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framer_test.go
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framer_test.go
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package quic
import (
"bytes"
"golang.org/x/exp/rand"
"github.com/metacubex/quic-go/internal/ackhandler"
"github.com/metacubex/quic-go/internal/protocol"
"github.com/metacubex/quic-go/internal/wire"
. "github.com/onsi/ginkgo/v2"
. "github.com/onsi/gomega"
"go.uber.org/mock/gomock"
)
var _ = Describe("Framer", func() {
const (
id1 = protocol.StreamID(10)
id2 = protocol.StreamID(11)
)
var (
framer framer
stream1, stream2 *MockSendStreamI
streamGetter *MockStreamGetter
version protocol.Version
)
BeforeEach(func() {
streamGetter = NewMockStreamGetter(mockCtrl)
stream1 = NewMockSendStreamI(mockCtrl)
stream1.EXPECT().StreamID().Return(protocol.StreamID(5)).AnyTimes()
stream2 = NewMockSendStreamI(mockCtrl)
stream2.EXPECT().StreamID().Return(protocol.StreamID(6)).AnyTimes()
framer = newFramer(streamGetter)
})
Context("handling control frames", func() {
It("adds control frames", func() {
mdf := &wire.MaxDataFrame{MaximumData: 0x42}
msf := &wire.MaxStreamsFrame{MaxStreamNum: 0x1337}
framer.QueueControlFrame(mdf)
framer.QueueControlFrame(msf)
frames, length := framer.AppendControlFrames(nil, 1000, protocol.Version1)
Expect(frames).To(HaveLen(2))
fs := []wire.Frame{frames[0].Frame, frames[1].Frame}
Expect(fs).To(ContainElement(mdf))
Expect(fs).To(ContainElement(msf))
Expect(length).To(Equal(mdf.Length(version) + msf.Length(version)))
})
It("says if it has data", func() {
Expect(framer.HasData()).To(BeFalse())
f := &wire.MaxDataFrame{MaximumData: 0x42}
framer.QueueControlFrame(f)
Expect(framer.HasData()).To(BeTrue())
frames, _ := framer.AppendControlFrames(nil, 1000, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(framer.HasData()).To(BeFalse())
})
It("appends to the slice given", func() {
ping := &wire.PingFrame{}
mdf := &wire.MaxDataFrame{MaximumData: 0x42}
framer.QueueControlFrame(mdf)
frames, length := framer.AppendControlFrames([]ackhandler.Frame{{Frame: ping}}, 1000, protocol.Version1)
Expect(frames).To(HaveLen(2))
Expect(frames[0].Frame).To(Equal(ping))
Expect(frames[1].Frame).To(Equal(mdf))
Expect(length).To(Equal(mdf.Length(version)))
})
It("adds the right number of frames", func() {
maxSize := protocol.ByteCount(1000)
bf := &wire.DataBlockedFrame{MaximumData: 0x1337}
bfLen := bf.Length(version)
numFrames := int(maxSize / bfLen) // max number of frames that fit into maxSize
for i := 0; i < numFrames+1; i++ {
framer.QueueControlFrame(bf)
}
frames, length := framer.AppendControlFrames(nil, maxSize, protocol.Version1)
Expect(frames).To(HaveLen(numFrames))
Expect(length).To(BeNumerically(">", maxSize-bfLen))
frames, length = framer.AppendControlFrames(nil, maxSize, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(length).To(Equal(bfLen))
})
It("drops *_BLOCKED frames when 0-RTT is rejected", func() {
ping := &wire.PingFrame{}
ncid := &wire.NewConnectionIDFrame{
SequenceNumber: 10,
ConnectionID: protocol.ParseConnectionID([]byte{0xde, 0xad, 0xbe, 0xef}),
}
frames := []wire.Frame{
&wire.DataBlockedFrame{MaximumData: 1337},
&wire.StreamDataBlockedFrame{StreamID: 42, MaximumStreamData: 1337},
&wire.StreamsBlockedFrame{StreamLimit: 13},
ping,
ncid,
}
rand.Shuffle(len(frames), func(i, j int) { frames[i], frames[j] = frames[j], frames[i] })
for _, f := range frames {
framer.QueueControlFrame(f)
}
Expect(framer.Handle0RTTRejection()).To(Succeed())
fs, length := framer.AppendControlFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(fs).To(HaveLen(2))
Expect(length).To(Equal(ping.Length(version) + ncid.Length(version)))
})
It("detects when too many frames are queued", func() {
for i := 0; i < maxControlFrames-1; i++ {
framer.QueueControlFrame(&wire.PingFrame{})
framer.QueueControlFrame(&wire.PingFrame{})
Expect(framer.QueuedTooManyControlFrames()).To(BeFalse())
frames, _ := framer.AppendControlFrames([]ackhandler.Frame{}, 1, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(framer.(*framerI).controlFrames).To(HaveLen(i + 1))
}
framer.QueueControlFrame(&wire.PingFrame{})
Expect(framer.QueuedTooManyControlFrames()).To(BeFalse())
Expect(framer.(*framerI).controlFrames).To(HaveLen(maxControlFrames))
framer.QueueControlFrame(&wire.PingFrame{})
