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// Copyright 2014 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package http2
import ( "bytes" "fmt" "io" "reflect" "strings" "testing" "unsafe"
"golang.org/x/net/http2/hpack" )
func testFramer() (*Framer, *bytes.Buffer) { buf := new(bytes.Buffer) return NewFramer(buf, buf), buf }
func TestFrameSizes(t *testing.T) { // Catch people rearranging the FrameHeader fields.
if got, want := int(unsafe.Sizeof(FrameHeader{})), 12; got != want { t.Errorf("FrameHeader size = %d; want %d", got, want) } }
func TestFrameTypeString(t *testing.T) { tests := []struct { ft FrameType want string }{ {FrameData, "DATA"}, {FramePing, "PING"}, {FrameGoAway, "GOAWAY"}, {0xf, "UNKNOWN_FRAME_TYPE_15"}, }
for i, tt := range tests { got := tt.ft.String() if got != tt.want { t.Errorf("%d. String(FrameType %d) = %q; want %q", i, int(tt.ft), got, tt.want) } } }
func TestWriteRST(t *testing.T) { fr, buf := testFramer() var streamID uint32 = 1<<24 + 2<<16 + 3<<8 + 4 var errCode uint32 = 7<<24 + 6<<16 + 5<<8 + 4 fr.WriteRSTStream(streamID, ErrCode(errCode)) const wantEnc = "\x00\x00\x04\x03\x00\x01\x02\x03\x04\x07\x06\x05\x04" if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } want := &RSTStreamFrame{ FrameHeader: FrameHeader{ valid: true, Type: 0x3, Flags: 0x0, Length: 0x4, StreamID: 0x1020304, }, ErrCode: 0x7060504, } if !reflect.DeepEqual(f, want) { t.Errorf("parsed back %#v; want %#v", f, want) } }
func TestWriteData(t *testing.T) { fr, buf := testFramer() var streamID uint32 = 1<<24 + 2<<16 + 3<<8 + 4 data := []byte("ABC") fr.WriteData(streamID, true, data) const wantEnc = "\x00\x00\x03\x00\x01\x01\x02\x03\x04ABC" if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } df, ok := f.(*DataFrame) if !ok { t.Fatalf("got %T; want *DataFrame", f) } if !bytes.Equal(df.Data(), data) { t.Errorf("got %q; want %q", df.Data(), data) } if f.Header().Flags&1 == 0 { t.Errorf("didn't see END_STREAM flag") } }
func TestWriteDataPadded(t *testing.T) { tests := [...]struct { streamID uint32 endStream bool data []byte pad []byte wantHeader FrameHeader }{ // Unpadded:
0: { streamID: 1, endStream: true, data: []byte("foo"), pad: nil, wantHeader: FrameHeader{ Type: FrameData, Flags: FlagDataEndStream, Length: 3, StreamID: 1, }, },
// Padded bit set, but no padding:
1: { streamID: 1, endStream: true, data: []byte("foo"), pad: []byte{}, wantHeader: FrameHeader{ Type: FrameData, Flags: FlagDataEndStream | FlagDataPadded, Length: 4, StreamID: 1, }, },
// Padded bit set, with padding:
2: { streamID: 1, endStream: false, data: []byte("foo"), pad: []byte{0, 0, 0}, wantHeader: FrameHeader{ Type: FrameData, Flags: FlagDataPadded, Length: 7, StreamID: 1, }, }, } for i, tt := range tests { fr, _ := testFramer() fr.WriteDataPadded(tt.streamID, tt.endStream, tt.data, tt.pad) f, err := fr.ReadFrame() if err != nil { t.Errorf("%d. ReadFrame: %v", i, err) continue } got := f.Header() tt.wantHeader.valid = true if got != tt.wantHeader { t.Errorf("%d. read %+v; want %+v", i, got, tt.wantHeader) continue } df := f.(*DataFrame) if !bytes.Equal(df.Data(), tt.data) { t.Errorf("%d. got %q; want %q", i, df.Data(), tt.data) } } }
