *[]string:
return (*arrayString)(t).unmarshal(r)
case *[]symbol:
return (*arraySymbol)(t).unmarshal(r)
case *[][]byte:
return (*arrayBinary)(t).unmarshal(r)
case *[]time.Time:
return (*arrayTimestamp)(t).unmarshal(r)
case *[]UUID:
return (*arrayUUID)(t).unmarshal(r)
case *[]interface{}:
return (*list)(t).unmarshal(r)
case *map[interface{}]interface{}:
return (*mapAnyAny)(t).unmarshal(r)
case *map[string]interface{}:
return (*mapStringAny)(t).unmarshal(r)
case *map[symbol]interface{}:
return (*mapSymbolAny)(t).unmarshal(r)
case *deliveryState:
type_, err := peekMessageType(r.bytes())
if err != nil {
return err
}
switch amqpType(type_) {
case typeCodeStateAccepted:
*t = new(stateAccepted)
case typeCodeStateModified:
*t = new(stateModified)
case typeCodeStateReceived:
*t = new(stateReceived)
case typeCodeStateRejected:
*t = new(stateRejected)
case typeCodeStateReleased:
*t = new(stateReleased)
default:
return errorErrorf("unexpected type %d for deliveryState", type_)
}
return unmarshal(r, *t)
case *interface{}:
v, err := readAny(r)
if err != nil {
return err
}
*t = v
case unmarshaler:
return t.unmarshal(r)
default:
// handle **T
v := reflect.Indirect(reflect.ValueOf(i))
// can't unmarshal into a non-pointer
if v.Kind() != reflect.Ptr {
return errorErrorf("unable to unmarshal %T", i)
}
// if nil pointer, allocate a new value to
// unmarshal into
if v.IsNil() {
v.Set(reflect.New(v.Type().Elem()))
}
return unmarshal(r, v.Interface())
}
return nil
}
// unmarshalComposite is a helper for use in a composite's unmarshal() function.
//
// The composite from r will be unmarshaled into zero or more fields. An error
// will be returned if typ does not match the decoded type.
func unmarshalComposite(r *buffer, type_ amqpType, fields ...unmarshalField) error {
cType, numFields, err := readCompositeHeader(r)
if err != nil {
return err
}
// check type matches expectation
if cType != type_ {
return errorErrorf("invalid header %#0x for %#0x", cType, type_)
}
// Validate the field count is less than or equal to the number of fields
// provided. Fields may be omitted by the sender if they are not set.
if numFields > int64(len(fields)) {
return errorErrorf("invalid field count %d for %#0x", numFields, type_)
}
for i, field := range fields[:numFields] {
// If the field is null and handleNull is set, call it.
if tryReadNull(r) {
if field.handleNull != nil {
err = field.handleNull()
if err != nil {
return err
}
}
continue
}
// Unmarshal each of the received fields.
err = unmarshal(r, field.field)
if err != nil {
return errorWrapf(err, "unmarshaling field %d", i)
}
}
// check and call handleNull for the remaining fields
for _, field := range fields[numFields:] {
if field.handleNull != nil {
err = field.handleNull()
if err != nil {
return err
}
}
}
return nil
}
// unmarshalField is a struct that contains a field to be unmarshaled into.
//
// An optional nullHandler can be set. If the composite field being unmarshaled
// is null and handleNull is not nil, nullHandler will be called.
type unmarshalField struct {
field interface{}
handleNull nullHandler
}
// nullHandler is a function to be called when a composite's field
// is null.
type nullHandler func() error
// readCompositeHeader reads and consumes the composite header from r.
