cloudflared-mirror/vendor/google.golang.org/grpc/transport/controlbuf.go

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/*
*
* Copyright 2014 gRPC authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
package transport
import (
"bytes"
"fmt"
"runtime"
"sync"
"golang.org/x/net/http2"
"golang.org/x/net/http2/hpack"
)
var updateHeaderTblSize = func(e *hpack.Encoder, v uint32) {
e.SetMaxDynamicTableSizeLimit(v)
}
type itemNode struct {
it interface{}
next *itemNode
}
type itemList struct {
head *itemNode
tail *itemNode
}
func (il *itemList) enqueue(i interface{}) {
n := &itemNode{it: i}
if il.tail == nil {
il.head, il.tail = n, n
return
}
il.tail.next = n
il.tail = n
}
// peek returns the first item in the list without removing it from the
// list.
func (il *itemList) peek() interface{} {
return il.head.it
}
func (il *itemList) dequeue() interface{} {
if il.head == nil {
return nil
}
i := il.head.it
il.head = il.head.next
if il.head == nil {
il.tail = nil
}
return i
}
func (il *itemList) dequeueAll() *itemNode {
h := il.head
il.head, il.tail = nil, nil
return h
}
func (il *itemList) isEmpty() bool {
return il.head == nil
}
// The following defines various control items which could flow through
// the control buffer of transport. They represent different aspects of
// control tasks, e.g., flow control, settings, streaming resetting, etc.
// registerStream is used to register an incoming stream with loopy writer.
type registerStream struct {
streamID uint32
wq *writeQuota
}
// headerFrame is also used to register stream on the client-side.
type headerFrame struct {
streamID uint32
hf []hpack.HeaderField
endStream bool // Valid on server side.
initStream func(uint32) (bool, error) // Used only on the client side.
onWrite func()
wq *writeQuota // write quota for the stream created.
cleanup *cleanupStream // Valid on the server side.
onOrphaned func(error) // Valid on client-side
}
type cleanupStream struct {
streamID uint32
idPtr *uint32
rst bool
rstCode http2.ErrCode
onWrite func()
}
type dataFrame struct {
streamID uint32
endStream bool
h []byte
d []byte
// onEachWrite is called every time
// a part of d is written out.
onEachWrite func()
}
type incomingWindowUpdate struct {
streamID uint32
increment uint32
}
type outgoingWindowUpdate struct {
streamID uint32
increment uint32
}
type incomingSettings struct {
ss []http2.Setting
}
type outgoingSettings struct {
ss []http2.Setting
}
type settingsAck struct {
}
type incomingGoAway struct {
}
type goAway struct {
code http2.ErrCode
debugData []byte
headsUp bool
closeConn bool
}
type ping struct {
ack bool
data [8]byte
}
type outFlowControlSizeRequest struct {
resp chan uint32
}
type outStreamState int
const (
active outStreamState = iota
empty
waitingOnStreamQuota
)
type outStream struct {
id uint32
state outStreamState
itl *itemList
bytesOutStanding int
wq *writeQuota
next *outStream
prev *outStream
}
func (s *outStream) deleteSelf() {
if s.prev != nil {
s.prev.next = s.next
}
if s.next != nil {
s.next.prev = s.prev
}
s.next, s.prev = nil, nil
}
type outStreamList struct {
// Following are sentinel objects that mark the
// beginning and end of the list. They do not
// contain any item lists. All valid objects are
// inserted in between them.
// This is needed so that an outStream object can
// deleteSelf() in O(1) time without knowing which
// list it belongs to.
head *outStream
tail *outStream
}
func newOutStreamList() *outStreamList {
head, tail := new(outStream), new(outStream)
head.next = tail
tail.prev = head
return &outStreamList{
head: head,
tail: tail,
}
}
func (l *outStreamList) enqueue(s *outStream) {
e := l.tail.prev
e.next = s
s.prev = e
s.next = l.tail
l.tail.prev = s
}
// remove from the beginning of the list.
