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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"
- "encoding/binary"
- "errors"
- "fmt"
- "io"
- "log"
- "strings"
- "sync"
- "golang.org/x/net/http2/hpack"
- )
- const frameHeaderLen = 9
- var padZeros = make([]byte, 255) // zeros for padding
- // A FrameType is a registered frame type as defined in
- // http://http2.github.io/http2-spec/#rfc.section.11.2
- type FrameType uint8
- const (
- FrameData FrameType = 0x0
- FrameHeaders FrameType = 0x1
- FramePriority FrameType = 0x2
- FrameRSTStream FrameType = 0x3
- FrameSettings FrameType = 0x4
- FramePushPromise FrameType = 0x5
- FramePing FrameType = 0x6
- FrameGoAway FrameType = 0x7
- FrameWindowUpdate FrameType = 0x8
- FrameContinuation FrameType = 0x9
- )
- var frameName = map[FrameType]string{
- FrameData: "DATA",
- FrameHeaders: "HEADERS",
- FramePriority: "PRIORITY",
- FrameRSTStream: "RST_STREAM",
- FrameSettings: "SETTINGS",
- FramePushPromise: "PUSH_PROMISE",
- FramePing: "PING",
- FrameGoAway: "GOAWAY",
- FrameWindowUpdate: "WINDOW_UPDATE",
- FrameContinuation: "CONTINUATION",
- }
- func (t FrameType) String() string {
- if s, ok := frameName[t]; ok {
- return s
- }
- return fmt.Sprintf("UNKNOWN_FRAME_TYPE_%d", uint8(t))
- }
- // Flags is a bitmask of HTTP/2 flags.
- // The meaning of flags varies depending on the frame type.
- type Flags uint8
- // Has reports whether f contains all (0 or more) flags in v.
- func (f Flags) Has(v Flags) bool {
- return (f & v) == v
- }
- // Frame-specific FrameHeader flag bits.
- const (
- // Data Frame
- FlagDataEndStream Flags = 0x1
- FlagDataPadded Flags = 0x8
- // Headers Frame
- FlagHeadersEndStream Flags = 0x1
- FlagHeadersEndHeaders Flags = 0x4
- FlagHeadersPadded Flags = 0x8
- FlagHeadersPriority Flags = 0x20
- // Settings Frame
- FlagSettingsAck Flags = 0x1
- // Ping Frame
- FlagPingAck Flags = 0x1
- // Continuation Frame
- FlagContinuationEndHeaders Flags = 0x4
- FlagPushPromiseEndHeaders Flags = 0x4
- FlagPushPromisePadded Flags = 0x8
- )
- var flagName = map[FrameType]map[Flags]string{
- FrameData: {
- FlagDataEndStream: "END_STREAM",
- FlagDataPadded: "PADDED",
- },
- FrameHeaders: {
- FlagHeadersEndStream: "END_STREAM",
- FlagHeadersEndHeaders: "END_HEADERS",
- FlagHeadersPadded: "PADDED",
- FlagHeadersPriority: "PRIORITY",
- },
- FrameSettings: {
- FlagSettingsAck: "ACK",
- },
- FramePing: {
- FlagPingAck: "ACK",
- },
- FrameContinuation: {
- FlagContinuationEndHeaders: "END_HEADERS",
- },
- FramePushPromise: {
- FlagPushPromiseEndHeaders: "END_HEADERS",
- FlagPushPromisePadded: "PADDED",
- },
- }
- // a frameParser parses a frame given its FrameHeader and payload
- // bytes. The length of payload will always equal fh.Length (which
- // might be 0).
- type frameParser func(fh FrameHeader, payload []byte) (Frame, error)
- var frameParsers = map[FrameType]frameParser{
- FrameData: parseDataFrame,
- FrameHeaders: parseHeadersFrame,
- FramePriority: parsePriorityFrame,
- FrameRSTStream: parseRSTStreamFrame,
- FrameSettings: parseSettingsFrame,
- FramePushPromise: parsePushPromise,
- FramePing: parsePingFrame,
- FrameGoAway: parseGoAwayFrame,
- FrameWindowUpdate: parseWindowUpdateFrame,
- FrameContinuation: parseContinuationFrame,
- }
- func typeFrameParser(t FrameType) frameParser {
- if f := frameParsers[t]; f != nil {
- return f
- }
- return parseUnknownFrame
- }
- // A FrameHeader is the 9 byte header of all HTTP/2 frames.
- //
- // See http://http2.github.io/http2-spec/#FrameHeader
- type FrameHeader struct {
- valid bool // caller can access []byte fields in the Frame
- // Type is the 1 byte frame type. There are ten standard frame
- // types, but extension frame types may be written by WriteRawFrame
- // and will be returned by ReadFrame (as UnknownFrame).
- Type FrameType
- // Flags are the 1 byte of 8 potential bit flags per frame.
- // They are specific to the frame type.
- Flags Flags
- // Length is the length of the frame, not including the 9 byte header.
- // The maximum size is one byte less than 16MB (uint24), but only
- // frames up to 16KB are allowed without peer agreement.
- Length uint32
- // StreamID is which stream this frame is for. Certain frames
- // are not stream-specific, in which case this field is 0.
- StreamID uint32
- }
- // Header returns h. It exists so FrameHeaders can be embedded in other
- // specific frame types and implement the Frame interface.
- func (h FrameHeader) Header() FrameHeader { return h }
- func (h FrameHeader) String() string {
- var buf bytes.Buffer
- buf.WriteString("[FrameHeader ")
- h.writeDebug(&buf)
- buf.WriteByte(']')
- return buf.String()
- }
- func (h FrameHeader) writeDebug(buf *bytes.Buffer) {
- buf.WriteString(h.Type.String())
- if h.Flags != 0 {
- buf.WriteString(" flags=")
- set := 0
- for i := uint8(0); i < 8; i++ {
- if h.Flags&(1<<i) == 0 {
- continue
- }
- set++
- if set > 1 {
- buf.WriteByte('|')
- }
- name := flagName[h.Type][Flags(1<<i)]
- if name != "" {
- buf.WriteString(name)
- } else {
- fmt.Fprintf(buf, "0x%x", 1<<i)
- }
- }
- }
- if h.StreamID != 0 {
- fmt.Fprintf(buf, " stream=%d", h.StreamID)
- }
- fmt.Fprintf(buf, " len=%d", h.Length)
- }
- func (h *FrameHeader) checkValid() {
- if !h.valid {
- panic("Frame accessor called on non-owned Frame")
- }
- }
- func (h *FrameHeader) invalidate() { h.valid = false }
- // frame header bytes.