Expect(framer.QueuedTooManyControlFrames()).To(BeTrue())
Expect(framer.(*framerI).controlFrames).To(HaveLen(maxControlFrames))
})
})
Context("handling PATH_RESPONSE frames", func() {
It("packs a single PATH_RESPONSE per packet", func() {
f1 := &wire.PathResponseFrame{Data: [8]byte{1, 2, 3, 4, 5, 6, 7, 8}}
f2 := &wire.PathResponseFrame{Data: [8]byte{2, 3, 4, 5, 6, 7, 8, 9}}
cf1 := &wire.DataBlockedFrame{MaximumData: 1337}
cf2 := &wire.HandshakeDoneFrame{}
framer.QueueControlFrame(f1)
framer.QueueControlFrame(f2)
framer.QueueControlFrame(cf1)
framer.QueueControlFrame(cf2)
// the first packet should contain a single PATH_RESPONSE frame, but all the other control frames
Expect(framer.HasData()).To(BeTrue())
frames, length := framer.AppendControlFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(frames).To(HaveLen(3))
Expect(frames[0].Frame).To(Equal(f1))
Expect([]wire.Frame{frames[1].Frame, frames[2].Frame}).To(ContainElement(cf1))
Expect([]wire.Frame{frames[1].Frame, frames[2].Frame}).To(ContainElement(cf2))
Expect(length).To(Equal(f1.Length(protocol.Version1) + cf1.Length(protocol.Version1) + cf2.Length(protocol.Version1)))
// the second packet should contain the other PATH_RESPONSE frame
Expect(framer.HasData()).To(BeTrue())
frames, length = framer.AppendControlFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f2))
Expect(length).To(Equal(f2.Length(protocol.Version1)))
Expect(framer.HasData()).To(BeFalse())
})
It("limits the number of queued PATH_RESPONSE frames", func() {
var pathResponses []*wire.PathResponseFrame
for i := 0; i < 2*maxPathResponses; i++ {
var f wire.PathResponseFrame
rand.Read(f.Data[:])
pathResponses = append(pathResponses, &f)
framer.QueueControlFrame(&f)
}
for i := 0; i < maxPathResponses; i++ {
Expect(framer.HasData()).To(BeTrue())
frames, length := framer.AppendControlFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(pathResponses[i]))
Expect(length).To(Equal(pathResponses[i].Length(protocol.Version1)))
}
Expect(framer.HasData()).To(BeFalse())
frames, length := framer.AppendControlFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(frames).To(BeEmpty())
Expect(length).To(BeZero())
})
})
Context("popping STREAM frames", func() {
It("returns nil when popping an empty framer", func() {
Expect(framer.AppendStreamFrames(nil, 1000, protocol.Version1)).To(BeEmpty())
})
It("returns STREAM frames", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
f := &wire.StreamFrame{
StreamID: id1,
Data: []byte("foobar"),
Offset: 42,
DataLenPresent: true,
}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f}, true, false)
framer.AddActiveStream(id1)
fs, length := framer.AppendStreamFrames(nil, 1000, protocol.Version1)
Expect(fs).To(HaveLen(1))
Expect(fs[0].Frame.DataLenPresent).To(BeFalse())
Expect(length).To(Equal(f.Length(version)))
})
It("says if it has data", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil).Times(2)
Expect(framer.HasData()).To(BeFalse())
framer.AddActiveStream(id1)
Expect(framer.HasData()).To(BeTrue())
f1 := &wire.StreamFrame{StreamID: id1, Data: []byte("foo")}
f2 := &wire.StreamFrame{StreamID: id1, Data: []byte("bar")}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f1}, true, true)
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f2}, true, false)
frames, _ := framer.AppendStreamFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f1))
Expect(framer.HasData()).To(BeTrue())
frames, _ = framer.AppendStreamFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f2))
Expect(framer.HasData()).To(BeFalse())
})
It("appends to a frame slice", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
f := &wire.StreamFrame{
StreamID: id1,
Data: []byte("foobar"),
DataLenPresent: true,
}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f}, true, false)
framer.AddActiveStream(id1)
f0 := ackhandler.StreamFrame{Frame: &wire.StreamFrame{StreamID: 9999}}
frames := []ackhandler.StreamFrame{f0}
fs, length := framer.AppendStreamFrames(frames, 1000, protocol.Version1)
Expect(fs).To(HaveLen(2))
Expect(fs[0]).To(Equal(f0))
Expect(fs[1].Frame.Data).To(Equal([]byte("foobar")))
Expect(fs[1].Frame.DataLenPresent).To(BeFalse())
Expect(length).To(Equal(f.Length(version)))
})
It("skips a stream that was reported active, but was completed shortly after", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(nil, nil)