func TestWriteHeaders(t *testing.T) { tests := []struct { name string p HeadersFrameParam wantEnc string wantFrame *HeadersFrame }{ { "basic", HeadersFrameParam{ StreamID: 42, BlockFragment: []byte("abc"), Priority: PriorityParam{}, }, "\x00\x00\x03\x01\x00\x00\x00\x00*abc", &HeadersFrame{ FrameHeader: FrameHeader{ valid: true, StreamID: 42, Type: FrameHeaders, Length: uint32(len("abc")), }, Priority: PriorityParam{}, headerFragBuf: []byte("abc"), }, }, { "basic + end flags", HeadersFrameParam{ StreamID: 42, BlockFragment: []byte("abc"), EndStream: true, EndHeaders: true, Priority: PriorityParam{}, }, "\x00\x00\x03\x01\x05\x00\x00\x00*abc", &HeadersFrame{ FrameHeader: FrameHeader{ valid: true, StreamID: 42, Type: FrameHeaders, Flags: FlagHeadersEndStream | FlagHeadersEndHeaders, Length: uint32(len("abc")), }, Priority: PriorityParam{}, headerFragBuf: []byte("abc"), }, }, { "with padding", HeadersFrameParam{ StreamID: 42, BlockFragment: []byte("abc"), EndStream: true, EndHeaders: true, PadLength: 5, Priority: PriorityParam{}, }, "\x00\x00\t\x01\r\x00\x00\x00*\x05abc\x00\x00\x00\x00\x00", &HeadersFrame{ FrameHeader: FrameHeader{ valid: true, StreamID: 42, Type: FrameHeaders, Flags: FlagHeadersEndStream | FlagHeadersEndHeaders | FlagHeadersPadded, Length: uint32(1 + len("abc") + 5), // pad length + contents + padding
}, Priority: PriorityParam{}, headerFragBuf: []byte("abc"), }, }, { "with priority", HeadersFrameParam{ StreamID: 42, BlockFragment: []byte("abc"), EndStream: true, EndHeaders: true, PadLength: 2, Priority: PriorityParam{ StreamDep: 15, Exclusive: true, Weight: 127, }, }, "\x00\x00\v\x01-\x00\x00\x00*\x02\x80\x00\x00\x0f\u007fabc\x00\x00", &HeadersFrame{ FrameHeader: FrameHeader{ valid: true, StreamID: 42, Type: FrameHeaders, Flags: FlagHeadersEndStream | FlagHeadersEndHeaders | FlagHeadersPadded | FlagHeadersPriority, Length: uint32(1 + 5 + len("abc") + 2), // pad length + priority + contents + padding
}, Priority: PriorityParam{ StreamDep: 15, Exclusive: true, Weight: 127, }, headerFragBuf: []byte("abc"), }, }, { "with priority stream dep zero", // golang.org/issue/15444
HeadersFrameParam{ StreamID: 42, BlockFragment: []byte("abc"), EndStream: true, EndHeaders: true, PadLength: 2, Priority: PriorityParam{ StreamDep: 0, Exclusive: true, Weight: 127, }, }, "\x00\x00\v\x01-\x00\x00\x00*\x02\x80\x00\x00\x00\u007fabc\x00\x00", &HeadersFrame{ FrameHeader: FrameHeader{ valid: true, StreamID: 42, Type: FrameHeaders, Flags: FlagHeadersEndStream | FlagHeadersEndHeaders | FlagHeadersPadded | FlagHeadersPriority, Length: uint32(1 + 5 + len("abc") + 2), // pad length + priority + contents + padding