- // Used only by ReadFrameHeader.
- var fhBytes = sync.Pool{
- New: func() interface{} {
- buf := make([]byte, frameHeaderLen)
- return &buf
- },
- }
- // ReadFrameHeader reads 9 bytes from r and returns a FrameHeader.
- // Most users should use Framer.ReadFrame instead.
- func ReadFrameHeader(r io.Reader) (FrameHeader, error) {
- bufp := fhBytes.Get().(*[]byte)
- defer fhBytes.Put(bufp)
- return readFrameHeader(*bufp, r)
- }
- func readFrameHeader(buf []byte, r io.Reader) (FrameHeader, error) {
- _, err := io.ReadFull(r, buf[:frameHeaderLen])
- if err != nil {
- return FrameHeader{}, err
- }
- return FrameHeader{
- Length: (uint32(buf[0])<<16 | uint32(buf[1])<<8 | uint32(buf[2])),
- Type: FrameType(buf[3]),
- Flags: Flags(buf[4]),
- StreamID: binary.BigEndian.Uint32(buf[5:]) & (1<<31 - 1),
- valid: true,
- }, nil
- }
- // A Frame is the base interface implemented by all frame types.
- // Callers will generally type-assert the specific frame type:
- // *HeadersFrame, *SettingsFrame, *WindowUpdateFrame, etc.
- //
- // Frames are only valid until the next call to Framer.ReadFrame.
- type Frame interface {
- Header() FrameHeader
- // invalidate is called by Framer.ReadFrame to make this
- // frame's buffers as being invalid, since the subsequent
- // frame will reuse them.
- invalidate()
- }
- // A Framer reads and writes Frames.
- type Framer struct {
- r io.Reader
- lastFrame Frame
- errDetail error
- // lastHeaderStream is non-zero if the last frame was an
- // unfinished HEADERS/CONTINUATION.
- lastHeaderStream uint32
- maxReadSize uint32
- headerBuf [frameHeaderLen]byte
- // TODO: let getReadBuf be configurable, and use a less memory-pinning
- // allocator in server.go to minimize memory pinned for many idle conns.
- // Will probably also need to make frame invalidation have a hook too.
- getReadBuf func(size uint32) []byte
- readBuf []byte // cache for default getReadBuf
- maxWriteSize uint32 // zero means unlimited; TODO: implement
- w io.Writer
- wbuf []byte
- // AllowIllegalWrites permits the Framer's Write methods to
- // write frames that do not conform to the HTTP/2 spec. This
- // permits using the Framer to test other HTTP/2
- // implementations' conformance to the spec.
- // If false, the Write methods will prefer to return an error
- // rather than comply.
- AllowIllegalWrites bool
- // AllowIllegalReads permits the Framer's ReadFrame method
- // to return non-compliant frames or frame orders.
- // This is for testing and permits using the Framer to test
- // other HTTP/2 implementations' conformance to the spec.
- // It is not compatible with ReadMetaHeaders.
- AllowIllegalReads bool
- // ReadMetaHeaders if non-nil causes ReadFrame to merge
- // HEADERS and CONTINUATION frames together and return
- // MetaHeadersFrame instead.
- ReadMetaHeaders *hpack.Decoder
- // MaxHeaderListSize is the http2 MAX_HEADER_LIST_SIZE.
- // It's used only if ReadMetaHeaders is set; 0 means a sane default
- // (currently 16MB)
- // If the limit is hit, MetaHeadersFrame.Truncated is set true.
- MaxHeaderListSize uint32
- // TODO: track which type of frame & with which flags was sent
- // last. Then return an error (unless AllowIllegalWrites) if
- // we're in the middle of a header block and a
- // non-Continuation or Continuation on a different stream is
- // attempted to be written.
- logReads bool
- debugFramer *Framer // only use for logging written writes
- debugFramerBuf *bytes.Buffer
- }
- func (fr *Framer) maxHeaderListSize() uint32 {
- if fr.MaxHeaderListSize == 0 {
- return 16 << 20 // sane default, per docs
- }
- return fr.MaxHeaderListSize
- }
- func (f *Framer) startWrite(ftype FrameType, flags Flags, streamID uint32) {
- // Write the FrameHeader.
- f.wbuf = append(f.wbuf[:0],
- 0, // 3 bytes of length, filled in in endWrite
- 0,
- 0,
- byte(ftype),
- byte(flags),
- byte(streamID>>24),
- byte(streamID>>16),
- byte(streamID>>8),
- byte(streamID))
- }
- func (f *Framer) endWrite() error {
- // Now that we know the final size, fill in the FrameHeader in
- // the space previously reserved for it. Abuse append.
- length := len(f.wbuf) - frameHeaderLen
- if length >= (1 << 24) {
- return ErrFrameTooLarge
- }
- _ = append(f.wbuf[:0],
- byte(length>>16),
- byte(length>>8),
- byte(length))
- if logFrameWrites {
- f.logWrite()
- }
- n, err := f.w.Write(f.wbuf)
- if err == nil && n != len(f.wbuf) {
- err = io.ErrShortWrite
- }
- return err
- }
- func (f *Framer) logWrite() {
- if f.debugFramer == nil {
- f.debugFramerBuf = new(bytes.Buffer)
- f.debugFramer = NewFramer(nil, f.debugFramerBuf)
- f.debugFramer.logReads = false // we log it ourselves, saying "wrote" below
- // Let us read anything, even if we accidentally wrote it
- // in the wrong order:
- f.debugFramer.AllowIllegalReads = true
- }
- f.debugFramerBuf.Write(f.wbuf)
- fr, err := f.debugFramer.ReadFrame()
- if err != nil {
- log.Printf("http2: Framer %p: failed to decode just-written frame", f)
- return
- }
- log.Printf("http2: Framer %p: wrote %v", f, summarizeFrame(fr))
- }
- func (f *Framer) writeByte(v byte) { f.wbuf = append(f.wbuf, v) }
- func (f *Framer) writeBytes(v []byte) { f.wbuf = append(f.wbuf, v...) }
- func (f *Framer) writeUint16(v uint16) { f.wbuf = append(f.wbuf, byte(v>>8), byte(v)) }
- func (f *Framer) writeUint32(v uint32) {
- f.wbuf = append(f.wbuf, byte(v>>24), byte(v>>16), byte(v>>8), byte(v))
- }
- const (
- minMaxFrameSize = 1 << 14
- maxFrameSize = 1<<24 - 1
- )
- // NewFramer returns a Framer that writes frames to w and reads them from r.
