mirror of
https://github.com/refraction-networking/uquic.git
synced 2025-04-04 20:57:36 +03:00
502 lines
19 KiB
Go
502 lines
19 KiB
Go
package quic
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import (
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"bytes"
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"time"
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"github.com/lucas-clemente/quic-go/ackhandlerlegacy"
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"github.com/lucas-clemente/quic-go/frames"
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"github.com/lucas-clemente/quic-go/handshake"
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"github.com/lucas-clemente/quic-go/protocol"
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. "github.com/onsi/ginkgo"
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. "github.com/onsi/gomega"
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)
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type mockSentPacketHandler struct {
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retransmissionQueue []*ackhandlerlegacy.Packet
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}
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func (h *mockSentPacketHandler) SentPacket(packet *ackhandlerlegacy.Packet) error { return nil }
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func (h *mockSentPacketHandler) ReceivedAck(ackFrame *frames.AckFrameLegacy, withPacketNumber protocol.PacketNumber) error {
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return nil
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}
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func (h *mockSentPacketHandler) BytesInFlight() protocol.ByteCount { return 0 }
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func (h *mockSentPacketHandler) GetLargestObserved() protocol.PacketNumber { return 1 }
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func (h *mockSentPacketHandler) CongestionAllowsSending() bool { return true }
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func (h *mockSentPacketHandler) CheckForError() error { return nil }
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func (h *mockSentPacketHandler) TimeOfFirstRTO() time.Time { panic("not implemented") }
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func (h *mockSentPacketHandler) ProbablyHasPacketForRetransmission() bool {
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return len(h.retransmissionQueue) > 0
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}
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func (h *mockSentPacketHandler) DequeuePacketForRetransmission() *ackhandlerlegacy.Packet {
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if len(h.retransmissionQueue) > 0 {
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packet := h.retransmissionQueue[0]
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h.retransmissionQueue = h.retransmissionQueue[1:]
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return packet
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}
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return nil
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}
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func newMockSentPacketHandler() ackhandlerlegacy.SentPacketHandler {
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return &mockSentPacketHandler{}
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}
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var _ = Describe("Packet packer", func() {
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var (
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packer *packetPacker
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publicHeaderLen protocol.ByteCount
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)
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BeforeEach(func() {
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fcm := newMockFlowControlHandler()
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fcm.sendWindowSizes[3] = protocol.MaxByteCount
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fcm.sendWindowSizes[5] = protocol.MaxByteCount
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fcm.sendWindowSizes[7] = protocol.MaxByteCount
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packer = &packetPacker{
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cryptoSetup: &handshake.CryptoSetup{},
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connectionParametersManager: handshake.NewConnectionParamatersManager(),
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sentPacketHandler: newMockSentPacketHandler(),
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blockedManager: newBlockedManager(),
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streamFrameQueue: newStreamFrameQueue(fcm),
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}
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publicHeaderLen = 1 + 8 + 1 // 1 flag byte, 8 connection ID, 1 packet number
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packer.version = protocol.Version34
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})
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AfterEach(func() {
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packer.lastPacketNumber = 0
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})
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It("returns nil when no packet is queued", func() {
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(p).To(BeNil())
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Expect(err).ToNot(HaveOccurred())
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})
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It("doesn't set a private header for QUIC version >= 34", func() {
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// This is not trivial to test, since PackPacket() already encrypts the packet
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// So pack the packet for QUIC 33, then for QUIC 34. The packet for QUIC 33 should be 1 byte longer, since it contains the Private Header
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f := frames.StreamFrame{
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StreamID: 5,
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Data: []byte("foobar"),
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}
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// pack the packet for QUIC version 33
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packer.version = protocol.Version33
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packer.AddStreamFrame(f)
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p33, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p33).ToNot(BeNil())
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// pack the packet for QUIC version 34
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packer.version = protocol.Version34
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packer.AddStreamFrame(f)