func readCompositeHeader(r *buffer) (_ amqpType, fields int64, _ error) {
type_, err := r.readType()
if err != nil {
return 0, 0, err
}
// compsites always start with 0x0
if type_ != 0 {
return 0, 0, errorErrorf("invalid composite header %#02x", type_)
}
// next, the composite type is encoded as an AMQP uint8
v, err := readUlong(r)
if err != nil {
return 0, 0, err
}
// fields are represented as a list
fields, err = readListHeader(r)
return amqpType(v), fields, err
}
func readListHeader(r *buffer) (length int64, _ error) {
type_, err := r.readType()
if err != nil {
return 0, err
}
listLength := r.len()
switch type_ {
case typeCodeList0:
return 0, nil
case typeCodeList8:
buf, ok := r.next(2)
if !ok {
return 0, errorNew("invalid length")
}
_ = buf[1]
size := int(buf[0])
if size > listLength-1 {
return 0, errorNew("invalid length")
}
length = int64(buf[1])
case typeCodeList32:
buf, ok := r.next(8)
if !ok {
return 0, errorNew("invalid length")
}
_ = buf[7]
size := int(binary.BigEndian.Uint32(buf[:4]))
if size > listLength-4 {
return 0, errorNew("invalid length")
}
length = int64(binary.BigEndian.Uint32(buf[4:8]))
default:
return 0, errorErrorf("type code %#02x is not a recognized list type", type_)
}
return length, nil
}
func readArrayHeader(r *buffer) (length int64, _ error) {
type_, err := r.readType()
if err != nil {
return 0, err
}
arrayLength := r.len()
switch type_ {
case typeCodeArray8:
buf, ok := r.next(2)
if !ok {
return 0, errorNew("invalid length")
}
_ = buf[1]
size := int(buf[0])
if size > arrayLength-1 {
return 0, errorNew("invalid length")
}
length = int64(buf[1])
case typeCodeArray32:
buf, ok := r.next(8)
if !ok {
return 0, errorNew("invalid length")
}
_ = buf[7]
size := binary.BigEndian.Uint32(buf[:4])
if int(size) > arrayLength-4 {
return 0, errorErrorf("invalid length for type %02x", type_)
}
length = int64(binary.BigEndian.Uint32(buf[4:8]))
default:
return 0, errorErrorf("type code %#02x is not a recognized array type", type_)
}
return length, nil
}
func readString(r *buffer) (string, error) {
type_, err := r.readType()
if err != nil {
return "", err
}
var length int64
switch type_ {
case typeCodeStr8, typeCodeSym8:
n, err := r.readByte()
if err != nil {
return "", err
}
length = int64(n)
case typeCodeStr32, typeCodeSym32:
buf, ok := r.next(4)
if !ok {
return "", errorErrorf("invalid length for type %#02x", type_)
}
length = int64(binary.BigEndian.Uint32(buf))
default:
return "", errorErrorf("type code %#02x is not a recognized string type", type_)
}
buf, ok := r.next(length)
if !ok {
return "", errorNew("invalid length")
}
return string(buf), nil
}
func readBinary(r *buffer) ([]byte, error) {
type_, err := r.readType()
if err != nil {
return nil, err
}
var length int64
switch type_ {
case typeCodeVbin8:
n, err := r.readByte()
if err != nil {
return nil, err
}
length = int64(n)
case typeCodeVbin32:
buf, ok := r.next(4)
if !ok {
return nil, errorErrorf("invalid length for type %#02x", type_)
}
length = int64(binary.BigEndian.Uint32(buf))
default:
return nil, errorErrorf("type code %#02x is not a recognized binary type", type_)
}
if length == 0 {
// An empty value and a nil value are distinct,
// ensure that the returned value is not nil in this case.
return make([]byte, 0), nil
}
buf, ok := r.next(length)
if !ok {
return nil, errorNew("invalid length")
}
return append([]byte(nil), buf...), nil
}
func readAny(r *buffer) (interface{}, error) {
if tryReadNull(r) {
return nil, nil
}
type_, err := r.peekType()
if err != nil {
return nil, errorNew("invalid length")
}
switch type_ {
// composite
case 0x0:
return readComposite(r)
// bool
case typeCodeBool, typeCodeBoolTrue, typeCodeBoolFalse:
return readBool(r)
// uint
case typeCodeUbyte:
return readUbyte(r)
case typeCodeUshort:
return readUshort(r)
case typeCodeUint,
typeCodeSmallUint,
typeCodeUint0:
return readUint32(r)
case typeCodeUlong,
typeCodeSmallUlong,