func (l *outStreamList) dequeue() *outStream {
b := l.head.next
if b == l.tail {
return nil
}
b.deleteSelf()
return b
}
type controlBuffer struct {
ch chan struct{}
done <-chan struct{}
mu sync.Mutex
consumerWaiting bool
list *itemList
err error
}
func newControlBuffer(done <-chan struct{}) *controlBuffer {
return &controlBuffer{
ch: make(chan struct{}, 1),
list: &itemList{},
done: done,
}
}
func (c *controlBuffer) put(it interface{}) error {
_, err := c.executeAndPut(nil, it)
return err
}
func (c *controlBuffer) executeAndPut(f func(it interface{}) bool, it interface{}) (bool, error) {
var wakeUp bool
c.mu.Lock()
if c.err != nil {
c.mu.Unlock()
return false, c.err
}
if f != nil {
if !f(it) { // f wasn't successful
c.mu.Unlock()
return false, nil
}
}
if c.consumerWaiting {
wakeUp = true
c.consumerWaiting = false
}
c.list.enqueue(it)
c.mu.Unlock()
if wakeUp {
select {
case c.ch <- struct{}{}:
default:
}
}
return true, nil
}
func (c *controlBuffer) get(block bool) (interface{}, error) {
for {
c.mu.Lock()
if c.err != nil {
c.mu.Unlock()
return nil, c.err
}
if !c.list.isEmpty() {
h := c.list.dequeue()
c.mu.Unlock()
return h, nil
}
if !block {
c.mu.Unlock()
return nil, nil
}
c.consumerWaiting = true
c.mu.Unlock()
select {
case <-c.ch:
case <-c.done:
c.finish()
return nil, ErrConnClosing
}
}
}
func (c *controlBuffer) finish() {
c.mu.Lock()
if c.err != nil {
c.mu.Unlock()
return
}
c.err = ErrConnClosing
// There may be headers for streams in the control buffer.
// These streams need to be cleaned out since the transport
// is still not aware of these yet.
for head := c.list.dequeueAll(); head != nil; head = head.next {
hdr, ok := head.it.(*headerFrame)
if !ok {
continue
}
if hdr.onOrphaned != nil { // It will be nil on the server-side.
hdr.onOrphaned(ErrConnClosing)
}
}
c.mu.Unlock()
}
type side int
const (
clientSide side = iota
serverSide
)
type loopyWriter struct {
side side
cbuf *controlBuffer
sendQuota uint32
oiws uint32 // outbound initial window size.
estdStreams map[uint32]*outStream // Established streams.
activeStreams *outStreamList // Streams that are sending data.
framer *framer
hBuf *bytes.Buffer // The buffer for HPACK encoding.
hEnc *hpack.Encoder // HPACK encoder.
bdpEst *bdpEstimator
draining bool
// Side-specific handlers
ssGoAwayHandler func(*goAway) (bool, error)
}
func newLoopyWriter(s side, fr *framer, cbuf *controlBuffer, bdpEst *bdpEstimator) *loopyWriter {
var buf bytes.Buffer
l := &loopyWriter{
side: s,
cbuf: cbuf,
sendQuota: defaultWindowSize,
oiws: defaultWindowSize,
estdStreams: make(map[uint32]*outStream),
activeStreams: newOutStreamList(),
framer: fr,
hBuf: &buf,
hEnc: hpack.NewEncoder(&buf),
bdpEst: bdpEst,
}
return l
}
const minBatchSize = 1000
// run should be run in a separate goroutine.
func (l *loopyWriter) run() (err error) {
defer func() {
if err == ErrConnClosing {
// Don't log ErrConnClosing as error since it happens
// 1. When the connection is closed by some other known issue.
// 2. User closed the connection.
// 3. A graceful close of connection.
infof("transport: loopyWriter.run returning. %v", err)
err = nil
}
}()
for {
it, err := l.cbuf.get(true)
if err != nil {
return err
}
if err = l.handle(it); err != nil {
return err
}
if _, err = l.processData(); err != nil {
return err
}
gosched := true
hasdata:
for {
it, err := l.cbuf.get(false)
if err != nil {
return err
}
if it != nil {
if err = l.handle(it); err != nil {
return err
}
if _, err = l.processData(); err != nil {
return err
}
continue hasdata
}
isEmpty, err := l.processData()
if err != nil {
return err
}
if !isEmpty {
continue hasdata
}
if gosched {
gosched = false
if l.framer.writer.offset < minBatchSize {
runtime.Gosched()
continue hasdata
}
}
l.framer.writer.Flush()
break hasdata
}
}
}
func (l *loopyWriter) outgoingWindowUpdateHandler(w *outgoingWindowUpdate) error {
return l.framer.fr.WriteWindowUpdate(w.streamID, w.increment)
}
func (l *loopyWriter) incomingWindowUpdateHandler(w *incomingWindowUpdate) error {
// Otherwise update the quota.
if w.streamID == 0 {
l.sendQuota += w.increment
return nil
}
// Find the stream and update it.
if str, ok := l.estdStreams[w.streamID]; ok {
str.bytesOutStanding -= int(w.increment)
if strQuota := int(l.oiws) - str.bytesOutStanding; strQuota > 0 && str.state == waitingOnStreamQuota {
str.state = active
l.activeStreams.enqueue(str)
return nil
}
}
return nil
}
func (l *loopyWriter) outgoingSettingsHandler(s *outgoingSettings) error {
return l.framer.fr.WriteSettings(s.ss...)