- func NewFramer(w io.Writer, r io.Reader) *Framer {
- fr := &Framer{
- w: w,
- r: r,
- logReads: logFrameReads,
- }
- fr.getReadBuf = func(size uint32) []byte {
- if cap(fr.readBuf) >= int(size) {
- return fr.readBuf[:size]
- }
- fr.readBuf = make([]byte, size)
- return fr.readBuf
- }
- fr.SetMaxReadFrameSize(maxFrameSize)
- return fr
- }
- // SetMaxReadFrameSize sets the maximum size of a frame
- // that will be read by a subsequent call to ReadFrame.
- // It is the caller's responsibility to advertise this
- // limit with a SETTINGS frame.
- func (fr *Framer) SetMaxReadFrameSize(v uint32) {
- if v > maxFrameSize {
- v = maxFrameSize
- }
- fr.maxReadSize = v
- }
- // ErrorDetail returns a more detailed error of the last error
- // returned by Framer.ReadFrame. For instance, if ReadFrame
- // returns a StreamError with code PROTOCOL_ERROR, ErrorDetail
- // will say exactly what was invalid. ErrorDetail is not guaranteed
- // to return a non-nil value and like the rest of the http2 package,
- // its return value is not protected by an API compatibility promise.
- // ErrorDetail is reset after the next call to ReadFrame.
- func (fr *Framer) ErrorDetail() error {
- return fr.errDetail
- }
- // ErrFrameTooLarge is returned from Framer.ReadFrame when the peer
- // sends a frame that is larger than declared with SetMaxReadFrameSize.
- var ErrFrameTooLarge = errors.New("http2: frame too large")
- // terminalReadFrameError reports whether err is an unrecoverable
- // error from ReadFrame and no other frames should be read.
- func terminalReadFrameError(err error) bool {
- if _, ok := err.(StreamError); ok {
- return false
- }
- return err != nil
- }
- // ReadFrame reads a single frame. The returned Frame is only valid
- // until the next call to ReadFrame.
- //
- // If the frame is larger than previously set with SetMaxReadFrameSize, the
- // returned error is ErrFrameTooLarge. Other errors may be of type
- // ConnectionError, StreamError, or anything else from from the underlying
- // reader.
- func (fr *Framer) ReadFrame() (Frame, error) {
- fr.errDetail = nil
- if fr.lastFrame != nil {
- fr.lastFrame.invalidate()
- }
- fh, err := readFrameHeader(fr.headerBuf[:], fr.r)
- if err != nil {
- return nil, err
- }
- if fh.Length > fr.maxReadSize {
- return nil, ErrFrameTooLarge
- }
- payload := fr.getReadBuf(fh.Length)
- if _, err := io.ReadFull(fr.r, payload); err != nil {
- return nil, err
- }
- f, err := typeFrameParser(fh.Type)(fh, payload)
- if err != nil {
- if ce, ok := err.(connError); ok {
- return nil, fr.connError(ce.Code, ce.Reason)
- }
- return nil, err
- }
- if err := fr.checkFrameOrder(f); err != nil {
- return nil, err
- }
- if fr.logReads {
- log.Printf("http2: Framer %p: read %v", fr, summarizeFrame(f))
- }
- if fh.Type == FrameHeaders && fr.ReadMetaHeaders != nil {
- return fr.readMetaFrame(f.(*HeadersFrame))
- }
- return f, nil
- }
- // connError returns ConnectionError(code) but first
- // stashes away a public reason to the caller can optionally relay it
- // to the peer before hanging up on them. This might help others debug
- // their implementations.
- func (fr *Framer) connError(code ErrCode, reason string) error {
- fr.errDetail = errors.New(reason)
- return ConnectionError(code)
- }
- // checkFrameOrder reports an error if f is an invalid frame to return
- // next from ReadFrame. Mostly it checks whether HEADERS and
- // CONTINUATION frames are contiguous.
- func (fr *Framer) checkFrameOrder(f Frame) error {
- last := fr.lastFrame
- fr.lastFrame = f
- if fr.AllowIllegalReads {
- return nil
- }
- fh := f.Header()
- if fr.lastHeaderStream != 0 {
- if fh.Type != FrameContinuation {
- return fr.connError(ErrCodeProtocol,
- fmt.Sprintf("got %s for stream %d; expected CONTINUATION following %s for stream %d",
- fh.Type, fh.StreamID,
- last.Header().Type, fr.lastHeaderStream))
- }
- if fh.StreamID != fr.lastHeaderStream {
- return fr.connError(ErrCodeProtocol,
- fmt.Sprintf("got CONTINUATION for stream %d; expected stream %d",
- fh.StreamID, fr.lastHeaderStream))
- }
- } else if fh.Type == FrameContinuation {
- return fr.connError(ErrCodeProtocol, fmt.Sprintf("unexpected CONTINUATION for stream %d", fh.StreamID))
- }
- switch fh.Type {
- case FrameHeaders, FrameContinuation:
- if fh.Flags.Has(FlagHeadersEndHeaders) {
- fr.lastHeaderStream = 0
- } else {
- fr.lastHeaderStream = fh.StreamID
- }
- }
- return nil
- }
- // A DataFrame conveys arbitrary, variable-length sequences of octets
- // associated with a stream.
- // See http://http2.github.io/http2-spec/#rfc.section.6.1
- type DataFrame struct {
- FrameHeader
- data []byte
- }
- func (f *DataFrame) StreamEnded() bool {
- return f.FrameHeader.Flags.Has(FlagDataEndStream)
- }
- // Data returns the frame's data octets, not including any padding
- // size byte or padding suffix bytes.
