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|
package bgp
import (
"encoding/binary"
"encoding/json"
"fmt"
"net"
"strconv"
api "github.com/osrg/gobgp/api"
)
type SRPolicyNLRI struct {
PrefixDefault
rf RouteFamily
Length uint8
Distinguisher uint32
Color uint32
Endpoint []byte
}
const (
// SRPolicyIPv4NLRILen defines IPv4 SR Policy NLRI portion length in bits
SRPolicyIPv4NLRILen = 96
// SRPolicyIPv6NLRILen defines IPv6 SR Policy NLRI portion length in bits
SRPolicyIPv6NLRILen = 192
)
func (s *SRPolicyNLRI) Flat() map[string]string {
return map[string]string{}
}
func (s *SRPolicyNLRI) decodeFromBytes(rf RouteFamily, data []byte, options ...*MarshallingOption) error {
if IsAddPathEnabled(true, rf, options) {
var err error
data, err = s.decodePathIdentifier(data)
if err != nil {
return err
}
}
switch data[0] {
case SRPolicyIPv4NLRILen:
s.rf = RF_SR_POLICY_IPv4
case SRPolicyIPv6NLRILen:
s.rf = RF_SR_POLICY_IPv6
default:
msg := fmt.Sprintf("Invalid length %d for SR Policy NLRI", len(data))
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
}
p := 0
s.Length = data[p] / 8
p++
s.Distinguisher = binary.BigEndian.Uint32(data[p : p+4])
p += 4
s.Color = binary.BigEndian.Uint32(data[p : p+4])
p += 4
s.Endpoint = data[p:]
return nil
}
func (s *SRPolicyNLRI) Serialize(options ...*MarshallingOption) ([]byte, error) {
buf := make([]byte, 1+s.Length)
p := 0
buf[0] = s.Length * 8
p++
binary.BigEndian.PutUint32(buf[p:p+4], s.Distinguisher)
p += 4
binary.BigEndian.PutUint32(buf[p:p+4], s.Color)
p += 4
copy(buf[p:], s.Endpoint)
if IsAddPathEnabled(false, s.rf, options) {
id, err := s.serializeIdentifier()
if err != nil {
return nil, err
}
return append(id, buf...), nil
}
return buf, nil
}
func (s *SRPolicyNLRI) AFI() uint16 {
afi, _ := RouteFamilyToAfiSafi(s.rf)
return afi
}
func (s *SRPolicyNLRI) SAFI() uint8 {
_, safi := RouteFamilyToAfiSafi(s.rf)
return safi
}
func (s *SRPolicyNLRI) Len(options ...*MarshallingOption) int {
buf, _ := s.Serialize(options...)
return len(buf)
}
func (s *SRPolicyNLRI) String() string {
afi, _ := RouteFamilyToAfiSafi(s.rf)
var endp string
switch afi {
case AFI_IP:
endp = net.IP(s.Endpoint).To4().String()
case AFI_IP6:
endp = net.IP(s.Endpoint).To16().String()
default:
endp = "[" + string(s.Endpoint) + "]"
}
return fmt.Sprintf("{ Length: %d (bytes), Distinguisher: %d, Color %d, Endpoint: %s }", s.Length, s.Distinguisher, s.Color, endp)
}
func (s *SRPolicyNLRI) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Length uint8 `json:"length"`
Distinguisher uint32 `json:"distinguisher"`
Color uint32 `json:"color"`
Endpoint string `json:"endpoint"`
}{
Length: s.Length,
Distinguisher: s.Distinguisher,
Color: s.Color,
Endpoint: string(s.Endpoint),
})
}
type SRPolicyIPv4 struct {
SRPolicyNLRI
}
func (s *SRPolicyIPv4) DecodeFromBytes(data []byte, options ...*MarshallingOption) error {
return s.decodeFromBytes(s.rf, data)
}
func NewSRPolicyIPv4(l uint32, d uint32, c uint32, ep []byte) *SRPolicyIPv4 {
return &SRPolicyIPv4{
SRPolicyNLRI: SRPolicyNLRI{
rf: RF_SR_POLICY_IPv4,
Length: uint8(l / 8),
Distinguisher: d,
Color: c,
Endpoint: ep,
},
}
}
type SRPolicyIPv6 struct {
SRPolicyNLRI
}
func (s *SRPolicyIPv6) DecodeFromBytes(data []byte, options ...*MarshallingOption) error {
return s.decodeFromBytes(s.rf, data)
}
func NewSRPolicyIPv6(l uint32, d uint32, c uint32, ep []byte) *SRPolicyIPv6 {
return &SRPolicyIPv6{
SRPolicyNLRI: SRPolicyNLRI{
rf: RF_SR_POLICY_IPv6,
Length: uint8(l / 8),
Distinguisher: d,
Color: c,
Endpoint: ep,
},
}
}
type TunnelEncapSubTLVSRPreference struct {
TunnelEncapSubTLV
Flags uint8
Preference uint32
}
func (t *TunnelEncapSubTLVSRPreference) DecodeFromBytes(data []byte) error {
value, err := t.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return err
}