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p34, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p34).ToNot(BeNil())
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Expect(p34.entropyBit).To(BeFalse())
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Expect(p34.raw).To(HaveLen(len(p33.raw) - 1))
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})
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It("packs single packets", func() {
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f := frames.StreamFrame{
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StreamID: 5,
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Data: []byte{0xDE, 0xCA, 0xFB, 0xAD},
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}
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packer.AddStreamFrame(f)
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p).ToNot(BeNil())
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b := &bytes.Buffer{}
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f.Write(b, 0)
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Expect(p.frames).To(HaveLen(1))
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Expect(p.raw).To(ContainSubstring(string(b.Bytes())))
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})
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It("packs a ConnectionCloseFrame", func() {
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ccf := frames.ConnectionCloseFrame{
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ErrorCode: 0x1337,
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ReasonPhrase: "foobar",
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}
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p, err := packer.PackConnectionClose(&ccf)
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Expect(err).ToNot(HaveOccurred())
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Expect(p.frames).To(HaveLen(1))
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Expect(p.frames[0]).To(Equal(&ccf))
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})
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It("ignores all other frames when called with onlySendOneControlFrame=true", func() {
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ccf := frames.ConnectionCloseFrame{
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ErrorCode: 0x1337,
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ReasonPhrase: "foobar",
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}
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p, err := packer.packPacket(&frames.StopWaitingFrame{LeastUnacked: 13}, []frames.Frame{&ccf, &frames.WindowUpdateFrame{StreamID: 37}}, true)
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Expect(err).ToNot(HaveOccurred())
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Expect(p.frames).To(HaveLen(1))
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Expect(p.frames[0]).To(Equal(&ccf))
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})
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It("packs only control frames", func() {
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p, err := packer.PackPacket(nil, []frames.Frame{&frames.ConnectionCloseFrame{}})
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Expect(p).ToNot(BeNil())
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Expect(err).ToNot(HaveOccurred())
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Expect(p.frames).To(HaveLen(1))
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Expect(p.raw).NotTo(BeEmpty())
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})
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It("packs a StopWaitingFrame first", func() {
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swf := &frames.StopWaitingFrame{LeastUnacked: 10}
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p, err := packer.PackPacket(swf, []frames.Frame{&frames.ConnectionCloseFrame{}})
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Expect(err).ToNot(HaveOccurred())
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Expect(p).ToNot(BeNil())
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Expect(p.frames).To(HaveLen(2))
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Expect(p.frames[0]).To(Equal(swf))
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})
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It("sets the LeastUnackedDelta length of a StopWaitingFrame", func() {
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packetNumber := protocol.PacketNumber(0xDECAFB) // will result in a 4 byte packet number
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packer.lastPacketNumber = packetNumber - 1
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swf := &frames.StopWaitingFrame{LeastUnacked: packetNumber - 0x100}
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p, err := packer.PackPacket(swf, []frames.Frame{&frames.ConnectionCloseFrame{}})
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Expect(err).ToNot(HaveOccurred())
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Expect(p.frames[0].(*frames.StopWaitingFrame).PacketNumberLen).To(Equal(protocol.PacketNumberLen4))
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})
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It("does not pack a packet containing only a StopWaitingFrame", func() {
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swf := &frames.StopWaitingFrame{LeastUnacked: 10}
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p, err := packer.PackPacket(swf, []frames.Frame{})
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Expect(p).To(BeNil())
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Expect(err).ToNot(HaveOccurred())
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})
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It("packs a packet if it has queued control frames, but no new control frames", func() {
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packer.controlFrames = []frames.Frame{&frames.BlockedFrame{StreamID: 0}}
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p).ToNot(BeNil())
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})
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It("packs many control frames into 1 packets", func() {
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f := &frames.AckFrameLegacy{LargestObserved: 1}
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b := &bytes.Buffer{}
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f.Write(b, protocol.Version32)
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maxFramesPerPacket := int(protocol.MaxFrameAndPublicHeaderSize-publicHeaderLen) / b.Len()
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var controlFrames []frames.Frame
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for i := 0; i < maxFramesPerPacket; i++ {
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controlFrames = append(controlFrames, f)
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}
