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packet_packer.go
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packet_packer.go
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package quic
import (
"errors"
"fmt"
"net"
"time"
"github.com/quic-go/quic-go/internal/ackhandler"
"github.com/quic-go/quic-go/internal/handshake"
"github.com/quic-go/quic-go/internal/protocol"
"github.com/quic-go/quic-go/internal/qerr"
"github.com/quic-go/quic-go/internal/utils"
"github.com/quic-go/quic-go/internal/wire"
)
var errNothingToPack = errors.New("nothing to pack")
type packer interface {
PackCoalescedPacket(onlyAck bool, v protocol.VersionNumber) (*coalescedPacket, error)
PackPacket(onlyAck bool, now time.Time, v protocol.VersionNumber) (shortHeaderPacket, *packetBuffer, error)
MaybePackProbePacket(protocol.EncryptionLevel, protocol.VersionNumber) (*coalescedPacket, error)
PackConnectionClose(*qerr.TransportError, protocol.VersionNumber) (*coalescedPacket, error)
PackApplicationClose(*qerr.ApplicationError, protocol.VersionNumber) (*coalescedPacket, error)
SetMaxPacketSize(protocol.ByteCount)
PackMTUProbePacket(ping ackhandler.Frame, size protocol.ByteCount, now time.Time, v protocol.VersionNumber) (shortHeaderPacket, *packetBuffer, error)
HandleTransportParameters(*wire.TransportParameters)
SetToken([]byte)
}
type sealer interface {
handshake.LongHeaderSealer
}
type payload struct {
frames []*ackhandler.Frame
ack *wire.AckFrame
length protocol.ByteCount
}
type longHeaderPacket struct {
header *wire.ExtendedHeader
ack *wire.AckFrame
frames []*ackhandler.Frame
length protocol.ByteCount
isMTUProbePacket bool
}
type shortHeaderPacket struct {
*ackhandler.Packet
// used for logging
DestConnID protocol.ConnectionID
Ack *wire.AckFrame
PacketNumberLen protocol.PacketNumberLen
KeyPhase protocol.KeyPhaseBit
}
func (p *shortHeaderPacket) IsAckEliciting() bool { return ackhandler.HasAckElicitingFrames(p.Frames) }
type coalescedPacket struct {
buffer *packetBuffer
longHdrPackets []*longHeaderPacket
shortHdrPacket *shortHeaderPacket
}
func (p *longHeaderPacket) EncryptionLevel() protocol.EncryptionLevel {
//nolint:exhaustive // Will never be called for Retry packets (and they don't have encrypted data).
switch p.header.Type {
case protocol.PacketTypeInitial:
return protocol.EncryptionInitial
case protocol.PacketTypeHandshake:
return protocol.EncryptionHandshake
case protocol.PacketType0RTT:
return protocol.Encryption0RTT
default:
panic("can't determine encryption level")
}
}
func (p *longHeaderPacket) IsAckEliciting() bool { return ackhandler.HasAckElicitingFrames(p.frames) }
func (p *longHeaderPacket) ToAckHandlerPacket(now time.Time, q *retransmissionQueue) *ackhandler.Packet {
largestAcked := protocol.InvalidPacketNumber
if p.ack != nil {
largestAcked = p.ack.LargestAcked()
}
encLevel := p.EncryptionLevel()
for i := range p.frames {
if p.frames[i].OnLost != nil {
continue
}
//nolint:exhaustive // Short header packets are handled separately.
switch encLevel {
case protocol.EncryptionInitial:
p.frames[i].OnLost = q.AddInitial
case protocol.EncryptionHandshake:
p.frames[i].OnLost = q.AddHandshake
case protocol.Encryption0RTT:
p.frames[i].OnLost = q.AddAppData
}
}
ap := ackhandler.GetPacket()
ap.PacketNumber = p.header.PacketNumber
ap.LargestAcked = largestAcked
ap.Frames = p.frames
ap.Length = p.length
ap.EncryptionLevel = encLevel
ap.SendTime = now
ap.IsPathMTUProbePacket = p.isMTUProbePacket
return ap
}
func getMaxPacketSize(addr net.Addr) protocol.ByteCount {
maxSize := protocol.ByteCount(protocol.MinInitialPacketSize)
// If this is not a UDP address, we don't know anything about the MTU.
