mirror of
https://github.com/v2fly/v2ray-core.git
synced 2024-11-07 10:47:48 -05:00
473 lines
14 KiB
Go
473 lines
14 KiB
Go
package quic
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import (
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"bytes"
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"errors"
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"fmt"
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"net"
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"time"
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"github.com/lucas-clemente/quic-go/internal/ackhandler"
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"github.com/lucas-clemente/quic-go/internal/handshake"
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"github.com/lucas-clemente/quic-go/internal/protocol"
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"github.com/lucas-clemente/quic-go/internal/utils"
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"github.com/lucas-clemente/quic-go/internal/wire"
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)
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type packer interface {
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PackPacket() (*packedPacket, error)
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MaybePackAckPacket() (*packedPacket, error)
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PackRetransmission(packet *ackhandler.Packet) ([]*packedPacket, error)
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PackConnectionClose(*wire.ConnectionCloseFrame) (*packedPacket, error)
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HandleTransportParameters(*handshake.TransportParameters)
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ChangeDestConnectionID(protocol.ConnectionID)
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}
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type packedPacket struct {
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header *wire.ExtendedHeader
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raw []byte
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frames []wire.Frame
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buffer *packetBuffer
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}
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func (p *packedPacket) EncryptionLevel() protocol.EncryptionLevel {
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if !p.header.IsLongHeader {
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return protocol.Encryption1RTT
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}
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switch p.header.Type {
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case protocol.PacketTypeInitial:
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return protocol.EncryptionInitial
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case protocol.PacketTypeHandshake:
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return protocol.EncryptionHandshake
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default:
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return protocol.EncryptionUnspecified
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}
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}
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func (p *packedPacket) ToAckHandlerPacket() *ackhandler.Packet {
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return &ackhandler.Packet{
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PacketNumber: p.header.PacketNumber,
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PacketType: p.header.Type,
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Frames: p.frames,
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Length: protocol.ByteCount(len(p.raw)),
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EncryptionLevel: p.EncryptionLevel(),
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SendTime: time.Now(),
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}
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}
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func getMaxPacketSize(addr net.Addr) protocol.ByteCount {
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maxSize := protocol.ByteCount(protocol.MinInitialPacketSize)
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// If this is not a UDP address, we don't know anything about the MTU.
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// Use the minimum size of an Initial packet as the max packet size.
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if udpAddr, ok := addr.(*net.UDPAddr); ok {
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// If ip is not an IPv4 address, To4 returns nil.
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// Note that there might be some corner cases, where this is not correct.
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// See https://stackoverflow.com/questions/22751035/golang-distinguish-ipv4-ipv6.
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if udpAddr.IP.To4() == nil {
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maxSize = protocol.MaxPacketSizeIPv6
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} else {
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maxSize = protocol.MaxPacketSizeIPv4
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}
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}
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return maxSize
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}
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type packetNumberManager interface {
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PeekPacketNumber() (protocol.PacketNumber, protocol.PacketNumberLen)
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PopPacketNumber() protocol.PacketNumber
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}
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type sealingManager interface {
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GetSealer() (protocol.EncryptionLevel, handshake.Sealer)
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GetSealerWithEncryptionLevel(protocol.EncryptionLevel) (handshake.Sealer, error)
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}
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type frameSource interface {
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AppendStreamFrames([]wire.Frame, protocol.ByteCount) []wire.Frame
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AppendControlFrames([]wire.Frame, protocol.ByteCount) ([]wire.Frame, protocol.ByteCount)
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}
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type ackFrameSource interface {
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GetAckFrame() *wire.AckFrame
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}
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type packetPacker struct {
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destConnID protocol.ConnectionID
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srcConnID protocol.ConnectionID
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perspective protocol.Perspective
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version protocol.VersionNumber
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cryptoSetup sealingManager
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initialStream cryptoStream
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handshakeStream cryptoStream
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token []byte
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pnManager packetNumberManager
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framer frameSource
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acks ackFrameSource
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maxPacketSize protocol.ByteCount
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numNonRetransmittableAcks int
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}
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var _ packer = &packetPacker{}
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func newPacketPacker(
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destConnID protocol.ConnectionID,
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srcConnID protocol.ConnectionID,
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initialStream cryptoStream,
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handshakeStream cryptoStream,
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packetNumberManager packetNumberManager,
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remoteAddr net.Addr, // only used for determining the max packet size
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token []byte,
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cryptoSetup sealingManager,
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framer frameSource,