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packer.controlFrames = controlFrames
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payloadFrames, err := packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(maxFramesPerPacket))
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payloadFrames, err = packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(BeEmpty())
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})
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It("packs a lot of control frames into 2 packets if they don't fit into one", func() {
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blockedFrame := &frames.BlockedFrame{
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StreamID: 0x1337,
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}
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minLength, _ := blockedFrame.MinLength(0)
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maxFramesPerPacket := int(protocol.MaxFrameAndPublicHeaderSize-publicHeaderLen) / int(minLength)
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var controlFrames []frames.Frame
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for i := 0; i < maxFramesPerPacket+10; i++ {
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controlFrames = append(controlFrames, blockedFrame)
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}
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packer.controlFrames = controlFrames
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payloadFrames, err := packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(maxFramesPerPacket))
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payloadFrames, err = packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(10))
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})
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It("only increases the packet number when there is an actual packet to send", func() {
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f := frames.StreamFrame{
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StreamID: 5,
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Data: []byte{0xDE, 0xCA, 0xFB, 0xAD},
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}
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packer.AddStreamFrame(f)
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(p).ToNot(BeNil())
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Expect(err).ToNot(HaveOccurred())
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Expect(packer.lastPacketNumber).To(Equal(protocol.PacketNumber(1)))
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p, err = packer.PackPacket(nil, []frames.Frame{})
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Expect(p).To(BeNil())
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Expect(err).ToNot(HaveOccurred())
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Expect(packer.lastPacketNumber).To(Equal(protocol.PacketNumber(1)))
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packer.AddStreamFrame(f)
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p, err = packer.PackPacket(nil, []frames.Frame{})
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Expect(p).ToNot(BeNil())
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Expect(err).ToNot(HaveOccurred())
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Expect(packer.lastPacketNumber).To(Equal(protocol.PacketNumber(2)))
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})
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Context("Stream Frame handling", func() {
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It("does not splits a stream frame with maximum size", func() {
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f := frames.StreamFrame{
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Offset: 1,
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StreamID: 5,
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DataLenPresent: false,
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}
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minLength, _ := f.MinLength(0)
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maxStreamFrameDataLen := protocol.MaxFrameAndPublicHeaderSize - publicHeaderLen - minLength
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f.Data = bytes.Repeat([]byte{'f'}, int(maxStreamFrameDataLen))
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packer.AddStreamFrame(f)
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payloadFrames, err := packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(1))
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Expect(payloadFrames[0].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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payloadFrames, err = packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(BeEmpty())
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})
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It("correctly handles a stream frame with one byte less than maximum size", func() {
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maxStreamFrameDataLen := protocol.MaxFrameAndPublicHeaderSize - publicHeaderLen - (1 + 1 + 2) - 1
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f1 := frames.StreamFrame{
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StreamID: 5,
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Offset: 1,
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Data: bytes.Repeat([]byte{'f'}, int(maxStreamFrameDataLen)),
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}
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f2 := frames.StreamFrame{
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StreamID: 5,
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Offset: 1,
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Data: []byte("foobar"),
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}
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packer.AddStreamFrame(f1)
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packer.AddStreamFrame(f2)
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p.raw).To(HaveLen(int(protocol.MaxPacketSize - 1)))
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Expect(p.frames).To(HaveLen(1))
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Expect(p.frames[0].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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p, err = packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p.frames).To(HaveLen(1))
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Expect(p.frames[0].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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})
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It("packs multiple small stream frames into single packet", func() {
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f1 := frames.StreamFrame{
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StreamID: 5,
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Data: []byte{0xDE, 0xCA, 0xFB, 0xAD},