streamGetter.EXPECT().GetOrOpenSendStream(id2).Return(stream2, nil)
f := &wire.StreamFrame{
StreamID: id2,
Data: []byte("foobar"),
DataLenPresent: true,
}
stream2.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f}, true, false)
framer.AddActiveStream(id1)
framer.AddActiveStream(id2)
frames, _ := framer.AppendStreamFrames(nil, 1000, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f))
})
It("skips a stream that was reported active, but doesn't have any data", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
streamGetter.EXPECT().GetOrOpenSendStream(id2).Return(stream2, nil)
f := &wire.StreamFrame{
StreamID: id2,
Data: []byte("foobar"),
DataLenPresent: true,
}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{}, false, false)
stream2.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f}, true, false)
framer.AddActiveStream(id1)
framer.AddActiveStream(id2)
frames, _ := framer.AppendStreamFrames(nil, 1000, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f))
})
It("pops from a stream multiple times, if it has enough data", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil).Times(2)
f1 := &wire.StreamFrame{StreamID: id1, Data: []byte("foobar")}
f2 := &wire.StreamFrame{StreamID: id1, Data: []byte("foobaz")}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f1}, true, true)
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f2}, true, false)
framer.AddActiveStream(id1) // only add it once
frames, _ := framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f1))
frames, _ = framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f2))
// no further calls to popStreamFrame, after popStreamFrame said there's no more data
frames, _ = framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize, protocol.Version1)
Expect(frames).To(BeNil())
})
It("re-queues a stream at the end, if it has enough data", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil).Times(2)
streamGetter.EXPECT().GetOrOpenSendStream(id2).Return(stream2, nil)
f11 := &wire.StreamFrame{StreamID: id1, Data: []byte("foobar")}
f12 := &wire.StreamFrame{StreamID: id1, Data: []byte("foobaz")}
f2 := &wire.StreamFrame{StreamID: id2, Data: []byte("raboof")}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f11}, true, true)
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f12}, true, false)
stream2.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f2}, true, false)
framer.AddActiveStream(id1) // only add it once
framer.AddActiveStream(id2)
// first a frame from stream 1
frames, _ := framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f11))
// then a frame from stream 2
frames, _ = framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f2))
// then another frame from stream 1
frames, _ = framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize, protocol.Version1)
Expect(frames).To(HaveLen(1))
Expect(frames[0].Frame).To(Equal(f12))
})
It("only dequeues data from each stream once per packet", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
streamGetter.EXPECT().GetOrOpenSendStream(id2).Return(stream2, nil)
f1 := &wire.StreamFrame{StreamID: id1, Data: []byte("foobar")}
f2 := &wire.StreamFrame{StreamID: id2, Data: []byte("raboof")}
// both streams have more data, and will be re-queued
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f1}, true, true)
stream2.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f2}, true, true)
framer.AddActiveStream(id1)
framer.AddActiveStream(id2)
frames, length := framer.AppendStreamFrames(nil, 1000, protocol.Version1)
Expect(frames).To(HaveLen(2))
Expect(frames[0].Frame).To(Equal(f1))
Expect(frames[1].Frame).To(Equal(f2))
Expect(length).To(Equal(f1.Length(version) + f2.Length(version)))
})
It("returns multiple normal frames in the order they were reported active", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
streamGetter.EXPECT().GetOrOpenSendStream(id2).Return(stream2, nil)
f1 := &wire.StreamFrame{Data: []byte("foobar")}
f2 := &wire.StreamFrame{Data: []byte("foobaz")}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f1}, true, false)
stream2.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f2}, true, false)
framer.AddActiveStream(id2)
framer.AddActiveStream(id1)