typeCodeUlong0:
return readUlong(r)
// int
case typeCodeByte:
return readSbyte(r)
case typeCodeShort:
return readShort(r)
case typeCodeInt,
typeCodeSmallint:
return readInt32(r)
case typeCodeLong,
typeCodeSmalllong:
return readLong(r)
// floating point
case typeCodeFloat:
return readFloat(r)
case typeCodeDouble:
return readDouble(r)
// binary
case typeCodeVbin8, typeCodeVbin32:
return readBinary(r)
// strings
case typeCodeStr8, typeCodeStr32:
return readString(r)
case typeCodeSym8, typeCodeSym32:
// symbols currently decoded as string to avoid
// exposing symbol type in message, this may need
// to change if users need to distinguish strings
// from symbols
return readString(r)
// timestamp
case typeCodeTimestamp:
return readTimestamp(r)
// UUID
case typeCodeUUID:
return readUUID(r)
// arrays
case typeCodeArray8, typeCodeArray32:
return readAnyArray(r)
// lists
case typeCodeList0, typeCodeList8, typeCodeList32:
return readAnyList(r)
// maps
case typeCodeMap8:
return readAnyMap(r)
case typeCodeMap32:
return readAnyMap(r)
// TODO: implement
case typeCodeDecimal32:
return nil, errorNew("decimal32 not implemented")
case typeCodeDecimal64:
return nil, errorNew("decimal64 not implemented")
case typeCodeDecimal128:
return nil, errorNew("decimal128 not implemented")
case typeCodeChar:
return nil, errorNew("char not implemented")
default:
return nil, errorErrorf("unknown type %#02x", type_)
}
}
func readAnyMap(r *buffer) (interface{}, error) {
var m map[interface{}]interface{}
err := (*mapAnyAny)(&m).unmarshal(r)
if err != nil {
return nil, err
}
if len(m) == 0 {
return m, nil
}
stringKeys := true
Loop:
for key := range m {
switch key.(type) {
case string:
case symbol:
default:
stringKeys = false
break Loop
}
}
if stringKeys {
mm := make(map[string]interface{}, len(m))
for key, value := range m {
switch key := key.(type) {
case string:
mm[key] = value
case symbol:
mm[string(key)] = value
}
}
return mm, nil
}
return m, nil
}
func readAnyList(r *buffer) (interface{}, error) {
var a []interface{}
err := (*list)(&a).unmarshal(r)
return a, err
}
func readAnyArray(r *buffer) (interface{}, error) {
// get the array type
buf := r.bytes()
if len(buf) < 1 {
return nil, errorNew("invalid length")
}
var typeIdx int
switch amqpType(buf[0]) {
case typeCodeArray8:
typeIdx = 3
case typeCodeArray32:
typeIdx = 9
default:
return nil, errorErrorf("invalid array type %02x", buf[0])
}
if len(buf) < typeIdx+1 {
return nil, errorNew("invalid length")
}
switch amqpType(buf[typeIdx]) {
case typeCodeByte:
var a []int8
err := (*arrayInt8)(&a).unmarshal(r)
return a, err
case typeCodeUbyte:
var a ArrayUByte
err := a.unmarshal(r)
return a, err
case typeCodeUshort:
var a []uint16
err := (*arrayUint16)(&a).unmarshal(r)
return a, err
case typeCodeShort:
var a []int16
err := (*arrayInt16)(&a).unmarshal(r)
return a, err
case typeCodeUint0, typeCodeSmallUint, typeCodeUint:
var a []uint32
err := (*arrayUint32)(&a).unmarshal(r)
return a, err
case typeCodeSmallint, typeCodeInt:
var a []int32
err := (*arrayInt32)(&a).unmarshal(r)
return a, err
case typeCodeUlong0, typeCodeSmallUlong, typeCodeUlong:
var a []uint64
err := (*arrayUint64)(&a).unmarshal(r)
return a, err
case typeCodeSmalllong, typeCodeLong:
var a []int64
err := (*arrayInt64)(&a).unmarshal(r)
return a, err
case typeCodeFloat:
var a []float32
err := (*arrayFloat)(&a).unmarshal(r)
return a, err
case typeCodeDouble:
var a []float64
err := (*arrayDouble)(&a).unmarshal(r)
return a, err
case typeCodeBool, typeCodeBoolTrue, typeCodeBoolFalse:
var a []bool
err := (*arrayBool)(&a).unmarshal(r)
return a, err
case typeCodeStr8, typeCodeStr32:
var a []string
err := (*arrayString)(&a).unmarshal(r)
return a, err
case typeCodeSym8, typeCodeSym32:
var a []symbol
err := (*arraySymbol)(&a).unmarshal(r)
return a, err
case typeCodeVbin8, typeCodeVbin32:
var a [][]byte
err := (*arrayBinary)(&a).unmarshal(r)
return a, err