// Use the minimum size of an Initial packet as the max packet size.
if udpAddr, ok := addr.(*net.UDPAddr); ok {
if utils.IsIPv4(udpAddr.IP) {
maxSize = protocol.InitialPacketSizeIPv4
} else {
maxSize = protocol.InitialPacketSizeIPv6
}
}
return maxSize
}
type packetNumberManager interface {
PeekPacketNumber(protocol.EncryptionLevel) (protocol.PacketNumber, protocol.PacketNumberLen)
PopPacketNumber(protocol.EncryptionLevel) protocol.PacketNumber
}
type sealingManager interface {
GetInitialSealer() (handshake.LongHeaderSealer, error)
GetHandshakeSealer() (handshake.LongHeaderSealer, error)
Get0RTTSealer() (handshake.LongHeaderSealer, error)
Get1RTTSealer() (handshake.ShortHeaderSealer, error)
}
type frameSource interface {
HasData() bool
AppendStreamFrames([]*ackhandler.Frame, protocol.ByteCount, protocol.VersionNumber) ([]*ackhandler.Frame, protocol.ByteCount)
AppendControlFrames([]*ackhandler.Frame, protocol.ByteCount, protocol.VersionNumber) ([]*ackhandler.Frame, protocol.ByteCount)
}
type ackFrameSource interface {
GetAckFrame(encLevel protocol.EncryptionLevel, onlyIfQueued bool) *wire.AckFrame
}
type packetPacker struct {
srcConnID protocol.ConnectionID
getDestConnID func() protocol.ConnectionID
perspective protocol.Perspective
cryptoSetup sealingManager
initialStream cryptoStream
handshakeStream cryptoStream
token []byte
pnManager packetNumberManager
framer frameSource
acks ackFrameSource
datagramQueue *datagramQueue
retransmissionQueue *retransmissionQueue
maxPacketSize protocol.ByteCount
numNonAckElicitingAcks int
}
var _ packer = &packetPacker{}
func newPacketPacker(srcConnID protocol.ConnectionID, getDestConnID func() protocol.ConnectionID, initialStream cryptoStream, handshakeStream cryptoStream, packetNumberManager packetNumberManager, retransmissionQueue *retransmissionQueue, remoteAddr net.Addr, cryptoSetup sealingManager, framer frameSource, acks ackFrameSource, datagramQueue *datagramQueue, perspective protocol.Perspective) *packetPacker {
return &packetPacker{
cryptoSetup: cryptoSetup,
getDestConnID: getDestConnID,
srcConnID: srcConnID,
initialStream: initialStream,
handshakeStream: handshakeStream,
retransmissionQueue: retransmissionQueue,
datagramQueue: datagramQueue,
perspective: perspective,
framer: framer,
acks: acks,
pnManager: packetNumberManager,
maxPacketSize: getMaxPacketSize(remoteAddr),
}
}
// PackConnectionClose packs a packet that closes the connection with a transport error.
func (p *packetPacker) PackConnectionClose(e *qerr.TransportError, v protocol.VersionNumber) (*coalescedPacket, error) {
var reason string
// don't send details of crypto errors
if !e.ErrorCode.IsCryptoError() {
reason = e.ErrorMessage
}
return p.packConnectionClose(false, uint64(e.ErrorCode), e.FrameType, reason, v)
}
// PackApplicationClose packs a packet that closes the connection with an application error.
func (p *packetPacker) PackApplicationClose(e *qerr.ApplicationError, v protocol.VersionNumber) (*coalescedPacket, error) {
return p.packConnectionClose(true, uint64(e.ErrorCode), 0, e.ErrorMessage, v)
}
func (p *packetPacker) packConnectionClose(
isApplicationError bool,
errorCode uint64,
frameType uint64,
reason string,
v protocol.VersionNumber,
) (*coalescedPacket, error) {
var sealers [4]sealer
var hdrs [3]*wire.ExtendedHeader
var payloads [4]payload
var size protocol.ByteCount
var connID protocol.ConnectionID
var oneRTTPacketNumber protocol.PacketNumber
var oneRTTPacketNumberLen protocol.PacketNumberLen
var keyPhase protocol.KeyPhaseBit // only set for 1-RTT
var numLongHdrPackets uint8
encLevels := [4]protocol.EncryptionLevel{protocol.EncryptionInitial, protocol.EncryptionHandshake, protocol.Encryption0RTT, protocol.Encryption1RTT}
for i, encLevel := range encLevels {
if p.perspective == protocol.PerspectiveServer && encLevel == protocol.Encryption0RTT {
continue
}
ccf := &wire.ConnectionCloseFrame{
IsApplicationError: isApplicationError,
ErrorCode: errorCode,
FrameType: frameType,
ReasonPhrase: reason,
}
// don't send application errors in Initial or Handshake packets