}, Priority: PriorityParam{ StreamDep: 0, Exclusive: true, Weight: 127, }, headerFragBuf: []byte("abc"), }, }, } for _, tt := range tests { fr, buf := testFramer() if err := fr.WriteHeaders(tt.p); err != nil { t.Errorf("test %q: %v", tt.name, err) continue } if buf.String() != tt.wantEnc { t.Errorf("test %q: encoded %q; want %q", tt.name, buf.Bytes(), tt.wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Errorf("test %q: failed to read the frame back: %v", tt.name, err) continue } if !reflect.DeepEqual(f, tt.wantFrame) { t.Errorf("test %q: mismatch.\n got: %#v\nwant: %#v\n", tt.name, f, tt.wantFrame) } } }
func TestWriteInvalidStreamDep(t *testing.T) { fr, _ := testFramer() err := fr.WriteHeaders(HeadersFrameParam{ StreamID: 42, Priority: PriorityParam{ StreamDep: 1 << 31, }, }) if err != errDepStreamID { t.Errorf("header error = %v; want %q", err, errDepStreamID) }
err = fr.WritePriority(2, PriorityParam{StreamDep: 1 << 31}) if err != errDepStreamID { t.Errorf("priority error = %v; want %q", err, errDepStreamID) } }
func TestWriteContinuation(t *testing.T) { const streamID = 42 tests := []struct { name string end bool frag []byte
wantFrame *ContinuationFrame }{ { "not end", false, []byte("abc"), &ContinuationFrame{ FrameHeader: FrameHeader{ valid: true, StreamID: streamID, Type: FrameContinuation, Length: uint32(len("abc")), }, headerFragBuf: []byte("abc"), }, }, { "end", true, []byte("def"), &ContinuationFrame{ FrameHeader: FrameHeader{ valid: true, StreamID: streamID, Type: FrameContinuation, Flags: FlagContinuationEndHeaders, Length: uint32(len("def")), }, headerFragBuf: []byte("def"), }, }, } for _, tt := range tests { fr, _ := testFramer() if err := fr.WriteContinuation(streamID, tt.end, tt.frag); err != nil { t.Errorf("test %q: %v", tt.name, err) continue } fr.AllowIllegalReads = true f, err := fr.ReadFrame() if err != nil { t.Errorf("test %q: failed to read the frame back: %v", tt.name, err) continue } if !reflect.DeepEqual(f, tt.wantFrame) { t.Errorf("test %q: mismatch.\n got: %#v\nwant: %#v\n", tt.name, f, tt.wantFrame) } } }
func TestWritePriority(t *testing.T) { const streamID = 42 tests := []struct { name string priority PriorityParam wantFrame *PriorityFrame }{ { "not exclusive", PriorityParam{ StreamDep: 2, Exclusive: false, Weight: 127, }, &PriorityFrame{ FrameHeader{ valid: true, StreamID: streamID, Type: FramePriority, Length: 5, }, PriorityParam{ StreamDep: 2, Exclusive: false, Weight: 127, }, }, },
{ "exclusive", PriorityParam{ StreamDep: 3, Exclusive: true, Weight: 77, }, &PriorityFrame{ FrameHeader{ valid: true, StreamID: streamID, Type: FramePriority, Length: 5, }, PriorityParam{ StreamDep: 3, Exclusive: true, Weight: 77, }, }, }, } for _, tt := range tests { fr, _ := testFramer() if err := fr.WritePriority(streamID, tt.priority); err != nil { t.Errorf("test %q: %v", tt.name, err) continue } f, err := fr.ReadFrame() if err != nil { t.Errorf("test %q: failed to read the frame back: %v", tt.name, err) continue } if !reflect.DeepEqual(f, tt.wantFrame) { t.Errorf("test %q: mismatch.\n got: %#v\nwant: %#v\n", tt.name, f, tt.wantFrame) } } }