// Second byte carries the length of SR Preference SubTLV
if t.Length != 6 {
msg := fmt.Sprintf("Invalid TunnelEncapSubTLVSRPreference length: %d", t.Length)
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
}
t.Flags = value[0]
t.Preference = binary.BigEndian.Uint32(value[2:6])
return nil
}
func (t *TunnelEncapSubTLVSRPreference) Serialize() ([]byte, error) {
buf := make([]byte, 6)
buf[0] = t.Flags
binary.BigEndian.PutUint32(buf[2:6], t.Preference)
return t.TunnelEncapSubTLV.Serialize(buf[:])
}
func (t *TunnelEncapSubTLVSRPreference) String() string {
return fmt.Sprintf("{Flags: 0x%02x, Preference: %d}", t.Flags, t.Preference)
}
func (t *TunnelEncapSubTLVSRPreference) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
Flags uint8 `json:"flags"`
Preference uint32 `json:"preference"`
}{
Type: t.Type,
Flags: t.Flags,
Preference: t.Preference,
})
}
func NewTunnelEncapSubTLVSRPreference(flags uint32, preference uint32) *TunnelEncapSubTLVSRPreference {
return &TunnelEncapSubTLVSRPreference{
TunnelEncapSubTLV: TunnelEncapSubTLV{
Type: ENCAP_SUBTLV_TYPE_SRPREFERENCE,
Length: 6,
},
Flags: uint8(flags),
Preference: preference,
}
}
type TunnelEncapSubTLVSRPriority struct {
TunnelEncapSubTLV
Priority uint8
}
func (t *TunnelEncapSubTLVSRPriority) DecodeFromBytes(data []byte) error {
value, err := t.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return err
}
// Second byte carries the length of SR Preference SubTLV
if t.Length != 2 {
msg := fmt.Sprintf("Invalid TunnelEncapSubTLVSRPriority length: %d", t.Length)
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
}
t.Priority = value[0]
return nil
}
func (t *TunnelEncapSubTLVSRPriority) Serialize() ([]byte, error) {
buf := make([]byte, 1+1)
buf[0] = t.Priority
return t.TunnelEncapSubTLV.Serialize(buf[:])
}
func (t *TunnelEncapSubTLVSRPriority) String() string {
return fmt.Sprintf("{Priority: %d}", t.Priority)
}
func (t *TunnelEncapSubTLVSRPriority) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
Priority uint8 `json:"priority"`
}{
Type: t.Type,
Priority: t.Priority,
})
}
func NewTunnelEncapSubTLVSRPriority(priority uint8) *TunnelEncapSubTLVSRPriority {
return &TunnelEncapSubTLVSRPriority{
TunnelEncapSubTLV: TunnelEncapSubTLV{
Type: ENCAP_SUBTLV_TYPE_SRPRIORITY,
Length: 2,
},
Priority: priority,
}
}
type TunnelEncapSubTLVSRCandidatePathName struct {
TunnelEncapSubTLV
CandidatePathName string
}
func (t *TunnelEncapSubTLVSRCandidatePathName) DecodeFromBytes(data []byte) error {
value, err := t.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return err
}
// Skip Reserved byte
t.CandidatePathName = string(value[1:t.TunnelEncapSubTLV.Len()])
return nil
}
func (t *TunnelEncapSubTLVSRCandidatePathName) Serialize() ([]byte, error) {
buf := make([]byte, 1+len(t.CandidatePathName))
copy(buf[1:], t.CandidatePathName)
return t.TunnelEncapSubTLV.Serialize(buf[:])
}
func (t *TunnelEncapSubTLVSRCandidatePathName) String() string {
return fmt.Sprintf("{Candidate Path Name: %s}", t.CandidatePathName)
}
func (t *TunnelEncapSubTLVSRCandidatePathName) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
CandidatePathName string `json:"candidate_path_name"`
}{
Type: t.Type,
CandidatePathName: t.CandidatePathName,
})
}
func NewTunnelEncapSubTLVSRCandidatePathName(cpn string) *TunnelEncapSubTLVSRCandidatePathName {
return &TunnelEncapSubTLVSRCandidatePathName{
TunnelEncapSubTLV: TunnelEncapSubTLV{
Type: ENCAP_SUBTLV_TYPE_SRCANDIDATE_PATH_NAME,
Length: uint16(len(cpn) + 1), // length of Candidate Path name string + 1 Reserved byte
},
CandidatePathName: cpn,
}
}
type SRENLPValue uint8
const (
// ENLPType1 Indicates to push an IPv4 Explicit NULL label on an unlabeled IPv4
// packet, but do not push an IPv6 Explicit NULL label on an
// unlabeled IPv6 packet.