- // The caller must not retain the returned memory past the next
- // call to ReadFrame.
- func (f *DataFrame) Data() []byte {
- f.checkValid()
- return f.data
- }
- func parseDataFrame(fh FrameHeader, payload []byte) (Frame, error) {
- if fh.StreamID == 0 {
- // DATA frames MUST be associated with a stream. If a
- // DATA frame is received whose stream identifier
- // field is 0x0, the recipient MUST respond with a
- // connection error (Section 5.4.1) of type
- // PROTOCOL_ERROR.
- return nil, connError{ErrCodeProtocol, "DATA frame with stream ID 0"}
- }
- f := &DataFrame{
- FrameHeader: fh,
- }
- var padSize byte
- if fh.Flags.Has(FlagDataPadded) {
- var err error
- payload, padSize, err = readByte(payload)
- if err != nil {
- return nil, err
- }
- }
- if int(padSize) > len(payload) {
- // If the length of the padding is greater than the
- // length of the frame payload, the recipient MUST
- // treat this as a connection error.
- // Filed: https://github.com/http2/http2-spec/issues/610
- return nil, connError{ErrCodeProtocol, "pad size larger than data payload"}
- }
- f.data = payload[:len(payload)-int(padSize)]
- return f, nil
- }
- var errStreamID = errors.New("invalid streamid")
- func validStreamID(streamID uint32) bool {
- return streamID != 0 && streamID&(1<<31) == 0
- }
- // WriteData writes a DATA frame.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WriteData(streamID uint32, endStream bool, data []byte) error {
- // TODO: ignoring padding for now. will add when somebody cares.
- if !validStreamID(streamID) && !f.AllowIllegalWrites {
- return errStreamID
- }
- var flags Flags
- if endStream {
- flags |= FlagDataEndStream
- }
- f.startWrite(FrameData, flags, streamID)
- f.wbuf = append(f.wbuf, data...)
- return f.endWrite()
- }
- // A SettingsFrame conveys configuration parameters that affect how
- // endpoints communicate, such as preferences and constraints on peer
- // behavior.
- //
- // See http://http2.github.io/http2-spec/#SETTINGS
- type SettingsFrame struct {
- FrameHeader
- p []byte
- }
- func parseSettingsFrame(fh FrameHeader, p []byte) (Frame, error) {
- if fh.Flags.Has(FlagSettingsAck) && fh.Length > 0 {
- // When this (ACK 0x1) bit is set, the payload of the
- // SETTINGS frame MUST be empty. Receipt of a
- // SETTINGS frame with the ACK flag set and a length
- // field value other than 0 MUST be treated as a
- // connection error (Section 5.4.1) of type
- // FRAME_SIZE_ERROR.
- return nil, ConnectionError(ErrCodeFrameSize)
- }
- if fh.StreamID != 0 {
- // SETTINGS frames always apply to a connection,
- // never a single stream. The stream identifier for a
- // SETTINGS frame MUST be zero (0x0). If an endpoint
- // receives a SETTINGS frame whose stream identifier
- // field is anything other than 0x0, the endpoint MUST
- // respond with a connection error (Section 5.4.1) of
- // type PROTOCOL_ERROR.
- return nil, ConnectionError(ErrCodeProtocol)
- }
- if len(p)%6 != 0 {
- // Expecting even number of 6 byte settings.
- return nil, ConnectionError(ErrCodeFrameSize)
- }
- f := &SettingsFrame{FrameHeader: fh, p: p}
- if v, ok := f.Value(SettingInitialWindowSize); ok && v > (1<<31)-1 {
- // Values above the maximum flow control window size of 2^31 - 1 MUST
- // be treated as a connection error (Section 5.4.1) of type
- // FLOW_CONTROL_ERROR.
- return nil, ConnectionError(ErrCodeFlowControl)
- }
- return f, nil
- }
- func (f *SettingsFrame) IsAck() bool {
- return f.FrameHeader.Flags.Has(FlagSettingsAck)
- }
- func (f *SettingsFrame) Value(s SettingID) (v uint32, ok bool) {
- f.checkValid()
- buf := f.p
- for len(buf) > 0 {
- settingID := SettingID(binary.BigEndian.Uint16(buf[:2]))
- if settingID == s {
- return binary.BigEndian.Uint32(buf[2:6]), true
- }
- buf = buf[6:]
- }
- return 0, false
- }
- // ForeachSetting runs fn for each setting.
- // It stops and returns the first error.
- func (f *SettingsFrame) ForeachSetting(fn func(Setting) error) error {
- f.checkValid()
- buf := f.p
- for len(buf) > 0 {
- if err := fn(Setting{
- SettingID(binary.BigEndian.Uint16(buf[:2])),
- binary.BigEndian.Uint32(buf[2:6]),
- }); err != nil {
- return err
- }
- buf = buf[6:]
- }
- return nil
- }
- // WriteSettings writes a SETTINGS frame with zero or more settings
- // specified and the ACK bit not set.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WriteSettings(settings ...Setting) error {
- f.startWrite(FrameSettings, 0, 0)
- for _, s := range settings {
- f.writeUint16(uint16(s.ID))
- f.writeUint32(s.Val)
- }
- return f.endWrite()
- }
- // WriteSettings writes an empty SETTINGS frame with the ACK bit set.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WriteSettingsAck() error {
- f.startWrite(FrameSettings, FlagSettingsAck, 0)
- return f.endWrite()
- }
- // A PingFrame is a mechanism for measuring a minimal round trip time
- // from the sender, as well as determining whether an idle connection
- // is still functional.
- // See http://http2.github.io/http2-spec/#rfc.section.6.7
- type PingFrame struct {
- FrameHeader
- Data [8]byte
- }
- func (f *PingFrame) IsAck() bool { return f.Flags.Has(FlagPingAck) }
- func parsePingFrame(fh FrameHeader, payload []byte) (Frame, error) {
- if len(payload) != 8 {
- return nil, ConnectionError(ErrCodeFrameSize)
- }
- if fh.StreamID != 0 {
- return nil, ConnectionError(ErrCodeProtocol)
- }
- f := &PingFrame{FrameHeader: fh}
- copy(f.Data[:], payload)
- return f, nil
- }
- func (f *Framer) WritePing(ack bool, data [8]byte) error {
- var flags Flags
- if ack {
- flags = FlagPingAck
- }
- f.startWrite(FramePing, flags, 0)
- f.writeBytes(data[:])
- return f.endWrite()
- }
- // A GoAwayFrame informs the remote peer to stop creating streams on this connection.