func TestWriteSettings(t *testing.T) { fr, buf := testFramer() settings := []Setting{{1, 2}, {3, 4}} fr.WriteSettings(settings...) const wantEnc = "\x00\x00\f\x04\x00\x00\x00\x00\x00\x00\x01\x00\x00\x00\x02\x00\x03\x00\x00\x00\x04" if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } sf, ok := f.(*SettingsFrame) if !ok { t.Fatalf("Got a %T; want a SettingsFrame", f) } var got []Setting sf.ForeachSetting(func(s Setting) error { got = append(got, s) valBack, ok := sf.Value(s.ID) if !ok || valBack != s.Val { t.Errorf("Value(%d) = %v, %v; want %v, true", s.ID, valBack, ok, s.Val) } return nil }) if !reflect.DeepEqual(settings, got) { t.Errorf("Read settings %+v != written settings %+v", got, settings) } }
func TestWriteSettingsAck(t *testing.T) { fr, buf := testFramer() fr.WriteSettingsAck() const wantEnc = "\x00\x00\x00\x04\x01\x00\x00\x00\x00" if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } }
func TestWriteWindowUpdate(t *testing.T) { fr, buf := testFramer() const streamID = 1<<24 + 2<<16 + 3<<8 + 4 const incr = 7<<24 + 6<<16 + 5<<8 + 4 if err := fr.WriteWindowUpdate(streamID, incr); err != nil { t.Fatal(err) } const wantEnc = "\x00\x00\x04\x08\x00\x01\x02\x03\x04\x07\x06\x05\x04" if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } want := &WindowUpdateFrame{ FrameHeader: FrameHeader{ valid: true, Type: 0x8, Flags: 0x0, Length: 0x4, StreamID: 0x1020304, }, Increment: 0x7060504, } if !reflect.DeepEqual(f, want) { t.Errorf("parsed back %#v; want %#v", f, want) } }
func TestWritePing(t *testing.T) { testWritePing(t, false) } func TestWritePingAck(t *testing.T) { testWritePing(t, true) }
func testWritePing(t *testing.T, ack bool) { fr, buf := testFramer() if err := fr.WritePing(ack, [8]byte{1, 2, 3, 4, 5, 6, 7, 8}); err != nil { t.Fatal(err) } var wantFlags Flags if ack { wantFlags = FlagPingAck } var wantEnc = "\x00\x00\x08\x06" + string(wantFlags) + "\x00\x00\x00\x00" + "\x01\x02\x03\x04\x05\x06\x07\x08" if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) }
f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } want := &PingFrame{ FrameHeader: FrameHeader{ valid: true, Type: 0x6, Flags: wantFlags, Length: 0x8, StreamID: 0, }, Data: [8]byte{1, 2, 3, 4, 5, 6, 7, 8}, } if !reflect.DeepEqual(f, want) { t.Errorf("parsed back %#v; want %#v", f, want) } }
func TestReadFrameHeader(t *testing.T) { tests := []struct { in string want FrameHeader }{ {in: "\x00\x00\x00" + "\x00" + "\x00" + "\x00\x00\x00\x00", want: FrameHeader{}}, {in: "\x01\x02\x03" + "\x04" + "\x05" + "\x06\x07\x08\x09", want: FrameHeader{ Length: 66051, Type: 4, Flags: 5, StreamID: 101124105, }}, // Ignore high bit:
{in: "\xff\xff\xff" + "\xff" + "\xff" + "\xff\xff\xff\xff", want: FrameHeader{ Length: 16777215, Type: 255, Flags: 255, StreamID: 2147483647}}, {in: "\xff\xff\xff" + "\xff" + "\xff" + "\x7f\xff\xff\xff", want: FrameHeader{ Length: 16777215, Type: 255, Flags: 255, StreamID: 2147483647}}, } for i, tt := range tests { got, err := readFrameHeader(make([]byte, 9), strings.NewReader(tt.in)) if err != nil { t.Errorf("%d. readFrameHeader(%q) = %v", i, tt.in, err) continue } tt.want.valid = true if got != tt.want { t.Errorf("%d. readFrameHeader(%q) = %+v; want %+v", i, tt.in, got, tt.want) } } }