frames, _ := framer.AppendStreamFrames(nil, 1000, protocol.Version1)
Expect(frames).To(HaveLen(2))
Expect(frames[0].Frame).To(Equal(f2))
Expect(frames[1].Frame).To(Equal(f1))
})
It("only asks a stream for data once, even if it was reported active multiple times", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
f := &wire.StreamFrame{Data: []byte("foobar")}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f}, true, false) // only one call to this function
framer.AddActiveStream(id1)
framer.AddActiveStream(id1)
frames, _ := framer.AppendStreamFrames(nil, 1000, protocol.Version1)
Expect(frames).To(HaveLen(1))
})
It("does not pop empty frames", func() {
fs, length := framer.AppendStreamFrames(nil, 500, protocol.Version1)
Expect(fs).To(BeEmpty())
Expect(length).To(BeZero())
})
It("pops maximum size STREAM frames", func() {
for i := protocol.MinStreamFrameSize; i < 2000; i++ {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).DoAndReturn(func(size protocol.ByteCount, v protocol.Version) (ackhandler.StreamFrame, bool, bool) {
f := &wire.StreamFrame{
StreamID: id1,
DataLenPresent: true,
}
f.Data = make([]byte, f.MaxDataLen(size, v))
Expect(f.Length(version)).To(Equal(size))
return ackhandler.StreamFrame{Frame: f}, true, false
})
framer.AddActiveStream(id1)
frames, _ := framer.AppendStreamFrames(nil, i, protocol.Version1)
Expect(frames).To(HaveLen(1))
f := frames[0].Frame
Expect(f.DataLenPresent).To(BeFalse())
Expect(f.Length(version)).To(Equal(i))
}
})
It("pops multiple STREAM frames", func() {
for i := 2 * protocol.MinStreamFrameSize; i < 2000; i++ {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
streamGetter.EXPECT().GetOrOpenSendStream(id2).Return(stream2, nil)
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).DoAndReturn(func(size protocol.ByteCount, v protocol.Version) (ackhandler.StreamFrame, bool, bool) {
f := &wire.StreamFrame{
StreamID: id2,
DataLenPresent: true,
}
f.Data = make([]byte, f.MaxDataLen(protocol.MinStreamFrameSize, v))
return ackhandler.StreamFrame{Frame: f}, true, false
})
stream2.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).DoAndReturn(func(size protocol.ByteCount, v protocol.Version) (ackhandler.StreamFrame, bool, bool) {
f := &wire.StreamFrame{
StreamID: id2,
DataLenPresent: true,
}
f.Data = make([]byte, f.MaxDataLen(size, v))
Expect(f.Length(version)).To(Equal(size))
return ackhandler.StreamFrame{Frame: f}, true, false
})
framer.AddActiveStream(id1)
framer.AddActiveStream(id2)
frames, _ := framer.AppendStreamFrames(nil, i, protocol.Version1)
Expect(frames).To(HaveLen(2))
f1 := frames[0].Frame
f2 := frames[1].Frame
Expect(f1.DataLenPresent).To(BeTrue())
Expect(f2.DataLenPresent).To(BeFalse())
Expect(f1.Length(version) + f2.Length(version)).To(Equal(i))
}
})
It("pops frames that when asked for the the minimum STREAM frame size", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
f := &wire.StreamFrame{Data: []byte("foobar")}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f}, true, false)
framer.AddActiveStream(id1)
framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize, protocol.Version1)
})
It("does not pop frames smaller than the minimum size", func() {
// don't expect a call to PopStreamFrame()
framer.AppendStreamFrames(nil, protocol.MinStreamFrameSize-1, protocol.Version1)
})
It("stops iterating when the remaining size is smaller than the minimum STREAM frame size", func() {
streamGetter.EXPECT().GetOrOpenSendStream(id1).Return(stream1, nil)
// pop a frame such that the remaining size is one byte less than the minimum STREAM frame size
f := &wire.StreamFrame{
StreamID: id1,
Data: bytes.Repeat([]byte("f"), int(500-protocol.MinStreamFrameSize)),
DataLenPresent: true,
}
stream1.EXPECT().popStreamFrame(gomock.Any(), protocol.Version1).Return(ackhandler.StreamFrame{Frame: f}, true, false)
framer.AddActiveStream(id1)
fs, length := framer.AppendStreamFrames(nil, 500, protocol.Version1)
Expect(fs).To(HaveLen(1))
Expect(fs[0].Frame).To(Equal(f))
Expect(length).To(Equal(f.Length(version)))
})
It("drops all STREAM frames when 0-RTT is rejected", func() {
framer.AddActiveStream(id1)
Expect(framer.Handle0RTTRejection()).To(Succeed())
fs, length := framer.AppendStreamFrames(nil, protocol.MaxByteCount, protocol.Version1)
Expect(fs).To(BeEmpty())
Expect(length).To(BeZero())
})
})
})