}
func (l *loopyWriter) incomingSettingsHandler(s *incomingSettings) error {
if err := l.applySettings(s.ss); err != nil {
return err
}
return l.framer.fr.WriteSettingsAck()
}
func (l *loopyWriter) registerStreamHandler(h *registerStream) error {
str := &outStream{
id: h.streamID,
state: empty,
itl: &itemList{},
wq: h.wq,
}
l.estdStreams[h.streamID] = str
return nil
}
func (l *loopyWriter) headerHandler(h *headerFrame) error {
if l.side == serverSide {
str, ok := l.estdStreams[h.streamID]
if !ok {
warningf("transport: loopy doesn't recognize the stream: %d", h.streamID)
return nil
}
// Case 1.A: Server is responding back with headers.
if !h.endStream {
return l.writeHeader(h.streamID, h.endStream, h.hf, h.onWrite)
}
// else: Case 1.B: Server wants to close stream.
if str.state != empty { // either active or waiting on stream quota.
// add it str's list of items.
str.itl.enqueue(h)
return nil
}
if err := l.writeHeader(h.streamID, h.endStream, h.hf, h.onWrite); err != nil {
return err
}
return l.cleanupStreamHandler(h.cleanup)
}
// Case 2: Client wants to originate stream.
str := &outStream{
id: h.streamID,
state: empty,
itl: &itemList{},
wq: h.wq,
}
str.itl.enqueue(h)
return l.originateStream(str)
}
func (l *loopyWriter) originateStream(str *outStream) error {
hdr := str.itl.dequeue().(*headerFrame)
sendPing, err := hdr.initStream(str.id)
if err != nil {
if err == ErrConnClosing {
return err
}
// Other errors(errStreamDrain) need not close transport.
return nil
}
if err = l.writeHeader(str.id, hdr.endStream, hdr.hf, hdr.onWrite); err != nil {
return err
}
l.estdStreams[str.id] = str
if sendPing {
return l.pingHandler(&ping{data: [8]byte{}})
}
return nil
}
func (l *loopyWriter) writeHeader(streamID uint32, endStream bool, hf []hpack.HeaderField, onWrite func()) error {
if onWrite != nil {
onWrite()
}
l.hBuf.Reset()
for _, f := range hf {
if err := l.hEnc.WriteField(f); err != nil {
warningf("transport: loopyWriter.writeHeader encountered error while encoding headers:", err)
}
}
var (
err error
endHeaders, first bool
)
first = true
for !endHeaders {
size := l.hBuf.Len()
if size > http2MaxFrameLen {
size = http2MaxFrameLen
} else {
endHeaders = true
}
if first {
first = false
err = l.framer.fr.WriteHeaders(http2.HeadersFrameParam{
StreamID: streamID,
BlockFragment: l.hBuf.Next(size),
EndStream: endStream,
EndHeaders: endHeaders,
})
} else {
err = l.framer.fr.WriteContinuation(
streamID,
endHeaders,
l.hBuf.Next(size),
)
}
if err != nil {
return err
}
}
return nil
}
func (l *loopyWriter) preprocessData(df *dataFrame) error {
str, ok := l.estdStreams[df.streamID]
if !ok {
return nil
}
// If we got data for a stream it means that
// stream was originated and the headers were sent out.
str.itl.enqueue(df)
if str.state == empty {
str.state = active
l.activeStreams.enqueue(str)
}
return nil
}
func (l *loopyWriter) pingHandler(p *ping) error {
if !p.ack {
l.bdpEst.timesnap(p.data)
}
return l.framer.fr.WritePing(p.ack, p.data)
}
func (l *loopyWriter) outFlowControlSizeRequestHandler(o *outFlowControlSizeRequest) error {
o.resp <- l.sendQuota
return nil
}
func (l *loopyWriter) cleanupStreamHandler(c *cleanupStream) error {
c.onWrite()
if str, ok := l.estdStreams[c.streamID]; ok {
// On the server side it could be a trailers-only response or
// a RST_STREAM before stream initialization thus the stream might
// not be established yet.
delete(l.estdStreams, c.streamID)
str.deleteSelf()
}
if c.rst { // If RST_STREAM needs to be sent.
if err := l.framer.fr.WriteRSTStream(c.streamID, c.rstCode); err != nil {
return err
}
}
if l.side == clientSide && l.draining && len(l.estdStreams) == 0 {
return ErrConnClosing
}
return nil
}
func (l *loopyWriter) incomingGoAwayHandler(*incomingGoAway) error {
if l.side == clientSide {
l.draining = true
if len(l.estdStreams) == 0 {
return ErrConnClosing
}
}
return nil
}
func (l *loopyWriter) goAwayHandler(g *goAway) error {
// Handling of outgoing GoAway is very specific to side.