ENLPType1 SRENLPValue = 1
// ENLPType2 Indicates to push an IPv6 Explicit NULL label on an unlabeled IPv6
// packet, but do not push an IPv4 Explicit NULL label on an
// unlabeled IPv4 packet.
ENLPType2 SRENLPValue = 2
// ENLPType3 Indicates to push an IPv4 Explicit NULL label on an unlabeled IPv4
// packet, and push an IPv6 Explicit NULL label on an unlabeled
// IPv6 packet.
ENLPType3 SRENLPValue = 3
// ENLPType4 Indicates to not push an Explicit NULL label.
ENLPType4 SRENLPValue = 4
)
type TunnelEncapSubTLVSRENLP struct {
TunnelEncapSubTLV
Flags uint8
ENLP SRENLPValue
}
func (t *TunnelEncapSubTLVSRENLP) DecodeFromBytes(data []byte) error {
value, err := t.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return err
}
// Second byte carries the length of SR Preference SubTLV
if t.Length != 3 {
msg := fmt.Sprintf("Invalid TunnelEncapSubTLVSRENLP length: %d", t.Length)
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
}
t.Flags = value[0]
switch SRENLPValue(value[2]) {
case ENLPType1:
case ENLPType2:
case ENLPType3:
case ENLPType4:
default:
msg := fmt.Sprintf("Invalid ENLP Type: %d", value[2])
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
}
t.ENLP = SRENLPValue(value[2])
return nil
}
func (t *TunnelEncapSubTLVSRENLP) Serialize() ([]byte, error) {
buf := make([]byte, t.Length)
buf[0] = t.Flags
buf[2] = byte(t.ENLP)
return t.TunnelEncapSubTLV.Serialize(buf[:])
}
func (t *TunnelEncapSubTLVSRENLP) String() string {
return fmt.Sprintf("{Flags: 0x%02x, ENLP Type: %d}", t.Flags, t.ENLP)
}
func (t *TunnelEncapSubTLVSRENLP) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
Flags uint8 `json:"flags"`
ENLP uint8 `json:"enlp"`
}{
Type: t.Type,
Flags: t.Flags,
ENLP: uint8(t.ENLP),
})
}
func NewTunnelEncapSubTLVSRENLP(flags uint32, enlp SRENLPValue) *TunnelEncapSubTLVSRENLP {
return &TunnelEncapSubTLVSRENLP{
TunnelEncapSubTLV: TunnelEncapSubTLV{
Type: ENCAP_SUBTLV_TYPE_SRENLP,
Length: 3,
},
Flags: uint8(flags),
ENLP: enlp,
}
}
type BSID struct {
Value []byte
}
func (b *BSID) String() string {
switch len(b.Value) {
case 0:
return "n/a"
case 4:
bsid := binary.BigEndian.Uint32(b.Value)
bsid >>= 12
return strconv.Itoa(int(bsid))
case 16:
return net.IP(b.Value).To16().String()
default:
return "invalid"
}
}
func (b *BSID) Serialize() []byte {
return b.Value
}
func (b *BSID) Len() int {
return len(b.Value)
}
func NewBSID(v []byte) (*BSID, error) {
var bsid *BSID
switch len(v) {
case 0:
case 4:
t := binary.BigEndian.Uint32(v)
t <<= 12
bsid = &BSID{
Value: make([]byte, len(v)),
}
binary.BigEndian.PutUint32(bsid.Value, t)
case 16:
bsid = &BSID{
Value: make([]byte, len(v)),
}
copy(bsid.Value, v)
default:
return nil, fmt.Errorf("invalid length %d", len(v))
}
return bsid, nil
}
type TunnelEncapSubTLVSRBSID struct {
TunnelEncapSubTLV
Flags uint8
BSID *BSID
}
func (t *TunnelEncapSubTLVSRBSID) DecodeFromBytes(data []byte) error {
value, err := t.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
// Check Sub TLV length, only 3 possible length are allowed
switch t.Length {
case 2: // No BSID, do not initializing BSID struct