if isApplicationError && (encLevel == protocol.EncryptionInitial || encLevel == protocol.EncryptionHandshake) {
ccf.IsApplicationError = false
ccf.ErrorCode = uint64(qerr.ApplicationErrorErrorCode)
ccf.ReasonPhrase = ""
}
pl := payload{
frames: []*ackhandler.Frame{{Frame: ccf}},
length: ccf.Length(v),
}
var sealer sealer
var err error
switch encLevel {
case protocol.EncryptionInitial:
sealer, err = p.cryptoSetup.GetInitialSealer()
case protocol.EncryptionHandshake:
sealer, err = p.cryptoSetup.GetHandshakeSealer()
case protocol.Encryption0RTT:
sealer, err = p.cryptoSetup.Get0RTTSealer()
case protocol.Encryption1RTT:
var s handshake.ShortHeaderSealer
s, err = p.cryptoSetup.Get1RTTSealer()
if err == nil {
keyPhase = s.KeyPhase()
}
sealer = s
}
if err == handshake.ErrKeysNotYetAvailable || err == handshake.ErrKeysDropped {
continue
}
if err != nil {
return nil, err
}
sealers[i] = sealer
var hdr *wire.ExtendedHeader
if encLevel == protocol.Encryption1RTT {
connID = p.getDestConnID()
oneRTTPacketNumber, oneRTTPacketNumberLen = p.pnManager.PeekPacketNumber(protocol.Encryption1RTT)
size += p.shortHeaderPacketLength(connID, oneRTTPacketNumberLen, pl)
} else {
hdr = p.getLongHeader(encLevel, v)
hdrs[i] = hdr
size += p.longHeaderPacketLength(hdr, pl, v) + protocol.ByteCount(sealer.Overhead())
numLongHdrPackets++
}
payloads[i] = pl
}
buffer := getPacketBuffer()
packet := &coalescedPacket{
buffer: buffer,
longHdrPackets: make([]*longHeaderPacket, 0, numLongHdrPackets),
}
for i, encLevel := range encLevels {
if sealers[i] == nil {
continue
}
var paddingLen protocol.ByteCount
if encLevel == protocol.EncryptionInitial {
paddingLen = p.initialPaddingLen(payloads[i].frames, size)
}
if encLevel == protocol.Encryption1RTT {
ap, ack, err := p.appendShortHeaderPacket(buffer, connID, oneRTTPacketNumber, oneRTTPacketNumberLen, keyPhase, payloads[i], paddingLen, sealers[i], false, v)
if err != nil {
return nil, err
}
packet.shortHdrPacket = &shortHeaderPacket{
Packet: ap,
DestConnID: connID,
Ack: ack,
PacketNumberLen: oneRTTPacketNumberLen,
KeyPhase: keyPhase,
}
} else {
longHdrPacket, err := p.appendLongHeaderPacket(buffer, hdrs[i], payloads[i], paddingLen, encLevel, sealers[i], v)
if err != nil {
return nil, err
}
packet.longHdrPackets = append(packet.longHdrPackets, longHdrPacket)
}
}
return packet, nil
}
// longHeaderPacketLength calculates the length of a serialized long header packet.
// It takes into account that packets that have a tiny payload need to be padded,
// such that len(payload) + packet number len >= 4 + AEAD overhead
func (p *packetPacker) longHeaderPacketLength(hdr *wire.ExtendedHeader, pl payload, v protocol.VersionNumber) protocol.ByteCount {
var paddingLen protocol.ByteCount
pnLen := protocol.ByteCount(hdr.PacketNumberLen)
if pl.length < 4-pnLen {
paddingLen = 4 - pnLen - pl.length
}
return hdr.GetLength(v) + pl.length + paddingLen
}
// shortHeaderPacketLength calculates the length of a serialized short header packet.
// It takes into account that packets that have a tiny payload need to be padded,
// such that len(payload) + packet number len >= 4 + AEAD overhead
func (p *packetPacker) shortHeaderPacketLength(connID protocol.ConnectionID, pnLen protocol.PacketNumberLen, pl payload) protocol.ByteCount {
var paddingLen protocol.ByteCount
if pl.length < 4-protocol.ByteCount(pnLen) {
paddingLen = 4 - protocol.ByteCount(pnLen) - pl.length
}
return wire.ShortHeaderLen(connID, pnLen) + pl.length + paddingLen
}
// size is the expected size of the packet, if no padding was applied.
func (p *packetPacker) initialPaddingLen(frames []*ackhandler.Frame, size protocol.ByteCount) protocol.ByteCount {
// For the server, only ack-eliciting Initial packets need to be padded.
if p.perspective == protocol.PerspectiveServer && !ackhandler.HasAckElicitingFrames(frames) {
return 0
}
if size >= p.maxPacketSize {
return 0
}
return p.maxPacketSize - size
}
// PackCoalescedPacket packs a new packet.
// It packs an Initial / Handshake if there is data to send in these packet number spaces.