if l.ssGoAwayHandler != nil {
draining, err := l.ssGoAwayHandler(g)
if err != nil {
return err
}
l.draining = draining
}
return nil
}
func (l *loopyWriter) handle(i interface{}) error {
switch i := i.(type) {
case *incomingWindowUpdate:
return l.incomingWindowUpdateHandler(i)
case *outgoingWindowUpdate:
return l.outgoingWindowUpdateHandler(i)
case *incomingSettings:
return l.incomingSettingsHandler(i)
case *outgoingSettings:
return l.outgoingSettingsHandler(i)
case *headerFrame:
return l.headerHandler(i)
case *registerStream:
return l.registerStreamHandler(i)
case *cleanupStream:
return l.cleanupStreamHandler(i)
case *incomingGoAway:
return l.incomingGoAwayHandler(i)
case *dataFrame:
return l.preprocessData(i)
case *ping:
return l.pingHandler(i)
case *goAway:
return l.goAwayHandler(i)
case *outFlowControlSizeRequest:
return l.outFlowControlSizeRequestHandler(i)
default:
return fmt.Errorf("transport: unknown control message type %T", i)
}
}
func (l *loopyWriter) applySettings(ss []http2.Setting) error {
for _, s := range ss {
switch s.ID {
case http2.SettingInitialWindowSize:
o := l.oiws
l.oiws = s.Val
if o < l.oiws {
// If the new limit is greater make all depleted streams active.
for _, stream := range l.estdStreams {
if stream.state == waitingOnStreamQuota {
stream.state = active
l.activeStreams.enqueue(stream)
}
}
}
case http2.SettingHeaderTableSize:
updateHeaderTblSize(l.hEnc, s.Val)
}
}
return nil
}
func (l *loopyWriter) processData() (bool, error) {
if l.sendQuota == 0 {
return true, nil
}
str := l.activeStreams.dequeue()
if str == nil {
return true, nil
}
dataItem := str.itl.peek().(*dataFrame)
if len(dataItem.h) == 0 && len(dataItem.d) == 0 {
// Client sends out empty data frame with endStream = true
if err := l.framer.fr.WriteData(dataItem.streamID, dataItem.endStream, nil); err != nil {
return false, err
}
str.itl.dequeue()
if str.itl.isEmpty() {
str.state = empty
} else if trailer, ok := str.itl.peek().(*headerFrame); ok { // the next item is trailers.
if err := l.writeHeader(trailer.streamID, trailer.endStream, trailer.hf, trailer.onWrite); err != nil {
return false, err
}
if err := l.cleanupStreamHandler(trailer.cleanup); err != nil {
return false, nil
}
} else {
l.activeStreams.enqueue(str)
}
return false, nil
}
var (
idx int
buf []byte
)
if len(dataItem.h) != 0 { // data header has not been written out yet.
buf = dataItem.h
} else {
idx = 1
buf = dataItem.d
}
size := http2MaxFrameLen
if len(buf) < size {
size = len(buf)
}
if strQuota := int(l.oiws) - str.bytesOutStanding; strQuota <= 0 {
str.state = waitingOnStreamQuota
return false, nil
} else if strQuota < size {
size = strQuota
}
if l.sendQuota < uint32(size) {
size = int(l.sendQuota)
}
// Now that outgoing flow controls are checked we can replenish str's write quota
str.wq.replenish(size)
var endStream bool
// This last data message on this stream and all
// of it can be written in this go.
if dataItem.endStream && size == len(buf) {
// buf contains either data or it contains header but data is empty.
if idx == 1 || len(dataItem.d) == 0 {
endStream = true
}
}
if dataItem.onEachWrite != nil {
dataItem.onEachWrite()
}
if err := l.framer.fr.WriteData(dataItem.streamID, endStream, buf[:size]); err != nil {
return false, err
}
buf = buf[size:]
str.bytesOutStanding += size
l.sendQuota -= uint32(size)
if idx == 0 {
dataItem.h = buf
} else {
dataItem.d = buf
}
if len(dataItem.h) == 0 && len(dataItem.d) == 0 { // All the data from that message was written out.
str.itl.dequeue()
}
if str.itl.isEmpty() {
str.state = empty
} else if trailer, ok := str.itl.peek().(*headerFrame); ok { // The next item is trailers.
if err := l.writeHeader(trailer.streamID, trailer.endStream, trailer.hf, trailer.onWrite); err != nil {
return false, err
}
if err := l.cleanupStreamHandler(trailer.cleanup); err != nil {
return false, err
}
} else if int(l.oiws)-str.bytesOutStanding <= 0 { // Ran out of stream quota.
str.state = waitingOnStreamQuota
} else { // Otherwise add it back to the list of active streams.
l.activeStreams.enqueue(str)
}
return false, nil
}