case 6:
fallthrough
case 18:
t.BSID = &BSID{
Value: make([]byte, t.Length-2),
}
copy(t.BSID.Value, value[2:t.Length])
default:
msg := fmt.Sprintf("Invalid TunnelEncapSubTLVSRBSID length: %d", t.Length)
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
}
t.Flags = value[0]
return nil
}
func (t *TunnelEncapSubTLVSRBSID) Serialize() ([]byte, error) {
l := 2
if t.BSID != nil {
l += t.BSID.Len()
}
buf := make([]byte, l) // 1st byte Flags, 2nd byte Reserved, 3rd+ BSID
buf[0] = t.Flags
if t.BSID != nil {
bsid := t.BSID.Serialize()
copy(buf[2:], bsid)
}
return t.TunnelEncapSubTLV.Serialize(buf[:])
}
func (t *TunnelEncapSubTLVSRBSID) String() string {
return fmt.Sprintf("{S-Flag: %t, I-Flag: %t, BSID: %s}", t.Flags&0x80 == 0x80, t.Flags&0x40 == 0x40, t.BSID.String())
}
func (t *TunnelEncapSubTLVSRBSID) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
Flags uint8 `json:"flags"`
BSID string `json:"binding_sid,omitempty"`
}{
Type: t.Type,
Flags: t.Flags,
BSID: t.BSID.String(),
})
}
type TunnelEncapSubTLVSRv6BSID struct {
TunnelEncapSubTLV
Flags uint8
BSID *BSID
EPBAS *SRv6EndpointBehaviorStructure
}
func (t *TunnelEncapSubTLVSRv6BSID) DecodeFromBytes(data []byte) error {
value, err := t.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
t.Flags = value[0]
t.BSID, err = NewBSID(value[2:t.Length])
if err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
return nil
}
func (t *TunnelEncapSubTLVSRv6BSID) Serialize() ([]byte, error) {
buf := make([]byte, t.Length)
buf[0] = t.Flags
copy(buf[2:t.BSID.Len()], t.BSID.Serialize())
return t.TunnelEncapSubTLV.Serialize(buf[:])
}
func (t *TunnelEncapSubTLVSRv6BSID) String() string {
return fmt.Sprintf("{S-Flag: %t, I-Flag: %t, B-Flag: %t, BSID: %s}", t.Flags&0x80 == 0x80, t.Flags&0x40 == 0x40, t.Flags&0x20 == 0x20, t.BSID.String())
}
func (t *TunnelEncapSubTLVSRv6BSID) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
Flags uint8 `json:"flags"`
BSID string `json:"binding_sid,omitempty"`
}{
Type: t.Type,
Flags: t.Flags,
BSID: t.BSID.String(),
})
}
// SegmentType defines a type of Segment in Segment List
type SegmentType int
const (
// TypeA Segment Sub-TLV encodes a single SR-MPLS SID
TypeA SegmentType = 1
// TypeB Segment Sub-TLV encodes a single SRv6 SID.
TypeB SegmentType = 13
// TypeC Segment Sub-TLV encodes an IPv4 node address, SR Algorithm
// and an optional SR-MPLS SID
TypeC SegmentType = 3
// TypeD Segment Sub-TLV encodes an IPv6 node address, SR Algorithm
// and an optional SR-MPLS SID.
TypeD SegmentType = 4
// TypeE Segment Sub-TLV encodes an IPv4 node address, a local
// interface Identifier (Local Interface ID) and an optional SR-MPLS
// SID.
TypeE SegmentType = 5
// TypeF Segment Sub-TLV encodes an adjacency local address, an
// adjacency remote address and an optional SR-MPLS SID.
TypeF SegmentType = 6
// TypeG Segment Sub-TLV encodes an IPv6 Link Local adjacency with
// IPv6 local node address, a local interface identifier (Local
// Interface ID), IPv6 remote node address , a remote interface
// identifier (Remote Interface ID) and an optional SR-MPLS SID.