- // See http://http2.github.io/http2-spec/#rfc.section.6.8
- type GoAwayFrame struct {
- FrameHeader
- LastStreamID uint32
- ErrCode ErrCode
- debugData []byte
- }
- // DebugData returns any debug data in the GOAWAY frame. Its contents
- // are not defined.
- // The caller must not retain the returned memory past the next
- // call to ReadFrame.
- func (f *GoAwayFrame) DebugData() []byte {
- f.checkValid()
- return f.debugData
- }
- func parseGoAwayFrame(fh FrameHeader, p []byte) (Frame, error) {
- if fh.StreamID != 0 {
- return nil, ConnectionError(ErrCodeProtocol)
- }
- if len(p) < 8 {
- return nil, ConnectionError(ErrCodeFrameSize)
- }
- return &GoAwayFrame{
- FrameHeader: fh,
- LastStreamID: binary.BigEndian.Uint32(p[:4]) & (1<<31 - 1),
- ErrCode: ErrCode(binary.BigEndian.Uint32(p[4:8])),
- debugData: p[8:],
- }, nil
- }
- func (f *Framer) WriteGoAway(maxStreamID uint32, code ErrCode, debugData []byte) error {
- f.startWrite(FrameGoAway, 0, 0)
- f.writeUint32(maxStreamID & (1<<31 - 1))
- f.writeUint32(uint32(code))
- f.writeBytes(debugData)
- return f.endWrite()
- }
- // An UnknownFrame is the frame type returned when the frame type is unknown
- // or no specific frame type parser exists.
- type UnknownFrame struct {
- FrameHeader
- p []byte
- }
- // Payload returns the frame's payload (after the header). It is not
- // valid to call this method after a subsequent call to
- // Framer.ReadFrame, nor is it valid to retain the returned slice.
- // The memory is owned by the Framer and is invalidated when the next
- // frame is read.
- func (f *UnknownFrame) Payload() []byte {
- f.checkValid()
- return f.p
- }
- func parseUnknownFrame(fh FrameHeader, p []byte) (Frame, error) {
- return &UnknownFrame{fh, p}, nil
- }
- // A WindowUpdateFrame is used to implement flow control.
- // See http://http2.github.io/http2-spec/#rfc.section.6.9
- type WindowUpdateFrame struct {
- FrameHeader
- Increment uint32 // never read with high bit set
- }
- func parseWindowUpdateFrame(fh FrameHeader, p []byte) (Frame, error) {
- if len(p) != 4 {
- return nil, ConnectionError(ErrCodeFrameSize)
- }
- inc := binary.BigEndian.Uint32(p[:4]) & 0x7fffffff // mask off high reserved bit
- if inc == 0 {
- // A receiver MUST treat the receipt of a
- // WINDOW_UPDATE frame with an flow control window
- // increment of 0 as a stream error (Section 5.4.2) of
- // type PROTOCOL_ERROR; errors on the connection flow
- // control window MUST be treated as a connection
- // error (Section 5.4.1).
- if fh.StreamID == 0 {
- return nil, ConnectionError(ErrCodeProtocol)
- }
- return nil, StreamError{fh.StreamID, ErrCodeProtocol}
- }
- return &WindowUpdateFrame{
- FrameHeader: fh,
- Increment: inc,
- }, nil
- }
- // WriteWindowUpdate writes a WINDOW_UPDATE frame.
- // The increment value must be between 1 and 2,147,483,647, inclusive.
- // If the Stream ID is zero, the window update applies to the
- // connection as a whole.
- func (f *Framer) WriteWindowUpdate(streamID, incr uint32) error {
- // "The legal range for the increment to the flow control window is 1 to 2^31-1 (2,147,483,647) octets."
- if (incr < 1 || incr > 2147483647) && !f.AllowIllegalWrites {
- return errors.New("illegal window increment value")
- }
- f.startWrite(FrameWindowUpdate, 0, streamID)
- f.writeUint32(incr)
- return f.endWrite()
- }
- // A HeadersFrame is used to open a stream and additionally carries a
- // header block fragment.
- type HeadersFrame struct {
- FrameHeader
- // Priority is set if FlagHeadersPriority is set in the FrameHeader.
- Priority PriorityParam
- headerFragBuf []byte // not owned
- }
- func (f *HeadersFrame) HeaderBlockFragment() []byte {
- f.checkValid()
- return f.headerFragBuf
- }
- func (f *HeadersFrame) HeadersEnded() bool {
- return f.FrameHeader.Flags.Has(FlagHeadersEndHeaders)
- }
- func (f *HeadersFrame) StreamEnded() bool {
- return f.FrameHeader.Flags.Has(FlagHeadersEndStream)
- }
- func (f *HeadersFrame) HasPriority() bool {
- return f.FrameHeader.Flags.Has(FlagHeadersPriority)
- }
- func parseHeadersFrame(fh FrameHeader, p []byte) (_ Frame, err error) {
- hf := &HeadersFrame{
- FrameHeader: fh,
- }
- if fh.StreamID == 0 {
- // HEADERS frames MUST be associated with a stream. If a HEADERS frame
- // is received whose stream identifier field is 0x0, the recipient MUST
- // respond with a connection error (Section 5.4.1) of type
- // PROTOCOL_ERROR.
- return nil, connError{ErrCodeProtocol, "HEADERS frame with stream ID 0"}
- }
- var padLength uint8
- if fh.Flags.Has(FlagHeadersPadded) {
- if p, padLength, err = readByte(p); err != nil {
- return
- }
- }
- if fh.Flags.Has(FlagHeadersPriority) {
- var v uint32
- p, v, err = readUint32(p)
- if err != nil {
- return nil, err
- }
- hf.Priority.StreamDep = v & 0x7fffffff
- hf.Priority.Exclusive = (v != hf.Priority.StreamDep) // high bit was set
- p, hf.Priority.Weight, err = readByte(p)
- if err != nil {
- return nil, err
- }
- }
- if len(p)-int(padLength) <= 0 {
- return nil, StreamError{fh.StreamID, ErrCodeProtocol}
- }
- hf.headerFragBuf = p[:len(p)-int(padLength)]
- return hf, nil
- }
- // HeadersFrameParam are the parameters for writing a HEADERS frame.