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acks ackFrameSource,
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perspective protocol.Perspective,
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version protocol.VersionNumber,
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) *packetPacker {
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return &packetPacker{
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cryptoSetup: cryptoSetup,
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token: token,
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destConnID: destConnID,
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srcConnID: srcConnID,
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initialStream: initialStream,
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handshakeStream: handshakeStream,
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perspective: perspective,
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version: version,
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framer: framer,
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acks: acks,
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pnManager: packetNumberManager,
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maxPacketSize: getMaxPacketSize(remoteAddr),
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}
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}
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// PackConnectionClose packs a packet that ONLY contains a ConnectionCloseFrame
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func (p *packetPacker) PackConnectionClose(ccf *wire.ConnectionCloseFrame) (*packedPacket, error) {
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frames := []wire.Frame{ccf}
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encLevel, sealer := p.cryptoSetup.GetSealer()
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header := p.getHeader(encLevel)
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return p.writeAndSealPacket(header, frames, sealer)
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}
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func (p *packetPacker) MaybePackAckPacket() (*packedPacket, error) {
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ack := p.acks.GetAckFrame()
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if ack == nil {
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return nil, nil
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}
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// TODO(#1534): only pack ACKs with the right encryption level
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encLevel, sealer := p.cryptoSetup.GetSealer()
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header := p.getHeader(encLevel)
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frames := []wire.Frame{ack}
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return p.writeAndSealPacket(header, frames, sealer)
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}
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// PackRetransmission packs a retransmission
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// For packets sent after completion of the handshake, it might happen that 2 packets have to be sent.
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// This can happen e.g. when a longer packet number is used in the header.
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func (p *packetPacker) PackRetransmission(packet *ackhandler.Packet) ([]*packedPacket, error) {
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var controlFrames []wire.Frame
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var streamFrames []*wire.StreamFrame
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for _, f := range packet.Frames {
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// CRYPTO frames are treated as control frames here.
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// Since we're making sure that the header can never be larger for a retransmission,
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// we never have to split CRYPTO frames.
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if sf, ok := f.(*wire.StreamFrame); ok {
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sf.DataLenPresent = true
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streamFrames = append(streamFrames, sf)
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} else {
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controlFrames = append(controlFrames, f)
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}
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}
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var packets []*packedPacket
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encLevel := packet.EncryptionLevel
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sealer, err := p.cryptoSetup.GetSealerWithEncryptionLevel(encLevel)
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if err != nil {
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return nil, err
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}
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for len(controlFrames) > 0 || len(streamFrames) > 0 {
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var frames []wire.Frame
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var length protocol.ByteCount
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header := p.getHeader(encLevel)
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headerLen := header.GetLength(p.version)
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maxSize := p.maxPacketSize - protocol.ByteCount(sealer.Overhead()) - headerLen
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for len(controlFrames) > 0 {
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frame := controlFrames[0]
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frameLen := frame.Length(p.version)
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if length+frameLen > maxSize {
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break
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}
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length += frameLen
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frames = append(frames, frame)
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controlFrames = controlFrames[1:]
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}
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for len(streamFrames) > 0 && length+protocol.MinStreamFrameSize < maxSize {
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frame := streamFrames[0]
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frame.DataLenPresent = false
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frameToAdd := frame
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sf, err := frame.MaybeSplitOffFrame(maxSize-length, p.version)
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if err != nil {
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return nil, err
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}
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if sf != nil {
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frameToAdd = sf
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} else {
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streamFrames = streamFrames[1:]
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}
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frame.DataLenPresent = true
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length += frameToAdd.Length(p.version)
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frames = append(frames, frameToAdd)
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}
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if sf, ok := frames[len(frames)-1].(*wire.StreamFrame); ok {
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sf.DataLenPresent = false
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}
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p, err := p.writeAndSealPacket(header, frames, sealer)
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if err != nil {
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return nil, err
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}
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packets = append(packets, p)
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}
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return packets, nil
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}
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// PackPacket packs a new packet
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// the other controlFrames are sent in the next packet, but might be queued and sent in the next packet if the packet would overflow MaxPacketSize otherwise
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func (p *packetPacker) PackPacket() (*packedPacket, error) {