// It should only be called before the handshake is confirmed.
func (p *packetPacker) PackCoalescedPacket(onlyAck bool, v protocol.VersionNumber) (*coalescedPacket, error) {
maxPacketSize := p.maxPacketSize
if p.perspective == protocol.PerspectiveClient {
maxPacketSize = protocol.MinInitialPacketSize
}
var (
initialHdr, handshakeHdr, zeroRTTHdr *wire.ExtendedHeader
initialPayload, handshakePayload, zeroRTTPayload, oneRTTPayload payload
oneRTTPacketNumber protocol.PacketNumber
oneRTTPacketNumberLen protocol.PacketNumberLen
)
// Try packing an Initial packet.
initialSealer, err := p.cryptoSetup.GetInitialSealer()
if err != nil && err != handshake.ErrKeysDropped {
return nil, err
}
var size protocol.ByteCount
if initialSealer != nil {
initialHdr, initialPayload = p.maybeGetCryptoPacket(maxPacketSize-protocol.ByteCount(initialSealer.Overhead()), protocol.EncryptionInitial, onlyAck, true, v)
if initialPayload.length > 0 {
size += p.longHeaderPacketLength(initialHdr, initialPayload, v) + protocol.ByteCount(initialSealer.Overhead())
}
}
// Add a Handshake packet.
var handshakeSealer sealer
if (onlyAck && size == 0) || (!onlyAck && size < maxPacketSize-protocol.MinCoalescedPacketSize) {
var err error
handshakeSealer, err = p.cryptoSetup.GetHandshakeSealer()
if err != nil && err != handshake.ErrKeysDropped && err != handshake.ErrKeysNotYetAvailable {
return nil, err
}
if handshakeSealer != nil {
handshakeHdr, handshakePayload = p.maybeGetCryptoPacket(maxPacketSize-size-protocol.ByteCount(handshakeSealer.Overhead()), protocol.EncryptionHandshake, onlyAck, size == 0, v)
if handshakePayload.length > 0 {
s := p.longHeaderPacketLength(handshakeHdr, handshakePayload, v) + protocol.ByteCount(handshakeSealer.Overhead())
size += s
}
}
}
// Add a 0-RTT / 1-RTT packet.
var zeroRTTSealer sealer
var oneRTTSealer handshake.ShortHeaderSealer
var connID protocol.ConnectionID
var kp protocol.KeyPhaseBit
if (onlyAck && size == 0) || (!onlyAck && size < maxPacketSize-protocol.MinCoalescedPacketSize) {
var err error
oneRTTSealer, err = p.cryptoSetup.Get1RTTSealer()
if err != nil && err != handshake.ErrKeysDropped && err != handshake.ErrKeysNotYetAvailable {
return nil, err
}
if err == nil { // 1-RTT
kp = oneRTTSealer.KeyPhase()
connID = p.getDestConnID()
oneRTTPacketNumber, oneRTTPacketNumberLen = p.pnManager.PeekPacketNumber(protocol.Encryption1RTT)
hdrLen := wire.ShortHeaderLen(connID, oneRTTPacketNumberLen)
oneRTTPayload = p.maybeGetShortHeaderPacket(oneRTTSealer, hdrLen, maxPacketSize-size, onlyAck, size == 0, v)
if oneRTTPayload.length > 0 {
size += p.shortHeaderPacketLength(connID, oneRTTPacketNumberLen, oneRTTPayload) + protocol.ByteCount(oneRTTSealer.Overhead())
}
} else if p.perspective == protocol.PerspectiveClient { // 0-RTT
var err error
zeroRTTSealer, err = p.cryptoSetup.Get0RTTSealer()
if err != nil && err != handshake.ErrKeysDropped && err != handshake.ErrKeysNotYetAvailable {
return nil, err
}
if zeroRTTSealer != nil {
zeroRTTHdr, zeroRTTPayload = p.maybeGetAppDataPacketFor0RTT(zeroRTTSealer, maxPacketSize-size, v)
if zeroRTTPayload.length > 0 {
size += p.longHeaderPacketLength(zeroRTTHdr, zeroRTTPayload, v) + protocol.ByteCount(zeroRTTSealer.Overhead())
}
}
}
}
if initialPayload.length == 0 && handshakePayload.length == 0 && zeroRTTPayload.length == 0 && oneRTTPayload.length == 0 {
return nil, nil
}
buffer := getPacketBuffer()
packet := &coalescedPacket{
buffer: buffer,
longHdrPackets: make([]*longHeaderPacket, 0, 3),
}
if initialPayload.length > 0 {
padding := p.initialPaddingLen(initialPayload.frames, size)
cont, err := p.appendLongHeaderPacket(buffer, initialHdr, initialPayload, padding, protocol.EncryptionInitial, initialSealer, v)
if err != nil {
return nil, err
}
packet.longHdrPackets = append(packet.longHdrPackets, cont)
}
if handshakePayload.length > 0 {
cont, err := p.appendLongHeaderPacket(buffer, handshakeHdr, handshakePayload, 0, protocol.EncryptionHandshake, handshakeSealer, v)
if err != nil {
return nil, err
}
packet.longHdrPackets = append(packet.longHdrPackets, cont)
}
if zeroRTTPayload.length > 0 {
longHdrPacket, err := p.appendLongHeaderPacket(buffer, zeroRTTHdr, zeroRTTPayload, 0, protocol.Encryption0RTT, zeroRTTSealer, v)
if err != nil {
return nil, err
}
packet.longHdrPackets = append(packet.longHdrPackets, longHdrPacket)
} else if oneRTTPayload.length > 0 {
ap, ack, err := p.appendShortHeaderPacket(buffer, connID, oneRTTPacketNumber, oneRTTPacketNumberLen, kp, oneRTTPayload, 0, oneRTTSealer, false, v)
if err != nil {
return nil, err
}
packet.shortHdrPacket = &shortHeaderPacket{
Packet: ap,
DestConnID: connID,
Ack: ack,
PacketNumberLen: oneRTTPacketNumberLen,
KeyPhase: kp,
}
}
return packet, nil
}
// PackPacket packs a packet in the application data packet number space.