- type HeadersFrameParam struct {
- // StreamID is the required Stream ID to initiate.
- StreamID uint32
- // BlockFragment is part (or all) of a Header Block.
- BlockFragment []byte
- // EndStream indicates that the header block is the last that
- // the endpoint will send for the identified stream. Setting
- // this flag causes the stream to enter one of "half closed"
- // states.
- EndStream bool
- // EndHeaders indicates that this frame contains an entire
- // header block and is not followed by any
- // CONTINUATION frames.
- EndHeaders bool
- // PadLength is the optional number of bytes of zeros to add
- // to this frame.
- PadLength uint8
- // Priority, if non-zero, includes stream priority information
- // in the HEADER frame.
- Priority PriorityParam
- }
- // WriteHeaders writes a single HEADERS frame.
- //
- // This is a low-level header writing method. Encoding headers and
- // splitting them into any necessary CONTINUATION frames is handled
- // elsewhere.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WriteHeaders(p HeadersFrameParam) error {
- if !validStreamID(p.StreamID) && !f.AllowIllegalWrites {
- return errStreamID
- }
- var flags Flags
- if p.PadLength != 0 {
- flags |= FlagHeadersPadded
- }
- if p.EndStream {
- flags |= FlagHeadersEndStream
- }
- if p.EndHeaders {
- flags |= FlagHeadersEndHeaders
- }
- if !p.Priority.IsZero() {
- flags |= FlagHeadersPriority
- }
- f.startWrite(FrameHeaders, flags, p.StreamID)
- if p.PadLength != 0 {
- f.writeByte(p.PadLength)
- }
- if !p.Priority.IsZero() {
- v := p.Priority.StreamDep
- if !validStreamID(v) && !f.AllowIllegalWrites {
- return errors.New("invalid dependent stream id")
- }
- if p.Priority.Exclusive {
- v |= 1 << 31
- }
- f.writeUint32(v)
- f.writeByte(p.Priority.Weight)
- }
- f.wbuf = append(f.wbuf, p.BlockFragment...)
- f.wbuf = append(f.wbuf, padZeros[:p.PadLength]...)
- return f.endWrite()
- }
- // A PriorityFrame specifies the sender-advised priority of a stream.
- // See http://http2.github.io/http2-spec/#rfc.section.6.3
- type PriorityFrame struct {
- FrameHeader
- PriorityParam
- }
- // PriorityParam are the stream prioritzation parameters.
- type PriorityParam struct {
- // StreamDep is a 31-bit stream identifier for the
- // stream that this stream depends on. Zero means no
- // dependency.
- StreamDep uint32
- // Exclusive is whether the dependency is exclusive.
- Exclusive bool
- // Weight is the stream's zero-indexed weight. It should be
- // set together with StreamDep, or neither should be set. Per
- // the spec, "Add one to the value to obtain a weight between
- // 1 and 256."
- Weight uint8
- }
- func (p PriorityParam) IsZero() bool {
- return p == PriorityParam{}
- }
- func parsePriorityFrame(fh FrameHeader, payload []byte) (Frame, error) {
- if fh.StreamID == 0 {
- return nil, connError{ErrCodeProtocol, "PRIORITY frame with stream ID 0"}
- }
- if len(payload) != 5 {
- return nil, connError{ErrCodeFrameSize, fmt.Sprintf("PRIORITY frame payload size was %d; want 5", len(payload))}
- }
- v := binary.BigEndian.Uint32(payload[:4])
- streamID := v & 0x7fffffff // mask off high bit
- return &PriorityFrame{
- FrameHeader: fh,
- PriorityParam: PriorityParam{
- Weight: payload[4],
- StreamDep: streamID,
- Exclusive: streamID != v, // was high bit set?
- },
- }, nil
- }
- // WritePriority writes a PRIORITY frame.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WritePriority(streamID uint32, p PriorityParam) error {
- if !validStreamID(streamID) && !f.AllowIllegalWrites {
- return errStreamID
- }
- f.startWrite(FramePriority, 0, streamID)
- v := p.StreamDep
- if p.Exclusive {
- v |= 1 << 31
- }
- f.writeUint32(v)
- f.writeByte(p.Weight)
- return f.endWrite()
- }
- // A RSTStreamFrame allows for abnormal termination of a stream.
- // See http://http2.github.io/http2-spec/#rfc.section.6.4
- type RSTStreamFrame struct {
- FrameHeader
- ErrCode ErrCode
- }
- func parseRSTStreamFrame(fh FrameHeader, p []byte) (Frame, error) {
- if len(p) != 4 {
- return nil, ConnectionError(ErrCodeFrameSize)
- }
- if fh.StreamID == 0 {
- return nil, ConnectionError(ErrCodeProtocol)
- }
- return &RSTStreamFrame{fh, ErrCode(binary.BigEndian.Uint32(p[:4]))}, nil
- }
- // WriteRSTStream writes a RST_STREAM frame.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WriteRSTStream(streamID uint32, code ErrCode) error {
- if !validStreamID(streamID) && !f.AllowIllegalWrites {
- return errStreamID
- }
- f.startWrite(FrameRSTStream, 0, streamID)
- f.writeUint32(uint32(code))
- return f.endWrite()
- }
- // A ContinuationFrame is used to continue a sequence of header block fragments.
- // See http://http2.github.io/http2-spec/#rfc.section.6.10
- type ContinuationFrame struct {
- FrameHeader
- headerFragBuf []byte
- }
- func parseContinuationFrame(fh FrameHeader, p []byte) (Frame, error) {
- if fh.StreamID == 0 {
- return nil, connError{ErrCodeProtocol, "CONTINUATION frame with stream ID 0"}
- }
- return &ContinuationFrame{fh, p}, nil
- }
- func (f *ContinuationFrame) HeaderBlockFragment() []byte {
- f.checkValid()
- return f.headerFragBuf
- }
- func (f *ContinuationFrame) HeadersEnded() bool {
- return f.FrameHeader.Flags.Has(FlagContinuationEndHeaders)
- }
- // WriteContinuation writes a CONTINUATION frame.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WriteContinuation(streamID uint32, endHeaders bool, headerBlockFragment []byte) error {
- if !validStreamID(streamID) && !f.AllowIllegalWrites {
- return errStreamID
- }
- var flags Flags
- if endHeaders {
- flags |= FlagContinuationEndHeaders
- }
- f.startWrite(FrameContinuation, flags, streamID)
- f.wbuf = append(f.wbuf, headerBlockFragment...)