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packet, err := p.maybePackCryptoPacket()
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if err != nil {
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return nil, err
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}
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if packet != nil {
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return packet, nil
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}
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encLevel, sealer := p.cryptoSetup.GetSealer()
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header := p.getHeader(encLevel)
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headerLen := header.GetLength(p.version)
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if err != nil {
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return nil, err
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}
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maxSize := p.maxPacketSize - protocol.ByteCount(sealer.Overhead()) - headerLen
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frames, err := p.composeNextPacket(maxSize)
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if err != nil {
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return nil, err
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}
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// Check if we have enough frames to send
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if len(frames) == 0 {
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return nil, nil
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}
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// check if this packet only contains an ACK
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if !ackhandler.HasRetransmittableFrames(frames) {
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if p.numNonRetransmittableAcks >= protocol.MaxNonRetransmittableAcks {
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frames = append(frames, &wire.PingFrame{})
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p.numNonRetransmittableAcks = 0
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} else {
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p.numNonRetransmittableAcks++
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}
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} else {
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p.numNonRetransmittableAcks = 0
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}
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return p.writeAndSealPacket(header, frames, sealer)
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}
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func (p *packetPacker) maybePackCryptoPacket() (*packedPacket, error) {
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var s cryptoStream
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var encLevel protocol.EncryptionLevel
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if p.initialStream.HasData() {
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s = p.initialStream
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encLevel = protocol.EncryptionInitial
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} else if p.handshakeStream.HasData() {
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s = p.handshakeStream
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encLevel = protocol.EncryptionHandshake
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}
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if s == nil {
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return nil, nil
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}
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hdr := p.getHeader(encLevel)
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hdrLen := hdr.GetLength(p.version)
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sealer, err := p.cryptoSetup.GetSealerWithEncryptionLevel(encLevel)
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if err != nil {
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return nil, err
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}
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var length protocol.ByteCount
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frames := make([]wire.Frame, 0, 2)
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if ack := p.acks.GetAckFrame(); ack != nil {
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frames = append(frames, ack)
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length += ack.Length(p.version)
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}
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cf := s.PopCryptoFrame(p.maxPacketSize - hdrLen - protocol.ByteCount(sealer.Overhead()) - length)
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frames = append(frames, cf)
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return p.writeAndSealPacket(hdr, frames, sealer)
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}
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func (p *packetPacker) composeNextPacket(maxFrameSize protocol.ByteCount) ([]wire.Frame, error) {
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var length protocol.ByteCount
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var frames []wire.Frame
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// ACKs need to go first, so that the sentPacketHandler will recognize them
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if ack := p.acks.GetAckFrame(); ack != nil {
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frames = append(frames, ack)
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length += ack.Length(p.version)
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}
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var lengthAdded protocol.ByteCount
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frames, lengthAdded = p.framer.AppendControlFrames(frames, maxFrameSize-length)
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length += lengthAdded
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// temporarily increase the maxFrameSize by the (minimum) length of the DataLen field
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// this leads to a properly sized packet in all cases, since we do all the packet length calculations with STREAM frames that have the DataLen set
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// however, for the last STREAM frame in the packet, we can omit the DataLen, thus yielding a packet of exactly the correct size
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// the length is encoded to either 1 or 2 bytes
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maxFrameSize++
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frames = p.framer.AppendStreamFrames(frames, maxFrameSize-length)
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if len(frames) > 0 {
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lastFrame := frames[len(frames)-1]
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if sf, ok := lastFrame.(*wire.StreamFrame); ok {
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sf.DataLenPresent = false
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}
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}
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return frames, nil
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}
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func (p *packetPacker) getHeader(encLevel protocol.EncryptionLevel) *wire.ExtendedHeader {
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pn, pnLen := p.pnManager.PeekPacketNumber()
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header := &wire.ExtendedHeader{}
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header.PacketNumber = pn
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header.PacketNumberLen = pnLen
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header.Version = p.version
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header.DestConnectionID = p.destConnID
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if encLevel != protocol.Encryption1RTT {
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header.IsLongHeader = true
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// Always send Initial and Handshake packets with the maximum packet number length.
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// This simplifies retransmissions: Since the header can't get any larger,
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// we don't need to split CRYPTO frames.
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header.PacketNumberLen = protocol.PacketNumberLen4
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header.SrcConnectionID = p.srcConnID
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// Set the length to the maximum packet size.