case typeCodeTimestamp:
var a []time.Time
err := (*arrayTimestamp)(&a).unmarshal(r)
return a, err
case typeCodeUUID:
var a []UUID
err := (*arrayUUID)(&a).unmarshal(r)
return a, err
default:
return nil, errorErrorf("array decoding not implemented for %#02x", buf[typeIdx])
}
}
func readComposite(r *buffer) (interface{}, error) {
buf := r.bytes()
if len(buf) < 2 {
return nil, errorNew("invalid length for composite")
}
// compsites start with 0x0
if amqpType(buf[0]) != 0x0 {
return nil, errorErrorf("invalid composite header %#02x", buf[0])
}
var compositeType uint64
switch amqpType(buf[1]) {
case typeCodeSmallUlong:
if len(buf) < 3 {
return nil, errorNew("invalid length for smallulong")
}
compositeType = uint64(buf[2])
case typeCodeUlong:
if len(buf) < 10 {
return nil, errorNew("invalid length for ulong")
}
compositeType = binary.BigEndian.Uint64(buf[2:])
}
if compositeType > math.MaxUint8 {
// try as described type
var dt describedType
err := dt.unmarshal(r)
return dt, err
}
switch amqpType(compositeType) {
// Error
case typeCodeError:
t := new(Error)
err := t.unmarshal(r)
return t, err
// Lifetime Policies
case typeCodeDeleteOnClose:
t := deleteOnClose
err := t.unmarshal(r)
return t, err
case typeCodeDeleteOnNoMessages:
t := deleteOnNoMessages
err := t.unmarshal(r)
return t, err
case typeCodeDeleteOnNoLinks:
t := deleteOnNoLinks
err := t.unmarshal(r)
return t, err
case typeCodeDeleteOnNoLinksOrMessages:
t := deleteOnNoLinksOrMessages
err := t.unmarshal(r)
return t, err
// Delivery States
case typeCodeStateAccepted:
t := new(stateAccepted)
err := t.unmarshal(r)
return t, err
case typeCodeStateModified:
t := new(stateModified)
err := t.unmarshal(r)
return t, err
case typeCodeStateReceived:
t := new(stateReceived)
err := t.unmarshal(r)
return t, err
case typeCodeStateRejected:
t := new(stateRejected)
err := t.unmarshal(r)
return t, err
case typeCodeStateReleased:
t := new(stateReleased)
err := t.unmarshal(r)
return t, err
case typeCodeOpen,
typeCodeBegin,
typeCodeAttach,
typeCodeFlow,
typeCodeTransfer,
typeCodeDisposition,
typeCodeDetach,
typeCodeEnd,
typeCodeClose,
typeCodeSource,
typeCodeTarget,
typeCodeMessageHeader,
typeCodeDeliveryAnnotations,
typeCodeMessageAnnotations,
typeCodeMessageProperties,
typeCodeApplicationProperties,
typeCodeApplicationData,
typeCodeAMQPSequence,
typeCodeAMQPValue,
typeCodeFooter,
typeCodeSASLMechanism,
typeCodeSASLInit,
typeCodeSASLChallenge,
typeCodeSASLResponse,
typeCodeSASLOutcome:
return nil, errorErrorf("readComposite unmarshal not implemented for %#02x", compositeType)
default:
// try as described type
var dt describedType
err := dt.unmarshal(r)
return dt, err
}
}
func readTimestamp(r *buffer) (time.Time, error) {
type_, err := r.readType()
if err != nil {
return time.Time{}, err
}
if type_ != typeCodeTimestamp {
return time.Time{}, errorErrorf("invalid type for timestamp %02x", type_)
}
n, err := r.readUint64()
ms := int64(n)
return time.Unix(ms/1000, (ms%1000)*1000000).UTC(), err
}
func readInt(r *buffer) (int, error) {
type_, err := r.peekType()
if err != nil {
return 0, err
}
switch type_ {
// Unsigned
case typeCodeUbyte:
n, err := readUbyte(r)
return int(n), err
case typeCodeUshort:
n, err := readUshort(r)
return int(n), err
case typeCodeUint0, typeCodeSmallUint, typeCodeUint:
n, err := readUint32(r)
return int(n), err
case typeCodeUlong0, typeCodeSmallUlong, typeCodeUlong:
n, err := readUlong(r)
return int(n), err
// Signed
case typeCodeByte:
n, err := readSbyte(r)
return int(n), err
case typeCodeShort:
n, err := readShort(r)
return int(n), err
case typeCodeSmallint, typeCodeInt:
n, err := readInt32(r)
return int(n), err
case typeCodeSmalllong, typeCodeLong:
n, err := readLong(r)
return int(n), err
default:
return 0, errorErrorf("type code %#02x is not a recognized number type", type_)
}
}
func readLong(r *buffer) (int64, error) {
type_, err := r.readType()
if err != nil {
return 0, err
}