- return f.endWrite()
- }
- // A PushPromiseFrame is used to initiate a server stream.
- // See http://http2.github.io/http2-spec/#rfc.section.6.6
- type PushPromiseFrame struct {
- FrameHeader
- PromiseID uint32
- headerFragBuf []byte // not owned
- }
- func (f *PushPromiseFrame) HeaderBlockFragment() []byte {
- f.checkValid()
- return f.headerFragBuf
- }
- func (f *PushPromiseFrame) HeadersEnded() bool {
- return f.FrameHeader.Flags.Has(FlagPushPromiseEndHeaders)
- }
- func parsePushPromise(fh FrameHeader, p []byte) (_ Frame, err error) {
- pp := &PushPromiseFrame{
- FrameHeader: fh,
- }
- if pp.StreamID == 0 {
- // PUSH_PROMISE frames MUST be associated with an existing,
- // peer-initiated stream. The stream identifier of a
- // PUSH_PROMISE frame indicates the stream it is associated
- // with. If the stream identifier field specifies the value
- // 0x0, a recipient MUST respond with a connection error
- // (Section 5.4.1) of type PROTOCOL_ERROR.
- return nil, ConnectionError(ErrCodeProtocol)
- }
- // The PUSH_PROMISE frame includes optional padding.
- // Padding fields and flags are identical to those defined for DATA frames
- var padLength uint8
- if fh.Flags.Has(FlagPushPromisePadded) {
- if p, padLength, err = readByte(p); err != nil {
- return
- }
- }
- p, pp.PromiseID, err = readUint32(p)
- if err != nil {
- return
- }
- pp.PromiseID = pp.PromiseID & (1<<31 - 1)
- if int(padLength) > len(p) {
- // like the DATA frame, error out if padding is longer than the body.
- return nil, ConnectionError(ErrCodeProtocol)
- }
- pp.headerFragBuf = p[:len(p)-int(padLength)]
- return pp, nil
- }
- // PushPromiseParam are the parameters for writing a PUSH_PROMISE frame.
- type PushPromiseParam struct {
- // StreamID is the required Stream ID to initiate.
- StreamID uint32
- // PromiseID is the required Stream ID which this
- // Push Promises
- PromiseID uint32
- // BlockFragment is part (or all) of a Header Block.
- BlockFragment []byte
- // EndHeaders indicates that this frame contains an entire
- // header block and is not followed by any
- // CONTINUATION frames.
- EndHeaders bool
- // PadLength is the optional number of bytes of zeros to add
- // to this frame.
- PadLength uint8
- }
- // WritePushPromise writes a single PushPromise Frame.
- //
- // As with Header Frames, This is the low level call for writing
- // individual frames. Continuation frames are handled elsewhere.
- //
- // It will perform exactly one Write to the underlying Writer.
- // It is the caller's responsibility to not call other Write methods concurrently.
- func (f *Framer) WritePushPromise(p PushPromiseParam) error {
- if !validStreamID(p.StreamID) && !f.AllowIllegalWrites {
- return errStreamID
- }
- var flags Flags
- if p.PadLength != 0 {
- flags |= FlagPushPromisePadded
- }
- if p.EndHeaders {
- flags |= FlagPushPromiseEndHeaders
- }
- f.startWrite(FramePushPromise, flags, p.StreamID)
- if p.PadLength != 0 {
- f.writeByte(p.PadLength)
- }
- if !validStreamID(p.PromiseID) && !f.AllowIllegalWrites {
- return errStreamID
- }
- f.writeUint32(p.PromiseID)
- f.wbuf = append(f.wbuf, p.BlockFragment...)
- f.wbuf = append(f.wbuf, padZeros[:p.PadLength]...)
- return f.endWrite()
- }
- // WriteRawFrame writes a raw frame. This can be used to write
- // extension frames unknown to this package.
- func (f *Framer) WriteRawFrame(t FrameType, flags Flags, streamID uint32, payload []byte) error {
- f.startWrite(t, flags, streamID)
- f.writeBytes(payload)
- return f.endWrite()
- }
- func readByte(p []byte) (remain []byte, b byte, err error) {
- if len(p) == 0 {
- return nil, 0, io.ErrUnexpectedEOF
- }
- return p[1:], p[0], nil
- }
- func readUint32(p []byte) (remain []byte, v uint32, err error) {
- if len(p) < 4 {
- return nil, 0, io.ErrUnexpectedEOF
- }
- return p[4:], binary.BigEndian.Uint32(p[:4]), nil
- }
- type streamEnder interface {
- StreamEnded() bool
- }
- type headersEnder interface {
- HeadersEnded() bool
- }
- type headersOrContinuation interface {
- headersEnder
- HeaderBlockFragment() []byte
- }
- // A MetaHeadersFrame is the representation of one HEADERS frame and
- // zero or more contiguous CONTINUATION frames and the decoding of
- // their HPACK-encoded contents.
- //
- // This type of frame does not appear on the wire and is only returned
- // by the Framer when Framer.ReadMetaHeaders is set.
- type MetaHeadersFrame struct {
- *HeadersFrame
- // Fields are the fields contained in the HEADERS and
- // CONTINUATION frames. The underlying slice is owned by the
- // Framer and must not be retained after the next call to
- // ReadFrame.
- //
- // Fields are guaranteed to be in the correct http2 order and
- // not have unknown pseudo header fields or invalid header
- // field names or values. Required pseudo header fields may be
- // missing, however. Use the MetaHeadersFrame.Pseudo accessor
- // method access pseudo headers.
- Fields []hpack.HeaderField
- // Truncated is whether the max header list size limit was hit
- // and Fields is incomplete. The hpack decoder state is still
- // valid, however.
- Truncated bool
- }
- // PseudoValue returns the given pseudo header field's value.
- // The provided pseudo field should not contain the leading colon.