// It should be called after the handshake is confirmed.
func (p *packetPacker) PackPacket(onlyAck bool, now time.Time, v protocol.VersionNumber) (shortHeaderPacket, *packetBuffer, error) {
sealer, err := p.cryptoSetup.Get1RTTSealer()
if err != nil {
return shortHeaderPacket{}, nil, err
}
pn, pnLen := p.pnManager.PeekPacketNumber(protocol.Encryption1RTT)
connID := p.getDestConnID()
hdrLen := wire.ShortHeaderLen(connID, pnLen)
pl := p.maybeGetShortHeaderPacket(sealer, hdrLen, p.maxPacketSize, onlyAck, true, v)
if pl.length == 0 {
return shortHeaderPacket{}, nil, errNothingToPack
}
kp := sealer.KeyPhase()
buffer := getPacketBuffer()
ap, ack, err := p.appendShortHeaderPacket(buffer, connID, pn, pnLen, kp, pl, 0, sealer, false, v)
if err != nil {
return shortHeaderPacket{}, nil, err
}
return shortHeaderPacket{
Packet: ap,
DestConnID: connID,
Ack: ack,
PacketNumberLen: pnLen,
KeyPhase: kp,
}, buffer, nil
}
func (p *packetPacker) maybeGetCryptoPacket(maxPacketSize protocol.ByteCount, encLevel protocol.EncryptionLevel, onlyAck, ackAllowed bool, v protocol.VersionNumber) (*wire.ExtendedHeader, payload) {
if onlyAck {
if ack := p.acks.GetAckFrame(encLevel, true); ack != nil {
return p.getLongHeader(encLevel, v), payload{
ack: ack,
length: ack.Length(v),
}
}
return nil, payload{}
}
var s cryptoStream
var hasRetransmission bool
//nolint:exhaustive // Initial and Handshake are the only two encryption levels here.
switch encLevel {
case protocol.EncryptionInitial:
s = p.initialStream
hasRetransmission = p.retransmissionQueue.HasInitialData()
case protocol.EncryptionHandshake:
s = p.handshakeStream
hasRetransmission = p.retransmissionQueue.HasHandshakeData()
}
hasData := s.HasData()
var ack *wire.AckFrame
if ackAllowed {
ack = p.acks.GetAckFrame(encLevel, !hasRetransmission && !hasData)
}
if !hasData && !hasRetransmission && ack == nil {
// nothing to send
return nil, payload{}
}
var pl payload
if ack != nil {
pl.ack = ack
pl.length = ack.Length(v)
maxPacketSize -= pl.length
}
hdr := p.getLongHeader(encLevel, v)
maxPacketSize -= hdr.GetLength(v)
if hasRetransmission {
for {
var f wire.Frame
//nolint:exhaustive // 0-RTT packets can't contain any retransmission.s
switch encLevel {
case protocol.EncryptionInitial:
f = p.retransmissionQueue.GetInitialFrame(maxPacketSize, v)
case protocol.EncryptionHandshake:
f = p.retransmissionQueue.GetHandshakeFrame(maxPacketSize, v)
}
if f == nil {
break
}
af := ackhandler.GetFrame()
af.Frame = f
pl.frames = append(pl.frames, af)
frameLen := f.Length(v)
pl.length += frameLen
maxPacketSize -= frameLen
}
} else if s.HasData() {
cf := s.PopCryptoFrame(maxPacketSize)
pl.frames = []*ackhandler.Frame{{Frame: cf}}
pl.length += cf.Length(v)
}
return hdr, pl
}
func (p *packetPacker) maybeGetAppDataPacketFor0RTT(sealer sealer, maxPacketSize protocol.ByteCount, v protocol.VersionNumber) (*wire.ExtendedHeader, payload) {
if p.perspective != protocol.PerspectiveClient {
return nil, payload{}
}
hdr := p.getLongHeader(protocol.Encryption0RTT, v)
maxPayloadSize := maxPacketSize - hdr.GetLength(v) - protocol.ByteCount(sealer.Overhead())
return hdr, p.maybeGetAppDataPacket(maxPayloadSize, false, false, v)
}
func (p *packetPacker) maybeGetShortHeaderPacket(sealer handshake.ShortHeaderSealer, hdrLen protocol.ByteCount, maxPacketSize protocol.ByteCount, onlyAck, ackAllowed bool, v protocol.VersionNumber) payload {
maxPayloadSize := maxPacketSize - hdrLen - protocol.ByteCount(sealer.Overhead())
