2017-02-16 13:31:19 +01:00
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package lnwire
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import (
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"encoding/binary"
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"io"
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"math"
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2017-02-23 00:53:12 +01:00
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"github.com/go-errors/errors"
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2017-02-16 13:31:19 +01:00
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)
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// featureFlag represent the status of the feature optional/required and needed
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// to allow future incompatible changes, or backward compatible changes.
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type featureFlag uint8
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2017-02-23 00:53:12 +01:00
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// String returns the string representation for the featureFlag.
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2017-02-16 13:31:19 +01:00
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func (f featureFlag) String() string {
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switch f {
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case OptionalFlag:
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return "optional"
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case RequiredFlag:
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return "required"
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default:
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return "<unknown>"
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}
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}
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// featureName represent the name of the feature and needed in order to have the
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// compile errors if we specify wrong feature name.
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type featureName string
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const (
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// OptionalFlag represent the feature which we already have but it isn't
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// required yet, and if remote peer doesn't have this feature we may
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// turn it off without disconnecting with peer.
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OptionalFlag featureFlag = 2 // 0b10
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// RequiredFlag represent the features which is required for proper
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// peer interaction, we disconnect with peer if it doesn't have this
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// particular feature.
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RequiredFlag featureFlag = 1 // 0b01
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// flagMask is a mask which is needed to extract feature flag value.
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flagMask = 3 // 0b11
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// flagBitsSize represent the size of the feature flag in bits. For
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// more information read the init message specification.
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flagBitsSize = 2
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// maxAllowedSize is a maximum allowed size of feature vector.
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// NOTE: Within the protocol, the maximum allowed message size is 65535
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// bytes. Adding the overhead from the crypto protocol (the 2-byte packet
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// length and 16-byte MAC), we arrive at 65569 bytes. Accounting for the
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// overhead within the feature message to signal the type of the message,
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// that leaves 65567 bytes for the init message itself. Next, we reserve
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// 4-bytes to encode the lengths of both the local and global feature
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// vectors, so 65563 for the global and local features. Knocking off one
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// byte for the sake of the calculation, that leads to a max allowed
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// size of 32781 bytes for each feature vector, or 131124 different
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// features.
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maxAllowedSize = 32781
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)
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2017-02-17 15:28:11 +01:00
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// Feature represent the feature which is used on stage of initialization of
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// feature vector. Initial feature flags might be changed dynamically later.
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type Feature struct {
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Name featureName
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Flag featureFlag
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}
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2017-02-16 13:31:19 +01:00
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// FeatureVector represents the global/local feature vector. With this structure
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// you may set/get the feature by name and compare feature vector with remote
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// one.
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type FeatureVector struct {
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// featuresMap is the map which stores the correspondence between
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// feature name and its index within feature vector. Index within
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// feature vector and actual binary position of feature
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// are different things)
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featuresMap map[featureName]int // name -> index
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// flags is the map which stores the correspondence between feature
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// index and its flag.
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flags map[int]featureFlag // index -> flag
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}
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// NewFeatureVector creates new instance of feature vector.
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func NewFeatureVector(features []Feature) *FeatureVector {
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featuresMap := make(map[featureName]int)
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flags := make(map[int]featureFlag)
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for index, feature := range features {
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featuresMap[feature.Name] = index
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flags[index] = feature.Flag
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}
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return &FeatureVector{
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featuresMap: featuresMap,
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flags: flags,
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}
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}
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// SetFeatureFlag assign flag to the feature.
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func (f *FeatureVector) SetFeatureFlag(name featureName, flag featureFlag) error {
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position, ok := f.featuresMap[name]
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if !ok {
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return errors.Errorf("can't find feature with name: %v", name)
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}
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f.flags[position] = flag
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return nil
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}
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// serializedSize returns the number of bytes which is needed to represent
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// feature vector in byte format.
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func (f *FeatureVector) serializedSize() uint16 {
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return uint16(math.Ceil(float64(flagBitsSize*len(f.flags)) / 8))
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}
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// NewFeatureVectorFromReader decodes the feature vector from binary
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// representation and creates the instance of it.
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// Every feature decoded as 2 bits where odd bit determine whether the feature
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// is "optional" and even bit told us whether the feature is "required". The
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// even/odd semantic allows future incompatible changes, or backward compatible
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// changes. Bits generally assigned in pairs, so that optional features can
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// later become compulsory.
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func NewFeatureVectorFromReader(r io.Reader) (*FeatureVector, error) {
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f := &FeatureVector{
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flags: make(map[int]featureFlag),
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}
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getFlag := func(data []byte, position int) featureFlag {
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byteNumber := uint(position / 8)
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bitNumber := uint(position % 8)
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return featureFlag((data[byteNumber] >> bitNumber) & flagMask)
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}
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// Read the length of the feature vector.