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}
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f2 := frames.StreamFrame{
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StreamID: 5,
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Data: []byte{0xBE, 0xEF, 0x13, 0x37},
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}
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f3 := frames.StreamFrame{
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StreamID: 3,
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Data: []byte{0xCA, 0xFE},
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}
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packer.AddStreamFrame(f1)
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packer.AddStreamFrame(f2)
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packer.AddStreamFrame(f3)
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(p).ToNot(BeNil())
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Expect(err).ToNot(HaveOccurred())
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b := &bytes.Buffer{}
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f1.Write(b, 0)
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f2.Write(b, 0)
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f3.Write(b, 0)
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Expect(p.frames).To(HaveLen(3))
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Expect(p.frames[0].(*frames.StreamFrame).DataLenPresent).To(BeTrue())
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Expect(p.frames[1].(*frames.StreamFrame).DataLenPresent).To(BeTrue())
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Expect(p.frames[2].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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Expect(p.raw).To(ContainSubstring(string(f1.Data)))
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Expect(p.raw).To(ContainSubstring(string(f2.Data)))
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Expect(p.raw).To(ContainSubstring(string(f3.Data)))
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})
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It("packs a packet with a stream frame larger than maximum size, in QUIC < 34", func() {
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packer.version = protocol.Version33
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f := frames.StreamFrame{
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StreamID: 5,
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Offset: 1,
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Data: bytes.Repeat([]byte{'f'}, int(protocol.MaxPacketSize)+100),
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}
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packer.AddStreamFrame(f)
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p.raw).To(HaveLen(int(protocol.MaxPacketSize)))
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})
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It("splits one stream frame larger than maximum size", func() {
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f := frames.StreamFrame{
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StreamID: 7,
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Offset: 1,
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}
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minLength, _ := f.MinLength(0)
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maxStreamFrameDataLen := protocol.MaxFrameAndPublicHeaderSize - publicHeaderLen - minLength + 1 // + 1 since MinceLength is 1 bigger than the actual StreamFrame header
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f.Data = bytes.Repeat([]byte{'f'}, int(maxStreamFrameDataLen)+200)
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packer.AddStreamFrame(f)
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payloadFrames, err := packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(1))
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Expect(payloadFrames[0].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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Expect(payloadFrames[0].(*frames.StreamFrame).Data).To(HaveLen(int(maxStreamFrameDataLen)))
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payloadFrames, err = packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(1))
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Expect(payloadFrames[0].(*frames.StreamFrame).Data).To(HaveLen(200))
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Expect(payloadFrames[0].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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payloadFrames, err = packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(BeEmpty())
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})
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It("packs 2 stream frames that are too big for one packet correctly", func() {
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maxStreamFrameDataLen := protocol.MaxFrameAndPublicHeaderSize - publicHeaderLen - (1 + 1 + 2)
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f1 := frames.StreamFrame{
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StreamID: 5,
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Data: bytes.Repeat([]byte{'f'}, int(maxStreamFrameDataLen)+100),
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Offset: 1,
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}
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f2 := frames.StreamFrame{
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StreamID: 5,
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Data: bytes.Repeat([]byte{'f'}, int(maxStreamFrameDataLen)+100),
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Offset: 1,
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}
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packer.AddStreamFrame(f1)
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packer.AddStreamFrame(f2)
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p.frames).To(HaveLen(1))
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Expect(p.frames[0].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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Expect(p.raw).To(HaveLen(int(protocol.MaxPacketSize)))
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p, err = packer.PackPacket(nil, []frames.Frame{})
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Expect(p.frames).To(HaveLen(2))
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Expect(p.frames[0].(*frames.StreamFrame).DataLenPresent).To(BeTrue())
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Expect(p.frames[1].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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Expect(err).ToNot(HaveOccurred())
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Expect(p.raw).To(HaveLen(int(protocol.MaxPacketSize)))
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p, err = packer.PackPacket(nil, []frames.Frame{})