- func (mh *MetaHeadersFrame) PseudoValue(pseudo string) string {
- for _, hf := range mh.Fields {
- if !hf.IsPseudo() {
- return ""
- }
- if hf.Name[1:] == pseudo {
- return hf.Value
- }
- }
- return ""
- }
- // RegularFields returns the regular (non-pseudo) header fields of mh.
- // The caller does not own the returned slice.
- func (mh *MetaHeadersFrame) RegularFields() []hpack.HeaderField {
- for i, hf := range mh.Fields {
- if !hf.IsPseudo() {
- return mh.Fields[i:]
- }
- }
- return nil
- }
- // PseudoFields returns the pseudo header fields of mh.
- // The caller does not own the returned slice.
- func (mh *MetaHeadersFrame) PseudoFields() []hpack.HeaderField {
- for i, hf := range mh.Fields {
- if !hf.IsPseudo() {
- return mh.Fields[:i]
- }
- }
- return mh.Fields
- }
- func (mh *MetaHeadersFrame) checkPseudos() error {
- var isRequest, isResponse bool
- pf := mh.PseudoFields()
- for i, hf := range pf {
- switch hf.Name {
- case ":method", ":path", ":scheme", ":authority":
- isRequest = true
- case ":status":
- isResponse = true
- default:
- return pseudoHeaderError(hf.Name)
- }
- // Check for duplicates.
- // This would be a bad algorithm, but N is 4.
- // And this doesn't allocate.
- for _, hf2 := range pf[:i] {
- if hf.Name == hf2.Name {
- return duplicatePseudoHeaderError(hf.Name)
- }
- }
- }
- if isRequest && isResponse {
- return errMixPseudoHeaderTypes
- }
- return nil
- }
- func (fr *Framer) maxHeaderStringLen() int {
- v := fr.maxHeaderListSize()
- if uint32(int(v)) == v {
- return int(v)
- }
- // They had a crazy big number for MaxHeaderBytes anyway,
- // so give them unlimited header lengths:
- return 0
- }
- // readMetaFrame returns 0 or more CONTINUATION frames from fr and
- // merge them into into the provided hf and returns a MetaHeadersFrame
- // with the decoded hpack values.
- func (fr *Framer) readMetaFrame(hf *HeadersFrame) (*MetaHeadersFrame, error) {
- if fr.AllowIllegalReads {
- return nil, errors.New("illegal use of AllowIllegalReads with ReadMetaHeaders")
- }
- mh := &MetaHeadersFrame{
- HeadersFrame: hf,
- }
- var remainSize = fr.maxHeaderListSize()
- var sawRegular bool
- var invalid error // pseudo header field errors
- hdec := fr.ReadMetaHeaders
- hdec.SetEmitEnabled(true)
- hdec.SetMaxStringLength(fr.maxHeaderStringLen())
- hdec.SetEmitFunc(func(hf hpack.HeaderField) {
- if !validHeaderFieldValue(hf.Value) {
- invalid = headerFieldValueError(hf.Value)
- }
- isPseudo := strings.HasPrefix(hf.Name, ":")
- if isPseudo {
- if sawRegular {
- invalid = errPseudoAfterRegular
- }
- } else {
- sawRegular = true
- if !validHeaderFieldName(hf.Name) {
- invalid = headerFieldNameError(hf.Name)
- }
- }
- if invalid != nil {
- hdec.SetEmitEnabled(false)
- return
- }
- size := hf.Size()
- if size > remainSize {
- hdec.SetEmitEnabled(false)
- mh.Truncated = true
- return
- }
- remainSize -= size
- mh.Fields = append(mh.Fields, hf)
- })
- // Lose reference to MetaHeadersFrame:
- defer hdec.SetEmitFunc(func(hf hpack.HeaderField) {})
- var hc headersOrContinuation = hf
- for {
- frag := hc.HeaderBlockFragment()
- if _, err := hdec.Write(frag); err != nil {
- return nil, ConnectionError(ErrCodeCompression)
- }
- if hc.HeadersEnded() {
- break
- }
- if f, err := fr.ReadFrame(); err != nil {
- return nil, err
- } else {
- hc = f.(*ContinuationFrame) // guaranteed by checkFrameOrder
- }
- }
- mh.HeadersFrame.headerFragBuf = nil
- mh.HeadersFrame.invalidate()
- if err := hdec.Close(); err != nil {
- return nil, ConnectionError(ErrCodeCompression)
- }
- if invalid != nil {
- fr.errDetail = invalid
- return nil, StreamError{mh.StreamID, ErrCodeProtocol}
- }
- if err := mh.checkPseudos(); err != nil {
- fr.errDetail = err
- return nil, StreamError{mh.StreamID, ErrCodeProtocol}
- }
- return mh, nil
- }
- func summarizeFrame(f Frame) string {
- var buf bytes.Buffer
- f.Header().writeDebug(&buf)
- switch f := f.(type) {
- case *SettingsFrame:
- n := 0
- f.ForeachSetting(func(s Setting) error {
- n++
- if n == 1 {
- buf.WriteString(", settings:")
- }
- fmt.Fprintf(&buf, " %v=%v,", s.ID, s.Val)
- return nil
- })
- if n > 0 {
- buf.Truncate(buf.Len() - 1) // remove trailing comma
- }
- case *DataFrame:
- data := f.Data()
- const max = 256
- if len(data) > max {
- data = data[:max]
- }
- fmt.Fprintf(&buf, " data=%q", data)
- if len(f.Data()) > max {
- fmt.Fprintf(&buf, " (%d bytes omitted)", len(f.Data())-max)
- }
- case *WindowUpdateFrame:
- if f.StreamID == 0 {
- buf.WriteString(" (conn)")
- }
- fmt.Fprintf(&buf, " incr=%v", f.Increment)
- case *PingFrame:
- fmt.Fprintf(&buf, " ping=%q", f.Data[:])
- case *GoAwayFrame:
- fmt.Fprintf(&buf, " LastStreamID=%v ErrCode=%v Debug=%q",
- f.LastStreamID, f.ErrCode, f.debugData)
- case *RSTStreamFrame:
- fmt.Fprintf(&buf, " ErrCode=%v", f.ErrCode)
- }
- return buf.String()
- }
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