return p.maybeGetAppDataPacket(maxPayloadSize, onlyAck, ackAllowed, v)
}
func (p *packetPacker) maybeGetAppDataPacket(maxPayloadSize protocol.ByteCount, onlyAck, ackAllowed bool, v protocol.VersionNumber) payload {
pl := p.composeNextPacket(maxPayloadSize, onlyAck, ackAllowed, v)
// check if we have anything to send
if len(pl.frames) == 0 {
if pl.ack == nil {
return payload{}
}
// the packet only contains an ACK
if p.numNonAckElicitingAcks >= protocol.MaxNonAckElicitingAcks {
ping := &wire.PingFrame{}
// don't retransmit the PING frame when it is lost
af := ackhandler.GetFrame()
af.Frame = ping
af.OnLost = func(wire.Frame) {}
pl.frames = append(pl.frames, af)
pl.length += ping.Length(v)
p.numNonAckElicitingAcks = 0
} else {
p.numNonAckElicitingAcks++
}
} else {
p.numNonAckElicitingAcks = 0
}
return pl
}
func (p *packetPacker) composeNextPacket(maxFrameSize protocol.ByteCount, onlyAck, ackAllowed bool, v protocol.VersionNumber) payload {
if onlyAck {
if ack := p.acks.GetAckFrame(protocol.Encryption1RTT, true); ack != nil {
return payload{
ack: ack,
length: ack.Length(v),
}
}
return payload{}
}
pl := payload{frames: make([]*ackhandler.Frame, 0, 1)}
hasData := p.framer.HasData()
hasRetransmission := p.retransmissionQueue.HasAppData()
var hasAck bool
if ackAllowed {
if ack := p.acks.GetAckFrame(protocol.Encryption1RTT, !hasRetransmission && !hasData); ack != nil {
pl.ack = ack
pl.length += ack.Length(v)
hasAck = true
}
}
if p.datagramQueue != nil {
if f := p.datagramQueue.Peek(); f != nil {
size := f.Length(v)
if size <= maxFrameSize-pl.length {
af := ackhandler.GetFrame()
af.Frame = f
// set it to a no-op. Then we won't set the default callback, which would retransmit the frame.
af.OnLost = func(wire.Frame) {}
pl.frames = append(pl.frames, af)
pl.length += size
p.datagramQueue.Pop()
}
}
}
if hasAck && !hasData && !hasRetransmission {
return pl
}
if hasRetransmission {
for {
remainingLen := maxFrameSize - pl.length
if remainingLen < protocol.MinStreamFrameSize {
break
}
f := p.retransmissionQueue.GetAppDataFrame(remainingLen, v)
if f == nil {
break
}
af := ackhandler.GetFrame()
af.Frame = f
pl.frames = append(pl.frames, af)
pl.length += f.Length(v)
}
}
if hasData {
var lengthAdded protocol.ByteCount
pl.frames, lengthAdded = p.framer.AppendControlFrames(pl.frames, maxFrameSize-pl.length, v)
pl.length += lengthAdded
pl.frames, lengthAdded = p.framer.AppendStreamFrames(pl.frames, maxFrameSize-pl.length, v)
pl.length += lengthAdded
}
return pl
}
func (p *packetPacker) MaybePackProbePacket(encLevel protocol.EncryptionLevel, v protocol.VersionNumber) (*coalescedPacket, error) {
if encLevel == protocol.Encryption1RTT {
s, err := p.cryptoSetup.Get1RTTSealer()
if err != nil {
return nil, err
}
kp := s.KeyPhase()
connID := p.getDestConnID()
pn, pnLen := p.pnManager.PeekPacketNumber(protocol.Encryption1RTT)
hdrLen := wire.ShortHeaderLen(connID, pnLen)
pl := p.maybeGetAppDataPacket(p.maxPacketSize-protocol.ByteCount(s.Overhead())-hdrLen, false, true, v)
if pl.length == 0 {
return nil, nil
}
buffer := getPacketBuffer()
packet := &coalescedPacket{buffer: buffer}
ap, ack, err := p.appendShortHeaderPacket(buffer, connID, pn, pnLen, kp, pl, 0, s, false, v)
if err != nil {
return nil, err
}
packet.shortHdrPacket = &shortHeaderPacket{
Packet: ap,
DestConnID: connID,
Ack: ack,
PacketNumberLen: pnLen,
KeyPhase: kp,
}
return packet, nil
}
var hdr *wire.ExtendedHeader
var pl payload
var sealer handshake.LongHeaderSealer
//nolint:exhaustive // Probe packets are never sent for 0-RTT.