TypeG SegmentType = 7
// TypeH Segment Sub-TLV encodes an adjacency local address, an
// adjacency remote address and an optional SR-MPLS SID.
TypeH SegmentType = 8
// TypeI Segment Sub-TLV encodes an IPv6 node address, SR Algorithm
// and an optional SRv6 SID.
TypeI SegmentType = 14
// TypeJ Segment Sub-TLV encodes an IPv6 Link Local adjacency with
// local node address, a local interface identifier (Local Interface
// ID), remote IPv6 node address, a remote interface identifier (Remote
// Interface ID) and an optional SRv6 SID.
TypeJ SegmentType = 15
// TypeK Segment Sub-TLV encodes an adjacency local address, an
// adjacency remote address and an optional SRv6 SID.
TypeK SegmentType = 16
)
// Weight sub-TLV specifies the weight associated to a given segment list.
type SegmentListWeight struct {
TunnelEncapSubTLV
Flags uint8
Weight uint32
}
func (s *SegmentListWeight) DecodeFromBytes(data []byte) error {
value, err := s.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
s.Flags = value[0]
s.Weight = binary.BigEndian.Uint32(value[2:6])
return nil
}
func (s *SegmentListWeight) Serialize() ([]byte, error) {
buf := make([]byte, 6)
buf[0] = s.Flags
binary.BigEndian.PutUint32(buf[2:6], s.Weight)
return s.TunnelEncapSubTLV.Serialize(buf)
}
func (s *SegmentListWeight) String() string {
return fmt.Sprintf("{Flags: 0x%02x, Weight: %d}", s.Flags, s.Weight)
}
func (s *SegmentListWeight) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
Flags uint8 `json:"flags"`
Weight uint32 `json:"weight,omitempty"`
}{
Type: s.Type,
Flags: s.Flags,
Weight: s.Weight,
})
}
type SegmentTypeA struct {
TunnelEncapSubTLV
Flags uint8
Label uint32
}
func (s *SegmentTypeA) DecodeFromBytes(data []byte) error {
value, err := s.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
s.Flags = value[0]
s.Label = binary.BigEndian.Uint32(value[2:6])
return nil
}
func (s *SegmentTypeA) Serialize() ([]byte, error) {
buf := make([]byte, 6)
buf[0] = s.Flags
binary.BigEndian.PutUint32(buf[2:6], s.Label)
return s.TunnelEncapSubTLV.Serialize(buf)
}
func (s *SegmentTypeA) String() string {
return fmt.Sprintf("{V-flag: %t, A-flag:, %t S-flag: %t, B-flag: %t, Label: %d TC: %d S: %t TTL: %d}",
s.Flags&0x80 == 0x80, s.Flags&0x40 == 0x40, s.Flags&0x20 == 0x20, s.Flags&0x10 == 0x10,
s.Label>>12, s.Label&0x00000e00>>9, s.Label&0x00000100 == 0x00000100, s.Label&0x000000ff)
}
func (s *SegmentTypeA) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
VFlag bool `json:"v_flag"`
AFlag bool `json:"a_flag"`
SFlag bool `json:"s_flag"`
BFlag bool `json:"b_flag"`
Label uint32 `json:"label"`
TC uint8 `json:"tc"`
S bool `json:"s"`
TTL uint8 `json:"ttl"`
}{
Type: s.Type,
VFlag: s.Flags&0x80 == 0x80,
AFlag: s.Flags&0x40 == 0x40,
SFlag: s.Flags&0x20 == 0x20,
BFlag: s.Flags&0x10 == 0x10,
Label: s.Label >> 12,
TC: uint8(s.Label & 0x00000e00 >> 9),
S: s.Label&0x00000100 == 0x00000100,
TTL: uint8(s.Label & 0x000000ff),
})
}
type SRv6EndpointBehaviorStructure struct {
Behavior api.SRv6Behavior
BlockLen uint8
NodeLen uint8
FuncLen uint8
ArgLen uint8
}
type SegmentTypeB struct {
TunnelEncapSubTLV
Flags uint8
SID []byte
EP *SRv6EndpointBehaviorStructure
}
func (s *SegmentTypeB) DecodeFromBytes(data []byte) error {
value, err := s.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
s.Flags = value[0]
return nil
}
func (s *SegmentTypeB) Serialize() ([]byte, error) {
buf := make([]byte, 6)