func TestReadWriteFrameHeader(t *testing.T) { tests := []struct { len uint32 typ FrameType flags Flags streamID uint32 }{ {len: 0, typ: 255, flags: 1, streamID: 0}, {len: 0, typ: 255, flags: 1, streamID: 1}, {len: 0, typ: 255, flags: 1, streamID: 255}, {len: 0, typ: 255, flags: 1, streamID: 256}, {len: 0, typ: 255, flags: 1, streamID: 65535}, {len: 0, typ: 255, flags: 1, streamID: 65536},
{len: 0, typ: 1, flags: 255, streamID: 1}, {len: 255, typ: 1, flags: 255, streamID: 1}, {len: 256, typ: 1, flags: 255, streamID: 1}, {len: 65535, typ: 1, flags: 255, streamID: 1}, {len: 65536, typ: 1, flags: 255, streamID: 1}, {len: 16777215, typ: 1, flags: 255, streamID: 1}, } for _, tt := range tests { fr, buf := testFramer() fr.startWrite(tt.typ, tt.flags, tt.streamID) fr.writeBytes(make([]byte, tt.len)) fr.endWrite() fh, err := ReadFrameHeader(buf) if err != nil { t.Errorf("ReadFrameHeader(%+v) = %v", tt, err) continue } if fh.Type != tt.typ || fh.Flags != tt.flags || fh.Length != tt.len || fh.StreamID != tt.streamID { t.Errorf("ReadFrameHeader(%+v) = %+v; mismatch", tt, fh) } }
}
func TestWriteTooLargeFrame(t *testing.T) { fr, _ := testFramer() fr.startWrite(0, 1, 1) fr.writeBytes(make([]byte, 1<<24)) err := fr.endWrite() if err != ErrFrameTooLarge { t.Errorf("endWrite = %v; want errFrameTooLarge", err) } }
func TestWriteGoAway(t *testing.T) { const debug = "foo" fr, buf := testFramer() if err := fr.WriteGoAway(0x01020304, 0x05060708, []byte(debug)); err != nil { t.Fatal(err) } const wantEnc = "\x00\x00\v\a\x00\x00\x00\x00\x00\x01\x02\x03\x04\x05\x06\x07\x08" + debug if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } want := &GoAwayFrame{ FrameHeader: FrameHeader{ valid: true, Type: 0x7, Flags: 0, Length: uint32(4 + 4 + len(debug)), StreamID: 0, }, LastStreamID: 0x01020304, ErrCode: 0x05060708, debugData: []byte(debug), } if !reflect.DeepEqual(f, want) { t.Fatalf("parsed back:\n%#v\nwant:\n%#v", f, want) } if got := string(f.(*GoAwayFrame).DebugData()); got != debug { t.Errorf("debug data = %q; want %q", got, debug) } }
func TestWritePushPromise(t *testing.T) { pp := PushPromiseParam{ StreamID: 42, PromiseID: 42, BlockFragment: []byte("abc"), } fr, buf := testFramer() if err := fr.WritePushPromise(pp); err != nil { t.Fatal(err) } const wantEnc = "\x00\x00\x07\x05\x00\x00\x00\x00*\x00\x00\x00*abc" if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } _, ok := f.(*PushPromiseFrame) if !ok { t.Fatalf("got %T; want *PushPromiseFrame", f) } want := &PushPromiseFrame{ FrameHeader: FrameHeader{ valid: true, Type: 0x5, Flags: 0x0, Length: 0x7, StreamID: 42, }, PromiseID: 42, headerFragBuf: []byte("abc"), } if !reflect.DeepEqual(f, want) { t.Fatalf("parsed back:\n%#v\nwant:\n%#v", f, want) } }
// test checkFrameOrder and that HEADERS and CONTINUATION frames can't be intermingled.