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Expect(p.frames).To(HaveLen(1))
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Expect(p.frames[0].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
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Expect(err).ToNot(HaveOccurred())
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Expect(p).ToNot(BeNil())
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p, err = packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p).To(BeNil())
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})
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It("packs a packet that has the maximum packet size when given a large enough stream frame", func() {
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f := frames.StreamFrame{
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StreamID: 5,
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Offset: 1,
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}
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minLength, _ := f.MinLength(0)
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f.Data = bytes.Repeat([]byte{'f'}, int(protocol.MaxFrameAndPublicHeaderSize-publicHeaderLen-minLength+1)) // + 1 since MinceLength is 1 bigger than the actual StreamFrame header
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packer.AddStreamFrame(f)
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p, err := packer.PackPacket(nil, []frames.Frame{})
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Expect(err).ToNot(HaveOccurred())
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Expect(p).ToNot(BeNil())
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Expect(p.raw).To(HaveLen(int(protocol.MaxPacketSize)))
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})
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It("splits a stream frame larger than the maximum size", func() {
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f := frames.StreamFrame{
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StreamID: 5,
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Offset: 1,
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}
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minLength, _ := f.MinLength(0)
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f.Data = bytes.Repeat([]byte{'f'}, int(protocol.MaxFrameAndPublicHeaderSize-publicHeaderLen-minLength+2)) // + 2 since MinceLength is 1 bigger than the actual StreamFrame header
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packer.AddStreamFrame(f)
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payloadFrames, err := packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(1))
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payloadFrames, err = packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(payloadFrames).To(HaveLen(1))
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})
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})
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PContext("Blocked frames", func() {
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It("adds a blocked frame to a packet if there is enough space", func() {
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length := 100
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packer.AddBlocked(5, protocol.ByteCount(length))
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f := frames.StreamFrame{
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StreamID: 5,
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Data: bytes.Repeat([]byte{'f'}, length),
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}
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packer.AddStreamFrame(f)
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p, err := packer.composeNextPacket(nil, publicHeaderLen)
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Expect(err).ToNot(HaveOccurred())
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Expect(p).To(HaveLen(2))
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Expect(p[0]).To(Equal(&frames.BlockedFrame{StreamID: 5}))
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})
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|
|
It("removes the dataLen attribute from the last StreamFrame, even if it inserted a BlockedFrame before", func() {
|
|
length := 100
|
|
packer.AddBlocked(5, protocol.ByteCount(length))
|
|
f := frames.StreamFrame{
|
|
StreamID: 5,
|
|
Data: bytes.Repeat([]byte{'f'}, length),
|
|
}
|
|
packer.AddStreamFrame(f)
|
|
p, err := packer.composeNextPacket(nil, publicHeaderLen)
|
|
Expect(err).ToNot(HaveOccurred())
|
|
Expect(p).To(HaveLen(2))
|
|
Expect(p[1].(*frames.StreamFrame).DataLenPresent).To(BeFalse())
|
|
})
|
|
|
|
It("packs a BlockedFrame in the next packet if the current packet doesn't have enough space", func() {
|
|
dataLen := int(protocol.MaxFrameAndPublicHeaderSize-publicHeaderLen) - (1 + 1 + 2) + 1
|
|
packer.AddBlocked(5, protocol.ByteCount(dataLen))
|
|
f := frames.StreamFrame{
|
|
StreamID: 5,
|
|
Data: bytes.Repeat([]byte{'f'}, dataLen),
|
|
}
|
|
packer.AddStreamFrame(f)
|
|
p, err := packer.composeNextPacket(nil, publicHeaderLen)
|
|
Expect(err).ToNot(HaveOccurred())
|
|
Expect(p).To(HaveLen(1))
|
|
p, err = packer.composeNextPacket(nil, publicHeaderLen)
|
|
Expect(err).ToNot(HaveOccurred())
|
|
Expect(p).To(HaveLen(1))
|
|
Expect(p[0]).To(Equal(&frames.BlockedFrame{StreamID: 5}))
|
|
})
|
|
|
|
It("packs a packet with the maximum size with a BlocedFrame", func() {
|
|
blockedFrame := &frames.BlockedFrame{StreamID: 0x1337}
|
|
blockedFrameLen, _ := blockedFrame.MinLength(0)
|
|
f1 := frames.StreamFrame{
|
|
StreamID: 5,
|
|
Offset: 1,
|
|
}
|
|
streamFrameHeaderLen, _ := f1.MinLength(0)
|
|
streamFrameHeaderLen-- // - 1 since MinceLength is 1 bigger than the actual StreamFrame header
|
|
// this is the maximum dataLen of a StreamFrames that fits into one packet
|
|
dataLen := int(protocol.MaxFrameAndPublicHeaderSize - publicHeaderLen - streamFrameHeaderLen - blockedFrameLen)
|
|
packer.AddBlocked(5, protocol.ByteCount(dataLen))
|
|
f1.Data = bytes.Repeat([]byte{'f'}, dataLen)
|
|
packer.AddStreamFrame(f1)
|
|
p, err := packer.PackPacket(nil, []frames.Frame{})
|
|
Expect(err).ToNot(HaveOccurred())
|
|
Expect(p).ToNot(BeNil())
|
|
Expect(p.raw).To(HaveLen(int(protocol.MaxPacketSize)))
|
|
p, err = packer.PackPacket(nil, []frames.Frame{})
|
|
Expect(err).ToNot(HaveOccurred())
|
|
Expect(p).To(BeNil())
|
|
})
|
|
|
|
// TODO: fix this once connection-level BlockedFrames are sent out at the right time
|
|
// see https://github.com/lucas-clemente/quic-go/issues/113
|
|
It("packs a connection-level BlockedFrame", func() {
|
|
packer.AddBlocked(0, 0x1337)
|
|
f := frames.StreamFrame{
|
|
StreamID: 5,
|
|
Data: []byte("foobar"),
|
|
}
|
|
packer.AddStreamFrame(f)
|
|
p, err := packer.composeNextPacket(nil, publicHeaderLen)
|
|
Expect(err).ToNot(HaveOccurred())
|
|
Expect(p).To(HaveLen(2))
|
|
Expect(p[0]).To(Equal(&frames.BlockedFrame{StreamID: 0}))
|
|
})
|
|
})
|
|
})
|