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caddy/vendor/github.com/lucas-clemente/quic-go/flowcontrol/flow_control_manager.go
2017-07-27 16:11:56 -06:00

240 lines
7.2 KiB
Go

package flowcontrol
import (
"errors"
"fmt"
"sync"
"github.com/lucas-clemente/quic-go/congestion"
"github.com/lucas-clemente/quic-go/handshake"
"github.com/lucas-clemente/quic-go/internal/utils"
"github.com/lucas-clemente/quic-go/protocol"
"github.com/lucas-clemente/quic-go/qerr"
)
type flowControlManager struct {
connectionParameters handshake.ConnectionParametersManager
rttStats *congestion.RTTStats
streamFlowController map[protocol.StreamID]*flowController
connFlowController *flowController
mutex sync.RWMutex
}
var _ FlowControlManager = &flowControlManager{}
var errMapAccess = errors.New("Error accessing the flowController map.")
// NewFlowControlManager creates a new flow control manager
func NewFlowControlManager(connectionParameters handshake.ConnectionParametersManager, rttStats *congestion.RTTStats) FlowControlManager {
return &flowControlManager{
connectionParameters: connectionParameters,
rttStats: rttStats,
streamFlowController: make(map[protocol.StreamID]*flowController),
connFlowController: newFlowController(0, false, connectionParameters, rttStats),
}
}
// NewStream creates new flow controllers for a stream
// it does nothing if the stream already exists
func (f *flowControlManager) NewStream(streamID protocol.StreamID, contributesToConnection bool) {
f.mutex.Lock()
defer f.mutex.Unlock()
if _, ok := f.streamFlowController[streamID]; ok {
return
}
f.streamFlowController[streamID] = newFlowController(streamID, contributesToConnection, f.connectionParameters, f.rttStats)
}
// RemoveStream removes a closed stream from flow control
func (f *flowControlManager) RemoveStream(streamID protocol.StreamID) {
f.mutex.Lock()
delete(f.streamFlowController, streamID)
f.mutex.Unlock()
}
// ResetStream should be called when receiving a RstStreamFrame
// it updates the byte offset to the value in the RstStreamFrame
// streamID must not be 0 here
func (f *flowControlManager) ResetStream(streamID protocol.StreamID, byteOffset protocol.ByteCount) error {
f.mutex.Lock()
defer f.mutex.Unlock()
streamFlowController, err := f.getFlowController(streamID)
if err != nil {
return err
}
increment, err := streamFlowController.UpdateHighestReceived(byteOffset)
if err != nil {
return qerr.StreamDataAfterTermination
}
if streamFlowController.CheckFlowControlViolation() {
return qerr.Error(qerr.FlowControlReceivedTooMuchData, fmt.Sprintf("Received %d bytes on stream %d, allowed %d bytes", byteOffset, streamID, streamFlowController.receiveWindow))
}
if streamFlowController.ContributesToConnection() {
f.connFlowController.IncrementHighestReceived(increment)
if f.connFlowController.CheckFlowControlViolation() {
return qerr.Error(qerr.FlowControlReceivedTooMuchData, fmt.Sprintf("Received %d bytes for the connection, allowed %d bytes", f.connFlowController.highestReceived, f.connFlowController.receiveWindow))
}
}
return nil
}
// UpdateHighestReceived updates the highest received byte offset for a stream
// it adds the number of additional bytes to connection level flow control
// streamID must not be 0 here
func (f *flowControlManager) UpdateHighestReceived(streamID protocol.StreamID, byteOffset protocol.ByteCount) error {
f.mutex.Lock()
defer f.mutex.Unlock()
streamFlowController, err := f.getFlowController(streamID)
if err != nil {
return err
}
// UpdateHighestReceived returns an ErrReceivedSmallerByteOffset when StreamFrames got reordered
// this error can be ignored here