func TestReadFrameOrder(t *testing.T) { head := func(f *Framer, id uint32, end bool) { f.WriteHeaders(HeadersFrameParam{ StreamID: id, BlockFragment: []byte("foo"), // unused, but non-empty
EndHeaders: end, }) } cont := func(f *Framer, id uint32, end bool) { f.WriteContinuation(id, end, []byte("foo")) }
tests := [...]struct { name string w func(*Framer) atLeast int wantErr string }{ 0: { w: func(f *Framer) { head(f, 1, true) }, }, 1: { w: func(f *Framer) { head(f, 1, true) head(f, 2, true) }, }, 2: { wantErr: "got HEADERS for stream 2; expected CONTINUATION following HEADERS for stream 1", w: func(f *Framer) { head(f, 1, false) head(f, 2, true) }, }, 3: { wantErr: "got DATA for stream 1; expected CONTINUATION following HEADERS for stream 1", w: func(f *Framer) { head(f, 1, false) }, }, 4: { w: func(f *Framer) { head(f, 1, false) cont(f, 1, true) head(f, 2, true) }, }, 5: { wantErr: "got CONTINUATION for stream 2; expected stream 1", w: func(f *Framer) { head(f, 1, false) cont(f, 2, true) head(f, 2, true) }, }, 6: { wantErr: "unexpected CONTINUATION for stream 1", w: func(f *Framer) { cont(f, 1, true) }, }, 7: { wantErr: "unexpected CONTINUATION for stream 1", w: func(f *Framer) { cont(f, 1, false) }, }, 8: { wantErr: "HEADERS frame with stream ID 0", w: func(f *Framer) { head(f, 0, true) }, }, 9: { wantErr: "CONTINUATION frame with stream ID 0", w: func(f *Framer) { cont(f, 0, true) }, }, 10: { wantErr: "unexpected CONTINUATION for stream 1", atLeast: 5, w: func(f *Framer) { head(f, 1, false) cont(f, 1, false) cont(f, 1, false) cont(f, 1, false) cont(f, 1, true) cont(f, 1, false) }, }, } for i, tt := range tests { buf := new(bytes.Buffer) f := NewFramer(buf, buf) f.AllowIllegalWrites = true tt.w(f) f.WriteData(1, true, nil) // to test transition away from last step
var err error n := 0 var log bytes.Buffer for { var got Frame got, err = f.ReadFrame() fmt.Fprintf(&log, " read %v, %v\n", got, err) if err != nil { break } n++ } if err == io.EOF { err = nil } ok := tt.wantErr == "" if ok && err != nil { t.Errorf("%d. after %d good frames, ReadFrame = %v; want success\n%s", i, n, err, log.Bytes()) continue } if !ok && err != ConnectionError(ErrCodeProtocol) { t.Errorf("%d. after %d good frames, ReadFrame = %v; want ConnectionError(ErrCodeProtocol)\n%s", i, n, err, log.Bytes()) continue } if !((f.errDetail == nil && tt.wantErr == "") || (fmt.Sprint(f.errDetail) == tt.wantErr)) { t.Errorf("%d. framer eror = %q; want %q\n%s", i, f.errDetail, tt.wantErr, log.Bytes()) } if n < tt.atLeast { t.Errorf("%d. framer only read %d frames; want at least %d\n%s", i, n, tt.atLeast, log.Bytes()) } } }
func TestMetaFrameHeader(t *testing.T) { write := func(f *Framer, frags ...[]byte) { for i, frag := range frags { end := (i == len(frags)-1) if i == 0 { f.WriteHeaders(HeadersFrameParam{ StreamID: 1, BlockFragment: frag, EndHeaders: end, }) } else { f.WriteContinuation(1, end, frag) } } }
want := func(flags Flags, length uint32, pairs ...string) *MetaHeadersFrame { mh := &MetaHeadersFrame{ HeadersFrame: &HeadersFrame{ FrameHeader: FrameHeader{ Type: FrameHeaders, Flags: flags, Length: length, StreamID: 1, }, }, Fields: []hpack.HeaderField(nil), } for len(pairs) > 0 { mh.Fields = append(mh.Fields, hpack.HeaderField{ Name: pairs[0], Value: pairs[1], }) pairs = pairs[2:] } return mh } truncated := func(mh *MetaHeadersFrame) *MetaHeadersFrame { mh.Truncated = true return mh }
const noFlags Flags = 0
oneKBString := strings.Repeat("a", 1<<10)
tests := [...]struct { name string w func(*Framer) want interface{} // *MetaHeaderFrame or error