buf[0] = s.Flags
return s.TunnelEncapSubTLV.Serialize(buf)
}
func (s *SegmentTypeB) String() string {
return fmt.Sprintf("{V-flag: %t, A-flag:, %t S-flag: %t, B-flag: %t}",
s.Flags&0x80 == 0x80, s.Flags&0x40 == 0x40, s.Flags&0x20 == 0x20, s.Flags&0x10 == 0x10)
}
func (s *SegmentTypeB) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
VFlag bool `json:"v_flag"`
AFlag bool `json:"a_flag"`
SFlag bool `json:"s_flag"`
BFlag bool `json:"b_flag"`
}{
Type: s.Type,
VFlag: s.Flags&0x80 == 0x80,
AFlag: s.Flags&0x40 == 0x40,
SFlag: s.Flags&0x20 == 0x20,
BFlag: s.Flags&0x10 == 0x10,
})
}
const (
// SegmentListSubTLVWeight defines code for Segment List's Weight sub-TLV
SegmentListSubTLVWeight = 9
)
type TunnelEncapSubTLVSRSegmentList struct {
TunnelEncapSubTLV
Weight *SegmentListWeight
Segments []TunnelEncapSubTLVInterface
}
func (t *TunnelEncapSubTLVSRSegmentList) DecodeFromBytes(data []byte) error {
value, err := t.TunnelEncapSubTLV.DecodeFromBytes(data)
if err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
// Skip reserved byte to access inner SubTLV type
value = value[1:]
segments := make([]TunnelEncapSubTLVInterface, 0)
p := 0
for p < t.TunnelEncapSubTLV.Len()-4 {
var segment TunnelEncapSubTLVInterface
switch SegmentType(value[0]) {
case SegmentListSubTLVWeight:
t.Weight = &SegmentListWeight{}
if err := t.Weight.DecodeFromBytes(value); err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
p += t.Weight.TunnelEncapSubTLV.Len()
value = value[t.Weight.TunnelEncapSubTLV.Len():]
continue
case TypeA:
segment = &SegmentTypeA{}
if err := segment.DecodeFromBytes(value); err != nil {
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, err.Error())
}
case TypeB:
fallthrough
case TypeC:
fallthrough
case TypeD:
fallthrough
case TypeE:
fallthrough
case TypeF:
fallthrough
case TypeG:
fallthrough
case TypeH:
fallthrough
case TypeI:
fallthrough
case TypeJ:
fallthrough
case TypeK:
msg := fmt.Sprintf("Invalid SR Policy Segment SubTLV %d is not yet supported", value[0])
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
default:
msg := fmt.Sprintf("Invalid SR Policy Segment List SubTLV %d", value[0])
return NewMessageError(BGP_ERROR_UPDATE_MESSAGE_ERROR, BGP_ERROR_SUB_MALFORMED_ATTRIBUTE_LIST, nil, msg)
}
segments = append(segments, segment)
p += segment.Len()
value = value[segment.Len():]
}
if len(segments) == 0 {
t.Segments = nil
} else {
t.Segments = segments
}
return nil
}
func (t *TunnelEncapSubTLVSRSegmentList) Serialize() ([]byte, error) {
buf := make([]byte, 0)
// Add reserved byte
buf = append(buf, 0x0)
if t.Weight != nil {
wbuf, err := t.Weight.Serialize()
if err != nil {
return nil, err
}
buf = append(buf, wbuf...)
}
for _, s := range t.Segments {
sbuf, err := s.Serialize()
if err != nil {
return nil, err
}
buf = append(buf, sbuf...)
}
return t.TunnelEncapSubTLV.Serialize(buf[:])
}
func (t *TunnelEncapSubTLVSRSegmentList) String() string {
msg := "{"
if t.Weight != nil {
msg += "Weight: " + t.Weight.String() + ","
}
msg += "Segment List: [ "
for _, s := range t.Segments {
msg += s.String() + ","
}
msg += " ] }"
return msg
}
func (t *TunnelEncapSubTLVSRSegmentList) MarshalJSON() ([]byte, error) {
return json.Marshal(struct {
Type EncapSubTLVType `json:"type"`
Weight *SegmentListWeight
Segments []TunnelEncapSubTLVInterface
}{
Type: t.Type,
Weight: t.Weight,
Segments: t.Segments,
})
}
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