switch encLevel {
case protocol.EncryptionInitial:
var err error
sealer, err = p.cryptoSetup.GetInitialSealer()
if err != nil {
return nil, err
}
hdr, pl = p.maybeGetCryptoPacket(p.maxPacketSize-protocol.ByteCount(sealer.Overhead()), protocol.EncryptionInitial, false, true, v)
case protocol.EncryptionHandshake:
var err error
sealer, err = p.cryptoSetup.GetHandshakeSealer()
if err != nil {
return nil, err
}
hdr, pl = p.maybeGetCryptoPacket(p.maxPacketSize-protocol.ByteCount(sealer.Overhead()), protocol.EncryptionHandshake, false, true, v)
default:
panic("unknown encryption level")
}
if pl.length == 0 {
return nil, nil
}
buffer := getPacketBuffer()
packet := &coalescedPacket{buffer: buffer}
size := p.longHeaderPacketLength(hdr, pl, v) + protocol.ByteCount(sealer.Overhead())
var padding protocol.ByteCount
if encLevel == protocol.EncryptionInitial {
padding = p.initialPaddingLen(pl.frames, size)
}
longHdrPacket, err := p.appendLongHeaderPacket(buffer, hdr, pl, padding, encLevel, sealer, v)
if err != nil {
return nil, err
}
packet.longHdrPackets = []*longHeaderPacket{longHdrPacket}
return packet, nil
}
func (p *packetPacker) PackMTUProbePacket(ping ackhandler.Frame, size protocol.ByteCount, now time.Time, v protocol.VersionNumber) (shortHeaderPacket, *packetBuffer, error) {
pl := payload{
frames: []*ackhandler.Frame{&ping},
length: ping.Length(v),
}
buffer := getPacketBuffer()
s, err := p.cryptoSetup.Get1RTTSealer()
if err != nil {
return shortHeaderPacket{}, nil, err
}
connID := p.getDestConnID()
pn, pnLen := p.pnManager.PeekPacketNumber(protocol.Encryption1RTT)
padding := size - p.shortHeaderPacketLength(connID, pnLen, pl) - protocol.ByteCount(s.Overhead())
kp := s.KeyPhase()
ap, ack, err := p.appendShortHeaderPacket(buffer, connID, pn, pnLen, kp, pl, padding, s, true, v)
if err != nil {
return shortHeaderPacket{}, nil, err
}
return shortHeaderPacket{
Packet: ap,
DestConnID: connID,
Ack: ack,
PacketNumberLen: pnLen,
KeyPhase: kp,
}, buffer, nil
}
func (p *packetPacker) getLongHeader(encLevel protocol.EncryptionLevel, v protocol.VersionNumber) *wire.ExtendedHeader {
pn, pnLen := p.pnManager.PeekPacketNumber(encLevel)
hdr := &wire.ExtendedHeader{
PacketNumber: pn,
PacketNumberLen: pnLen,
}
hdr.Version = v
hdr.SrcConnectionID = p.srcConnID
hdr.DestConnectionID = p.getDestConnID()
//nolint:exhaustive // 1-RTT packets are not long header packets.
switch encLevel {
case protocol.EncryptionInitial:
hdr.Type = protocol.PacketTypeInitial
hdr.Token = p.token
case protocol.EncryptionHandshake:
hdr.Type = protocol.PacketTypeHandshake
case protocol.Encryption0RTT:
hdr.Type = protocol.PacketType0RTT
}
return hdr
}
func (p *packetPacker) appendLongHeaderPacket(buffer *packetBuffer, header *wire.ExtendedHeader, pl payload, padding protocol.ByteCount, encLevel protocol.EncryptionLevel, sealer sealer, v protocol.VersionNumber) (*longHeaderPacket, error) {
var paddingLen protocol.ByteCount
pnLen := protocol.ByteCount(header.PacketNumberLen)
if pl.length < 4-pnLen {
paddingLen = 4 - pnLen - pl.length
}
paddingLen += padding
header.Length = pnLen + protocol.ByteCount(sealer.Overhead()) + pl.length + paddingLen
startLen := len(buffer.Data)
raw := buffer.Data[startLen:]
raw, err := header.Append(raw, v)
if err != nil {
return nil, err
}
payloadOffset := protocol.ByteCount(len(raw))
pn := p.pnManager.PopPacketNumber(encLevel)
if pn != header.PacketNumber {
return nil, errors.New("packetPacker BUG: Peeked and Popped packet numbers do not match")
}
raw, err = p.appendPacketPayload(raw, pl, paddingLen, v)
if err != nil {
return nil, err
}
raw = p.encryptPacket(raw, sealer, pn, payloadOffset, pnLen)
buffer.Data = buffer.Data[:len(buffer.Data)+len(raw)]