wantErrReason string maxHeaderListSize uint32 }{ 0: { name: "single_headers", w: func(f *Framer) { var he hpackEncoder all := he.encodeHeaderRaw(t, ":method", "GET", ":path", "/") write(f, all) }, want: want(FlagHeadersEndHeaders, 2, ":method", "GET", ":path", "/"), }, 1: { name: "with_continuation", w: func(f *Framer) { var he hpackEncoder all := he.encodeHeaderRaw(t, ":method", "GET", ":path", "/", "foo", "bar") write(f, all[:1], all[1:]) }, want: want(noFlags, 1, ":method", "GET", ":path", "/", "foo", "bar"), }, 2: { name: "with_two_continuation", w: func(f *Framer) { var he hpackEncoder all := he.encodeHeaderRaw(t, ":method", "GET", ":path", "/", "foo", "bar") write(f, all[:2], all[2:4], all[4:]) }, want: want(noFlags, 2, ":method", "GET", ":path", "/", "foo", "bar"), }, 3: { name: "big_string_okay", w: func(f *Framer) { var he hpackEncoder all := he.encodeHeaderRaw(t, ":method", "GET", ":path", "/", "foo", oneKBString) write(f, all[:2], all[2:]) }, want: want(noFlags, 2, ":method", "GET", ":path", "/", "foo", oneKBString), }, 4: { name: "big_string_error", w: func(f *Framer) { var he hpackEncoder all := he.encodeHeaderRaw(t, ":method", "GET", ":path", "/", "foo", oneKBString) write(f, all[:2], all[2:]) }, maxHeaderListSize: (1 << 10) / 2, want: ConnectionError(ErrCodeCompression), }, 5: { name: "max_header_list_truncated", w: func(f *Framer) { var he hpackEncoder var pairs = []string{":method", "GET", ":path", "/"} for i := 0; i < 100; i++ { pairs = append(pairs, "foo", "bar") } all := he.encodeHeaderRaw(t, pairs...) write(f, all[:2], all[2:]) }, maxHeaderListSize: (1 << 10) / 2, want: truncated(want(noFlags, 2, ":method", "GET", ":path", "/", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", "foo", "bar", // 11
)), }, 6: { name: "pseudo_order", w: func(f *Framer) { write(f, encodeHeaderRaw(t, ":method", "GET", "foo", "bar", ":path", "/", // bogus
)) }, want: streamError(1, ErrCodeProtocol), wantErrReason: "pseudo header field after regular", }, 7: { name: "pseudo_unknown", w: func(f *Framer) { write(f, encodeHeaderRaw(t, ":unknown", "foo", // bogus
"foo", "bar", )) }, want: streamError(1, ErrCodeProtocol), wantErrReason: "invalid pseudo-header \":unknown\"", }, 8: { name: "pseudo_mix_request_response", w: func(f *Framer) { write(f, encodeHeaderRaw(t, ":method", "GET", ":status", "100", )) }, want: streamError(1, ErrCodeProtocol), wantErrReason: "mix of request and response pseudo headers", }, 9: { name: "pseudo_dup", w: func(f *Framer) { write(f, encodeHeaderRaw(t, ":method", "GET", ":method", "POST", )) }, want: streamError(1, ErrCodeProtocol), wantErrReason: "duplicate pseudo-header \":method\"", }, 10: { name: "trailer_okay_no_pseudo", w: func(f *Framer) { write(f, encodeHeaderRaw(t, "foo", "bar")) }, want: want(FlagHeadersEndHeaders, 8, "foo", "bar"), }, 11: { name: "invalid_field_name", w: func(f *Framer) { write(f, encodeHeaderRaw(t, "CapitalBad", "x")) }, want: streamError(1, ErrCodeProtocol), wantErrReason: "invalid header field name \"CapitalBad\"", }, 12: { name: "invalid_field_value", w: func(f *Framer) { write(f, encodeHeaderRaw(t, "key", "bad_null\x00")) }, want: streamError(1, ErrCodeProtocol), wantErrReason: "invalid header field value \"bad_null\\x00\"", }, } for i, tt := range tests { buf := new(bytes.Buffer) f := NewFramer(buf, buf) f.ReadMetaHeaders = hpack.NewDecoder(initialHeaderTableSize, nil) f.MaxHeaderListSize = tt.maxHeaderListSize tt.w(f)
name := tt.name if name == "" { name = fmt.Sprintf("test index %d", i) }
var got interface{} var err error got, err = f.ReadFrame() if err != nil { got = err
// Ignore the StreamError.Cause field, if it matches the wantErrReason.