increment, _ := streamFlowController.UpdateHighestReceived(byteOffset)
if streamFlowController.CheckFlowControlViolation() {
return qerr.Error(qerr.FlowControlReceivedTooMuchData, fmt.Sprintf("Received %d bytes on stream %d, allowed %d bytes", byteOffset, streamID, streamFlowController.receiveWindow))
}
if streamFlowController.ContributesToConnection() {
f.connFlowController.IncrementHighestReceived(increment)
if f.connFlowController.CheckFlowControlViolation() {
return qerr.Error(qerr.FlowControlReceivedTooMuchData, fmt.Sprintf("Received %d bytes for the connection, allowed %d bytes", f.connFlowController.highestReceived, f.connFlowController.receiveWindow))
}
}
return nil
}
// streamID must not be 0 here
func (f *flowControlManager) AddBytesRead(streamID protocol.StreamID, n protocol.ByteCount) error {
f.mutex.Lock()
defer f.mutex.Unlock()
fc, err := f.getFlowController(streamID)
if err != nil {
return err
}
fc.AddBytesRead(n)
if fc.ContributesToConnection() {
f.connFlowController.AddBytesRead(n)
}
return nil
}
func (f *flowControlManager) GetWindowUpdates() (res []WindowUpdate) {
f.mutex.Lock()
defer f.mutex.Unlock()
// get WindowUpdates for streams
for id, fc := range f.streamFlowController {
if necessary, newIncrement, offset := fc.MaybeUpdateWindow(); necessary {
res = append(res, WindowUpdate{StreamID: id, Offset: offset})
if fc.ContributesToConnection() && newIncrement != 0 {
f.connFlowController.EnsureMinimumWindowIncrement(protocol.ByteCount(float64(newIncrement) * protocol.ConnectionFlowControlMultiplier))
}
}
}
// get a WindowUpdate for the connection
if necessary, _, offset := f.connFlowController.MaybeUpdateWindow(); necessary {
res = append(res, WindowUpdate{StreamID: 0, Offset: offset})
}
return
}
func (f *flowControlManager) GetReceiveWindow(streamID protocol.StreamID) (protocol.ByteCount, error) {
f.mutex.RLock()
defer f.mutex.RUnlock()
// StreamID can be 0 when retransmitting
if streamID == 0 {
return f.connFlowController.receiveWindow, nil
}
flowController, err := f.getFlowController(streamID)
if err != nil {
return 0, err
}
return flowController.receiveWindow, nil
}
// streamID must not be 0 here
func (f *flowControlManager) AddBytesSent(streamID protocol.StreamID, n protocol.ByteCount) error {
f.mutex.Lock()
defer f.mutex.Unlock()
fc, err := f.getFlowController(streamID)
if err != nil {
return err
}
fc.AddBytesSent(n)
if fc.ContributesToConnection() {
f.connFlowController.AddBytesSent(n)
}
return nil
}
// must not be called with StreamID 0
func (f *flowControlManager) SendWindowSize(streamID protocol.StreamID) (protocol.ByteCount, error) {
f.mutex.RLock()
defer f.mutex.RUnlock()
fc, err := f.getFlowController(streamID)
if err != nil {
return 0, err
}
res := fc.SendWindowSize()
if fc.ContributesToConnection() {
res = utils.MinByteCount(res, f.connFlowController.SendWindowSize())
}
return res, nil
}
func (f *flowControlManager) RemainingConnectionWindowSize() protocol.ByteCount {
f.mutex.RLock()
defer f.mutex.RUnlock()
return f.connFlowController.SendWindowSize()
}
// streamID may be 0 here
func (f *flowControlManager) UpdateWindow(streamID protocol.StreamID, offset protocol.ByteCount) (bool, error) {
f.mutex.Lock()
defer f.mutex.Unlock()
var fc *flowController
if streamID == 0 {
fc = f.connFlowController
} else {
var err error
fc, err = f.getFlowController(streamID)
if err != nil {
return false, err
}
}
return fc.UpdateSendWindow(offset), nil
}
func (f *flowControlManager) getFlowController(streamID protocol.StreamID) (*flowController, error) {
streamFlowController, ok := f.streamFlowController[streamID]
if !ok {
return nil, errMapAccess
}
return streamFlowController, nil
}