return &longHeaderPacket{
header: header,
ack: pl.ack,
frames: pl.frames,
length: protocol.ByteCount(len(raw)),
}, nil
}
func (p *packetPacker) appendShortHeaderPacket(
buffer *packetBuffer,
connID protocol.ConnectionID,
pn protocol.PacketNumber,
pnLen protocol.PacketNumberLen,
kp protocol.KeyPhaseBit,
pl payload,
padding protocol.ByteCount,
sealer sealer,
isMTUProbePacket bool,
v protocol.VersionNumber,
) (*ackhandler.Packet, *wire.AckFrame, error) {
var paddingLen protocol.ByteCount
if pl.length < 4-protocol.ByteCount(pnLen) {
paddingLen = 4 - protocol.ByteCount(pnLen) - pl.length
}
paddingLen += padding
startLen := len(buffer.Data)
raw := buffer.Data[startLen:]
raw, err := wire.AppendShortHeader(raw, connID, pn, pnLen, kp)
if err != nil {
return nil, nil, err
}
payloadOffset := protocol.ByteCount(len(raw))
if pn != p.pnManager.PopPacketNumber(protocol.Encryption1RTT) {
return nil, nil, errors.New("packetPacker BUG: Peeked and Popped packet numbers do not match")
}
raw, err = p.appendPacketPayload(raw, pl, paddingLen, v)
if err != nil {
return nil, nil, err
}
if !isMTUProbePacket {
if size := protocol.ByteCount(len(raw) + sealer.Overhead()); size > p.maxPacketSize {
return nil, nil, fmt.Errorf("PacketPacker BUG: packet too large (%d bytes, allowed %d bytes)", size, p.maxPacketSize)
}
}
raw = p.encryptPacket(raw, sealer, pn, payloadOffset, protocol.ByteCount(pnLen))
buffer.Data = buffer.Data[:len(buffer.Data)+len(raw)]
// create the ackhandler.Packet
largestAcked := protocol.InvalidPacketNumber
if pl.ack != nil {
largestAcked = pl.ack.LargestAcked()
}
for i := range pl.frames {
if pl.frames[i].OnLost != nil {
continue
}
pl.frames[i].OnLost = p.retransmissionQueue.AddAppData
}
ap := ackhandler.GetPacket()
ap.PacketNumber = pn
ap.LargestAcked = largestAcked
ap.Frames = pl.frames
ap.Length = protocol.ByteCount(len(raw))
ap.EncryptionLevel = protocol.Encryption1RTT
ap.SendTime = time.Now()
ap.IsPathMTUProbePacket = isMTUProbePacket
return ap, pl.ack, nil
}
func (p *packetPacker) appendPacketPayload(raw []byte, pl payload, paddingLen protocol.ByteCount, v protocol.VersionNumber) ([]byte, error) {
payloadOffset := len(raw)
if pl.ack != nil {
var err error
raw, err = pl.ack.Append(raw, v)
if err != nil {
return nil, err
}
}
if paddingLen > 0 {
raw = append(raw, make([]byte, paddingLen)...)
}
for _, frame := range pl.frames {
var err error
raw, err = frame.Append(raw, v)
if err != nil {
return nil, err
}
}
if payloadSize := protocol.ByteCount(len(raw)-payloadOffset) - paddingLen; payloadSize != pl.length {
return nil, fmt.Errorf("PacketPacker BUG: payload size inconsistent (expected %d, got %d bytes)", pl.length, payloadSize)
}
return raw, nil
}
func (p *packetPacker) encryptPacket(raw []byte, sealer sealer, pn protocol.PacketNumber, payloadOffset, pnLen protocol.ByteCount) []byte {
_ = sealer.Seal(raw[payloadOffset:payloadOffset], raw[payloadOffset:], pn, raw[:payloadOffset])
raw = raw[:len(raw)+sealer.Overhead()]
// apply header protection
pnOffset := payloadOffset - pnLen
sealer.EncryptHeader(raw[pnOffset+4:pnOffset+4+16], &raw[0], raw[pnOffset:payloadOffset])
return raw
}
func (p *packetPacker) SetToken(token []byte) {
p.token = token
}
// When a higher MTU is discovered, use it.
func (p *packetPacker) SetMaxPacketSize(s protocol.ByteCount) {
p.maxPacketSize = s
}
// If the peer sets a max_packet_size that's smaller than the size we're currently using,
// we need to reduce the size of packets we send.
func (p *packetPacker) HandleTransportParameters(params *wire.TransportParameters) {
if params.MaxUDPPayloadSize != 0 {
p.maxPacketSize = utils.Min(p.maxPacketSize, params.MaxUDPPayloadSize)
}
}