// The test table above predates the Cause field.
if se, ok := err.(StreamError); ok && se.Cause != nil && se.Cause.Error() == tt.wantErrReason { se.Cause = nil got = se } } if !reflect.DeepEqual(got, tt.want) { if mhg, ok := got.(*MetaHeadersFrame); ok { if mhw, ok := tt.want.(*MetaHeadersFrame); ok { hg := mhg.HeadersFrame hw := mhw.HeadersFrame if hg != nil && hw != nil && !reflect.DeepEqual(*hg, *hw) { t.Errorf("%s: headers differ:\n got: %+v\nwant: %+v\n", name, *hg, *hw) } } } str := func(v interface{}) string { if _, ok := v.(error); ok { return fmt.Sprintf("error %v", v) } else { return fmt.Sprintf("value %#v", v) } } t.Errorf("%s:\n got: %v\nwant: %s", name, str(got), str(tt.want)) } if tt.wantErrReason != "" && tt.wantErrReason != fmt.Sprint(f.errDetail) { t.Errorf("%s: got error reason %q; want %q", name, f.errDetail, tt.wantErrReason) } } }
func TestSetReuseFrames(t *testing.T) { fr, buf := testFramer() fr.SetReuseFrames()
// Check that DataFrames are reused. Note that
// SetReuseFrames only currently implements reuse of DataFrames.
firstDf := readAndVerifyDataFrame("ABC", 3, fr, buf, t)
for i := 0; i < 10; i++ { df := readAndVerifyDataFrame("XYZ", 3, fr, buf, t) if df != firstDf { t.Errorf("Expected Framer to return references to the same DataFrame. Have %v and %v", &df, &firstDf) } }
for i := 0; i < 10; i++ { df := readAndVerifyDataFrame("", 0, fr, buf, t) if df != firstDf { t.Errorf("Expected Framer to return references to the same DataFrame. Have %v and %v", &df, &firstDf) } }
for i := 0; i < 10; i++ { df := readAndVerifyDataFrame("HHH", 3, fr, buf, t) if df != firstDf { t.Errorf("Expected Framer to return references to the same DataFrame. Have %v and %v", &df, &firstDf) } } }
func TestSetReuseFramesMoreThanOnce(t *testing.T) { fr, buf := testFramer() fr.SetReuseFrames()
firstDf := readAndVerifyDataFrame("ABC", 3, fr, buf, t) fr.SetReuseFrames()
for i := 0; i < 10; i++ { df := readAndVerifyDataFrame("XYZ", 3, fr, buf, t) // SetReuseFrames should be idempotent
fr.SetReuseFrames() if df != firstDf { t.Errorf("Expected Framer to return references to the same DataFrame. Have %v and %v", &df, &firstDf) } } }
func TestNoSetReuseFrames(t *testing.T) { fr, buf := testFramer() const numNewDataFrames = 10 dfSoFar := make([]interface{}, numNewDataFrames)
// Check that DataFrames are not reused if SetReuseFrames wasn't called.
// SetReuseFrames only currently implements reuse of DataFrames.
for i := 0; i < numNewDataFrames; i++ { df := readAndVerifyDataFrame("XYZ", 3, fr, buf, t) for _, item := range dfSoFar { if df == item { t.Errorf("Expected Framer to return new DataFrames since SetNoReuseFrames not set.") } } dfSoFar[i] = df } }
func readAndVerifyDataFrame(data string, length byte, fr *Framer, buf *bytes.Buffer, t *testing.T) *DataFrame { var streamID uint32 = 1<<24 + 2<<16 + 3<<8 + 4 fr.WriteData(streamID, true, []byte(data)) wantEnc := "\x00\x00" + string(length) + "\x00\x01\x01\x02\x03\x04" + data if buf.String() != wantEnc { t.Errorf("encoded as %q; want %q", buf.Bytes(), wantEnc) } f, err := fr.ReadFrame() if err != nil { t.Fatal(err) } df, ok := f.(*DataFrame) if !ok { t.Fatalf("got %T; want *DataFrame", f) } if !bytes.Equal(df.Data(), []byte(data)) { t.Errorf("got %q; want %q", df.Data(), []byte(data)) } if f.Header().Flags&1 == 0 { t.Errorf("didn't see END_STREAM flag") } return df }
func encodeHeaderRaw(t *testing.T, pairs ...string) []byte { var he hpackEncoder return he.encodeHeaderRaw(t, pairs...) }
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