1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "net/quic/quic_flow_controller.h"
7 #include "base/basictypes.h"
8 #include "net/quic/quic_connection.h"
9 #include "net/quic/quic_flags.h"
10 #include "net/quic/quic_protocol.h"
15 const QuicByteCount kStreamReceiveWindowLimit
= 16 * 1024 * 1024; // 16 MB
16 const QuicByteCount kSessionReceiveWindowLimit
= 24 * 1024 * 1024; // 24 MB
20 (perspective_ == Perspective::IS_SERVER ? "Server: " : "Client: ")
22 QuicFlowController::QuicFlowController(QuicConnection
* connection
,
24 Perspective perspective
,
25 QuicStreamOffset send_window_offset
,
26 QuicStreamOffset receive_window_offset
,
27 bool should_auto_tune_receive_window
)
28 : connection_(connection
),
30 perspective_(perspective
),
32 send_window_offset_(send_window_offset
),
34 highest_received_byte_offset_(0),
35 receive_window_offset_(receive_window_offset
),
36 receive_window_size_(receive_window_offset
),
37 auto_tune_receive_window_(should_auto_tune_receive_window
),
38 last_blocked_send_window_offset_(0),
39 prev_window_update_time_(QuicTime::Zero()) {
40 receive_window_size_limit_
= (id_
== kConnectionLevelId
)
41 ? kSessionReceiveWindowLimit
42 : kStreamReceiveWindowLimit
;
44 DVLOG(1) << ENDPOINT
<< "Created flow controller for stream " << id_
45 << ", setting initial receive window offset to: "
46 << receive_window_offset_
47 << ", max receive window to: " << receive_window_size_
48 << ", max receive window limit to: " << receive_window_size_limit_
49 << ", setting send window offset to: " << send_window_offset_
;
52 void QuicFlowController::AddBytesConsumed(QuicByteCount bytes_consumed
) {
53 bytes_consumed_
+= bytes_consumed
;
54 DVLOG(1) << ENDPOINT
<< "Stream " << id_
<< " consumed: " << bytes_consumed_
;
56 MaybeSendWindowUpdate();
59 bool QuicFlowController::UpdateHighestReceivedOffset(
60 QuicStreamOffset new_offset
) {
61 // Only update if offset has increased.
62 if (new_offset
<= highest_received_byte_offset_
) {
66 DVLOG(1) << ENDPOINT
<< "Stream " << id_
67 << " highest byte offset increased from: "
68 << highest_received_byte_offset_
<< " to " << new_offset
;
69 highest_received_byte_offset_
= new_offset
;
73 void QuicFlowController::AddBytesSent(QuicByteCount bytes_sent
) {
74 if (bytes_sent_
+ bytes_sent
> send_window_offset_
) {
75 LOG(DFATAL
) << ENDPOINT
<< "Stream " << id_
<< " Trying to send an extra "
76 << bytes_sent
<< " bytes, when bytes_sent = " << bytes_sent_
77 << ", and send_window_offset_ = " << send_window_offset_
;
78 bytes_sent_
= send_window_offset_
;
80 // This is an error on our side, close the connection as soon as possible.
81 connection_
->SendConnectionClose(QUIC_FLOW_CONTROL_SENT_TOO_MUCH_DATA
);
85 bytes_sent_
+= bytes_sent
;
86 DVLOG(1) << ENDPOINT
<< "Stream " << id_
<< " sent: " << bytes_sent_
;
89 bool QuicFlowController::FlowControlViolation() {
90 if (highest_received_byte_offset_
> receive_window_offset_
) {
91 LOG(ERROR
) << ENDPOINT
<< "Flow control violation on stream "
92 << id_
<< ", receive window offset: "
93 << receive_window_offset_
94 << ", highest received byte offset: "
95 << highest_received_byte_offset_
;
101 void QuicFlowController::MaybeIncreaseMaxWindowSize() {
102 // Core of receive window auto tuning. This method should be called before a
103 // WINDOW_UPDATE frame is sent. Ideally, window updates should occur close to
104 // once per RTT. If a window update happens much faster than RTT, it implies
105 // that the flow control window is imposing a bottleneck. To prevent this,
106 // this method will increase the receive window size (subject to a reasonable
107 // upper bound). For simplicity this algorithm is deliberately asymmetric, in
108 // that it may increase window size but never decreases.
110 if (!FLAGS_quic_auto_tune_receive_window
) {
114 // Keep track of timing between successive window updates.