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var l [2]byte
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if _, err := r.Read(l[:]); err != nil {
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return nil, err
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}
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length := binary.BigEndian.Uint16(l[:])
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// Read the feature vector data.
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data := make([]byte, length)
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if _, err := r.Read(data); err != nil {
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return nil, err
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}
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// Initialize feature vector.
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bitsNumber := len(data) * 8
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for position := 0; position <= bitsNumber-flagBitsSize; position += flagBitsSize {
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flag := getFlag(data, position)
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switch flag {
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case OptionalFlag, RequiredFlag:
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// Every feature/flag takes 2 bits, so in order to get
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// the feature/flag index we should divide position
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// on 2.
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index := position / flagBitsSize
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f.flags[index] = flag
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default:
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continue
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}
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}
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return f, nil
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}
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// Encode encodes the features vector into bytes representation, every
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// feature encoded as 2 bits where odd bit determine whether the feature is
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// "optional" and even bit told us whether the feature is "required". The
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// even/odd semantic allows future incompatible changes, or backward compatible
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// changes. Bits generally assigned in pairs, so that optional features can
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// later become compulsory.
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func (f *FeatureVector) Encode(w io.Writer) error {
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setFlag := func(data []byte, position int, flag featureFlag) {
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byteNumber := uint(position / 8)
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bitNumber := uint(position % 8)
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data[byteNumber] |= (byte(flag) << bitNumber)
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}
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// Write length of feature vector.
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var l [2]byte
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length := f.serializedSize()
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binary.BigEndian.PutUint16(l[:], length)
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if _, err := w.Write(l[:]); err != nil {
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return err
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}
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// Generate the data and write it.
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data := make([]byte, length)
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for index, flag := range f.flags {
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// Every feature takes 2 bits, so in order to get the
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// feature bits position we should multiply index by 2.
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position := index * flagBitsSize
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setFlag(data, position, flag)
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}
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2017-02-23 19:59:50 +01:00
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_, err := w.Write(data)
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return err
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}
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// Compare checks that features are compatible and returns the features which
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// were present in both remote and local feature vectors. If remote/local node
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// doesn't have the feature and local/remote node require it than such vectors
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// are incompatible.
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2017-02-23 20:56:47 +01:00
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func (f *FeatureVector) Compare(f2 *FeatureVector) (*SharedFeatures, error) {
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shared := newSharedFeatures(f.Copy())
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2017-02-23 20:56:47 +01:00
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for index, flag := range f.flags {
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if _, exist := f2.flags[index]; !exist {
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switch flag {
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case RequiredFlag:
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return nil, errors.New("Remote node hasn't " +
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"locally required feature")
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case OptionalFlag:
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// If feature is optional and remote side
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// haven't it than it might be safely disabled.
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delete(shared.flags, index)
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continue
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}
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}
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// If feature exists on both sides than such feature might be
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// considered as active.
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shared.flags[index] = flag
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}
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2017-02-23 20:56:47 +01:00
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for index, flag := range f2.flags {
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if _, exist := f.flags[index]; !exist {
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2017-02-16 13:31:19 +01:00
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switch flag {
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case RequiredFlag:
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return nil, errors.New("Local node hasn't " +
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"locally required feature")
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case OptionalFlag:
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// If feature is optional and local side
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// haven't it than it might be safely disabled.
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2017-02-17 15:28:11 +01:00
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delete(shared.flags, index)
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2017-02-16 13:31:19 +01:00
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continue
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}
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}
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// If feature exists on both sides than such feature might be
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// considered as active.
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shared.flags[index] = flag
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}
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return shared, nil
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}
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2017-02-17 15:28:11 +01:00
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// Copy generate new distinct instance of the feature vector.
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func (f *FeatureVector) Copy() *FeatureVector {
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features := make([]Feature, len(f.featuresMap))
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for name, index := range f.featuresMap {
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features[index] = Feature{
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Name: name,
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Flag: f.flags[index],
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}
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}
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return NewFeatureVector(features)
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}
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2017-02-16 13:31:19 +01:00
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// SharedFeatures is a product of comparison of two features vector
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// which consist of features which are present in both local and remote
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// features vectors.
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type SharedFeatures struct {
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*FeatureVector
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}
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2017-02-17 15:28:11 +01:00
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// newSharedFeatures creates new shared features instance.
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func newSharedFeatures(f *FeatureVector) *SharedFeatures {
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return &SharedFeatures{f}
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}
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// IsActive checks is feature active or not, it might be disabled during
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// comparision with remote feature vector if it was optional and
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// remote peer doesn't support it.
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func (f *SharedFeatures) IsActive(name featureName) bool {
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index, ok := f.featuresMap[name]
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if !ok {
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// If we even have no such feature in feature map, than it
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// can't be active in any circumstances.
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return false
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}
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2017-02-17 15:28:11 +01:00
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_, exist := f.flags[index]
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return exist
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}
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