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// Since it is encoded as a varint, this guarantees us that the header will end up at most as big as GetLength() returns.
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header.Length = p.maxPacketSize
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switch encLevel {
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case protocol.EncryptionInitial:
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header.Type = protocol.PacketTypeInitial
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case protocol.EncryptionHandshake:
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header.Type = protocol.PacketTypeHandshake
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}
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}
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return header
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}
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func (p *packetPacker) writeAndSealPacket(
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header *wire.ExtendedHeader,
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frames []wire.Frame,
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sealer handshake.Sealer,
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) (*packedPacket, error) {
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packetBuffer := getPacketBuffer()
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buffer := bytes.NewBuffer(packetBuffer.Slice[:0])
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addPaddingForInitial := p.perspective == protocol.PerspectiveClient && header.Type == protocol.PacketTypeInitial
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if header.IsLongHeader {
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if p.perspective == protocol.PerspectiveClient && header.Type == protocol.PacketTypeInitial {
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header.Token = p.token
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}
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if addPaddingForInitial {
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headerLen := header.GetLength(p.version)
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header.Length = protocol.ByteCount(header.PacketNumberLen) + protocol.MinInitialPacketSize - headerLen
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} else {
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// long header packets always use 4 byte packet number, so we never need to pad short payloads
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length := protocol.ByteCount(sealer.Overhead()) + protocol.ByteCount(header.PacketNumberLen)
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for _, frame := range frames {
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length += frame.Length(p.version)
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}
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header.Length = length
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}
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}
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if err := header.Write(buffer, p.version); err != nil {
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return nil, err
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}
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payloadOffset := buffer.Len()
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// write all frames but the last one
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for _, frame := range frames[:len(frames)-1] {
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if err := frame.Write(buffer, p.version); err != nil {
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return nil, err
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}
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}
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lastFrame := frames[len(frames)-1]
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if addPaddingForInitial {
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// when appending padding, we need to make sure that the last STREAM frames has the data length set
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if sf, ok := lastFrame.(*wire.StreamFrame); ok {
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sf.DataLenPresent = true
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}
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} else {
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payloadLen := buffer.Len() - payloadOffset + int(lastFrame.Length(p.version))
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if paddingLen := 4 - int(header.PacketNumberLen) - payloadLen; paddingLen > 0 {
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// Pad the packet such that packet number length + payload length is 4 bytes.
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// This is needed to enable the peer to get a 16 byte sample for header protection.
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buffer.Write(bytes.Repeat([]byte{0}, paddingLen))
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}
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}
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if err := lastFrame.Write(buffer, p.version); err != nil {
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return nil, err
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}
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if addPaddingForInitial {
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paddingLen := protocol.MinInitialPacketSize - sealer.Overhead() - buffer.Len()
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if paddingLen > 0 {
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buffer.Write(bytes.Repeat([]byte{0}, paddingLen))
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}
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}
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if size := protocol.ByteCount(buffer.Len() + sealer.Overhead()); size > p.maxPacketSize {
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return nil, fmt.Errorf("PacketPacker BUG: packet too large (%d bytes, allowed %d bytes)", size, p.maxPacketSize)
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}
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raw := buffer.Bytes()
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_ = sealer.Seal(raw[payloadOffset:payloadOffset], raw[payloadOffset:], header.PacketNumber, raw[:payloadOffset])
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raw = raw[0 : buffer.Len()+sealer.Overhead()]
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pnOffset := payloadOffset - int(header.PacketNumberLen)
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sealer.EncryptHeader(
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raw[pnOffset+4:pnOffset+4+16],
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&raw[0],
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raw[pnOffset:payloadOffset],
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)
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num := p.pnManager.PopPacketNumber()
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if num != header.PacketNumber {
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return nil, errors.New("packetPacker BUG: Peeked and Popped packet numbers do not match")
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}
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return &packedPacket{
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header: header,
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raw: raw,
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frames: frames,
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buffer: packetBuffer,
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}, nil
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}
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func (p *packetPacker) ChangeDestConnectionID(connID protocol.ConnectionID) {
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p.destConnID = connID
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}
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func (p *packetPacker) HandleTransportParameters(params *handshake.TransportParameters) {
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if params.MaxPacketSize != 0 {
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p.maxPacketSize = utils.MinByteCount(p.maxPacketSize, params.MaxPacketSize)
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}
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}
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