115 QuicTime now
= connection_
->clock()->ApproximateNow();
116 QuicTime prev
= prev_window_update_time_
;
117 prev_window_update_time_
= now
;
118 if (!prev
.IsInitialized()) {
119 DVLOG(1) << ENDPOINT
<< "first window update for stream " << id_
;
123 if (!auto_tune_receive_window_
) {
128 QuicTime::Delta rtt
=
129 connection_
->sent_packet_manager().GetRttStats()->smoothed_rtt();
131 DVLOG(1) << ENDPOINT
<< "rtt zero for stream " << id_
;
135 // Now we can compare timing of window updates with RTT.
136 QuicTime::Delta since_last
= now
.Subtract(prev
);
137 QuicTime::Delta two_rtt
= rtt
.Multiply(2);
139 if (since_last
>= two_rtt
) {
140 // If interval between window updates is sufficiently large, there
141 // is no need to increase receive_window_size_.
145 QuicByteCount old_window
= receive_window_size_
;
146 receive_window_size_
*= 2;
147 receive_window_size_
=
148 std::min(receive_window_size_
, receive_window_size_limit_
);
150 if (receive_window_size_
> old_window
) {
151 DVLOG(1) << ENDPOINT
<< "New max window increase for stream " << id_
152 << " after " << since_last
.ToMicroseconds() << " us, and RTT is "
153 << rtt
.ToMicroseconds()
154 << "us. max wndw: " << receive_window_size_
;
156 // TODO(ckrasic) - add a varz to track this (?).
157 DVLOG(1) << ENDPOINT
<< "Max window at limit for stream " << id_
158 << " after " << since_last
.ToMicroseconds() << " us, and RTT is "
159 << rtt
.ToMicroseconds()
160 << "us. Limit size: " << receive_window_size_
;
164 QuicByteCount
QuicFlowController::WindowUpdateThreshold() {
165 return receive_window_size_
/ 2;
168 void QuicFlowController::MaybeSendWindowUpdate() {
169 // Send WindowUpdate to increase receive window if
170 // (receive window offset - consumed bytes) < (max window / 2).
171 // This is behaviour copied from SPDY.
172 DCHECK_LE(bytes_consumed_
, receive_window_offset_
);
173 QuicStreamOffset available_window
= receive_window_offset_
- bytes_consumed_
;
174 QuicByteCount threshold
= WindowUpdateThreshold();
176 if (available_window
>= threshold
) {
177 DVLOG(1) << ENDPOINT
<< "Not sending WindowUpdate for stream " << id_
178 << ", available window: " << available_window
179 << ">= threshold: " << threshold
;
183 MaybeIncreaseMaxWindowSize();
185 // Update our receive window.
186 receive_window_offset_
+= (receive_window_size_
- available_window
);
188 DVLOG(1) << ENDPOINT
<< "Sending WindowUpdate frame for stream " << id_
189 << ", consumed bytes: " << bytes_consumed_
190 << ", available window: " << available_window
191 << ", and threshold: " << threshold
192 << ", and receive window size: " << receive_window_size_
193 << ". New receive window offset is: " << receive_window_offset_
;
195 // Inform the peer of our new receive window.
196 connection_
->SendWindowUpdate(id_
, receive_window_offset_
);
199 void QuicFlowController::MaybeSendBlocked() {
200 if (SendWindowSize() == 0 &&
201 last_blocked_send_window_offset_
< send_window_offset_
) {
202 DVLOG(1) << ENDPOINT
<< "Stream " << id_
<< " is flow control blocked. "
203 << "Send window: " << SendWindowSize()
204 << ", bytes sent: " << bytes_sent_
205 << ", send limit: " << send_window_offset_
;
206 // The entire send_window has been consumed, we are now flow control
208 connection_
->SendBlocked(id_
);
210 // Keep track of when we last sent a BLOCKED frame so that we only send one
211 // at a given send offset.
212 last_blocked_send_window_offset_
= send_window_offset_
;
216 bool QuicFlowController::UpdateSendWindowOffset(
217 QuicStreamOffset new_send_window_offset
) {
218 // Only update if send window has increased.
219 if (new_send_window_offset
<= send_window_offset_
) {
223 DVLOG(1) << ENDPOINT
<< "UpdateSendWindowOffset for stream " << id_
224 << " with new offset " << new_send_window_offset
225 << " current offset: " << send_window_offset_
226 << " bytes_sent: " << bytes_sent_
;
228 const bool blocked
= IsBlocked();
229 send_window_offset_
= new_send_window_offset
;
233 bool QuicFlowController::IsBlocked() const {
234 return SendWindowSize() == 0;
237 uint64
QuicFlowController::SendWindowSize() const {
238 if (bytes_sent_
> send_window_offset_
) {
241 return send_window_offset_
- bytes_sent_
;